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-rw-r--r--src/3rdparty/smount/smount.c66
-rw-r--r--src/3rdparty/smount/smount.h54
-rw-r--r--src/3rdparty/stb/stb.h14571
-rw-r--r--src/libjin/audio/sdl/audio.cpp30
-rw-r--r--src/libjin/audio/sdl/audio.h14
-rw-r--r--src/libjin/audio/sdl/source.cpp264
-rw-r--r--src/libjin/audio/sdl/source.h118
-rw-r--r--src/libjin/audio/source.h6
-rw-r--r--src/libjin/fs/filesystem.cpp16
-rw-r--r--src/libjin/fs/filesystem.h2
-rw-r--r--src/libjin/render/jsl.cpp2
-rw-r--r--src/libjin/utils/unittest.cpp22
12 files changed, 14977 insertions, 188 deletions
diff --git a/src/3rdparty/smount/smount.c b/src/3rdparty/smount/smount.c
index 6dfc159..c4e2ef0 100644
--- a/src/3rdparty/smount/smount.c
+++ b/src/3rdparty/smount/smount.c
@@ -8,9 +8,9 @@
#define isseparator(c) (c == '/' || c == '\\')
-static sm_Path* sm_newpath(int type, const char* path, sm_Path* next)
+static smtPath* smtnewpath(int type, const char* path, smtPath* next)
{
- sm_Path* temp = (sm_Path*)malloc(sizeof(sm_Path));
+ smtPath* temp = (smtPath*)malloc(sizeof(smtPath));
int len = strlen(path);
temp->path = (char*)malloc(len + 1);
memcpy(temp->path, path, len);
@@ -34,9 +34,9 @@ static const char* mkstr(const char* str)
/**
* Create a new shared contex.
*/
-sm_Shared* sm_newshared()
+smtShared* smtnewshared()
{
- sm_Shared* shared = (sm_Shared*)malloc(sizeof(sm_Shared));
+ smtShared* shared = (smtShared*)malloc(sizeof(smtShared));
shared->mount = 0;
return shared;
}
@@ -72,21 +72,21 @@ static int isdir(const char *path) {
return S_ISDIR(s.st_mode);
}
-int sm_mount(sm_Shared* S, const char *path)
+int smtmount(smtShared* S, const char *path)
{
if (!isdir(path))
{
- return SM_INVALIDMOUNT;
+ return SMT_INVALIDMOUNT;
}
- S->mount = sm_newpath(PATH_DIR, path, 0);
+ S->mount = smtnewpath(PATH_DIR, path, 0);
- return SM_SUCCESS;
+ return SMT_SUCCESS;
}
-void sm_unmount(sm_Shared* S)
+void smtunmount(smtShared* S)
{
- sm_Path* mount = S->mount;
+ smtPath* mount = S->mount;
while (mount)
{
free(mount->path);
@@ -94,19 +94,19 @@ void sm_unmount(sm_Shared* S)
}
}
-int sm_exists(sm_Shared* S, const char *path)
+int smtexists(smtShared* S, const char *path)
{
char* r = concat(S->mount->path, "/", path, 0);
- if (!r) return SM_NOSUCHDIR;
+ if (!r) return SMT_NOSUCHDIR;
struct stat s;
int res = stat(r, &s);
free(r);
if (res == 0)
- return SM_SUCCESS;
- return SM_NOSUCHDIR;
+ return SMT_SUCCESS;
+ return SMT_NOSUCHDIR;
}
-static struct stat sm_getstat(sm_Shared* S, const char*path)
+static struct stat smtgetstat(smtShared* S, const char*path)
{
char* r = concat(S->mount->path, "/", path, 0);
struct stat s = {};
@@ -116,30 +116,30 @@ static struct stat sm_getstat(sm_Shared* S, const char*path)
return s;
}
-int sm_isdir(sm_Shared* S, const char *path)
+int smtisdir(smtShared* S, const char *path)
{
- struct stat s = sm_getstat(S, path);
+ struct stat s = smtgetstat(S, path);
return S_ISDIR(s.st_mode);
}
-int sm_isreg(sm_Shared* S, const char *path)
+int smtisreg(smtShared* S, const char *path)
{
- struct stat s = sm_getstat(S, path);
+ struct stat s = smtgetstat(S, path);
return S_ISREG(s.st_mode);
}
-const char* sm_errstr(int e)
+const char* smterrstr(int e)
{
switch (e)
{
- case SM_INVALIDMOUNT: return "invalid mount directory";
+ case SMT_INVALIDMOUNT: return "invalid mount directory";
default: return "unknown error";
}
}
-void *sm_read(sm_Shared* S, const char *path, unsigned int *size)
+void *smtread(smtShared* S, const char *path, unsigned int *size)
{
- if (!sm_isreg(S, path)) return 0;
+ if (!smtisreg(S, path)) return 0;
int fr = 0;
if (size == 0)
{
@@ -169,32 +169,32 @@ void *sm_read(sm_Shared* S, const char *path, unsigned int *size)
return res;
}
-char* sm_fullpath(sm_Shared* S, const char* path)
+char* smtfullpath(smtShared* S, const char* path)
{
return concat(S->mount->path, "/", path, 0);
}
-int sm_size(sm_Shared* S, const char *path)
+int smtsize(smtShared* S, const char *path)
{
- struct stat s = sm_getstat(S, path);
+ struct stat s = smtgetstat(S, path);
return s.st_size;
}
-void sm_delete(sm_Shared* S, const char *path)
+void smtdelete(smtShared* S, const char *path)
{
- char* name = sm_fullpath(S, path);
+ char* name = smtfullpath(S, path);
remove(name);
free(name);
}
-int sm_write(sm_Shared* S, const char *path, const void *data, int size)
+int smtwrite(smtShared* S, const char *path, const void *data, int size)
{
- char* name = sm_fullpath(S, path);
- if (!name) return SM_NOSUCHDIR;
+ char* name = smtfullpath(S, path);
+ if (!name) return SMT_NOSUCHDIR;
FILE *fp = fopen(name, "wb");
free(name);
- if (!fp) return SM_UNABLEOPEN;
+ if (!fp) return SMT_UNABLEOPEN;
int res = fwrite(data, size, 1, fp);
fclose(fp);
- return (res == 1) ? SM_SUCCESS : SM_CANTWRITE;
+ return (res == 1) ? SMT_SUCCESS : SMT_CANTWRITE;
} \ No newline at end of file
diff --git a/src/3rdparty/smount/smount.h b/src/3rdparty/smount/smount.h
index 249e590..05ee88b 100644
--- a/src/3rdparty/smount/smount.h
+++ b/src/3rdparty/smount/smount.h
@@ -14,78 +14,78 @@ enum
// sm status
enum
{
- SM_SUCCESS = 0,
- SM_INVALIDMOUNT = 1, // invalid mount directory.
- SM_NOSUCHDIR = 2, // directory or file doesn't exsist.
- SM_UNABLEOPEN = 3, //
- SM_CANTWRITE = 4,
+ SMT_SUCCESS = 0,
+ SMT_INVALIDMOUNT = 1, // invalid mount directory.
+ SMT_NOSUCHDIR = 2, // directory or file doesn't exsist.
+ SMT_UNABLEOPEN = 3, //
+ SMT_CANTWRITE = 4,
};
-typedef struct sm_Path
+typedef struct smtPath
{
int type;
char* path;
- struct sm_Path* next;
-}sm_Path;
+ struct smtPath* next;
+}smtPath;
/**
* A shared context structrue.
*/
-typedef struct sm_Shared
+typedef struct smtShared
{
// the root directory
- sm_Path* mount;
+ smtPath* mount;
-}sm_Shared;
+}smtShared;
-sm_Shared* sm_newshared();
+smtShared* smtnewshared();
-void sm_closeshared(sm_Shared* S);
+void smtcloseshared(smtShared* S);
/**
* Get error string with given error code.
*/
-const char *sm_errstr(int err);
+const char *smterrstr(int err);
/**
* Mount a sub file system.
*/
-int sm_mount(sm_Shared* S, const char *path);
+int smtmount(smtShared* S, const char *path);
/**
* Free mount
*/
-void sm_unmount(sm_Shared* S);
+void smtunmount(smtShared* S);
-int sm_exists(sm_Shared* S, const char *path);
+int smtexists(smtShared* S, const char *path);
/**
* Get size of a file.
*/
-int sm_size(sm_Shared* S, const char *path);
+int smtsize(smtShared* S, const char *path);
/**
* Can only read files under root directory.
*/
-void *sm_read(sm_Shared* S, const char *path, unsigned int *size);
+void *smtread(smtShared* S, const char *path, unsigned int *size);
-int sm_isdir(sm_Shared* S, const char *path);
+int smtisdir(smtShared* S, const char *path);
-int sm_isreg(sm_Shared* S, const char *path);
+int smtisreg(smtShared* S, const char *path);
/**
* List all folders and files inside current mount directory.
*/
-sm_Path *sm_list(sm_Shared*S, const char *path);
+smtPath *smtlist(smtShared*S, const char *path);
-void sm_freelist(sm_Path* S);
+void smtfreelist(smtPath* S);
-int sm_write(sm_Shared* S, const char *path, const void *data, int size);
+int smtwrite(smtShared* S, const char *path, const void *data, int size);
-void sm_delete(sm_Shared* S, const char *path);
+void smtdelete(smtShared* S, const char *path);
-int sm_mkdir(sm_Shared* S, const char *path);
+int smtmkdir(smtShared* S, const char *path);
-char* sm_fullpath(sm_Shared* S, const char* path);
+char* smtfullpath(smtShared* S, const char* path);
#endif \ No newline at end of file
diff --git a/src/3rdparty/stb/stb.h b/src/3rdparty/stb/stb.h
new file mode 100644
index 0000000..971cb03
--- /dev/null
+++ b/src/3rdparty/stb/stb.h
@@ -0,0 +1,14571 @@
+/* stb.h - v2.31 - Sean's Tool Box -- public domain -- http://nothings.org/stb.h
+no warranty is offered or implied; use this code at your own risk
+
+This is a single header file with a bunch of useful utilities
+for getting stuff done in C/C++.
+
+Documentation: http://nothings.org/stb/stb_h.html
+Unit tests: http://nothings.org/stb/stb.c
+
+
+============================================================================
+You MUST
+
+#define STB_DEFINE
+
+in EXACTLY _one_ C or C++ file that includes this header, BEFORE the
+include, like this:
+
+#define STB_DEFINE
+#include "stb.h"
+
+All other files should just #include "stb.h" without the #define.
+============================================================================
+
+
+Version History
+
+2.31 stb_ucharcmp
+2.30 MinGW fix
+2.29 attempt to fix use of swprintf()
+2.28 various new functionality
+2.27 test _WIN32 not WIN32 in STB_THREADS
+2.26 various warning & bugfixes
+2.25 various warning & bugfixes
+2.24 various warning & bugfixes
+2.23 fix 2.22
+2.22 64-bit fixes from '!='; fix stb_sdict_copy() to have preferred name
+2.21 utf-8 decoder rejects "overlong" encodings; attempted 64-bit improvements
+2.20 fix to hash "copy" function--reported by someone with handle "!="
+2.19 ???
+2.18 stb_readdir_subdirs_mask
+2.17 stb_cfg_dir
+2.16 fix stb_bgio_, add stb_bgio_stat(); begin a streaming wrapper
+2.15 upgraded hash table template to allow:
+- aggregate keys (explicit comparison func for EMPTY and DEL keys)
+- "static" implementations (so they can be culled if unused)
+2.14 stb_mprintf
+2.13 reduce identifiable strings in STB_NO_STB_STRINGS
+2.12 fix STB_ONLY -- lots of uint32s, TRUE/FALSE things had crept in
+2.11 fix bug in stb_dirtree_get() which caused "c://path" sorts of stuff
+2.10 STB_F(), STB_I() inline constants (also KI,KU,KF,KD)
+2.09 stb_box_face_vertex_axis_side
+2.08 bugfix stb_trimwhite()
+2.07 colored printing in windows (why are we in 1985?)
+2.06 comparison functions are now functions-that-return-functions and
+accept a struct-offset as a parameter (not thread-safe)
+2.05 compile and pass tests under Linux (but no threads); thread cleanup
+2.04 stb_cubic_bezier_1d, smoothstep, avoid dependency on registry
+2.03 ?
+2.02 remove integrated documentation
+2.01 integrate various fixes; stb_force_uniprocessor
+2.00 revised stb_dupe to use multiple hashes
+1.99 stb_charcmp
+1.98 stb_arr_deleten, stb_arr_insertn
+1.97 fix stb_newell_normal()
+1.96 stb_hash_number()
+1.95 hack stb__rec_max; clean up recursion code to use new functions
+1.94 stb_dirtree; rename stb_extra to stb_ptrmap
+1.93 stb_sem_new() API cleanup (no blockflag-starts blocked; use 'extra')
+1.92 stb_threadqueue--multi reader/writer queue, fixed size or resizeable
+1.91 stb_bgio_* for reading disk asynchronously
+1.90 stb_mutex uses CRITICAL_REGION; new stb_sync primitive for thread
+joining; workqueue supports stb_sync instead of stb_semaphore
+1.89 support ';' in constant-string wildcards; stb_mutex wrapper (can
+implement with EnterCriticalRegion eventually)
+1.88 portable threading API (only for win32 so far); worker thread queue
+1.87 fix wildcard handling in stb_readdir_recursive
+1.86 support ';' in wildcards
+1.85 make stb_regex work with non-constant strings;
+beginnings of stb_introspect()
+1.84 (forgot to make notes)
+1.83 whoops, stb_keep_if_different wasn't deleting the temp file
+1.82 bring back stb_compress from stb_file.h for cmirror
+1.81 various bugfixes, STB_FASTMALLOC_INIT inits FASTMALLOC in release
+1.80 stb_readdir returns utf8; write own utf8-utf16 because lib was wrong
+1.79 stb_write
+1.78 calloc() support for malloc wrapper, STB_FASTMALLOC
+1.77 STB_FASTMALLOC
+1.76 STB_STUA - Lua-like language; (stb_image, stb_csample, stb_bilinear)
+1.75 alloc/free array of blocks; stb_hheap bug; a few stb_ps_ funcs;
+hash*getkey, hash*copy; stb_bitset; stb_strnicmp; bugfix stb_bst
+1.74 stb_replaceinplace; use stdlib C function to convert utf8 to UTF-16
+1.73 fix performance bug & leak in stb_ischar (C++ port lost a 'static')
+1.72 remove stb_block, stb_block_manager, stb_decompress (to stb_file.h)
+1.71 stb_trimwhite, stb_tokens_nested, etc.
+1.70 back out 1.69 because it might problemize mixed builds; stb_filec()
+1.69 (stb_file returns 'char *' in C++)
+1.68 add a special 'tree root' data type for stb_bst; stb_arr_end
+1.67 full C++ port. (stb_block_manager)
+1.66 stb_newell_normal
+1.65 stb_lex_item_wild -- allow wildcard items which MUST match entirely
+1.64 stb_data
+1.63 stb_log_name
+1.62 stb_define_sort; C++ cleanup
+1.61 stb_hash_fast -- Paul Hsieh's hash function (beats Bob Jenkins'?)
+1.60 stb_delete_directory_recursive
+1.59 stb_readdir_recursive
+1.58 stb_bst variant with parent pointer for O(1) iteration, not O(log N)
+1.57 replace LCG random with Mersenne Twister (found a public domain one)
+1.56 stb_perfect_hash, stb_ischar, stb_regex
+1.55 new stb_bst API allows multiple BSTs per node (e.g. secondary keys)
+1.54 bugfix: stb_define_hash, stb_wildmatch, regexp
+1.53 stb_define_hash; recoded stb_extra, stb_sdict use it
+1.52 stb_rand_define, stb_bst, stb_reverse
+1.51 fix 'stb_arr_setlen(NULL, 0)'
+1.50 stb_wordwrap
+1.49 minor improvements to enable the scripting language
+1.48 better approach for stb_arr using stb_malloc; more invasive, clearer
+1.47 stb_lex (lexes stb.h at 1.5ML/s on 3Ghz P4; 60/70% of optimal/flex)
+1.46 stb_wrapper_*, STB_MALLOC_WRAPPER
+1.45 lightly tested DFA acceleration of regexp searching
+1.44 wildcard matching & searching; regexp matching & searching
+1.43 stb_temp
+1.42 allow stb_arr to use stb_malloc/realloc; note this is global
+1.41 make it compile in C++; (disable stb_arr in C++)
+1.40 stb_dupe tweak; stb_swap; stb_substr
+1.39 stb_dupe; improve stb_file_max to be less stupid
+1.38 stb_sha1_file: generate sha1 for file, even > 4GB
+1.37 stb_file_max; partial support for utf8 filenames in Windows
+1.36 remove STB__NO_PREFIX - poor interaction with IDE, not worth it
+streamline stb_arr to make it separately publishable
+1.35 bugfixes for stb_sdict, stb_malloc(0), stristr
+1.34 (streaming interfaces for stb_compress)
+1.33 stb_alloc; bug in stb_getopt; remove stb_overflow
+1.32 (stb_compress returns, smaller&faster; encode window & 64-bit len)
+1.31 stb_prefix_count
+1.30 (STB__NO_PREFIX - remove stb_ prefixes for personal projects)
+1.29 stb_fput_varlen64, etc.
+1.28 stb_sha1
+1.27 ?
+1.26 stb_extra
+1.25 ?
+1.24 stb_copyfile
+1.23 stb_readdir
+1.22 ?
+1.21 ?
+1.20 ?
+1.19 ?
+1.18 ?
+1.17 ?
+1.16 ?
+1.15 stb_fixpath, stb_splitpath, stb_strchr2
+1.14 stb_arr
+1.13 ?stb, stb_log, stb_fatal
+1.12 ?stb_hash2
+1.11 miniML
+1.10 stb_crc32, stb_adler32
+1.09 stb_sdict
+1.08 stb_bitreverse, stb_ispow2, stb_big32
+stb_fopen, stb_fput_varlen, stb_fput_ranged
+stb_fcmp, stb_feq
+1.07 (stb_encompress)
+1.06 stb_compress
+1.05 stb_tokens, (stb_hheap)
+1.04 stb_rand
+1.03 ?(s-strings)
+1.02 ?stb_filelen, stb_tokens
+1.01 stb_tolower
+1.00 stb_hash, stb_intcmp
+stb_file, stb_stringfile, stb_fgets
+stb_prefix, stb_strlower, stb_strtok
+stb_image
+(stb_array), (stb_arena)
+
+Parenthesized items have since been removed.
+
+LICENSE
+
+See end of file for license information.
+
+CREDITS
+
+Written by Sean Barrett.
+
+Fixes:
+Philipp Wiesemann
+Robert Nix
+r-lyeh
+blackpawn
+github:Mojofreem
+Ryan Whitworth
+Vincent Isambart
+Mike Sartain
+Eugene Opalev
+Tim Sjostrand
+github:infatum
+Dave Butler (Croepha)
+*/
+
+#include <stdarg.h>
+
+#ifndef STB__INCLUDE_STB_H
+#define STB__INCLUDE_STB_H
+
+#define STB_VERSION 1
+
+#ifdef STB_INTROSPECT
+#define STB_DEFINE
+#endif
+
+#ifdef STB_DEFINE_THREADS
+#ifndef STB_DEFINE
+#define STB_DEFINE
+#endif
+#ifndef STB_THREADS
+#define STB_THREADS
+#endif
+#endif
+
+#if defined(_WIN32) && !defined(__MINGW32__)
+#ifndef _CRT_SECURE_NO_WARNINGS
+#define _CRT_SECURE_NO_WARNINGS
+#endif
+#ifndef _CRT_NONSTDC_NO_DEPRECATE
+#define _CRT_NONSTDC_NO_DEPRECATE
+#endif
+#ifndef _CRT_NON_CONFORMING_SWPRINTFS
+#define _CRT_NON_CONFORMING_SWPRINTFS
+#endif
+#if !defined(_MSC_VER) || _MSC_VER > 1700
+#include <intrin.h> // _BitScanReverse
+#endif
+#endif
+
+#include <stdlib.h> // stdlib could have min/max
+#include <stdio.h> // need FILE
+#include <string.h> // stb_define_hash needs memcpy/memset
+#include <time.h> // stb_dirtree
+#ifdef __MINGW32__
+#include <fcntl.h> // O_RDWR
+#endif
+
+#ifdef STB_PERSONAL
+typedef int Bool;
+#define False 0
+#define True 1
+#endif
+
+#ifdef STB_MALLOC_WRAPPER_PAGED
+#define STB_MALLOC_WRAPPER_DEBUG
+#endif
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+#define STB_MALLOC_WRAPPER
+#endif
+#ifdef STB_MALLOC_WRAPPER_FASTMALLOC
+#define STB_FASTMALLOC
+#define STB_MALLOC_WRAPPER
+#endif
+
+#ifdef STB_FASTMALLOC
+#ifndef _WIN32
+#undef STB_FASTMALLOC
+#endif
+#endif
+
+#ifdef STB_DEFINE
+#include <assert.h>
+#include <stdarg.h>
+#include <stddef.h>
+#include <ctype.h>
+#include <math.h>
+#ifndef _WIN32
+#include <unistd.h>
+#else
+#include <io.h> // _mktemp
+#include <direct.h> // _rmdir
+#endif
+#include <sys/types.h> // stat()/_stat()
+#include <sys/stat.h> // stat()/_stat()
+#endif
+
+#define stb_min(a,b) ((a) < (b) ? (a) : (b))
+#define stb_max(a,b) ((a) > (b) ? (a) : (b))
+
+#ifndef STB_ONLY
+#if !defined(__cplusplus) && !defined(min) && !defined(max)
+#define min(x,y) stb_min(x,y)
+#define max(x,y) stb_max(x,y)
+#endif
+
+#ifndef M_PI
+#define M_PI 3.14159265358979323846f
+#endif
+
+#ifndef TRUE
+#define TRUE 1
+#define FALSE 0
+#endif
+
+#ifndef deg2rad
+#define deg2rad(a) ((a)*(M_PI/180))
+#endif
+#ifndef rad2deg
+#define rad2deg(a) ((a)*(180/M_PI))
+#endif
+
+#ifndef swap
+#ifndef __cplusplus
+#define swap(TYPE,a,b) \
+ do { TYPE stb__t; stb__t = (a); (a) = (b); (b) = stb__t; } while (0)
+#endif
+#endif
+
+typedef unsigned char uint8;
+typedef signed char int8;
+typedef unsigned short uint16;
+typedef signed short int16;
+#if defined(STB_USE_LONG_FOR_32_BIT_INT) || defined(STB_LONG32)
+typedef unsigned long uint32;
+typedef signed long int32;
+#else
+typedef unsigned int uint32;
+typedef signed int int32;
+#endif
+
+typedef unsigned char uchar;
+typedef unsigned short ushort;
+typedef unsigned int uint;
+typedef unsigned long ulong;
+
+// produce compile errors if the sizes aren't right
+typedef char stb__testsize16[sizeof(int16) == 2];
+typedef char stb__testsize32[sizeof(int32) == 4];
+#endif
+
+#ifndef STB_TRUE
+#define STB_TRUE 1
+#define STB_FALSE 0
+#endif
+
+// if we're STB_ONLY, can't rely on uint32 or even uint, so all the
+// variables we'll use herein need typenames prefixed with 'stb':
+typedef unsigned char stb_uchar;
+typedef unsigned char stb_uint8;
+typedef unsigned int stb_uint;
+typedef unsigned short stb_uint16;
+typedef short stb_int16;
+typedef signed char stb_int8;
+#if defined(STB_USE_LONG_FOR_32_BIT_INT) || defined(STB_LONG32)
+typedef unsigned long stb_uint32;
+typedef long stb_int32;
+#else
+typedef unsigned int stb_uint32;
+typedef int stb_int32;
+#endif
+typedef char stb__testsize2_16[sizeof(stb_uint16) == 2 ? 1 : -1];
+typedef char stb__testsize2_32[sizeof(stb_uint32) == 4 ? 1 : -1];
+
+#ifdef _MSC_VER
+typedef unsigned __int64 stb_uint64;
+typedef __int64 stb_int64;
+#define STB_IMM_UINT64(literalui64) (literalui64##ui64)
+#define STB_IMM_INT64(literali64) (literali64##i64)
+#else
+// ??
+typedef unsigned long long stb_uint64;
+typedef long long stb_int64;
+#define STB_IMM_UINT64(literalui64) (literalui64##ULL)
+#define STB_IMM_INT64(literali64) (literali64##LL)
+#endif
+typedef char stb__testsize2_64[sizeof(stb_uint64) == 8 ? 1 : -1];
+
+// add platform-specific ways of checking for sizeof(char*) == 8,
+// and make those define STB_PTR64
+#if defined(_WIN64) || defined(__x86_64__) || defined(__ia64__) || defined(__LP64__)
+#define STB_PTR64
+#endif
+
+#ifdef STB_PTR64
+typedef char stb__testsize2_ptr[sizeof(char *) == 8];
+typedef stb_uint64 stb_uinta;
+typedef stb_int64 stb_inta;
+#else
+typedef char stb__testsize2_ptr[sizeof(char *) == 4];
+typedef stb_uint32 stb_uinta;
+typedef stb_int32 stb_inta;
+#endif
+typedef char stb__testsize2_uinta[sizeof(stb_uinta) == sizeof(char*) ? 1 : -1];
+
+// if so, we should define an int type that is the pointer size. until then,
+// we'll have to make do with this (which is not the same at all!)
+
+typedef union
+{
+ unsigned int i;
+ void * p;
+} stb_uintptr;
+
+
+#ifdef __cplusplus
+#define STB_EXTERN extern "C"
+#else
+#define STB_EXTERN extern
+#endif
+
+// check for well-known debug defines
+#if defined(DEBUG) || defined(_DEBUG) || defined(DBG)
+#ifndef NDEBUG
+#define STB_DEBUG
+#endif
+#endif
+
+#ifdef STB_DEBUG
+#include <assert.h>
+#endif
+
+
+STB_EXTERN void stb_wrapper_malloc(void *newp, int sz, char *file, int line);
+STB_EXTERN void stb_wrapper_free(void *oldp, char *file, int line);
+STB_EXTERN void stb_wrapper_realloc(void *oldp, void *newp, int sz, char *file, int line);
+STB_EXTERN void stb_wrapper_calloc(size_t num, size_t sz, char *file, int line);
+STB_EXTERN void stb_wrapper_listall(void(*func)(void *ptr, int sz, char *file, int line));
+STB_EXTERN void stb_wrapper_dump(char *filename);
+STB_EXTERN int stb_wrapper_allocsize(void *oldp);
+STB_EXTERN void stb_wrapper_check(void *oldp);
+
+#ifdef STB_DEFINE
+// this is a special function used inside malloc wrapper
+// to do allocations that aren't tracked (to avoid
+// reentrancy). Of course if someone _else_ wraps realloc,
+// this breaks, but if they're doing that AND the malloc
+// wrapper they need to explicitly check for reentrancy.
+//
+// only define realloc_raw() and we do realloc(NULL,sz)
+// for malloc() and realloc(p,0) for free().
+static void * stb__realloc_raw(void *p, int sz)
+{
+ if (p == NULL) return malloc(sz);
+ if (sz == 0) { free(p); return NULL; }
+ return realloc(p, sz);
+}
+#endif
+
+#ifdef _WIN32
+STB_EXTERN void * stb_smalloc(size_t sz);
+STB_EXTERN void stb_sfree(void *p);
+STB_EXTERN void * stb_srealloc(void *p, size_t sz);
+STB_EXTERN void * stb_scalloc(size_t n, size_t sz);
+STB_EXTERN char * stb_sstrdup(char *s);
+#endif
+
+#ifdef STB_FASTMALLOC
+#define malloc stb_smalloc
+#define free stb_sfree
+#define realloc stb_srealloc
+#define strdup stb_sstrdup
+#define calloc stb_scalloc
+#endif
+
+#ifndef STB_MALLOC_ALLCHECK
+#define stb__check(p) 1
+#else
+#ifndef STB_MALLOC_WRAPPER
+#error STB_MALLOC_ALLCHECK requires STB_MALLOC_WRAPPER
+#else
+#define stb__check(p) stb_mcheck(p)
+#endif
+#endif
+
+#ifdef STB_MALLOC_WRAPPER
+STB_EXTERN void * stb__malloc(int, char *, int);
+STB_EXTERN void * stb__realloc(void *, int, char *, int);
+STB_EXTERN void * stb__calloc(size_t n, size_t s, char *, int);
+STB_EXTERN void stb__free(void *, char *file, int);
+STB_EXTERN char * stb__strdup(char *s, char *file, int);
+STB_EXTERN void stb_malloc_checkall(void);
+STB_EXTERN void stb_malloc_check_counter(int init_delay, int rep_delay);
+#ifndef STB_MALLOC_WRAPPER_DEBUG
+#define stb_mcheck(p) 1
+#else
+STB_EXTERN int stb_mcheck(void *);
+#endif
+
+
+#ifdef STB_DEFINE
+
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+#define STB__PAD 32
+#define STB__BIAS 16
+#define STB__SIG 0x51b01234
+#define STB__FIXSIZE(sz) (((sz+3) & ~3) + STB__PAD)
+#define STB__ptr(x,y) ((char *) (x) + (y))
+#else
+#define STB__ptr(x,y) (x)
+#define STB__FIXSIZE(sz) (sz)
+#endif
+
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+int stb_mcheck(void *p)
+{
+ unsigned int sz;
+ if (p == NULL) return 1;
+ p = ((char *)p) - STB__BIAS;
+ sz = *(unsigned int *)p;
+ assert(*(unsigned int *)STB__ptr(p, 4) == STB__SIG);
+ assert(*(unsigned int *)STB__ptr(p, 8) == STB__SIG);
+ assert(*(unsigned int *)STB__ptr(p, 12) == STB__SIG);
+ assert(*(unsigned int *)STB__ptr(p, sz - 4) == STB__SIG + 1);
+ assert(*(unsigned int *)STB__ptr(p, sz - 8) == STB__SIG + 1);
+ assert(*(unsigned int *)STB__ptr(p, sz - 12) == STB__SIG + 1);
+ assert(*(unsigned int *)STB__ptr(p, sz - 16) == STB__SIG + 1);
+ stb_wrapper_check(STB__ptr(p, STB__BIAS));
+ return 1;
+}
+
+static void stb__check2(void *p, int sz, char *file, int line)
+{
+ stb_mcheck(p);
+}
+
+void stb_malloc_checkall(void)
+{
+ stb_wrapper_listall(stb__check2);
+}
+#else
+void stb_malloc_checkall(void) { }
+#endif
+
+static int stb__malloc_wait = (1 << 30), stb__malloc_next_wait = (1 << 30), stb__malloc_iter;
+void stb_malloc_check_counter(int init_delay, int rep_delay)
+{
+ stb__malloc_wait = init_delay;
+ stb__malloc_next_wait = rep_delay;
+}
+
+void stb_mcheck_all(void)
+{
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+ ++stb__malloc_iter;
+ if (--stb__malloc_wait <= 0) {
+ stb_malloc_checkall();
+ stb__malloc_wait = stb__malloc_next_wait;
+ }
+#endif
+}
+
+#ifdef STB_MALLOC_WRAPPER_PAGED
+#define STB__WINDOWS_PAGE (1 << 12)
+#ifndef _WINDOWS_
+STB_EXTERN __declspec(dllimport) void * __stdcall VirtualAlloc(void *p, unsigned long size, unsigned long type, unsigned long protect);
+STB_EXTERN __declspec(dllimport) int __stdcall VirtualFree(void *p, unsigned long size, unsigned long freetype);
+#endif
+#endif
+
+static void *stb__malloc_final(int sz)
+{
+#ifdef STB_MALLOC_WRAPPER_PAGED
+ int aligned = (sz + STB__WINDOWS_PAGE - 1) & ~(STB__WINDOWS_PAGE - 1);
+ char *p = VirtualAlloc(NULL, aligned + STB__WINDOWS_PAGE, 0x2000, 0x04); // RESERVE, READWRITE
+ if (p == NULL) return p;
+ VirtualAlloc(p, aligned, 0x1000, 0x04); // COMMIT, READWRITE
+ return p;
+#else
+ return malloc(sz);
+#endif
+}
+
+static void stb__free_final(void *p)
+{
+#ifdef STB_MALLOC_WRAPPER_PAGED
+ VirtualFree(p, 0, 0x8000); // RELEASE
+#else
+ free(p);
+#endif
+}
+
+int stb__malloc_failure;
+static void *stb__realloc_final(void *p, int sz, int old_sz)
+{
+#ifdef STB_MALLOC_WRAPPER_PAGED
+ void *q = stb__malloc_final(sz);
+ if (q == NULL)
+ return ++stb__malloc_failure, q;
+ // @TODO: deal with p being smaller!
+ memcpy(q, p, sz < old_sz ? sz : old_sz);
+ stb__free_final(p);
+ return q;
+#else
+ return realloc(p, sz);
+#endif
+}
+
+void stb__free(void *p, char *file, int line)
+{
+ stb_mcheck_all();
+ if (!p) return;
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+ stb_mcheck(p);
+#endif
+ stb_wrapper_free(p, file, line);
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+ p = STB__ptr(p, -STB__BIAS);
+ *(unsigned int *)STB__ptr(p, 0) = 0xdeadbeef;
+ *(unsigned int *)STB__ptr(p, 4) = 0xdeadbeef;
+ *(unsigned int *)STB__ptr(p, 8) = 0xdeadbeef;
+ *(unsigned int *)STB__ptr(p, 12) = 0xdeadbeef;
+#endif
+ stb__free_final(p);
+}
+
+void * stb__malloc(int sz, char *file, int line)
+{
+ void *p;
+ stb_mcheck_all();
+ if (sz == 0) return NULL;
+ p = stb__malloc_final(STB__FIXSIZE(sz));
+ if (p == NULL) p = stb__malloc_final(STB__FIXSIZE(sz));
+ if (p == NULL) p = stb__malloc_final(STB__FIXSIZE(sz));
+ if (p == NULL) {
+ ++stb__malloc_failure;
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+ stb_malloc_checkall();
+#endif
+ return p;
+ }
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+ * (int *)STB__ptr(p, 0) = STB__FIXSIZE(sz);
+ *(unsigned int *)STB__ptr(p, 4) = STB__SIG;
+ *(unsigned int *)STB__ptr(p, 8) = STB__SIG;
+ *(unsigned int *)STB__ptr(p, 12) = STB__SIG;
+ *(unsigned int *)STB__ptr(p, STB__FIXSIZE(sz) - 4) = STB__SIG + 1;
+ *(unsigned int *)STB__ptr(p, STB__FIXSIZE(sz) - 8) = STB__SIG + 1;
+ *(unsigned int *)STB__ptr(p, STB__FIXSIZE(sz) - 12) = STB__SIG + 1;
+ *(unsigned int *)STB__ptr(p, STB__FIXSIZE(sz) - 16) = STB__SIG + 1;
+ p = STB__ptr(p, STB__BIAS);
+#endif
+ stb_wrapper_malloc(p, sz, file, line);
+ return p;
+}
+
+void * stb__realloc(void *p, int sz, char *file, int line)
+{
+ void *q;
+
+ stb_mcheck_all();
+ if (p == NULL) return stb__malloc(sz, file, line);
+ if (sz == 0) { stb__free(p, file, line); return NULL; }
+
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+ stb_mcheck(p);
+ p = STB__ptr(p, -STB__BIAS);
+#endif
+#ifdef STB_MALLOC_WRAPPER_PAGED
+ {
+ int n = stb_wrapper_allocsize(STB__ptr(p, STB__BIAS));
+ if (!n)
+ stb_wrapper_check(STB__ptr(p, STB__BIAS));
+ q = stb__realloc_final(p, STB__FIXSIZE(sz), STB__FIXSIZE(n));
+ }
+#else
+ q = realloc(p, STB__FIXSIZE(sz));
+#endif
+ if (q == NULL)
+ return ++stb__malloc_failure, q;
+#ifdef STB_MALLOC_WRAPPER_DEBUG
+ * (int *)STB__ptr(q, 0) = STB__FIXSIZE(sz);
+ *(unsigned int *)STB__ptr(q, 4) = STB__SIG;
+ *(unsigned int *)STB__ptr(q, 8) = STB__SIG;
+ *(unsigned int *)STB__ptr(q, 12) = STB__SIG;
+ *(unsigned int *)STB__ptr(q, STB__FIXSIZE(sz) - 4) = STB__SIG + 1;
+ *(unsigned int *)STB__ptr(q, STB__FIXSIZE(sz) - 8) = STB__SIG + 1;
+ *(unsigned int *)STB__ptr(q, STB__FIXSIZE(sz) - 12) = STB__SIG + 1;
+ *(unsigned int *)STB__ptr(q, STB__FIXSIZE(sz) - 16) = STB__SIG + 1;
+
+ q = STB__ptr(q, STB__BIAS);
+ p = STB__ptr(p, STB__BIAS);
+#endif
+ stb_wrapper_realloc(p, q, sz, file, line);
+ return q;
+}
+
+STB_EXTERN int stb_log2_ceil(unsigned int);
+static void *stb__calloc(size_t n, size_t sz, char *file, int line)
+{
+ void *q;
+ stb_mcheck_all();
+ if (n == 0 || sz == 0) return NULL;
+ if (stb_log2_ceil(n) + stb_log2_ceil(sz) >= 32) return NULL;
+ q = stb__malloc(n*sz, file, line);
+ if (q) memset(q, 0, n*sz);
+ return q;
+}
+
+char * stb__strdup(char *s, char *file, int line)
+{
+ char *p;
+ stb_mcheck_all();
+ p = stb__malloc(strlen(s) + 1, file, line);
+ if (!p) return p;
+ strcpy(p, s);
+ return p;
+}
+#endif // STB_DEFINE
+
+#ifdef STB_FASTMALLOC
+#undef malloc
+#undef realloc
+#undef free
+#undef strdup
+#undef calloc
+#endif
+
+// include everything that might define these, BEFORE making macros
+#include <stdlib.h>
+#include <string.h>
+#include <malloc.h>
+
+#define malloc(s) stb__malloc ( s, __FILE__, __LINE__)
+#define realloc(p,s) stb__realloc(p,s, __FILE__, __LINE__)
+#define calloc(n,s) stb__calloc (n,s, __FILE__, __LINE__)
+#define free(p) stb__free (p, __FILE__, __LINE__)
+#define strdup(p) stb__strdup (p, __FILE__, __LINE__)
+
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Windows pretty display
+//
+
+STB_EXTERN void stbprint(const char *fmt, ...);
+STB_EXTERN char *stb_sprintf(const char *fmt, ...);
+STB_EXTERN char *stb_mprintf(const char *fmt, ...);
+STB_EXTERN int stb_snprintf(char *s, size_t n, const char *fmt, ...);
+STB_EXTERN int stb_vsnprintf(char *s, size_t n, const char *fmt, va_list v);
+
+#ifdef STB_DEFINE
+
+int stb_vsnprintf(char *s, size_t n, const char *fmt, va_list v)
+{
+ int res;
+#ifdef _WIN32
+ // Could use "_vsnprintf_s(s, n, _TRUNCATE, fmt, v)" ?
+ res = _vsnprintf(s, n, fmt, v);
+#else
+ res = vsnprintf(s, n, fmt, v);
+#endif
+ if (n) s[n - 1] = 0;
+ // Unix returns length output would require, Windows returns negative when truncated.
+ return (res >= (int)n || res < 0) ? -1 : res;
+}
+
+int stb_snprintf(char *s, size_t n, const char *fmt, ...)
+{
+ int res;
+ va_list v;
+ va_start(v, fmt);
+ res = stb_vsnprintf(s, n, fmt, v);
+ va_end(v);
+ return res;
+}
+
+char *stb_sprintf(const char *fmt, ...)
+{
+ static char buffer[1024];
+ va_list v;
+ va_start(v, fmt);
+ stb_vsnprintf(buffer, 1024, fmt, v);
+ va_end(v);
+ return buffer;
+}
+
+char *stb_mprintf(const char *fmt, ...)
+{
+ static char buffer[1024];
+ va_list v;
+ va_start(v, fmt);
+ stb_vsnprintf(buffer, 1024, fmt, v);
+ va_end(v);
+ return strdup(buffer);
+}
+
+#ifdef _WIN32
+
+#ifndef _WINDOWS_
+STB_EXTERN __declspec(dllimport) int __stdcall WriteConsoleA(void *, const void *, unsigned int, unsigned int *, void *);
+STB_EXTERN __declspec(dllimport) void * __stdcall GetStdHandle(unsigned int);
+STB_EXTERN __declspec(dllimport) int __stdcall SetConsoleTextAttribute(void *, unsigned short);
+#endif
+
+static void stb__print_one(void *handle, char *s, int len)
+{
+ if (len)
+ if (WriteConsoleA(handle, s, len, NULL, NULL))
+ fwrite(s, 1, len, stdout); // if it fails, maybe redirected, so do normal
+}
+
+static void stb__print(char *s)
+{
+ void *handle = GetStdHandle((unsigned int)-11); // STD_OUTPUT_HANDLE
+ int pad = 0; // number of padding characters to add
+
+ char *t = s;
+ while (*s) {
+ int lpad;
+ while (*s && *s != '{') {
+ if (pad) {
+ if (*s == '\r' || *s == '\n')
+ pad = 0;
+ else if (s[0] == ' ' && s[1] == ' ') {
+ stb__print_one(handle, t, s - t);
+ t = s;
+ while (pad) {
+ stb__print_one(handle, t, 1);
+ --pad;
+ }
+ }
+ }
+ ++s;
+ }
+ if (!*s) break;
+ stb__print_one(handle, t, s - t);
+ if (s[1] == '{') {
+ ++s;
+ continue;
+ }
+
+ if (s[1] == '#') {
+ t = s + 3;
+ if (isxdigit(s[2]))
+ if (isdigit(s[2]))
+ SetConsoleTextAttribute(handle, s[2] - '0');
+ else
+ SetConsoleTextAttribute(handle, tolower(s[2]) - 'a' + 10);
+ else {
+ SetConsoleTextAttribute(handle, 0x0f);
+ t = s + 2;
+ }
+ }
+ else if (s[1] == '!') {
+ SetConsoleTextAttribute(handle, 0x0c);
+ t = s + 2;
+ }
+ else if (s[1] == '@') {
+ SetConsoleTextAttribute(handle, 0x09);
+ t = s + 2;
+ }
+ else if (s[1] == '$') {
+ SetConsoleTextAttribute(handle, 0x0a);
+ t = s + 2;
+ }
+ else {
+ SetConsoleTextAttribute(handle, 0x08); // 0,7,8,15 => shades of grey
+ t = s + 1;
+ }
+
+ lpad = (t - s);
+ s = t;
+ while (*s && *s != '}') ++s;
+ if (!*s) break;
+ stb__print_one(handle, t, s - t);
+ if (s[1] == '}') {
+ t = s + 2;
+ }
+ else {
+ pad += 1 + lpad;
+ t = s + 1;
+ }
+ s = t;
+ SetConsoleTextAttribute(handle, 0x07);
+ }
+ stb__print_one(handle, t, s - t);
+ SetConsoleTextAttribute(handle, 0x07);
+}
+
+void stbprint(const char *fmt, ...)
+{
+ int res;
+ char buffer[1024];
+ char *tbuf = buffer;
+ va_list v;
+
+ va_start(v, fmt);
+ res = stb_vsnprintf(buffer, sizeof(buffer), fmt, v);
+ va_end(v);
+
+ if (res < 0) {
+ tbuf = (char *)malloc(16384);
+ va_start(v, fmt);
+ res = _vsnprintf(tbuf, 16384, fmt, v);
+ va_end(v);
+ tbuf[16383] = 0;
+ }
+
+ stb__print(tbuf);
+
+ if (tbuf != buffer)
+ free(tbuf);
+}
+
+#else // _WIN32
+void stbprint(const char *fmt, ...)
+{
+ va_list v;
+ va_start(v, fmt);
+ vprintf(fmt, v);
+ va_end(v);
+}
+#endif // _WIN32
+#endif // STB_DEFINE
+
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Windows UTF8 filename handling
+//
+// Windows stupidly treats 8-bit filenames as some dopey code page,
+// rather than utf-8. If we want to use utf8 filenames, we have to
+// convert them to WCHAR explicitly and call WCHAR versions of the
+// file functions. So, ok, we do.
+
+
+#ifdef _WIN32
+#define stb__fopen(x,y) _wfopen((const wchar_t *)stb__from_utf8(x), (const wchar_t *)stb__from_utf8_alt(y))
+#define stb__windows(x,y) x
+#else
+#define stb__fopen(x,y) fopen(x,y)
+#define stb__windows(x,y) y
+#endif
+
+
+typedef unsigned short stb__wchar;
+
+STB_EXTERN stb__wchar * stb_from_utf8(stb__wchar *buffer, char *str, int n);
+STB_EXTERN char * stb_to_utf8(char *buffer, stb__wchar *str, int n);
+
+STB_EXTERN stb__wchar *stb__from_utf8(char *str);
+STB_EXTERN stb__wchar *stb__from_utf8_alt(char *str);
+STB_EXTERN char *stb__to_utf8(stb__wchar *str);
+
+
+#ifdef STB_DEFINE
+stb__wchar * stb_from_utf8(stb__wchar *buffer, char *ostr, int n)
+{
+ unsigned char *str = (unsigned char *)ostr;
+ stb_uint32 c;
+ int i = 0;
+ --n;
+ while (*str) {
+ if (i >= n)
+ return NULL;
+ if (!(*str & 0x80))
+ buffer[i++] = *str++;
+ else if ((*str & 0xe0) == 0xc0) {
+ if (*str < 0xc2) return NULL;
+ c = (*str++ & 0x1f) << 6;
+ if ((*str & 0xc0) != 0x80) return NULL;
+ buffer[i++] = c + (*str++ & 0x3f);
+ }
+ else if ((*str & 0xf0) == 0xe0) {
+ if (*str == 0xe0 && (str[1] < 0xa0 || str[1] > 0xbf)) return NULL;
+ if (*str == 0xed && str[1] > 0x9f) return NULL; // str[1] < 0x80 is checked below
+ c = (*str++ & 0x0f) << 12;
+ if ((*str & 0xc0) != 0x80) return NULL;
+ c += (*str++ & 0x3f) << 6;
+ if ((*str & 0xc0) != 0x80) return NULL;
+ buffer[i++] = c + (*str++ & 0x3f);
+ }
+ else if ((*str & 0xf8) == 0xf0) {
+ if (*str > 0xf4) return NULL;
+ if (*str == 0xf0 && (str[1] < 0x90 || str[1] > 0xbf)) return NULL;
+ if (*str == 0xf4 && str[1] > 0x8f) return NULL; // str[1] < 0x80 is checked below
+ c = (*str++ & 0x07) << 18;
+ if ((*str & 0xc0) != 0x80) return NULL;
+ c += (*str++ & 0x3f) << 12;
+ if ((*str & 0xc0) != 0x80) return NULL;
+ c += (*str++ & 0x3f) << 6;
+ if ((*str & 0xc0) != 0x80) return NULL;
+ c += (*str++ & 0x3f);
+ // utf-8 encodings of values used in surrogate pairs are invalid
+ if ((c & 0xFFFFF800) == 0xD800) return NULL;
+ if (c >= 0x10000) {
+ c -= 0x10000;
+ if (i + 2 > n) return NULL;
+ buffer[i++] = 0xD800 | (0x3ff & (c >> 10));
+ buffer[i++] = 0xDC00 | (0x3ff & (c));
+ }
+ }
+ else
+ return NULL;
+ }
+ buffer[i] = 0;
+ return buffer;
+}
+
+char * stb_to_utf8(char *buffer, stb__wchar *str, int n)
+{
+ int i = 0;
+ --n;
+ while (*str) {
+ if (*str < 0x80) {
+ if (i + 1 > n) return NULL;
+ buffer[i++] = (char)*str++;
+ }
+ else if (*str < 0x800) {
+ if (i + 2 > n) return NULL;
+ buffer[i++] = 0xc0 + (*str >> 6);
+ buffer[i++] = 0x80 + (*str & 0x3f);
+ str += 1;
+ }
+ else if (*str >= 0xd800 && *str < 0xdc00) {
+ stb_uint32 c;
+ if (i + 4 > n) return NULL;
+ c = ((str[0] - 0xd800) << 10) + ((str[1]) - 0xdc00) + 0x10000;
+ buffer[i++] = 0xf0 + (c >> 18);
+ buffer[i++] = 0x80 + ((c >> 12) & 0x3f);
+ buffer[i++] = 0x80 + ((c >> 6) & 0x3f);
+ buffer[i++] = 0x80 + ((c) & 0x3f);
+ str += 2;
+ }
+ else if (*str >= 0xdc00 && *str < 0xe000) {
+ return NULL;
+ }
+ else {
+ if (i + 3 > n) return NULL;
+ buffer[i++] = 0xe0 + (*str >> 12);
+ buffer[i++] = 0x80 + ((*str >> 6) & 0x3f);
+ buffer[i++] = 0x80 + ((*str) & 0x3f);
+ str += 1;
+ }
+ }
+ buffer[i] = 0;
+ return buffer;
+}
+
+stb__wchar *stb__from_utf8(char *str)
+{
+ static stb__wchar buffer[4096];
+ return stb_from_utf8(buffer, str, 4096);
+}
+
+stb__wchar *stb__from_utf8_alt(char *str)
+{
+ static stb__wchar buffer[4096];
+ return stb_from_utf8(buffer, str, 4096);
+}
+
+char *stb__to_utf8(stb__wchar *str)
+{
+ static char buffer[4096];
+ return stb_to_utf8(buffer, str, 4096);
+}
+
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Miscellany
+//
+
+STB_EXTERN void stb_fatal(char *fmt, ...);
+STB_EXTERN void stb_(char *fmt, ...);
+STB_EXTERN void stb_append_to_file(char *file, char *fmt, ...);
+STB_EXTERN void stb_log(int active);
+STB_EXTERN void stb_log_fileline(int active);
+STB_EXTERN void stb_log_name(char *filename);
+
+STB_EXTERN void stb_swap(void *p, void *q, size_t sz);
+STB_EXTERN void *stb_copy(void *p, size_t sz);
+STB_EXTERN void stb_pointer_array_free(void *p, int len);
+STB_EXTERN void **stb_array_block_alloc(int count, int blocksize);
+
+#define stb_arrcount(x) (sizeof(x)/sizeof((x)[0]))
+
+
+STB_EXTERN int stb__record_fileline(char *f, int n);
+
+#ifdef STB_DEFINE
+
+static char *stb__file;
+static int stb__line;
+
+int stb__record_fileline(char *f, int n)
+{
+ stb__file = f;
+ stb__line = n;
+ return 0;
+}
+
+void stb_fatal(char *s, ...)
+{
+ va_list a;
+ if (stb__file)
+ fprintf(stderr, "[%s:%d] ", stb__file, stb__line);
+ va_start(a, s);
+ fputs("Fatal error: ", stderr);
+ vfprintf(stderr, s, a);
+ va_end(a);
+ fputs("\n", stderr);
+#ifdef STB_DEBUG
+#ifdef _MSC_VER
+#ifndef STB_PTR64
+ __asm int 3; // trap to debugger!
+#else
+ __debugbreak();
+#endif
+#else
+ __builtin_trap();
+#endif
+#endif
+ exit(1);
+}
+
+static int stb__log_active = 1, stb__log_fileline = 1;
+
+void stb_log(int active)
+{
+ stb__log_active = active;
+}
+
+void stb_log_fileline(int active)
+{
+ stb__log_fileline = active;
+}
+
+#ifdef STB_NO_STB_STRINGS
+char *stb__log_filename = "temp.log";
+#else
+char *stb__log_filename = "stb.log";
+#endif
+
+void stb_log_name(char *s)
+{
+ stb__log_filename = s;
+}
+
+void stb_(char *s, ...)
+{
+ if (stb__log_active) {
+ FILE *f = fopen(stb__log_filename, "a");
+ if (f) {
+ va_list a;
+ if (stb__log_fileline && stb__file)
+ fprintf(f, "[%s:%4d] ", stb__file, stb__line);
+ va_start(a, s);
+ vfprintf(f, s, a);
+ va_end(a);
+ fputs("\n", f);
+ fclose(f);
+ }
+ }
+}
+
+void stb_append_to_file(char *filename, char *s, ...)
+{
+ FILE *f = fopen(filename, "a");
+ if (f) {
+ va_list a;
+ va_start(a, s);
+ vfprintf(f, s, a);
+ va_end(a);
+ fputs("\n", f);
+ fclose(f);
+ }
+}
+
+
+typedef struct { char d[4]; } stb__4;
+typedef struct { char d[8]; } stb__8;
+
+// optimize the small cases, though you shouldn't be calling this for those!
+void stb_swap(void *p, void *q, size_t sz)
+{
+ char buffer[256];
+ if (p == q) return;
+ if (sz == 4) {
+ stb__4 temp = *(stb__4 *)p;
+ *(stb__4 *)p = *(stb__4 *)q;
+ *(stb__4 *)q = temp;
+ return;
+ }
+ else if (sz == 8) {
+ stb__8 temp = *(stb__8 *)p;
+ *(stb__8 *)p = *(stb__8 *)q;
+ *(stb__8 *)q = temp;
+ return;
+ }
+
+ while (sz > sizeof(buffer)) {
+ stb_swap(p, q, sizeof(buffer));
+ p = (char *)p + sizeof(buffer);
+ q = (char *)q + sizeof(buffer);
+ sz -= sizeof(buffer);
+ }
+
+ memcpy(buffer, p, sz);
+ memcpy(p, q, sz);
+ memcpy(q, buffer, sz);
+}
+
+void *stb_copy(void *p, size_t sz)
+{
+ void *q = malloc(sz);
+ memcpy(q, p, sz);
+ return q;
+}
+
+void stb_pointer_array_free(void *q, int len)
+{
+ void **p = (void **)q;
+ int i;
+ for (i = 0; i < len; ++i)
+ free(p[i]);
+}
+
+void **stb_array_block_alloc(int count, int blocksize)
+{
+ int i;
+ char *p = (char *)malloc(sizeof(void *) * count + count * blocksize);
+ void **q;
+ if (p == NULL) return NULL;
+ q = (void **)p;
+ p += sizeof(void *) * count;
+ for (i = 0; i < count; ++i)
+ q[i] = p + i * blocksize;
+ return q;
+}
+#endif
+
+#ifdef STB_DEBUG
+// tricky hack to allow recording FILE,LINE even in varargs functions
+#define STB__RECORD_FILE(x) (stb__record_fileline(__FILE__, __LINE__),(x))
+#define stb_log STB__RECORD_FILE(stb_log)
+#define stb_ STB__RECORD_FILE(stb_)
+#ifndef STB_FATAL_CLEAN
+#define stb_fatal STB__RECORD_FILE(stb_fatal)
+#endif
+#define STB__DEBUG(x) x
+#else
+#define STB__DEBUG(x)
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_temp
+//
+
+#define stb_temp(block, sz) stb__temp(block, sizeof(block), (sz))
+
+STB_EXTERN void * stb__temp(void *b, int b_sz, int want_sz);
+STB_EXTERN void stb_tempfree(void *block, void *ptr);
+
+#ifdef STB_DEFINE
+
+void * stb__temp(void *b, int b_sz, int want_sz)
+{
+ if (b_sz >= want_sz)
+ return b;
+ else
+ return malloc(want_sz);
+}
+
+void stb_tempfree(void *b, void *p)
+{
+ if (p != b)
+ free(p);
+}
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// math/sampling operations
+//
+
+
+#define stb_lerp(t,a,b) ( (a) + (t) * (float) ((b)-(a)) )
+#define stb_unlerp(t,a,b) ( ((t) - (a)) / (float) ((b) - (a)) )
+
+#define stb_clamp(x,xmin,xmax) ((x) < (xmin) ? (xmin) : (x) > (xmax) ? (xmax) : (x))
+
+STB_EXTERN void stb_newell_normal(float *normal, int num_vert, float **vert, int normalize);
+STB_EXTERN int stb_box_face_vertex_axis_side(int face_number, int vertex_number, int axis);
+STB_EXTERN void stb_linear_controller(float *curpos, float target_pos, float acc, float deacc, float dt);
+
+STB_EXTERN int stb_float_eq(float x, float y, float delta, int max_ulps);
+STB_EXTERN int stb_is_prime(unsigned int m);
+STB_EXTERN unsigned int stb_power_of_two_nearest_prime(int n);
+
+STB_EXTERN float stb_smoothstep(float t);
+STB_EXTERN float stb_cubic_bezier_1d(float t, float p0, float p1, float p2, float p3);
+
+STB_EXTERN double stb_linear_remap(double x, double a, double b,
+ double c, double d);
+
+#ifdef STB_DEFINE
+float stb_smoothstep(float t)
+{
+ return (3 - 2 * t)*(t*t);
+}
+
+float stb_cubic_bezier_1d(float t, float p0, float p1, float p2, float p3)
+{
+ float it = 1 - t;
+ return it*it*it*p0 + 3 * it*it*t*p1 + 3 * it*t*t*p2 + t*t*t*p3;
+}
+
+void stb_newell_normal(float *normal, int num_vert, float **vert, int normalize)
+{
+ int i, j;
+ float p;
+ normal[0] = normal[1] = normal[2] = 0;
+ for (i = num_vert - 1, j = 0; j < num_vert; i = j++) {
+ float *u = vert[i];
+ float *v = vert[j];
+ normal[0] += (u[1] - v[1]) * (u[2] + v[2]);
+ normal[1] += (u[2] - v[2]) * (u[0] + v[0]);
+ normal[2] += (u[0] - v[0]) * (u[1] + v[1]);
+ }
+ if (normalize) {
+ p = normal[0] * normal[0] + normal[1] * normal[1] + normal[2] * normal[2];
+ p = (float)(1.0 / sqrt(p));
+ normal[0] *= p;
+ normal[1] *= p;
+ normal[2] *= p;
+ }
+}
+
+int stb_box_face_vertex_axis_side(int face_number, int vertex_number, int axis)
+{
+ static int box_vertices[6][4][3] =
+ {
+ { { 1,1,1 },{ 1,0,1 },{ 1,0,0 },{ 1,1,0 } },
+ { { 0,0,0 },{ 0,0,1 },{ 0,1,1 },{ 0,1,0 } },
+ { { 0,0,0 },{ 0,1,0 },{ 1,1,0 },{ 1,0,0 } },
+ { { 0,0,0 },{ 1,0,0 },{ 1,0,1 },{ 0,0,1 } },
+ { { 1,1,1 },{ 0,1,1 },{ 0,0,1 },{ 1,0,1 } },
+ { { 1,1,1 },{ 1,1,0 },{ 0,1,0 },{ 0,1,1 } },
+ };
+ assert(face_number >= 0 && face_number < 6);
+ assert(vertex_number >= 0 && vertex_number < 4);
+ assert(axis >= 0 && axis < 3);
+ return box_vertices[face_number][vertex_number][axis];
+}
+
+void stb_linear_controller(float *curpos, float target_pos, float acc, float deacc, float dt)
+{
+ float sign = 1, p, cp = *curpos;
+ if (cp == target_pos) return;
+ if (target_pos < cp) {
+ target_pos = -target_pos;
+ cp = -cp;
+ sign = -1;
+ }
+ // first decelerate
+ if (cp < 0) {
+ p = cp + deacc * dt;
+ if (p > 0) {
+ p = 0;
+ dt = dt - cp / deacc;
+ if (dt < 0) dt = 0;
+ }
+ else {
+ dt = 0;
+ }
+ cp = p;
+ }
+ // now accelerate
+ p = cp + acc*dt;
+ if (p > target_pos) p = target_pos;
+ *curpos = p * sign;
+ // @TODO: testing
+}
+
+float stb_quadratic_controller(float target_pos, float curpos, float maxvel, float maxacc, float dt, float *curvel)
+{
+ return 0; // @TODO
+}
+
+int stb_float_eq(float x, float y, float delta, int max_ulps)
+{
+ if (fabs(x - y) <= delta) return 1;
+ if (abs(*(int *)&x - *(int *)&y) <= max_ulps) return 1;
+ return 0;
+}
+
+int stb_is_prime(unsigned int m)
+{
+ unsigned int i, j;
+ if (m < 2) return 0;
+ if (m == 2) return 1;
+ if (!(m & 1)) return 0;
+ if (m % 3 == 0) return (m == 3);
+ for (i = 5; (j = i*i), j <= m && j > i; i += 6) {
+ if (m % i == 0) return 0;
+ if (m % (i + 2) == 0) return 0;
+ }
+ return 1;
+}
+
+unsigned int stb_power_of_two_nearest_prime(int n)
+{
+ static signed char tab[32] = { 0,0,0,0,1,0,-1,0,1,-1,-1,3,-1,0,-1,2,1,
+ 0,2,0,-1,-4,-1,5,-1,18,-2,15,2,-1,2,0 };
+ if (!tab[0]) {
+ int i;
+ for (i = 0; i < 32; ++i)
+ tab[i] = (1 << i) + 2 * tab[i] - 1;
+ tab[1] = 2;
+ tab[0] = 1;
+ }
+ if (n >= 32) return 0xfffffffb;
+ return tab[n];
+}
+
+double stb_linear_remap(double x, double x_min, double x_max,
+ double out_min, double out_max)
+{
+ return stb_lerp(stb_unlerp(x, x_min, x_max), out_min, out_max);
+}
+#endif
+
+// create a macro so it's faster, but you can get at the function pointer
+#define stb_linear_remap(t,a,b,c,d) stb_lerp(stb_unlerp(t,a,b),c,d)
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// bit operations
+//
+
+#define stb_big32(c) (((c)[0]<<24) + (c)[1]*65536 + (c)[2]*256 + (c)[3])
+#define stb_little32(c) (((c)[3]<<24) + (c)[2]*65536 + (c)[1]*256 + (c)[0])
+#define stb_big16(c) ((c)[0]*256 + (c)[1])
+#define stb_little16(c) ((c)[1]*256 + (c)[0])
+
+STB_EXTERN int stb_bitcount(unsigned int a);
+STB_EXTERN unsigned int stb_bitreverse8(unsigned char n);
+STB_EXTERN unsigned int stb_bitreverse(unsigned int n);
+
+STB_EXTERN int stb_is_pow2(unsigned int n);
+STB_EXTERN int stb_log2_ceil(unsigned int n);
+STB_EXTERN int stb_log2_floor(unsigned int n);
+
+STB_EXTERN int stb_lowbit8(unsigned int n);
+STB_EXTERN int stb_highbit8(unsigned int n);
+
+#ifdef STB_DEFINE
+int stb_bitcount(unsigned int a)
+{
+ a = (a & 0x55555555) + ((a >> 1) & 0x55555555); // max 2
+ a = (a & 0x33333333) + ((a >> 2) & 0x33333333); // max 4
+ a = (a + (a >> 4)) & 0x0f0f0f0f; // max 8 per 4, now 8 bits
+ a = (a + (a >> 8)); // max 16 per 8 bits
+ a = (a + (a >> 16)); // max 32 per 8 bits
+ return a & 0xff;
+}
+
+unsigned int stb_bitreverse8(unsigned char n)
+{
+ n = ((n & 0xAA) >> 1) + ((n & 0x55) << 1);
+ n = ((n & 0xCC) >> 2) + ((n & 0x33) << 2);
+ return (unsigned char)((n >> 4) + (n << 4));
+}
+
+unsigned int stb_bitreverse(unsigned int n)
+{
+ n = ((n & 0xAAAAAAAA) >> 1) | ((n & 0x55555555) << 1);
+ n = ((n & 0xCCCCCCCC) >> 2) | ((n & 0x33333333) << 2);
+ n = ((n & 0xF0F0F0F0) >> 4) | ((n & 0x0F0F0F0F) << 4);
+ n = ((n & 0xFF00FF00) >> 8) | ((n & 0x00FF00FF) << 8);
+ return (n >> 16) | (n << 16);
+}
+
+int stb_is_pow2(unsigned int n)
+{
+ return (n & (n - 1)) == 0;
+}
+
+// tricky use of 4-bit table to identify 5 bit positions (note the '-1')
+// 3-bit table would require another tree level; 5-bit table wouldn't save one
+#if defined(_WIN32) && !defined(__MINGW32__)
+#pragma warning(push)
+#pragma warning(disable: 4035) // disable warning about no return value
+int stb_log2_floor(unsigned int n)
+{
+#if _MSC_VER > 1700
+ unsigned long i;
+ _BitScanReverse(&i, n);
+ return i != 0 ? i : -1;
+#else
+ __asm {
+ bsr eax, n
+ jnz done
+ mov eax, -1
+ }
+done:;
+#endif
+}
+#pragma warning(pop)
+#else
+int stb_log2_floor(unsigned int n)
+{
+ static signed char log2_4[16] = { -1,0,1,1,2,2,2,2,3,3,3,3,3,3,3,3 };
+
+ // 2 compares if n < 16, 3 compares otherwise
+ if (n < (1U << 14))
+ if (n < (1U << 4)) return 0 + log2_4[n];
+ else if (n < (1U << 9)) return 5 + log2_4[n >> 5];
+ else return 10 + log2_4[n >> 10];
+ else if (n < (1U << 24))
+ if (n < (1U << 19)) return 15 + log2_4[n >> 15];
+ else return 20 + log2_4[n >> 20];
+ else if (n < (1U << 29)) return 25 + log2_4[n >> 25];
+ else return 30 + log2_4[n >> 30];
+}
+#endif
+
+// define ceil from floor
+int stb_log2_ceil(unsigned int n)
+{
+ if (stb_is_pow2(n)) return stb_log2_floor(n);
+ else return 1 + stb_log2_floor(n);
+}
+
+int stb_highbit8(unsigned int n)
+{
+ return stb_log2_ceil(n & 255);
+}
+
+int stb_lowbit8(unsigned int n)
+{
+ static signed char lowbit4[16] = { -1,0,1,0, 2,0,1,0, 3,0,1,0, 2,0,1,0 };
+ int k = lowbit4[n & 15];
+ if (k >= 0) return k;
+ k = lowbit4[(n >> 4) & 15];
+ if (k >= 0) return k + 4;
+ return k;
+}
+#endif
+
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// qsort Compare Routines
+//
+
+#ifdef _WIN32
+#define stb_stricmp(a,b) stricmp(a,b)
+#define stb_strnicmp(a,b,n) strnicmp(a,b,n)
+#else
+#define stb_stricmp(a,b) strcasecmp(a,b)
+#define stb_strnicmp(a,b,n) strncasecmp(a,b,n)
+#endif
+
+
+STB_EXTERN int(*stb_intcmp(int offset))(const void *a, const void *b);
+STB_EXTERN int(*stb_qsort_strcmp(int offset))(const void *a, const void *b);
+STB_EXTERN int(*stb_qsort_stricmp(int offset))(const void *a, const void *b);
+STB_EXTERN int(*stb_floatcmp(int offset))(const void *a, const void *b);
+STB_EXTERN int(*stb_doublecmp(int offset))(const void *a, const void *b);
+STB_EXTERN int(*stb_charcmp(int offset))(const void *a, const void *b);
+
+#ifdef STB_DEFINE
+static int stb__intcmpoffset, stb__ucharcmpoffset, stb__strcmpoffset;
+static int stb__floatcmpoffset, stb__doublecmpoffset;
+
+int stb__intcmp(const void *a, const void *b)
+{
+ const int p = *(const int *)((const char *)a + stb__intcmpoffset);
+ const int q = *(const int *)((const char *)b + stb__intcmpoffset);
+ return p < q ? -1 : p > q;
+}
+
+int stb__ucharcmp(const void *a, const void *b)
+{
+ const int p = *(const unsigned char *)((const char *)a + stb__ucharcmpoffset);
+ const int q = *(const unsigned char *)((const char *)b + stb__ucharcmpoffset);
+ return p < q ? -1 : p > q;
+}
+
+int stb__floatcmp(const void *a, const void *b)
+{
+ const float p = *(const float *)((const char *)a + stb__floatcmpoffset);
+ const float q = *(const float *)((const char *)b + stb__floatcmpoffset);
+ return p < q ? -1 : p > q;
+}
+
+int stb__doublecmp(const void *a, const void *b)
+{
+ const double p = *(const double *)((const char *)a + stb__doublecmpoffset);
+ const double q = *(const double *)((const char *)b + stb__doublecmpoffset);
+ return p < q ? -1 : p > q;
+}
+
+int stb__qsort_strcmp(const void *a, const void *b)
+{
+ const char *p = *(const char **)((const char *)a + stb__strcmpoffset);
+ const char *q = *(const char **)((const char *)b + stb__strcmpoffset);
+ return strcmp(p, q);
+}
+
+int stb__qsort_stricmp(const void *a, const void *b)
+{
+ const char *p = *(const char **)((const char *)a + stb__strcmpoffset);
+ const char *q = *(const char **)((const char *)b + stb__strcmpoffset);
+ return stb_stricmp(p, q);
+}
+
+int(*stb_intcmp(int offset))(const void *, const void *)
+{
+ stb__intcmpoffset = offset;
+ return &stb__intcmp;
+}
+
+int(*stb_ucharcmp(int offset))(const void *, const void *)
+{
+ stb__ucharcmpoffset = offset;
+ return &stb__ucharcmp;
+}
+
+int(*stb_qsort_strcmp(int offset))(const void *, const void *)
+{
+ stb__strcmpoffset = offset;
+ return &stb__qsort_strcmp;
+}
+
+int(*stb_qsort_stricmp(int offset))(const void *, const void *)
+{
+ stb__strcmpoffset = offset;
+ return &stb__qsort_stricmp;
+}
+
+int(*stb_floatcmp(int offset))(const void *, const void *)
+{
+ stb__floatcmpoffset = offset;
+ return &stb__floatcmp;
+}
+
+int(*stb_doublecmp(int offset))(const void *, const void *)
+{
+ stb__doublecmpoffset = offset;
+ return &stb__doublecmp;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Binary Search Toolkit
+//
+
+typedef struct
+{
+ int minval, maxval, guess;
+ int mode, step;
+} stb_search;
+
+STB_EXTERN int stb_search_binary(stb_search *s, int minv, int maxv, int find_smallest);
+STB_EXTERN int stb_search_open(stb_search *s, int minv, int find_smallest);
+STB_EXTERN int stb_probe(stb_search *s, int compare, int *result); // return 0 when done
+
+#ifdef STB_DEFINE
+enum
+{
+ STB_probe_binary_smallest,
+ STB_probe_binary_largest,
+ STB_probe_open_smallest,
+ STB_probe_open_largest,
+};
+
+static int stb_probe_guess(stb_search *s, int *result)
+{
+ switch (s->mode) {
+ case STB_probe_binary_largest:
+ if (s->minval == s->maxval) {
+ *result = s->minval;
+ return 0;
+ }
+ assert(s->minval < s->maxval);
+ // if a < b, then a < p <= b
+ s->guess = s->minval + (((unsigned)s->maxval - s->minval + 1) >> 1);
+ break;
+
+ case STB_probe_binary_smallest:
+ if (s->minval == s->maxval) {
+ *result = s->minval;
+ return 0;
+ }
+ assert(s->minval < s->maxval);
+ // if a < b, then a <= p < b
+ s->guess = s->minval + (((unsigned)s->maxval - s->minval) >> 1);
+ break;
+ case STB_probe_open_smallest:
+ case STB_probe_open_largest:
+ s->guess = s->maxval; // guess the current maxval
+ break;
+ }
+ *result = s->guess;
+ return 1;
+}
+
+int stb_probe(stb_search *s, int compare, int *result)
+{
+ switch (s->mode) {
+ case STB_probe_open_smallest:
+ case STB_probe_open_largest: {
+ if (compare <= 0) {
+ // then it lies within minval & maxval
+ if (s->mode == STB_probe_open_smallest)
+ s->mode = STB_probe_binary_smallest;
+ else
+ s->mode = STB_probe_binary_largest;
+ }
+ else {
+ // otherwise, we need to probe larger
+ s->minval = s->maxval + 1;
+ s->maxval = s->minval + s->step;
+ s->step += s->step;
+ }
+ break;
+ }
+ case STB_probe_binary_smallest: {
+ // if compare < 0, then s->minval <= a < p
+ // if compare = 0, then s->minval <= a <= p
+ // if compare > 0, then p < a <= s->maxval
+ if (compare <= 0)
+ s->maxval = s->guess;
+ else
+ s->minval = s->guess + 1;
+ break;
+ }
+ case STB_probe_binary_largest: {
+ // if compare < 0, then s->minval <= a < p
+ // if compare = 0, then p <= a <= s->maxval
+ // if compare > 0, then p < a <= s->maxval
+ if (compare < 0)
+ s->maxval = s->guess - 1;
+ else
+ s->minval = s->guess;
+ break;
+ }
+ }
+ return stb_probe_guess(s, result);
+}
+
+int stb_search_binary(stb_search *s, int minv, int maxv, int find_smallest)
+{
+ int r;
+ if (maxv < minv) return minv - 1;
+ s->minval = minv;
+ s->maxval = maxv;
+ s->mode = find_smallest ? STB_probe_binary_smallest : STB_probe_binary_largest;
+ stb_probe_guess(s, &r);
+ return r;
+}
+
+int stb_search_open(stb_search *s, int minv, int find_smallest)
+{
+ int r;
+ s->step = 4;
+ s->minval = minv;
+ s->maxval = minv + s->step;
+ s->mode = find_smallest ? STB_probe_open_smallest : STB_probe_open_largest;
+ stb_probe_guess(s, &r);
+ return r;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// String Processing
+//
+
+#define stb_prefixi(s,t) (0==stb_strnicmp((s),(t),strlen(t)))
+
+enum stb_splitpath_flag
+{
+ STB_PATH = 1,
+ STB_FILE = 2,
+ STB_EXT = 4,
+ STB_PATH_FILE = STB_PATH + STB_FILE,
+ STB_FILE_EXT = STB_FILE + STB_EXT,
+ STB_EXT_NO_PERIOD = 8,
+};
+
+STB_EXTERN char * stb_skipwhite(char *s);
+STB_EXTERN char * stb_trimwhite(char *s);
+STB_EXTERN char * stb_skipnewline(char *s);
+STB_EXTERN char * stb_strncpy(char *s, char *t, int n);
+STB_EXTERN char * stb_substr(char *t, int n);
+STB_EXTERN char * stb_duplower(char *s);
+STB_EXTERN void stb_tolower(char *s);
+STB_EXTERN char * stb_strchr2(char *s, char p1, char p2);
+STB_EXTERN char * stb_strrchr2(char *s, char p1, char p2);
+STB_EXTERN char * stb_strtok(char *output, char *src, char *delimit);
+STB_EXTERN char * stb_strtok_keep(char *output, char *src, char *delimit);
+STB_EXTERN char * stb_strtok_invert(char *output, char *src, char *allowed);
+STB_EXTERN char * stb_dupreplace(char *s, char *find, char *replace);
+STB_EXTERN void stb_replaceinplace(char *s, char *find, char *replace);
+STB_EXTERN char * stb_splitpath(char *output, char *src, int flag);
+STB_EXTERN char * stb_splitpathdup(char *src, int flag);
+STB_EXTERN char * stb_replacedir(char *output, char *src, char *dir);
+STB_EXTERN char * stb_replaceext(char *output, char *src, char *ext);
+STB_EXTERN void stb_fixpath(char *path);
+STB_EXTERN char * stb_shorten_path_readable(char *path, int max_len);
+STB_EXTERN int stb_suffix(char *s, char *t);
+STB_EXTERN int stb_suffixi(char *s, char *t);
+STB_EXTERN int stb_prefix(char *s, char *t);
+STB_EXTERN char * stb_strichr(char *s, char t);
+STB_EXTERN char * stb_stristr(char *s, char *t);
+STB_EXTERN int stb_prefix_count(char *s, char *t);
+STB_EXTERN const char * stb_plural(int n); // "s" or ""
+STB_EXTERN size_t stb_strscpy(char *d, const char *s, size_t n);
+
+STB_EXTERN char **stb_tokens(char *src, char *delimit, int *count);
+STB_EXTERN char **stb_tokens_nested(char *src, char *delimit, int *count, char *nest_in, char *nest_out);
+STB_EXTERN char **stb_tokens_nested_empty(char *src, char *delimit, int *count, char *nest_in, char *nest_out);
+STB_EXTERN char **stb_tokens_allowempty(char *src, char *delimit, int *count);
+STB_EXTERN char **stb_tokens_stripwhite(char *src, char *delimit, int *count);
+STB_EXTERN char **stb_tokens_withdelim(char *src, char *delimit, int *count);
+STB_EXTERN char **stb_tokens_quoted(char *src, char *delimit, int *count);
+// with 'quoted', allow delimiters to appear inside quotation marks, and don't
+// strip whitespace inside them (and we delete the quotation marks unless they
+// appear back to back, in which case they're considered escaped)
+
+#ifdef STB_DEFINE
+
+size_t stb_strscpy(char *d, const char *s, size_t n)
+{
+ size_t len = strlen(s);
+ if (len >= n) {
+ if (n) d[0] = 0;
+ return 0;
+ }
+ strcpy(d, s);
+ return len + 1;
+}
+
+const char *stb_plural(int n)
+{
+ return n == 1 ? "" : "s";
+}
+
+int stb_prefix(char *s, char *t)
+{
+ while (*t)
+ if (*s++ != *t++)
+ return STB_FALSE;
+ return STB_TRUE;
+}
+
+int stb_prefix_count(char *s, char *t)
+{
+ int c = 0;
+ while (*t) {
+ if (*s++ != *t++)
+ break;
+ ++c;
+ }
+ return c;
+}
+
+int stb_suffix(char *s, char *t)
+{
+ size_t n = strlen(s);
+ size_t m = strlen(t);
+ if (m <= n)
+ return 0 == strcmp(s + n - m, t);
+ else
+ return 0;
+}
+
+int stb_suffixi(char *s, char *t)
+{
+ size_t n = strlen(s);
+ size_t m = strlen(t);
+ if (m <= n)
+ return 0 == stb_stricmp(s + n - m, t);
+ else
+ return 0;
+}
+
+// originally I was using this table so that I could create known sentinel
+// values--e.g. change whitetable[0] to be true if I was scanning for whitespace,
+// and false if I was scanning for nonwhite. I don't appear to be using that
+// functionality anymore (I do for tokentable, though), so just replace it
+// with isspace()
+char *stb_skipwhite(char *s)
+{
+ while (isspace((unsigned char)*s)) ++s;
+ return s;
+}
+
+char *stb_skipnewline(char *s)
+{
+ if (s[0] == '\r' || s[0] == '\n') {
+ if (s[0] + s[1] == '\r' + '\n') ++s;
+ ++s;
+ }
+ return s;
+}
+
+char *stb_trimwhite(char *s)
+{
+ int i, n;
+ s = stb_skipwhite(s);
+ n = (int)strlen(s);
+ for (i = n - 1; i >= 0; --i)
+ if (!isspace(s[i]))
+ break;
+ s[i + 1] = 0;
+ return s;
+}
+
+char *stb_strncpy(char *s, char *t, int n)
+{
+ strncpy(s, t, n);
+ s[n - 1] = 0;
+ return s;
+}
+
+char *stb_substr(char *t, int n)
+{
+ char *a;
+ int z = (int)strlen(t);
+ if (z < n) n = z;
+ a = (char *)malloc(n + 1);
+ strncpy(a, t, n);
+ a[n] = 0;
+ return a;
+}
+
+char *stb_duplower(char *s)
+{
+ char *p = strdup(s), *q = p;
+ while (*q) {
+ *q = tolower(*q);
+ ++q;
+ }
+ return p;
+}
+
+void stb_tolower(char *s)
+{
+ while (*s) {
+ *s = tolower(*s);
+ ++s;
+ }
+}
+
+char *stb_strchr2(char *s, char x, char y)
+{
+ for (; *s; ++s)
+ if (*s == x || *s == y)
+ return s;
+ return NULL;
+}
+
+char *stb_strrchr2(char *s, char x, char y)
+{
+ char *r = NULL;
+ for (; *s; ++s)
+ if (*s == x || *s == y)
+ r = s;
+ return r;
+}
+
+char *stb_strichr(char *s, char t)
+{
+ if (tolower(t) == toupper(t))
+ return strchr(s, t);
+ return stb_strchr2(s, (char)tolower(t), (char)toupper(t));
+}
+
+char *stb_stristr(char *s, char *t)
+{
+ size_t n = strlen(t);
+ char *z;
+ if (n == 0) return s;
+ while ((z = stb_strichr(s, *t)) != NULL) {
+ if (0 == stb_strnicmp(z, t, n))
+ return z;
+ s = z + 1;
+ }
+ return NULL;
+}
+
+static char *stb_strtok_raw(char *output, char *src, char *delimit, int keep, int invert)
+{
+ if (invert) {
+ while (*src && strchr(delimit, *src) != NULL) {
+ *output++ = *src++;
+ }
+ }
+ else {
+ while (*src && strchr(delimit, *src) == NULL) {
+ *output++ = *src++;
+ }
+ }
+ *output = 0;
+ if (keep)
+ return src;
+ else
+ return *src ? src + 1 : src;
+}
+
+char *stb_strtok(char *output, char *src, char *delimit)
+{
+ return stb_strtok_raw(output, src, delimit, 0, 0);
+}
+
+char *stb_strtok_keep(char *output, char *src, char *delimit)
+{
+ return stb_strtok_raw(output, src, delimit, 1, 0);
+}
+
+char *stb_strtok_invert(char *output, char *src, char *delimit)
+{
+ return stb_strtok_raw(output, src, delimit, 1, 1);
+}
+
+static char **stb_tokens_raw(char *src_, char *delimit, int *count,
+ int stripwhite, int allow_empty, char *start, char *end)
+{
+ int nested = 0;
+ unsigned char *src = (unsigned char *)src_;
+ static char stb_tokentable[256]; // rely on static initializion to 0
+ static char stable[256], etable[256];
+ char *out;
+ char **result;
+ int num = 0;
+ unsigned char *s;
+
+ s = (unsigned char *)delimit; while (*s) stb_tokentable[*s++] = 1;
+ if (start) {
+ s = (unsigned char *)start; while (*s) stable[*s++] = 1;
+ s = (unsigned char *)end; if (s) while (*s) stable[*s++] = 1;
+ s = (unsigned char *)end; if (s) while (*s) etable[*s++] = 1;
+ }
+ stable[0] = 1;
+
+ // two passes through: the first time, counting how many
+ s = (unsigned char *)src;
+ while (*s) {
+ // state: just found delimiter
+ // skip further delimiters
+ if (!allow_empty) {
+ stb_tokentable[0] = 0;
+ while (stb_tokentable[*s])
+ ++s;
+ if (!*s) break;
+ }
+ ++num;
+ // skip further non-delimiters
+ stb_tokentable[0] = 1;
+ if (stripwhite == 2) { // quoted strings
+ while (!stb_tokentable[*s]) {
+ if (*s != '"')
+ ++s;
+ else {
+ ++s;
+ if (*s == '"')
+ ++s; // "" -> ", not start a string
+ else {
+ // begin a string
+ while (*s) {
+ if (s[0] == '"') {
+ if (s[1] == '"') s += 2; // "" -> "
+ else { ++s; break; } // terminating "
+ }
+ else
+ ++s;
+ }
+ }
+ }
+ }
+ }
+ else
+ while (nested || !stb_tokentable[*s]) {
+ if (stable[*s]) {
+ if (!*s) break;
+ if (end ? etable[*s] : nested)
+ --nested;
+ else
+ ++nested;
+ }
+ ++s;
+ }
+ if (allow_empty) {
+ if (*s) ++s;
+ }
+ }
+ // now num has the actual count... malloc our output structure
+ // need space for all the strings: strings won't be any longer than
+ // original input, since for every '\0' there's at least one delimiter
+ result = (char **)malloc(sizeof(*result) * (num + 1) + (s - src + 1));
+ if (result == NULL) return result;
+ out = (char *)(result + (num + 1));
+ // second pass: copy out the data
+ s = (unsigned char *)src;
+ num = 0;
+ nested = 0;
+ while (*s) {
+ char *last_nonwhite;
+ // state: just found delimiter
+ // skip further delimiters
+ if (!allow_empty) {
+ stb_tokentable[0] = 0;
+ if (stripwhite)
+ while (stb_tokentable[*s] || isspace(*s))
+ ++s;
+ else
+ while (stb_tokentable[*s])
+ ++s;
+ }
+ else if (stripwhite) {
+ while (isspace(*s)) ++s;
+ }
+ if (!*s) break;
+ // we're past any leading delimiters and whitespace
+ result[num] = out;
+ ++num;
+ // copy non-delimiters
+ stb_tokentable[0] = 1;
+ last_nonwhite = out - 1;
+ if (stripwhite == 2) {
+ while (!stb_tokentable[*s]) {
+ if (*s != '"') {
+ if (!isspace(*s)) last_nonwhite = out;
+ *out++ = *s++;
+ }
+ else {
+ ++s;
+ if (*s == '"') {
+ if (!isspace(*s)) last_nonwhite = out;
+ *out++ = *s++; // "" -> ", not start string
+ }
+ else {
+ // begin a quoted string
+ while (*s) {
+ if (s[0] == '"') {
+ if (s[1] == '"') { *out++ = *s; s += 2; }
+ else { ++s; break; } // terminating "
+ }
+ else
+ *out++ = *s++;
+ }
+ last_nonwhite = out - 1; // all in quotes counts as non-white
+ }
+ }
+ }
+ }
+ else {
+ while (nested || !stb_tokentable[*s]) {
+ if (!isspace(*s)) last_nonwhite = out;
+ if (stable[*s]) {
+ if (!*s) break;
+ if (end ? etable[*s] : nested)
+ --nested;
+ else
+ ++nested;
+ }
+ *out++ = *s++;
+ }
+ }
+
+ if (stripwhite) // rewind to last non-whitespace char
+ out = last_nonwhite + 1;
+ *out++ = '\0';
+
+ if (*s) ++s; // skip delimiter
+ }
+ s = (unsigned char *)delimit; while (*s) stb_tokentable[*s++] = 0;
+ if (start) {
+ s = (unsigned char *)start; while (*s) stable[*s++] = 1;
+ s = (unsigned char *)end; if (s) while (*s) stable[*s++] = 1;
+ s = (unsigned char *)end; if (s) while (*s) etable[*s++] = 1;
+ }
+ if (count != NULL) *count = num;
+ result[num] = 0;
+ return result;
+}
+
+char **stb_tokens(char *src, char *delimit, int *count)
+{
+ return stb_tokens_raw(src, delimit, count, 0, 0, 0, 0);
+}
+
+char **stb_tokens_nested(char *src, char *delimit, int *count, char *nest_in, char *nest_out)
+{
+ return stb_tokens_raw(src, delimit, count, 0, 0, nest_in, nest_out);
+}
+
+char **stb_tokens_nested_empty(char *src, char *delimit, int *count, char *nest_in, char *nest_out)
+{
+ return stb_tokens_raw(src, delimit, count, 0, 1, nest_in, nest_out);
+}
+
+char **stb_tokens_allowempty(char *src, char *delimit, int *count)
+{
+ return stb_tokens_raw(src, delimit, count, 0, 1, 0, 0);
+}
+
+char **stb_tokens_stripwhite(char *src, char *delimit, int *count)
+{
+ return stb_tokens_raw(src, delimit, count, 1, 1, 0, 0);
+}
+
+char **stb_tokens_quoted(char *src, char *delimit, int *count)
+{
+ return stb_tokens_raw(src, delimit, count, 2, 1, 0, 0);
+}
+
+char *stb_dupreplace(char *src, char *find, char *replace)
+{
+ size_t len_find = strlen(find);
+ size_t len_replace = strlen(replace);
+ int count = 0;
+
+ char *s, *p, *q;
+
+ s = strstr(src, find);
+ if (s == NULL) return strdup(src);
+ do {
+ ++count;
+ s = strstr(s + len_find, find);
+ } while (s != NULL);
+
+ p = (char *)malloc(strlen(src) + count * (len_replace - len_find) + 1);
+ if (p == NULL) return p;
+ q = p;
+ s = src;
+ for (;;) {
+ char *t = strstr(s, find);
+ if (t == NULL) {
+ strcpy(q, s);
+ assert(strlen(p) == strlen(src) + count*(len_replace - len_find));
+ return p;
+ }
+ memcpy(q, s, t - s);
+ q += t - s;
+ memcpy(q, replace, len_replace);
+ q += len_replace;
+ s = t + len_find;
+ }
+}
+
+void stb_replaceinplace(char *src, char *find, char *replace)
+{
+ size_t len_find = strlen(find);
+ size_t len_replace = strlen(replace);
+ int delta;
+
+ char *s, *p, *q;
+
+ delta = len_replace - len_find;
+ assert(delta <= 0);
+ if (delta > 0) return;
+
+ p = strstr(src, find);
+ if (p == NULL) return;
+
+ s = q = p;
+ while (*s) {
+ memcpy(q, replace, len_replace);
+ p += len_find;
+ q += len_replace;
+ s = strstr(p, find);
+ if (s == NULL) s = p + strlen(p);
+ memmove(q, p, s - p);
+ q += s - p;
+ p = s;
+ }
+ *q = 0;
+}
+
+void stb_fixpath(char *path)
+{
+ for (; *path; ++path)
+ if (*path == '\\')
+ *path = '/';
+}
+
+void stb__add_section(char *buffer, char *data, int curlen, int newlen)
+{
+ if (newlen < curlen) {
+ int z1 = newlen >> 1, z2 = newlen - z1;
+ memcpy(buffer, data, z1 - 1);
+ buffer[z1 - 1] = '.';
+ buffer[z1 - 0] = '.';
+ memcpy(buffer + z1 + 1, data + curlen - z2 + 1, z2 - 1);
+ }
+ else
+ memcpy(buffer, data, curlen);
+}
+
+char * stb_shorten_path_readable(char *path, int len)
+{
+ static char buffer[1024];
+ int n = strlen(path), n1, n2, r1, r2;
+ char *s;
+ if (n <= len) return path;
+ if (len > 1024) return path;
+ s = stb_strrchr2(path, '/', '\\');
+ if (s) {
+ n1 = s - path + 1;
+ n2 = n - n1;
+ ++s;
+ }
+ else {
+ n1 = 0;
+ n2 = n;
+ s = path;
+ }
+ // now we need to reduce r1 and r2 so that they fit in len
+ if (n1 < len >> 1) {
+ r1 = n1;
+ r2 = len - r1;
+ }
+ else if (n2 < len >> 1) {
+ r2 = n2;
+ r1 = len - r2;
+ }
+ else {
+ r1 = n1 * len / n;
+ r2 = n2 * len / n;
+ if (r1 < len >> 2) r1 = len >> 2, r2 = len - r1;
+ if (r2 < len >> 2) r2 = len >> 2, r1 = len - r2;
+ }
+ assert(r1 <= n1 && r2 <= n2);
+ if (n1)
+ stb__add_section(buffer, path, n1, r1);
+ stb__add_section(buffer + r1, s, n2, r2);
+ buffer[len] = 0;
+ return buffer;
+}
+
+static char *stb__splitpath_raw(char *buffer, char *path, int flag)
+{
+ int len = 0, x, y, n = (int)strlen(path), f1, f2;
+ char *s = stb_strrchr2(path, '/', '\\');
+ char *t = strrchr(path, '.');
+ if (s && t && t < s) t = NULL;
+ if (s) ++s;
+
+ if (flag == STB_EXT_NO_PERIOD)
+ flag |= STB_EXT;
+
+ if (!(flag & (STB_PATH | STB_FILE | STB_EXT))) return NULL;
+
+ f1 = s == NULL ? 0 : s - path; // start of filename
+ f2 = t == NULL ? n : t - path; // just past end of filename
+
+ if (flag & STB_PATH) {
+ x = 0; if (f1 == 0 && flag == STB_PATH) len = 2;
+ }
+ else if (flag & STB_FILE) {
+ x = f1;
+ }
+ else {
+ x = f2;
+ if (flag & STB_EXT_NO_PERIOD)
+ if (buffer[x] == '.')
+ ++x;
+ }
+
+ if (flag & STB_EXT)
+ y = n;
+ else if (flag & STB_FILE)
+ y = f2;
+ else
+ y = f1;
+
+ if (buffer == NULL) {
+ buffer = (char *)malloc(y - x + len + 1);
+ if (!buffer) return NULL;
+ }
+
+ if (len) { strcpy(buffer, "./"); return buffer; }
+ strncpy(buffer, path + x, y - x);
+ buffer[y - x] = 0;
+ return buffer;
+}
+
+char *stb_splitpath(char *output, char *src, int flag)
+{
+ return stb__splitpath_raw(output, src, flag);
+}
+
+char *stb_splitpathdup(char *src, int flag)
+{
+ return stb__splitpath_raw(NULL, src, flag);
+}
+
+char *stb_replacedir(char *output, char *src, char *dir)
+{
+ char buffer[4096];
+ stb_splitpath(buffer, src, STB_FILE | STB_EXT);
+ if (dir)
+ sprintf(output, "%s/%s", dir, buffer);
+ else
+ strcpy(output, buffer);
+ return output;
+}
+
+char *stb_replaceext(char *output, char *src, char *ext)
+{
+ char buffer[4096];
+ stb_splitpath(buffer, src, STB_PATH | STB_FILE);
+ if (ext)
+ sprintf(output, "%s.%s", buffer, ext[0] == '.' ? ext + 1 : ext);
+ else
+ strcpy(output, buffer);
+ return output;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_alloc - hierarchical allocator
+//
+// inspired by http://swapped.cc/halloc
+//
+//
+// When you alloc a given block through stb_alloc, you have these choices:
+//
+// 1. does it have a parent?
+// 2. can it have children?
+// 3. can it be freed directly?
+// 4. is it transferrable?
+// 5. what is its alignment?
+//
+// Here are interesting combinations of those:
+//
+// children free transfer alignment
+// arena Y Y N n/a
+// no-overhead, chunked N N N normal
+// string pool alloc N N N 1
+// parent-ptr, chunked Y N N normal
+// low-overhead, unchunked N Y Y normal
+// general purpose alloc Y Y Y normal
+//
+// Unchunked allocations will probably return 16-aligned pointers. If
+// we 16-align the results, we have room for 4 pointers. For smaller
+// allocations that allow finer alignment, we can reduce the pointers.
+//
+// The strategy is that given a pointer, assuming it has a header (only
+// the no-overhead allocations have no header), we can determine the
+// type of the header fields, and the number of them, by stepping backwards
+// through memory and looking at the tags in the bottom bits.
+//
+// Implementation strategy:
+// chunked allocations come from the middle of chunks, and can't
+// be freed. thefore they do not need to be on a sibling chain.
+// they may need child pointers if they have children.
+//
+// chunked, with-children
+// void *parent;
+//
+// unchunked, no-children -- reduced storage
+// void *next_sibling;
+// void *prev_sibling_nextp;
+//
+// unchunked, general
+// void *first_child;
+// void *next_sibling;
+// void *prev_sibling_nextp;
+// void *chunks;
+//
+// so, if we code each of these fields with different bit patterns
+// (actually same one for next/prev/child), then we can identify which
+// each one is from the last field.
+
+STB_EXTERN void stb_free(void *p);
+STB_EXTERN void *stb_malloc_global(size_t size);
+STB_EXTERN void *stb_malloc(void *context, size_t size);
+STB_EXTERN void *stb_malloc_nofree(void *context, size_t size);
+STB_EXTERN void *stb_malloc_leaf(void *context, size_t size);
+STB_EXTERN void *stb_malloc_raw(void *context, size_t size);
+STB_EXTERN void *stb_realloc(void *ptr, size_t newsize);
+
+STB_EXTERN void stb_reassign(void *new_context, void *ptr);
+STB_EXTERN void stb_malloc_validate(void *p, void *parent);
+
+extern int stb_alloc_chunk_size;
+extern int stb_alloc_count_free;
+extern int stb_alloc_count_alloc;
+extern int stb_alloc_alignment;
+
+#ifdef STB_DEFINE
+
+int stb_alloc_chunk_size = 65536;
+int stb_alloc_count_free = 0;
+int stb_alloc_count_alloc = 0;
+int stb_alloc_alignment = -16;
+
+typedef struct stb__chunk
+{
+ struct stb__chunk *next;
+ int data_left;
+ int alloc;
+} stb__chunk;
+
+typedef struct
+{
+ void * next;
+ void ** prevn;
+} stb__nochildren;
+
+typedef struct
+{
+ void ** prevn;
+ void * child;
+ void * next;
+ stb__chunk *chunks;
+} stb__alloc;
+
+typedef struct
+{
+ stb__alloc *parent;
+} stb__chunked;
+
+#define STB__PARENT 1
+#define STB__CHUNKS 2
+
+typedef enum
+{
+ STB__nochildren = 0,
+ STB__chunked = STB__PARENT,
+ STB__alloc = STB__CHUNKS,
+
+ STB__chunk_raw = 4,
+} stb__alloc_type;
+
+// these functions set the bottom bits of a pointer efficiently
+#define STB__DECODE(x,v) ((void *) ((char *) (x) - (v)))
+#define STB__ENCODE(x,v) ((void *) ((char *) (x) + (v)))
+
+#define stb__parent(z) (stb__alloc *) STB__DECODE((z)->parent, STB__PARENT)
+#define stb__chunks(z) (stb__chunk *) STB__DECODE((z)->chunks, STB__CHUNKS)
+
+#define stb__setparent(z,p) (z)->parent = (stb__alloc *) STB__ENCODE((p), STB__PARENT)
+#define stb__setchunks(z,c) (z)->chunks = (stb__chunk *) STB__ENCODE((c), STB__CHUNKS)
+
+static stb__alloc stb__alloc_global =
+{
+ NULL,
+ NULL,
+ NULL,
+ (stb__chunk *)STB__ENCODE(NULL, STB__CHUNKS)
+};
+
+static stb__alloc_type stb__identify(void *p)
+{
+ void **q = (void **)p;
+ return (stb__alloc_type)((stb_uinta)q[-1] & 3);
+}
+
+static void *** stb__prevn(void *p)
+{
+ if (stb__identify(p) == STB__alloc) {
+ stb__alloc *s = (stb__alloc *)p - 1;
+ return &s->prevn;
+ }
+ else {
+ stb__nochildren *s = (stb__nochildren *)p - 1;
+ return &s->prevn;
+ }
+}
+
+void stb_free(void *p)
+{
+ if (p == NULL) return;
+
+ // count frees so that unit tests can see what's happening
+ ++stb_alloc_count_free;
+
+ switch (stb__identify(p)) {
+ case STB__chunked:
+ // freeing a chunked-block with children does nothing;
+ // they only get freed when the parent does
+ // surely this is wrong, and it should free them immediately?
+ // otherwise how are they getting put on the right chain?
+ return;
+ case STB__nochildren: {
+ stb__nochildren *s = (stb__nochildren *)p - 1;
+ // unlink from sibling chain
+ *(s->prevn) = s->next;
+ if (s->next)
+ *stb__prevn(s->next) = s->prevn;
+ free(s);
+ return;
+ }
+ case STB__alloc: {
+ stb__alloc *s = (stb__alloc *)p - 1;
+ stb__chunk *c, *n;
+ void *q;
+
+ // unlink from sibling chain, if any
+ *(s->prevn) = s->next;
+ if (s->next)
+ *stb__prevn(s->next) = s->prevn;
+
+ // first free chunks
+ c = (stb__chunk *)stb__chunks(s);
+ while (c != NULL) {
+ n = c->next;
+ stb_alloc_count_free += c->alloc;
+ free(c);
+ c = n;
+ }
+
+ // validating
+ stb__setchunks(s, NULL);
+ s->prevn = NULL;
+ s->next = NULL;
+
+ // now free children
+ while ((q = s->child) != NULL) {
+ stb_free(q);
+ }
+
+ // now free self
+ free(s);
+ return;
+ }
+ default:
+ assert(0); /* NOTREACHED */
+ }
+}
+
+void stb_malloc_validate(void *p, void *parent)
+{
+ if (p == NULL) return;
+
+ switch (stb__identify(p)) {
+ case STB__chunked:
+ return;
+ case STB__nochildren: {
+ stb__nochildren *n = (stb__nochildren *)p - 1;
+ if (n->prevn)
+ assert(*n->prevn == p);
+ if (n->next) {
+ assert(*stb__prevn(n->next) == &n->next);
+ stb_malloc_validate(n, parent);
+ }
+ return;
+ }
+ case STB__alloc: {
+ stb__alloc *s = (stb__alloc *)p - 1;
+
+ if (s->prevn)
+ assert(*s->prevn == p);
+
+ if (s->child) {
+ assert(*stb__prevn(s->child) == &s->child);
+ stb_malloc_validate(s->child, p);
+ }
+
+ if (s->next) {
+ assert(*stb__prevn(s->next) == &s->next);
+ stb_malloc_validate(s->next, parent);
+ }
+ return;
+ }
+ default:
+ assert(0); /* NOTREACHED */
+ }
+}
+
+static void * stb__try_chunk(stb__chunk *c, int size, int align, int pre_align)
+{
+ char *memblock = (char *)(c + 1), *q;
+ stb_inta iq;
+ int start_offset;
+
+ // we going to allocate at the end of the chunk, not the start. confusing,
+ // but it means we don't need both a 'limit' and a 'cur', just a 'cur'.
+ // the block ends at: p + c->data_left
+ // then we move back by size
+ start_offset = c->data_left - size;
+
+ // now we need to check the alignment of that
+ q = memblock + start_offset;
+ iq = (stb_inta)q;
+ assert(sizeof(q) == sizeof(iq));
+
+ // suppose align = 2
+ // then we need to retreat iq far enough that (iq & (2-1)) == 0
+ // to get (iq & (align-1)) = 0 requires subtracting (iq & (align-1))
+
+ start_offset -= iq & (align - 1);
+ assert(((stb_uinta)(memblock + start_offset) & (align - 1)) == 0);
+
+ // now, if that + pre_align works, go for it!
+ start_offset -= pre_align;
+
+ if (start_offset >= 0) {
+ c->data_left = start_offset;
+ return memblock + start_offset;
+ }
+
+ return NULL;
+}
+
+static void stb__sort_chunks(stb__alloc *src)
+{
+ // of the first two chunks, put the chunk with more data left in it first
+ stb__chunk *c = stb__chunks(src), *d;
+ if (c == NULL) return;
+ d = c->next;
+ if (d == NULL) return;
+ if (c->data_left > d->data_left) return;
+
+ c->next = d->next;
+ d->next = c;
+ stb__setchunks(src, d);
+}
+
+static void * stb__alloc_chunk(stb__alloc *src, int size, int align, int pre_align)
+{
+ void *p;
+ stb__chunk *c = stb__chunks(src);
+
+ if (c && size <= stb_alloc_chunk_size) {
+
+ p = stb__try_chunk(c, size, align, pre_align);
+ if (p) { ++c->alloc; return p; }
+
+ // try a second chunk to reduce wastage
+ if (c->next) {
+ p = stb__try_chunk(c->next, size, align, pre_align);
+ if (p) { ++c->alloc; return p; }
+
+ // put the bigger chunk first, since the second will get buried
+ // the upshot of this is that, until it gets allocated from, chunk #2
+ // is always the largest remaining chunk. (could formalize
+ // this with a heap!)
+ stb__sort_chunks(src);
+ c = stb__chunks(src);
+ }
+ }
+
+ // allocate a new chunk
+ {
+ stb__chunk *n;
+
+ int chunk_size = stb_alloc_chunk_size;
+ // we're going to allocate a new chunk to put this in
+ if (size > chunk_size)
+ chunk_size = size;
+
+ assert(sizeof(*n) + pre_align <= 16);
+
+ // loop trying to allocate a large enough chunk
+ // the loop is because the alignment may cause problems if it's big...
+ // and we don't know what our chunk alignment is going to be
+ while (1) {
+ n = (stb__chunk *)malloc(16 + chunk_size);
+ if (n == NULL) return NULL;
+
+ n->data_left = chunk_size - sizeof(*n);
+
+ p = stb__try_chunk(n, size, align, pre_align);
+ if (p != NULL) {
+ n->next = c;
+ stb__setchunks(src, n);
+
+ // if we just used up the whole block immediately,
+ // move the following chunk up
+ n->alloc = 1;
+ if (size == chunk_size)
+ stb__sort_chunks(src);
+
+ return p;
+ }
+
+ free(n);
+ chunk_size += 16 + align;
+ }
+ }
+}
+
+static stb__alloc * stb__get_context(void *context)
+{
+ if (context == NULL) {
+ return &stb__alloc_global;
+ }
+ else {
+ int u = stb__identify(context);
+ // if context is chunked, grab parent
+ if (u == STB__chunked) {
+ stb__chunked *s = (stb__chunked *)context - 1;
+ return stb__parent(s);
+ }
+ else {
+ return (stb__alloc *)context - 1;
+ }
+ }
+}
+
+static void stb__insert_alloc(stb__alloc *src, stb__alloc *s)
+{
+ s->prevn = &src->child;
+ s->next = src->child;
+ src->child = s + 1;
+ if (s->next)
+ *stb__prevn(s->next) = &s->next;
+}
+
+static void stb__insert_nochild(stb__alloc *src, stb__nochildren *s)
+{
+ s->prevn = &src->child;
+ s->next = src->child;
+ src->child = s + 1;
+ if (s->next)
+ *stb__prevn(s->next) = &s->next;
+}
+
+static void * malloc_base(void *context, size_t size, stb__alloc_type t, int align)
+{
+ void *p;
+
+ stb__alloc *src = stb__get_context(context);
+
+ if (align <= 0) {
+ // compute worst-case C packed alignment
+ // e.g. a 24-byte struct is 8-aligned
+ int align_proposed = 1 << stb_lowbit8(size);
+
+ if (align_proposed < 0)
+ align_proposed = 4;
+
+ if (align_proposed == 0) {
+ if (size == 0)
+ align_proposed = 1;
+ else
+ align_proposed = 256;
+ }
+
+ // a negative alignment means 'don't align any larger
+ // than this'; so -16 means we align 1,2,4,8, or 16
+
+ if (align < 0) {
+ if (align_proposed > -align)
+ align_proposed = -align;
+ }
+
+ align = align_proposed;
+ }
+
+ assert(stb_is_pow2(align));
+
+ // don't cause misalignment when allocating nochildren
+ if (t == STB__nochildren && align > 8)
+ t = STB__alloc;
+
+ switch (t) {
+ case STB__alloc: {
+ stb__alloc *s = (stb__alloc *)malloc(size + sizeof(*s));
+ if (s == NULL) return NULL;
+ p = s + 1;
+ s->child = NULL;
+ stb__insert_alloc(src, s);
+
+ stb__setchunks(s, NULL);
+ break;
+ }
+
+ case STB__nochildren: {
+ stb__nochildren *s = (stb__nochildren *)malloc(size + sizeof(*s));
+ if (s == NULL) return NULL;
+ p = s + 1;
+ stb__insert_nochild(src, s);
+ break;
+ }
+
+ case STB__chunk_raw: {
+ p = stb__alloc_chunk(src, size, align, 0);
+ if (p == NULL) return NULL;
+ break;
+ }
+
+ case STB__chunked: {
+ stb__chunked *s;
+ if (align < sizeof(stb_uintptr)) align = sizeof(stb_uintptr);
+ s = (stb__chunked *)stb__alloc_chunk(src, size, align, sizeof(*s));
+ if (s == NULL) return NULL;
+ stb__setparent(s, src);
+ p = s + 1;
+ break;
+ }
+
+ default: p = NULL; assert(0); /* NOTREACHED */
+ }
+
+ ++stb_alloc_count_alloc;
+ return p;
+}
+
+void *stb_malloc_global(size_t size)
+{
+ return malloc_base(NULL, size, STB__alloc, stb_alloc_alignment);
+}
+
+void *stb_malloc(void *context, size_t size)
+{
+ return malloc_base(context, size, STB__alloc, stb_alloc_alignment);
+}
+
+void *stb_malloc_nofree(void *context, size_t size)
+{
+ return malloc_base(context, size, STB__chunked, stb_alloc_alignment);
+}
+
+void *stb_malloc_leaf(void *context, size_t size)
+{
+ return malloc_base(context, size, STB__nochildren, stb_alloc_alignment);
+}
+
+void *stb_malloc_raw(void *context, size_t size)
+{
+ return malloc_base(context, size, STB__chunk_raw, stb_alloc_alignment);
+}
+
+char *stb_malloc_string(void *context, size_t size)
+{
+ return (char *)malloc_base(context, size, STB__chunk_raw, 1);
+}
+
+void *stb_realloc(void *ptr, size_t newsize)
+{
+ stb__alloc_type t;
+
+ if (ptr == NULL) return stb_malloc(NULL, newsize);
+ if (newsize == 0) { stb_free(ptr); return NULL; }
+
+ t = stb__identify(ptr);
+ assert(t == STB__alloc || t == STB__nochildren);
+
+ if (t == STB__alloc) {
+ stb__alloc *s = (stb__alloc *)ptr - 1;
+
+ s = (stb__alloc *)realloc(s, newsize + sizeof(*s));
+ if (s == NULL) return NULL;
+
+ ptr = s + 1;
+
+ // update pointers
+ (*s->prevn) = ptr;
+ if (s->next)
+ *stb__prevn(s->next) = &s->next;
+
+ if (s->child)
+ *stb__prevn(s->child) = &s->child;
+
+ return ptr;
+ }
+ else {
+ stb__nochildren *s = (stb__nochildren *)ptr - 1;
+
+ s = (stb__nochildren *)realloc(ptr, newsize + sizeof(s));
+ if (s == NULL) return NULL;
+
+ // update pointers
+ (*s->prevn) = s + 1;
+ if (s->next)
+ *stb__prevn(s->next) = &s->next;
+
+ return s + 1;
+ }
+}
+
+void *stb_realloc_c(void *context, void *ptr, size_t newsize)
+{
+ if (ptr == NULL) return stb_malloc(context, newsize);
+ if (newsize == 0) { stb_free(ptr); return NULL; }
+ // @TODO: verify you haven't changed contexts
+ return stb_realloc(ptr, newsize);
+}
+
+void stb_reassign(void *new_context, void *ptr)
+{
+ stb__alloc *src = stb__get_context(new_context);
+
+ stb__alloc_type t = stb__identify(ptr);
+ assert(t == STB__alloc || t == STB__nochildren);
+
+ if (t == STB__alloc) {
+ stb__alloc *s = (stb__alloc *)ptr - 1;
+
+ // unlink from old
+ *(s->prevn) = s->next;
+ if (s->next)
+ *stb__prevn(s->next) = s->prevn;
+
+ stb__insert_alloc(src, s);
+ }
+ else {
+ stb__nochildren *s = (stb__nochildren *)ptr - 1;
+
+ // unlink from old
+ *(s->prevn) = s->next;
+ if (s->next)
+ *stb__prevn(s->next) = s->prevn;
+
+ stb__insert_nochild(src, s);
+ }
+}
+
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_arr
+//
+// An stb_arr is directly useable as a pointer (use the actual type in your
+// definition), but when it resizes, it returns a new pointer and you can't
+// use the old one, so you have to be careful to copy-in-out as necessary.
+//
+// Use a NULL pointer as a 0-length array.
+//
+// float *my_array = NULL, *temp;
+//
+// // add elements on the end one at a time
+// stb_arr_push(my_array, 0.0f);
+// stb_arr_push(my_array, 1.0f);
+// stb_arr_push(my_array, 2.0f);
+//
+// assert(my_array[1] == 2.0f);
+//
+// // add an uninitialized element at the end, then assign it
+// *stb_arr_add(my_array) = 3.0f;
+//
+// // add three uninitialized elements at the end
+// temp = stb_arr_addn(my_array,3);
+// temp[0] = 4.0f;
+// temp[1] = 5.0f;
+// temp[2] = 6.0f;
+//
+// assert(my_array[5] == 5.0f);
+//
+// // remove the last one
+// stb_arr_pop(my_array);
+//
+// assert(stb_arr_len(my_array) == 6);
+
+
+#ifdef STB_MALLOC_WRAPPER
+#define STB__PARAMS , char *file, int line
+#define STB__ARGS , file, line
+#else
+#define STB__PARAMS
+#define STB__ARGS
+#endif
+
+// calling this function allocates an empty stb_arr attached to p
+// (whereas NULL isn't attached to anything)
+STB_EXTERN void stb_arr_malloc(void **target, void *context);
+
+// call this function with a non-NULL value to have all successive
+// stbs that are created be attached to the associated parent. Note
+// that once a given stb_arr is non-empty, it stays attached to its
+// current parent, even if you call this function again.
+// it turns the previous value, so you can restore it
+STB_EXTERN void* stb_arr_malloc_parent(void *p);
+
+// simple functions written on top of other functions
+#define stb_arr_empty(a) ( stb_arr_len(a) == 0 )
+#define stb_arr_add(a) ( stb_arr_addn((a),1) )
+#define stb_arr_push(a,v) ( *stb_arr_add(a)=(v) )
+
+typedef struct
+{
+ int len, limit;
+ int stb_malloc;
+ unsigned int signature;
+} stb__arr;
+
+#define stb_arr_signature 0x51bada7b // ends with 0123 in decimal
+
+// access the header block stored before the data
+#define stb_arrhead(a) /*lint --e(826)*/ (((stb__arr *) (a)) - 1)
+#define stb_arrhead2(a) /*lint --e(826)*/ (((stb__arr *) (a)) - 1)
+
+#ifdef STB_DEBUG
+#define stb_arr_check(a) assert(!a || stb_arrhead(a)->signature == stb_arr_signature)
+#define stb_arr_check2(a) assert(!a || stb_arrhead2(a)->signature == stb_arr_signature)
+#else
+#define stb_arr_check(a) ((void) 0)
+#define stb_arr_check2(a) ((void) 0)
+#endif
+
+// ARRAY LENGTH
+
+// get the array length; special case if pointer is NULL
+#define stb_arr_len(a) (a ? stb_arrhead(a)->len : 0)
+#define stb_arr_len2(a) ((stb__arr *) (a) ? stb_arrhead2(a)->len : 0)
+#define stb_arr_lastn(a) (stb_arr_len(a)-1)
+
+// check whether a given index is valid -- tests 0 <= i < stb_arr_len(a)
+#define stb_arr_valid(a,i) (a ? (int) (i) < stb_arrhead(a)->len : 0)
+
+// change the array length so is is exactly N entries long, creating
+// uninitialized entries as needed
+#define stb_arr_setlen(a,n) \
+ (stb__arr_setlen((void **) &(a), sizeof(a[0]), (n)))
+
+// change the array length so that N is a valid index (that is, so
+// it is at least N entries long), creating uninitialized entries as needed
+#define stb_arr_makevalid(a,n) \
+ (stb_arr_len(a) < (n)+1 ? stb_arr_setlen(a,(n)+1),(a) : (a))
+
+// remove the last element of the array, returning it
+#define stb_arr_pop(a) ((stb_arr_check(a), (a))[--stb_arrhead(a)->len])
+
+// access the last element in the array
+#define stb_arr_last(a) ((stb_arr_check(a), (a))[stb_arr_len(a)-1])
+
+// is iterator at end of list?
+#define stb_arr_end(a,i) ((i) >= &(a)[stb_arr_len(a)])
+
+// (internal) change the allocated length of the array
+#define stb_arr__grow(a,n) (stb_arr_check(a), stb_arrhead(a)->len += (n))
+
+// add N new unitialized elements to the end of the array
+#define stb_arr__addn(a,n) /*lint --e(826)*/ \
+ ((stb_arr_len(a)+(n) > stb_arrcurmax(a)) \
+ ? (stb__arr_addlen((void **) &(a),sizeof(*a),(n)),0) \
+ : ((stb_arr__grow(a,n), 0)))
+
+// add N new unitialized elements to the end of the array, and return
+// a pointer to the first new one
+#define stb_arr_addn(a,n) (stb_arr__addn((a),n),(a)+stb_arr_len(a)-(n))
+
+// add N new uninitialized elements starting at index 'i'
+#define stb_arr_insertn(a,i,n) (stb__arr_insertn((void **) &(a), sizeof(*a), i, n))
+
+// insert an element at i
+#define stb_arr_insert(a,i,v) (stb__arr_insertn((void **) &(a), sizeof(*a), i, 1), ((a)[i] = v))
+
+// delete N elements from the middle starting at index 'i'
+#define stb_arr_deleten(a,i,n) (stb__arr_deleten((void **) &(a), sizeof(*a), i, n))
+
+// delete the i'th element
+#define stb_arr_delete(a,i) stb_arr_deleten(a,i,1)
+
+// delete the i'th element, swapping down from the end
+#define stb_arr_fastdelete(a,i) \
+ (stb_swap(&a[i], &a[stb_arrhead(a)->len-1], sizeof(*a)), stb_arr_pop(a))
+
+
+// ARRAY STORAGE
+
+// get the array maximum storage; special case if NULL
+#define stb_arrcurmax(a) (a ? stb_arrhead(a)->limit : 0)
+#define stb_arrcurmax2(a) (a ? stb_arrhead2(a)->limit : 0)
+
+// set the maxlength of the array to n in anticipation of further growth
+#define stb_arr_setsize(a,n) (stb_arr_check(a), stb__arr_setsize((void **) &(a),sizeof((a)[0]),n))
+
+// make sure maxlength is large enough for at least N new allocations
+#define stb_arr_atleast(a,n) (stb_arr_len(a)+(n) > stb_arrcurmax(a) \
+ ? stb_arr_setsize((a), (n)) : 0)
+
+// make a copy of a given array (copies contents via 'memcpy'!)
+#define stb_arr_copy(a) stb__arr_copy(a, sizeof((a)[0]))
+
+// compute the storage needed to store all the elements of the array
+#define stb_arr_storage(a) (stb_arr_len(a) * sizeof((a)[0]))
+
+#define stb_arr_for(v,arr) for((v)=(arr); (v) < (arr)+stb_arr_len(arr); ++(v))
+
+// IMPLEMENTATION
+
+STB_EXTERN void stb_arr_free_(void **p);
+STB_EXTERN void *stb__arr_copy_(void *p, int elem_size);
+STB_EXTERN void stb__arr_setsize_(void **p, int size, int limit STB__PARAMS);
+STB_EXTERN void stb__arr_setlen_(void **p, int size, int newlen STB__PARAMS);
+STB_EXTERN void stb__arr_addlen_(void **p, int size, int addlen STB__PARAMS);
+STB_EXTERN void stb__arr_deleten_(void **p, int size, int loc, int n STB__PARAMS);
+STB_EXTERN void stb__arr_insertn_(void **p, int size, int loc, int n STB__PARAMS);
+
+#define stb_arr_free(p) stb_arr_free_((void **) &(p))
+#define stb__arr_copy stb__arr_copy_
+
+#ifndef STB_MALLOC_WRAPPER
+#define stb__arr_setsize stb__arr_setsize_
+#define stb__arr_setlen stb__arr_setlen_
+#define stb__arr_addlen stb__arr_addlen_
+#define stb__arr_deleten stb__arr_deleten_
+#define stb__arr_insertn stb__arr_insertn_
+#else
+#define stb__arr_addlen(p,s,n) stb__arr_addlen_(p,s,n,__FILE__,__LINE__)
+#define stb__arr_setlen(p,s,n) stb__arr_setlen_(p,s,n,__FILE__,__LINE__)
+#define stb__arr_setsize(p,s,n) stb__arr_setsize_(p,s,n,__FILE__,__LINE__)
+#define stb__arr_deleten(p,s,i,n) stb__arr_deleten_(p,s,i,n,__FILE__,__LINE__)
+#define stb__arr_insertn(p,s,i,n) stb__arr_insertn_(p,s,i,n,__FILE__,__LINE__)
+#endif
+
+#ifdef STB_DEFINE
+static void *stb__arr_context;
+
+void *stb_arr_malloc_parent(void *p)
+{
+ void *q = stb__arr_context;
+ stb__arr_context = p;
+ return q;
+}
+
+void stb_arr_malloc(void **target, void *context)
+{
+ stb__arr *q = (stb__arr *)stb_malloc(context, sizeof(*q));
+ q->len = q->limit = 0;
+ q->stb_malloc = 1;
+ q->signature = stb_arr_signature;
+ *target = (void *)(q + 1);
+}
+
+static void * stb__arr_malloc(int size)
+{
+ if (stb__arr_context)
+ return stb_malloc(stb__arr_context, size);
+ return malloc(size);
+}
+
+void * stb__arr_copy_(void *p, int elem_size)
+{
+ stb__arr *q;
+ if (p == NULL) return p;
+ q = (stb__arr *)stb__arr_malloc(sizeof(*q) + elem_size * stb_arrhead2(p)->limit);
+ stb_arr_check2(p);
+ memcpy(q, stb_arrhead2(p), sizeof(*q) + elem_size * stb_arrhead2(p)->len);
+ q->stb_malloc = !!stb__arr_context;
+ return q + 1;
+}
+
+void stb_arr_free_(void **pp)
+{
+ void *p = *pp;
+ stb_arr_check2(p);
+ if (p) {
+ stb__arr *q = stb_arrhead2(p);
+ if (q->stb_malloc)
+ stb_free(q);
+ else
+ free(q);
+ }
+ *pp = NULL;
+}
+
+static void stb__arrsize_(void **pp, int size, int limit, int len STB__PARAMS)
+{
+ void *p = *pp;
+ stb__arr *a;
+ stb_arr_check2(p);
+ if (p == NULL) {
+ if (len == 0 && size == 0) return;
+ a = (stb__arr *)stb__arr_malloc(sizeof(*a) + size*limit);
+ a->limit = limit;
+ a->len = len;
+ a->stb_malloc = !!stb__arr_context;
+ a->signature = stb_arr_signature;
+ }
+ else {
+ a = stb_arrhead2(p);
+ a->len = len;
+ if (a->limit < limit) {
+ void *p;
+ if (a->limit >= 4 && limit < a->limit * 2)
+ limit = a->limit * 2;
+ if (a->stb_malloc)
+ p = stb_realloc(a, sizeof(*a) + limit*size);
+ else
+#ifdef STB_MALLOC_WRAPPER
+ p = stb__realloc(a, sizeof(*a) + limit*size, file, line);
+#else
+ p = realloc(a, sizeof(*a) + limit*size);
+#endif
+ if (p) {
+ a = (stb__arr *)p;
+ a->limit = limit;
+ }
+ else {
+ // throw an error!
+ }
+ }
+ }
+ a->len = stb_min(a->len, a->limit);
+ *pp = a + 1;
+}
+
+void stb__arr_setsize_(void **pp, int size, int limit STB__PARAMS)
+{
+ void *p = *pp;
+ stb_arr_check2(p);
+ stb__arrsize_(pp, size, limit, stb_arr_len2(p) STB__ARGS);
+}
+
+void stb__arr_setlen_(void **pp, int size, int newlen STB__PARAMS)
+{
+ void *p = *pp;
+ stb_arr_check2(p);
+ if (stb_arrcurmax2(p) < newlen || p == NULL) {
+ stb__arrsize_(pp, size, newlen, newlen STB__ARGS);
+ }
+ else {
+ stb_arrhead2(p)->len = newlen;
+ }
+}
+
+void stb__arr_addlen_(void **p, int size, int addlen STB__PARAMS)
+{
+ stb__arr_setlen_(p, size, stb_arr_len2(*p) + addlen STB__ARGS);
+}
+
+void stb__arr_insertn_(void **pp, int size, int i, int n STB__PARAMS)
+{
+ void *p = *pp;
+ if (n) {
+ int z;
+
+ if (p == NULL) {
+ stb__arr_addlen_(pp, size, n STB__ARGS);
+ return;
+ }
+
+ z = stb_arr_len2(p);
+ stb__arr_addlen_(&p, size, n STB__ARGS);
+ memmove((char *)p + (i + n)*size, (char *)p + i*size, size * (z - i));
+ }
+ *pp = p;
+}
+
+void stb__arr_deleten_(void **pp, int size, int i, int n STB__PARAMS)
+{
+ void *p = *pp;
+ if (n) {
+ memmove((char *)p + i*size, (char *)p + (i + n)*size, size * (stb_arr_len2(p) - (i + n)));
+ stb_arrhead2(p)->len -= n;
+ }
+ *pp = p;
+}
+
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Hashing
+//
+// typical use for this is to make a power-of-two hash table.
+//
+// let N = size of table (2^n)
+// let H = stb_hash(str)
+// let S = stb_rehash(H) | 1
+//
+// then hash probe sequence P(i) for i=0..N-1
+// P(i) = (H + S*i) & (N-1)
+//
+// the idea is that H has 32 bits of hash information, but the
+// table has only, say, 2^20 entries so only uses 20 of the bits.
+// then by rehashing the original H we get 2^12 different probe
+// sequences for a given initial probe location. (So it's optimal
+// for 64K tables and its optimality decreases past that.)
+//
+// ok, so I've added something that generates _two separate_
+// 32-bit hashes simultaneously which should scale better to
+// very large tables.
+
+
+STB_EXTERN unsigned int stb_hash(char *str);
+STB_EXTERN unsigned int stb_hashptr(void *p);
+STB_EXTERN unsigned int stb_hashlen(char *str, int len);
+STB_EXTERN unsigned int stb_rehash_improved(unsigned int v);
+STB_EXTERN unsigned int stb_hash_fast(void *p, int len);
+STB_EXTERN unsigned int stb_hash2(char *str, unsigned int *hash2_ptr);
+STB_EXTERN unsigned int stb_hash_number(unsigned int hash);
+
+#define stb_rehash(x) ((x) + ((x) >> 6) + ((x) >> 19))
+
+#ifdef STB_DEFINE
+unsigned int stb_hash(char *str)
+{
+ unsigned int hash = 0;
+ while (*str)
+ hash = (hash << 7) + (hash >> 25) + *str++;
+ return hash + (hash >> 16);
+}
+
+unsigned int stb_hashlen(char *str, int len)
+{
+ unsigned int hash = 0;
+ while (len-- > 0 && *str)
+ hash = (hash << 7) + (hash >> 25) + *str++;
+ return hash + (hash >> 16);
+}
+
+unsigned int stb_hashptr(void *p)
+{
+ unsigned int x = (unsigned int)(size_t)p;
+
+ // typically lacking in low bits and high bits
+ x = stb_rehash(x);
+ x += x << 16;
+
+ // pearson's shuffle
+ x ^= x << 3;
+ x += x >> 5;
+ x ^= x << 2;
+ x += x >> 15;
+ x ^= x << 10;
+ return stb_rehash(x);
+}
+
+unsigned int stb_rehash_improved(unsigned int v)
+{
+ return stb_hashptr((void *)(size_t)v);
+}
+
+unsigned int stb_hash2(char *str, unsigned int *hash2_ptr)
+{
+ unsigned int hash1 = 0x3141592c;
+ unsigned int hash2 = 0x77f044ed;
+ while (*str) {
+ hash1 = (hash1 << 7) + (hash1 >> 25) + *str;
+ hash2 = (hash2 << 11) + (hash2 >> 21) + *str;
+ ++str;
+ }
+ *hash2_ptr = hash2 + (hash1 >> 16);
+ return hash1 + (hash2 >> 16);
+}
+
+// Paul Hsieh hash
+#define stb__get16_slow(p) ((p)[0] + ((p)[1] << 8))
+#if defined(_MSC_VER)
+#define stb__get16(p) (*((unsigned short *) (p)))
+#else
+#define stb__get16(p) stb__get16_slow(p)
+#endif
+
+unsigned int stb_hash_fast(void *p, int len)
+{
+ unsigned char *q = (unsigned char *)p;
+ unsigned int hash = len;
+
+ if (len <= 0 || q == NULL) return 0;
+
+ /* Main loop */
+ if (((int)(size_t)q & 1) == 0) {
+ for (; len > 3; len -= 4) {
+ unsigned int val;
+ hash += stb__get16(q);
+ val = (stb__get16(q + 2) << 11);
+ hash = (hash << 16) ^ hash ^ val;
+ q += 4;
+ hash += hash >> 11;
+ }
+ }
+ else {
+ for (; len > 3; len -= 4) {
+ unsigned int val;
+ hash += stb__get16_slow(q);
+ val = (stb__get16_slow(q + 2) << 11);
+ hash = (hash << 16) ^ hash ^ val;
+ q += 4;
+ hash += hash >> 11;
+ }
+ }
+
+ /* Handle end cases */
+ switch (len) {
+ case 3: hash += stb__get16_slow(q);
+ hash ^= hash << 16;
+ hash ^= q[2] << 18;
+ hash += hash >> 11;
+ break;
+ case 2: hash += stb__get16_slow(q);
+ hash ^= hash << 11;
+ hash += hash >> 17;
+ break;
+ case 1: hash += q[0];
+ hash ^= hash << 10;
+ hash += hash >> 1;
+ break;
+ case 0: break;
+ }
+
+ /* Force "avalanching" of final 127 bits */
+ hash ^= hash << 3;
+ hash += hash >> 5;
+ hash ^= hash << 4;
+ hash += hash >> 17;
+ hash ^= hash << 25;
+ hash += hash >> 6;
+
+ return hash;
+}
+
+unsigned int stb_hash_number(unsigned int hash)
+{
+ hash ^= hash << 3;
+ hash += hash >> 5;
+ hash ^= hash << 4;
+ hash += hash >> 17;
+ hash ^= hash << 25;
+ hash += hash >> 6;
+ return hash;
+}
+
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Perfect hashing for ints/pointers
+//
+// This is mainly useful for making faster pointer-indexed tables
+// that don't change frequently. E.g. for stb_ischar().
+//
+
+typedef struct
+{
+ stb_uint32 addend;
+ stb_uint multiplicand;
+ stb_uint b_mask;
+ stb_uint8 small_bmap[16];
+ stb_uint16 *large_bmap;
+
+ stb_uint table_mask;
+ stb_uint32 *table;
+} stb_perfect;
+
+STB_EXTERN int stb_perfect_create(stb_perfect *, unsigned int*, int n);
+STB_EXTERN void stb_perfect_destroy(stb_perfect *);
+STB_EXTERN int stb_perfect_hash(stb_perfect *, unsigned int x);
+extern int stb_perfect_hash_max_failures;
+
+#ifdef STB_DEFINE
+
+int stb_perfect_hash_max_failures;
+
+int stb_perfect_hash(stb_perfect *p, unsigned int x)
+{
+ stb_uint m = x * p->multiplicand;
+ stb_uint y = x >> 16;
+ stb_uint bv = (m >> 24) + y;
+ stb_uint av = (m + y) >> 12;
+ if (p->table == NULL) return -1; // uninitialized table fails
+ bv &= p->b_mask;
+ av &= p->table_mask;
+ if (p->large_bmap)
+ av ^= p->large_bmap[bv];
+ else
+ av ^= p->small_bmap[bv];
+ return p->table[av] == x ? av : -1;
+}
+
+static void stb__perfect_prehash(stb_perfect *p, stb_uint x, stb_uint16 *a, stb_uint16 *b)
+{
+ stb_uint m = x * p->multiplicand;
+ stb_uint y = x >> 16;
+ stb_uint bv = (m >> 24) + y;
+ stb_uint av = (m + y) >> 12;
+ bv &= p->b_mask;
+ av &= p->table_mask;
+ *b = bv;
+ *a = av;
+}
+
+static unsigned long stb__perfect_rand(void)
+{
+ static unsigned long stb__rand;
+ stb__rand = stb__rand * 2147001325 + 715136305;
+ return 0x31415926 ^ ((stb__rand >> 16) + (stb__rand << 16));
+}
+
+typedef struct {
+ unsigned short count;
+ unsigned short b;
+ unsigned short map;
+ unsigned short *entries;
+} stb__slot;
+
+static int stb__slot_compare(const void *p, const void *q)
+{
+ stb__slot *a = (stb__slot *)p;
+ stb__slot *b = (stb__slot *)q;
+ return a->count > b->count ? -1 : a->count < b->count; // sort large to small
+}
+
+int stb_perfect_create(stb_perfect *p, unsigned int *v, int n)
+{
+ unsigned int buffer1[64], buffer2[64], buffer3[64], buffer4[64], buffer5[32];
+ unsigned short *as = (unsigned short *)stb_temp(buffer1, sizeof(*v)*n);
+ unsigned short *bs = (unsigned short *)stb_temp(buffer2, sizeof(*v)*n);
+ unsigned short *entries = (unsigned short *)stb_temp(buffer4, sizeof(*entries) * n);
+ int size = 1 << stb_log2_ceil(n), bsize = 8;
+ int failure = 0, i, j, k;
+
+ assert(n <= 32768);
+ p->large_bmap = NULL;
+
+ for (;;) {
+ stb__slot *bcount = (stb__slot *)stb_temp(buffer3, sizeof(*bcount) * bsize);
+ unsigned short *bloc = (unsigned short *)stb_temp(buffer5, sizeof(*bloc) * bsize);
+ unsigned short *e;
+ int bad = 0;
+
+ p->addend = stb__perfect_rand();
+ p->multiplicand = stb__perfect_rand() | 1;
+ p->table_mask = size - 1;
+ p->b_mask = bsize - 1;
+ p->table = (stb_uint32 *)malloc(size * sizeof(*p->table));
+
+ for (i = 0; i < bsize; ++i) {
+ bcount[i].b = i;
+ bcount[i].count = 0;
+ bcount[i].map = 0;
+ }
+ for (i = 0; i < n; ++i) {
+ stb__perfect_prehash(p, v[i], as + i, bs + i);
+ ++bcount[bs[i]].count;
+ }
+ qsort(bcount, bsize, sizeof(*bcount), stb__slot_compare);
+ e = entries; // now setup up their entries index
+ for (i = 0; i < bsize; ++i) {
+ bcount[i].entries = e;
+ e += bcount[i].count;
+ bcount[i].count = 0;
+ bloc[bcount[i].b] = i;
+ }
+ // now fill them out
+ for (i = 0; i < n; ++i) {
+ int b = bs[i];
+ int w = bloc[b];
+ bcount[w].entries[bcount[w].count++] = i;
+ }
+ stb_tempfree(buffer5, bloc);
+ // verify
+ for (i = 0; i < bsize; ++i)
+ for (j = 0; j < bcount[i].count; ++j)
+ assert(bs[bcount[i].entries[j]] == bcount[i].b);
+ memset(p->table, 0, size * sizeof(*p->table));
+
+ // check if any b has duplicate a
+ for (i = 0; i < bsize; ++i) {
+ if (bcount[i].count > 1) {
+ for (j = 0; j < bcount[i].count; ++j) {
+ if (p->table[as[bcount[i].entries[j]]])
+ bad = 1;
+ p->table[as[bcount[i].entries[j]]] = 1;
+ }
+ for (j = 0; j < bcount[i].count; ++j) {
+ p->table[as[bcount[i].entries[j]]] = 0;
+ }
+ if (bad) break;
+ }
+ }
+
+ if (!bad) {
+ // go through the bs and populate the table, first fit
+ for (i = 0; i < bsize; ++i) {
+ if (bcount[i].count) {
+ // go through the candidate table[b] values
+ for (j = 0; j < size; ++j) {
+ // go through the a values and see if they fit
+ for (k = 0; k < bcount[i].count; ++k) {
+ int a = as[bcount[i].entries[k]];
+ if (p->table[(a^j)&p->table_mask]) {
+ break; // fails
+ }
+ }
+ // if succeeded, accept
+ if (k == bcount[i].count) {
+ bcount[i].map = j;
+ for (k = 0; k < bcount[i].count; ++k) {
+ int a = as[bcount[i].entries[k]];
+ p->table[(a^j)&p->table_mask] = 1;
+ }
+ break;
+ }
+ }
+ if (j == size)
+ break; // no match for i'th entry, so break out in failure
+ }
+ }
+ if (i == bsize) {
+ // success... fill out map
+ if (bsize <= 16 && size <= 256) {
+ p->large_bmap = NULL;
+ for (i = 0; i < bsize; ++i)
+ p->small_bmap[bcount[i].b] = (stb_uint8)bcount[i].map;
+ }
+ else {
+ p->large_bmap = (unsigned short *)malloc(sizeof(*p->large_bmap) * bsize);
+ for (i = 0; i < bsize; ++i)
+ p->large_bmap[bcount[i].b] = bcount[i].map;
+ }
+
+ // initialize table to v[0], so empty slots will fail
+ for (i = 0; i < size; ++i)
+ p->table[i] = v[0];
+
+ for (i = 0; i < n; ++i)
+ if (p->large_bmap)
+ p->table[as[i] ^ p->large_bmap[bs[i]]] = v[i];
+ else
+ p->table[as[i] ^ p->small_bmap[bs[i]]] = v[i];
+
+ // and now validate that none of them collided
+ for (i = 0; i < n; ++i)
+ assert(stb_perfect_hash(p, v[i]) >= 0);
+
+ stb_tempfree(buffer3, bcount);
+ break;
+ }
+ }
+ free(p->table);
+ p->table = NULL;
+ stb_tempfree(buffer3, bcount);
+
+ ++failure;
+ if (failure >= 4 && bsize < size) bsize *= 2;
+ if (failure >= 8 && (failure & 3) == 0 && size < 4 * n) {
+ size *= 2;
+ bsize *= 2;
+ }
+ if (failure == 6) {
+ // make sure the input data is unique, so we don't infinite loop
+ unsigned int *data = (unsigned int *)stb_temp(buffer3, n * sizeof(*data));
+ memcpy(data, v, sizeof(*data) * n);
+ qsort(data, n, sizeof(*data), stb_intcmp(0));
+ for (i = 1; i < n; ++i) {
+ if (data[i] == data[i - 1])
+ size = 0; // size is return value, so 0 it
+ }
+ stb_tempfree(buffer3, data);
+ if (!size) break;
+ }
+ }
+
+ if (failure > stb_perfect_hash_max_failures)
+ stb_perfect_hash_max_failures = failure;
+
+ stb_tempfree(buffer1, as);
+ stb_tempfree(buffer2, bs);
+ stb_tempfree(buffer4, entries);
+
+ return size;
+}
+
+void stb_perfect_destroy(stb_perfect *p)
+{
+ if (p->large_bmap) free(p->large_bmap);
+ if (p->table) free(p->table);
+ p->large_bmap = NULL;
+ p->table = NULL;
+ p->b_mask = 0;
+ p->table_mask = 0;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Perfect hash clients
+
+STB_EXTERN int stb_ischar(char s, char *set);
+
+#ifdef STB_DEFINE
+
+int stb_ischar(char c, char *set)
+{
+ static unsigned char bit[8] = { 1,2,4,8,16,32,64,128 };
+ static stb_perfect p;
+ static unsigned char(*tables)[256];
+ static char ** sets = NULL;
+
+ int z = stb_perfect_hash(&p, (int)(size_t)set);
+ if (z < 0) {
+ int i, k, n, j, f;
+ // special code that means free all existing data
+ if (set == NULL) {
+ stb_arr_free(sets);
+ free(tables);
+ tables = NULL;
+ stb_perfect_destroy(&p);
+ return 0;
+ }
+ stb_arr_push(sets, set);
+ stb_perfect_destroy(&p);
+ n = stb_perfect_create(&p, (unsigned int *)(char **)sets, stb_arr_len(sets));
+ assert(n != 0);
+ k = (n + 7) >> 3;
+ tables = (unsigned char(*)[256]) realloc(tables, sizeof(*tables) * k);
+ memset(tables, 0, sizeof(*tables) * k);
+ for (i = 0; i < stb_arr_len(sets); ++i) {
+ k = stb_perfect_hash(&p, (int)(size_t)sets[i]);
+ assert(k >= 0);
+ n = k >> 3;
+ f = bit[k & 7];
+ for (j = 0; !j || sets[i][j]; ++j) {
+ tables[n][(unsigned char)sets[i][j]] |= f;
+ }
+ }
+ z = stb_perfect_hash(&p, (int)(size_t)set);
+ }
+ return tables[z >> 3][(unsigned char)c] & bit[z & 7];
+}
+
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Instantiated data structures
+//
+// This is an attempt to implement a templated data structure.
+//
+// Hash table: call stb_define_hash(TYPE,N,KEY,K1,K2,HASH,VALUE)
+// TYPE -- will define a structure type containing the hash table
+// N -- the name, will prefix functions named:
+// N create
+// N destroy
+// N get
+// N set, N add, N update,
+// N remove
+// KEY -- the type of the key. 'x == y' must be valid
+// K1,K2 -- keys never used by the app, used as flags in the hashtable
+// HASH -- a piece of code ending with 'return' that hashes key 'k'
+// VALUE -- the type of the value. 'x = y' must be valid
+//
+// Note that stb_define_hash_base can be used to define more sophisticated
+// hash tables, e.g. those that make copies of the key or use special
+// comparisons (e.g. strcmp).
+
+#define STB_(prefix,name) stb__##prefix##name
+#define STB__(prefix,name) prefix##name
+#define STB__use(x) x
+#define STB__skip(x)
+
+#define stb_declare_hash(PREFIX,TYPE,N,KEY,VALUE) \
+ typedef struct stb__st_##TYPE TYPE;\
+ PREFIX int STB__(N, init)(TYPE *h, int count);\
+ PREFIX int STB__(N, memory_usage)(TYPE *h);\
+ PREFIX TYPE * STB__(N, create)(void);\
+ PREFIX TYPE * STB__(N, copy)(TYPE *h);\
+ PREFIX void STB__(N, destroy)(TYPE *h);\
+ PREFIX int STB__(N,get_flag)(TYPE *a, KEY k, VALUE *v);\
+ PREFIX VALUE STB__(N,get)(TYPE *a, KEY k);\
+ PREFIX int STB__(N, set)(TYPE *a, KEY k, VALUE v);\
+ PREFIX int STB__(N, add)(TYPE *a, KEY k, VALUE v);\
+ PREFIX int STB__(N, update)(TYPE*a,KEY k,VALUE v);\
+ PREFIX int STB__(N, remove)(TYPE *a, KEY k, VALUE *v);
+
+#define STB_nocopy(x) (x)
+#define STB_nodelete(x) 0
+#define STB_nofields
+#define STB_nonullvalue(x)
+#define STB_nullvalue(x) x
+#define STB_safecompare(x) x
+#define STB_nosafe(x)
+#define STB_noprefix
+
+#ifdef __GNUC__
+#define STB__nogcc(x)
+#else
+#define STB__nogcc(x) x
+#endif
+
+#define stb_define_hash_base(PREFIX,TYPE,FIELDS,N,NC,LOAD_FACTOR, \
+ KEY,EMPTY,DEL,COPY,DISPOSE,SAFE, \
+ VCOMPARE,CCOMPARE,HASH, \
+ VALUE,HASVNULL,VNULL) \
+ \
+typedef struct \
+{ \
+ KEY k; \
+ VALUE v; \
+} STB_(N,_hashpair); \
+ \
+STB__nogcc( typedef struct stb__st_##TYPE TYPE; ) \
+struct stb__st_##TYPE { \
+ FIELDS \
+ STB_(N,_hashpair) *table; \
+ unsigned int mask; \
+ int count, limit; \
+ int deleted; \
+ \
+ int delete_threshhold; \
+ int grow_threshhold; \
+ int shrink_threshhold; \
+ unsigned char alloced, has_empty, has_del; \
+ VALUE ev; VALUE dv; \
+}; \
+ \
+static unsigned int STB_(N, hash)(KEY k) \
+{ \
+ HASH \
+} \
+ \
+PREFIX int STB__(N, init)(TYPE *h, int count) \
+{ \
+ int i; \
+ if (count < 4) count = 4; \
+ h->limit = count; \
+ h->count = 0; \
+ h->mask = count-1; \
+ h->deleted = 0; \
+ h->grow_threshhold = (int) (count * LOAD_FACTOR); \
+ h->has_empty = h->has_del = 0; \
+ h->alloced = 0; \
+ if (count <= 64) \
+ h->shrink_threshhold = 0; \
+ else \
+ h->shrink_threshhold = (int) (count * (LOAD_FACTOR/2.25)); \
+ h->delete_threshhold = (int) (count * (1-LOAD_FACTOR)/2); \
+ h->table = (STB_(N,_hashpair)*) malloc(sizeof(h->table[0]) * count); \
+ if (h->table == NULL) return 0; \
+ /* ideally this gets turned into a memset32 automatically */ \
+ for (i=0; i < count; ++i) \
+ h->table[i].k = EMPTY; \
+ return 1; \
+} \
+ \
+PREFIX int STB__(N, memory_usage)(TYPE *h) \
+{ \
+ return sizeof(*h) + h->limit * sizeof(h->table[0]); \
+} \
+ \
+PREFIX TYPE * STB__(N, create)(void) \
+{ \
+ TYPE *h = (TYPE *) malloc(sizeof(*h)); \
+ if (h) { \
+ if (STB__(N, init)(h, 16)) \
+ h->alloced = 1; \
+ else { free(h); h=NULL; } \
+ } \
+ return h; \
+} \
+ \
+PREFIX void STB__(N, destroy)(TYPE *a) \
+{ \
+ int i; \
+ for (i=0; i < a->limit; ++i) \
+ if (!CCOMPARE(a->table[i].k,EMPTY) && !CCOMPARE(a->table[i].k, DEL)) \
+ DISPOSE(a->table[i].k); \
+ free(a->table); \
+ if (a->alloced) \
+ free(a); \
+} \
+ \
+static void STB_(N, rehash)(TYPE *a, int count); \
+ \
+PREFIX int STB__(N,get_flag)(TYPE *a, KEY k, VALUE *v) \
+{ \
+ unsigned int h = STB_(N, hash)(k); \
+ unsigned int n = h & a->mask, s; \
+ if (CCOMPARE(k,EMPTY)){ if (a->has_empty) *v = a->ev; return a->has_empty;}\
+ if (CCOMPARE(k,DEL)) { if (a->has_del ) *v = a->dv; return a->has_del; }\
+ if (CCOMPARE(a->table[n].k,EMPTY)) return 0; \
+ SAFE(if (!CCOMPARE(a->table[n].k,DEL))) \
+ if (VCOMPARE(a->table[n].k,k)) { *v = a->table[n].v; return 1; } \
+ s = stb_rehash(h) | 1; \
+ for(;;) { \
+ n = (n + s) & a->mask; \
+ if (CCOMPARE(a->table[n].k,EMPTY)) return 0; \
+ SAFE(if (CCOMPARE(a->table[n].k,DEL)) continue;) \
+ if (VCOMPARE(a->table[n].k,k)) \
+ { *v = a->table[n].v; return 1; } \
+ } \
+} \
+ \
+HASVNULL( \
+ PREFIX VALUE STB__(N,get)(TYPE *a, KEY k) \
+ { \
+ VALUE v; \
+ if (STB__(N,get_flag)(a,k,&v)) return v; \
+ else return VNULL; \
+ } \
+) \
+ \
+PREFIX int STB__(N,getkey)(TYPE *a, KEY k, KEY *kout) \
+{ \
+ unsigned int h = STB_(N, hash)(k); \
+ unsigned int n = h & a->mask, s; \
+ if (CCOMPARE(k,EMPTY)||CCOMPARE(k,DEL)) return 0; \
+ if (CCOMPARE(a->table[n].k,EMPTY)) return 0; \
+ SAFE(if (!CCOMPARE(a->table[n].k,DEL))) \
+ if (VCOMPARE(a->table[n].k,k)) { *kout = a->table[n].k; return 1; } \
+ s = stb_rehash(h) | 1; \
+ for(;;) { \
+ n = (n + s) & a->mask; \
+ if (CCOMPARE(a->table[n].k,EMPTY)) return 0; \
+ SAFE(if (CCOMPARE(a->table[n].k,DEL)) continue;) \
+ if (VCOMPARE(a->table[n].k,k)) \
+ { *kout = a->table[n].k; return 1; } \
+ } \
+} \
+ \
+static int STB_(N,addset)(TYPE *a, KEY k, VALUE v, \
+ int allow_new, int allow_old, int copy) \
+{ \
+ unsigned int h = STB_(N, hash)(k); \
+ unsigned int n = h & a->mask; \
+ int b = -1; \
+ if (CCOMPARE(k,EMPTY)) { \
+ if (a->has_empty ? allow_old : allow_new) { \
+ n=a->has_empty; a->ev = v; a->has_empty = 1; return !n; \
+ } else return 0; \
+ } \
+ if (CCOMPARE(k,DEL)) { \
+ if (a->has_del ? allow_old : allow_new) { \
+ n=a->has_del; a->dv = v; a->has_del = 1; return !n; \
+ } else return 0; \
+ } \
+ if (!CCOMPARE(a->table[n].k, EMPTY)) { \
+ unsigned int s; \
+ if (CCOMPARE(a->table[n].k, DEL)) \
+ b = n; \
+ else if (VCOMPARE(a->table[n].k,k)) { \
+ if (allow_old) \
+ a->table[n].v = v; \
+ return !allow_new; \
+ } \
+ s = stb_rehash(h) | 1; \
+ for(;;) { \
+ n = (n + s) & a->mask; \
+ if (CCOMPARE(a->table[n].k, EMPTY)) break; \
+ if (CCOMPARE(a->table[n].k, DEL)) { \
+ if (b < 0) b = n; \
+ } else if (VCOMPARE(a->table[n].k,k)) { \
+ if (allow_old) \
+ a->table[n].v = v; \
+ return !allow_new; \
+ } \
+ } \
+ } \
+ if (!allow_new) return 0; \
+ if (b < 0) b = n; else --a->deleted; \
+ a->table[b].k = copy ? COPY(k) : k; \
+ a->table[b].v = v; \
+ ++a->count; \
+ if (a->count > a->grow_threshhold) \
+ STB_(N,rehash)(a, a->limit*2); \
+ return 1; \
+} \
+ \
+PREFIX int STB__(N, set)(TYPE *a, KEY k, VALUE v){return STB_(N,addset)(a,k,v,1,1,1);}\
+PREFIX int STB__(N, add)(TYPE *a, KEY k, VALUE v){return STB_(N,addset)(a,k,v,1,0,1);}\
+PREFIX int STB__(N, update)(TYPE*a,KEY k,VALUE v){return STB_(N,addset)(a,k,v,0,1,1);}\
+ \
+PREFIX int STB__(N, remove)(TYPE *a, KEY k, VALUE *v) \
+{ \
+ unsigned int h = STB_(N, hash)(k); \
+ unsigned int n = h & a->mask, s; \
+ if (CCOMPARE(k,EMPTY)) { if (a->has_empty) { if(v)*v = a->ev; a->has_empty=0; return 1; } return 0; } \
+ if (CCOMPARE(k,DEL)) { if (a->has_del ) { if(v)*v = a->dv; a->has_del =0; return 1; } return 0; } \
+ if (CCOMPARE(a->table[n].k,EMPTY)) return 0; \
+ if (SAFE(CCOMPARE(a->table[n].k,DEL) || ) !VCOMPARE(a->table[n].k,k)) { \
+ s = stb_rehash(h) | 1; \
+ for(;;) { \
+ n = (n + s) & a->mask; \
+ if (CCOMPARE(a->table[n].k,EMPTY)) return 0; \
+ SAFE(if (CCOMPARE(a->table[n].k, DEL)) continue;) \
+ if (VCOMPARE(a->table[n].k,k)) break; \
+ } \
+ } \
+ DISPOSE(a->table[n].k); \
+ a->table[n].k = DEL; \
+ --a->count; \
+ ++a->deleted; \
+ if (v != NULL) \
+ *v = a->table[n].v; \
+ if (a->count < a->shrink_threshhold) \
+ STB_(N, rehash)(a, a->limit >> 1); \
+ else if (a->deleted > a->delete_threshhold) \
+ STB_(N, rehash)(a, a->limit); \
+ return 1; \
+} \
+ \
+PREFIX TYPE * STB__(NC, copy)(TYPE *a) \
+{ \
+ int i; \
+ TYPE *h = (TYPE *) malloc(sizeof(*h)); \
+ if (!h) return NULL; \
+ if (!STB__(N, init)(h, a->limit)) { free(h); return NULL; } \
+ h->count = a->count; \
+ h->deleted = a->deleted; \
+ h->alloced = 1; \
+ h->ev = a->ev; h->dv = a->dv; \
+ h->has_empty = a->has_empty; h->has_del = a->has_del; \
+ memcpy(h->table, a->table, h->limit * sizeof(h->table[0])); \
+ for (i=0; i < a->limit; ++i) \
+ if (!CCOMPARE(h->table[i].k,EMPTY) && !CCOMPARE(h->table[i].k,DEL)) \
+ h->table[i].k = COPY(h->table[i].k); \
+ return h; \
+} \
+ \
+static void STB_(N, rehash)(TYPE *a, int count) \
+{ \
+ int i; \
+ TYPE b; \
+ STB__(N, init)(&b, count); \
+ for (i=0; i < a->limit; ++i) \
+ if (!CCOMPARE(a->table[i].k,EMPTY) && !CCOMPARE(a->table[i].k,DEL)) \
+ STB_(N,addset)(&b, a->table[i].k, a->table[i].v,1,1,0); \
+ free(a->table); \
+ a->table = b.table; \
+ a->mask = b.mask; \
+ a->count = b.count; \
+ a->limit = b.limit; \
+ a->deleted = b.deleted; \
+ a->delete_threshhold = b.delete_threshhold; \
+ a->grow_threshhold = b.grow_threshhold; \
+ a->shrink_threshhold = b.shrink_threshhold; \
+}
+
+#define STB_equal(a,b) ((a) == (b))
+
+#define stb_define_hash(TYPE,N,KEY,EMPTY,DEL,HASH,VALUE) \
+ stb_define_hash_base(STB_noprefix, TYPE,STB_nofields,N,NC,0.85f, \
+ KEY,EMPTY,DEL,STB_nocopy,STB_nodelete,STB_nosafe, \
+ STB_equal,STB_equal,HASH, \
+ VALUE,STB_nonullvalue,0)
+
+#define stb_define_hash_vnull(TYPE,N,KEY,EMPTY,DEL,HASH,VALUE,VNULL) \
+ stb_define_hash_base(STB_noprefix, TYPE,STB_nofields,N,NC,0.85f, \
+ KEY,EMPTY,DEL,STB_nocopy,STB_nodelete,STB_nosafe, \
+ STB_equal,STB_equal,HASH, \
+ VALUE,STB_nullvalue,VNULL)
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_ptrmap
+//
+// An stb_ptrmap data structure is an O(1) hash table between pointers. One
+// application is to let you store "extra" data associated with pointers,
+// which is why it was originally called stb_extra.
+
+stb_declare_hash(STB_EXTERN, stb_ptrmap, stb_ptrmap_, void *, void *)
+stb_declare_hash(STB_EXTERN, stb_idict, stb_idict_, stb_int32, stb_int32)
+
+STB_EXTERN void stb_ptrmap_delete(stb_ptrmap *e, void(*free_func)(void *));
+STB_EXTERN stb_ptrmap *stb_ptrmap_new(void);
+
+STB_EXTERN stb_idict * stb_idict_new_size(int size);
+STB_EXTERN void stb_idict_remove_all(stb_idict *e);
+
+#ifdef STB_DEFINE
+
+#define STB_EMPTY ((void *) 2)
+#define STB_EDEL ((void *) 6)
+
+stb_define_hash_base(STB_noprefix, stb_ptrmap, STB_nofields, stb_ptrmap_, stb_ptrmap_, 0.85f,
+ void *, STB_EMPTY, STB_EDEL, STB_nocopy, STB_nodelete, STB_nosafe,
+ STB_equal, STB_equal, return stb_hashptr(k); ,
+ void *, STB_nullvalue, NULL)
+
+ stb_ptrmap *stb_ptrmap_new(void)
+{
+ return stb_ptrmap_create();
+}
+
+void stb_ptrmap_delete(stb_ptrmap *e, void(*free_func)(void *))
+{
+ int i;
+ if (free_func)
+ for (i = 0; i < e->limit; ++i)
+ if (e->table[i].k != STB_EMPTY && e->table[i].k != STB_EDEL) {
+ if (free_func == free)
+ free(e->table[i].v); // allow STB_MALLOC_WRAPPER to operate
+ else
+ free_func(e->table[i].v);
+ }
+ stb_ptrmap_destroy(e);
+}
+
+// extra fields needed for stua_dict
+#define STB_IEMPTY ((int) 1)
+#define STB_IDEL ((int) 3)
+stb_define_hash_base(STB_noprefix, stb_idict, short type; short gc; STB_nofields, stb_idict_, stb_idict_, 0.85f,
+ stb_int32, STB_IEMPTY, STB_IDEL, STB_nocopy, STB_nodelete, STB_nosafe,
+ STB_equal, STB_equal,
+ return stb_rehash_improved(k); , stb_int32, STB_nonullvalue, 0)
+
+ stb_idict * stb_idict_new_size(int size)
+{
+ stb_idict *e = (stb_idict *)malloc(sizeof(*e));
+ if (e) {
+ if (!stb_is_pow2(size))
+ size = 1 << stb_log2_ceil(size);
+ stb_idict_init(e, size);
+ e->alloced = 1;
+ }
+ return e;
+}
+
+void stb_idict_remove_all(stb_idict *e)
+{
+ int n;
+ for (n = 0; n < e->limit; ++n)
+ e->table[n].k = STB_IEMPTY;
+ e->has_empty = e->has_del = 0;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_sparse_ptr_matrix
+//
+// An stb_ptrmap data structure is an O(1) hash table storing an arbitrary
+// block of data for a given pair of pointers.
+//
+// If create=0, returns
+
+typedef struct stb__st_stb_spmatrix stb_spmatrix;
+
+STB_EXTERN stb_spmatrix * stb_sparse_ptr_matrix_new(int val_size);
+STB_EXTERN void stb_sparse_ptr_matrix_free(stb_spmatrix *z);
+STB_EXTERN void * stb_sparse_ptr_matrix_get(stb_spmatrix *z, void *a, void *b, int create);
+
+#ifdef STB_DEFINE
+typedef struct
+{
+ void *a;
+ void *b;
+} stb__ptrpair;
+
+static stb__ptrpair stb__ptrpair_empty = { (void *)1, (void *)1 };
+static stb__ptrpair stb__ptrpair_del = { (void *)2, (void *)2 };
+
+#define STB__equal_ptrpair(x,y) ((x).a == (y).a && (x).b == (y).b)
+
+stb_define_hash_base(static, stb_spmatrix, int val_size; void *arena; , stb__spmatrix_, stb__spmatrix_, 0.85,
+ stb__ptrpair, stb__ptrpair_empty, stb__ptrpair_del,
+ STB_nocopy, STB_nodelete, STB_nosafe,
+ STB__equal_ptrpair, STB__equal_ptrpair, return stb_rehash(stb_hashptr(k.a)) + stb_hashptr(k.b); ,
+ void *, STB_nullvalue, 0)
+
+ stb_spmatrix *stb_sparse_ptr_matrix_new(int val_size)
+{
+ stb_spmatrix *m = stb__spmatrix_create();
+ if (m) m->val_size = val_size;
+ if (m) m->arena = stb_malloc_global(1);
+ return m;
+}
+
+void stb_sparse_ptr_matrix_free(stb_spmatrix *z)
+{
+ if (z->arena) stb_free(z->arena);
+ stb__spmatrix_destroy(z);
+}
+
+void *stb_sparse_ptr_matrix_get(stb_spmatrix *z, void *a, void *b, int create)
+{
+ stb__ptrpair t = { a,b };
+ void *data = stb__spmatrix_get(z, t);
+ if (!data && create) {
+ data = stb_malloc_raw(z->arena, z->val_size);
+ if (!data) return NULL;
+ memset(data, 0, z->val_size);
+ stb__spmatrix_add(z, t, data);
+ }
+ return data;
+}
+#endif
+
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// SDICT: Hash Table for Strings (symbol table)
+//
+// if "use_arena=1", then strings will be copied
+// into blocks and never freed until the sdict is freed;
+// otherwise they're malloc()ed and free()d on the fly.
+// (specify use_arena=1 if you never stb_sdict_remove)
+
+stb_declare_hash(STB_EXTERN, stb_sdict, stb_sdict_, char *, void *)
+
+STB_EXTERN stb_sdict * stb_sdict_new(int use_arena);
+STB_EXTERN stb_sdict * stb_sdict_copy(stb_sdict*);
+STB_EXTERN void stb_sdict_delete(stb_sdict *);
+STB_EXTERN void * stb_sdict_change(stb_sdict *, char *str, void *p);
+STB_EXTERN int stb_sdict_count(stb_sdict *d);
+
+STB_EXTERN int stb_sdict_internal_limit(stb_sdict *d);
+STB_EXTERN char * stb_sdict_internal_key(stb_sdict *d, int n);
+STB_EXTERN void * stb_sdict_internal_value(stb_sdict *d, int n);
+
+#define stb_sdict_for(d,i,q,z) \
+ for(i=0; i < stb_sdict_internal_limit(d) ? (q=stb_sdict_internal_key(d,i),z=stb_sdict_internal_value(d,i),1) : 0; ++i) \
+ if (q==NULL||q==(void *) 1);else // reversed makes macro friendly
+
+#ifdef STB_DEFINE
+
+// if in same translation unit, for speed, don't call accessors
+#undef stb_sdict_for
+#define stb_sdict_for(d,i,q,z) \
+ for(i=0; i < (d)->limit ? (q=(d)->table[i].k,z=(d)->table[i].v,1) : 0; ++i) \
+ if (q==NULL||q==(void *) 1);else // reversed makes macro friendly
+
+#define STB_DEL ((void *) 1)
+#define STB_SDEL ((char *) 1)
+
+#define stb_sdict__copy(x) \
+ strcpy(a->arena ? stb_malloc_string(a->arena, strlen(x)+1) \
+ : (char *) malloc(strlen(x)+1), x)
+
+#define stb_sdict__dispose(x) if (!a->arena) free(x)
+
+stb_define_hash_base(STB_noprefix, stb_sdict, void*arena; , stb_sdict_, stb_sdictinternal_, 0.85f,
+ char *, NULL, STB_SDEL, stb_sdict__copy, stb_sdict__dispose,
+ STB_safecompare, !strcmp, STB_equal, return stb_hash(k); ,
+ void *, STB_nullvalue, NULL)
+
+ int stb_sdict_count(stb_sdict *a)
+{
+ return a->count;
+}
+
+int stb_sdict_internal_limit(stb_sdict *a)
+{
+ return a->limit;
+}
+char* stb_sdict_internal_key(stb_sdict *a, int n)
+{
+ return a->table[n].k;
+}
+void* stb_sdict_internal_value(stb_sdict *a, int n)
+{
+ return a->table[n].v;
+}
+
+stb_sdict * stb_sdict_new(int use_arena)
+{
+ stb_sdict *d = stb_sdict_create();
+ if (d == NULL) return NULL;
+ d->arena = use_arena ? stb_malloc_global(1) : NULL;
+ return d;
+}
+
+stb_sdict* stb_sdict_copy(stb_sdict *old)
+{
+ stb_sdict *n;
+ void *old_arena = old->arena;
+ void *new_arena = old_arena ? stb_malloc_global(1) : NULL;
+ old->arena = new_arena;
+ n = stb_sdictinternal_copy(old);
+ old->arena = old_arena;
+ if (n)
+ n->arena = new_arena;
+ else if (new_arena)
+ stb_free(new_arena);
+ return n;
+}
+
+
+void stb_sdict_delete(stb_sdict *d)
+{
+ if (d->arena)
+ stb_free(d->arena);
+ stb_sdict_destroy(d);
+}
+
+void * stb_sdict_change(stb_sdict *d, char *str, void *p)
+{
+ void *q = stb_sdict_get(d, str);
+ stb_sdict_set(d, str, p);
+ return q;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Instantiated data structures
+//
+// This is an attempt to implement a templated data structure.
+// What you do is define a struct foo, and then include several
+// pointer fields to struct foo in your struct. Then you call
+// the instantiator, which creates the functions that implement
+// the data structure. This requires massive undebuggable #defines,
+// so we limit the cases where we do this.
+//
+// AA tree is an encoding of a 2-3 tree whereas RB trees encode a 2-3-4 tree;
+// much simpler code due to fewer cases.
+
+#define stb__bst_parent(x) x
+#define stb__bst_noparent(x)
+
+#define stb_bst_fields(N) \
+ *STB_(N,left), *STB_(N,right); \
+ unsigned char STB_(N,level)
+
+#define stb_bst_fields_parent(N) \
+ *STB_(N,left), *STB_(N,right), *STB_(N,parent); \
+ unsigned char STB_(N,level)
+
+#define STB__level(N,x) ((x) ? (x)->STB_(N,level) : 0)
+
+#define stb_bst_base(TYPE, N, TREE, M, compare, PAR) \
+ \
+static int STB_(N,_compare)(TYPE *p, TYPE *q) \
+{ \
+ compare \
+} \
+ \
+static void STB_(N,setleft)(TYPE *q, TYPE *v) \
+{ \
+ q->STB_(N,left) = v; \
+ PAR(if (v) v->STB_(N,parent) = q;) \
+} \
+ \
+static void STB_(N,setright)(TYPE *q, TYPE *v) \
+{ \
+ q->STB_(N,right) = v; \
+ PAR(if (v) v->STB_(N,parent) = q;) \
+} \
+ \
+static TYPE *STB_(N,skew)(TYPE *q) \
+{ \
+ if (q == NULL) return q; \
+ if (q->STB_(N,left) \
+ && q->STB_(N,left)->STB_(N,level) == q->STB_(N,level)) { \
+ TYPE *p = q->STB_(N,left); \
+ STB_(N,setleft)(q, p->STB_(N,right)); \
+ STB_(N,setright)(p, q); \
+ return p; \
+ } \
+ return q; \
+} \
+ \
+static TYPE *STB_(N,split)(TYPE *p) \
+{ \
+ TYPE *q = p->STB_(N,right); \
+ if (q && q->STB_(N,right) \
+ && q->STB_(N,right)->STB_(N,level) == p->STB_(N,level)) { \
+ STB_(N,setright)(p, q->STB_(N,left)); \
+ STB_(N,setleft)(q,p); \
+ ++q->STB_(N,level); \
+ return q; \
+ } \
+ return p; \
+} \
+ \
+TYPE *STB__(N,insert)(TYPE *tree, TYPE *item) \
+{ \
+ int c; \
+ if (tree == NULL) { \
+ item->STB_(N,left) = NULL; \
+ item->STB_(N,right) = NULL; \
+ item->STB_(N,level) = 1; \
+ PAR(item->STB_(N,parent) = NULL;) \
+ return item; \
+ } \
+ c = STB_(N,_compare)(item,tree); \
+ if (c == 0) { \
+ if (item != tree) { \
+ STB_(N,setleft)(item, tree->STB_(N,left)); \
+ STB_(N,setright)(item, tree->STB_(N,right)); \
+ item->STB_(N,level) = tree->STB_(N,level); \
+ PAR(item->STB_(N,parent) = NULL;) \
+ } \
+ return item; \
+ } \
+ if (c < 0) \
+ STB_(N,setleft )(tree, STB__(N,insert)(tree->STB_(N,left), item)); \
+ else \
+ STB_(N,setright)(tree, STB__(N,insert)(tree->STB_(N,right), item)); \
+ tree = STB_(N,skew)(tree); \
+ tree = STB_(N,split)(tree); \
+ PAR(tree->STB_(N,parent) = NULL;) \
+ return tree; \
+} \
+ \
+TYPE *STB__(N,remove)(TYPE *tree, TYPE *item) \
+{ \
+ static TYPE *delnode, *leaf, *restore; \
+ if (tree == NULL) return NULL; \
+ leaf = tree; \
+ if (STB_(N,_compare)(item, tree) < 0) { \
+ STB_(N,setleft)(tree, STB__(N,remove)(tree->STB_(N,left), item)); \
+ } else { \
+ TYPE *r; \
+ delnode = tree; \
+ r = STB__(N,remove)(tree->STB_(N,right), item); \
+ /* maybe move 'leaf' up to this location */ \
+ if (restore == tree) { tree = leaf; leaf = restore = NULL; } \
+ STB_(N,setright)(tree,r); \
+ assert(tree->STB_(N,right) != tree); \
+ } \
+ if (tree == leaf) { \
+ if (delnode == item) { \
+ tree = tree->STB_(N,right); \
+ assert(leaf->STB_(N,left) == NULL); \
+ /* move leaf (the right sibling) up to delnode */ \
+ STB_(N,setleft )(leaf, item->STB_(N,left )); \
+ STB_(N,setright)(leaf, item->STB_(N,right)); \
+ leaf->STB_(N,level) = item->STB_(N,level); \
+ if (leaf != item) \
+ restore = delnode; \
+ } \
+ delnode = NULL; \
+ } else { \
+ if (STB__level(N,tree->STB_(N,left) ) < tree->STB_(N,level)-1 || \
+ STB__level(N,tree->STB_(N,right)) < tree->STB_(N,level)-1) { \
+ --tree->STB_(N,level); \
+ if (STB__level(N,tree->STB_(N,right)) > tree->STB_(N,level)) \
+ tree->STB_(N,right)->STB_(N,level) = tree->STB_(N,level); \
+ tree = STB_(N,skew)(tree); \
+ STB_(N,setright)(tree, STB_(N,skew)(tree->STB_(N,right))); \
+ if (tree->STB_(N,right)) \
+ STB_(N,setright)(tree->STB_(N,right), \
+ STB_(N,skew)(tree->STB_(N,right)->STB_(N,right))); \
+ tree = STB_(N,split)(tree); \
+ if (tree->STB_(N,right)) \
+ STB_(N,setright)(tree, STB_(N,split)(tree->STB_(N,right))); \
+ } \
+ } \
+ PAR(if (tree) tree->STB_(N,parent) = NULL;) \
+ return tree; \
+} \
+ \
+TYPE *STB__(N,last)(TYPE *tree) \
+{ \
+ if (tree) \
+ while (tree->STB_(N,right)) tree = tree->STB_(N,right); \
+ return tree; \
+} \
+ \
+TYPE *STB__(N,first)(TYPE *tree) \
+{ \
+ if (tree) \
+ while (tree->STB_(N,left)) tree = tree->STB_(N,left); \
+ return tree; \
+} \
+ \
+TYPE *STB__(N,next)(TYPE *tree, TYPE *item) \
+{ \
+ TYPE *next = NULL; \
+ if (item->STB_(N,right)) \
+ return STB__(N,first)(item->STB_(N,right)); \
+ PAR( \
+ while(item->STB_(N,parent)) { \
+ TYPE *up = item->STB_(N,parent); \
+ if (up->STB_(N,left) == item) return up; \
+ item = up; \
+ } \
+ return NULL; \
+ ) \
+ while (tree != item) { \
+ if (STB_(N,_compare)(item, tree) < 0) { \
+ next = tree; \
+ tree = tree->STB_(N,left); \
+ } else { \
+ tree = tree->STB_(N,right); \
+ } \
+ } \
+ return next; \
+} \
+ \
+TYPE *STB__(N,prev)(TYPE *tree, TYPE *item) \
+{ \
+ TYPE *next = NULL; \
+ if (item->STB_(N,left)) \
+ return STB__(N,last)(item->STB_(N,left)); \
+ PAR( \
+ while(item->STB_(N,parent)) { \
+ TYPE *up = item->STB_(N,parent); \
+ if (up->STB_(N,right) == item) return up; \
+ item = up; \
+ } \
+ return NULL; \
+ ) \
+ while (tree != item) { \
+ if (STB_(N,_compare)(item, tree) < 0) { \
+ tree = tree->STB_(N,left); \
+ } else { \
+ next = tree; \
+ tree = tree->STB_(N,right); \
+ } \
+ } \
+ return next; \
+} \
+ \
+STB__DEBUG( \
+ void STB__(N,_validate)(TYPE *tree, int root) \
+ { \
+ if (tree == NULL) return; \
+ PAR(if(root) assert(tree->STB_(N,parent) == NULL);) \
+ assert(STB__level(N,tree->STB_(N,left) ) == tree->STB_(N,level)-1); \
+ assert(STB__level(N,tree->STB_(N,right)) <= tree->STB_(N,level)); \
+ assert(STB__level(N,tree->STB_(N,right)) >= tree->STB_(N,level)-1); \
+ if (tree->STB_(N,right)) { \
+ assert(STB__level(N,tree->STB_(N,right)->STB_(N,right)) \
+ != tree->STB_(N,level)); \
+ PAR(assert(tree->STB_(N,right)->STB_(N,parent) == tree);) \
+ } \
+ PAR(if(tree->STB_(N,left)) assert(tree->STB_(N,left)->STB_(N,parent) == tree);) \
+ STB__(N,_validate)(tree->STB_(N,left) ,0); \
+ STB__(N,_validate)(tree->STB_(N,right),0); \
+ } \
+) \
+ \
+typedef struct \
+{ \
+ TYPE *root; \
+} TREE; \
+ \
+void STB__(M,Insert)(TREE *tree, TYPE *item) \
+{ tree->root = STB__(N,insert)(tree->root, item); } \
+void STB__(M,Remove)(TREE *tree, TYPE *item) \
+{ tree->root = STB__(N,remove)(tree->root, item); } \
+TYPE *STB__(M,Next)(TREE *tree, TYPE *item) \
+{ return STB__(N,next)(tree->root, item); } \
+TYPE *STB__(M,Prev)(TREE *tree, TYPE *item) \
+{ return STB__(N,prev)(tree->root, item); } \
+TYPE *STB__(M,First)(TREE *tree) { return STB__(N,first)(tree->root); } \
+TYPE *STB__(M,Last) (TREE *tree) { return STB__(N,last) (tree->root); } \
+void STB__(M,Init)(TREE *tree) { tree->root = NULL; }
+
+
+#define stb_bst_find(N,tree,fcompare) \
+{ \
+ int c; \
+ while (tree != NULL) { \
+ fcompare \
+ if (c == 0) return tree; \
+ if (c < 0) tree = tree->STB_(N,left); \
+ else tree = tree->STB_(N,right); \
+ } \
+ return NULL; \
+}
+
+#define stb_bst_raw(TYPE,N,TREE,M,vfield,VTYPE,compare,PAR) \
+ stb_bst_base(TYPE,N,TREE,M, \
+ VTYPE a = p->vfield; VTYPE b = q->vfield; return (compare);, PAR ) \
+ \
+TYPE *STB__(N,find)(TYPE *tree, VTYPE a) \
+ stb_bst_find(N,tree,VTYPE b = tree->vfield; c = (compare);) \
+TYPE *STB__(M,Find)(TREE *tree, VTYPE a) \
+{ return STB__(N,find)(tree->root, a); }
+
+#define stb_bst(TYPE,N,TREE,M,vfield,VTYPE,compare) \
+ stb_bst_raw(TYPE,N,TREE,M,vfield,VTYPE,compare,stb__bst_noparent)
+#define stb_bst_parent(TYPE,N,TREE,M,vfield,VTYPE,compare) \
+ stb_bst_raw(TYPE,N,TREE,M,vfield,VTYPE,compare,stb__bst_parent)
+
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Pointer Nulling
+//
+// This lets you automatically NULL dangling pointers to "registered"
+// objects. Note that you have to make sure you call the appropriate
+// functions when you free or realloc blocks of memory that contain
+// pointers or pointer targets. stb.h can automatically do this for
+// stb_arr, or for all frees/reallocs if it's wrapping them.
+//
+
+#ifdef STB_NPTR
+
+STB_EXTERN void stb_nptr_set(void *address_of_pointer, void *value_to_write);
+STB_EXTERN void stb_nptr_didset(void *address_of_pointer);
+
+STB_EXTERN void stb_nptr_didfree(void *address_being_freed, int len);
+STB_EXTERN void stb_nptr_free(void *address_being_freed, int len);
+
+STB_EXTERN void stb_nptr_didrealloc(void *new_address, void *old_address, int len);
+STB_EXTERN void stb_nptr_recache(void); // recache all known pointers
+ // do this after pointer sets outside your control, slow
+
+#ifdef STB_DEFINE
+ // for fast updating on free/realloc, we need to be able to find
+ // all the objects (pointers and targets) within a given block;
+ // this precludes hashing
+
+ // we use a three-level hierarchy of memory to minimize storage:
+ // level 1: 65536 pointers to stb__memory_node (always uses 256 KB)
+ // level 2: each stb__memory_node represents a 64K block of memory
+ // with 256 stb__memory_leafs (worst case 64MB)
+ // level 3: each stb__memory_leaf represents 256 bytes of memory
+ // using a list of target locations and a list of pointers
+ // (which are hopefully fairly short normally!)
+
+ // this approach won't work in 64-bit, which has a much larger address
+ // space. need to redesign
+
+#define STB__NPTR_ROOT_LOG2 16
+#define STB__NPTR_ROOT_NUM (1 << STB__NPTR_ROOT_LOG2)
+#define STB__NPTR_ROOT_SHIFT (32 - STB__NPTR_ROOT_LOG2)
+
+#define STB__NPTR_NODE_LOG2 5
+#define STB__NPTR_NODE_NUM (1 << STB__NPTR_NODE_LOG2)
+#define STB__NPTR_NODE_MASK (STB__NPTR_NODE_NUM-1)
+#define STB__NPTR_NODE_SHIFT (STB__NPTR_ROOT_SHIFT - STB__NPTR_NODE_LOG2)
+#define STB__NPTR_NODE_OFFSET(x) (((x) >> STB__NPTR_NODE_SHIFT) & STB__NPTR_NODE_MASK)
+
+typedef struct stb__st_nptr
+{
+ void *ptr; // address of actual pointer
+ struct stb__st_nptr *next; // next pointer with same target
+ struct stb__st_nptr **prev; // prev pointer with same target, address of 'next' field (or first)
+ struct stb__st_nptr *next_in_block;
+} stb__nptr;
+
+typedef struct stb__st_nptr_target
+{
+ void *ptr; // address of target
+ stb__nptr *first; // address of first nptr pointing to this
+ struct stb__st_nptr_target *next_in_block;
+} stb__nptr_target;
+
+typedef struct
+{
+ stb__nptr *pointers;
+ stb__nptr_target *targets;
+} stb__memory_leaf;
+
+typedef struct
+{
+ stb__memory_leaf *children[STB__NPTR_NODE_NUM];
+} stb__memory_node;
+
+stb__memory_node *stb__memtab_root[STB__NPTR_ROOT_NUM];
+
+static stb__memory_leaf *stb__nptr_find_leaf(void *mem)
+{
+ stb_uint32 address = (stb_uint32)mem;
+ stb__memory_node *z = stb__memtab_root[address >> STB__NPTR_ROOT_SHIFT];
+ if (z)
+ return z->children[STB__NPTR_NODE_OFFSET(address)];
+ else
+ return NULL;
+}
+
+static void * stb__nptr_alloc(int size)
+{
+ return stb__realloc_raw(0, size);
+}
+
+static void stb__nptr_free(void *p)
+{
+ stb__realloc_raw(p, 0);
+}
+
+static stb__memory_leaf *stb__nptr_make_leaf(void *mem)
+{
+ stb_uint32 address = (stb_uint32)mem;
+ stb__memory_node *z = stb__memtab_root[address >> STB__NPTR_ROOT_SHIFT];
+ stb__memory_leaf *f;
+ if (!z) {
+ int i;
+ z = (stb__memory_node *)stb__nptr_alloc(sizeof(*stb__memtab_root[0]));
+ stb__memtab_root[address >> STB__NPTR_ROOT_SHIFT] = z;
+ for (i = 0; i < 256; ++i)
+ z->children[i] = 0;
+ }
+ f = (stb__memory_leaf *)stb__nptr_alloc(sizeof(*f));
+ z->children[STB__NPTR_NODE_OFFSET(address)] = f;
+ f->pointers = NULL;
+ f->targets = NULL;
+ return f;
+}
+
+static stb__nptr_target *stb__nptr_find_target(void *target, int force)
+{
+ stb__memory_leaf *p = stb__nptr_find_leaf(target);
+ if (p) {
+ stb__nptr_target *t = p->targets;
+ while (t) {
+ if (t->ptr == target)
+ return t;
+ t = t->next_in_block;
+ }
+ }
+ if (force) {
+ stb__nptr_target *t = (stb__nptr_target*)stb__nptr_alloc(sizeof(*t));
+ if (!p) p = stb__nptr_make_leaf(target);
+ t->ptr = target;
+ t->first = NULL;
+ t->next_in_block = p->targets;
+ p->targets = t;
+ return t;
+ }
+ else
+ return NULL;
+}
+
+static stb__nptr *stb__nptr_find_pointer(void *ptr, int force)
+{
+ stb__memory_leaf *p = stb__nptr_find_leaf(ptr);
+ if (p) {
+ stb__nptr *t = p->pointers;
+ while (t) {
+ if (t->ptr == ptr)
+ return t;
+ t = t->next_in_block;
+ }
+ }
+ if (force) {
+ stb__nptr *t = (stb__nptr *)stb__nptr_alloc(sizeof(*t));
+ if (!p) p = stb__nptr_make_leaf(ptr);
+ t->ptr = ptr;
+ t->next = NULL;
+ t->prev = NULL;
+ t->next_in_block = p->pointers;
+ p->pointers = t;
+ return t;
+ }
+ else
+ return NULL;
+}
+
+void stb_nptr_set(void *address_of_pointer, void *value_to_write)
+{
+ if (*(void **)address_of_pointer != value_to_write) {
+ *(void **)address_of_pointer = value_to_write;
+ stb_nptr_didset(address_of_pointer);
+ }
+}
+
+void stb_nptr_didset(void *address_of_pointer)
+{
+ // first unlink from old chain
+ void *new_address;
+ stb__nptr *p = stb__nptr_find_pointer(address_of_pointer, 1); // force building if doesn't exist
+ if (p->prev) { // if p->prev is NULL, we just built it, or it was NULL
+ *(p->prev) = p->next;
+ if (p->next) p->next->prev = p->prev;
+ }
+ // now add to new chain
+ new_address = *(void **)address_of_pointer;
+ if (new_address != NULL) {
+ stb__nptr_target *t = stb__nptr_find_target(new_address, 1);
+ p->next = t->first;
+ if (p->next) p->next->prev = &p->next;
+ p->prev = &t->first;
+ t->first = p;
+ }
+ else {
+ p->prev = NULL;
+ p->next = NULL;
+ }
+}
+
+void stb__nptr_block(void *address, int len, void(*function)(stb__memory_leaf *f, int datum, void *start, void *end), int datum)
+{
+ void *end_address = (void *)((char *)address + len - 1);
+ stb__memory_node *n;
+ stb_uint32 start = (stb_uint32)address;
+ stb_uint32 end = start + len - 1;
+
+ int b0 = start >> STB__NPTR_ROOT_SHIFT;
+ int b1 = end >> STB__NPTR_ROOT_SHIFT;
+ int b = b0, i, e0, e1;
+
+ e0 = STB__NPTR_NODE_OFFSET(start);
+
+ if (datum <= 0) {
+ // first block
+ n = stb__memtab_root[b0];
+ if (n) {
+ if (b0 != b1)
+ e1 = STB__NPTR_NODE_NUM - 1;
+ else
+ e1 = STB__NPTR_NODE_OFFSET(end);
+ for (i = e0; i <= e1; ++i)
+ if (n->children[i])
+ function(n->children[i], datum, address, end_address);
+ }
+ if (b1 > b0) {
+ // blocks other than the first and last block
+ for (b = b0 + 1; b < b1; ++b) {
+ n = stb__memtab_root[b];
+ if (n)
+ for (i = 0; i <= STB__NPTR_NODE_NUM - 1; ++i)
+ if (n->children[i])
+ function(n->children[i], datum, address, end_address);
+ }
+ // last block
+ n = stb__memtab_root[b1];
+ if (n) {
+ e1 = STB__NPTR_NODE_OFFSET(end);
+ for (i = 0; i <= e1; ++i)
+ if (n->children[i])
+ function(n->children[i], datum, address, end_address);
+ }
+ }
+ }
+ else {
+ if (b1 > b0) {
+ // last block
+ n = stb__memtab_root[b1];
+ if (n) {
+ e1 = STB__NPTR_NODE_OFFSET(end);
+ for (i = e1; i >= 0; --i)
+ if (n->children[i])
+ function(n->children[i], datum, address, end_address);
+ }
+ // blocks other than the first and last block
+ for (b = b1 - 1; b > b0; --b) {
+ n = stb__memtab_root[b];
+ if (n)
+ for (i = STB__NPTR_NODE_NUM - 1; i >= 0; --i)
+ if (n->children[i])
+ function(n->children[i], datum, address, end_address);
+ }
+ }
+ // first block
+ n = stb__memtab_root[b0];
+ if (n) {
+ if (b0 != b1)
+ e1 = STB__NPTR_NODE_NUM - 1;
+ else
+ e1 = STB__NPTR_NODE_OFFSET(end);
+ for (i = e1; i >= e0; --i)
+ if (n->children[i])
+ function(n->children[i], datum, address, end_address);
+ }
+ }
+}
+
+static void stb__nptr_delete_pointers(stb__memory_leaf *f, int offset, void *start, void *end)
+{
+ stb__nptr **p = &f->pointers;
+ while (*p) {
+ stb__nptr *n = *p;
+ if (n->ptr >= start && n->ptr <= end) {
+ // unlink
+ if (n->prev) {
+ *(n->prev) = n->next;
+ if (n->next) n->next->prev = n->prev;
+ }
+ *p = n->next_in_block;
+ stb__nptr_free(n);
+ }
+ else
+ p = &(n->next_in_block);
+ }
+}
+
+static void stb__nptr_delete_targets(stb__memory_leaf *f, int offset, void *start, void *end)
+{
+ stb__nptr_target **p = &f->targets;
+ while (*p) {
+ stb__nptr_target *n = *p;
+ if (n->ptr >= start && n->ptr <= end) {
+ // null pointers
+ stb__nptr *z = n->first;
+ while (z) {
+ stb__nptr *y = z->next;
+ z->prev = NULL;
+ z->next = NULL;
+ *(void **)z->ptr = NULL;
+ z = y;
+ }
+ // unlink this target
+ *p = n->next_in_block;
+ stb__nptr_free(n);
+ }
+ else
+ p = &(n->next_in_block);
+ }
+}
+
+void stb_nptr_didfree(void *address_being_freed, int len)
+{
+ // step one: delete all pointers in this block
+ stb__nptr_block(address_being_freed, len, stb__nptr_delete_pointers, 0);
+ // step two: NULL all pointers to this block; do this second to avoid NULLing deleted pointers
+ stb__nptr_block(address_being_freed, len, stb__nptr_delete_targets, 0);
+}
+
+void stb_nptr_free(void *address_being_freed, int len)
+{
+ free(address_being_freed);
+ stb_nptr_didfree(address_being_freed, len);
+}
+
+static void stb__nptr_move_targets(stb__memory_leaf *f, int offset, void *start, void *end)
+{
+ stb__nptr_target **t = &f->targets;
+ while (*t) {
+ stb__nptr_target *n = *t;
+ if (n->ptr >= start && n->ptr <= end) {
+ stb__nptr *z;
+ stb__memory_leaf *f;
+ // unlink n
+ *t = n->next_in_block;
+ // update n to new address
+ n->ptr = (void *)((char *)n->ptr + offset);
+ f = stb__nptr_find_leaf(n->ptr);
+ if (!f) f = stb__nptr_make_leaf(n->ptr);
+ n->next_in_block = f->targets;
+ f->targets = n;
+ // now go through all pointers and make them point here
+ z = n->first;
+ while (z) {
+ *(void**)z->ptr = n->ptr;
+ z = z->next;
+ }
+ }
+ else
+ t = &(n->next_in_block);
+ }
+}
+
+static void stb__nptr_move_pointers(stb__memory_leaf *f, int offset, void *start, void *end)
+{
+ stb__nptr **p = &f->pointers;
+ while (*p) {
+ stb__nptr *n = *p;
+ if (n->ptr >= start && n->ptr <= end) {
+ // unlink
+ *p = n->next_in_block;
+ n->ptr = (void *)((int)n->ptr + offset);
+ // move to new block
+ f = stb__nptr_find_leaf(n->ptr);
+ if (!f) f = stb__nptr_make_leaf(n->ptr);
+ n->next_in_block = f->pointers;
+ f->pointers = n;
+ }
+ else
+ p = &(n->next_in_block);
+ }
+}
+
+void stb_nptr_realloc(void *new_address, void *old_address, int len)
+{
+ if (new_address == old_address) return;
+
+ // have to move the pointers first, because moving the targets
+ // requires writing to the pointers-to-the-targets, and if some of those moved too,
+ // we need to make sure we don't write to the old memory
+
+ // step one: move all pointers within the block
+ stb__nptr_block(old_address, len, stb__nptr_move_pointers, (char *)new_address - (char *)old_address);
+ // step two: move all targets within the block
+ stb__nptr_block(old_address, len, stb__nptr_move_targets, (char *)new_address - (char *)old_address);
+}
+
+void stb_nptr_move(void *new_address, void *old_address)
+{
+ stb_nptr_realloc(new_address, old_address, 1);
+}
+
+void stb_nptr_recache(void)
+{
+ int i, j;
+ for (i = 0; i < STB__NPTR_ROOT_NUM; ++i)
+ if (stb__memtab_root[i])
+ for (j = 0; j < STB__NPTR_NODE_NUM; ++j)
+ if (stb__memtab_root[i]->children[j]) {
+ stb__nptr *p = stb__memtab_root[i]->children[j]->pointers;
+ while (p) {
+ stb_nptr_didset(p->ptr);
+ p = p->next_in_block;
+ }
+ }
+}
+
+#endif // STB_DEFINE
+#endif // STB_NPTR
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// File Processing
+//
+
+
+#ifdef _MSC_VER
+#define stb_rename(x,y) _wrename((const wchar_t *)stb__from_utf8(x), (const wchar_t *)stb__from_utf8_alt(y))
+#define stb_mktemp _mktemp
+#else
+#define stb_mktemp mktemp
+#define stb_rename rename
+#endif
+
+STB_EXTERN void stb_fput_varlen64(FILE *f, stb_uint64 v);
+STB_EXTERN stb_uint64 stb_fget_varlen64(FILE *f);
+STB_EXTERN int stb_size_varlen64(stb_uint64 v);
+
+
+#define stb_filec (char *) stb_file
+#define stb_fileu (unsigned char *) stb_file
+STB_EXTERN void * stb_file(char *filename, size_t *length);
+STB_EXTERN void * stb_file_max(char *filename, size_t *length);
+STB_EXTERN size_t stb_filelen(FILE *f);
+STB_EXTERN int stb_filewrite(char *filename, void *data, size_t length);
+STB_EXTERN int stb_filewritestr(char *filename, char *data);
+STB_EXTERN char ** stb_stringfile(char *filename, int *len);
+STB_EXTERN char ** stb_stringfile_trimmed(char *name, int *len, char comm);
+STB_EXTERN char * stb_fgets(char *buffer, int buflen, FILE *f);
+STB_EXTERN char * stb_fgets_malloc(FILE *f);
+STB_EXTERN int stb_fexists(char *filename);
+STB_EXTERN int stb_fcmp(char *s1, char *s2);
+STB_EXTERN int stb_feq(char *s1, char *s2);
+STB_EXTERN time_t stb_ftimestamp(char *filename);
+
+STB_EXTERN int stb_fullpath(char *abs, int abs_size, char *rel);
+STB_EXTERN FILE * stb_fopen(char *filename, char *mode);
+STB_EXTERN int stb_fclose(FILE *f, int keep);
+
+enum
+{
+ stb_keep_no = 0,
+ stb_keep_yes = 1,
+ stb_keep_if_different = 2,
+};
+
+STB_EXTERN int stb_copyfile(char *src, char *dest);
+
+STB_EXTERN void stb_fput_varlen64(FILE *f, stb_uint64 v);
+STB_EXTERN stb_uint64 stb_fget_varlen64(FILE *f);
+STB_EXTERN int stb_size_varlen64(stb_uint64 v);
+
+STB_EXTERN void stb_fwrite32(FILE *f, stb_uint32 datum);
+STB_EXTERN void stb_fput_varlen(FILE *f, int v);
+STB_EXTERN void stb_fput_varlenu(FILE *f, unsigned int v);
+STB_EXTERN int stb_fget_varlen(FILE *f);
+STB_EXTERN stb_uint stb_fget_varlenu(FILE *f);
+STB_EXTERN void stb_fput_ranged(FILE *f, int v, int b, stb_uint n);
+STB_EXTERN int stb_fget_ranged(FILE *f, int b, stb_uint n);
+STB_EXTERN int stb_size_varlen(int v);
+STB_EXTERN int stb_size_varlenu(unsigned int v);
+STB_EXTERN int stb_size_ranged(int b, stb_uint n);
+
+STB_EXTERN int stb_fread(void *data, size_t len, size_t count, void *f);
+STB_EXTERN int stb_fwrite(void *data, size_t len, size_t count, void *f);
+
+#if 0
+typedef struct
+{
+ FILE *base_file;
+ char *buffer;
+ int buffer_size;
+ int buffer_off;
+ int buffer_left;
+} STBF;
+
+STB_EXTERN STBF *stb_tfopen(char *filename, char *mode);
+STB_EXTERN int stb_tfread(void *data, size_t len, size_t count, STBF *f);
+STB_EXTERN int stb_tfwrite(void *data, size_t len, size_t count, STBF *f);
+#endif
+
+#ifdef STB_DEFINE
+
+#if 0
+STBF *stb_tfopen(char *filename, char *mode)
+{
+ STBF *z;
+ FILE *f = fopen(filename, mode);
+ if (!f) return NULL;
+ z = (STBF *)malloc(sizeof(*z));
+ if (!z) { fclose(f); return NULL; }
+ z->base_file = f;
+ if (!strcmp(mode, "rb") || !strcmp(mode, "wb")) {
+ z->buffer_size = 4096;
+ z->buffer_off = z->buffer_size;
+ z->buffer_left = 0;
+ z->buffer = malloc(z->buffer_size);
+ if (!z->buffer) { free(z); fclose(f); return NULL; }
+ }
+ else {
+ z->buffer = 0;
+ z->buffer_size = 0;
+ z->buffer_left = 0;
+ }
+ return z;
+}
+
+int stb_tfread(void *data, size_t len, size_t count, STBF *f)
+{
+ int total = len*count, done = 0;
+ if (!total) return 0;
+ if (total <= z->buffer_left) {
+ memcpy(data, z->buffer + z->buffer_off, total);
+ z->buffer_off += total;
+ z->buffer_left -= total;
+ return count;
+ }
+ else {
+ char *out = (char *)data;
+
+ // consume all buffered data
+ memcpy(data, z->buffer + z->buffer_off, z->buffer_left);
+ done = z->buffer_left;
+ out += z->buffer_left;
+ z->buffer_left = 0;
+
+ if (total - done > (z->buffer_size >> 1)) {
+ done += fread(out
+ }
+ }
+}
+#endif
+
+void stb_fwrite32(FILE *f, stb_uint32 x)
+{
+ fwrite(&x, 4, 1, f);
+}
+
+#if defined(_MSC_VER) || defined(__MINGW32__)
+#define stb__stat _stat
+#else
+#define stb__stat stat
+#endif
+
+int stb_fexists(char *filename)
+{
+ struct stb__stat buf;
+ return stb__windows(
+ _wstat((const wchar_t *)stb__from_utf8(filename), &buf),
+ stat(filename, &buf)
+ ) == 0;
+}
+
+time_t stb_ftimestamp(char *filename)
+{
+ struct stb__stat buf;
+ if (stb__windows(
+ _wstat((const wchar_t *)stb__from_utf8(filename), &buf),
+ stat(filename, &buf)
+ ) == 0)
+ {
+ return buf.st_mtime;
+ }
+ else {
+ return 0;
+ }
+}
+
+size_t stb_filelen(FILE *f)
+{
+ size_t len, pos;
+ pos = ftell(f);
+ fseek(f, 0, SEEK_END);
+ len = ftell(f);
+ fseek(f, pos, SEEK_SET);
+ return len;
+}
+
+void *stb_file(char *filename, size_t *length)
+{
+ FILE *f = stb__fopen(filename, "rb");
+ char *buffer;
+ size_t len, len2;
+ if (!f) return NULL;
+ len = stb_filelen(f);
+ buffer = (char *)malloc(len + 2); // nul + extra
+ len2 = fread(buffer, 1, len, f);
+ if (len2 == len) {
+ if (length) *length = len;
+ buffer[len] = 0;
+ }
+ else {
+ free(buffer);
+ buffer = NULL;
+ }
+ fclose(f);
+ return buffer;
+}
+
+int stb_filewrite(char *filename, void *data, size_t length)
+{
+ FILE *f = stb_fopen(filename, "wb");
+ if (f) {
+ unsigned char *data_ptr = (unsigned char *)data;
+ size_t remaining = length;
+ while (remaining > 0) {
+ size_t len2 = remaining > 65536 ? 65536 : remaining;
+ size_t len3 = fwrite(data_ptr, 1, len2, f);
+ if (len2 != len3) {
+ fprintf(stderr, "Failed while writing %s\n", filename);
+ break;
+ }
+ remaining -= len2;
+ data_ptr += len2;
+ }
+ stb_fclose(f, stb_keep_if_different);
+ }
+ return f != NULL;
+}
+
+int stb_filewritestr(char *filename, char *data)
+{
+ return stb_filewrite(filename, data, strlen(data));
+}
+
+void * stb_file_max(char *filename, size_t *length)
+{
+ FILE *f = stb__fopen(filename, "rb");
+ char *buffer;
+ size_t len, maxlen;
+ if (!f) return NULL;
+ maxlen = *length;
+ buffer = (char *)malloc(maxlen + 1);
+ len = fread(buffer, 1, maxlen, f);
+ buffer[len] = 0;
+ fclose(f);
+ *length = len;
+ return buffer;
+}
+
+char ** stb_stringfile(char *filename, int *plen)
+{
+ FILE *f = stb__fopen(filename, "rb");
+ char *buffer, **list = NULL, *s;
+ size_t len, count, i;
+
+ if (!f) return NULL;
+ len = stb_filelen(f);
+ buffer = (char *)malloc(len + 1);
+ len = fread(buffer, 1, len, f);
+ buffer[len] = 0;
+ fclose(f);
+
+ // two passes through: first time count lines, second time set them
+ for (i = 0; i < 2; ++i) {
+ s = buffer;
+ if (i == 1)
+ list[0] = s;
+ count = 1;
+ while (*s) {
+ if (*s == '\n' || *s == '\r') {
+ // detect if both cr & lf are together
+ int crlf = (s[0] + s[1]) == ('\n' + '\r');
+ if (i == 1) *s = 0;
+ if (crlf) ++s;
+ if (s[1]) { // it's not over yet
+ if (i == 1) list[count] = s + 1;
+ ++count;
+ }
+ }
+ ++s;
+ }
+ if (i == 0) {
+ list = (char **)malloc(sizeof(*list) * (count + 1) + len + 1);
+ if (!list) return NULL;
+ list[count] = 0;
+ // recopy the file so there's just a single allocation to free
+ memcpy(&list[count + 1], buffer, len + 1);
+ free(buffer);
+ buffer = (char *)&list[count + 1];
+ if (plen) *plen = count;
+ }
+ }
+ return list;
+}
+
+char ** stb_stringfile_trimmed(char *name, int *len, char comment)
+{
+ int i, n, o = 0;
+ char **s = stb_stringfile(name, &n);
+ if (s == NULL) return NULL;
+ for (i = 0; i < n; ++i) {
+ char *p = stb_skipwhite(s[i]);
+ if (*p && *p != comment)
+ s[o++] = p;
+ }
+ s[o] = NULL;
+ if (len) *len = o;
+ return s;
+}
+
+char * stb_fgets(char *buffer, int buflen, FILE *f)
+{
+ char *p;
+ buffer[0] = 0;
+ p = fgets(buffer, buflen, f);
+ if (p) {
+ int n = strlen(p) - 1;
+ if (n >= 0)
+ if (p[n] == '\n')
+ p[n] = 0;
+ }
+ return p;
+}
+
+char * stb_fgets_malloc(FILE *f)
+{
+ // avoid reallocing for small strings
+ char quick_buffer[800];
+ quick_buffer[sizeof(quick_buffer) - 2] = 0;
+ if (!fgets(quick_buffer, sizeof(quick_buffer), f))
+ return NULL;
+
+ if (quick_buffer[sizeof(quick_buffer) - 2] == 0) {
+ int n = strlen(quick_buffer);
+ if (n > 0 && quick_buffer[n - 1] == '\n')
+ quick_buffer[n - 1] = 0;
+ return strdup(quick_buffer);
+ }
+ else {
+ char *p;
+ char *a = strdup(quick_buffer);
+ int len = sizeof(quick_buffer) - 1;
+
+ while (!feof(f)) {
+ if (a[len - 1] == '\n') break;
+ a = (char *)realloc(a, len * 2);
+ p = &a[len];
+ p[len - 2] = 0;
+ if (!fgets(p, len, f))
+ break;
+ if (p[len - 2] == 0) {
+ len += strlen(p);
+ break;
+ }
+ len = len + (len - 1);
+ }
+ if (a[len - 1] == '\n')
+ a[len - 1] = 0;
+ return a;
+ }
+}
+
+int stb_fullpath(char *abs, int abs_size, char *rel)
+{
+#ifdef _MSC_VER
+ return _fullpath(abs, rel, abs_size) != NULL;
+#else
+ if (rel[0] == '/' || rel[0] == '~') {
+ if ((int)strlen(rel) >= abs_size)
+ return 0;
+ strcpy(abs, rel);
+ return STB_TRUE;
+ }
+ else {
+ int n;
+ getcwd(abs, abs_size);
+ n = strlen(abs);
+ if (n + (int)strlen(rel) + 2 <= abs_size) {
+ abs[n] = '/';
+ strcpy(abs + n + 1, rel);
+ return STB_TRUE;
+ }
+ else {
+ return STB_FALSE;
+ }
+ }
+#endif
+}
+
+static int stb_fcmp_core(FILE *f, FILE *g)
+{
+ char buf1[1024], buf2[1024];
+ int n1, n2, res = 0;
+
+ while (1) {
+ n1 = fread(buf1, 1, sizeof(buf1), f);
+ n2 = fread(buf2, 1, sizeof(buf2), g);
+ res = memcmp(buf1, buf2, stb_min(n1, n2));
+ if (res)
+ break;
+ if (n1 != n2) {
+ res = n1 < n2 ? -1 : 1;
+ break;
+ }
+ if (n1 == 0)
+ break;
+ }
+
+ fclose(f);
+ fclose(g);
+ return res;
+}
+
+int stb_fcmp(char *s1, char *s2)
+{
+ FILE *f = stb__fopen(s1, "rb");
+ FILE *g = stb__fopen(s2, "rb");
+
+ if (f == NULL || g == NULL) {
+ if (f) fclose(f);
+ if (g) {
+ fclose(g);
+ return STB_TRUE;
+ }
+ return f != NULL;
+ }
+
+ return stb_fcmp_core(f, g);
+}
+
+int stb_feq(char *s1, char *s2)
+{
+ FILE *f = stb__fopen(s1, "rb");
+ FILE *g = stb__fopen(s2, "rb");
+
+ if (f == NULL || g == NULL) {
+ if (f) fclose(f);
+ if (g) fclose(g);
+ return f == g;
+ }
+
+ // feq is faster because it shortcuts if they're different length
+ if (stb_filelen(f) != stb_filelen(g)) {
+ fclose(f);
+ fclose(g);
+ return 0;
+ }
+
+ return !stb_fcmp_core(f, g);
+}
+
+static stb_ptrmap *stb__files;
+
+typedef struct
+{
+ char *temp_name;
+ char *name;
+ int errors;
+} stb__file_data;
+
+static FILE *stb__open_temp_file(char *temp_name, char *src_name, char *mode)
+{
+ int p;
+#ifdef _MSC_VER
+ int j;
+#endif
+ FILE *f;
+ // try to generate a temporary file in the same directory
+ p = strlen(src_name) - 1;
+ while (p > 0 && src_name[p] != '/' && src_name[p] != '\\'
+ && src_name[p] != ':' && src_name[p] != '~')
+ --p;
+ ++p;
+
+ memcpy(temp_name, src_name, p);
+
+#ifdef _MSC_VER
+ // try multiple times to make a temp file... just in
+ // case some other process makes the name first
+ for (j = 0; j < 32; ++j) {
+ strcpy(temp_name + p, "stmpXXXXXX");
+ if (stb_mktemp(temp_name) == NULL)
+ return 0;
+
+ f = fopen(temp_name, mode);
+ if (f != NULL)
+ break;
+ }
+#else
+ {
+ strcpy(temp_name + p, "stmpXXXXXX");
+#ifdef __MINGW32__
+ int fd = open(mktemp(temp_name), O_RDWR);
+#else
+ int fd = mkstemp(temp_name);
+#endif
+ if (fd == -1) return NULL;
+ f = fdopen(fd, mode);
+ if (f == NULL) {
+ unlink(temp_name);
+ close(fd);
+ return NULL;
+ }
+ }
+#endif
+ return f;
+}
+
+
+FILE * stb_fopen(char *filename, char *mode)
+{
+ FILE *f;
+ char name_full[4096];
+ char temp_full[sizeof(name_full) + 12];
+
+ // @TODO: if the file doesn't exist, we can also use the fastpath here
+ if (mode[0] != 'w' && !strchr(mode, '+'))
+ return stb__fopen(filename, mode);
+
+ // save away the full path to the file so if the program
+ // changes the cwd everything still works right! unix has
+ // better ways to do this, but we have to work in windows
+ name_full[0] = '\0'; // stb_fullpath reads name_full[0]
+ if (stb_fullpath(name_full, sizeof(name_full), filename) == 0)
+ return 0;
+
+ f = stb__open_temp_file(temp_full, name_full, mode);
+ if (f != NULL) {
+ stb__file_data *d = (stb__file_data *)malloc(sizeof(*d));
+ if (!d) { assert(0); /* NOTREACHED */fclose(f); return NULL; }
+ if (stb__files == NULL) stb__files = stb_ptrmap_create();
+ d->temp_name = strdup(temp_full);
+ d->name = strdup(name_full);
+ d->errors = 0;
+ stb_ptrmap_add(stb__files, f, d);
+ return f;
+ }
+
+ return NULL;
+}
+
+int stb_fclose(FILE *f, int keep)
+{
+ stb__file_data *d;
+
+ int ok = STB_FALSE;
+ if (f == NULL) return 0;
+
+ if (ferror(f))
+ keep = stb_keep_no;
+
+ fclose(f);
+
+ if (stb__files && stb_ptrmap_remove(stb__files, f, (void **)&d)) {
+ if (stb__files->count == 0) {
+ stb_ptrmap_destroy(stb__files);
+ stb__files = NULL;
+ }
+ }
+ else
+ return STB_TRUE; // not special
+
+ if (keep == stb_keep_if_different) {
+ // check if the files are identical
+ if (stb_feq(d->name, d->temp_name)) {
+ keep = stb_keep_no;
+ ok = STB_TRUE; // report success if no change
+ }
+ }
+
+ if (keep == stb_keep_no) {
+ remove(d->temp_name);
+ }
+ else {
+ if (!stb_fexists(d->name)) {
+ // old file doesn't exist, so just move the new file over it
+ stb_rename(d->temp_name, d->name);
+ }
+ else {
+ // don't delete the old file yet in case there are troubles! First rename it!
+ char preserved_old_file[4096];
+
+ // generate a temp filename in the same directory (also creates it, which we don't need)
+ FILE *dummy = stb__open_temp_file(preserved_old_file, d->name, "wb");
+ if (dummy != NULL) {
+ // we don't actually want the open file
+ fclose(dummy);
+
+ // discard what we just created
+ remove(preserved_old_file); // if this fails, there's nothing we can do, and following logic handles it as best as possible anyway
+
+ // move the existing file to the preserved name
+ if (0 != stb_rename(d->name, preserved_old_file)) { // 0 on success
+ // failed, state is:
+ // filename -> old file
+ // tempname -> new file
+ // keep tempname around so we don't lose data
+ }
+ else {
+ // state is:
+ // preserved -> old file
+ // tempname -> new file
+ // move the new file to the old name
+ if (0 == stb_rename(d->temp_name, d->name)) {
+ // state is:
+ // preserved -> old file
+ // filename -> new file
+ ok = STB_TRUE;
+
+ // 'filename -> new file' has always been the goal, so clean up
+ remove(preserved_old_file); // nothing to be done if it fails
+ }
+ else {
+ // couldn't rename, so try renaming preserved file back
+
+ // state is:
+ // preserved -> old file
+ // tempname -> new file
+ stb_rename(preserved_old_file, d->name);
+ // if the rename failed, there's nothing more we can do
+ }
+ }
+ }
+ else {
+ // we couldn't get a temp filename. do this the naive way; the worst case failure here
+ // leaves the filename pointing to nothing and the new file as a tempfile
+ remove(d->name);
+ stb_rename(d->temp_name, d->name);
+ }
+ }
+ }
+
+ free(d->temp_name);
+ free(d->name);
+ free(d);
+
+ return ok;
+}
+
+int stb_copyfile(char *src, char *dest)
+{
+ char raw_buffer[1024];
+ char *buffer;
+ int buf_size = 65536;
+
+ FILE *f, *g;
+
+ // if file already exists at destination, do nothing
+ if (stb_feq(src, dest)) return STB_TRUE;
+
+ // open file
+ f = stb__fopen(src, "rb");
+ if (f == NULL) return STB_FALSE;
+
+ // open file for writing
+ g = stb__fopen(dest, "wb");
+ if (g == NULL) {
+ fclose(f);
+ return STB_FALSE;
+ }
+
+ buffer = (char *)malloc(buf_size);
+ if (buffer == NULL) {
+ buffer = raw_buffer;
+ buf_size = sizeof(raw_buffer);
+ }
+
+ while (!feof(f)) {
+ int n = fread(buffer, 1, buf_size, f);
+ if (n != 0)
+ fwrite(buffer, 1, n, g);
+ }
+
+ fclose(f);
+ if (buffer != raw_buffer)
+ free(buffer);
+
+ fclose(g);
+ return STB_TRUE;
+}
+
+// varlen:
+// v' = (v >> 31) + (v < 0 ? ~v : v)<<1; // small abs(v) => small v'
+// output v as big endian v'+k for v' <= k:
+// 1 byte : v' <= 0x00000080 ( -64 <= v < 64) 7 bits
+// 2 bytes: v' <= 0x00004000 (-8192 <= v < 8192) 14 bits
+// 3 bytes: v' <= 0x00200000 21 bits
+// 4 bytes: v' <= 0x10000000 28 bits
+// the number of most significant 1-bits in the first byte
+// equals the number of bytes after the first
+
+#define stb__varlen_xform(v) (v<0 ? (~v << 1)+1 : (v << 1))
+
+int stb_size_varlen(int v) { return stb_size_varlenu(stb__varlen_xform(v)); }
+int stb_size_varlenu(unsigned int v)
+{
+ if (v < 0x00000080) return 1;
+ if (v < 0x00004000) return 2;
+ if (v < 0x00200000) return 3;
+ if (v < 0x10000000) return 4;
+ return 5;
+}
+
+void stb_fput_varlen(FILE *f, int v) { stb_fput_varlenu(f, stb__varlen_xform(v)); }
+
+void stb_fput_varlenu(FILE *f, unsigned int z)
+{
+ if (z >= 0x10000000) fputc(0xF0, f);
+ if (z >= 0x00200000) fputc((z < 0x10000000 ? 0xE0 : 0) + (z >> 24), f);
+ if (z >= 0x00004000) fputc((z < 0x00200000 ? 0xC0 : 0) + (z >> 16), f);
+ if (z >= 0x00000080) fputc((z < 0x00004000 ? 0x80 : 0) + (z >> 8), f);
+ fputc(z, f);
+}
+
+#define stb_fgetc(f) ((unsigned char) fgetc(f))
+
+int stb_fget_varlen(FILE *f)
+{
+ unsigned int z = stb_fget_varlenu(f);
+ return (z & 1) ? ~(z >> 1) : (z >> 1);
+}
+
+unsigned int stb_fget_varlenu(FILE *f)
+{
+ unsigned int z;
+ unsigned char d;
+ d = stb_fgetc(f);
+
+ if (d >= 0x80) {
+ if (d >= 0xc0) {
+ if (d >= 0xe0) {
+ if (d == 0xf0) z = stb_fgetc(f) << 24;
+ else z = (d - 0xe0) << 24;
+ z += stb_fgetc(f) << 16;
+ }
+ else
+ z = (d - 0xc0) << 16;
+ z += stb_fgetc(f) << 8;
+ }
+ else
+ z = (d - 0x80) << 8;
+ z += stb_fgetc(f);
+ }
+ else
+ z = d;
+ return z;
+}
+
+stb_uint64 stb_fget_varlen64(FILE *f)
+{
+ stb_uint64 z;
+ unsigned char d;
+ d = stb_fgetc(f);
+
+ if (d >= 0x80) {
+ if (d >= 0xc0) {
+ if (d >= 0xe0) {
+ if (d >= 0xf0) {
+ if (d >= 0xf8) {
+ if (d >= 0xfc) {
+ if (d >= 0xfe) {
+ if (d >= 0xff)
+ z = (stb_uint64)stb_fgetc(f) << 56;
+ else
+ z = (stb_uint64)(d - 0xfe) << 56;
+ z |= (stb_uint64)stb_fgetc(f) << 48;
+ }
+ else z = (stb_uint64)(d - 0xfc) << 48;
+ z |= (stb_uint64)stb_fgetc(f) << 40;
+ }
+ else z = (stb_uint64)(d - 0xf8) << 40;
+ z |= (stb_uint64)stb_fgetc(f) << 32;
+ }
+ else z = (stb_uint64)(d - 0xf0) << 32;
+ z |= (stb_uint)stb_fgetc(f) << 24;
+ }
+ else z = (stb_uint)(d - 0xe0) << 24;
+ z |= (stb_uint)stb_fgetc(f) << 16;
+ }
+ else z = (stb_uint)(d - 0xc0) << 16;
+ z |= (stb_uint)stb_fgetc(f) << 8;
+ }
+ else z = (stb_uint)(d - 0x80) << 8;
+ z |= stb_fgetc(f);
+ }
+ else
+ z = d;
+
+ return (z & 1) ? ~(z >> 1) : (z >> 1);
+}
+
+int stb_size_varlen64(stb_uint64 v)
+{
+ if (v < 0x00000080) return 1;
+ if (v < 0x00004000) return 2;
+ if (v < 0x00200000) return 3;
+ if (v < 0x10000000) return 4;
+ if (v < STB_IMM_UINT64(0x0000000800000000)) return 5;
+ if (v < STB_IMM_UINT64(0x0000040000000000)) return 6;
+ if (v < STB_IMM_UINT64(0x0002000000000000)) return 7;
+ if (v < STB_IMM_UINT64(0x0100000000000000)) return 8;
+ return 9;
+}
+
+void stb_fput_varlen64(FILE *f, stb_uint64 v)
+{
+ stb_uint64 z = stb__varlen_xform(v);
+ int first = 1;
+ if (z >= STB_IMM_UINT64(0x100000000000000)) {
+ fputc(0xff, f);
+ first = 0;
+ }
+ if (z >= STB_IMM_UINT64(0x02000000000000)) fputc((first ? 0xFE : 0) + (char)(z >> 56), f), first = 0;
+ if (z >= STB_IMM_UINT64(0x00040000000000)) fputc((first ? 0xFC : 0) + (char)(z >> 48), f), first = 0;
+ if (z >= STB_IMM_UINT64(0x00000800000000)) fputc((first ? 0xF8 : 0) + (char)(z >> 40), f), first = 0;
+ if (z >= STB_IMM_UINT64(0x00000010000000)) fputc((first ? 0xF0 : 0) + (char)(z >> 32), f), first = 0;
+ if (z >= STB_IMM_UINT64(0x00000000200000)) fputc((first ? 0xE0 : 0) + (char)(z >> 24), f), first = 0;
+ if (z >= STB_IMM_UINT64(0x00000000004000)) fputc((first ? 0xC0 : 0) + (char)(z >> 16), f), first = 0;
+ if (z >= STB_IMM_UINT64(0x00000000000080)) fputc((first ? 0x80 : 0) + (char)(z >> 8), f), first = 0;
+ fputc((char)z, f);
+}
+
+void stb_fput_ranged(FILE *f, int v, int b, stb_uint n)
+{
+ v -= b;
+ if (n <= (1 << 31))
+ assert((stb_uint)v < n);
+ if (n >(1 << 24)) fputc(v >> 24, f);
+ if (n > (1 << 16)) fputc(v >> 16, f);
+ if (n > (1 << 8)) fputc(v >> 8, f);
+ fputc(v, f);
+}
+
+int stb_fget_ranged(FILE *f, int b, stb_uint n)
+{
+ unsigned int v = 0;
+ if (n > (1 << 24)) v += stb_fgetc(f) << 24;
+ if (n > (1 << 16)) v += stb_fgetc(f) << 16;
+ if (n > (1 << 8)) v += stb_fgetc(f) << 8;
+ v += stb_fgetc(f);
+ return b + v;
+}
+
+int stb_size_ranged(int b, stb_uint n)
+{
+ if (n > (1 << 24)) return 4;
+ if (n > (1 << 16)) return 3;
+ if (n > (1 << 8)) return 2;
+ return 1;
+}
+
+void stb_fput_string(FILE *f, char *s)
+{
+ int len = strlen(s);
+ stb_fput_varlenu(f, len);
+ fwrite(s, 1, len, f);
+}
+
+// inverse of the above algorithm
+char *stb_fget_string(FILE *f, void *p)
+{
+ char *s;
+ int len = stb_fget_varlenu(f);
+ if (len > 4096) return NULL;
+ s = p ? stb_malloc_string(p, len + 1) : (char *)malloc(len + 1);
+ fread(s, 1, len, f);
+ s[len] = 0;
+ return s;
+}
+
+char *stb_strdup(char *str, void *pool)
+{
+ int len = strlen(str);
+ char *p = stb_malloc_string(pool, len + 1);
+ strcpy(p, str);
+ return p;
+}
+
+// strip the trailing '/' or '\\' from a directory so we can refer to it
+// as a file for _stat()
+char *stb_strip_final_slash(char *t)
+{
+ if (t[0]) {
+ char *z = t + strlen(t) - 1;
+ // *z is the last character
+ if (*z == '\\' || *z == '/')
+ if (z != t + 2 || t[1] != ':') // but don't strip it if it's e.g. "c:/"
+ *z = 0;
+ if (*z == '\\')
+ *z = '/'; // canonicalize to make sure it matches db
+ }
+ return t;
+}
+
+char *stb_strip_final_slash_regardless(char *t)
+{
+ if (t[0]) {
+ char *z = t + strlen(t) - 1;
+ // *z is the last character
+ if (*z == '\\' || *z == '/')
+ *z = 0;
+ if (*z == '\\')
+ *z = '/'; // canonicalize to make sure it matches db
+ }
+ return t;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Options parsing
+//
+
+STB_EXTERN char **stb_getopt_param(int *argc, char **argv, char *param);
+STB_EXTERN char **stb_getopt(int *argc, char **argv);
+STB_EXTERN void stb_getopt_free(char **opts);
+
+#ifdef STB_DEFINE
+
+void stb_getopt_free(char **opts)
+{
+ int i;
+ char ** o2 = opts;
+ for (i = 0; i < stb_arr_len(o2); ++i)
+ free(o2[i]);
+ stb_arr_free(o2);
+}
+
+char **stb_getopt(int *argc, char **argv)
+{
+ return stb_getopt_param(argc, argv, "");
+}
+
+char **stb_getopt_param(int *argc, char **argv, char *param)
+{
+ char ** opts = NULL;
+ int i, j = 1;
+ for (i = 1; i < *argc; ++i) {
+ if (argv[i][0] != '-') {
+ argv[j++] = argv[i];
+ }
+ else {
+ if (argv[i][1] == 0) { // plain - == don't parse further options
+ ++i;
+ while (i < *argc)
+ argv[j++] = argv[i++];
+ break;
+ }
+ else {
+ int k;
+ char *q = argv[i]; // traverse options list
+ for (k = 1; q[k]; ++k) {
+ char *s;
+ if (strchr(param, q[k])) { // does it take a parameter?
+ char *t = &q[k + 1], z = q[k];
+ int len = 0;
+ if (*t == 0) {
+ if (i == *argc - 1) { // takes a parameter, but none found
+ *argc = 0;
+ stb_getopt_free(opts);
+ return NULL;
+ }
+ t = argv[++i];
+ }
+ else
+ k += strlen(t);
+ len = strlen(t);
+ s = (char *)malloc(len + 2);
+ if (!s) return NULL;
+ s[0] = z;
+ strcpy(s + 1, t);
+ }
+ else {
+ // no parameter
+ s = (char *)malloc(2);
+ if (!s) return NULL;
+ s[0] = q[k];
+ s[1] = 0;
+ }
+ stb_arr_push(opts, s);
+ }
+ }
+ }
+ }
+ stb_arr_push(opts, NULL);
+ *argc = j;
+ return opts;
+}
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Portable directory reading
+//
+
+STB_EXTERN char **stb_readdir_files(char *dir);
+STB_EXTERN char **stb_readdir_files_mask(char *dir, char *wild);
+STB_EXTERN char **stb_readdir_subdirs(char *dir);
+STB_EXTERN char **stb_readdir_subdirs_mask(char *dir, char *wild);
+STB_EXTERN void stb_readdir_free(char **files);
+STB_EXTERN char **stb_readdir_recursive(char *dir, char *filespec);
+STB_EXTERN void stb_delete_directory_recursive(char *dir);
+
+#ifdef STB_DEFINE
+
+#ifdef _MSC_VER
+#include <io.h>
+#else
+#include <unistd.h>
+#include <dirent.h>
+#endif
+
+void stb_readdir_free(char **files)
+{
+ char **f2 = files;
+ int i;
+ for (i = 0; i < stb_arr_len(f2); ++i)
+ free(f2[i]);
+ stb_arr_free(f2);
+}
+
+static int isdotdirname(char *name)
+{
+ if (name[0] == '.')
+ return (name[1] == '.') ? !name[2] : !name[1];
+ return 0;
+}
+
+STB_EXTERN int stb_wildmatchi(char *expr, char *candidate);
+static char **readdir_raw(char *dir, int return_subdirs, char *mask)
+{
+ char **results = NULL;
+ char buffer[4096], with_slash[4096];
+ size_t n;
+
+#ifdef _MSC_VER
+ stb__wchar *ws;
+ struct _wfinddata_t data;
+#ifdef _WIN64
+ const intptr_t none = -1;
+ intptr_t z;
+#else
+ const long none = -1;
+ long z;
+#endif
+#else // !_MSC_VER
+ const DIR *none = NULL;
+ DIR *z;
+#endif
+
+ n = stb_strscpy(buffer, dir, sizeof(buffer));
+ if (!n || n >= sizeof(buffer))
+ return NULL;
+ stb_fixpath(buffer);
+ n--;
+
+ if (n > 0 && (buffer[n - 1] != '/')) {
+ buffer[n++] = '/';
+ }
+ buffer[n] = 0;
+ if (!stb_strscpy(with_slash, buffer, sizeof(with_slash)))
+ return NULL;
+
+#ifdef _MSC_VER
+ if (!stb_strscpy(buffer + n, "*.*", sizeof(buffer) - n))
+ return NULL;
+ ws = stb__from_utf8(buffer);
+ z = _wfindfirst((const wchar_t *)ws, &data);
+#else
+ z = opendir(dir);
+#endif
+
+ if (z != none) {
+ int nonempty = STB_TRUE;
+#ifndef _MSC_VER
+ struct dirent *data = readdir(z);
+ nonempty = (data != NULL);
+#endif
+
+ if (nonempty) {
+
+ do {
+ int is_subdir;
+#ifdef _MSC_VER
+ char *name = stb__to_utf8((stb__wchar *)data.name);
+ if (name == NULL) {
+ fprintf(stderr, "%s to convert '%S' to %s!\n", "Unable", data.name, "utf8");
+ continue;
+ }
+ is_subdir = !!(data.attrib & _A_SUBDIR);
+#else
+ char *name = data->d_name;
+ if (!stb_strscpy(buffer + n, name, sizeof(buffer) - n))
+ break;
+ // Could follow DT_LNK, but would need to check for recursive links.
+ is_subdir = !!(data->d_type & DT_DIR);
+#endif
+
+ if (is_subdir == return_subdirs) {
+ if (!is_subdir || !isdotdirname(name)) {
+ if (!mask || stb_wildmatchi(mask, name)) {
+ char buffer[4096], *p = buffer;
+ if (stb_snprintf(buffer, sizeof(buffer), "%s%s", with_slash, name) < 0)
+ break;
+ if (buffer[0] == '.' && buffer[1] == '/')
+ p = buffer + 2;
+ stb_arr_push(results, strdup(p));
+ }
+ }
+ }
+ }
+#ifdef _MSC_VER
+ while (0 == _wfindnext(z, &data));
+#else
+ while ((data = readdir(z)) != NULL);
+#endif
+ }
+#ifdef _MSC_VER
+ _findclose(z);
+#else
+ closedir(z);
+#endif
+ }
+ return results;
+}
+
+char **stb_readdir_files(char *dir) { return readdir_raw(dir, 0, NULL); }
+char **stb_readdir_subdirs(char *dir) { return readdir_raw(dir, 1, NULL); }
+char **stb_readdir_files_mask(char *dir, char *wild) { return readdir_raw(dir, 0, wild); }
+char **stb_readdir_subdirs_mask(char *dir, char *wild) { return readdir_raw(dir, 1, wild); }
+
+int stb__rec_max = 0x7fffffff;
+static char **stb_readdir_rec(char **sofar, char *dir, char *filespec)
+{
+ char **files;
+ char ** dirs;
+ char **p;
+
+ if (stb_arr_len(sofar) >= stb__rec_max) return sofar;
+
+ files = stb_readdir_files_mask(dir, filespec);
+ stb_arr_for(p, files) {
+ stb_arr_push(sofar, strdup(*p));
+ if (stb_arr_len(sofar) >= stb__rec_max) break;
+ }
+ stb_readdir_free(files);
+ if (stb_arr_len(sofar) >= stb__rec_max) return sofar;
+
+ dirs = stb_readdir_subdirs(dir);
+ stb_arr_for(p, dirs)
+ sofar = stb_readdir_rec(sofar, *p, filespec);
+ stb_readdir_free(dirs);
+ return sofar;
+}
+
+char **stb_readdir_recursive(char *dir, char *filespec)
+{
+ return stb_readdir_rec(NULL, dir, filespec);
+}
+
+void stb_delete_directory_recursive(char *dir)
+{
+ char **list = stb_readdir_subdirs(dir);
+ int i;
+ for (i = 0; i < stb_arr_len(list); ++i)
+ stb_delete_directory_recursive(list[i]);
+ stb_arr_free(list);
+ list = stb_readdir_files(dir);
+ for (i = 0; i < stb_arr_len(list); ++i)
+ if (!remove(list[i])) {
+ // on windows, try again after making it writeable; don't ALWAYS
+ // do this first since that would be slow in the normal case
+#ifdef _MSC_VER
+ _chmod(list[i], _S_IWRITE);
+ remove(list[i]);
+#endif
+ }
+ stb_arr_free(list);
+ stb__windows(_rmdir, rmdir)(dir);
+}
+
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// construct trees from filenames; useful for cmirror summaries
+
+typedef struct stb_dirtree2 stb_dirtree2;
+
+struct stb_dirtree2
+{
+ stb_dirtree2 **subdirs;
+
+ // make convenient for stb_summarize_tree
+ int num_subdir;
+ float weight;
+
+ // actual data
+ char *fullpath;
+ char *relpath;
+ char **files;
+};
+
+STB_EXTERN stb_dirtree2 *stb_dirtree2_from_files_relative(char *src, char **filelist, int count);
+STB_EXTERN stb_dirtree2 *stb_dirtree2_from_files(char **filelist, int count);
+STB_EXTERN int stb_dir_is_prefix(char *dir, int dirlen, char *file);
+
+#ifdef STB_DEFINE
+
+int stb_dir_is_prefix(char *dir, int dirlen, char *file)
+{
+ if (dirlen == 0) return STB_TRUE;
+ if (stb_strnicmp(dir, file, dirlen)) return STB_FALSE;
+ if (file[dirlen] == '/' || file[dirlen] == '\\') return STB_TRUE;
+ return STB_FALSE;
+}
+
+stb_dirtree2 *stb_dirtree2_from_files_relative(char *src, char **filelist, int count)
+{
+ char buffer1[1024];
+ int i;
+ int dlen = strlen(src), elen;
+ stb_dirtree2 *d;
+ char ** descendents = NULL;
+ char ** files = NULL;
+ char *s;
+ if (!count) return NULL;
+ // first find all the ones that belong here... note this is will take O(NM) with N files and M subdirs
+ for (i = 0; i < count; ++i) {
+ if (stb_dir_is_prefix(src, dlen, filelist[i])) {
+ stb_arr_push(descendents, filelist[i]);
+ }
+ }
+ if (descendents == NULL)
+ return NULL;
+ elen = dlen;
+ // skip a leading slash
+ if (elen == 0 && (descendents[0][0] == '/' || descendents[0][0] == '\\'))
+ ++elen;
+ else if (elen)
+ ++elen;
+ // now extract all the ones that have their root here
+ for (i = 0; i < stb_arr_len(descendents);) {
+ if (!stb_strchr2(descendents[i] + elen, '/', '\\')) {
+ stb_arr_push(files, descendents[i]);
+ descendents[i] = descendents[stb_arr_len(descendents) - 1];
+ stb_arr_pop(descendents);
+ }
+ else
+ ++i;
+ }
+ // now create a record
+ d = (stb_dirtree2 *)malloc(sizeof(*d));
+ d->files = files;
+ d->subdirs = NULL;
+ d->fullpath = strdup(src);
+ s = stb_strrchr2(d->fullpath, '/', '\\');
+ if (s)
+ ++s;
+ else
+ s = d->fullpath;
+ d->relpath = s;
+ // now create the children
+ qsort(descendents, stb_arr_len(descendents), sizeof(char *), stb_qsort_stricmp(0));
+ buffer1[0] = 0;
+ for (i = 0; i < stb_arr_len(descendents); ++i) {
+ char buffer2[1024];
+ char *s = descendents[i] + elen, *t;
+ t = stb_strchr2(s, '/', '\\');
+ assert(t);
+ stb_strncpy(buffer2, descendents[i], t - descendents[i] + 1);
+ if (stb_stricmp(buffer1, buffer2)) {
+ stb_dirtree2 *t = stb_dirtree2_from_files_relative(buffer2, descendents, stb_arr_len(descendents));
+ assert(t != NULL);
+ strcpy(buffer1, buffer2);
+ stb_arr_push(d->subdirs, t);
+ }
+ }
+ d->num_subdir = stb_arr_len(d->subdirs);
+ d->weight = 0;
+ return d;
+}
+
+stb_dirtree2 *stb_dirtree2_from_files(char **filelist, int count)
+{
+ return stb_dirtree2_from_files_relative("", filelist, count);
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Checksums: CRC-32, ADLER32, SHA-1
+//
+// CRC-32 and ADLER32 allow streaming blocks
+// SHA-1 requires either a complete buffer, max size 2^32 - 73
+// or it can checksum directly from a file, max 2^61
+
+#define STB_ADLER32_SEED 1
+#define STB_CRC32_SEED 0 // note that we logical NOT this in the code
+
+STB_EXTERN stb_uint
+stb_adler32(stb_uint adler32, stb_uchar *buffer, stb_uint buflen);
+STB_EXTERN stb_uint
+stb_crc32_block(stb_uint crc32, stb_uchar *buffer, stb_uint len);
+STB_EXTERN stb_uint stb_crc32(unsigned char *buffer, stb_uint len);
+
+STB_EXTERN void stb_sha1(
+ unsigned char output[20], unsigned char *buffer, unsigned int len);
+STB_EXTERN int stb_sha1_file(unsigned char output[20], char *file);
+
+STB_EXTERN void stb_sha1_readable(char display[27], unsigned char sha[20]);
+
+#ifdef STB_DEFINE
+stb_uint stb_crc32_block(stb_uint crc, unsigned char *buffer, stb_uint len)
+{
+ static stb_uint crc_table[256];
+ stb_uint i, j, s;
+ crc = ~crc;
+
+ if (crc_table[1] == 0)
+ for (i = 0; i < 256; i++) {
+ for (s = i, j = 0; j < 8; ++j)
+ s = (s >> 1) ^ (s & 1 ? 0xedb88320 : 0);
+ crc_table[i] = s;
+ }
+ for (i = 0; i < len; ++i)
+ crc = (crc >> 8) ^ crc_table[buffer[i] ^ (crc & 0xff)];
+ return ~crc;
+}
+
+stb_uint stb_crc32(unsigned char *buffer, stb_uint len)
+{
+ return stb_crc32_block(0, buffer, len);
+}
+
+stb_uint stb_adler32(stb_uint adler32, stb_uchar *buffer, stb_uint buflen)
+{
+ const unsigned long ADLER_MOD = 65521;
+ unsigned long s1 = adler32 & 0xffff, s2 = adler32 >> 16;
+ unsigned long blocklen, i;
+
+ blocklen = buflen % 5552;
+ while (buflen) {
+ for (i = 0; i + 7 < blocklen; i += 8) {
+ s1 += buffer[0], s2 += s1;
+ s1 += buffer[1], s2 += s1;
+ s1 += buffer[2], s2 += s1;
+ s1 += buffer[3], s2 += s1;
+ s1 += buffer[4], s2 += s1;
+ s1 += buffer[5], s2 += s1;
+ s1 += buffer[6], s2 += s1;
+ s1 += buffer[7], s2 += s1;
+
+ buffer += 8;
+ }
+
+ for (; i < blocklen; ++i)
+ s1 += *buffer++, s2 += s1;
+
+ s1 %= ADLER_MOD, s2 %= ADLER_MOD;
+ buflen -= blocklen;
+ blocklen = 5552;
+ }
+ return (s2 << 16) + s1;
+}
+
+static void stb__sha1(stb_uchar *chunk, stb_uint h[5])
+{
+ int i;
+ stb_uint a, b, c, d, e;
+ stb_uint w[80];
+
+ for (i = 0; i < 16; ++i)
+ w[i] = stb_big32(&chunk[i * 4]);
+ for (i = 16; i < 80; ++i) {
+ stb_uint t;
+ t = w[i - 3] ^ w[i - 8] ^ w[i - 14] ^ w[i - 16];
+ w[i] = (t + t) | (t >> 31);
+ }
+
+ a = h[0];
+ b = h[1];
+ c = h[2];
+ d = h[3];
+ e = h[4];
+
+#define STB__SHA1(k,f) \
+ { \
+ stb_uint temp = (a << 5) + (a >> 27) + (f) + e + (k) + w[i]; \
+ e = d; \
+ d = c; \
+ c = (b << 30) + (b >> 2); \
+ b = a; \
+ a = temp; \
+ }
+
+ i = 0;
+ for (; i < 20; ++i) STB__SHA1(0x5a827999, d ^ (b & (c ^ d)));
+ for (; i < 40; ++i) STB__SHA1(0x6ed9eba1, b ^ c ^ d);
+ for (; i < 60; ++i) STB__SHA1(0x8f1bbcdc, (b & c) + (d & (b ^ c)));
+ for (; i < 80; ++i) STB__SHA1(0xca62c1d6, b ^ c ^ d);
+
+#undef STB__SHA1
+
+ h[0] += a;
+ h[1] += b;
+ h[2] += c;
+ h[3] += d;
+ h[4] += e;
+}
+
+void stb_sha1(stb_uchar output[20], stb_uchar *buffer, stb_uint len)
+{
+ unsigned char final_block[128];
+ stb_uint end_start, final_len, j;
+ int i;
+
+ stb_uint h[5];
+
+ h[0] = 0x67452301;
+ h[1] = 0xefcdab89;
+ h[2] = 0x98badcfe;
+ h[3] = 0x10325476;
+ h[4] = 0xc3d2e1f0;
+
+ // we need to write padding to the last one or two
+ // blocks, so build those first into 'final_block'
+
+ // we have to write one special byte, plus the 8-byte length
+
+ // compute the block where the data runs out
+ end_start = len & ~63;
+
+ // compute the earliest we can encode the length
+ if (((len + 9) & ~63) == end_start) {
+ // it all fits in one block, so fill a second-to-last block
+ end_start -= 64;
+ }
+
+ final_len = end_start + 128;
+
+ // now we need to copy the data in
+ assert(end_start + 128 >= len + 9);
+ assert(end_start < len || len < 64 - 9);
+
+ j = 0;
+ if (end_start > len)
+ j = (stb_uint)-(int)end_start;
+
+ for (; end_start + j < len; ++j)
+ final_block[j] = buffer[end_start + j];
+ final_block[j++] = 0x80;
+ while (j < 128 - 5) // 5 byte length, so write 4 extra padding bytes
+ final_block[j++] = 0;
+ // big-endian size
+ final_block[j++] = len >> 29;
+ final_block[j++] = len >> 21;
+ final_block[j++] = len >> 13;
+ final_block[j++] = len >> 5;
+ final_block[j++] = len << 3;
+ assert(j == 128 && end_start + j == final_len);
+
+ for (j = 0; j < final_len; j += 64) { // 512-bit chunks
+ if (j + 64 >= end_start + 64)
+ stb__sha1(&final_block[j - end_start], h);
+ else
+ stb__sha1(&buffer[j], h);
+ }
+
+ for (i = 0; i < 5; ++i) {
+ output[i * 4 + 0] = h[i] >> 24;
+ output[i * 4 + 1] = h[i] >> 16;
+ output[i * 4 + 2] = h[i] >> 8;
+ output[i * 4 + 3] = h[i] >> 0;
+ }
+}
+
+#ifdef _MSC_VER
+int stb_sha1_file(stb_uchar output[20], char *file)
+{
+ int i;
+ stb_uint64 length = 0;
+ unsigned char buffer[128];
+
+ FILE *f = stb__fopen(file, "rb");
+ stb_uint h[5];
+
+ if (f == NULL) return 0; // file not found
+
+ h[0] = 0x67452301;
+ h[1] = 0xefcdab89;
+ h[2] = 0x98badcfe;
+ h[3] = 0x10325476;
+ h[4] = 0xc3d2e1f0;
+
+ for (;;) {
+ int n = fread(buffer, 1, 64, f);
+ if (n == 64) {
+ stb__sha1(buffer, h);
+ length += n;
+ }
+ else {
+ int block = 64;
+
+ length += n;
+
+ buffer[n++] = 0x80;
+
+ // if there isn't enough room for the length, double the block
+ if (n + 8 > 64)
+ block = 128;
+
+ // pad to end
+ memset(buffer + n, 0, block - 8 - n);
+
+ i = block - 8;
+ buffer[i++] = (stb_uchar)(length >> 53);
+ buffer[i++] = (stb_uchar)(length >> 45);
+ buffer[i++] = (stb_uchar)(length >> 37);
+ buffer[i++] = (stb_uchar)(length >> 29);
+ buffer[i++] = (stb_uchar)(length >> 21);
+ buffer[i++] = (stb_uchar)(length >> 13);
+ buffer[i++] = (stb_uchar)(length >> 5);
+ buffer[i++] = (stb_uchar)(length << 3);
+ assert(i == block);
+ stb__sha1(buffer, h);
+ if (block == 128)
+ stb__sha1(buffer + 64, h);
+ else
+ assert(block == 64);
+ break;
+ }
+ }
+ fclose(f);
+
+ for (i = 0; i < 5; ++i) {
+ output[i * 4 + 0] = h[i] >> 24;
+ output[i * 4 + 1] = h[i] >> 16;
+ output[i * 4 + 2] = h[i] >> 8;
+ output[i * 4 + 3] = h[i] >> 0;
+ }
+
+ return 1;
+}
+#endif // _MSC_VER
+
+// client can truncate this wherever they like
+void stb_sha1_readable(char display[27], unsigned char sha[20])
+{
+ char encoding[65] = "0123456789abcdefghijklmnopqrstuv"
+ "wxyzABCDEFGHIJKLMNOPQRSTUVWXYZ%$";
+ int num_bits = 0, acc = 0;
+ int i = 0, o = 0;
+ while (o < 26) {
+ int v;
+ // expand the accumulator
+ if (num_bits < 6) {
+ assert(i != 20);
+ acc += sha[i++] << num_bits;
+ num_bits += 8;
+ }
+ v = acc & ((1 << 6) - 1);
+ display[o++] = encoding[v];
+ acc >>= 6;
+ num_bits -= 6;
+ }
+ assert(num_bits == 20 * 8 - 26 * 6);
+ display[o++] = encoding[acc];
+}
+
+#endif // STB_DEFINE
+
+///////////////////////////////////////////////////////////
+//
+// simplified WINDOWS registry interface... hopefully
+// we'll never actually use this?
+
+#if defined(_WIN32)
+
+STB_EXTERN void * stb_reg_open(char *mode, char *where); // mode: "rHKLM" or "rHKCU" or "w.."
+STB_EXTERN void stb_reg_close(void *reg);
+STB_EXTERN int stb_reg_read(void *zreg, char *str, void *data, unsigned long len);
+STB_EXTERN int stb_reg_read_string(void *zreg, char *str, char *data, int len);
+STB_EXTERN void stb_reg_write(void *zreg, char *str, void *data, unsigned long len);
+STB_EXTERN void stb_reg_write_string(void *zreg, char *str, char *data);
+
+#if defined(STB_DEFINE) && !defined(STB_NO_REGISTRY)
+
+#define STB_HAS_REGISTRY
+
+#ifndef _WINDOWS_
+
+#define HKEY void *
+
+STB_EXTERN __declspec(dllimport) long __stdcall RegCloseKey(HKEY hKey);
+STB_EXTERN __declspec(dllimport) long __stdcall RegCreateKeyExA(HKEY hKey, const char * lpSubKey,
+ int Reserved, char * lpClass, int dwOptions,
+ int samDesired, void *lpSecurityAttributes, HKEY * phkResult, int * lpdwDisposition);
+STB_EXTERN __declspec(dllimport) long __stdcall RegDeleteKeyA(HKEY hKey, const char * lpSubKey);
+STB_EXTERN __declspec(dllimport) long __stdcall RegQueryValueExA(HKEY hKey, const char * lpValueName,
+ int * lpReserved, unsigned long * lpType, unsigned char * lpData, unsigned long * lpcbData);
+STB_EXTERN __declspec(dllimport) long __stdcall RegSetValueExA(HKEY hKey, const char * lpValueName,
+ int Reserved, int dwType, const unsigned char* lpData, int cbData);
+STB_EXTERN __declspec(dllimport) long __stdcall RegOpenKeyExA(HKEY hKey, const char * lpSubKey,
+ int ulOptions, int samDesired, HKEY * phkResult);
+
+#endif // _WINDOWS_
+
+#define STB__REG_OPTION_NON_VOLATILE 0
+#define STB__REG_KEY_ALL_ACCESS 0x000f003f
+#define STB__REG_KEY_READ 0x00020019
+
+void *stb_reg_open(char *mode, char *where)
+{
+ long res;
+ HKEY base;
+ HKEY zreg;
+ if (!stb_stricmp(mode + 1, "cu") || !stb_stricmp(mode + 1, "hkcu"))
+ base = (HKEY)0x80000001; // HKCU
+ else if (!stb_stricmp(mode + 1, "lm") || !stb_stricmp(mode + 1, "hklm"))
+ base = (HKEY)0x80000002; // HKLM
+ else
+ return NULL;
+
+ if (mode[0] == 'r')
+ res = RegOpenKeyExA(base, where, 0, STB__REG_KEY_READ, &zreg);
+ else if (mode[0] == 'w')
+ res = RegCreateKeyExA(base, where, 0, NULL, STB__REG_OPTION_NON_VOLATILE, STB__REG_KEY_ALL_ACCESS, NULL, &zreg, NULL);
+ else
+ return NULL;
+
+ return res ? NULL : zreg;
+}
+
+void stb_reg_close(void *reg)
+{
+ RegCloseKey((HKEY)reg);
+}
+
+#define STB__REG_SZ 1
+#define STB__REG_BINARY 3
+#define STB__REG_DWORD 4
+
+int stb_reg_read(void *zreg, char *str, void *data, unsigned long len)
+{
+ unsigned long type;
+ unsigned long alen = len;
+ if (0 == RegQueryValueExA((HKEY)zreg, str, 0, &type, (unsigned char *)data, &len))
+ if (type == STB__REG_BINARY || type == STB__REG_SZ || type == STB__REG_DWORD) {
+ if (len < alen)
+ *((char *)data + len) = 0;
+ return 1;
+ }
+ return 0;
+}
+
+void stb_reg_write(void *zreg, char *str, void *data, unsigned long len)
+{
+ if (zreg)
+ RegSetValueExA((HKEY)zreg, str, 0, STB__REG_BINARY, (const unsigned char *)data, len);
+}
+
+int stb_reg_read_string(void *zreg, char *str, char *data, int len)
+{
+ if (!stb_reg_read(zreg, str, data, len)) return 0;
+ data[len - 1] = 0; // force a 0 at the end of the string no matter what
+ return 1;
+}
+
+void stb_reg_write_string(void *zreg, char *str, char *data)
+{
+ if (zreg)
+ RegSetValueExA((HKEY)zreg, str, 0, STB__REG_SZ, (const unsigned char *)data, strlen(data) + 1);
+}
+#endif // STB_DEFINE
+#endif // _WIN32
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_cfg - This is like the registry, but the config info
+// is all stored in plain old files where we can
+// backup and restore them easily. The LOCATION of
+// the config files is gotten from... the registry!
+
+#ifndef STB_NO_STB_STRINGS
+typedef struct stb_cfg_st stb_cfg;
+
+STB_EXTERN stb_cfg * stb_cfg_open(char *config, char *mode); // mode = "r", "w"
+STB_EXTERN void stb_cfg_close(stb_cfg *cfg);
+STB_EXTERN int stb_cfg_read(stb_cfg *cfg, char *key, void *value, int len);
+STB_EXTERN void stb_cfg_write(stb_cfg *cfg, char *key, void *value, int len);
+STB_EXTERN int stb_cfg_read_string(stb_cfg *cfg, char *key, char *value, int len);
+STB_EXTERN void stb_cfg_write_string(stb_cfg *cfg, char *key, char *value);
+STB_EXTERN int stb_cfg_delete(stb_cfg *cfg, char *key);
+STB_EXTERN void stb_cfg_set_directory(char *dir);
+
+#ifdef STB_DEFINE
+
+typedef struct
+{
+ char *key;
+ void *value;
+ int value_len;
+} stb__cfg_item;
+
+struct stb_cfg_st
+{
+ stb__cfg_item *data;
+ char *loaded_file; // this needs to be freed
+ FILE *f; // write the data to this file on close
+};
+
+static char *stb__cfg_sig = "sTbCoNfIg!\0\0";
+static char stb__cfg_dir[512];
+STB_EXTERN void stb_cfg_set_directory(char *dir)
+{
+ strcpy(stb__cfg_dir, dir);
+}
+
+STB_EXTERN stb_cfg * stb_cfg_open(char *config, char *mode)
+{
+ size_t len;
+ stb_cfg *z;
+ char file[512];
+ if (mode[0] != 'r' && mode[0] != 'w') return NULL;
+
+ if (!stb__cfg_dir[0]) {
+#ifdef _WIN32
+ strcpy(stb__cfg_dir, "c:/stb");
+#else
+ strcpy(stb__cfg_dir, "~/.stbconfig");
+#endif
+
+#ifdef STB_HAS_REGISTRY
+ {
+ void *reg = stb_reg_open("rHKLM", "Software\\SilverSpaceship\\stb");
+ if (reg) {
+ stb_reg_read_string(reg, "config_dir", stb__cfg_dir, sizeof(stb__cfg_dir));
+ stb_reg_close(reg);
+ }
+ }
+#endif
+ }
+
+ sprintf(file, "%s/%s.cfg", stb__cfg_dir, config);
+
+ z = (stb_cfg *)stb_malloc(0, sizeof(*z));
+ z->data = NULL;
+
+ z->loaded_file = stb_filec(file, &len);
+ if (z->loaded_file) {
+ char *s = z->loaded_file;
+ if (!memcmp(s, stb__cfg_sig, 12)) {
+ char *s = z->loaded_file + 12;
+ while (s < z->loaded_file + len) {
+ stb__cfg_item a;
+ int n = *(stb_int16 *)s;
+ a.key = s + 2;
+ s = s + 2 + n;
+ a.value_len = *(int *)s;
+ s += 4;
+ a.value = s;
+ s += a.value_len;
+ stb_arr_push(z->data, a);
+ }
+ assert(s == z->loaded_file + len);
+ }
+ }
+
+ if (mode[0] == 'w')
+ z->f = fopen(file, "wb");
+ else
+ z->f = NULL;
+
+ return z;
+}
+
+void stb_cfg_close(stb_cfg *z)
+{
+ if (z->f) {
+ int i;
+ // write the file out
+ fwrite(stb__cfg_sig, 12, 1, z->f);
+ for (i = 0; i < stb_arr_len(z->data); ++i) {
+ stb_int16 n = strlen(z->data[i].key) + 1;
+ fwrite(&n, 2, 1, z->f);
+ fwrite(z->data[i].key, n, 1, z->f);
+ fwrite(&z->data[i].value_len, 4, 1, z->f);
+ fwrite(z->data[i].value, z->data[i].value_len, 1, z->f);
+ }
+ fclose(z->f);
+ }
+ stb_arr_free(z->data);
+ stb_free(z);
+}
+
+int stb_cfg_read(stb_cfg *z, char *key, void *value, int len)
+{
+ int i;
+ for (i = 0; i < stb_arr_len(z->data); ++i) {
+ if (!stb_stricmp(z->data[i].key, key)) {
+ int n = stb_min(len, z->data[i].value_len);
+ memcpy(value, z->data[i].value, n);
+ if (n < len)
+ *((char *)value + n) = 0;
+ return 1;
+ }
+ }
+ return 0;
+}
+
+void stb_cfg_write(stb_cfg *z, char *key, void *value, int len)
+{
+ int i;
+ for (i = 0; i < stb_arr_len(z->data); ++i)
+ if (!stb_stricmp(z->data[i].key, key))
+ break;
+ if (i == stb_arr_len(z->data)) {
+ stb__cfg_item p;
+ p.key = stb_strdup(key, z);
+ p.value = NULL;
+ p.value_len = 0;
+ stb_arr_push(z->data, p);
+ }
+ z->data[i].value = stb_malloc(z, len);
+ z->data[i].value_len = len;
+ memcpy(z->data[i].value, value, len);
+}
+
+int stb_cfg_delete(stb_cfg *z, char *key)
+{
+ int i;
+ for (i = 0; i < stb_arr_len(z->data); ++i)
+ if (!stb_stricmp(z->data[i].key, key)) {
+ stb_arr_fastdelete(z->data, i);
+ return 1;
+ }
+ return 0;
+}
+
+int stb_cfg_read_string(stb_cfg *z, char *key, char *value, int len)
+{
+ if (!stb_cfg_read(z, key, value, len)) return 0;
+ value[len - 1] = 0;
+ return 1;
+}
+
+void stb_cfg_write_string(stb_cfg *z, char *key, char *value)
+{
+ stb_cfg_write(z, key, value, strlen(value) + 1);
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_dirtree - load a description of a directory tree
+// uses a cache and stat()s the directories for changes
+// MUCH faster on NTFS, _wrong_ on FAT32, so should
+// ignore the db on FAT32
+
+#ifdef _WIN32
+
+typedef struct
+{
+ char * path; // full path from passed-in root
+ time_t last_modified;
+ int num_files;
+ int flag;
+} stb_dirtree_dir;
+
+typedef struct
+{
+ char *name; // name relative to path
+ int dir; // index into dirs[] array
+ stb_int64 size; // size, max 4GB
+ time_t last_modified;
+ int flag;
+} stb_dirtree_file;
+
+typedef struct
+{
+ stb_dirtree_dir *dirs;
+ stb_dirtree_file *files;
+
+ // internal use
+ void * string_pool; // used to free data en masse
+} stb_dirtree;
+
+extern void stb_dirtree_free(stb_dirtree *d);
+extern stb_dirtree *stb_dirtree_get(char *dir);
+extern stb_dirtree *stb_dirtree_get_dir(char *dir, char *cache_dir);
+extern stb_dirtree *stb_dirtree_get_with_file(char *dir, char *cache_file);
+
+// get a list of all the files recursively underneath 'dir'
+//
+// cache_file is used to store a copy of the directory tree to speed up
+// later calls. It must be unique to 'dir' and the current working
+// directory! Otherwise who knows what will happen (a good solution
+// is to put it _in_ dir, but this API doesn't force that).
+//
+// Also, it might be possible to break this if you have two different processes
+// do a call to stb_dirtree_get() with the same cache file at about the same
+// time, but I _think_ it might just work.
+
+// i needed to build an identical data structure representing the state of
+// a mirrored copy WITHOUT bothering to rescan it (i.e. we're mirroring to
+// it WITHOUT scanning it, e.g. it's over the net), so this requires access
+// to all of the innards.
+extern void stb_dirtree_db_add_dir(stb_dirtree *active, char *path, time_t last);
+extern void stb_dirtree_db_add_file(stb_dirtree *active, char *name, int dir, stb_int64 size, time_t last);
+extern void stb_dirtree_db_read(stb_dirtree *target, char *filename, char *dir);
+extern void stb_dirtree_db_write(stb_dirtree *target, char *filename, char *dir);
+
+#ifdef STB_DEFINE
+static void stb__dirtree_add_dir(char *path, time_t last, stb_dirtree *active)
+{
+ stb_dirtree_dir d;
+ d.last_modified = last;
+ d.num_files = 0;
+ d.path = stb_strdup(path, active->string_pool);
+ stb_arr_push(active->dirs, d);
+}
+
+static void stb__dirtree_add_file(char *name, int dir, stb_int64 size, time_t last, stb_dirtree *active)
+{
+ stb_dirtree_file f;
+ f.dir = dir;
+ f.size = size;
+ f.last_modified = last;
+ f.name = stb_strdup(name, active->string_pool);
+ ++active->dirs[dir].num_files;
+ stb_arr_push(active->files, f);
+}
+
+// version 02 supports > 4GB files
+static char stb__signature[12] = { 's', 'T', 'b', 'D', 'i', 'R', 't', 'R', 'e', 'E', '0', '2' };
+
+static void stb__dirtree_save_db(char *filename, stb_dirtree *data, char *root)
+{
+ int i, num_dirs_final = 0, num_files_final;
+ char *info = root ? root : "";
+ int *remap;
+ FILE *f = fopen(filename, "wb");
+ if (!f) return;
+
+ fwrite(stb__signature, sizeof(stb__signature), 1, f);
+ fwrite(info, strlen(info) + 1, 1, f);
+ // need to be slightly tricky and not write out NULLed directories, nor the root
+
+ // build remapping table of all dirs we'll be writing out
+ remap = (int *)malloc(sizeof(remap[0]) * stb_arr_len(data->dirs));
+ for (i = 0; i < stb_arr_len(data->dirs); ++i) {
+ if (data->dirs[i].path == NULL || (root && 0 == stb_stricmp(data->dirs[i].path, root))) {
+ remap[i] = -1;
+ }
+ else {
+ remap[i] = num_dirs_final++;
+ }
+ }
+
+ fwrite(&num_dirs_final, 4, 1, f);
+ for (i = 0; i < stb_arr_len(data->dirs); ++i) {
+ if (remap[i] >= 0) {
+ fwrite(&data->dirs[i].last_modified, 4, 1, f);
+ stb_fput_string(f, data->dirs[i].path);
+ }
+ }
+
+ num_files_final = 0;
+ for (i = 0; i < stb_arr_len(data->files); ++i)
+ if (remap[data->files[i].dir] >= 0 && data->files[i].name)
+ ++num_files_final;
+
+ fwrite(&num_files_final, 4, 1, f);
+ for (i = 0; i < stb_arr_len(data->files); ++i) {
+ if (remap[data->files[i].dir] >= 0 && data->files[i].name) {
+ stb_fput_ranged(f, remap[data->files[i].dir], 0, num_dirs_final);
+ stb_fput_varlen64(f, data->files[i].size);
+ fwrite(&data->files[i].last_modified, 4, 1, f);
+ stb_fput_string(f, data->files[i].name);
+ }
+ }
+
+ fclose(f);
+}
+
+// note: stomps any existing data, rather than appending
+static void stb__dirtree_load_db(char *filename, stb_dirtree *data, char *dir)
+{
+ char sig[2048];
+ int i, n;
+ FILE *f = fopen(filename, "rb");
+
+ if (!f) return;
+
+ data->string_pool = stb_malloc(0, 1);
+
+ fread(sig, sizeof(stb__signature), 1, f);
+ if (memcmp(stb__signature, sig, sizeof(stb__signature))) { fclose(f); return; }
+ if (!fread(sig, strlen(dir) + 1, 1, f)) { fclose(f); return; }
+ if (stb_stricmp(sig, dir)) { fclose(f); return; }
+
+ // we can just read them straight in, because they're guaranteed to be valid
+ fread(&n, 4, 1, f);
+ stb_arr_setlen(data->dirs, n);
+ for (i = 0; i < stb_arr_len(data->dirs); ++i) {
+ fread(&data->dirs[i].last_modified, 4, 1, f);
+ data->dirs[i].path = stb_fget_string(f, data->string_pool);
+ if (data->dirs[i].path == NULL) goto bail;
+ }
+ fread(&n, 4, 1, f);
+ stb_arr_setlen(data->files, n);
+ for (i = 0; i < stb_arr_len(data->files); ++i) {
+ data->files[i].dir = stb_fget_ranged(f, 0, stb_arr_len(data->dirs));
+ data->files[i].size = stb_fget_varlen64(f);
+ fread(&data->files[i].last_modified, 4, 1, f);
+ data->files[i].name = stb_fget_string(f, data->string_pool);
+ if (data->files[i].name == NULL) goto bail;
+ }
+
+ if (0) {
+ bail:
+ stb_arr_free(data->dirs);
+ stb_arr_free(data->files);
+ }
+ fclose(f);
+}
+
+static int stb__dircount, stb__dircount_mask, stb__showfile;
+static void stb__dirtree_scandir(char *path, time_t last_time, stb_dirtree *active)
+{
+ // this is dumb depth first; theoretically it might be faster
+ // to fully traverse each directory before visiting its children,
+ // but it's complicated and didn't seem like a gain in the test app
+
+ int n;
+
+ struct _wfinddatai64_t c_file;
+ long hFile;
+ stb__wchar full_path[1024];
+ int has_slash;
+ if (stb__showfile) printf("<");
+
+ has_slash = (path[0] && path[strlen(path) - 1] == '/');
+
+ // @TODO: do this concatenation without using swprintf to avoid this mess:
+#if defined(_MSC_VER) && _MSC_VER < 1400
+ if (has_slash)
+ swprintf(full_path, L"%s*", stb__from_utf8(path));
+ else
+ swprintf(full_path, L"%s/*", stb__from_utf8(path));
+#else
+ if (has_slash)
+ swprintf(full_path, 1024, L"%s*", stb__from_utf8(path));
+ else
+ swprintf(full_path, 1024, L"%s/*", stb__from_utf8(path));
+#endif
+
+ // it's possible this directory is already present: that means it was in the
+ // cache, but its parent wasn't... in that case, we're done with it
+ if (stb__showfile) printf("C[%d]", stb_arr_len(active->dirs));
+ for (n = 0; n < stb_arr_len(active->dirs); ++n)
+ if (0 == stb_stricmp(active->dirs[n].path, path)) {
+ if (stb__showfile) printf("D");
+ return;
+ }
+ if (stb__showfile) printf("E");
+
+ // otherwise, we need to add it
+ stb__dirtree_add_dir(path, last_time, active);
+ n = stb_arr_lastn(active->dirs);
+
+ if (stb__showfile) printf("[");
+ if ((hFile = _wfindfirsti64(full_path, &c_file)) != -1L) {
+ do {
+ if (stb__showfile) printf(")");
+ if (c_file.attrib & _A_SUBDIR) {
+ // ignore subdirectories starting with '.', e.g. "." and ".."
+ if (c_file.name[0] != '.') {
+ char *new_path = (char *)full_path;
+ char *temp = stb__to_utf8(c_file.name);
+
+ if (has_slash)
+ sprintf(new_path, "%s%s", path, temp);
+ else
+ sprintf(new_path, "%s/%s", path, temp);
+
+ if (stb__dircount_mask) {
+ ++stb__dircount;
+ if (!(stb__dircount & stb__dircount_mask)) {
+ printf("%s\r", new_path);
+ }
+ }
+
+ stb__dirtree_scandir(new_path, c_file.time_write, active);
+ }
+ }
+ else {
+ char *temp = stb__to_utf8(c_file.name);
+ stb__dirtree_add_file(temp, n, c_file.size, c_file.time_write, active);
+ }
+ if (stb__showfile) printf("(");
+ } while (_wfindnexti64(hFile, &c_file) == 0);
+ if (stb__showfile) printf("]");
+ _findclose(hFile);
+ }
+ if (stb__showfile) printf(">\n");
+}
+
+// scan the database and see if it's all valid
+static int stb__dirtree_update_db(stb_dirtree *db, stb_dirtree *active)
+{
+ int changes_detected = STB_FALSE;
+ int i;
+ int *remap;
+ int *rescan = NULL;
+ remap = (int *)malloc(sizeof(remap[0]) * stb_arr_len(db->dirs));
+ memset(remap, 0, sizeof(remap[0]) * stb_arr_len(db->dirs));
+ rescan = NULL;
+
+ for (i = 0; i < stb_arr_len(db->dirs); ++i) {
+ struct _stat info;
+ if (stb__dircount_mask) {
+ ++stb__dircount;
+ if (!(stb__dircount & stb__dircount_mask)) {
+ printf(".");
+ }
+ }
+ if (0 == _stat(db->dirs[i].path, &info)) {
+ if (info.st_mode & _S_IFDIR) {
+ // it's still a directory, as expected
+ int n = abs(info.st_mtime - db->dirs[i].last_modified);
+ if (n > 1 && n != 3600) { // the 3600 is a hack because sometimes this jumps for no apparent reason, even when no time zone or DST issues are at play
+ // it's changed! force a rescan
+ // we don't want to scan it until we've stat()d its
+ // subdirs, though, so we queue it
+ if (stb__showfile) printf("Changed: %s - %08x:%08x\n", db->dirs[i].path, db->dirs[i].last_modified, info.st_mtime);
+ stb_arr_push(rescan, i);
+ // update the last_mod time
+ db->dirs[i].last_modified = info.st_mtime;
+ // ignore existing files in this dir
+ remap[i] = -1;
+ changes_detected = STB_TRUE;
+ }
+ else {
+ // it hasn't changed, just copy it through unchanged
+ stb__dirtree_add_dir(db->dirs[i].path, db->dirs[i].last_modified, active);
+ remap[i] = stb_arr_lastn(active->dirs);
+ }
+ }
+ else {
+ // this path used to refer to a directory, but now it's a file!
+ // assume that the parent directory is going to be forced to rescan anyway
+ goto delete_entry;
+ }
+ }
+ else {
+ delete_entry:
+ // directory no longer exists, so don't copy it
+ // we don't free it because it's in the string pool now
+ db->dirs[i].path = NULL;
+ remap[i] = -1;
+ changes_detected = STB_TRUE;
+ }
+ }
+
+ // at this point, we have:
+ //
+ // <rescan> holds a list of directory indices that need to be scanned due to being out of date
+ // <remap> holds the directory index in <active> for each dir in <db>, if it exists; -1 if not
+ // directories in <rescan> are not in <active> yet
+
+ // so we can go ahead and remap all the known files right now
+ for (i = 0; i < stb_arr_len(db->files); ++i) {
+ int dir = db->files[i].dir;
+ if (remap[dir] >= 0) {
+ stb__dirtree_add_file(db->files[i].name, remap[dir], db->files[i].size, db->files[i].last_modified, active);
+ }
+ }
+
+ // at this point we're done with db->files, and done with remap
+ free(remap);
+
+ // now scan those directories using the standard scan
+ for (i = 0; i < stb_arr_len(rescan); ++i) {
+ int z = rescan[i];
+ stb__dirtree_scandir(db->dirs[z].path, db->dirs[z].last_modified, active);
+ }
+ stb_arr_free(rescan);
+
+ return changes_detected;
+}
+
+static void stb__dirtree_free_raw(stb_dirtree *d)
+{
+ stb_free(d->string_pool);
+ stb_arr_free(d->dirs);
+ stb_arr_free(d->files);
+}
+
+stb_dirtree *stb_dirtree_get_with_file(char *dir, char *cache_file)
+{
+ stb_dirtree *output = (stb_dirtree *)malloc(sizeof(*output));
+ stb_dirtree db, active;
+ int prev_dir_count, cache_mismatch;
+
+ char *stripped_dir; // store the directory name without a trailing '/' or '\\'
+
+ // load the database of last-known state on disk
+ db.string_pool = NULL;
+ db.files = NULL;
+ db.dirs = NULL;
+
+ stripped_dir = stb_strip_final_slash(strdup(dir));
+
+ if (cache_file != NULL)
+ stb__dirtree_load_db(cache_file, &db, stripped_dir);
+ else if (stb__showfile)
+ printf("No cache file\n");
+
+ active.files = NULL;
+ active.dirs = NULL;
+ active.string_pool = stb_malloc(0, 1); // @TODO: share string pools between both?
+
+ // check all the directories in the database; make note if
+ // anything we scanned had changed, and rescan those things
+ cache_mismatch = stb__dirtree_update_db(&db, &active);
+
+ // check the root tree
+ prev_dir_count = stb_arr_len(active.dirs); // record how many directories we've seen
+
+ stb__dirtree_scandir(stripped_dir, 0, &active); // no last_modified time available for root
+
+ if (stb__dircount_mask)
+ printf(" \r");
+
+ // done with the DB; write it back out if any changes, i.e. either
+ // 1. any inconsistency found between cached information and actual disk
+ // or 2. if scanning the root found any new directories--which we detect because
+ // more than one directory got added to the active db during that scan
+ if (cache_mismatch || stb_arr_len(active.dirs) > prev_dir_count + 1)
+ stb__dirtree_save_db(cache_file, &active, stripped_dir);
+
+ free(stripped_dir);
+
+ stb__dirtree_free_raw(&db);
+
+ *output = active;
+ return output;
+}
+
+stb_dirtree *stb_dirtree_get_dir(char *dir, char *cache_dir)
+{
+ int i;
+ stb_uint8 sha[20];
+ char dir_lower[1024];
+ char cache_file[1024], *s;
+ if (cache_dir == NULL)
+ return stb_dirtree_get_with_file(dir, NULL);
+ strcpy(dir_lower, dir);
+ stb_tolower(dir_lower);
+ stb_sha1(sha, (unsigned char *)dir_lower, strlen(dir_lower));
+ strcpy(cache_file, cache_dir);
+ s = cache_file + strlen(cache_file);
+ if (s[-1] != '//' && s[-1] != '\\') *s++ = '/';
+ strcpy(s, "dirtree_");
+ s += strlen(s);
+ for (i = 0; i < 8; ++i) {
+ char *hex = "0123456789abcdef";
+ stb_uint z = sha[i];
+ *s++ = hex[z >> 4];
+ *s++ = hex[z & 15];
+ }
+ strcpy(s, ".bin");
+ return stb_dirtree_get_with_file(dir, cache_file);
+}
+
+stb_dirtree *stb_dirtree_get(char *dir)
+{
+ char cache_dir[256];
+ strcpy(cache_dir, "c:/stb");
+#ifdef STB_HAS_REGISTRY
+ {
+ void *reg = stb_reg_open("rHKLM", "Software\\SilverSpaceship\\stb");
+ if (reg) {
+ stb_reg_read(reg, "dirtree", cache_dir, sizeof(cache_dir));
+ stb_reg_close(reg);
+ }
+ }
+#endif
+ return stb_dirtree_get_dir(dir, cache_dir);
+}
+
+void stb_dirtree_free(stb_dirtree *d)
+{
+ stb__dirtree_free_raw(d);
+ free(d);
+}
+
+void stb_dirtree_db_add_dir(stb_dirtree *active, char *path, time_t last)
+{
+ stb__dirtree_add_dir(path, last, active);
+}
+
+void stb_dirtree_db_add_file(stb_dirtree *active, char *name, int dir, stb_int64 size, time_t last)
+{
+ stb__dirtree_add_file(name, dir, size, last, active);
+}
+
+void stb_dirtree_db_read(stb_dirtree *target, char *filename, char *dir)
+{
+ char *s = stb_strip_final_slash(strdup(dir));
+ target->dirs = 0;
+ target->files = 0;
+ target->string_pool = 0;
+ stb__dirtree_load_db(filename, target, s);
+ free(s);
+}
+
+void stb_dirtree_db_write(stb_dirtree *target, char *filename, char *dir)
+{
+ stb__dirtree_save_db(filename, target, 0); // don't strip out any directories
+}
+
+#endif // STB_DEFINE
+
+#endif // _WIN32
+#endif // STB_NO_STB_STRINGS
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// STB_MALLOC_WRAPPER
+//
+// you can use the wrapper functions with your own malloc wrapper,
+// or define STB_MALLOC_WRAPPER project-wide to have
+// malloc/free/realloc/strdup all get vectored to it
+
+// this has too many very specific error messages you could google for and find in stb.h,
+// so don't use it if they don't want any stb.h-identifiable strings
+#if defined(STB_DEFINE) && !defined(STB_NO_STB_STRINGS)
+
+typedef struct
+{
+ void *p;
+ char *file;
+ int line;
+ int size;
+} stb_malloc_record;
+
+#ifndef STB_MALLOC_HISTORY_COUNT
+#define STB_MALLOC_HISTORY_COUNT 50 // 800 bytes
+#endif
+
+stb_malloc_record *stb__allocations;
+static int stb__alloc_size, stb__alloc_limit, stb__alloc_mask;
+int stb__alloc_count;
+
+stb_malloc_record stb__alloc_history[STB_MALLOC_HISTORY_COUNT];
+int stb__history_pos;
+
+static int stb__hashfind(void *p)
+{
+ stb_uint32 h = stb_hashptr(p);
+ int s, n = h & stb__alloc_mask;
+ if (stb__allocations[n].p == p)
+ return n;
+ s = stb_rehash(h) | 1;
+ for (;;) {
+ if (stb__allocations[n].p == NULL)
+ return -1;
+ n = (n + s) & stb__alloc_mask;
+ if (stb__allocations[n].p == p)
+ return n;
+ }
+}
+
+int stb_wrapper_allocsize(void *p)
+{
+ int n = stb__hashfind(p);
+ if (n < 0) return 0;
+ return stb__allocations[n].size;
+}
+
+static int stb__historyfind(void *p)
+{
+ int n = stb__history_pos;
+ int i;
+ for (i = 0; i < STB_MALLOC_HISTORY_COUNT; ++i) {
+ if (--n < 0) n = STB_MALLOC_HISTORY_COUNT - 1;
+ if (stb__alloc_history[n].p == p)
+ return n;
+ }
+ return -1;
+}
+
+static void stb__add_alloc(void *p, int sz, char *file, int line);
+static void stb__grow_alloc(void)
+{
+ int i, old_num = stb__alloc_size;
+ stb_malloc_record *old = stb__allocations;
+ if (stb__alloc_size == 0)
+ stb__alloc_size = 64;
+ else
+ stb__alloc_size *= 2;
+
+ stb__allocations = (stb_malloc_record *)stb__realloc_raw(NULL, stb__alloc_size * sizeof(stb__allocations[0]));
+ if (stb__allocations == NULL)
+ stb_fatal("Internal error: couldn't grow malloc wrapper table");
+ memset(stb__allocations, 0, stb__alloc_size * sizeof(stb__allocations[0]));
+ stb__alloc_limit = (stb__alloc_size * 3) >> 2;
+ stb__alloc_mask = stb__alloc_size - 1;
+
+ stb__alloc_count = 0;
+
+ for (i = 0; i < old_num; ++i)
+ if (old[i].p > STB_DEL) {
+ stb__add_alloc(old[i].p, old[i].size, old[i].file, old[i].line);
+ assert(stb__hashfind(old[i].p) >= 0);
+ }
+ for (i = 0; i < old_num; ++i)
+ if (old[i].p > STB_DEL)
+ assert(stb__hashfind(old[i].p) >= 0);
+ stb__realloc_raw(old, 0);
+}
+
+static void stb__add_alloc(void *p, int sz, char *file, int line)
+{
+ stb_uint32 h;
+ int n;
+ if (stb__alloc_count >= stb__alloc_limit)
+ stb__grow_alloc();
+ h = stb_hashptr(p);
+ n = h & stb__alloc_mask;
+ if (stb__allocations[n].p > STB_DEL) {
+ int s = stb_rehash(h) | 1;
+ do {
+ n = (n + s) & stb__alloc_mask;
+ } while (stb__allocations[n].p > STB_DEL);
+ }
+ assert(stb__allocations[n].p == NULL || stb__allocations[n].p == STB_DEL);
+ stb__allocations[n].p = p;
+ stb__allocations[n].size = sz;
+ stb__allocations[n].line = line;
+ stb__allocations[n].file = file;
+ ++stb__alloc_count;
+}
+
+static void stb__remove_alloc(int n, char *file, int line)
+{
+ stb__alloc_history[stb__history_pos] = stb__allocations[n];
+ stb__alloc_history[stb__history_pos].file = file;
+ stb__alloc_history[stb__history_pos].line = line;
+ if (++stb__history_pos == STB_MALLOC_HISTORY_COUNT)
+ stb__history_pos = 0;
+ stb__allocations[n].p = STB_DEL;
+ --stb__alloc_count;
+}
+
+void stb_wrapper_malloc(void *p, int sz, char *file, int line)
+{
+ if (!p) return;
+ stb__add_alloc(p, sz, file, line);
+}
+
+void stb_wrapper_free(void *p, char *file, int line)
+{
+ int n;
+
+ if (p == NULL) return;
+
+ n = stb__hashfind(p);
+
+ if (n >= 0)
+ stb__remove_alloc(n, file, line);
+ else {
+ // tried to free something we hadn't allocated!
+ n = stb__historyfind(p);
+ assert(0); /* NOTREACHED */
+ if (n >= 0)
+ stb_fatal("Attempted to free %d-byte block %p at %s:%d previously freed/realloced at %s:%d",
+ stb__alloc_history[n].size, p,
+ file, line,
+ stb__alloc_history[n].file, stb__alloc_history[n].line);
+ else
+ stb_fatal("Attempted to free unknown block %p at %s:%d", p, file, line);
+ }
+}
+
+void stb_wrapper_check(void *p)
+{
+ int n;
+
+ if (p == NULL) return;
+
+ n = stb__hashfind(p);
+
+ if (n >= 0) return;
+
+ for (n = 0; n < stb__alloc_size; ++n)
+ if (stb__allocations[n].p == p)
+ stb_fatal("Internal error: pointer %p was allocated, but hash search failed", p);
+
+ // tried to free something that wasn't allocated!
+ n = stb__historyfind(p);
+ if (n >= 0)
+ stb_fatal("Checked %d-byte block %p previously freed/realloced at %s:%d",
+ stb__alloc_history[n].size, p,
+ stb__alloc_history[n].file, stb__alloc_history[n].line);
+ stb_fatal("Checked unknown block %p");
+}
+
+void stb_wrapper_realloc(void *p, void *q, int sz, char *file, int line)
+{
+ int n;
+ if (p == NULL) { stb_wrapper_malloc(q, sz, file, line); return; }
+ if (q == NULL) return; // nothing happened
+
+ n = stb__hashfind(p);
+ if (n == -1) {
+ // tried to free something we hadn't allocated!
+ // this is weird, though, because we got past the realloc!
+ n = stb__historyfind(p);
+ assert(0); /* NOTREACHED */
+ if (n >= 0)
+ stb_fatal("Attempted to realloc %d-byte block %p at %s:%d previously freed/realloced at %s:%d",
+ stb__alloc_history[n].size, p,
+ file, line,
+ stb__alloc_history[n].file, stb__alloc_history[n].line);
+ else
+ stb_fatal("Attempted to realloc unknown block %p at %s:%d", p, file, line);
+ }
+ else {
+ if (q == p) {
+ stb__allocations[n].size = sz;
+ stb__allocations[n].file = file;
+ stb__allocations[n].line = line;
+ }
+ else {
+ stb__remove_alloc(n, file, line);
+ stb__add_alloc(q, sz, file, line);
+ }
+ }
+}
+
+void stb_wrapper_listall(void(*func)(void *ptr, int sz, char *file, int line))
+{
+ int i;
+ for (i = 0; i < stb__alloc_size; ++i)
+ if (stb__allocations[i].p > STB_DEL)
+ func(stb__allocations[i].p, stb__allocations[i].size,
+ stb__allocations[i].file, stb__allocations[i].line);
+}
+
+void stb_wrapper_dump(char *filename)
+{
+ int i;
+ FILE *f = fopen(filename, "w");
+ if (!f) return;
+ for (i = 0; i < stb__alloc_size; ++i)
+ if (stb__allocations[i].p > STB_DEL)
+ fprintf(f, "%p %7d - %4d %s\n",
+ stb__allocations[i].p, stb__allocations[i].size,
+ stb__allocations[i].line, stb__allocations[i].file);
+}
+#endif // STB_DEFINE
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_pointer_set
+//
+//
+// For data structures that support querying by key, data structure
+// classes always hand-wave away the issue of what to do if two entries
+// have the same key: basically, store a linked list of all the nodes
+// which have the same key (a LISP-style list).
+//
+// The thing is, it's not that trivial. If you have an O(log n)
+// lookup data structure, but then n/4 items have the same value,
+// you don't want to spend O(n) time scanning that list when
+// deleting an item if you already have a pointer to the item.
+// (You have to spend O(n) time enumerating all the items with
+// a given key, sure, and you can't accelerate deleting a particular
+// item if you only have the key, not a pointer to the item.)
+//
+// I'm going to call this data structure, whatever it turns out to
+// be, a "pointer set", because we don't store any associated data for
+// items in this data structure, we just answer the question of
+// whether an item is in it or not (it's effectively one bit per pointer).
+// Technically they don't have to be pointers; you could cast ints
+// to (void *) if you want, but you can't store 0 or 1 because of the
+// hash table.
+//
+// Since the fastest data structure we might want to add support for
+// identical-keys to is a hash table with O(1)-ish lookup time,
+// that means that the conceptual "linked list of all items with
+// the same indexed value" that we build needs to have the same
+// performance; that way when we index a table we think is arbitrary
+// ints, but in fact half of them are 0, we don't get screwed.
+//
+// Therefore, it needs to be a hash table, at least when it gets
+// large. On the other hand, when the data has totally arbitrary ints
+// or floats, there won't be many collisions, and we'll have tons of
+// 1-item bitmaps. That will be grossly inefficient as hash tables;
+// trade-off; the hash table is reasonably efficient per-item when
+// it's large, but not when it's small. So we need to do something
+// Judy-like and use different strategies depending on the size.
+//
+// Like Judy, we'll use the bottom bit to encode the strategy:
+//
+// bottom bits:
+// 00 - direct pointer
+// 01 - 4-item bucket (16 bytes, no length, NULLs)
+// 10 - N-item array
+// 11 - hash table
+
+typedef struct stb_ps stb_ps;
+
+STB_EXTERN int stb_ps_find(stb_ps *ps, void *value);
+STB_EXTERN stb_ps * stb_ps_add(stb_ps *ps, void *value);
+STB_EXTERN stb_ps * stb_ps_remove(stb_ps *ps, void *value);
+STB_EXTERN stb_ps * stb_ps_remove_any(stb_ps *ps, void **value);
+STB_EXTERN void stb_ps_delete(stb_ps *ps);
+STB_EXTERN int stb_ps_count(stb_ps *ps);
+
+STB_EXTERN stb_ps * stb_ps_copy(stb_ps *ps);
+STB_EXTERN int stb_ps_subset(stb_ps *bigger, stb_ps *smaller);
+STB_EXTERN int stb_ps_eq(stb_ps *p0, stb_ps *p1);
+
+STB_EXTERN void ** stb_ps_getlist(stb_ps *ps, int *count);
+STB_EXTERN int stb_ps_writelist(stb_ps *ps, void **list, int size);
+
+// enum and fastlist don't allocate storage, but you must consume the
+// list before there's any chance the data structure gets screwed up;
+STB_EXTERN int stb_ps_enum(stb_ps *ps, void *data,
+ int(*func)(void *value, void*data));
+STB_EXTERN void ** stb_ps_fastlist(stb_ps *ps, int *count);
+// result:
+// returns a list, *count is the length of that list,
+// but some entries of the list may be invalid;
+// test with 'stb_ps_fastlist_valid(x)'
+
+#define stb_ps_fastlist_valid(x) ((stb_uinta) (x) > 1)
+
+#ifdef STB_DEFINE
+
+enum
+{
+ STB_ps_direct = 0,
+ STB_ps_bucket = 1,
+ STB_ps_array = 2,
+ STB_ps_hash = 3,
+};
+
+#define STB_BUCKET_SIZE 4
+
+typedef struct
+{
+ void *p[STB_BUCKET_SIZE];
+} stb_ps_bucket;
+#define GetBucket(p) ((stb_ps_bucket *) ((char *) (p) - STB_ps_bucket))
+#define EncodeBucket(p) ((stb_ps *) ((char *) (p) + STB_ps_bucket))
+
+static void stb_bucket_free(stb_ps_bucket *b)
+{
+ free(b);
+}
+
+static stb_ps_bucket *stb_bucket_create2(void *v0, void *v1)
+{
+ stb_ps_bucket *b = (stb_ps_bucket*)malloc(sizeof(*b));
+ b->p[0] = v0;
+ b->p[1] = v1;
+ b->p[2] = NULL;
+ b->p[3] = NULL;
+ return b;
+}
+
+static stb_ps_bucket * stb_bucket_create3(void **v)
+{
+ stb_ps_bucket *b = (stb_ps_bucket*)malloc(sizeof(*b));
+ b->p[0] = v[0];
+ b->p[1] = v[1];
+ b->p[2] = v[2];
+ b->p[3] = NULL;
+ return b;
+}
+
+
+// could use stb_arr, but this will save us memory
+typedef struct
+{
+ int count;
+ void *p[1];
+} stb_ps_array;
+#define GetArray(p) ((stb_ps_array *) ((char *) (p) - STB_ps_array))
+#define EncodeArray(p) ((stb_ps *) ((char *) (p) + STB_ps_array))
+
+static int stb_ps_array_max = 13;
+
+typedef struct
+{
+ int size, mask;
+ int count, count_deletes;
+ int grow_threshhold;
+ int shrink_threshhold;
+ int rehash_threshhold;
+ int any_offset;
+ void *table[1];
+} stb_ps_hash;
+#define GetHash(p) ((stb_ps_hash *) ((char *) (p) - STB_ps_hash))
+#define EncodeHash(p) ((stb_ps *) ((char *) (p) + STB_ps_hash))
+
+#define stb_ps_empty(v) (((stb_uint32) v) <= 1)
+
+static stb_ps_hash *stb_ps_makehash(int size, int old_size, void **old_data)
+{
+ int i;
+ stb_ps_hash *h = (stb_ps_hash *)malloc(sizeof(*h) + (size - 1) * sizeof(h->table[0]));
+ assert(stb_is_pow2(size));
+ h->size = size;
+ h->mask = size - 1;
+ h->shrink_threshhold = (int)(0.3f * size);
+ h->grow_threshhold = (int)(0.8f * size);
+ h->rehash_threshhold = (int)(0.9f * size);
+ h->count = 0;
+ h->count_deletes = 0;
+ h->any_offset = 0;
+ memset(h->table, 0, size * sizeof(h->table[0]));
+ for (i = 0; i < old_size; ++i)
+ if (!stb_ps_empty((size_t)old_data[i]))
+ stb_ps_add(EncodeHash(h), old_data[i]);
+ return h;
+}
+
+void stb_ps_delete(stb_ps *ps)
+{
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct: break;
+ case STB_ps_bucket: stb_bucket_free(GetBucket(ps)); break;
+ case STB_ps_array: free(GetArray(ps)); break;
+ case STB_ps_hash: free(GetHash(ps)); break;
+ }
+}
+
+stb_ps *stb_ps_copy(stb_ps *ps)
+{
+ int i;
+ // not a switch: order based on expected performance/power-law distribution
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct: return ps;
+ case STB_ps_bucket: {
+ stb_ps_bucket *n = (stb_ps_bucket *)malloc(sizeof(*n));
+ *n = *GetBucket(ps);
+ return EncodeBucket(n);
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ stb_ps_array *n = (stb_ps_array *)malloc(sizeof(*n) + stb_ps_array_max * sizeof(n->p[0]));
+ n->count = a->count;
+ for (i = 0; i < a->count; ++i)
+ n->p[i] = a->p[i];
+ return EncodeArray(n);
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ stb_ps_hash *n = stb_ps_makehash(h->size, h->size, h->table);
+ return EncodeHash(n);
+ }
+ }
+ assert(0); /* NOTREACHED */
+ return NULL;
+}
+
+int stb_ps_find(stb_ps *ps, void *value)
+{
+ int i, code = 3 & (int)(size_t)ps;
+ assert((3 & (int)(size_t)value) == STB_ps_direct);
+ assert(stb_ps_fastlist_valid(value));
+ // not a switch: order based on expected performance/power-law distribution
+ if (code == STB_ps_direct)
+ return value == ps;
+ if (code == STB_ps_bucket) {
+ stb_ps_bucket *b = GetBucket(ps);
+ assert(STB_BUCKET_SIZE == 4);
+ if (b->p[0] == value || b->p[1] == value ||
+ b->p[2] == value || b->p[3] == value)
+ return STB_TRUE;
+ return STB_FALSE;
+ }
+ if (code == STB_ps_array) {
+ stb_ps_array *a = GetArray(ps);
+ for (i = 0; i < a->count; ++i)
+ if (a->p[i] == value)
+ return STB_TRUE;
+ return STB_FALSE;
+ }
+ else {
+ stb_ps_hash *h = GetHash(ps);
+ stb_uint32 hash = stb_hashptr(value);
+ stb_uint32 s, n = hash & h->mask;
+ void **t = h->table;
+ if (t[n] == value) return STB_TRUE;
+ if (t[n] == NULL) return STB_FALSE;
+ s = stb_rehash(hash) | 1;
+ do {
+ n = (n + s) & h->mask;
+ if (t[n] == value) return STB_TRUE;
+ } while (t[n] != NULL);
+ return STB_FALSE;
+ }
+}
+
+stb_ps * stb_ps_add(stb_ps *ps, void *value)
+{
+#ifdef STB_DEBUG
+ assert(!stb_ps_find(ps, value));
+#endif
+ if (value == NULL) return ps; // ignore NULL adds to avoid bad breakage
+ assert((3 & (int)(size_t)value) == STB_ps_direct);
+ assert(stb_ps_fastlist_valid(value));
+ assert(value != STB_DEL); // STB_DEL is less likely
+
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ if (ps == NULL) return (stb_ps *)value;
+ return EncodeBucket(stb_bucket_create2(ps, value));
+
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ stb_ps_array *a;
+ assert(STB_BUCKET_SIZE == 4);
+ if (b->p[0] == NULL) { b->p[0] = value; return ps; }
+ if (b->p[1] == NULL) { b->p[1] = value; return ps; }
+ if (b->p[2] == NULL) { b->p[2] = value; return ps; }
+ if (b->p[3] == NULL) { b->p[3] = value; return ps; }
+ a = (stb_ps_array *)malloc(sizeof(*a) + 7 * sizeof(a->p[0])); // 8 slots, must be 2^k
+ memcpy(a->p, b, sizeof(*b));
+ a->p[4] = value;
+ a->count = 5;
+ stb_bucket_free(b);
+ return EncodeArray(a);
+ }
+
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ if (a->count == stb_ps_array_max) {
+ // promote from array to hash
+ stb_ps_hash *h = stb_ps_makehash(2 << stb_log2_ceil(a->count), a->count, a->p);
+ free(a);
+ return stb_ps_add(EncodeHash(h), value);
+ }
+ // do we need to resize the array? the array doubles in size when it
+ // crosses a power-of-two
+ if ((a->count & (a->count - 1)) == 0) {
+ int newsize = a->count * 2;
+ // clamp newsize to max if:
+ // 1. it's larger than max
+ // 2. newsize*1.5 is larger than max (to avoid extra resizing)
+ if (newsize + a->count > stb_ps_array_max)
+ newsize = stb_ps_array_max;
+ a = (stb_ps_array *)realloc(a, sizeof(*a) + (newsize - 1) * sizeof(a->p[0]));
+ }
+ a->p[a->count++] = value;
+ return EncodeArray(a);
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ stb_uint32 hash = stb_hashptr(value);
+ stb_uint32 n = hash & h->mask;
+ void **t = h->table;
+ // find first NULL or STB_DEL entry
+ if (!stb_ps_empty((size_t)t[n])) {
+ stb_uint32 s = stb_rehash(hash) | 1;
+ do {
+ n = (n + s) & h->mask;
+ } while (!stb_ps_empty((size_t)t[n]));
+ }
+ if (t[n] == STB_DEL)
+ --h->count_deletes;
+ t[n] = value;
+ ++h->count;
+ if (h->count == h->grow_threshhold) {
+ stb_ps_hash *h2 = stb_ps_makehash(h->size * 2, h->size, t);
+ free(h);
+ return EncodeHash(h2);
+ }
+ if (h->count + h->count_deletes == h->rehash_threshhold) {
+ stb_ps_hash *h2 = stb_ps_makehash(h->size, h->size, t);
+ free(h);
+ return EncodeHash(h2);
+ }
+ return ps;
+ }
+ }
+ return NULL; /* NOTREACHED */
+}
+
+stb_ps *stb_ps_remove(stb_ps *ps, void *value)
+{
+#ifdef STB_DEBUG
+ assert(stb_ps_find(ps, value));
+#endif
+ assert((3 & (int)(size_t)value) == STB_ps_direct);
+ if (value == NULL) return ps; // ignore NULL removes to avoid bad breakage
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ return ps == value ? NULL : ps;
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ int count = 0;
+ assert(STB_BUCKET_SIZE == 4);
+ if (b->p[0] == value) b->p[0] = NULL; else count += (b->p[0] != NULL);
+ if (b->p[1] == value) b->p[1] = NULL; else count += (b->p[1] != NULL);
+ if (b->p[2] == value) b->p[2] = NULL; else count += (b->p[2] != NULL);
+ if (b->p[3] == value) b->p[3] = NULL; else count += (b->p[3] != NULL);
+ if (count == 1) { // shrink bucket at size 1
+ value = b->p[0];
+ if (value == NULL) value = b->p[1];
+ if (value == NULL) value = b->p[2];
+ if (value == NULL) value = b->p[3];
+ assert(value != NULL);
+ stb_bucket_free(b);
+ return (stb_ps *)value; // return STB_ps_direct of value
+ }
+ return ps;
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ int i;
+ for (i = 0; i < a->count; ++i) {
+ if (a->p[i] == value) {
+ a->p[i] = a->p[--a->count];
+ if (a->count == 3) { // shrink to bucket!
+ stb_ps_bucket *b = stb_bucket_create3(a->p);
+ free(a);
+ return EncodeBucket(b);
+ }
+ return ps;
+ }
+ }
+ return ps;
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ stb_uint32 hash = stb_hashptr(value);
+ stb_uint32 s, n = hash & h->mask;
+ void **t = h->table;
+ if (t[n] != value) {
+ s = stb_rehash(hash) | 1;
+ do {
+ n = (n + s) & h->mask;
+ } while (t[n] != value);
+ }
+ t[n] = STB_DEL;
+ --h->count;
+ ++h->count_deletes;
+ // should we shrink down to an array?
+ if (h->count < stb_ps_array_max) {
+ int n = 1 << stb_log2_floor(stb_ps_array_max);
+ if (h->count < n) {
+ stb_ps_array *a = (stb_ps_array *)malloc(sizeof(*a) + (n - 1) * sizeof(a->p[0]));
+ int i, j = 0;
+ for (i = 0; i < h->size; ++i)
+ if (!stb_ps_empty((size_t)t[i]))
+ a->p[j++] = t[i];
+ assert(j == h->count);
+ a->count = j;
+ free(h);
+ return EncodeArray(a);
+ }
+ }
+ if (h->count == h->shrink_threshhold) {
+ stb_ps_hash *h2 = stb_ps_makehash(h->size >> 1, h->size, t);
+ free(h);
+ return EncodeHash(h2);
+ }
+ return ps;
+ }
+ }
+ return ps; /* NOTREACHED */
+}
+
+stb_ps *stb_ps_remove_any(stb_ps *ps, void **value)
+{
+ assert(ps != NULL);
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ *value = ps;
+ return NULL;
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ int count = 0, slast = 0, last = 0;
+ assert(STB_BUCKET_SIZE == 4);
+ if (b->p[0]) { ++count; last = 0; }
+ if (b->p[1]) { ++count; slast = last; last = 1; }
+ if (b->p[2]) { ++count; slast = last; last = 2; }
+ if (b->p[3]) { ++count; slast = last; last = 3; }
+ *value = b->p[last];
+ b->p[last] = 0;
+ if (count == 2) {
+ void *leftover = b->p[slast]; // second to last
+ stb_bucket_free(b);
+ return (stb_ps *)leftover;
+ }
+ return ps;
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ *value = a->p[a->count - 1];
+ if (a->count == 4)
+ return stb_ps_remove(ps, *value);
+ --a->count;
+ return ps;
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ void **t = h->table;
+ stb_uint32 n = h->any_offset;
+ while (stb_ps_empty((size_t)t[n]))
+ n = (n + 1) & h->mask;
+ *value = t[n];
+ h->any_offset = (n + 1) & h->mask;
+ // check if we need to skip down to the previous type
+ if (h->count - 1 < stb_ps_array_max || h->count - 1 == h->shrink_threshhold)
+ return stb_ps_remove(ps, *value);
+ t[n] = STB_DEL;
+ --h->count;
+ ++h->count_deletes;
+ return ps;
+ }
+ }
+ return ps; /* NOTREACHED */
+}
+
+
+void ** stb_ps_getlist(stb_ps *ps, int *count)
+{
+ int i, n = 0;
+ void **p = NULL;
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ if (ps == NULL) { *count = 0; return NULL; }
+ p = (void **)malloc(sizeof(*p) * 1);
+ p[0] = ps;
+ *count = 1;
+ return p;
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ p = (void **)malloc(sizeof(*p) * STB_BUCKET_SIZE);
+ for (i = 0; i < STB_BUCKET_SIZE; ++i)
+ if (b->p[i] != NULL)
+ p[n++] = b->p[i];
+ break;
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ p = (void **)malloc(sizeof(*p) * a->count);
+ memcpy(p, a->p, sizeof(*p) * a->count);
+ *count = a->count;
+ return p;
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ p = (void **)malloc(sizeof(*p) * h->count);
+ for (i = 0; i < h->size; ++i)
+ if (!stb_ps_empty((size_t)h->table[i]))
+ p[n++] = h->table[i];
+ break;
+ }
+ }
+ *count = n;
+ return p;
+}
+
+int stb_ps_writelist(stb_ps *ps, void **list, int size)
+{
+ int i, n = 0;
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ if (ps == NULL || size <= 0) return 0;
+ list[0] = ps;
+ return 1;
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ for (i = 0; i < STB_BUCKET_SIZE; ++i)
+ if (b->p[i] != NULL && n < size)
+ list[n++] = b->p[i];
+ return n;
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ n = stb_min(size, a->count);
+ memcpy(list, a->p, sizeof(*list) * n);
+ return n;
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ if (size <= 0) return 0;
+ for (i = 0; i < h->count; ++i) {
+ if (!stb_ps_empty((size_t)h->table[i])) {
+ list[n++] = h->table[i];
+ if (n == size) break;
+ }
+ }
+ return n;
+ }
+ }
+ return 0; /* NOTREACHED */
+}
+
+int stb_ps_enum(stb_ps *ps, void *data, int(*func)(void *value, void *data))
+{
+ int i;
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ if (ps == NULL) return STB_TRUE;
+ return func(ps, data);
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ for (i = 0; i < STB_BUCKET_SIZE; ++i)
+ if (b->p[i] != NULL)
+ if (!func(b->p[i], data))
+ return STB_FALSE;
+ return STB_TRUE;
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ for (i = 0; i < a->count; ++i)
+ if (!func(a->p[i], data))
+ return STB_FALSE;
+ return STB_TRUE;
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ for (i = 0; i < h->count; ++i)
+ if (!stb_ps_empty((size_t)h->table[i]))
+ if (!func(h->table[i], data))
+ return STB_FALSE;
+ return STB_TRUE;
+ }
+ }
+ return STB_TRUE; /* NOTREACHED */
+}
+
+int stb_ps_count(stb_ps *ps)
+{
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ return ps != NULL;
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ return (b->p[0] != NULL) + (b->p[1] != NULL) +
+ (b->p[2] != NULL) + (b->p[3] != NULL);
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ return a->count;
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ return h->count;
+ }
+ }
+ return 0;
+}
+
+void ** stb_ps_fastlist(stb_ps *ps, int *count)
+{
+ static void *storage;
+
+ switch (3 & (int)(size_t)ps) {
+ case STB_ps_direct:
+ if (ps == NULL) { *count = 0; return NULL; }
+ storage = ps;
+ *count = 1;
+ return &storage;
+ case STB_ps_bucket: {
+ stb_ps_bucket *b = GetBucket(ps);
+ *count = STB_BUCKET_SIZE;
+ return b->p;
+ }
+ case STB_ps_array: {
+ stb_ps_array *a = GetArray(ps);
+ *count = a->count;
+ return a->p;
+ }
+ case STB_ps_hash: {
+ stb_ps_hash *h = GetHash(ps);
+ *count = h->size;
+ return h->table;
+ }
+ }
+ return NULL; /* NOTREACHED */
+}
+
+int stb_ps_subset(stb_ps *bigger, stb_ps *smaller)
+{
+ int i, listlen;
+ void **list = stb_ps_fastlist(smaller, &listlen);
+ for (i = 0; i < listlen; ++i)
+ if (stb_ps_fastlist_valid(list[i]))
+ if (!stb_ps_find(bigger, list[i]))
+ return 0;
+ return 1;
+}
+
+int stb_ps_eq(stb_ps *p0, stb_ps *p1)
+{
+ if (stb_ps_count(p0) != stb_ps_count(p1))
+ return 0;
+ return stb_ps_subset(p0, p1);
+}
+
+#undef GetBucket
+#undef GetArray
+#undef GetHash
+
+#undef EncodeBucket
+#undef EncodeArray
+#undef EncodeHash
+
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Random Numbers via Meresenne Twister or LCG
+//
+
+STB_EXTERN unsigned long stb_srandLCG(unsigned long seed);
+STB_EXTERN unsigned long stb_randLCG(void);
+STB_EXTERN double stb_frandLCG(void);
+
+STB_EXTERN void stb_srand(unsigned long seed);
+STB_EXTERN unsigned long stb_rand(void);
+STB_EXTERN double stb_frand(void);
+STB_EXTERN void stb_shuffle(void *p, size_t n, size_t sz,
+ unsigned long seed);
+STB_EXTERN void stb_reverse(void *p, size_t n, size_t sz);
+
+STB_EXTERN unsigned long stb_randLCG_explicit(unsigned long seed);
+
+#define stb_rand_define(x,y) \
+ \
+ unsigned long x(void) \
+ { \
+ static unsigned long stb__rand = y; \
+ stb__rand = stb__rand * 2147001325 + 715136305; /* BCPL */ \
+ return 0x31415926 ^ ((stb__rand >> 16) + (stb__rand << 16)); \
+ }
+
+#ifdef STB_DEFINE
+unsigned long stb_randLCG_explicit(unsigned long seed)
+{
+ return seed * 2147001325 + 715136305;
+}
+
+static unsigned long stb__rand_seed = 0;
+
+unsigned long stb_srandLCG(unsigned long seed)
+{
+ unsigned long previous = stb__rand_seed;
+ stb__rand_seed = seed;
+ return previous;
+}
+
+unsigned long stb_randLCG(void)
+{
+ stb__rand_seed = stb__rand_seed * 2147001325 + 715136305; // BCPL generator
+ // shuffle non-random bits to the middle, and xor to decorrelate with seed
+ return 0x31415926 ^ ((stb__rand_seed >> 16) + (stb__rand_seed << 16));
+}
+
+double stb_frandLCG(void)
+{
+ return stb_randLCG() / ((double)(1 << 16) * (1 << 16));
+}
+
+void stb_shuffle(void *p, size_t n, size_t sz, unsigned long seed)
+{
+ char *a;
+ unsigned long old_seed;
+ int i;
+ if (seed)
+ old_seed = stb_srandLCG(seed);
+ a = (char *)p + (n - 1) * sz;
+
+ for (i = n; i > 1; --i) {
+ int j = stb_randLCG() % i;
+ stb_swap(a, (char *)p + j * sz, sz);
+ a -= sz;
+ }
+ if (seed)
+ stb_srandLCG(old_seed);
+}
+
+void stb_reverse(void *p, size_t n, size_t sz)
+{
+ int i, j = n - 1;
+ for (i = 0; i < j; ++i, --j) {
+ stb_swap((char *)p + i * sz, (char *)p + j * sz, sz);
+ }
+}
+
+// public domain Mersenne Twister by Michael Brundage
+#define STB__MT_LEN 624
+
+int stb__mt_index = STB__MT_LEN * sizeof(unsigned long) + 1;
+unsigned long stb__mt_buffer[STB__MT_LEN];
+
+void stb_srand(unsigned long seed)
+{
+ int i;
+ unsigned long old = stb_srandLCG(seed);
+ for (i = 0; i < STB__MT_LEN; i++)
+ stb__mt_buffer[i] = stb_randLCG();
+ stb_srandLCG(old);
+ stb__mt_index = STB__MT_LEN * sizeof(unsigned long);
+}
+
+#define STB__MT_IA 397
+#define STB__MT_IB (STB__MT_LEN - STB__MT_IA)
+#define STB__UPPER_MASK 0x80000000
+#define STB__LOWER_MASK 0x7FFFFFFF
+#define STB__MATRIX_A 0x9908B0DF
+#define STB__TWIST(b,i,j) ((b)[i] & STB__UPPER_MASK) | ((b)[j] & STB__LOWER_MASK)
+#define STB__MAGIC(s) (((s)&1)*STB__MATRIX_A)
+
+unsigned long stb_rand()
+{
+ unsigned long * b = stb__mt_buffer;
+ int idx = stb__mt_index;
+ unsigned long s, r;
+ int i;
+
+ if (idx >= STB__MT_LEN * sizeof(unsigned long)) {
+ if (idx > STB__MT_LEN * sizeof(unsigned long))
+ stb_srand(0);
+ idx = 0;
+ i = 0;
+ for (; i < STB__MT_IB; i++) {
+ s = STB__TWIST(b, i, i + 1);
+ b[i] = b[i + STB__MT_IA] ^ (s >> 1) ^ STB__MAGIC(s);
+ }
+ for (; i < STB__MT_LEN - 1; i++) {
+ s = STB__TWIST(b, i, i + 1);
+ b[i] = b[i - STB__MT_IB] ^ (s >> 1) ^ STB__MAGIC(s);
+ }
+
+ s = STB__TWIST(b, STB__MT_LEN - 1, 0);
+ b[STB__MT_LEN - 1] = b[STB__MT_IA - 1] ^ (s >> 1) ^ STB__MAGIC(s);
+ }
+ stb__mt_index = idx + sizeof(unsigned long);
+
+ r = *(unsigned long *)((unsigned char *)b + idx);
+
+ r ^= (r >> 11);
+ r ^= (r << 7) & 0x9D2C5680;
+ r ^= (r << 15) & 0xEFC60000;
+ r ^= (r >> 18);
+
+ return r;
+}
+
+double stb_frand(void)
+{
+ return stb_rand() / ((double)(1 << 16) * (1 << 16));
+}
+
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_dupe
+//
+// stb_dupe is a duplicate-finding system for very, very large data
+// structures--large enough that sorting is too slow, but not so large
+// that we can't keep all the data in memory. using it works as follows:
+//
+// 1. create an stb_dupe:
+// provide a hash function
+// provide an equality function
+// provide an estimate for the size
+// optionally provide a comparison function
+//
+// 2. traverse your data, 'adding' pointers to the stb_dupe
+//
+// 3. finish and ask for duplicates
+//
+// the stb_dupe will discard its intermediate data and build
+// a collection of sorted lists of duplicates, with non-duplicate
+// entries omitted entirely
+//
+//
+// Implementation strategy:
+//
+// while collecting the N items, we keep a hash table of approximate
+// size sqrt(N). (if you tell use the N up front, the hash table is
+// just that size exactly)
+//
+// each entry in the hash table is just an stb__arr of pointers (no need
+// to use stb_ps, because we don't need to delete from these)
+//
+// for step 3, for each entry in the hash table, we apply stb_dupe to it
+// recursively. once the size gets small enough (or doesn't decrease
+// significantly), we switch to either using qsort() on the comparison
+// function, or else we just do the icky N^2 gather
+
+
+typedef struct stb_dupe stb_dupe;
+
+typedef int(*stb_compare_func)(void *a, void *b);
+typedef int(*stb_hash_func)(void *a, unsigned int seed);
+
+STB_EXTERN void stb_dupe_free(stb_dupe *sd);
+STB_EXTERN stb_dupe *stb_dupe_create(stb_hash_func hash,
+ stb_compare_func eq, int size, stb_compare_func ineq);
+STB_EXTERN void stb_dupe_add(stb_dupe *sd, void *item);
+STB_EXTERN void stb_dupe_finish(stb_dupe *sd);
+STB_EXTERN int stb_dupe_numsets(stb_dupe *sd);
+STB_EXTERN void **stb_dupe_set(stb_dupe *sd, int num);
+STB_EXTERN int stb_dupe_set_count(stb_dupe *sd, int num);
+
+struct stb_dupe
+{
+ void ***hash_table;
+ int hash_size;
+ int size_log2;
+ int population;
+
+ int hash_shift;
+ stb_hash_func hash;
+
+ stb_compare_func eq;
+ stb_compare_func ineq;
+
+ void ***dupes;
+};
+
+#ifdef STB_DEFINE
+
+int stb_dupe_numsets(stb_dupe *sd)
+{
+ assert(sd->hash_table == NULL);
+ return stb_arr_len(sd->dupes);
+}
+
+void **stb_dupe_set(stb_dupe *sd, int num)
+{
+ assert(sd->hash_table == NULL);
+ return sd->dupes[num];
+}
+
+int stb_dupe_set_count(stb_dupe *sd, int num)
+{
+ assert(sd->hash_table == NULL);
+ return stb_arr_len(sd->dupes[num]);
+}
+
+stb_dupe *stb_dupe_create(stb_hash_func hash, stb_compare_func eq, int size,
+ stb_compare_func ineq)
+{
+ int i, hsize;
+ stb_dupe *sd = (stb_dupe *)malloc(sizeof(*sd));
+
+ sd->size_log2 = 4;
+ hsize = 1 << sd->size_log2;
+ while (hsize * hsize < size) {
+ ++sd->size_log2;
+ hsize *= 2;
+ }
+
+ sd->hash = hash;
+ sd->eq = eq;
+ sd->ineq = ineq;
+ sd->hash_shift = 0;
+
+ sd->population = 0;
+ sd->hash_size = hsize;
+ sd->hash_table = (void ***)malloc(sizeof(*sd->hash_table) * hsize);
+ for (i = 0; i < hsize; ++i)
+ sd->hash_table[i] = NULL;
+
+ sd->dupes = NULL;
+
+ return sd;
+}
+
+void stb_dupe_add(stb_dupe *sd, void *item)
+{
+ stb_uint32 hash = sd->hash(item, sd->hash_shift);
+ int z = hash & (sd->hash_size - 1);
+ stb_arr_push(sd->hash_table[z], item);
+ ++sd->population;
+}
+
+void stb_dupe_free(stb_dupe *sd)
+{
+ int i;
+ for (i = 0; i < stb_arr_len(sd->dupes); ++i)
+ if (sd->dupes[i])
+ stb_arr_free(sd->dupes[i]);
+ stb_arr_free(sd->dupes);
+ free(sd);
+}
+
+static stb_compare_func stb__compare;
+
+static int stb__dupe_compare(const void *a, const void *b)
+{
+ void *p = *(void **)a;
+ void *q = *(void **)b;
+
+ return stb__compare(p, q);
+}
+
+void stb_dupe_finish(stb_dupe *sd)
+{
+ int i, j, k;
+ assert(sd->dupes == NULL);
+ for (i = 0; i < sd->hash_size; ++i) {
+ void ** list = sd->hash_table[i];
+ if (list != NULL) {
+ int n = stb_arr_len(list);
+ // @TODO: measure to find good numbers instead of just making them up!
+ int thresh = (sd->ineq ? 200 : 20);
+ // if n is large enough to be worth it, and n is smaller than
+ // before (so we can guarantee we'll use a smaller hash table);
+ // and there are enough hash bits left, assuming full 32-bit hash
+ if (n > thresh && n < (sd->population >> 3) && sd->hash_shift + sd->size_log2 * 2 < 32) {
+
+ // recursively process this row using stb_dupe, O(N log log N)
+
+ stb_dupe *d = stb_dupe_create(sd->hash, sd->eq, n, sd->ineq);
+ d->hash_shift = stb_randLCG_explicit(sd->hash_shift);
+ for (j = 0; j < n; ++j)
+ stb_dupe_add(d, list[j]);
+ stb_arr_free(sd->hash_table[i]);
+ stb_dupe_finish(d);
+ for (j = 0; j < stb_arr_len(d->dupes); ++j) {
+ stb_arr_push(sd->dupes, d->dupes[j]);
+ d->dupes[j] = NULL; // take over ownership
+ }
+ stb_dupe_free(d);
+
+ }
+ else if (sd->ineq) {
+
+ // process this row using qsort(), O(N log N)
+ stb__compare = sd->ineq;
+ qsort(list, n, sizeof(list[0]), stb__dupe_compare);
+
+ // find equal subsequences of the list
+ for (j = 0; j < n - 1; ) {
+ // find a subsequence from j..k
+ for (k = j; k < n; ++k)
+ // only use ineq so eq can be left undefined
+ if (sd->ineq(list[j], list[k]))
+ break;
+ // k is the first one not in the subsequence
+ if (k - j > 1) {
+ void **mylist = NULL;
+ stb_arr_setlen(mylist, k - j);
+ memcpy(mylist, list + j, sizeof(list[j]) * (k - j));
+ stb_arr_push(sd->dupes, mylist);
+ }
+ j = k;
+ }
+ stb_arr_free(sd->hash_table[i]);
+ }
+ else {
+
+ // process this row using eq(), O(N^2)
+ for (j = 0; j < n; ++j) {
+ if (list[j] != NULL) {
+ void **output = NULL;
+ for (k = j + 1; k < n; ++k) {
+ if (sd->eq(list[j], list[k])) {
+ if (output == NULL)
+ stb_arr_push(output, list[j]);
+ stb_arr_push(output, list[k]);
+ list[k] = NULL;
+ }
+ }
+ list[j] = NULL;
+ if (output)
+ stb_arr_push(sd->dupes, output);
+ }
+ }
+ stb_arr_free(sd->hash_table[i]);
+ }
+ }
+ }
+ free(sd->hash_table);
+ sd->hash_table = NULL;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// templatized Sort routine
+//
+// This is an attempt to implement a templated sorting algorithm.
+// To use it, you have to explicitly instantiate it as a _function_,
+// then you call that function. This allows the comparison to be inlined,
+// giving the sort similar performance to C++ sorts.
+//
+// It implements quicksort with three-way-median partitioning (generally
+// well-behaved), with a final insertion sort pass.
+//
+// When you define the compare expression, you should assume you have
+// elements of your array pointed to by 'a' and 'b', and perform the comparison
+// on those. OR you can use one or more statements; first say '0;', then
+// write whatever code you want, and compute the result into a variable 'c'.
+
+#define stb_declare_sort(FUNCNAME, TYPE) \
+ void FUNCNAME(TYPE *p, int n)
+#define stb_define_sort(FUNCNAME,TYPE,COMPARE) \
+ stb__define_sort( void, FUNCNAME,TYPE,COMPARE)
+#define stb_define_sort_static(FUNCNAME,TYPE,COMPARE) \
+ stb__define_sort(static void, FUNCNAME,TYPE,COMPARE)
+
+#define stb__define_sort(MODE, FUNCNAME, TYPE, COMPARE) \
+ \
+static void STB_(FUNCNAME,_ins_sort)(TYPE *p, int n) \
+{ \
+ int i,j; \
+ for (i=1; i < n; ++i) { \
+ TYPE t = p[i], *a = &t; \
+ j = i; \
+ while (j > 0) { \
+ TYPE *b = &p[j-1]; \
+ int c = COMPARE; \
+ if (!c) break; \
+ p[j] = p[j-1]; \
+ --j; \
+ } \
+ if (i != j) \
+ p[j] = t; \
+ } \
+} \
+ \
+static void STB_(FUNCNAME,_quicksort)(TYPE *p, int n) \
+{ \
+ /* threshhold for transitioning to insertion sort */ \
+ while (n > 12) { \
+ TYPE *a,*b,t; \
+ int c01,c12,c,m,i,j; \
+ \
+ /* compute median of three */ \
+ m = n >> 1; \
+ a = &p[0]; \
+ b = &p[m]; \
+ c = COMPARE; \
+ c01 = c; \
+ a = &p[m]; \
+ b = &p[n-1]; \
+ c = COMPARE; \
+ c12 = c; \
+ /* if 0 >= mid >= end, or 0 < mid < end, then use mid */ \
+ if (c01 != c12) { \
+ /* otherwise, we'll need to swap something else to middle */ \
+ int z; \
+ a = &p[0]; \
+ b = &p[n-1]; \
+ c = COMPARE; \
+ /* 0>mid && mid<n: 0>n => n; 0<n => 0 */ \
+ /* 0<mid && mid>n: 0>n => 0; 0<n => n */ \
+ z = (c == c12) ? 0 : n-1; \
+ t = p[z]; \
+ p[z] = p[m]; \
+ p[m] = t; \
+ } \
+ /* now p[m] is the median-of-three */ \
+ /* swap it to the beginning so it won't move around */ \
+ t = p[0]; \
+ p[0] = p[m]; \
+ p[m] = t; \
+ \
+ /* partition loop */ \
+ i=1; \
+ j=n-1; \
+ for(;;) { \
+ /* handling of equality is crucial here */ \
+ /* for sentinels & efficiency with duplicates */ \
+ b = &p[0]; \
+ for (;;++i) { \
+ a=&p[i]; \
+ c = COMPARE; \
+ if (!c) break; \
+ } \
+ a = &p[0]; \
+ for (;;--j) { \
+ b=&p[j]; \
+ c = COMPARE; \
+ if (!c) break; \
+ } \
+ /* make sure we haven't crossed */ \
+ if (i >= j) break; \
+ t = p[i]; \
+ p[i] = p[j]; \
+ p[j] = t; \
+ \
+ ++i; \
+ --j; \
+ } \
+ /* recurse on smaller side, iterate on larger */ \
+ if (j < (n-i)) { \
+ STB_(FUNCNAME,_quicksort)(p,j); \
+ p = p+i; \
+ n = n-i; \
+ } else { \
+ STB_(FUNCNAME,_quicksort)(p+i, n-i); \
+ n = j; \
+ } \
+ } \
+} \
+ \
+MODE FUNCNAME(TYPE *p, int n) \
+{ \
+ STB_(FUNCNAME, _quicksort)(p, n); \
+ STB_(FUNCNAME, _ins_sort)(p, n); \
+} \
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_bitset an array of booleans indexed by integers
+//
+
+typedef stb_uint32 stb_bitset;
+
+STB_EXTERN stb_bitset *stb_bitset_new(int value, int len);
+
+#define stb_bitset_clearall(arr,len) (memset(arr, 0, 4 * (len)))
+#define stb_bitset_setall(arr,len) (memset(arr, 255, 4 * (len)))
+
+#define stb_bitset_setbit(arr,n) ((arr)[(n) >> 5] |= (1 << (n & 31)))
+#define stb_bitset_clearbit(arr,n) ((arr)[(n) >> 5] &= ~(1 << (n & 31)))
+#define stb_bitset_testbit(arr,n) ((arr)[(n) >> 5] & (1 << (n & 31)))
+
+STB_EXTERN stb_bitset *stb_bitset_union(stb_bitset *p0, stb_bitset *p1, int len);
+
+STB_EXTERN int *stb_bitset_getlist(stb_bitset *out, int start, int end);
+
+STB_EXTERN int stb_bitset_eq(stb_bitset *p0, stb_bitset *p1, int len);
+STB_EXTERN int stb_bitset_disjoint(stb_bitset *p0, stb_bitset *p1, int len);
+STB_EXTERN int stb_bitset_disjoint_0(stb_bitset *p0, stb_bitset *p1, int len);
+STB_EXTERN int stb_bitset_subset(stb_bitset *bigger, stb_bitset *smaller, int len);
+STB_EXTERN int stb_bitset_unioneq_changed(stb_bitset *p0, stb_bitset *p1, int len);
+
+#ifdef STB_DEFINE
+int stb_bitset_eq(stb_bitset *p0, stb_bitset *p1, int len)
+{
+ int i;
+ for (i = 0; i < len; ++i)
+ if (p0[i] != p1[i]) return 0;
+ return 1;
+}
+
+int stb_bitset_disjoint(stb_bitset *p0, stb_bitset *p1, int len)
+{
+ int i;
+ for (i = 0; i < len; ++i)
+ if (p0[i] & p1[i]) return 0;
+ return 1;
+}
+
+int stb_bitset_disjoint_0(stb_bitset *p0, stb_bitset *p1, int len)
+{
+ int i;
+ for (i = 0; i < len; ++i)
+ if ((p0[i] | p1[i]) != 0xffffffff) return 0;
+ return 1;
+}
+
+int stb_bitset_subset(stb_bitset *bigger, stb_bitset *smaller, int len)
+{
+ int i;
+ for (i = 0; i < len; ++i)
+ if ((bigger[i] & smaller[i]) != smaller[i]) return 0;
+ return 1;
+}
+
+stb_bitset *stb_bitset_union(stb_bitset *p0, stb_bitset *p1, int len)
+{
+ int i;
+ stb_bitset *d = (stb_bitset *)malloc(sizeof(*d) * len);
+ for (i = 0; i < len; ++i) d[i] = p0[i] | p1[i];
+ return d;
+}
+
+int stb_bitset_unioneq_changed(stb_bitset *p0, stb_bitset *p1, int len)
+{
+ int i, changed = 0;
+ for (i = 0; i < len; ++i) {
+ stb_bitset d = p0[i] | p1[i];
+ if (d != p0[i]) {
+ p0[i] = d;
+ changed = 1;
+ }
+ }
+ return changed;
+}
+
+stb_bitset *stb_bitset_new(int value, int len)
+{
+ int i;
+ stb_bitset *d = (stb_bitset *)malloc(sizeof(*d) * len);
+ if (value) value = 0xffffffff;
+ for (i = 0; i < len; ++i) d[i] = value;
+ return d;
+}
+
+int *stb_bitset_getlist(stb_bitset *out, int start, int end)
+{
+ int *list = NULL;
+ int i;
+ for (i = start; i < end; ++i)
+ if (stb_bitset_testbit(out, i))
+ stb_arr_push(list, i);
+ return list;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_wordwrap quality word-wrapping for fixed-width fonts
+//
+
+STB_EXTERN int stb_wordwrap(int *pairs, int pair_max, int count, char *str);
+STB_EXTERN int *stb_wordwrapalloc(int count, char *str);
+
+#ifdef STB_DEFINE
+
+int stb_wordwrap(int *pairs, int pair_max, int count, char *str)
+{
+ int n = 0, i = 0, start = 0, nonwhite = 0;
+ if (pairs == NULL) pair_max = 0x7ffffff0;
+ else pair_max *= 2;
+ // parse
+ for (;;) {
+ int s = i; // first whitespace char; last nonwhite+1
+ int w; // word start
+ // accept whitespace
+ while (isspace(str[i])) {
+ if (str[i] == '\n' || str[i] == '\r') {
+ if (str[i] + str[i + 1] == '\n' + '\r') ++i;
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = s - start;
+ n += 2;
+ nonwhite = 0;
+ start = i + 1;
+ s = start;
+ }
+ ++i;
+ }
+ if (i >= start + count) {
+ // we've gone off the end using whitespace
+ if (nonwhite) {
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = s - start;
+ n += 2;
+ start = s = i;
+ nonwhite = 0;
+ }
+ else {
+ // output all the whitespace
+ while (i >= start + count) {
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = count;
+ n += 2;
+ start += count;
+ }
+ s = start;
+ }
+ }
+
+ if (str[i] == 0) break;
+ // now scan out a word and see if it fits
+ w = i;
+ while (str[i] && !isspace(str[i])) {
+ ++i;
+ }
+ // wrapped?
+ if (i > start + count) {
+ // huge?
+ if (i - s <= count) {
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = s - start;
+ n += 2;
+ start = w;
+ }
+ else {
+ // This word is longer than one line. If we wrap it onto N lines
+ // there are leftover chars. do those chars fit on the cur line?
+ // But if we have leading whitespace, we force it to start here.
+ if ((w - start) + ((i - w) % count) <= count || !nonwhite) {
+ // output a full line
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = count;
+ n += 2;
+ start += count;
+ w = start;
+ }
+ else {
+ // output a partial line, trimming trailing whitespace
+ if (s != start) {
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = s - start;
+ n += 2;
+ start = w;
+ }
+ }
+ // now output full lines as needed
+ while (start + count <= i) {
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = count;
+ n += 2;
+ start += count;
+ }
+ }
+ }
+ nonwhite = 1;
+ }
+ if (start < i) {
+ if (n >= pair_max) return -1;
+ if (pairs) pairs[n] = start, pairs[n + 1] = i - start;
+ n += 2;
+ }
+ return n >> 1;
+}
+
+int *stb_wordwrapalloc(int count, char *str)
+{
+ int n = stb_wordwrap(NULL, 0, count, str);
+ int *z = NULL;
+ stb_arr_setlen(z, n * 2);
+ stb_wordwrap(z, n, count, str);
+ return z;
+}
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// stb_match: wildcards and regexping
+//
+
+STB_EXTERN int stb_wildmatch(char *expr, char *candidate);
+STB_EXTERN int stb_wildmatchi(char *expr, char *candidate);
+STB_EXTERN int stb_wildfind(char *expr, char *candidate);
+STB_EXTERN int stb_wildfindi(char *expr, char *candidate);
+
+STB_EXTERN int stb_regex(char *regex, char *candidate);
+
+typedef struct stb_matcher stb_matcher;
+
+STB_EXTERN stb_matcher *stb_regex_matcher(char *regex);
+STB_EXTERN int stb_matcher_match(stb_matcher *m, char *str);
+STB_EXTERN int stb_matcher_find(stb_matcher *m, char *str);
+STB_EXTERN void stb_matcher_free(stb_matcher *f);
+
+STB_EXTERN stb_matcher *stb_lex_matcher(void);
+STB_EXTERN int stb_lex_item(stb_matcher *m, char *str, int result);
+STB_EXTERN int stb_lex_item_wild(stb_matcher *matcher, char *regex, int result);
+STB_EXTERN int stb_lex(stb_matcher *m, char *str, int *len);
+
+
+
+#ifdef STB_DEFINE
+
+static int stb__match_qstring(char *candidate, char *qstring, int qlen, int insensitive)
+{
+ int i;
+ if (insensitive) {
+ for (i = 0; i < qlen; ++i)
+ if (qstring[i] == '?') {
+ if (!candidate[i]) return 0;
+ }
+ else
+ if (tolower(qstring[i]) != tolower(candidate[i]))
+ return 0;
+ }
+ else {
+ for (i = 0; i < qlen; ++i)
+ if (qstring[i] == '?') {
+ if (!candidate[i]) return 0;
+ }
+ else
+ if (qstring[i] != candidate[i])
+ return 0;
+ }
+ return 1;
+}
+
+static int stb__find_qstring(char *candidate, char *qstring, int qlen, int insensitive)
+{
+ char c;
+
+ int offset = 0;
+ while (*qstring == '?') {
+ ++qstring;
+ --qlen;
+ ++candidate;
+ if (qlen == 0) return 0;
+ if (*candidate == 0) return -1;
+ }
+
+ c = *qstring++;
+ --qlen;
+ if (insensitive) c = tolower(c);
+
+ while (candidate[offset]) {
+ if (c == (insensitive ? tolower(candidate[offset]) : candidate[offset]))
+ if (stb__match_qstring(candidate + offset + 1, qstring, qlen, insensitive))
+ return offset;
+ ++offset;
+ }
+
+ return -1;
+}
+
+int stb__wildmatch_raw2(char *expr, char *candidate, int search, int insensitive)
+{
+ int where = 0;
+ int start = -1;
+
+ if (!search) {
+ // parse to first '*'
+ if (*expr != '*')
+ start = 0;
+ while (*expr != '*') {
+ if (!*expr)
+ return *candidate == 0 ? 0 : -1;
+ if (*expr == '?') {
+ if (!*candidate) return -1;
+ }
+ else {
+ if (insensitive) {
+ if (tolower(*candidate) != tolower(*expr))
+ return -1;
+ }
+ else
+ if (*candidate != *expr)
+ return -1;
+ }
+ ++candidate, ++expr, ++where;
+ }
+ }
+ else {
+ // 0-length search string
+ if (!*expr)
+ return 0;
+ }
+
+ assert(search || *expr == '*');
+ if (!search)
+ ++expr;
+
+ // implicit '*' at this point
+
+ while (*expr) {
+ int o = 0;
+ // combine redundant * characters
+ while (expr[0] == '*') ++expr;
+
+ // ok, at this point, expr[-1] == '*',
+ // and expr[0] != '*'
+
+ if (!expr[0]) return start >= 0 ? start : 0;
+
+ // now find next '*'
+ o = 0;
+ while (expr[o] != '*') {
+ if (expr[o] == 0)
+ break;
+ ++o;
+ }
+ // if no '*', scan to end, then match at end
+ if (expr[o] == 0 && !search) {
+ int z;
+ for (z = 0; z < o; ++z)
+ if (candidate[z] == 0)
+ return -1;
+ while (candidate[z])
+ ++z;
+ // ok, now check if they match
+ if (stb__match_qstring(candidate + z - o, expr, o, insensitive))
+ return start >= 0 ? start : 0;
+ return -1;
+ }
+ else {
+ // if yes '*', then do stb__find_qmatch on the intervening chars
+ int n = stb__find_qstring(candidate, expr, o, insensitive);
+ if (n < 0)
+ return -1;
+ if (start < 0)
+ start = where + n;
+ expr += o;
+ candidate += n + o;
+ }
+
+ if (*expr == 0) {
+ assert(search);
+ return start;
+ }
+
+ assert(*expr == '*');
+ ++expr;
+ }
+
+ return start >= 0 ? start : 0;
+}
+
+int stb__wildmatch_raw(char *expr, char *candidate, int search, int insensitive)
+{
+ char buffer[256];
+ // handle multiple search strings
+ char *s = strchr(expr, ';');
+ char *last = expr;
+ while (s) {
+ int z;
+ // need to allow for non-writeable strings... assume they're small
+ if (s - last < 256) {
+ stb_strncpy(buffer, last, s - last + 1);
+ z = stb__wildmatch_raw2(buffer, candidate, search, insensitive);
+ }
+ else {
+ *s = 0;
+ z = stb__wildmatch_raw2(last, candidate, search, insensitive);
+ *s = ';';
+ }
+ if (z >= 0) return z;
+ last = s + 1;
+ s = strchr(last, ';');
+ }
+ return stb__wildmatch_raw2(last, candidate, search, insensitive);
+}
+
+int stb_wildmatch(char *expr, char *candidate)
+{
+ return stb__wildmatch_raw(expr, candidate, 0, 0) >= 0;
+}
+
+int stb_wildmatchi(char *expr, char *candidate)
+{
+ return stb__wildmatch_raw(expr, candidate, 0, 1) >= 0;
+}
+
+int stb_wildfind(char *expr, char *candidate)
+{
+ return stb__wildmatch_raw(expr, candidate, 1, 0);
+}
+
+int stb_wildfindi(char *expr, char *candidate)
+{
+ return stb__wildmatch_raw(expr, candidate, 1, 1);
+}
+
+typedef struct
+{
+ stb_int16 transition[256];
+} stb_dfa;
+
+// an NFA node represents a state you're in; it then has
+// an arbitrary number of edges dangling off of it
+// note this isn't utf8-y
+typedef struct
+{
+ stb_int16 match; // character/set to match
+ stb_uint16 node; // output node to go to
+} stb_nfa_edge;
+
+typedef struct
+{
+ stb_int16 goal; // does reaching this win the prize?
+ stb_uint8 active; // is this in the active list
+ stb_nfa_edge *out;
+ stb_uint16 *eps; // list of epsilon closures
+} stb_nfa_node;
+
+#define STB__DFA_UNDEF -1
+#define STB__DFA_GOAL -2
+#define STB__DFA_END -3
+#define STB__DFA_MGOAL -4
+#define STB__DFA_VALID 0
+
+#define STB__NFA_STOP_GOAL -1
+
+// compiled regexp
+struct stb_matcher
+{
+ stb_uint16 start_node;
+ stb_int16 dfa_start;
+ stb_uint32 *charset;
+ int num_charset;
+ int match_start;
+ stb_nfa_node *nodes;
+ int does_lex;
+
+ // dfa matcher
+ stb_dfa * dfa;
+ stb_uint32 * dfa_mapping;
+ stb_int16 * dfa_result;
+ int num_words_per_dfa;
+};
+
+static int stb__add_node(stb_matcher *matcher)
+{
+ stb_nfa_node z;
+ z.active = 0;
+ z.eps = 0;
+ z.goal = 0;
+ z.out = 0;
+ stb_arr_push(matcher->nodes, z);
+ return stb_arr_len(matcher->nodes) - 1;
+}
+
+static void stb__add_epsilon(stb_matcher *matcher, int from, int to)
+{
+ assert(from != to);
+ if (matcher->nodes[from].eps == NULL)
+ stb_arr_malloc((void **)&matcher->nodes[from].eps, matcher);
+ stb_arr_push(matcher->nodes[from].eps, to);
+}
+
+static void stb__add_edge(stb_matcher *matcher, int from, int to, int type)
+{
+ stb_nfa_edge z = { (stb_int16)type, (stb_uint16)to };
+ if (matcher->nodes[from].out == NULL)
+ stb_arr_malloc((void **)&matcher->nodes[from].out, matcher);
+ stb_arr_push(matcher->nodes[from].out, z);
+}
+
+static char *stb__reg_parse_alt(stb_matcher *m, int s, char *r, stb_uint16 *e);
+static char *stb__reg_parse(stb_matcher *matcher, int start, char *regex, stb_uint16 *end)
+{
+ int n;
+ int last_start = -1;
+ stb_uint16 last_end = start;
+
+ while (*regex) {
+ switch (*regex) {
+ case '(':
+ last_start = last_end;
+ regex = stb__reg_parse_alt(matcher, last_end, regex + 1, &last_end);
+ if (regex == NULL || *regex != ')')
+ return NULL;
+ ++regex;
+ break;
+
+ case '|':
+ case ')':
+ *end = last_end;
+ return regex;
+
+ case '?':
+ if (last_start < 0) return NULL;
+ stb__add_epsilon(matcher, last_start, last_end);
+ ++regex;
+ break;
+
+ case '*':
+ if (last_start < 0) return NULL;
+ stb__add_epsilon(matcher, last_start, last_end);
+
+ // fall through
+
+ case '+':
+ if (last_start < 0) return NULL;
+ stb__add_epsilon(matcher, last_end, last_start);
+ // prevent links back to last_end from chaining to last_start
+ n = stb__add_node(matcher);
+ stb__add_epsilon(matcher, last_end, n);
+ last_end = n;
+ ++regex;
+ break;
+
+ case '{': // not supported!
+ // @TODO: given {n,m}, clone last_start to last_end m times,
+ // and include epsilons from start to first m-n blocks
+ return NULL;
+
+ case '\\':
+ ++regex;
+ if (!*regex) return NULL;
+
+ // fallthrough
+ default: // match exactly this character
+ n = stb__add_node(matcher);
+ stb__add_edge(matcher, last_end, n, *regex);
+ last_start = last_end;
+ last_end = n;
+ ++regex;
+ break;
+
+ case '$':
+ n = stb__add_node(matcher);
+ stb__add_edge(matcher, last_end, n, '\n');
+ last_start = last_end;
+ last_end = n;
+ ++regex;
+ break;
+
+ case '.':
+ n = stb__add_node(matcher);
+ stb__add_edge(matcher, last_end, n, -1);
+ last_start = last_end;
+ last_end = n;
+ ++regex;
+ break;
+
+ case '[': {
+ stb_uint8 flags[256];
+ int invert = 0, z;
+ ++regex;
+ if (matcher->num_charset == 0) {
+ matcher->charset = (stb_uint *)stb_malloc(matcher, sizeof(*matcher->charset) * 256);
+ memset(matcher->charset, 0, sizeof(*matcher->charset) * 256);
+ }
+
+ memset(flags, 0, sizeof(flags));
+
+ // leading ^ is special
+ if (*regex == '^')
+ ++regex, invert = 1;
+
+ // leading ] is special
+ if (*regex == ']') {
+ flags[']'] = 1;
+ ++regex;
+ }
+ while (*regex != ']') {
+ stb_uint a;
+ if (!*regex) return NULL;
+ a = *regex++;
+ if (regex[0] == '-' && regex[1] != ']') {
+ stb_uint i, b = regex[1];
+ regex += 2;
+ if (b == 0) return NULL;
+ if (a > b) return NULL;
+ for (i = a; i <= b; ++i)
+ flags[i] = 1;
+ }
+ else
+ flags[a] = 1;
+ }
+ ++regex;
+ if (invert) {
+ int i;
+ for (i = 0; i < 256; ++i)
+ flags[i] = 1 - flags[i];
+ }
+
+ // now check if any existing charset matches
+ for (z = 0; z < matcher->num_charset; ++z) {
+ int i, k[2] = { 0, 1 << z };
+ for (i = 0; i < 256; ++i) {
+ unsigned int f = k[flags[i]];
+ if ((matcher->charset[i] & k[1]) != f)
+ break;
+ }
+ if (i == 256) break;
+ }
+
+ if (z == matcher->num_charset) {
+ int i;
+ ++matcher->num_charset;
+ if (matcher->num_charset > 32) {
+ assert(0); /* NOTREACHED */
+ return NULL; // too many charsets, oops
+ }
+ for (i = 0; i < 256; ++i)
+ if (flags[i])
+ matcher->charset[i] |= (1 << z);
+ }
+
+ n = stb__add_node(matcher);
+ stb__add_edge(matcher, last_end, n, -2 - z);
+ last_start = last_end;
+ last_end = n;
+ break;
+ }
+ }
+ }
+ *end = last_end;
+ return regex;
+}
+
+static char *stb__reg_parse_alt(stb_matcher *matcher, int start, char *regex, stb_uint16 *end)
+{
+ stb_uint16 last_end = start;
+ stb_uint16 main_end;
+
+ int head, tail;
+
+ head = stb__add_node(matcher);
+ stb__add_epsilon(matcher, start, head);
+
+ regex = stb__reg_parse(matcher, head, regex, &last_end);
+ if (regex == NULL) return NULL;
+ if (*regex == 0 || *regex == ')') {
+ *end = last_end;
+ return regex;
+ }
+
+ main_end = last_end;
+ tail = stb__add_node(matcher);
+
+ stb__add_epsilon(matcher, last_end, tail);
+
+ // start alternatives from the same starting node; use epsilon
+ // transitions to combine their endings
+ while (*regex && *regex != ')') {
+ assert(*regex == '|');
+ head = stb__add_node(matcher);
+ stb__add_epsilon(matcher, start, head);
+ regex = stb__reg_parse(matcher, head, regex + 1, &last_end);
+ if (regex == NULL)
+ return NULL;
+ stb__add_epsilon(matcher, last_end, tail);
+ }
+
+ *end = tail;
+ return regex;
+}
+
+static char *stb__wild_parse(stb_matcher *matcher, int start, char *str, stb_uint16 *end)
+{
+ int n;
+ stb_uint16 last_end;
+
+ last_end = stb__add_node(matcher);
+ stb__add_epsilon(matcher, start, last_end);
+
+ while (*str) {
+ switch (*str) {
+ // fallthrough
+ default: // match exactly this character
+ n = stb__add_node(matcher);
+ if (toupper(*str) == tolower(*str)) {
+ stb__add_edge(matcher, last_end, n, *str);
+ }
+ else {
+ stb__add_edge(matcher, last_end, n, tolower(*str));
+ stb__add_edge(matcher, last_end, n, toupper(*str));
+ }
+ last_end = n;
+ ++str;
+ break;
+
+ case '?':
+ n = stb__add_node(matcher);
+ stb__add_edge(matcher, last_end, n, -1);
+ last_end = n;
+ ++str;
+ break;
+
+ case '*':
+ n = stb__add_node(matcher);
+ stb__add_edge(matcher, last_end, n, -1);
+ stb__add_epsilon(matcher, last_end, n);
+ stb__add_epsilon(matcher, n, last_end);
+ last_end = n;
+ ++str;
+ break;
+ }
+ }
+
+ // now require end of string to match
+ n = stb__add_node(matcher);
+ stb__add_edge(matcher, last_end, n, 0);
+ last_end = n;
+
+ *end = last_end;
+ return str;
+}
+
+static int stb__opt(stb_matcher *m, int n)
+{
+ for (;;) {
+ stb_nfa_node *p = &m->nodes[n];
+ if (p->goal) return n;
+ if (stb_arr_len(p->out)) return n;
+ if (stb_arr_len(p->eps) != 1) return n;
+ n = p->eps[0];
+ }
+}
+
+static void stb__optimize(stb_matcher *m)
+{
+ // if the target of any edge is a node with exactly
+ // one out-epsilon, shorten it
+ int i, j;
+ for (i = 0; i < stb_arr_len(m->nodes); ++i) {
+ stb_nfa_node *p = &m->nodes[i];
+ for (j = 0; j < stb_arr_len(p->out); ++j)
+ p->out[j].node = stb__opt(m, p->out[j].node);
+ for (j = 0; j < stb_arr_len(p->eps); ++j)
+ p->eps[j] = stb__opt(m, p->eps[j]);
+ }
+ m->start_node = stb__opt(m, m->start_node);
+}
+
+void stb_matcher_free(stb_matcher *f)
+{
+ stb_free(f);
+}
+
+static stb_matcher *stb__alloc_matcher(void)
+{
+ stb_matcher *matcher = (stb_matcher *)stb_malloc(0, sizeof(*matcher));
+
+ matcher->start_node = 0;
+ stb_arr_malloc((void **)&matcher->nodes, matcher);
+ matcher->num_charset = 0;
+ matcher->match_start = 0;
+ matcher->does_lex = 0;
+
+ matcher->dfa_start = STB__DFA_UNDEF;
+ stb_arr_malloc((void **)&matcher->dfa, matcher);
+ stb_arr_malloc((void **)&matcher->dfa_mapping, matcher);
+ stb_arr_malloc((void **)&matcher->dfa_result, matcher);
+
+ stb__add_node(matcher);
+
+ return matcher;
+}
+
+static void stb__lex_reset(stb_matcher *matcher)
+{
+ // flush cached dfa data
+ stb_arr_setlen(matcher->dfa, 0);
+ stb_arr_setlen(matcher->dfa_mapping, 0);
+ stb_arr_setlen(matcher->dfa_result, 0);
+ matcher->dfa_start = STB__DFA_UNDEF;
+}
+
+stb_matcher *stb_regex_matcher(char *regex)
+{
+ char *z;
+ stb_uint16 end;
+ stb_matcher *matcher = stb__alloc_matcher();
+ if (*regex == '^') {
+ matcher->match_start = 1;
+ ++regex;
+ }
+
+ z = stb__reg_parse_alt(matcher, matcher->start_node, regex, &end);
+
+ if (!z || *z) {
+ stb_free(matcher);
+ return NULL;
+ }
+
+ ((matcher->nodes)[(int)end]).goal = STB__NFA_STOP_GOAL;
+
+ return matcher;
+}
+
+stb_matcher *stb_lex_matcher(void)
+{
+ stb_matcher *matcher = stb__alloc_matcher();
+
+ matcher->match_start = 1;
+ matcher->does_lex = 1;
+
+ return matcher;
+}
+
+int stb_lex_item(stb_matcher *matcher, char *regex, int result)
+{
+ char *z;
+ stb_uint16 end;
+
+ z = stb__reg_parse_alt(matcher, matcher->start_node, regex, &end);
+
+ if (z == NULL)
+ return 0;
+
+ stb__lex_reset(matcher);
+
+ matcher->nodes[(int)end].goal = result;
+ return 1;
+}
+
+int stb_lex_item_wild(stb_matcher *matcher, char *regex, int result)
+{
+ char *z;
+ stb_uint16 end;
+
+ z = stb__wild_parse(matcher, matcher->start_node, regex, &end);
+
+ if (z == NULL)
+ return 0;
+
+ stb__lex_reset(matcher);
+
+ matcher->nodes[(int)end].goal = result;
+ return 1;
+}
+
+static void stb__clear(stb_matcher *m, stb_uint16 *list)
+{
+ int i;
+ for (i = 0; i < stb_arr_len(list); ++i)
+ m->nodes[(int)list[i]].active = 0;
+}
+
+static int stb__clear_goalcheck(stb_matcher *m, stb_uint16 *list)
+{
+ int i, t = 0;
+ for (i = 0; i < stb_arr_len(list); ++i) {
+ t += m->nodes[(int)list[i]].goal;
+ m->nodes[(int)list[i]].active = 0;
+ }
+ return t;
+}
+
+static stb_uint16 * stb__add_if_inactive(stb_matcher *m, stb_uint16 *list, int n)
+{
+ if (!m->nodes[n].active) {
+ stb_arr_push(list, n);
+ m->nodes[n].active = 1;
+ }
+ return list;
+}
+
+static stb_uint16 * stb__eps_closure(stb_matcher *m, stb_uint16 *list)
+{
+ int i, n = stb_arr_len(list);
+
+ for (i = 0; i < n; ++i) {
+ stb_uint16 *e = m->nodes[(int)list[i]].eps;
+ if (e) {
+ int j, k = stb_arr_len(e);
+ for (j = 0; j < k; ++j)
+ list = stb__add_if_inactive(m, list, e[j]);
+ n = stb_arr_len(list);
+ }
+ }
+
+ return list;
+}
+
+int stb_matcher_match(stb_matcher *m, char *str)
+{
+ int result = 0;
+ int i, j, y, z;
+ stb_uint16 *previous = NULL;
+ stb_uint16 *current = NULL;
+ stb_uint16 *temp;
+
+ stb_arr_setsize(previous, 4);
+ stb_arr_setsize(current, 4);
+
+ previous = stb__add_if_inactive(m, previous, m->start_node);
+ previous = stb__eps_closure(m, previous);
+ stb__clear(m, previous);
+
+ while (*str && stb_arr_len(previous)) {
+ y = stb_arr_len(previous);
+ for (i = 0; i < y; ++i) {
+ stb_nfa_node *n = &m->nodes[(int)previous[i]];
+ z = stb_arr_len(n->out);
+ for (j = 0; j < z; ++j) {
+ if (n->out[j].match >= 0) {
+ if (n->out[j].match == *str)
+ current = stb__add_if_inactive(m, current, n->out[j].node);
+ }
+ else if (n->out[j].match == -1) {
+ if (*str != '\n')
+ current = stb__add_if_inactive(m, current, n->out[j].node);
+ }
+ else if (n->out[j].match < -1) {
+ int z = -n->out[j].match - 2;
+ if (m->charset[(stb_uint8)*str] & (1 << z))
+ current = stb__add_if_inactive(m, current, n->out[j].node);
+ }
+ }
+ }
+ stb_arr_setlen(previous, 0);
+
+ temp = previous;
+ previous = current;
+ current = temp;
+
+ previous = stb__eps_closure(m, previous);
+ stb__clear(m, previous);
+
+ ++str;
+ }
+
+ // transition to pick up a '$' at the end
+ y = stb_arr_len(previous);
+ for (i = 0; i < y; ++i)
+ m->nodes[(int)previous[i]].active = 1;
+
+ for (i = 0; i < y; ++i) {
+ stb_nfa_node *n = &m->nodes[(int)previous[i]];
+ z = stb_arr_len(n->out);
+ for (j = 0; j < z; ++j) {
+ if (n->out[j].match == '\n')
+ current = stb__add_if_inactive(m, current, n->out[j].node);
+ }
+ }
+
+ previous = stb__eps_closure(m, previous);
+ stb__clear(m, previous);
+
+ y = stb_arr_len(previous);
+ for (i = 0; i < y; ++i)
+ if (m->nodes[(int)previous[i]].goal)
+ result = 1;
+
+ stb_arr_free(previous);
+ stb_arr_free(current);
+
+ return result && *str == 0;
+}
+
+stb_int16 stb__get_dfa_node(stb_matcher *m, stb_uint16 *list)
+{
+ stb_uint16 node;
+ stb_uint32 data[8], *state, *newstate;
+ int i, j, n;
+
+ state = (stb_uint32 *)stb_temp(data, m->num_words_per_dfa * 4);
+ memset(state, 0, m->num_words_per_dfa * 4);
+
+ n = stb_arr_len(list);
+ for (i = 0; i < n; ++i) {
+ int x = list[i];
+ state[x >> 5] |= 1 << (x & 31);
+ }
+
+ // @TODO use a hash table
+ n = stb_arr_len(m->dfa_mapping);
+ i = j = 0;
+ for (; j < n; ++i, j += m->num_words_per_dfa) {
+ // @TODO special case for <= 32
+ if (!memcmp(state, m->dfa_mapping + j, m->num_words_per_dfa * 4)) {
+ node = i;
+ goto done;
+ }
+ }
+
+ assert(stb_arr_len(m->dfa) == i);
+ node = i;
+
+ newstate = stb_arr_addn(m->dfa_mapping, m->num_words_per_dfa);
+ memcpy(newstate, state, m->num_words_per_dfa * 4);
+
+ // set all transitions to 'unknown'
+ stb_arr_add(m->dfa);
+ memset(m->dfa[i].transition, -1, sizeof(m->dfa[i].transition));
+
+ if (m->does_lex) {
+ int result = -1;
+ n = stb_arr_len(list);
+ for (i = 0; i < n; ++i) {
+ if (m->nodes[(int)list[i]].goal > result)
+ result = m->nodes[(int)list[i]].goal;
+ }
+
+ stb_arr_push(m->dfa_result, result);
+ }
+
+done:
+ stb_tempfree(data, state);
+ return node;
+}
+
+static int stb__matcher_dfa(stb_matcher *m, char *str_c, int *len)
+{
+ stb_uint8 *str = (stb_uint8 *)str_c;
+ stb_int16 node, prevnode;
+ stb_dfa *trans;
+ int match_length = 0;
+ stb_int16 match_result = 0;
+
+ if (m->dfa_start == STB__DFA_UNDEF) {
+ stb_uint16 *list;
+
+ m->num_words_per_dfa = (stb_arr_len(m->nodes) + 31) >> 5;
+ stb__optimize(m);
+
+ list = stb__add_if_inactive(m, NULL, m->start_node);
+ list = stb__eps_closure(m, list);
+ if (m->does_lex) {
+ m->dfa_start = stb__get_dfa_node(m, list);
+ stb__clear(m, list);
+ // DON'T allow start state to be a goal state!
+ // this allows people to specify regexes that can match 0
+ // characters without them actually matching (also we don't
+ // check _before_ advancing anyway
+ if (m->dfa_start <= STB__DFA_MGOAL)
+ m->dfa_start = -(m->dfa_start - STB__DFA_MGOAL);
+ }
+ else {
+ if (stb__clear_goalcheck(m, list))
+ m->dfa_start = STB__DFA_GOAL;
+ else
+ m->dfa_start = stb__get_dfa_node(m, list);
+ }
+ stb_arr_free(list);
+ }
+
+ prevnode = STB__DFA_UNDEF;
+ node = m->dfa_start;
+ trans = m->dfa;
+
+ if (m->dfa_start == STB__DFA_GOAL)
+ return 1;
+
+ for (;;) {
+ assert(node >= STB__DFA_VALID);
+
+ // fast inner DFA loop; especially if STB__DFA_VALID is 0
+
+ do {
+ prevnode = node;
+ node = trans[node].transition[*str++];
+ } while (node >= STB__DFA_VALID);
+
+ assert(node >= STB__DFA_MGOAL - stb_arr_len(m->dfa));
+ assert(node < stb_arr_len(m->dfa));
+
+ // special case for lex: need _longest_ match, so notice goal
+ // state without stopping
+ if (node <= STB__DFA_MGOAL) {
+ match_length = str - (stb_uint8 *)str_c;
+ node = -(node - STB__DFA_MGOAL);
+ match_result = node;
+ continue;
+ }
+
+ // slow NFA->DFA conversion
+
+ // or we hit the goal or the end of the string, but those
+ // can only happen once per search...
+
+ if (node == STB__DFA_UNDEF) {
+ // build a list -- @TODO special case <= 32 states
+ // heck, use a more compact data structure for <= 16 and <= 8 ?!
+
+ // @TODO keep states/newstates around instead of reallocating them
+ stb_uint16 *states = NULL;
+ stb_uint16 *newstates = NULL;
+ int i, j, y, z;
+ stb_uint32 *flags = &m->dfa_mapping[prevnode * m->num_words_per_dfa];
+ assert(prevnode != STB__DFA_UNDEF);
+ stb_arr_setsize(states, 4);
+ stb_arr_setsize(newstates, 4);
+ for (j = 0; j < m->num_words_per_dfa; ++j) {
+ for (i = 0; i < 32; ++i) {
+ if (*flags & (1 << i))
+ stb_arr_push(states, j * 32 + i);
+ }
+ ++flags;
+ }
+ // states is now the states we were in in the previous node;
+ // so now we can compute what node it transitions to on str[-1]
+
+ y = stb_arr_len(states);
+ for (i = 0; i < y; ++i) {
+ stb_nfa_node *n = &m->nodes[(int)states[i]];
+ z = stb_arr_len(n->out);
+ for (j = 0; j < z; ++j) {
+ if (n->out[j].match >= 0) {
+ if (n->out[j].match == str[-1] || (str[-1] == 0 && n->out[j].match == '\n'))
+ newstates = stb__add_if_inactive(m, newstates, n->out[j].node);
+ }
+ else if (n->out[j].match == -1) {
+ if (str[-1] != '\n' && str[-1])
+ newstates = stb__add_if_inactive(m, newstates, n->out[j].node);
+ }
+ else if (n->out[j].match < -1) {
+ int z = -n->out[j].match - 2;
+ if (m->charset[str[-1]] & (1 << z))
+ newstates = stb__add_if_inactive(m, newstates, n->out[j].node);
+ }
+ }
+ }
+ // AND add in the start state!
+ if (!m->match_start || (str[-1] == '\n' && !m->does_lex))
+ newstates = stb__add_if_inactive(m, newstates, m->start_node);
+ // AND epsilon close it
+ newstates = stb__eps_closure(m, newstates);
+ // if it's a goal state, then that's all there is to it
+ if (stb__clear_goalcheck(m, newstates)) {
+ if (m->does_lex) {
+ match_length = str - (stb_uint8 *)str_c;
+ node = stb__get_dfa_node(m, newstates);
+ match_result = node;
+ node = -node + STB__DFA_MGOAL;
+ trans = m->dfa; // could have gotten realloc()ed
+ }
+ else
+ node = STB__DFA_GOAL;
+ }
+ else if (str[-1] == 0 || stb_arr_len(newstates) == 0) {
+ node = STB__DFA_END;
+ }
+ else {
+ node = stb__get_dfa_node(m, newstates);
+ trans = m->dfa; // could have gotten realloc()ed
+ }
+ trans[prevnode].transition[str[-1]] = node;
+ if (node <= STB__DFA_MGOAL)
+ node = -(node - STB__DFA_MGOAL);
+ stb_arr_free(newstates);
+ stb_arr_free(states);
+ }
+
+ if (node == STB__DFA_GOAL) {
+ return 1;
+ }
+ if (node == STB__DFA_END) {
+ if (m->does_lex) {
+ if (match_result) {
+ if (len) *len = match_length;
+ return m->dfa_result[(int)match_result];
+ }
+ }
+ return 0;
+ }
+
+ assert(node != STB__DFA_UNDEF);
+ }
+}
+
+int stb_matcher_find(stb_matcher *m, char *str)
+{
+ assert(m->does_lex == 0);
+ return stb__matcher_dfa(m, str, NULL);
+}
+
+int stb_lex(stb_matcher *m, char *str, int *len)
+{
+ assert(m->does_lex);
+ return stb__matcher_dfa(m, str, len);
+}
+
+int stb_regex(char *regex, char *str)
+{
+ static stb_perfect p;
+ static stb_matcher ** matchers;
+ static char ** regexps;
+ static char ** regexp_cache;
+ static unsigned short *mapping;
+ int z = stb_perfect_hash(&p, (int)(size_t)regex);
+ if (z >= 0) {
+ if (strcmp(regex, regexp_cache[(int)mapping[z]])) {
+ int i = mapping[z];
+ stb_matcher_free(matchers[i]);
+ free(regexp_cache[i]);
+ regexps[i] = regex;
+ regexp_cache[i] = strdup(regex);
+ matchers[i] = stb_regex_matcher(regex);
+ }
+ }
+ else {
+ int i, n;
+ if (regex == NULL) {
+ for (i = 0; i < stb_arr_len(matchers); ++i) {
+ stb_matcher_free(matchers[i]);
+ free(regexp_cache[i]);
+ }
+ stb_arr_free(matchers);
+ stb_arr_free(regexps);
+ stb_arr_free(regexp_cache);
+ stb_perfect_destroy(&p);
+ free(mapping); mapping = NULL;
+ return -1;
+ }
+ stb_arr_push(regexps, regex);
+ stb_arr_push(regexp_cache, strdup(regex));
+ stb_arr_push(matchers, stb_regex_matcher(regex));
+ stb_perfect_destroy(&p);
+ n = stb_perfect_create(&p, (unsigned int *)(char **)regexps, stb_arr_len(regexps));
+ mapping = (unsigned short *)realloc(mapping, n * sizeof(*mapping));
+ for (i = 0; i < stb_arr_len(regexps); ++i)
+ mapping[stb_perfect_hash(&p, (int)(size_t)regexps[i])] = i;
+ z = stb_perfect_hash(&p, (int)(size_t)regex);
+ }
+ return stb_matcher_find(matchers[(int)mapping[z]], str);
+}
+
+#endif // STB_DEFINE
+
+
+#if 0
+//////////////////////////////////////////////////////////////////////////////
+//
+// C source-code introspection
+//
+
+// runtime structure
+typedef struct
+{
+ char *name;
+ char *type; // base type
+ char *comment; // content of comment field
+ int size; // size of base type
+ int offset; // field offset
+ int arrcount[8]; // array sizes; -1 = pointer indirection; 0 = end of list
+} stb_info_field;
+
+typedef struct
+{
+ char *structname;
+ int size;
+ int num_fields;
+ stb_info_field *fields;
+} stb_info_struct;
+
+extern stb_info_struct stb_introspect_output[];
+
+//
+
+STB_EXTERN void stb_introspect_precompiled(stb_info_struct *compiled);
+STB_EXTERN void stb__introspect(char *path, char *file);
+
+#define stb_introspect_ship() stb__introspect(NULL, NULL, stb__introspect_output)
+
+#ifdef STB_SHIP
+#define stb_introspect() stb_introspect_ship()
+#define stb_introspect_path(p) stb_introspect_ship()
+#else
+// bootstrapping: define stb_introspect() (or 'path') the first time
+#define stb_introspect() stb__introspect(NULL, __FILE__, NULL)
+#define stb_introspect_auto() stb__introspect(NULL, __FILE__, stb__introspect_output)
+
+#define stb_introspect_path(p) stb__introspect(p, __FILE__, NULL)
+#define stb_introspect_path(p) stb__introspect(p, __FILE__, NULL)
+#endif
+
+#ifdef STB_DEFINE
+
+#ifndef STB_INTROSPECT_CPP
+#ifdef __cplusplus
+#define STB_INTROSPECT_CPP 1
+#else
+#define STB_INTROSPECT_CPP 0
+#endif
+#endif
+
+void stb_introspect_precompiled(stb_info_struct *compiled)
+{
+
+}
+
+
+static void stb__introspect_filename(char *buffer, char *path)
+{
+#if STB_INTROSPECT_CPP
+ sprintf(buffer, "%s/stb_introspect.cpp", path);
+#else
+ sprintf(buffer, "%s/stb_introspect.c", path);
+#endif
+}
+
+static void stb__introspect_compute(char *path, char *file)
+{
+ int i;
+ char ** include_list = NULL;
+ char ** introspect_list = NULL;
+ FILE *f;
+ f = fopen(file, "w");
+ if (!f) return;
+
+ fputs("// if you get compiler errors, change the following 0 to a 1:\n", f);
+ fputs("#define STB_INTROSPECT_INVALID 0\n\n", f);
+ fputs("// this will force the code to compile, and force the introspector\n", f);
+ fputs("// to run and then exit, allowing you to recompile\n\n\n", f);
+ fputs("#include \"stb.h\"\n\n", f);
+ fputs("#if STB_INTROSPECT_INVALID\n", f);
+ fputs(" stb_info_struct stb__introspect_output[] = { (void *) 1 }\n", f);
+ fputs("#else\n\n", f);
+ for (i = 0; i < stb_arr_len(include_list); ++i)
+ fprintf(f, " #include \"%s\"\n", include_list[i]);
+
+ fputs(" stb_info_struct stb__introspect_output[] =\n{\n", f);
+ for (i = 0; i < stb_arr_len(introspect_list); ++i)
+ fprintf(f, " stb_introspect_%s,\n", introspect_list[i]);
+ fputs(" };\n", f);
+ fputs("#endif\n", f);
+ fclose(f);
+}
+
+static stb_info_struct *stb__introspect_info;
+
+#ifndef STB_SHIP
+
+#endif
+
+void stb__introspect(char *path, char *file, stb_info_struct *compiled)
+{
+ static int first = 1;
+ if (!first) return;
+ first = 0;
+
+ stb__introspect_info = compiled;
+
+#ifndef STB_SHIP
+ if (path || file) {
+ int bail_flag = compiled && compiled[0].structname == (void *)1;
+ int needs_building = bail_flag;
+ struct stb__stat st;
+ char buffer[1024], buffer2[1024];
+ if (!path) {
+ stb_splitpath(buffer, file, STB_PATH);
+ path = buffer;
+ }
+ // bail if the source path doesn't exist
+ if (!stb_fexists(path)) return;
+
+ stb__introspect_filename(buffer2, path);
+
+ // get source/include files timestamps, compare to output-file timestamp;
+ // if mismatched, regenerate
+
+ if (stb__stat(buffer2, &st))
+ needs_building = STB_TRUE;
+
+ {
+ // find any file that contains an introspection command and is newer
+ // if needs_building is already true, we don't need to do this test,
+ // but we still need these arrays, so go ahead and get them
+ char **all[3];
+ all[0] = stb_readdir_files_mask(path, "*.h");
+ all[1] = stb_readdir_files_mask(path, "*.c");
+ all[2] = stb_readdir_files_mask(path, "*.cpp");
+ int i, j;
+ if (needs_building) {
+ for (j = 0; j < 3; ++j) {
+ for (i = 0; i < stb_arr_len(all[j]); ++i) {
+ struct stb__stat st2;
+ if (!stb__stat(all[j][i], &st2)) {
+ if (st.st_mtime < st2.st_mtime) {
+ char *z = stb_filec(all[j][i], NULL);
+ int found = STB_FALSE;
+ while (y) {
+ y = strstr(y, "//si");
+ if (y && isspace(y[4])) {
+ found = STB_TRUE;
+ break;
+ }
+ }
+ needs_building = STB_TRUE;
+ goto done;
+ }
+ }
+ }
+ }
+ done:;
+ }
+ char *z = stb_filec(all[i], NULL), *y = z;
+ int found = STB_FALSE;
+ while (y) {
+ y = strstr(y, "//si");
+ if (y && isspace(y[4])) {
+ found = STB_TRUE;
+ break;
+ }
+ }
+ if (found)
+ stb_arr_push(introspect_h, strdup(all[i]));
+ free(z);
+ }
+ }
+ stb_readdir_free(all);
+ if (!needs_building) {
+ for (i = 0; i < stb_arr_len(introspect_h); ++i) {
+ struct stb__stat st2;
+ if (!stb__stat(introspect_h[i], &st2))
+ if (st.st_mtime < st2.st_mtime)
+ needs_building = STB_TRUE;
+ }
+ }
+
+ if (needs_building) {
+ stb__introspect_compute(path, buffer2);
+ }
+}
+ }
+#endif
+}
+#endif
+#endif
+
+#ifdef STB_INTROSPECT
+// compile-time code-generator
+#define INTROSPECT(x) int main(int argc, char **argv) { stb__introspect(__FILE__); return 0; }
+#define FILE(x)
+
+void stb__introspect(char *filename)
+{
+ char *file = stb_file(filename, NULL);
+ char *s = file, *t, **p;
+ char *out_name = "stb_introspect.c";
+ char *out_path;
+ STB_ARR(char) filelist = NULL;
+ int i, n;
+ if (!file) stb_fatal("Couldn't open %s", filename);
+
+ out_path = stb_splitpathdup(filename, STB_PATH);
+
+ // search for the macros
+ while (*s) {
+ char buffer[256];
+ while (*s && !isupper(*s)) ++s;
+ s = stb_strtok_invert(buffer, s, "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
+ s = stb_skipwhite(s);
+ if (*s == '(') {
+ ++s;
+ t = strchr(s, ')');
+ if (t == NULL) stb_fatal("Error parsing %s", filename);
+
+ }
+ }
+}
+
+
+
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// STB-C sliding-window dictionary compression
+//
+// This uses a DEFLATE-style sliding window, but no bitwise entropy.
+// Everything is on byte boundaries, so you could then apply a byte-wise
+// entropy code, though that's nowhere near as effective.
+//
+// An STB-C stream begins with a 16-byte header:
+// 4 bytes: 0x57 0xBC 0x00 0x00
+// 8 bytes: big-endian size of decompressed data, 64-bits
+// 4 bytes: big-endian size of window (how far back decompressor may need)
+//
+// The following symbols appear in the stream (these were determined ad hoc,
+// not by analysis):
+//
+// [dict] 00000100 yyyyyyyy yyyyyyyy yyyyyyyy xxxxxxxx xxxxxxxx
+// [END] 00000101 11111010 cccccccc cccccccc cccccccc cccccccc
+// [dict] 00000110 yyyyyyyy yyyyyyyy yyyyyyyy xxxxxxxx
+// [literals] 00000111 zzzzzzzz zzzzzzzz
+// [literals] 00001zzz zzzzzzzz
+// [dict] 00010yyy yyyyyyyy yyyyyyyy xxxxxxxx xxxxxxxx
+// [dict] 00011yyy yyyyyyyy yyyyyyyy xxxxxxxx
+// [literals] 001zzzzz
+// [dict] 01yyyyyy yyyyyyyy xxxxxxxx
+// [dict] 1xxxxxxx yyyyyyyy
+//
+// xxxxxxxx: match length - 1
+// yyyyyyyy: backwards distance - 1
+// zzzzzzzz: num literals - 1
+// cccccccc: adler32 checksum of decompressed data
+// (all big-endian)
+
+
+STB_EXTERN stb_uint stb_decompress_length(stb_uchar *input);
+STB_EXTERN stb_uint stb_decompress(stb_uchar *out, stb_uchar *in, stb_uint len);
+STB_EXTERN stb_uint stb_compress(stb_uchar *out, stb_uchar *in, stb_uint len);
+STB_EXTERN void stb_compress_window(int z);
+STB_EXTERN void stb_compress_hashsize(unsigned int z);
+
+STB_EXTERN int stb_compress_tofile(char *filename, char *in, stb_uint len);
+STB_EXTERN int stb_compress_intofile(FILE *f, char *input, stb_uint len);
+STB_EXTERN char *stb_decompress_fromfile(char *filename, stb_uint *len);
+
+STB_EXTERN int stb_compress_stream_start(FILE *f);
+STB_EXTERN void stb_compress_stream_end(int close);
+STB_EXTERN void stb_write(char *data, int data_len);
+
+#ifdef STB_DEFINE
+
+stb_uint stb_decompress_length(stb_uchar *input)
+{
+ return (input[8] << 24) + (input[9] << 16) + (input[10] << 8) + input[11];
+}
+
+//////////////////// decompressor ///////////////////////
+
+// simple implementation that just writes whole thing into big block
+
+static unsigned char *stb__barrier;
+static unsigned char *stb__barrier2;
+static unsigned char *stb__barrier3;
+static unsigned char *stb__barrier4;
+
+static stb_uchar *stb__dout;
+static void stb__match(stb_uchar *data, stb_uint length)
+{
+ // INVERSE of memmove... write each byte before copying the next...
+ assert(stb__dout + length <= stb__barrier);
+ if (stb__dout + length > stb__barrier) { stb__dout += length; return; }
+ if (data < stb__barrier4) { stb__dout = stb__barrier + 1; return; }
+ while (length--) *stb__dout++ = *data++;
+}
+
+static void stb__lit(stb_uchar *data, stb_uint length)
+{
+ assert(stb__dout + length <= stb__barrier);
+ if (stb__dout + length > stb__barrier) { stb__dout += length; return; }
+ if (data < stb__barrier2) { stb__dout = stb__barrier + 1; return; }
+ memcpy(stb__dout, data, length);
+ stb__dout += length;
+}
+
+#define stb__in2(x) ((i[x] << 8) + i[(x)+1])
+#define stb__in3(x) ((i[x] << 16) + stb__in2((x)+1))
+#define stb__in4(x) ((i[x] << 24) + stb__in3((x)+1))
+
+static stb_uchar *stb_decompress_token(stb_uchar *i)
+{
+ if (*i >= 0x20) { // use fewer if's for cases that expand small
+ if (*i >= 0x80) stb__match(stb__dout - i[1] - 1, i[0] - 0x80 + 1), i += 2;
+ else if (*i >= 0x40) stb__match(stb__dout - (stb__in2(0) - 0x4000 + 1), i[2] + 1), i += 3;
+ else /* *i >= 0x20 */ stb__lit(i + 1, i[0] - 0x20 + 1), i += 1 + (i[0] - 0x20 + 1);
+ }
+ else { // more ifs for cases that expand large, since overhead is amortized
+ if (*i >= 0x18) stb__match(stb__dout - (stb__in3(0) - 0x180000 + 1), i[3] + 1), i += 4;
+ else if (*i >= 0x10) stb__match(stb__dout - (stb__in3(0) - 0x100000 + 1), stb__in2(3) + 1), i += 5;
+ else if (*i >= 0x08) stb__lit(i + 2, stb__in2(0) - 0x0800 + 1), i += 2 + (stb__in2(0) - 0x0800 + 1);
+ else if (*i == 0x07) stb__lit(i + 3, stb__in2(1) + 1), i += 3 + (stb__in2(1) + 1);
+ else if (*i == 0x06) stb__match(stb__dout - (stb__in3(1) + 1), i[4] + 1), i += 5;
+ else if (*i == 0x04) stb__match(stb__dout - (stb__in3(1) + 1), stb__in2(4) + 1), i += 6;
+ }
+ return i;
+}
+
+stb_uint stb_decompress(stb_uchar *output, stb_uchar *i, stb_uint length)
+{
+ stb_uint olen;
+ if (stb__in4(0) != 0x57bC0000) return 0;
+ if (stb__in4(4) != 0) return 0; // error! stream is > 4GB
+ olen = stb_decompress_length(i);
+ stb__barrier2 = i;
+ stb__barrier3 = i + length;
+ stb__barrier = output + olen;
+ stb__barrier4 = output;
+ i += 16;
+
+ stb__dout = output;
+ while (1) {
+ stb_uchar *old_i = i;
+ i = stb_decompress_token(i);
+ if (i == old_i) {
+ if (*i == 0x05 && i[1] == 0xfa) {
+ assert(stb__dout == output + olen);
+ if (stb__dout != output + olen) return 0;
+ if (stb_adler32(1, output, olen) != (stb_uint)stb__in4(2))
+ return 0;
+ return olen;
+ }
+ else {
+ assert(0); /* NOTREACHED */
+ return 0;
+ }
+ }
+ assert(stb__dout <= output + olen);
+ if (stb__dout > output + olen)
+ return 0;
+ }
+}
+
+char *stb_decompress_fromfile(char *filename, unsigned int *len)
+{
+ unsigned int n;
+ char *q;
+ unsigned char *p;
+ FILE *f = fopen(filename, "rb"); if (f == NULL) return NULL;
+ fseek(f, 0, SEEK_END);
+ n = ftell(f);
+ fseek(f, 0, SEEK_SET);
+ p = (unsigned char *)malloc(n); if (p == NULL) return NULL;
+ fread(p, 1, n, f);
+ fclose(f);
+ if (p == NULL) return NULL;
+ if (p[0] != 0x57 || p[1] != 0xBc || p[2] || p[3]) { free(p); return NULL; }
+ q = (char *)malloc(stb_decompress_length(p) + 1);
+ if (!q) { free(p); return NULL; }
+ *len = stb_decompress((unsigned char *)q, p, n);
+ if (*len) q[*len] = 0;
+ free(p);
+ return q;
+}
+
+#if 0
+// streaming decompressor
+
+static struct
+{
+ stb__uchar *in_buffer;
+ stb__uchar *match;
+
+ stb__uint pending_literals;
+ stb__uint pending_match;
+} xx;
+
+
+
+static void stb__match(stb_uchar *data, stb_uint length)
+{
+ // INVERSE of memmove... write each byte before copying the next...
+ assert(stb__dout + length <= stb__barrier);
+ if (stb__dout + length > stb__barrier) { stb__dout += length; return; }
+ if (data < stb__barrier2) { stb__dout = stb__barrier + 1; return; }
+ while (length--) *stb__dout++ = *data++;
+}
+
+static void stb__lit(stb_uchar *data, stb_uint length)
+{
+ assert(stb__dout + length <= stb__barrier);
+ if (stb__dout + length > stb__barrier) { stb__dout += length; return; }
+ if (data < stb__barrier2) { stb__dout = stb__barrier + 1; return; }
+ memcpy(stb__dout, data, length);
+ stb__dout += length;
+}
+
+static void sx_match(stb_uchar *data, stb_uint length)
+{
+ xx.match = data;
+ xx.pending_match = length;
+}
+
+static void sx_lit(stb_uchar *data, stb_uint length)
+{
+ xx.pending_lit = length;
+}
+
+static int stb_decompress_token_state(void)
+{
+ stb__uchar *i = xx.in_buffer;
+
+ if (*i >= 0x20) { // use fewer if's for cases that expand small
+ if (*i >= 0x80) sx_match(stb__dout - i[1] - 1, i[0] - 0x80 + 1), i += 2;
+ else if (*i >= 0x40) sx_match(stb__dout - (stb__in2(0) - 0x4000 + 1), i[2] + 1), i += 3;
+ else /* *i >= 0x20 */ sx_lit(i + 1, i[0] - 0x20 + 1), i += 1;
+ }
+ else { // more ifs for cases that expand large, since overhead is amortized
+ if (*i >= 0x18) sx_match(stb__dout - (stb__in3(0) - 0x180000 + 1), i[3] + 1), i += 4;
+ else if (*i >= 0x10) sx_match(stb__dout - (stb__in3(0) - 0x100000 + 1), stb__in2(3) + 1), i += 5;
+ else if (*i >= 0x08) sx_lit(i + 2, stb__in2(0) - 0x0800 + 1), i += 2;
+ else if (*i == 0x07) sx_lit(i + 3, stb__in2(1) + 1), i += 3;
+ else if (*i == 0x06) sx_match(stb__dout - (stb__in3(1) + 1), i[4] + 1), i += 5;
+ else if (*i == 0x04) sx_match(stb__dout - (stb__in3(1) + 1), stb__in2(4) + 1), i += 6;
+ else return 0;
+ }
+ xx.in_buffer = i;
+ return 1;
+}
+#endif
+
+
+
+//////////////////// compressor ///////////////////////
+
+static unsigned int stb_matchlen(stb_uchar *m1, stb_uchar *m2, stb_uint maxlen)
+{
+ stb_uint i;
+ for (i = 0; i < maxlen; ++i)
+ if (m1[i] != m2[i]) return i;
+ return i;
+}
+
+// simple implementation that just takes the source data in a big block
+
+static stb_uchar *stb__out;
+static FILE *stb__outfile;
+static stb_uint stb__outbytes;
+
+static void stb__write(unsigned char v)
+{
+ fputc(v, stb__outfile);
+ ++stb__outbytes;
+}
+
+#define stb_out(v) (stb__out ? (void)(*stb__out++ = (stb_uchar) (v)) : stb__write((stb_uchar) (v)))
+
+static void stb_out2(stb_uint v)
+{
+ stb_out(v >> 8);
+ stb_out(v);
+}
+
+static void stb_out3(stb_uint v) { stb_out(v >> 16); stb_out(v >> 8); stb_out(v); }
+static void stb_out4(stb_uint v) {
+ stb_out(v >> 24); stb_out(v >> 16);
+ stb_out(v >> 8); stb_out(v);
+}
+
+static void outliterals(stb_uchar *in, int numlit)
+{
+ while (numlit > 65536) {
+ outliterals(in, 65536);
+ in += 65536;
+ numlit -= 65536;
+ }
+
+ if (numlit == 0);
+ else if (numlit <= 32) stb_out(0x000020 + numlit - 1);
+ else if (numlit <= 2048) stb_out2(0x000800 + numlit - 1);
+ else /* numlit <= 65536) */ stb_out3(0x070000 + numlit - 1);
+
+ if (stb__out) {
+ memcpy(stb__out, in, numlit);
+ stb__out += numlit;
+ }
+ else
+ fwrite(in, 1, numlit, stb__outfile);
+}
+
+static int stb__window = 0x40000; // 256K
+void stb_compress_window(int z)
+{
+ if (z >= 0x1000000) z = 0x1000000; // limit of implementation
+ if (z < 0x100) z = 0x100; // insanely small
+ stb__window = z;
+}
+
+static int stb_not_crap(int best, int dist)
+{
+ return ((best > 2 && dist <= 0x00100)
+ || (best > 5 && dist <= 0x04000)
+ || (best > 7 && dist <= 0x80000));
+}
+
+static stb_uint stb__hashsize = 32768;
+void stb_compress_hashsize(unsigned int y)
+{
+ unsigned int z = 1024;
+ while (z < y) z <<= 1;
+ stb__hashsize = z >> 2; // pass in bytes, store #pointers
+}
+
+// note that you can play with the hashing functions all you
+// want without needing to change the decompressor
+#define stb__hc(q,h,c) (((h) << 7) + ((h) >> 25) + q[c])
+#define stb__hc2(q,h,c,d) (((h) << 14) + ((h) >> 18) + (q[c] << 7) + q[d])
+#define stb__hc3(q,c,d,e) ((q[c] << 14) + (q[d] << 7) + q[e])
+
+static stb_uint32 stb__running_adler;
+
+static int stb_compress_chunk(stb_uchar *history,
+ stb_uchar *start,
+ stb_uchar *end,
+ int length,
+ int *pending_literals,
+ stb_uchar **chash,
+ stb_uint mask)
+{
+ int window = stb__window;
+ stb_uint match_max;
+ stb_uchar *lit_start = start - *pending_literals;
+ stb_uchar *q = start;
+
+#define STB__SCRAMBLE(h) (((h) + ((h) >> 16)) & mask)
+
+ // stop short of the end so we don't scan off the end doing
+ // the hashing; this means we won't compress the last few bytes
+ // unless they were part of something longer
+ while (q < start + length && q + 12 < end) {
+ int m;
+ stb_uint h1, h2, h3, h4, h;
+ stb_uchar *t;
+ int best = 2, dist = 0;
+
+ if (q + 65536 > end)
+ match_max = end - q;
+ else
+ match_max = 65536;
+
+#define stb__nc(b,d) ((d) <= window && ((b) > 9 || stb_not_crap(b,d)))
+
+#define STB__TRY(t,p) /* avoid retrying a match we already tried */ \
+ if (p ? dist != q-t : 1) \
+ if ((m = stb_matchlen(t, q, match_max)) > best) \
+ if (stb__nc(m,q-(t))) \
+ best = m, dist = q - (t)
+
+ // rather than search for all matches, only try 4 candidate locations,
+ // chosen based on 4 different hash functions of different lengths.
+ // this strategy is inspired by LZO; hashing is unrolled here using the
+ // 'hc' macro
+ h = stb__hc3(q, 0, 1, 2); h1 = STB__SCRAMBLE(h);
+ t = chash[h1]; if (t) STB__TRY(t, 0);
+ h = stb__hc2(q, h, 3, 4); h2 = STB__SCRAMBLE(h);
+ h = stb__hc2(q, h, 5, 6); t = chash[h2]; if (t) STB__TRY(t, 1);
+ h = stb__hc2(q, h, 7, 8); h3 = STB__SCRAMBLE(h);
+ h = stb__hc2(q, h, 9, 10); t = chash[h3]; if (t) STB__TRY(t, 1);
+ h = stb__hc2(q, h, 11, 12); h4 = STB__SCRAMBLE(h);
+ t = chash[h4]; if (t) STB__TRY(t, 1);
+
+ // because we use a shared hash table, can only update it
+ // _after_ we've probed all of them
+ chash[h1] = chash[h2] = chash[h3] = chash[h4] = q;
+
+ if (best > 2)
+ assert(dist > 0);
+
+ // see if our best match qualifies
+ if (best < 3) { // fast path literals
+ ++q;
+ }
+ else if (best > 2 && best <= 0x80 && dist <= 0x100) {
+ outliterals(lit_start, q - lit_start); lit_start = (q += best);
+ stb_out(0x80 + best - 1);
+ stb_out(dist - 1);
+ }
+ else if (best > 5 && best <= 0x100 && dist <= 0x4000) {
+ outliterals(lit_start, q - lit_start); lit_start = (q += best);
+ stb_out2(0x4000 + dist - 1);
+ stb_out(best - 1);
+ }
+ else if (best > 7 && best <= 0x100 && dist <= 0x80000) {
+ outliterals(lit_start, q - lit_start); lit_start = (q += best);
+ stb_out3(0x180000 + dist - 1);
+ stb_out(best - 1);
+ }
+ else if (best > 8 && best <= 0x10000 && dist <= 0x80000) {
+ outliterals(lit_start, q - lit_start); lit_start = (q += best);
+ stb_out3(0x100000 + dist - 1);
+ stb_out2(best - 1);
+ }
+ else if (best > 9 && dist <= 0x1000000) {
+ if (best > 65536) best = 65536;
+ outliterals(lit_start, q - lit_start); lit_start = (q += best);
+ if (best <= 0x100) {
+ stb_out(0x06);
+ stb_out3(dist - 1);
+ stb_out(best - 1);
+ }
+ else {
+ stb_out(0x04);
+ stb_out3(dist - 1);
+ stb_out2(best - 1);
+ }
+ }
+ else { // fallback literals if no match was a balanced tradeoff
+ ++q;
+ }
+ }
+
+ // if we didn't get all the way, add the rest to literals
+ if (q - start < length)
+ q = start + length;
+
+ // the literals are everything from lit_start to q
+ *pending_literals = (q - lit_start);
+
+ stb__running_adler = stb_adler32(stb__running_adler, start, q - start);
+ return q - start;
+}
+
+static int stb_compress_inner(stb_uchar *input, stb_uint length)
+{
+ int literals = 0;
+ stb_uint len, i;
+
+ stb_uchar **chash;
+ chash = (stb_uchar**)malloc(stb__hashsize * sizeof(stb_uchar*));
+ if (chash == NULL) return 0; // failure
+ for (i = 0; i < stb__hashsize; ++i)
+ chash[i] = NULL;
+
+ // stream signature
+ stb_out(0x57); stb_out(0xbc);
+ stb_out2(0);
+
+ stb_out4(0); // 64-bit length requires 32-bit leading 0
+ stb_out4(length);
+ stb_out4(stb__window);
+
+ stb__running_adler = 1;
+
+ len = stb_compress_chunk(input, input, input + length, length, &literals, chash, stb__hashsize - 1);
+ assert(len == length);
+
+ outliterals(input + length - literals, literals);
+
+ free(chash);
+
+ stb_out2(0x05fa); // end opcode
+
+ stb_out4(stb__running_adler);
+
+ return 1; // success
+}
+
+stb_uint stb_compress(stb_uchar *out, stb_uchar *input, stb_uint length)
+{
+ stb__out = out;
+ stb__outfile = NULL;
+
+ stb_compress_inner(input, length);
+
+ return stb__out - out;
+}
+
+int stb_compress_tofile(char *filename, char *input, unsigned int length)
+{
+ //int maxlen = length + 512 + (length >> 2); // total guess
+ //char *buffer = (char *) malloc(maxlen);
+ //int blen = stb_compress((stb_uchar*)buffer, (stb_uchar*)input, length);
+
+ stb__out = NULL;
+ stb__outfile = fopen(filename, "wb");
+ if (!stb__outfile) return 0;
+
+ stb__outbytes = 0;
+
+ if (!stb_compress_inner((stb_uchar*)input, length))
+ return 0;
+
+ fclose(stb__outfile);
+
+ return stb__outbytes;
+}
+
+int stb_compress_intofile(FILE *f, char *input, unsigned int length)
+{
+ //int maxlen = length + 512 + (length >> 2); // total guess
+ //char *buffer = (char*)malloc(maxlen);
+ //int blen = stb_compress((stb_uchar*)buffer, (stb_uchar*)input, length);
+
+ stb__out = NULL;
+ stb__outfile = f;
+ if (!stb__outfile) return 0;
+
+ stb__outbytes = 0;
+
+ if (!stb_compress_inner((stb_uchar*)input, length))
+ return 0;
+
+ return stb__outbytes;
+}
+
+////////////////////// streaming I/O version /////////////////////
+
+
+static size_t stb_out_backpatch_id(void)
+{
+ if (stb__out)
+ return (size_t)stb__out;
+ else
+ return ftell(stb__outfile);
+}
+
+static void stb_out_backpatch(size_t id, stb_uint value)
+{
+
+ stb_uchar data[4] = { (stb_uchar)(value >> 24), (stb_uchar)(value >> 16), (stb_uchar)(value >> 8), (stb_uchar)(value) };
+ if (stb__out) {
+ memcpy((void *)id, data, 4);
+ }
+ else {
+ stb_uint where = ftell(stb__outfile);
+ fseek(stb__outfile, id, SEEK_SET);
+ fwrite(data, 4, 1, stb__outfile);
+ fseek(stb__outfile, where, SEEK_SET);
+ }
+}
+
+// ok, the wraparound buffer was a total failure. let's instead
+// use a copying-in-place buffer, which lets us share the code.
+// This is way less efficient but it'll do for now.
+
+static struct
+{
+ stb_uchar *buffer;
+ int size; // physical size of buffer in bytes
+
+ int valid; // amount of valid data in bytes
+ int start; // bytes of data already output
+
+ int window;
+ int fsize;
+
+ int pending_literals; // bytes not-quite output but counted in start
+ int length_id;
+
+ stb_uint total_bytes;
+
+ stb_uchar **chash;
+ stb_uint hashmask;
+} xtb;
+
+static int stb_compress_streaming_start(void)
+{
+ stb_uint i;
+ xtb.size = stb__window * 3;
+ xtb.buffer = (stb_uchar*)malloc(xtb.size);
+ if (!xtb.buffer) return 0;
+
+ xtb.chash = (stb_uchar**)malloc(sizeof(*xtb.chash) * stb__hashsize);
+ if (!xtb.chash) {
+ free(xtb.buffer);
+ return 0;
+ }
+
+ for (i = 0; i < stb__hashsize; ++i)
+ xtb.chash[i] = NULL;
+
+ xtb.hashmask = stb__hashsize - 1;
+
+ xtb.valid = 0;
+ xtb.start = 0;
+ xtb.window = stb__window;
+ xtb.fsize = stb__window;
+ xtb.pending_literals = 0;
+ xtb.total_bytes = 0;
+
+ // stream signature
+ stb_out(0x57); stb_out(0xbc); stb_out2(0);
+
+ stb_out4(0); // 64-bit length requires 32-bit leading 0
+
+ xtb.length_id = stb_out_backpatch_id();
+ stb_out4(0); // we don't know the output length yet
+
+ stb_out4(stb__window);
+
+ stb__running_adler = 1;
+
+ return 1;
+}
+
+static int stb_compress_streaming_end(void)
+{
+ // flush out any remaining data
+ stb_compress_chunk(xtb.buffer, xtb.buffer + xtb.start, xtb.buffer + xtb.valid,
+ xtb.valid - xtb.start, &xtb.pending_literals, xtb.chash, xtb.hashmask);
+
+ // write out pending literals
+ outliterals(xtb.buffer + xtb.valid - xtb.pending_literals, xtb.pending_literals);
+
+ stb_out2(0x05fa); // end opcode
+ stb_out4(stb__running_adler);
+
+ stb_out_backpatch(xtb.length_id, xtb.total_bytes);
+
+ free(xtb.buffer);
+ free(xtb.chash);
+ return 1;
+}
+
+void stb_write(char *data, int data_len)
+{
+ stb_uint i;
+
+ // @TODO: fast path for filling the buffer and doing nothing else
+ // if (xtb.valid + data_len < xtb.size)
+
+ xtb.total_bytes += data_len;
+
+ while (data_len) {
+ // fill buffer
+ if (xtb.valid < xtb.size) {
+ int amt = xtb.size - xtb.valid;
+ if (data_len < amt) amt = data_len;
+ memcpy(xtb.buffer + xtb.valid, data, amt);
+ data_len -= amt;
+ data += amt;
+ xtb.valid += amt;
+ }
+ if (xtb.valid < xtb.size)
+ return;
+
+ // at this point, the buffer is full
+
+ // if we can process some data, go for it; make sure
+ // we leave an 'fsize's worth of data, though
+ if (xtb.start + xtb.fsize < xtb.valid) {
+ int amount = (xtb.valid - xtb.fsize) - xtb.start;
+ int n;
+ assert(amount > 0);
+ n = stb_compress_chunk(xtb.buffer, xtb.buffer + xtb.start, xtb.buffer + xtb.valid,
+ amount, &xtb.pending_literals, xtb.chash, xtb.hashmask);
+ xtb.start += n;
+ }
+
+ assert(xtb.start + xtb.fsize >= xtb.valid);
+ // at this point, our future size is too small, so we
+ // need to flush some history. we, in fact, flush exactly
+ // one window's worth of history
+
+ {
+ int flush = xtb.window;
+ assert(xtb.start >= flush);
+ assert(xtb.valid >= flush);
+
+ // if 'pending literals' extends back into the shift region,
+ // write them out
+ if (xtb.start - xtb.pending_literals < flush) {
+ outliterals(xtb.buffer + xtb.start - xtb.pending_literals, xtb.pending_literals);
+ xtb.pending_literals = 0;
+ }
+
+ // now shift the window
+ memmove(xtb.buffer, xtb.buffer + flush, xtb.valid - flush);
+ xtb.start -= flush;
+ xtb.valid -= flush;
+
+ for (i = 0; i <= xtb.hashmask; ++i)
+ if (xtb.chash[i] < xtb.buffer + flush)
+ xtb.chash[i] = NULL;
+ else
+ xtb.chash[i] -= flush;
+ }
+ // and now that we've made room for more data, go back to the top
+ }
+}
+
+int stb_compress_stream_start(FILE *f)
+{
+ stb__out = NULL;
+ stb__outfile = f;
+
+ if (f == NULL)
+ return 0;
+
+ if (!stb_compress_streaming_start())
+ return 0;
+
+ return 1;
+}
+
+void stb_compress_stream_end(int close)
+{
+ stb_compress_streaming_end();
+ if (close && stb__outfile) {
+ fclose(stb__outfile);
+ }
+}
+
+#endif // STB_DEFINE
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// File abstraction... tired of not having this... we can write
+// compressors to be layers over these that auto-close their children.
+
+
+typedef struct stbfile
+{
+ int(*getbyte)(struct stbfile *); // -1 on EOF
+ unsigned int(*getdata)(struct stbfile *, void *block, unsigned int len);
+
+ int(*putbyte)(struct stbfile *, int byte);
+ unsigned int(*putdata)(struct stbfile *, void *block, unsigned int len);
+
+ unsigned int(*size)(struct stbfile *);
+
+ unsigned int(*tell)(struct stbfile *);
+ void(*backpatch)(struct stbfile *, unsigned int tell, void *block, unsigned int len);
+
+ void(*close)(struct stbfile *);
+
+ FILE *f; // file to fread/fwrite
+ unsigned char *buffer; // input/output buffer
+ unsigned char *indata, *inend; // input buffer
+ union {
+ int various;
+ void *ptr;
+ };
+} stbfile;
+
+STB_EXTERN unsigned int stb_getc(stbfile *f); // read
+STB_EXTERN int stb_putc(stbfile *f, int ch); // write
+STB_EXTERN unsigned int stb_getdata(stbfile *f, void *buffer, unsigned int len); // read
+STB_EXTERN unsigned int stb_putdata(stbfile *f, void *buffer, unsigned int len); // write
+STB_EXTERN unsigned int stb_tell(stbfile *f); // read
+STB_EXTERN unsigned int stb_size(stbfile *f); // read/write
+STB_EXTERN void stb_backpatch(stbfile *f, unsigned int tell, void *buffer, unsigned int len); // write
+
+#ifdef STB_DEFINE
+
+unsigned int stb_getc(stbfile *f) { return f->getbyte(f); }
+int stb_putc(stbfile *f, int ch) { return f->putbyte(f, ch); }
+
+unsigned int stb_getdata(stbfile *f, void *buffer, unsigned int len)
+{
+ return f->getdata(f, buffer, len);
+}
+unsigned int stb_putdata(stbfile *f, void *buffer, unsigned int len)
+{
+ return f->putdata(f, buffer, len);
+}
+void stb_close(stbfile *f)
+{
+ f->close(f);
+ free(f);
+}
+unsigned int stb_tell(stbfile *f) { return f->tell(f); }
+unsigned int stb_size(stbfile *f) { return f->size(f); }
+void stb_backpatch(stbfile *f, unsigned int tell, void *buffer, unsigned int len)
+{
+ f->backpatch(f, tell, buffer, len);
+}
+
+// FILE * implementation
+static int stb__fgetbyte(stbfile *f) { return fgetc(f->f); }
+static int stb__fputbyte(stbfile *f, int ch) { return fputc(ch, f->f) == 0; }
+static unsigned int stb__fgetdata(stbfile *f, void *buffer, unsigned int len) { return fread(buffer, 1, len, f->f); }
+static unsigned int stb__fputdata(stbfile *f, void *buffer, unsigned int len) { return fwrite(buffer, 1, len, f->f); }
+static unsigned int stb__fsize(stbfile *f) { return stb_filelen(f->f); }
+static unsigned int stb__ftell(stbfile *f) { return ftell(f->f); }
+static void stb__fbackpatch(stbfile *f, unsigned int where, void *buffer, unsigned int len)
+{
+ fseek(f->f, where, SEEK_SET);
+ fwrite(buffer, 1, len, f->f);
+ fseek(f->f, 0, SEEK_END);
+}
+static void stb__fclose(stbfile *f) { fclose(f->f); }
+
+stbfile *stb_openf(FILE *f)
+{
+ stbfile m = { stb__fgetbyte, stb__fgetdata,
+ stb__fputbyte, stb__fputdata,
+ stb__fsize, stb__ftell, stb__fbackpatch, stb__fclose,
+ 0,0,0, };
+ stbfile *z = (stbfile *)malloc(sizeof(*z));
+ if (z) {
+ *z = m;
+ z->f = f;
+ }
+ return z;
+}
+
+static int stb__nogetbyte(stbfile *f) { assert(0); return -1; }
+static unsigned int stb__nogetdata(stbfile *f, void *buffer, unsigned int len) { assert(0); return 0; }
+static int stb__noputbyte(stbfile *f, int ch) { assert(0); return 0; }
+static unsigned int stb__noputdata(stbfile *f, void *buffer, unsigned int len) { assert(0); return 0; }
+static void stb__nobackpatch(stbfile *f, unsigned int where, void *buffer, unsigned int len) { assert(0); }
+
+static int stb__bgetbyte(stbfile *s)
+{
+ if (s->indata < s->inend)
+ return *s->indata++;
+ else
+ return -1;
+}
+
+static unsigned int stb__bgetdata(stbfile *s, void *buffer, unsigned int len)
+{
+ if (s->indata + len > s->inend)
+ len = s->inend - s->indata;
+ memcpy(buffer, s->indata, len);
+ s->indata += len;
+ return len;
+}
+static unsigned int stb__bsize(stbfile *s) { return s->inend - s->buffer; }
+static unsigned int stb__btell(stbfile *s) { return s->indata - s->buffer; }
+
+static void stb__bclose(stbfile *s)
+{
+ if (s->various)
+ free(s->buffer);
+}
+
+stbfile *stb_open_inbuffer(void *buffer, unsigned int len)
+{
+ stbfile m = { stb__bgetbyte, stb__bgetdata,
+ stb__noputbyte, stb__noputdata,
+ stb__bsize, stb__btell, stb__nobackpatch, stb__bclose };
+ stbfile *z = (stbfile *)malloc(sizeof(*z));
+ if (z) {
+ *z = m;
+ z->buffer = (unsigned char *)buffer;
+ z->indata = z->buffer;
+ z->inend = z->indata + len;
+ }
+ return z;
+}
+
+stbfile *stb_open_inbuffer_free(void *buffer, unsigned int len)
+{
+ stbfile *z = stb_open_inbuffer(buffer, len);
+ if (z)
+ z->various = 1; // free
+ return z;
+}
+
+#ifndef STB_VERSION
+// if we've been cut-and-pasted elsewhere, you get a limited
+// version of stb_open, without the 'k' flag and utf8 support
+static void stb__fclose2(stbfile *f)
+{
+ fclose(f->f);
+}
+
+stbfile *stb_open(char *filename, char *mode)
+{
+ FILE *f = fopen(filename, mode);
+ stbfile *s;
+ if (f == NULL) return NULL;
+ s = stb_openf(f);
+ if (s)
+ s->close = stb__fclose2;
+ return s;
+}
+#else
+// the full version depends on some code in stb.h; this
+// also includes the memory buffer output format implemented with stb_arr
+static void stb__fclose2(stbfile *f)
+{
+ stb_fclose(f->f, f->various);
+}
+
+stbfile *stb_open(char *filename, char *mode)
+{
+ FILE *f = stb_fopen(filename, mode[0] == 'k' ? mode + 1 : mode);
+ stbfile *s;
+ if (f == NULL) return NULL;
+ s = stb_openf(f);
+ if (s) {
+ s->close = stb__fclose2;
+ s->various = mode[0] == 'k' ? stb_keep_if_different : stb_keep_yes;
+ }
+ return s;
+}
+
+static int stb__aputbyte(stbfile *f, int ch)
+{
+ stb_arr_push(f->buffer, ch);
+ return 1;
+}
+static unsigned int stb__aputdata(stbfile *f, void *data, unsigned int len)
+{
+ memcpy(stb_arr_addn(f->buffer, (int)len), data, len);
+ return len;
+}
+static unsigned int stb__asize(stbfile *f) { return stb_arr_len(f->buffer); }
+static void stb__abackpatch(stbfile *f, unsigned int where, void *data, unsigned int len)
+{
+ memcpy(f->buffer + where, data, len);
+}
+static void stb__aclose(stbfile *f)
+{
+ *(unsigned char **)f->ptr = f->buffer;
+}
+
+stbfile *stb_open_outbuffer(unsigned char **update_on_close)
+{
+ stbfile m = { stb__nogetbyte, stb__nogetdata,
+ stb__aputbyte, stb__aputdata,
+ stb__asize, stb__asize, stb__abackpatch, stb__aclose };
+ stbfile *z = (stbfile *)malloc(sizeof(*z));
+ if (z) {
+ z->ptr = update_on_close;
+ *z = m;
+ }
+ return z;
+}
+#endif
+#endif
+
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Arithmetic coder... based on cbloom's notes on the subject, should be
+// less code than a huffman code.
+
+typedef struct
+{
+ unsigned int range_low;
+ unsigned int range_high;
+ unsigned int code, range; // decode
+ int buffered_u8;
+ int pending_ffs;
+ stbfile *output;
+} stb_arith;
+
+STB_EXTERN void stb_arith_init_encode(stb_arith *a, stbfile *out);
+STB_EXTERN void stb_arith_init_decode(stb_arith *a, stbfile *in);
+STB_EXTERN stbfile *stb_arith_encode_close(stb_arith *a);
+STB_EXTERN stbfile *stb_arith_decode_close(stb_arith *a);
+
+STB_EXTERN void stb_arith_encode(stb_arith *a, unsigned int totalfreq, unsigned int freq, unsigned int cumfreq);
+STB_EXTERN void stb_arith_encode_log2(stb_arith *a, unsigned int totalfreq2, unsigned int freq, unsigned int cumfreq);
+STB_EXTERN unsigned int stb_arith_decode_value(stb_arith *a, unsigned int totalfreq);
+STB_EXTERN void stb_arith_decode_advance(stb_arith *a, unsigned int totalfreq, unsigned int freq, unsigned int cumfreq);
+STB_EXTERN unsigned int stb_arith_decode_value_log2(stb_arith *a, unsigned int totalfreq2);
+STB_EXTERN void stb_arith_decode_advance_log2(stb_arith *a, unsigned int totalfreq2, unsigned int freq, unsigned int cumfreq);
+
+STB_EXTERN void stb_arith_encode_byte(stb_arith *a, int byte);
+STB_EXTERN int stb_arith_decode_byte(stb_arith *a);
+
+// this is a memory-inefficient way of doing things, but it's
+// fast(?) and simple
+typedef struct
+{
+ unsigned short cumfreq;
+ unsigned short samples;
+} stb_arith_symstate_item;
+
+typedef struct
+{
+ int num_sym;
+ unsigned int pow2;
+ int countdown;
+ stb_arith_symstate_item data[1];
+} stb_arith_symstate;
+
+#ifdef STB_DEFINE
+void stb_arith_init_encode(stb_arith *a, stbfile *out)
+{
+ a->range_low = 0;
+ a->range_high = 0xffffffff;
+ a->pending_ffs = -1; // means no buffered character currently, to speed up normal case
+ a->output = out;
+}
+
+static void stb__arith_carry(stb_arith *a)
+{
+ int i;
+ assert(a->pending_ffs != -1); // can't carry with no data
+ stb_putc(a->output, a->buffered_u8);
+ for (i = 0; i < a->pending_ffs; ++i)
+ stb_putc(a->output, 0);
+}
+
+static void stb__arith_putbyte(stb_arith *a, int byte)
+{
+ if (a->pending_ffs) {
+ if (a->pending_ffs == -1) { // means no buffered data; encoded for fast path efficiency
+ if (byte == 0xff)
+ stb_putc(a->output, byte); // just write it immediately
+ else {
+ a->buffered_u8 = byte;
+ a->pending_ffs = 0;
+ }
+ }
+ else if (byte == 0xff) {
+ ++a->pending_ffs;
+ }
+ else {
+ int i;
+ stb_putc(a->output, a->buffered_u8);
+ for (i = 0; i < a->pending_ffs; ++i)
+ stb_putc(a->output, 0xff);
+ }
+ }
+ else if (byte == 0xff) {
+ ++a->pending_ffs;
+ }
+ else {
+ // fast path
+ stb_putc(a->output, a->buffered_u8);
+ a->buffered_u8 = byte;
+ }
+}
+
+static void stb__arith_flush(stb_arith *a)
+{
+ if (a->pending_ffs >= 0) {
+ int i;
+ stb_putc(a->output, a->buffered_u8);
+ for (i = 0; i < a->pending_ffs; ++i)
+ stb_putc(a->output, 0xff);
+ }
+}
+
+static void stb__renorm_encoder(stb_arith *a)
+{
+ stb__arith_putbyte(a, a->range_low >> 24);
+ a->range_low <<= 8;
+ a->range_high = (a->range_high << 8) | 0xff;
+}
+
+static void stb__renorm_decoder(stb_arith *a)
+{
+ int c = stb_getc(a->output);
+ a->code = (a->code << 8) + (c >= 0 ? c : 0); // if EOF, insert 0
+}
+
+void stb_arith_encode(stb_arith *a, unsigned int totalfreq, unsigned int freq, unsigned int cumfreq)
+{
+ unsigned int range = a->range_high - a->range_low;
+ unsigned int old = a->range_low;
+ range /= totalfreq;
+ a->range_low += range * cumfreq;
+ a->range_high = a->range_low + range*freq;
+ if (a->range_low < old)
+ stb__arith_carry(a);
+ while (a->range_high - a->range_low < 0x1000000)
+ stb__renorm_encoder(a);
+}
+
+void stb_arith_encode_log2(stb_arith *a, unsigned int totalfreq2, unsigned int freq, unsigned int cumfreq)
+{
+ unsigned int range = a->range_high - a->range_low;
+ unsigned int old = a->range_low;
+ range >>= totalfreq2;
+ a->range_low += range * cumfreq;
+ a->range_high = a->range_low + range*freq;
+ if (a->range_low < old)
+ stb__arith_carry(a);
+ while (a->range_high - a->range_low < 0x1000000)
+ stb__renorm_encoder(a);
+}
+
+unsigned int stb_arith_decode_value(stb_arith *a, unsigned int totalfreq)
+{
+ unsigned int freqsize = a->range / totalfreq;
+ unsigned int z = a->code / freqsize;
+ return z >= totalfreq ? totalfreq - 1 : z;
+}
+
+void stb_arith_decode_advance(stb_arith *a, unsigned int totalfreq, unsigned int freq, unsigned int cumfreq)
+{
+ unsigned int freqsize = a->range / totalfreq; // @OPTIMIZE, share with above divide somehow?
+ a->code -= freqsize * cumfreq;
+ a->range = freqsize * freq;
+ while (a->range < 0x1000000)
+ stb__renorm_decoder(a);
+}
+
+unsigned int stb_arith_decode_value_log2(stb_arith *a, unsigned int totalfreq2)
+{
+ unsigned int freqsize = a->range >> totalfreq2;
+ unsigned int z = a->code / freqsize;
+ return z >= (1U << totalfreq2) ? (1U << totalfreq2) - 1 : z;
+}
+
+void stb_arith_decode_advance_log2(stb_arith *a, unsigned int totalfreq2, unsigned int freq, unsigned int cumfreq)
+{
+ unsigned int freqsize = a->range >> totalfreq2;
+ a->code -= freqsize * cumfreq;
+ a->range = freqsize * freq;
+ while (a->range < 0x1000000)
+ stb__renorm_decoder(a);
+}
+
+stbfile *stb_arith_encode_close(stb_arith *a)
+{
+ // put exactly as many bytes as we'll read, so we can turn on/off arithmetic coding in a stream
+ stb__arith_putbyte(a, a->range_low >> 24);
+ stb__arith_putbyte(a, a->range_low >> 16);
+ stb__arith_putbyte(a, a->range_low >> 8);
+ stb__arith_putbyte(a, a->range_low >> 0);
+ stb__arith_flush(a);
+ return a->output;
+}
+
+stbfile *stb_arith_decode_close(stb_arith *a)
+{
+ return a->output;
+}
+
+// this is a simple power-of-two based model -- using
+// power of two means we need one divide per decode,
+// not two.
+#define POW2_LIMIT 12
+stb_arith_symstate *stb_arith_state_create(int num_sym)
+{
+ stb_arith_symstate *s = (stb_arith_symstate *)malloc(sizeof(*s) + (num_sym - 1) * sizeof(s->data[0]));
+ if (s) {
+ int i, cf, cf_next, next;
+ int start_freq, extra;
+ s->num_sym = num_sym;
+ s->pow2 = 4;
+ while (s->pow2 < 15 && (1 << s->pow2) < 3 * num_sym) {
+ ++s->pow2;
+ }
+ start_freq = (1 << s->pow2) / num_sym;
+ assert(start_freq >= 1);
+ extra = (1 << s->pow2) % num_sym;
+ // now set up the initial stats
+
+ if (s->pow2 < POW2_LIMIT)
+ next = 0;
+ else
+ next = 1;
+
+ cf = cf_next = 0;
+ for (i = 0; i < extra; ++i) {
+ s->data[i].cumfreq = cf;
+ s->data[i].samples = next;
+ cf += start_freq + 1;
+ cf_next += next;
+ }
+ for (; i < num_sym; ++i) {
+ s->data[i].cumfreq = cf;
+ s->data[i].samples = next;
+ cf += start_freq;
+ cf_next += next;
+ }
+ assert(cf == (1 << s->pow2));
+ // now, how long should we go until we have 2 << s->pow2 samples?
+ s->countdown = (2 << s->pow2) - cf - cf_next;
+ }
+ return s;
+}
+
+static void stb_arith_state_rescale(stb_arith_symstate *s)
+{
+ if (s->pow2 < POW2_LIMIT) {
+ int pcf, cf, cf_next, next, i;
+ ++s->pow2;
+ if (s->pow2 < POW2_LIMIT)
+ next = 0;
+ else
+ next = 1;
+ cf = cf_next = 0;
+ pcf = 0;
+ for (i = 0; i < s->num_sym; ++i) {
+ int sample = s->data[i].cumfreq - pcf + s->data[i].samples;
+ s->data[i].cumfreq = cf;
+ cf += sample;
+ s->data[i].samples = next;
+ cf_next += next;
+ }
+ assert(cf == (1 << s->pow2));
+ s->countdown = (2 << s->pow2) - cf - cf_next;
+ }
+ else {
+ int pcf, cf, cf_next, i;
+ cf = cf_next = 0;
+ pcf = 0;
+ for (i = 0; i < s->num_sym; ++i) {
+ int sample = (s->data[i].cumfreq - pcf + s->data[i].samples) >> 1;
+ s->data[i].cumfreq = cf;
+ cf += sample;
+ s->data[i].samples = 1;
+ cf_next += 1;
+ }
+ assert(cf == (1 << s->pow2)); // this isn't necessarily true, due to rounding down!
+ s->countdown = (2 << s->pow2) - cf - cf_next;
+ }
+}
+
+void stb_arith_encode_byte(stb_arith *a, int byte)
+{
+}
+
+int stb_arith_decode_byte(stb_arith *a)
+{
+ return -1;
+}
+#endif
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// Threads
+//
+
+#ifndef _WIN32
+#ifdef STB_THREADS
+#error "threads not implemented except for Windows"
+#endif
+#endif
+
+// call this function to free any global variables for memory testing
+STB_EXTERN void stb_thread_cleanup(void);
+
+typedef void * (*stb_thread_func)(void *);
+
+// do not rely on these types, this is an implementation detail.
+// compare against STB_THREAD_NULL and ST_SEMAPHORE_NULL
+typedef void *stb_thread;
+typedef void *stb_semaphore;
+typedef void *stb_mutex;
+typedef struct stb__sync *stb_sync;
+
+#define STB_SEMAPHORE_NULL NULL
+#define STB_THREAD_NULL NULL
+#define STB_MUTEX_NULL NULL
+#define STB_SYNC_NULL NULL
+
+// get the number of processors (limited to those in the affinity mask for this process).
+STB_EXTERN int stb_processor_count(void);
+// force to run on a single core -- needed for RDTSC to work, e.g. for iprof
+STB_EXTERN void stb_force_uniprocessor(void);
+
+// stb_work functions: queue up work to be done by some worker threads
+
+// set number of threads to serve the queue; you can change this on the fly,
+// but if you decrease it, it won't decrease until things currently on the
+// queue are finished
+STB_EXTERN void stb_work_numthreads(int n);
+// set maximum number of units in the queue; you can only set this BEFORE running any work functions
+STB_EXTERN int stb_work_maxunits(int n);
+// enqueue some work to be done (can do this from any thread, or even from a piece of work);
+// return value of f is stored in *return_code if non-NULL
+STB_EXTERN int stb_work(stb_thread_func f, void *d, volatile void **return_code);
+// as above, but stb_sync_reach is called on 'rel' after work is complete
+STB_EXTERN int stb_work_reach(stb_thread_func f, void *d, volatile void **return_code, stb_sync rel);
+
+
+// necessary to call this when using volatile to order writes/reads
+STB_EXTERN void stb_barrier(void);
+
+// support for independent queues with their own threads
+
+typedef struct stb__workqueue stb_workqueue;
+
+STB_EXTERN stb_workqueue*stb_workq_new(int numthreads, int max_units);
+STB_EXTERN stb_workqueue*stb_workq_new_flags(int numthreads, int max_units, int no_add_mutex, int no_remove_mutex);
+STB_EXTERN void stb_workq_delete(stb_workqueue *q);
+STB_EXTERN void stb_workq_numthreads(stb_workqueue *q, int n);
+STB_EXTERN int stb_workq(stb_workqueue *q, stb_thread_func f, void *d, volatile void **return_code);
+STB_EXTERN int stb_workq_reach(stb_workqueue *q, stb_thread_func f, void *d, volatile void **return_code, stb_sync rel);
+STB_EXTERN int stb_workq_length(stb_workqueue *q);
+
+STB_EXTERN stb_thread stb_create_thread(stb_thread_func f, void *d);
+STB_EXTERN stb_thread stb_create_thread2(stb_thread_func f, void *d, volatile void **return_code, stb_semaphore rel);
+STB_EXTERN void stb_destroy_thread(stb_thread t);
+
+STB_EXTERN stb_semaphore stb_sem_new(int max_val);
+STB_EXTERN stb_semaphore stb_sem_new_extra(int max_val, int start_val);
+STB_EXTERN void stb_sem_delete(stb_semaphore s);
+STB_EXTERN void stb_sem_waitfor(stb_semaphore s);
+STB_EXTERN void stb_sem_release(stb_semaphore s);
+
+STB_EXTERN stb_mutex stb_mutex_new(void);
+STB_EXTERN void stb_mutex_delete(stb_mutex m);
+STB_EXTERN void stb_mutex_begin(stb_mutex m);
+STB_EXTERN void stb_mutex_end(stb_mutex m);
+
+STB_EXTERN stb_sync stb_sync_new(void);
+STB_EXTERN void stb_sync_delete(stb_sync s);
+STB_EXTERN int stb_sync_set_target(stb_sync s, int count);
+STB_EXTERN void stb_sync_reach_and_wait(stb_sync s); // wait for 'target' reachers
+STB_EXTERN int stb_sync_reach(stb_sync s);
+
+typedef struct stb__threadqueue stb_threadqueue;
+#define STB_THREADQ_DYNAMIC 0
+STB_EXTERN stb_threadqueue *stb_threadq_new(int item_size, int num_items, int many_add, int many_remove);
+STB_EXTERN void stb_threadq_delete(stb_threadqueue *tq);
+STB_EXTERN int stb_threadq_get(stb_threadqueue *tq, void *output);
+STB_EXTERN void stb_threadq_get_block(stb_threadqueue *tq, void *output);
+STB_EXTERN int stb_threadq_add(stb_threadqueue *tq, void *input);
+// can return FALSE if STB_THREADQ_DYNAMIC and attempt to grow fails
+STB_EXTERN int stb_threadq_add_block(stb_threadqueue *tq, void *input);
+
+#ifdef STB_THREADS
+#ifdef STB_DEFINE
+
+typedef struct
+{
+ stb_thread_func f;
+ void *d;
+ volatile void **return_val;
+ stb_semaphore sem;
+} stb__thread;
+
+// this is initialized along all possible paths to create threads, therefore
+// it's always initialized before any other threads are create, therefore
+// it's free of races AS LONG AS you only create threads through stb_*
+static stb_mutex stb__threadmutex, stb__workmutex;
+
+static void stb__threadmutex_init(void)
+{
+ if (stb__threadmutex == STB_SEMAPHORE_NULL) {
+ stb__threadmutex = stb_mutex_new();
+ stb__workmutex = stb_mutex_new();
+ }
+}
+
+#ifdef STB_THREAD_TEST
+volatile float stb__t1 = 1, stb__t2;
+
+static void stb__wait(int n)
+{
+ float z = 0;
+ int i;
+ for (i = 0; i < n; ++i)
+ z += 1 / (stb__t1 + i);
+ stb__t2 = z;
+}
+#else
+#define stb__wait(x)
+#endif
+
+#ifdef _WIN32
+
+// avoid including windows.h -- note that our definitions aren't
+// exactly the same (we don't define the security descriptor struct)
+// so if you want to include windows.h, make sure you do it first.
+#include <process.h>
+
+#ifndef _WINDOWS_ // check windows.h guard
+#define STB__IMPORT STB_EXTERN __declspec(dllimport)
+#define STB__DW unsigned long
+
+STB__IMPORT int __stdcall TerminateThread(void *, STB__DW);
+STB__IMPORT void * __stdcall CreateSemaphoreA(void *sec, long, long, char*);
+STB__IMPORT int __stdcall CloseHandle(void *);
+STB__IMPORT STB__DW __stdcall WaitForSingleObject(void *, STB__DW);
+STB__IMPORT int __stdcall ReleaseSemaphore(void *, long, long *);
+STB__IMPORT void __stdcall Sleep(STB__DW);
+#endif
+
+// necessary to call this when using volatile to order writes/reads
+void stb_barrier(void)
+{
+#ifdef MemoryBarrier
+ MemoryBarrier();
+#else
+ long temp;
+ __asm xchg temp, eax;
+#endif
+}
+
+static void stb__thread_run(void *t)
+{
+ void *res;
+ stb__thread info = *(stb__thread *)t;
+ free(t);
+ res = info.f(info.d);
+ if (info.return_val)
+ *info.return_val = res;
+ if (info.sem != STB_SEMAPHORE_NULL)
+ stb_sem_release(info.sem);
+}
+
+static stb_thread stb_create_thread_raw(stb_thread_func f, void *d, volatile void **return_code, stb_semaphore rel)
+{
+#ifdef _MT
+#if defined(STB_FASTMALLOC) && !defined(STB_FASTMALLOC_ITS_OKAY_I_ONLY_MALLOC_IN_ONE_THREAD)
+ stb_fatal("Error! Cannot use STB_FASTMALLOC with threads.\n");
+ return STB_THREAD_NULL;
+#else
+ unsigned long id;
+ stb__thread *data = (stb__thread *)malloc(sizeof(*data));
+ if (!data) return NULL;
+ stb__threadmutex_init();
+ data->f = f;
+ data->d = d;
+ data->return_val = return_code;
+ data->sem = rel;
+ id = _beginthread(stb__thread_run, 0, data);
+ if (id == -1) return NULL;
+ return (void *)id;
+#endif
+#else
+#ifdef STB_NO_STB_STRINGS
+ stb_fatal("Invalid compilation");
+#else
+ stb_fatal("Must compile mult-threaded to use stb_thread/stb_work.");
+#endif
+ return NULL;
+#endif
+}
+
+// trivial win32 wrappers
+void stb_destroy_thread(stb_thread t) { TerminateThread(t, 0); }
+stb_semaphore stb_sem_new(int maxv) { return CreateSemaphoreA(NULL, 0, maxv, NULL); }
+stb_semaphore stb_sem_new_extra(int maxv, int start) { return CreateSemaphoreA(NULL, start, maxv, NULL); }
+void stb_sem_delete(stb_semaphore s) { if (s != NULL) CloseHandle(s); }
+void stb_sem_waitfor(stb_semaphore s) { WaitForSingleObject(s, 0xffffffff); } // INFINITE
+void stb_sem_release(stb_semaphore s) { ReleaseSemaphore(s, 1, NULL); }
+static void stb__thread_sleep(int ms) { Sleep(ms); }
+
+#ifndef _WINDOWS_
+STB__IMPORT int __stdcall GetProcessAffinityMask(void *, STB__DW *, STB__DW *);
+STB__IMPORT void * __stdcall GetCurrentProcess(void);
+STB__IMPORT int __stdcall SetProcessAffinityMask(void *, STB__DW);
+#endif
+
+int stb_processor_count(void)
+{
+ unsigned long proc, sys;
+ GetProcessAffinityMask(GetCurrentProcess(), &proc, &sys);
+ return stb_bitcount(proc);
+}
+
+void stb_force_uniprocessor(void)
+{
+ unsigned long proc, sys;
+ GetProcessAffinityMask(GetCurrentProcess(), &proc, &sys);
+ if (stb_bitcount(proc) > 1) {
+ int z;
+ for (z = 0; z < 32; ++z)
+ if (proc & (1 << z))
+ break;
+ if (z < 32) {
+ proc = 1 << z;
+ SetProcessAffinityMask(GetCurrentProcess(), proc);
+ }
+ }
+}
+
+#ifdef _WINDOWS_
+#define STB_MUTEX_NATIVE
+void *stb_mutex_new(void)
+{
+ CRITICAL_SECTION *p = (CRITICAL_SECTION *)malloc(sizeof(*p));
+ if (p)
+#if _WIN32_WINNT >= 0x0500
+ InitializeCriticalSectionAndSpinCount(p, 500);
+#else
+ InitializeCriticalSection(p);
+#endif
+ return p;
+}
+
+void stb_mutex_delete(void *p)
+{
+ if (p) {
+ DeleteCriticalSection((CRITICAL_SECTION *)p);
+ free(p);
+ }
+}
+
+void stb_mutex_begin(void *p)
+{
+ stb__wait(500);
+ if (p)
+ EnterCriticalSection((CRITICAL_SECTION *)p);
+}
+
+void stb_mutex_end(void *p)
+{
+ if (p)
+ LeaveCriticalSection((CRITICAL_SECTION *)p);
+ stb__wait(500);
+}
+#endif // _WINDOWS_
+
+#if 0
+// for future reference,
+// InterlockedCompareExchange for x86:
+int cas64_mp(void * dest, void * xcmp, void * xxchg) {
+ __asm
+ {
+ mov esi, [xxchg]; exchange
+ mov ebx, [esi + 0]
+ mov ecx, [esi + 4]
+
+ mov esi, [xcmp]; comparand
+ mov eax, [esi + 0]
+ mov edx, [esi + 4]
+
+ mov edi, [dest]; destination
+ lock cmpxchg8b[edi]
+ jz yyyy;
+
+ mov[esi + 0], eax;
+ mov[esi + 4], edx;
+
+ yyyy:
+ xor eax, eax;
+ setz al;
+ };
+
+ inline unsigned __int64 _InterlockedCompareExchange64(volatile unsigned __int64 *dest
+ , unsigned __int64 exchange
+ , unsigned __int64 comperand)
+ {
+ //value returned in eax::edx
+ __asm {
+ lea esi, comperand;
+ lea edi, exchange;
+
+ mov eax, [esi];
+ mov edx, 4[esi];
+ mov ebx, [edi];
+ mov ecx, 4[edi];
+ mov esi, dest;
+ lock CMPXCHG8B[esi];
+ }
+#endif // #if 0
+
+#endif // _WIN32
+
+ stb_thread stb_create_thread2(stb_thread_func f, void *d, volatile void **return_code, stb_semaphore rel)
+ {
+ return stb_create_thread_raw(f, d, return_code, rel);
+ }
+
+ stb_thread stb_create_thread(stb_thread_func f, void *d)
+ {
+ return stb_create_thread2(f, d, NULL, STB_SEMAPHORE_NULL);
+ }
+
+ // mutex implemented by wrapping semaphore
+#ifndef STB_MUTEX_NATIVE
+ stb_mutex stb_mutex_new(void) { return stb_sem_new_extra(1, 1); }
+ void stb_mutex_delete(stb_mutex m) { stb_sem_delete(m); }
+ void stb_mutex_begin(stb_mutex m) { stb__wait(500); if (m) stb_sem_waitfor(m); }
+ void stb_mutex_end(stb_mutex m) { if (m) stb_sem_release(m); stb__wait(500); }
+#endif
+
+ // thread merge operation
+ struct stb__sync
+ {
+ int target; // target number of threads to hit it
+ int sofar; // total threads that hit it
+ int waiting; // total threads waiting
+
+ stb_mutex start; // mutex to prevent starting again before finishing previous
+ stb_mutex mutex; // mutex while tweaking state
+ stb_semaphore release; // semaphore wake up waiting threads
+ // we have to wake them up one at a time, rather than using a single release
+ // call, because win32 semaphores don't let you dynamically change the max count!
+ };
+
+ stb_sync stb_sync_new(void)
+ {
+ stb_sync s = (stb_sync)malloc(sizeof(*s));
+ if (!s) return s;
+
+ s->target = s->sofar = s->waiting = 0;
+ s->mutex = stb_mutex_new();
+ s->start = stb_mutex_new();
+ s->release = stb_sem_new(1);
+ if (s->mutex == STB_MUTEX_NULL || s->release == STB_SEMAPHORE_NULL || s->start == STB_MUTEX_NULL) {
+ stb_mutex_delete(s->mutex);
+ stb_mutex_delete(s->mutex);
+ stb_sem_delete(s->release);
+ free(s);
+ return NULL;
+ }
+ return s;
+ }
+
+ void stb_sync_delete(stb_sync s)
+ {
+ if (s->waiting) {
+ // it's bad to delete while there are threads waiting!
+ // shall we wait for them to reach, or just bail? just bail
+ assert(0);
+ }
+ stb_mutex_delete(s->mutex);
+ stb_mutex_delete(s->release);
+ free(s);
+ }
+
+ int stb_sync_set_target(stb_sync s, int count)
+ {
+ // don't allow setting a target until the last one is fully released;
+ // note that this can lead to inefficient pipelining, and maybe we'd
+ // be better off ping-ponging between two internal syncs?
+ // I tried seeing how often this happened using TryEnterCriticalSection
+ // and could _never_ get it to happen in imv(stb), even with more threads
+ // than processors. So who knows!
+ stb_mutex_begin(s->start);
+
+ // this mutex is pointless, since it's not valid for threads
+ // to call reach() before anyone calls set_target() anyway
+ stb_mutex_begin(s->mutex);
+
+ assert(s->target == 0); // enforced by start mutex
+ s->target = count;
+ s->sofar = 0;
+ s->waiting = 0;
+ stb_mutex_end(s->mutex);
+ return STB_TRUE;
+ }
+
+ void stb__sync_release(stb_sync s)
+ {
+ if (s->waiting)
+ stb_sem_release(s->release);
+ else {
+ s->target = 0;
+ stb_mutex_end(s->start);
+ }
+ }
+
+ int stb_sync_reach(stb_sync s)
+ {
+ int n;
+ stb_mutex_begin(s->mutex);
+ assert(s->sofar < s->target);
+ n = ++s->sofar; // record this value to avoid possible race if we did 'return s->sofar';
+ if (s->sofar == s->target)
+ stb__sync_release(s);
+ stb_mutex_end(s->mutex);
+ return n;
+ }
+
+ void stb_sync_reach_and_wait(stb_sync s)
+ {
+ stb_mutex_begin(s->mutex);
+ assert(s->sofar < s->target);
+ ++s->sofar;
+ if (s->sofar == s->target) {
+ stb__sync_release(s);
+ stb_mutex_end(s->mutex);
+ }
+ else {
+ ++s->waiting; // we're waiting, so one more waiter
+ stb_mutex_end(s->mutex); // release the mutex to other threads
+
+ stb_sem_waitfor(s->release); // wait for merge completion
+
+ stb_mutex_begin(s->mutex); // on merge completion, grab the mutex
+ --s->waiting; // we're done waiting
+ stb__sync_release(s); // restart the next waiter
+ stb_mutex_end(s->mutex); // and now we're done
+ // this ends the same as the first case, but it's a lot
+ // clearer to understand without sharing the code
+ }
+ }
+
+ struct stb__threadqueue
+ {
+ stb_mutex add, remove;
+ stb_semaphore nonempty, nonfull;
+ int head_blockers; // number of threads blocking--used to know whether to release(avail)
+ int tail_blockers;
+ int head, tail, array_size, growable;
+ int item_size;
+ char *data;
+ };
+
+ static int stb__tq_wrap(volatile stb_threadqueue *z, int p)
+ {
+ if (p == z->array_size)
+ return p - z->array_size;
+ else
+ return p;
+ }
+
+ int stb__threadq_get_raw(stb_threadqueue *tq2, void *output, int block)
+ {
+ volatile stb_threadqueue *tq = (volatile stb_threadqueue *)tq2;
+ if (tq->head == tq->tail && !block) return 0;
+
+ stb_mutex_begin(tq->remove);
+
+ while (tq->head == tq->tail) {
+ if (!block) {
+ stb_mutex_end(tq->remove);
+ return 0;
+ }
+ ++tq->head_blockers;
+ stb_mutex_end(tq->remove);
+
+ stb_sem_waitfor(tq->nonempty);
+
+ stb_mutex_begin(tq->remove);
+ --tq->head_blockers;
+ }
+
+ memcpy(output, tq->data + tq->head*tq->item_size, tq->item_size);
+ stb_barrier();
+ tq->head = stb__tq_wrap(tq, tq->head + 1);
+
+ stb_sem_release(tq->nonfull);
+ if (tq->head_blockers) // can't check if actually non-empty due to race?
+ stb_sem_release(tq->nonempty); // if there are other blockers, wake one
+
+ stb_mutex_end(tq->remove);
+ return STB_TRUE;
+ }
+
+ int stb__threadq_grow(volatile stb_threadqueue *tq)
+ {
+ int n;
+ char *p;
+ assert(tq->remove != STB_MUTEX_NULL); // must have this to allow growth!
+ stb_mutex_begin(tq->remove);
+
+ n = tq->array_size * 2;
+ p = (char *)realloc(tq->data, n * tq->item_size);
+ if (p == NULL) {
+ stb_mutex_end(tq->remove);
+ stb_mutex_end(tq->add);
+ return STB_FALSE;
+ }
+ if (tq->tail < tq->head) {
+ memcpy(p + tq->array_size * tq->item_size, p, tq->tail * tq->item_size);
+ tq->tail += tq->array_size;
+ }
+ tq->data = p;
+ tq->array_size = n;
+
+ stb_mutex_end(tq->remove);
+ return STB_TRUE;
+ }
+
+ int stb__threadq_add_raw(stb_threadqueue *tq2, void *input, int block)
+ {
+ int tail, pos;
+ volatile stb_threadqueue *tq = (volatile stb_threadqueue *)tq2;
+ stb_mutex_begin(tq->add);
+ for (;;) {
+ pos = tq->tail;
+ tail = stb__tq_wrap(tq, pos + 1);
+ if (tail != tq->head) break;
+
+ // full
+ if (tq->growable) {
+ if (!stb__threadq_grow(tq)) {
+ stb_mutex_end(tq->add);
+ return STB_FALSE; // out of memory
+ }
+ }
+ else if (!block) {
+ stb_mutex_end(tq->add);
+ return STB_FALSE;
+ }
+ else {
+ ++tq->tail_blockers;
+ stb_mutex_end(tq->add);
+
+ stb_sem_waitfor(tq->nonfull);
+
+ stb_mutex_begin(tq->add);
+ --tq->tail_blockers;
+ }
+ }
+ memcpy(tq->data + tq->item_size * pos, input, tq->item_size);
+ stb_barrier();
+ tq->tail = tail;
+ stb_sem_release(tq->nonempty);
+ if (tq->tail_blockers) // can't check if actually non-full due to race?
+ stb_sem_release(tq->nonfull);
+ stb_mutex_end(tq->add);
+ return STB_TRUE;
+ }
+
+ int stb_threadq_length(stb_threadqueue *tq2)
+ {
+ int a, b, n;
+ volatile stb_threadqueue *tq = (volatile stb_threadqueue *)tq2;
+ stb_mutex_begin(tq->add);
+ a = tq->head;
+ b = tq->tail;
+ n = tq->array_size;
+ stb_mutex_end(tq->add);
+ if (a > b) b += n;
+ return b - a;
+ }
+
+ int stb_threadq_get(stb_threadqueue *tq, void *output)
+ {
+ return stb__threadq_get_raw(tq, output, STB_FALSE);
+ }
+
+ void stb_threadq_get_block(stb_threadqueue *tq, void *output)
+ {
+ stb__threadq_get_raw(tq, output, STB_TRUE);
+ }
+
+ int stb_threadq_add(stb_threadqueue *tq, void *input)
+ {
+ return stb__threadq_add_raw(tq, input, STB_FALSE);
+ }
+
+ int stb_threadq_add_block(stb_threadqueue *tq, void *input)
+ {
+ return stb__threadq_add_raw(tq, input, STB_TRUE);
+ }
+
+ void stb_threadq_delete(stb_threadqueue *tq)
+ {
+ if (tq) {
+ free(tq->data);
+ stb_mutex_delete(tq->add);
+ stb_mutex_delete(tq->remove);
+ stb_sem_delete(tq->nonempty);
+ stb_sem_delete(tq->nonfull);
+ free(tq);
+ }
+ }
+
+#define STB_THREADQUEUE_DYNAMIC 0
+ stb_threadqueue *stb_threadq_new(int item_size, int num_items, int many_add, int many_remove)
+ {
+ int error = 0;
+ stb_threadqueue *tq = (stb_threadqueue *)malloc(sizeof(*tq));
+ if (tq == NULL) return NULL;
+
+ if (num_items == STB_THREADQUEUE_DYNAMIC) {
+ tq->growable = STB_TRUE;
+ num_items = 32;
+ }
+ else
+ tq->growable = STB_FALSE;
+
+ tq->item_size = item_size;
+ tq->array_size = num_items + 1;
+
+ tq->add = tq->remove = STB_MUTEX_NULL;
+ tq->nonempty = tq->nonfull = STB_SEMAPHORE_NULL;
+ tq->data = NULL;
+ if (many_add)
+ {
+ tq->add = stb_mutex_new(); if (tq->add == STB_MUTEX_NULL) goto error;
+ }
+ if (many_remove || tq->growable)
+ {
+ tq->remove = stb_mutex_new(); if (tq->remove == STB_MUTEX_NULL) goto error;
+ }
+ tq->nonempty = stb_sem_new(1); if (tq->nonempty == STB_SEMAPHORE_NULL) goto error;
+ tq->nonfull = stb_sem_new(1); if (tq->nonfull == STB_SEMAPHORE_NULL) goto error;
+ tq->data = (char *)malloc(tq->item_size * tq->array_size);
+ if (tq->data == NULL) goto error;
+
+ tq->head = tq->tail = 0;
+ tq->head_blockers = tq->tail_blockers = 0;
+
+ return tq;
+
+ error:
+ stb_threadq_delete(tq);
+ return NULL;
+ }
+
+ typedef struct
+ {
+ stb_thread_func f;
+ void *d;
+ volatile void **retval;
+ stb_sync sync;
+ } stb__workinfo;
+
+ //static volatile stb__workinfo *stb__work;
+
+ struct stb__workqueue
+ {
+ int numthreads;
+ stb_threadqueue *tq;
+ };
+
+ static stb_workqueue *stb__work_global;
+
+ static void *stb__thread_workloop(void *p)
+ {
+ volatile stb_workqueue *q = (volatile stb_workqueue *)p;
+ for (;;) {
+ void *z;
+ stb__workinfo w;
+ stb_threadq_get_block(q->tq, &w);
+ if (w.f == NULL) // null work is a signal to end the thread
+ return NULL;
+ z = w.f(w.d);
+ if (w.retval) { stb_barrier(); *w.retval = z; }
+ if (w.sync != STB_SYNC_NULL) stb_sync_reach(w.sync);
+ }
+ }
+
+ stb_workqueue *stb_workq_new(int num_threads, int max_units)
+ {
+ return stb_workq_new_flags(num_threads, max_units, 0, 0);
+ }
+
+ stb_workqueue *stb_workq_new_flags(int numthreads, int max_units, int no_add_mutex, int no_remove_mutex)
+ {
+ stb_workqueue *q = (stb_workqueue *)malloc(sizeof(*q));
+ if (q == NULL) return NULL;
+ q->tq = stb_threadq_new(sizeof(stb__workinfo), max_units, !no_add_mutex, !no_remove_mutex);
+ if (q->tq == NULL) { free(q); return NULL; }
+ q->numthreads = 0;
+ stb_workq_numthreads(q, numthreads);
+ return q;
+ }
+
+ void stb_workq_delete(stb_workqueue *q)
+ {
+ while (stb_workq_length(q) != 0)
+ stb__thread_sleep(1);
+ stb_threadq_delete(q->tq);
+ free(q);
+ }
+
+ static int stb__work_maxitems = STB_THREADQUEUE_DYNAMIC;
+
+ static void stb_work_init(int num_threads)
+ {
+ if (stb__work_global == NULL) {
+ stb__threadmutex_init();
+ stb_mutex_begin(stb__workmutex);
+ stb_barrier();
+ if (*(stb_workqueue * volatile *)&stb__work_global == NULL)
+ stb__work_global = stb_workq_new(num_threads, stb__work_maxitems);
+ stb_mutex_end(stb__workmutex);
+ }
+ }
+
+ static int stb__work_raw(stb_workqueue *q, stb_thread_func f, void *d, volatile void **return_code, stb_sync rel)
+ {
+ stb__workinfo w;
+ if (q == NULL) {
+ stb_work_init(1);
+ q = stb__work_global;
+ }
+ w.f = f;
+ w.d = d;
+ w.retval = return_code;
+ w.sync = rel;
+ return stb_threadq_add(q->tq, &w);
+ }
+
+ int stb_workq_length(stb_workqueue *q)
+ {
+ return stb_threadq_length(q->tq);
+ }
+
+ int stb_workq(stb_workqueue *q, stb_thread_func f, void *d, volatile void **return_code)
+ {
+ if (f == NULL) return 0;
+ return stb_workq_reach(q, f, d, return_code, NULL);
+ }
+
+ int stb_workq_reach(stb_workqueue *q, stb_thread_func f, void *d, volatile void **return_code, stb_sync rel)
+ {
+ if (f == NULL) return 0;
+ return stb__work_raw(q, f, d, return_code, rel);
+ }
+
+ static void stb__workq_numthreads(stb_workqueue *q, int n)
+ {
+ while (q->numthreads < n) {
+ stb_create_thread(stb__thread_workloop, q);
+ ++q->numthreads;
+ }
+ while (q->numthreads > n) {
+ stb__work_raw(q, NULL, NULL, NULL, NULL);
+ --q->numthreads;
+ }
+ }
+
+ void stb_workq_numthreads(stb_workqueue *q, int n)
+ {
+ stb_mutex_begin(stb__threadmutex);
+ stb__workq_numthreads(q, n);
+ stb_mutex_end(stb__threadmutex);
+ }
+
+ int stb_work_maxunits(int n)
+ {
+ if (stb__work_global == NULL) {
+ stb__work_maxitems = n;
+ stb_work_init(1);
+ }
+ return stb__work_maxitems;
+ }
+
+ int stb_work(stb_thread_func f, void *d, volatile void **return_code)
+ {
+ return stb_workq(stb__work_global, f, d, return_code);
+ }
+
+ int stb_work_reach(stb_thread_func f, void *d, volatile void **return_code, stb_sync rel)
+ {
+ return stb_workq_reach(stb__work_global, f, d, return_code, rel);
+ }
+
+ void stb_work_numthreads(int n)
+ {
+ if (stb__work_global == NULL)
+ stb_work_init(n);
+ else
+ stb_workq_numthreads(stb__work_global, n);
+ }
+#endif // STB_DEFINE
+
+
+ //////////////////////////////////////////////////////////////////////////////
+ //
+ // Background disk I/O
+ //
+ //
+
+#define STB_BGIO_READ_ALL (-1)
+ STB_EXTERN int stb_bgio_read(char *filename, int offset, int len, stb_uchar **result, int *olen);
+ STB_EXTERN int stb_bgio_readf(FILE *f, int offset, int len, stb_uchar **result, int *olen);
+ STB_EXTERN int stb_bgio_read_to(char *filename, int offset, int len, stb_uchar *buffer, int *olen);
+ STB_EXTERN int stb_bgio_readf_to(FILE *f, int offset, int len, stb_uchar *buffer, int *olen);
+
+ typedef struct
+ {
+ int have_data;
+ int is_valid;
+ int is_dir;
+ time_t filetime;
+ stb_int64 filesize;
+ } stb_bgstat;
+
+ STB_EXTERN int stb_bgio_stat(char *filename, stb_bgstat *result);
+
+#ifdef STB_DEFINE
+
+ static stb_workqueue *stb__diskio;
+ static stb_mutex stb__diskio_mutex;
+
+ void stb_thread_cleanup(void)
+ {
+ if (stb__work_global) stb_workq_delete(stb__work_global); stb__work_global = NULL;
+ if (stb__threadmutex) stb_mutex_delete(stb__threadmutex); stb__threadmutex = NULL;
+ if (stb__workmutex) stb_mutex_delete(stb__workmutex); stb__workmutex = NULL;
+ if (stb__diskio) stb_workq_delete(stb__diskio); stb__diskio = NULL;
+ if (stb__diskio_mutex)stb_mutex_delete(stb__diskio_mutex); stb__diskio_mutex = NULL;
+ }
+
+
+ typedef struct
+ {
+ char *filename;
+ FILE *f;
+ int offset;
+ int len;
+
+ stb_bgstat *stat_out;
+ stb_uchar *output;
+ stb_uchar **result;
+ int *len_output;
+ int *flag;
+ } stb__disk_command;
+
+#define STB__MAX_DISK_COMMAND 100
+ static stb__disk_command stb__dc_queue[STB__MAX_DISK_COMMAND];
+ static int stb__dc_offset;
+
+ void stb__io_init(void)
+ {
+ if (!stb__diskio) {
+ stb__threadmutex_init();
+ stb_mutex_begin(stb__threadmutex);
+ stb_barrier();
+ if (*(stb_thread * volatile *)&stb__diskio == NULL) {
+ stb__diskio_mutex = stb_mutex_new();
+ // use many threads so OS can try to schedule seeks
+ stb__diskio = stb_workq_new_flags(16, STB__MAX_DISK_COMMAND, STB_FALSE, STB_FALSE);
+ }
+ stb_mutex_end(stb__threadmutex);
+ }
+ }
+
+ static void * stb__io_error(stb__disk_command *dc)
+ {
+ if (dc->len_output) *dc->len_output = 0;
+ if (dc->result) *dc->result = NULL;
+ if (dc->flag) *dc->flag = -1;
+ return NULL;
+ }
+
+ static void * stb__io_task(void *p)
+ {
+ stb__disk_command *dc = (stb__disk_command *)p;
+ int len;
+ FILE *f;
+ stb_uchar *buf;
+
+ if (dc->stat_out) {
+ struct _stati64 s;
+ if (!_stati64(dc->filename, &s)) {
+ dc->stat_out->filesize = s.st_size;
+ dc->stat_out->filetime = s.st_mtime;
+ dc->stat_out->is_dir = s.st_mode & _S_IFDIR;
+ dc->stat_out->is_valid = (s.st_mode & _S_IFREG) || dc->stat_out->is_dir;
+ }
+ else
+ dc->stat_out->is_valid = 0;
+ stb_barrier();
+ dc->stat_out->have_data = 1;
+ free(dc->filename);
+ return 0;
+ }
+ if (dc->f) {
+#ifdef WIN32
+ f = _fdopen(_dup(_fileno(dc->f)), "rb");
+#else
+ f = fdopen(dup(fileno(dc->f)), "rb");
+#endif
+ if (!f)
+ return stb__io_error(dc);
+ }
+ else {
+ f = fopen(dc->filename, "rb");
+ free(dc->filename);
+ if (!f)
+ return stb__io_error(dc);
+ }
+
+ len = dc->len;
+ if (len < 0) {
+ fseek(f, 0, SEEK_END);
+ len = ftell(f) - dc->offset;
+ }
+
+ if (fseek(f, dc->offset, SEEK_SET)) {
+ fclose(f);
+ return stb__io_error(dc);
+ }
+
+ if (dc->output)
+ buf = dc->output;
+ else {
+ buf = (stb_uchar *)malloc(len);
+ if (buf == NULL) {
+ fclose(f);
+ return stb__io_error(dc);
+ }
+ }
+
+ len = fread(buf, 1, len, f);
+ fclose(f);
+ if (dc->len_output) *dc->len_output = len;
+ if (dc->result) *dc->result = buf;
+ if (dc->flag) *dc->flag = 1;
+
+ return NULL;
+ }
+
+ int stb__io_add(char *fname, FILE *f, int off, int len, stb_uchar *out, stb_uchar **result, int *olen, int *flag, stb_bgstat *stat)
+ {
+ int res;
+ stb__io_init();
+ // do memory allocation outside of mutex
+ if (fname) fname = strdup(fname);
+ stb_mutex_begin(stb__diskio_mutex);
+ {
+ stb__disk_command *dc = &stb__dc_queue[stb__dc_offset];
+ dc->filename = fname;
+ dc->f = f;
+ dc->offset = off;
+ dc->len = len;
+ dc->output = out;
+ dc->result = result;
+ dc->len_output = olen;
+ dc->flag = flag;
+ dc->stat_out = stat;
+ res = stb_workq(stb__diskio, stb__io_task, dc, NULL);
+ if (res)
+ stb__dc_offset = (stb__dc_offset + 1 == STB__MAX_DISK_COMMAND ? 0 : stb__dc_offset + 1);
+ }
+ stb_mutex_end(stb__diskio_mutex);
+ return res;
+ }
+
+ int stb_bgio_read(char *filename, int offset, int len, stb_uchar **result, int *olen)
+ {
+ return stb__io_add(filename, NULL, offset, len, NULL, result, olen, NULL, NULL);
+ }
+
+ int stb_bgio_readf(FILE *f, int offset, int len, stb_uchar **result, int *olen)
+ {
+ return stb__io_add(NULL, f, offset, len, NULL, result, olen, NULL, NULL);
+ }
+
+ int stb_bgio_read_to(char *filename, int offset, int len, stb_uchar *buffer, int *olen)
+ {
+ return stb__io_add(filename, NULL, offset, len, buffer, NULL, olen, NULL, NULL);
+ }
+
+ int stb_bgio_readf_to(FILE *f, int offset, int len, stb_uchar *buffer, int *olen)
+ {
+ return stb__io_add(NULL, f, offset, len, buffer, NULL, olen, NULL, NULL);
+ }
+
+ STB_EXTERN int stb_bgio_stat(char *filename, stb_bgstat *result)
+ {
+ result->have_data = 0;
+ return stb__io_add(filename, NULL, 0, 0, 0, NULL, 0, NULL, result);
+ }
+#endif
+#endif
+
+
+
+ //////////////////////////////////////////////////////////////////////////////
+ //
+ // Fast malloc implementation
+ //
+ // This is a clone of TCMalloc, but without the thread support.
+ // 1. large objects are allocated directly, page-aligned
+ // 2. small objects are allocated in homogeonous heaps, 0 overhead
+ //
+ // We keep an allocation table for pages a la TCMalloc. This would
+ // require 4MB for the entire address space, but we only allocate
+ // the parts that are in use. The overhead from using homogenous heaps
+ // everywhere is 3MB. (That is, if you allocate 1 object of each size,
+ // you'll use 3MB.)
+
+#if defined(STB_DEFINE) && (defined(_WIN32) || defined(STB_FASTMALLOC))
+
+#ifdef _WIN32
+#ifndef _WINDOWS_
+#ifndef STB__IMPORT
+#define STB__IMPORT STB_EXTERN __declspec(dllimport)
+#define STB__DW unsigned long
+#endif
+ STB__IMPORT void * __stdcall VirtualAlloc(void *p, unsigned long size, unsigned long type, unsigned long protect);
+ STB__IMPORT int __stdcall VirtualFree(void *p, unsigned long size, unsigned long freetype);
+#endif
+#define stb__alloc_pages_raw(x) (stb_uint32) VirtualAlloc(NULL, (x), 0x3000, 0x04)
+#define stb__dealloc_pages_raw(p) VirtualFree((void *) p, 0, 0x8000)
+#else
+#error "Platform not currently supported"
+#endif
+
+ typedef struct stb__span
+ {
+ int start, len;
+ struct stb__span *next, *prev;
+ void *first_free;
+ unsigned short list; // 1..256 free; 257..511 sizeclass; 0=large block
+ short allocations; // # outstanding allocations for sizeclass
+ } stb__span; // 24
+
+ static stb__span **stb__span_for_page;
+ static int stb__firstpage, stb__lastpage;
+ static void stb__update_page_range(int first, int last)
+ {
+ stb__span **sfp;
+ int i, f, l;
+ if (first >= stb__firstpage && last <= stb__lastpage) return;
+ if (stb__span_for_page == NULL) {
+ f = first;
+ l = f + stb_max(last - f, 16384);
+ l = stb_min(l, 1 << 20);
+ }
+ else if (last > stb__lastpage) {
+ f = stb__firstpage;
+ l = f + (stb__lastpage - f) * 2;
+ l = stb_clamp(last, l, 1 << 20);
+ }
+ else {
+ l = stb__lastpage;
+ f = l - (l - stb__firstpage) * 2;
+ f = stb_clamp(f, 0, first);
+ }
+ sfp = (stb__span **)stb__alloc_pages_raw(sizeof(void *) * (l - f));
+ for (i = f; i < stb__firstpage; ++i) sfp[i - f] = NULL;
+ for (; i < stb__lastpage; ++i) sfp[i - f] = stb__span_for_page[i - stb__firstpage];
+ for (; i < l; ++i) sfp[i - f] = NULL;
+ if (stb__span_for_page) stb__dealloc_pages_raw(stb__span_for_page);
+ stb__firstpage = f;
+ stb__lastpage = l;
+ stb__span_for_page = sfp;
+ }
+
+ static stb__span *stb__span_free = NULL;
+ static stb__span *stb__span_first, *stb__span_end;
+ static stb__span *stb__span_alloc(void)
+ {
+ stb__span *s = stb__span_free;
+ if (s)
+ stb__span_free = s->next;
+ else {
+ if (!stb__span_first) {
+ stb__span_first = (stb__span *)stb__alloc_pages_raw(65536);
+ if (stb__span_first == NULL) return NULL;
+ stb__span_end = stb__span_first + (65536 / sizeof(stb__span));
+ }
+ s = stb__span_first++;
+ if (stb__span_first == stb__span_end) stb__span_first = NULL;
+ }
+ return s;
+ }
+
+ static stb__span *stb__spanlist[512];
+
+ static void stb__spanlist_unlink(stb__span *s)
+ {
+ if (s->prev)
+ s->prev->next = s->next;
+ else {
+ int n = s->list;
+ assert(stb__spanlist[n] == s);
+ stb__spanlist[n] = s->next;
+ }
+ if (s->next)
+ s->next->prev = s->prev;
+ s->next = s->prev = NULL;
+ s->list = 0;
+ }
+
+ static void stb__spanlist_add(int n, stb__span *s)
+ {
+ s->list = n;
+ s->next = stb__spanlist[n];
+ s->prev = NULL;
+ stb__spanlist[n] = s;
+ if (s->next) s->next->prev = s;
+ }
+
+#define stb__page_shift 12
+#define stb__page_size (1 << stb__page_shift)
+#define stb__page_number(x) ((x) >> stb__page_shift)
+#define stb__page_address(x) ((x) << stb__page_shift)
+
+ static void stb__set_span_for_page(stb__span *s)
+ {
+ int i;
+ for (i = 0; i < s->len; ++i)
+ stb__span_for_page[s->start + i - stb__firstpage] = s;
+ }
+
+ static stb__span *stb__coalesce(stb__span *a, stb__span *b)
+ {
+ assert(a->start + a->len == b->start);
+ if (a->list) stb__spanlist_unlink(a);
+ if (b->list) stb__spanlist_unlink(b);
+ a->len += b->len;
+ b->len = 0;
+ b->next = stb__span_free;
+ stb__span_free = b;
+ stb__set_span_for_page(a);
+ return a;
+ }
+
+ static void stb__free_span(stb__span *s)
+ {
+ stb__span *n = NULL;
+ if (s->start > stb__firstpage) {
+ n = stb__span_for_page[s->start - 1 - stb__firstpage];
+ if (n && n->allocations == -2 && n->start + n->len == s->start) s = stb__coalesce(n, s);
+ }
+ if (s->start + s->len < stb__lastpage) {
+ n = stb__span_for_page[s->start + s->len - stb__firstpage];
+ if (n && n->allocations == -2 && s->start + s->len == n->start) s = stb__coalesce(s, n);
+ }
+ s->allocations = -2;
+ stb__spanlist_add(s->len > 256 ? 256 : s->len, s);
+ }
+
+ static stb__span *stb__alloc_pages(int num)
+ {
+ stb__span *s = stb__span_alloc();
+ int p;
+ if (!s) return NULL;
+ p = stb__alloc_pages_raw(num << stb__page_shift);
+ if (p == 0) { s->next = stb__span_free; stb__span_free = s; return 0; }
+ assert(stb__page_address(stb__page_number(p)) == p);
+ p = stb__page_number(p);
+ stb__update_page_range(p, p + num);
+ s->start = p;
+ s->len = num;
+ s->next = NULL;
+ s->prev = NULL;
+ stb__set_span_for_page(s);
+ return s;
+ }
+
+ static stb__span *stb__alloc_span(int pagecount)
+ {
+ int i;
+ stb__span *p = NULL;
+ for (i = pagecount; i < 256; ++i)
+ if (stb__spanlist[i]) {
+ p = stb__spanlist[i];
+ break;
+ }
+ if (!p) {
+ p = stb__spanlist[256];
+ while (p && p->len < pagecount)
+ p = p->next;
+ }
+ if (!p) {
+ p = stb__alloc_pages(pagecount < 16 ? 16 : pagecount);
+ if (p == NULL) return 0;
+ }
+ else
+ stb__spanlist_unlink(p);
+
+ if (p->len > pagecount) {
+ stb__span *q = stb__span_alloc();
+ if (q) {
+ q->start = p->start + pagecount;
+ q->len = p->len - pagecount;
+ p->len = pagecount;
+ for (i = 0; i < q->len; ++i)
+ stb__span_for_page[q->start + i - stb__firstpage] = q;
+ stb__spanlist_add(q->len > 256 ? 256 : q->len, q);
+ }
+ }
+ return p;
+ }
+
+#define STB__MAX_SMALL_SIZE 32768
+#define STB__MAX_SIZE_CLASSES 256
+
+ static unsigned char stb__class_base[32];
+ static unsigned char stb__class_shift[32];
+ static unsigned char stb__pages_for_class[STB__MAX_SIZE_CLASSES];
+ static int stb__size_for_class[STB__MAX_SIZE_CLASSES];
+
+ stb__span *stb__get_nonempty_sizeclass(int c)
+ {
+ int s = c + 256, i, size, tsize; // remap to span-list index
+ char *z;
+ void *q;
+ stb__span *p = stb__spanlist[s];
+ if (p) {
+ if (p->first_free) return p; // fast path: it's in the first one in list
+ for (p = p->next; p; p = p->next)
+ if (p->first_free) {
+ // move to front for future queries
+ stb__spanlist_unlink(p);
+ stb__spanlist_add(s, p);
+ return p;
+ }
+ }
+ // no non-empty ones, so allocate a new one
+ p = stb__alloc_span(stb__pages_for_class[c]);
+ if (!p) return NULL;
+ // create the free list up front
+ size = stb__size_for_class[c];
+ tsize = stb__pages_for_class[c] << stb__page_shift;
+ i = 0;
+ z = (char *)stb__page_address(p->start);
+ q = NULL;
+ while (i + size <= tsize) {
+ *(void **)z = q; q = z;
+ z += size;
+ i += size;
+ }
+ p->first_free = q;
+ p->allocations = 0;
+ stb__spanlist_add(s, p);
+ return p;
+ }
+
+ static int stb__sizeclass(size_t sz)
+ {
+ int z = stb_log2_floor(sz); // -1 below to group e.g. 13,14,15,16 correctly
+ return stb__class_base[z] + ((sz - 1) >> stb__class_shift[z]);
+ }
+
+ static void stb__init_sizeclass(void)
+ {
+ int i, size, overhead;
+ int align_shift = 2; // allow 4-byte and 12-byte blocks as well, vs. TCMalloc
+ int next_class = 1;
+ int last_log = 0;
+
+ for (i = 0; i < align_shift; i++) {
+ stb__class_base[i] = next_class;
+ stb__class_shift[i] = align_shift;
+ }
+
+ for (size = 1 << align_shift; size <= STB__MAX_SMALL_SIZE; size += 1 << align_shift) {
+ i = stb_log2_floor(size);
+ if (i > last_log) {
+ if (size == 16) ++align_shift; // switch from 4-byte to 8-byte alignment
+ else if (size >= 128 && align_shift < 8) ++align_shift;
+ stb__class_base[i] = next_class - ((size - 1) >> align_shift);
+ stb__class_shift[i] = align_shift;
+ last_log = i;
+ }
+ stb__size_for_class[next_class++] = size;
+ }
+
+ for (i = 1; i <= STB__MAX_SMALL_SIZE; ++i)
+ assert(i <= stb__size_for_class[stb__sizeclass(i)]);
+
+ overhead = 0;
+ for (i = 1; i < next_class; i++) {
+ int s = stb__size_for_class[i];
+ size = stb__page_size;
+ while (size % s > size >> 3)
+ size += stb__page_size;
+ stb__pages_for_class[i] = (unsigned char)(size >> stb__page_shift);
+ overhead += size;
+ }
+ assert(overhead < (4 << 20)); // make sure it's under 4MB of overhead
+ }
+
+#ifdef STB_DEBUG
+#define stb__smemset(a,b,c) memset((void *) a, b, c)
+#elif defined(STB_FASTMALLOC_INIT)
+#define stb__smemset(a,b,c) memset((void *) a, b, c)
+#else
+#define stb__smemset(a,b,c)
+#endif
+ void *stb_smalloc(size_t sz)
+ {
+ stb__span *s;
+ if (sz == 0) return NULL;
+ if (stb__size_for_class[1] == 0) stb__init_sizeclass();
+ if (sz > STB__MAX_SMALL_SIZE) {
+ s = stb__alloc_span((sz + stb__page_size - 1) >> stb__page_shift);
+ if (s == NULL) return NULL;
+ s->list = 0;
+ s->next = s->prev = NULL;
+ s->allocations = -32767;
+ stb__smemset(stb__page_address(s->start), 0xcd, (sz + 3)&~3);
+ return (void *)stb__page_address(s->start);
+ }
+ else {
+ void *p;
+ int c = stb__sizeclass(sz);
+ s = stb__spanlist[256 + c];
+ if (!s || !s->first_free)
+ s = stb__get_nonempty_sizeclass(c);
+ if (s == NULL) return NULL;
+ p = s->first_free;
+ s->first_free = *(void **)p;
+ ++s->allocations;
+ stb__smemset(p, 0xcd, sz);
+ return p;
+ }
+ }
+
+ int stb_ssize(void *p)
+ {
+ stb__span *s;
+ if (p == NULL) return 0;
+ s = stb__span_for_page[stb__page_number((stb_uint)p) - stb__firstpage];
+ if (s->list >= 256) {
+ return stb__size_for_class[s->list - 256];
+ }
+ else {
+ assert(s->list == 0);
+ return s->len << stb__page_shift;
+ }
+ }
+
+ void stb_sfree(void *p)
+ {
+ stb__span *s;
+ if (p == NULL) return;
+ s = stb__span_for_page[stb__page_number((stb_uint)p) - stb__firstpage];
+ if (s->list >= 256) {
+ stb__smemset(p, 0xfe, stb__size_for_class[s->list - 256]);
+ *(void **)p = s->first_free;
+ s->first_free = p;
+ if (--s->allocations == 0) {
+ stb__spanlist_unlink(s);
+ stb__free_span(s);
+ }
+ }
+ else {
+ assert(s->list == 0);
+ stb__smemset(p, 0xfe, stb_ssize(p));
+ stb__free_span(s);
+ }
+ }
+
+ void *stb_srealloc(void *p, size_t sz)
+ {
+ size_t cur_size;
+ if (p == NULL) return stb_smalloc(sz);
+ if (sz == 0) { stb_sfree(p); return NULL; }
+ cur_size = stb_ssize(p);
+ if (sz > cur_size || sz <= (cur_size >> 1)) {
+ void *q;
+ if (sz > cur_size && sz < (cur_size << 1)) sz = cur_size << 1;
+ q = stb_smalloc(sz); if (q == NULL) return NULL;
+ memcpy(q, p, sz < cur_size ? sz : cur_size);
+ stb_sfree(p);
+ return q;
+ }
+ return p;
+ }
+
+ void *stb_scalloc(size_t n, size_t sz)
+ {
+ void *p;
+ if (n == 0 || sz == 0) return NULL;
+ if (stb_log2_ceil(n) + stb_log2_ceil(n) >= 32) return NULL;
+ p = stb_smalloc(n*sz);
+ if (p) memset(p, 0, n*sz);
+ return p;
+ }
+
+ char *stb_sstrdup(char *s)
+ {
+ int n = strlen(s);
+ char *p = (char *)stb_smalloc(n + 1);
+ if (p) strcpy(p, s);
+ return p;
+ }
+#endif // STB_DEFINE
+
+
+
+ //////////////////////////////////////////////////////////////////////////////
+ //
+ // Source code constants
+ //
+ // This is a trivial system to let you specify constants in source code,
+ // then while running you can change the constants.
+ //
+ // Note that you can't wrap the #defines, because we need to know their
+ // names. So we provide a pre-wrapped version without 'STB_' for convenience;
+ // to request it, #define STB_CONVENIENT_H, yielding:
+ // KI -- integer
+ // KU -- unsigned integer
+ // KF -- float
+ // KD -- double
+ // KS -- string constant
+ //
+ // Defaults to functioning in debug build, not in release builds.
+ // To force on, define STB_ALWAYS_H
+
+#ifdef STB_CONVENIENT_H
+#define KI(x) STB_I(x)
+#define KU(x) STB_UI(x)
+#define KF(x) STB_F(x)
+#define KD(x) STB_D(x)
+#define KS(x) STB_S(x)
+#endif
+
+ STB_EXTERN void stb_source_path(char *str);
+#ifdef STB_DEFINE
+ char *stb__source_path;
+ void stb_source_path(char *path)
+ {
+ stb__source_path = path;
+ }
+
+ char *stb__get_sourcefile_path(char *file)
+ {
+ static char filebuf[512];
+ if (stb__source_path) {
+ sprintf(filebuf, "%s/%s", stb__source_path, file);
+ if (stb_fexists(filebuf)) return filebuf;
+ }
+
+ if (stb_fexists(file)) return file;
+
+ sprintf(filebuf, "../%s", file);
+ if (!stb_fexists(filebuf)) return filebuf;
+
+ return file;
+ }
+#endif
+
+#define STB_F(x) ((float) STB_H(x))
+#define STB_UI(x) ((unsigned int) STB_I(x))
+
+#if !defined(STB_DEBUG) && !defined(STB_ALWAYS_H)
+#define STB_D(x) ((double) (x))
+#define STB_I(x) ((int) (x))
+#define STB_S(x) ((char *) (x))
+#else
+#define STB_D(x) stb__double_constant(__FILE__, __LINE__-1, (x))
+#define STB_I(x) stb__int_constant(__FILE__, __LINE__-1, (x))
+#define STB_S(x) stb__string_constant(__FILE__, __LINE__-1, (x))
+
+ STB_EXTERN double stb__double_constant(char *file, int line, double x);
+ STB_EXTERN int stb__int_constant(char *file, int line, int x);
+ STB_EXTERN char * stb__string_constant(char *file, int line, char *str);
+
+#ifdef STB_DEFINE
+
+ enum
+ {
+ STB__CTYPE_int,
+ STB__CTYPE_uint,
+ STB__CTYPE_float,
+ STB__CTYPE_double,
+ STB__CTYPE_string,
+ };
+
+ typedef struct
+ {
+ int line;
+ int type;
+ union {
+ int ival;
+ double dval;
+ char *sval;
+ };
+ } stb__Entry;
+
+ typedef struct
+ {
+ stb__Entry *entries;
+ char *filename;
+ time_t timestamp;
+ char **file_data;
+ int file_len;
+ unsigned short *line_index;
+ } stb__FileEntry;
+
+ static void stb__constant_parse(stb__FileEntry *f, int i)
+ {
+ char *s;
+ int n;
+ if (!stb_arr_valid(f->entries, i)) return;
+ n = f->entries[i].line;
+ if (n >= f->file_len) return;
+ s = f->file_data[n];
+ switch (f->entries[i].type) {
+ case STB__CTYPE_float:
+ while (*s) {
+ if (!strncmp(s, "STB_D(", 6)) { s += 6; goto matched_float; }
+ if (!strncmp(s, "STB_F(", 6)) { s += 6; goto matched_float; }
+ if (!strncmp(s, "KD(", 3)) { s += 3; goto matched_float; }
+ if (!strncmp(s, "KF(", 3)) { s += 3; goto matched_float; }
+ ++s;
+ }
+ break;
+ matched_float:
+ f->entries[i].dval = strtod(s, NULL);
+ break;
+ case STB__CTYPE_int:
+ while (*s) {
+ if (!strncmp(s, "STB_I(", 6)) { s += 6; goto matched_int; }
+ if (!strncmp(s, "STB_UI(", 7)) { s += 7; goto matched_int; }
+ if (!strncmp(s, "KI(", 3)) { s += 3; goto matched_int; }
+ if (!strncmp(s, "KU(", 3)) { s += 3; goto matched_int; }
+ ++s;
+ }
+ break;
+ matched_int: {
+ int neg = 0;
+ s = stb_skipwhite(s);
+ while (*s == '-') { neg = !neg; s = stb_skipwhite(s + 1); } // handle '- - 5', pointlessly
+ if (s[0] == '0' && tolower(s[1]) == 'x')
+ f->entries[i].ival = strtol(s, NULL, 16);
+ else if (s[0] == '0')
+ f->entries[i].ival = strtol(s, NULL, 8);
+ else
+ f->entries[i].ival = strtol(s, NULL, 10);
+ if (neg) f->entries[i].ival = -f->entries[i].ival;
+ break;
+ }
+ case STB__CTYPE_string:
+ // @TODO
+ break;
+ }
+ }
+
+ static stb_sdict *stb__constant_file_hash;
+
+ stb__Entry *stb__constant_get_entry(char *filename, int line, int type)
+ {
+ int i;
+ stb__FileEntry *f;
+ if (stb__constant_file_hash == NULL)
+ stb__constant_file_hash = stb_sdict_new(STB_TRUE);
+ f = (stb__FileEntry*)stb_sdict_get(stb__constant_file_hash, filename);
+ if (f == NULL) {
+ char *s = stb__get_sourcefile_path(filename);
+ if (s == NULL || !stb_fexists(s)) return 0;
+ f = (stb__FileEntry *)malloc(sizeof(*f));
+ f->timestamp = stb_ftimestamp(s);
+ f->file_data = stb_stringfile(s, &f->file_len);
+ f->filename = strdup(s); // cache the full path
+ f->entries = NULL;
+ f->line_index = 0;
+ stb_arr_setlen(f->line_index, f->file_len);
+ memset(f->line_index, 0xff, stb_arr_storage(f->line_index));
+ }
+ else {
+ time_t t = stb_ftimestamp(f->filename);
+ if (f->timestamp != t) {
+ f->timestamp = t;
+ free(f->file_data);
+ f->file_data = stb_stringfile(f->filename, &f->file_len);
+ stb_arr_setlen(f->line_index, f->file_len);
+ for (i = 0; i < stb_arr_len(f->entries); ++i)
+ stb__constant_parse(f, i);
+ }
+ }
+
+ if (line >= f->file_len) return 0;
+
+ if (f->line_index[line] >= stb_arr_len(f->entries)) {
+ // need a new entry
+ int n = stb_arr_len(f->entries);
+ stb__Entry e;
+ e.line = line;
+ if (line < f->file_len)
+ f->line_index[line] = n;
+ e.type = type;
+ stb_arr_push(f->entries, e);
+ stb__constant_parse(f, n);
+ }
+ return f->entries + f->line_index[line];
+ }
+
+ double stb__double_constant(char *file, int line, double x)
+ {
+ stb__Entry *e = stb__constant_get_entry(file, line, STB__CTYPE_float);
+ if (!e) return x;
+ return e->dval;
+ }
+
+ int stb__int_constant(char *file, int line, int x)
+ {
+ stb__Entry *e = stb__constant_get_entry(file, line, STB__CTYPE_int);
+ if (!e) return x;
+ return e->ival;
+ }
+
+ char * stb__string_constant(char *file, int line, char *x)
+ {
+ stb__Entry *e = stb__constant_get_entry(file, line, STB__CTYPE_string);
+ if (!e) return x;
+ return e->sval;
+ }
+
+#endif // STB_DEFINE
+#endif // !STB_DEBUG && !STB_ALWAYS_H
+
+
+#ifdef STB_STUA
+ //////////////////////////////////////////////////////////////////////////
+ //
+ // stua: little scripting language
+ //
+ // define STB_STUA to compile it
+ //
+ // see http://nothings.org/stb/stb_stua.html for documentation
+ //
+ // basic parsing model:
+ //
+ // lexical analysis
+ // use stb_lex() to parse tokens; keywords get their own tokens
+ //
+ // parsing:
+ // recursive descent parser. too much of a hassle to make an unambiguous
+ // LR(1) grammar, and one-pass generation is clumsier (recursive descent
+ // makes it easier to e.g. compile nested functions). on the other hand,
+ // dictionary syntax required hackery to get extra lookahead.
+ //
+ // codegen:
+ // output into an evaluation tree, using array indices as 'pointers'
+ //
+ // run:
+ // traverse the tree; support for 'break/continue/return' is tricky
+ //
+ // garbage collection:
+ // stu__mark and sweep; explicit stack with non-stu__compile_global_scope roots
+
+ typedef stb_int32 stua_obj;
+
+ typedef stb_idict stua_dict;
+
+ STB_EXTERN void stua_run_script(char *s);
+ STB_EXTERN void stua_uninit(void);
+
+ extern stua_obj stua_globals;
+
+ STB_EXTERN double stua_number(stua_obj z);
+
+ STB_EXTERN stua_obj stua_getnil(void);
+ STB_EXTERN stua_obj stua_getfalse(void);
+ STB_EXTERN stua_obj stua_gettrue(void);
+ STB_EXTERN stua_obj stua_string(char *z);
+ STB_EXTERN stua_obj stua_make_number(double d);
+ STB_EXTERN stua_obj stua_box(int type, void *data, int size);
+
+ enum
+ {
+ STUA_op_negate = 129,
+ STUA_op_shl, STUA_op_ge,
+ STUA_op_shr, STUA_op_le,
+ STUA_op_shru,
+ STUA_op_last
+ };
+
+#define STUA_NO_VALUE 2 // equivalent to a tagged NULL
+ STB_EXTERN stua_obj(*stua_overload)(int op, stua_obj a, stua_obj b, stua_obj c);
+
+ STB_EXTERN stua_obj stua_error(char *err, ...);
+
+ STB_EXTERN stua_obj stua_pushroot(stua_obj o);
+ STB_EXTERN void stua_poproot(void);
+
+
+#ifdef STB_DEFINE
+ // INTERPRETER
+
+ // 31-bit floating point implementation
+ // force the (1 << 30) bit (2nd highest bit) to be zero by re-biasing the exponent;
+ // then shift and set the bottom bit
+
+ static stua_obj stu__floatp(float *f)
+ {
+ unsigned int n = *(unsigned int *)f;
+ unsigned int e = n & (0xff << 23);
+
+ assert(sizeof(int) == 4 && sizeof(float) == 4);
+
+ if (!e) // zero?
+ n = n; // no change
+ else if (e < (64 << 23)) // underflow of the packed encoding?
+ n = (n & 0x80000000); // signed 0
+ else if (e >(190 << 23)) // overflow of the encoding? (or INF or NAN)
+ n = (n & 0x80000000) + (127 << 23); // new INF encoding
+ else
+ n -= 0x20000000;
+
+ // now we need to shuffle the bits so that the spare bit is at the bottom
+ assert((n & 0x40000000) == 0);
+ return (n & 0x80000000) + (n << 1) + 1;
+ }
+
+ static unsigned char stu__getfloat_addend[256];
+ static float stu__getfloat(stua_obj v)
+ {
+ unsigned int n;
+ unsigned int e = ((unsigned int)v) >> 24;
+
+ n = (int)v >> 1; // preserve high bit
+ n += stu__getfloat_addend[e] << 24;
+ return *(float *)&n;
+ }
+
+ stua_obj stua_float(float f)
+ {
+ return stu__floatp(&f);
+ }
+
+ static void stu__float_init(void)
+ {
+ int i;
+ stu__getfloat_addend[0] = 0; // do nothing to biased exponent of 0
+ for (i = 1; i < 127; ++i)
+ stu__getfloat_addend[i] = 32; // undo the -0x20000000
+ stu__getfloat_addend[127] = 64; // convert packed INF to INF (0x3f -> 0x7f)
+
+ for (i = 0; i < 128; ++i) // for signed floats, remove the bit we just shifted down
+ stu__getfloat_addend[128 + i] = stu__getfloat_addend[i] - 64;
+ }
+
+ // Tagged data type implementation
+
+ // TAGS:
+#define stu__int_tag 0 // of 2 bits // 00 int
+#define stu__float_tag 1 // of 1 bit // 01 float
+#define stu__ptr_tag 2 // of 2 bits // 10 boxed
+ // 11 float
+
+#define stu__tag(x) ((x) & 3)
+#define stu__number(x) (stu__tag(x) != stu__ptr_tag)
+#define stu__isint(x) (stu__tag(x) == stu__int_tag)
+
+#define stu__int(x) ((x) >> 2)
+#define stu__float(x) (stu__getfloat(x))
+
+#define stu__makeint(v) ((v)*4+stu__int_tag)
+
+ // boxed data, and tag support for boxed data
+
+ enum
+ {
+ STU___float = 1, STU___int = 2,
+ STU___number = 3, STU___string = 4,
+ STU___function = 5, STU___dict = 6,
+ STU___boolean = 7, STU___error = 8,
+ };
+
+ // boxed data
+#define STU__BOX short type, stua_gc
+ typedef struct stu__box { STU__BOX; } stu__box;
+
+ stu__box stu__nil = { 0, 1 };
+ stu__box stu__true = { STU___boolean, 1, };
+ stu__box stu__false = { STU___boolean, 1, };
+
+#define stu__makeptr(v) ((stua_obj) (v) + stu__ptr_tag)
+
+#define stua_nil stu__makeptr(&stu__nil)
+#define stua_true stu__makeptr(&stu__true)
+#define stua_false stu__makeptr(&stu__false)
+
+ stua_obj stua_getnil(void) { return stua_nil; }
+ stua_obj stua_getfalse(void) { return stua_false; }
+ stua_obj stua_gettrue(void) { return stua_true; }
+
+#define stu__ptr(x) ((stu__box *) ((x) - stu__ptr_tag))
+
+#define stu__checkt(t,x) ((t) == STU___float ? ((x) & 1) == stu__float_tag : \
+ (t) == STU___int ? stu__isint(x) : \
+ (t) == STU___number ? stu__number(x) : \
+ stu__tag(x) == stu__ptr_tag && stu__ptr(x)->type == (t))
+
+ typedef struct
+ {
+ STU__BOX;
+ void *ptr;
+ } stu__wrapper;
+
+ // implementation of a 'function' or function + closure
+
+ typedef struct stu__func
+ {
+ STU__BOX;
+ stua_obj closure_source; // 0 - regular function; 4 - C function
+ // if closure, pointer to source function
+ union {
+ stua_obj closure_data; // partial-application data
+ void *store; // pointer to free that holds 'code'
+ stua_obj(*func)(stua_dict *context);
+ } f;
+ // closure ends here
+ short *code;
+ int num_param;
+ stua_obj *param; // list of parameter strings
+ } stu__func;
+
+ // apply this to 'short *code' to get at data
+#define stu__const(f) ((stua_obj *) (f))
+
+ static void stu__free_func(stu__func *f)
+ {
+ if (f->closure_source == 0) free(f->f.store);
+ if ((stb_uint)f->closure_source <= 4) free(f->param);
+ free(f);
+ }
+
+#define stu__pd(x) ((stua_dict *) stu__ptr(x))
+#define stu__pw(x) ((stu__wrapper *) stu__ptr(x))
+#define stu__pf(x) ((stu__func *) stu__ptr(x))
+
+
+ // garbage-collection
+
+
+ static stu__box ** stu__gc_ptrlist;
+ static stua_obj * stu__gc_root_stack;
+
+ stua_obj stua_pushroot(stua_obj o) { stb_arr_push(stu__gc_root_stack, o); return o; }
+ void stua_poproot(void) { stb_arr_pop(stu__gc_root_stack); }
+
+ static stb_sdict *stu__strings;
+ static void stu__mark(stua_obj z)
+ {
+ int i;
+ stu__box *p = stu__ptr(z);
+ if (p->stua_gc == 1) return; // already marked
+ assert(p->stua_gc == 0);
+ p->stua_gc = 1;
+ switch (p->type) {
+ case STU___function: {
+ stu__func *f = (stu__func *)p;
+ if ((stb_uint)f->closure_source <= 4) {
+ if (f->closure_source == 0) {
+ for (i = 1; i <= f->code[0]; ++i)
+ if (!stu__number(((stua_obj *)f->code)[-i]))
+ stu__mark(((stua_obj *)f->code)[-i]);
+ }
+ for (i = 0; i < f->num_param; ++i)
+ stu__mark(f->param[i]);
+ }
+ else {
+ stu__mark(f->closure_source);
+ stu__mark(f->f.closure_data);
+ }
+ break;
+ }
+ case STU___dict: {
+ stua_dict *e = (stua_dict *)p;
+ for (i = 0; i < e->limit; ++i)
+ if (e->table[i].k != STB_IEMPTY && e->table[i].k != STB_IDEL) {
+ if (!stu__number(e->table[i].k)) stu__mark((int)e->table[i].k);
+ if (!stu__number(e->table[i].v)) stu__mark((int)e->table[i].v);
+ }
+ break;
+ }
+ }
+ }
+
+ static int stu__num_allocs, stu__size_allocs;
+ static stua_obj stu__flow_val = stua_nil; // used for break & return
+
+ static void stua_gc(int force)
+ {
+ int i;
+ if (!force && stu__num_allocs == 0 && stu__size_allocs == 0) return;
+ stu__num_allocs = stu__size_allocs = 0;
+ //printf("[gc]\n");
+
+ // clear marks
+ for (i = 0; i < stb_arr_len(stu__gc_ptrlist); ++i)
+ stu__gc_ptrlist[i]->stua_gc = 0;
+
+ // stu__mark everything reachable
+ stu__nil.stua_gc = stu__true.stua_gc = stu__false.stua_gc = 1;
+ stu__mark(stua_globals);
+ if (!stu__number(stu__flow_val))
+ stu__mark(stu__flow_val);
+ for (i = 0; i < stb_arr_len(stu__gc_root_stack); ++i)
+ if (!stu__number(stu__gc_root_stack[i]))
+ stu__mark(stu__gc_root_stack[i]);
+
+ // sweep unreachables
+ for (i = 0; i < stb_arr_len(stu__gc_ptrlist);) {
+ stu__box *z = stu__gc_ptrlist[i];
+ if (!z->stua_gc) {
+ switch (z->type) {
+ case STU___dict: stb_idict_destroy((stua_dict *)z); break;
+ case STU___error: free(((stu__wrapper *)z)->ptr); break;
+ case STU___string: stb_sdict_remove(stu__strings, (char*)((stu__wrapper *)z)->ptr, NULL); free(z); break;
+ case STU___function: stu__free_func((stu__func *)z); break;
+ }
+ // swap in the last item over this, and repeat
+ z = stb_arr_pop(stu__gc_ptrlist);
+ stu__gc_ptrlist[i] = z;
+ }
+ else
+ ++i;
+ }
+ }
+
+ static void stu__consider_gc(stua_obj x)
+ {
+ if (stu__size_allocs < 100000) return;
+ if (stu__num_allocs < 10 && stu__size_allocs < 1000000) return;
+ stb_arr_push(stu__gc_root_stack, x);
+ stua_gc(0);
+ stb_arr_pop(stu__gc_root_stack);
+ }
+
+ static stua_obj stu__makeobj(int type, void *data, int size, int safe_to_gc)
+ {
+ stua_obj x = stu__makeptr(data);
+ ((stu__box *)data)->type = type;
+ stb_arr_push(stu__gc_ptrlist, (stu__box *)data);
+ stu__num_allocs += 1;
+ stu__size_allocs += size;
+ if (safe_to_gc) stu__consider_gc(x);
+ return x;
+ }
+
+ stua_obj stua_box(int type, void *data, int size)
+ {
+ stu__wrapper *p = (stu__wrapper *)malloc(sizeof(*p));
+ p->ptr = data;
+ return stu__makeobj(type, p, size, 0);
+ }
+
+ // a stu string can be directly compared for equality, because
+ // they go into a hash table
+ stua_obj stua_string(char *z)
+ {
+ stu__wrapper *b = (stu__wrapper *)stb_sdict_get(stu__strings, z);
+ if (b == NULL) {
+ int o = stua_box(STU___string, NULL, strlen(z) + sizeof(*b));
+ b = stu__pw(o);
+ stb_sdict_add(stu__strings, z, b);
+ stb_sdict_getkey(stu__strings, z, (char **)&b->ptr);
+ }
+ return stu__makeptr(b);
+ }
+
+ // stb_obj dictionary is just an stb_idict
+ static void stu__set(stua_dict *d, stua_obj k, stua_obj v)
+ {
+ if (stb_idict_set(d, k, v)) stu__size_allocs += 8;
+ }
+
+ static stua_obj stu__get(stua_dict *d, stua_obj k, stua_obj res)
+ {
+ stb_idict_get_flag(d, k, &res);
+ return res;
+ }
+
+ static stua_obj make_string(char *z, int len)
+ {
+ stua_obj s;
+ char temp[256], *q = (char *)stb_temp(temp, len + 1), *p = q;
+ while (len > 0) {
+ if (*z == '\\') {
+ if (z[1] == 'n') *p = '\n';
+ else if (z[1] == 'r') *p = '\r';
+ else if (z[1] == 't') *p = '\t';
+ else *p = z[1];
+ p += 1; z += 2; len -= 2;
+ }
+ else {
+ *p++ = *z++; len -= 1;
+ }
+ }
+ *p = 0;
+ s = stua_string(q);
+ stb_tempfree(temp, q);
+ return s;
+ }
+
+ enum token_names
+ {
+ T__none = 128,
+ ST_shl = STUA_op_shl, ST_ge = STUA_op_ge,
+ ST_shr = STUA_op_shr, ST_le = STUA_op_le,
+ ST_shru = STUA_op_shru, STU__negate = STUA_op_negate,
+ ST__reset_numbering = STUA_op_last,
+ ST_white,
+ ST_id, ST_float, ST_decimal, ST_hex, ST_char, ST_string, ST_number,
+ // make sure the keywords come _AFTER_ ST_id, so stb_lex prefer them
+ ST_if, ST_while, ST_for, ST_eq, ST_nil,
+ ST_then, ST_do, ST_in, ST_ne, ST_true,
+ ST_else, ST_break, ST_let, ST_and, ST_false,
+ ST_elseif, ST_continue, ST_into, ST_or, ST_repeat,
+ ST_end, ST_as, ST_return, ST_var, ST_func,
+ ST_catch, ST__frame,
+ ST__max_terminals,
+
+ STU__defaultparm, STU__seq,
+ };
+
+ static stua_dict * stu__globaldict;
+ stua_obj stua_globals;
+
+ static enum
+ {
+ FLOW_normal, FLOW_continue, FLOW_break, FLOW_return, FLOW_error,
+ } stu__flow;
+
+ stua_obj stua_error(char *z, ...)
+ {
+ stua_obj a;
+ char temp[4096], *x;
+ va_list v; va_start(v, z); vsprintf(temp, z, v); va_end(v);
+ x = strdup(temp);
+ a = stua_box(STU___error, x, strlen(x));
+ stu__flow = FLOW_error;
+ stu__flow_val = a;
+ return stua_nil;
+ }
+
+ double stua_number(stua_obj z)
+ {
+ return stu__tag(z) == stu__int_tag ? stu__int(z) : stu__float(z);
+ }
+
+ stua_obj stua_make_number(double d)
+ {
+ double e = floor(d);
+ if (e == d && e < (1 << 29) && e >= -(1 << 29))
+ return stu__makeint((int)e);
+ else
+ return stua_float((float)d);
+ }
+
+ stua_obj(*stua_overload)(int op, stua_obj a, stua_obj b, stua_obj c) = NULL;
+
+ static stua_obj stu__op(int op, stua_obj a, stua_obj b, stua_obj c)
+ {
+ stua_obj r = STUA_NO_VALUE;
+ if (op == '+') {
+ if (stu__checkt(STU___string, a) && stu__checkt(STU___string, b)) {
+ ;// @TODO: string concatenation
+ }
+ else if (stu__checkt(STU___function, a) && stu__checkt(STU___dict, b)) {
+ stu__func *f = (stu__func *)malloc(12);
+ assert(offsetof(stu__func, code) == 12);
+ f->closure_source = a;
+ f->f.closure_data = b;
+ return stu__makeobj(STU___function, f, 16, 1);
+ }
+ }
+ if (stua_overload) r = stua_overload(op, a, b, c);
+ if (stu__flow != FLOW_error && r == STUA_NO_VALUE)
+ stua_error("Typecheck for operator %d", op), r = stua_nil;
+ return r;
+ }
+
+#define STU__EVAL2(a,b) \
+ a = stu__eval(stu__f[n+1]); if (stu__flow) break; stua_pushroot(a); \
+ b = stu__eval(stu__f[n+2]); stua_poproot(); if (stu__flow) break;
+
+#define STU__FB(op) \
+ STU__EVAL2(a,b) \
+ if (stu__tag(a) == stu__int_tag && stu__tag(b) == stu__int_tag) \
+ return ((a) op (b)); \
+ if (stu__number(a) && stu__number(b)) \
+ return stua_make_number(stua_number(a) op stua_number(b)); \
+ return stu__op(stu__f[n], a,b, stua_nil)
+
+#define STU__F(op) \
+ STU__EVAL2(a,b) \
+ if (stu__number(a) && stu__number(b)) \
+ return stua_make_number(stua_number(a) op stua_number(b)); \
+ return stu__op(stu__f[n], a,b, stua_nil)
+
+#define STU__I(op) \
+ STU__EVAL2(a,b) \
+ if (stu__tag(a) == stu__int_tag && stu__tag(b) == stu__int_tag) \
+ return stu__makeint(stu__int(a) op stu__int(b)); \
+ return stu__op(stu__f[n], a,b, stua_nil)
+
+#define STU__C(op) \
+ STU__EVAL2(a,b) \
+ if (stu__number(a) && stu__number(b)) \
+ return (stua_number(a) op stua_number(b)) ? stua_true : stua_false; \
+ return stu__op(stu__f[n], a,b, stua_nil)
+
+#define STU__CE(op) \
+ STU__EVAL2(a,b) \
+ return (a op b) ? stua_true : stua_false
+
+ static short *stu__f;
+ static stua_obj stu__f_obj;
+ static stua_dict *stu__c;
+ static stua_obj stu__funceval(stua_obj fo, stua_obj co);
+
+ static int stu__cond(stua_obj x)
+ {
+ if (stu__flow) return 0;
+ if (!stu__checkt(STU___boolean, x))
+ x = stu__op('!', x, stua_nil, stua_nil);
+ if (x == stua_true) return 1;
+ if (x == stua_false) return 0;
+ stu__flow = FLOW_error;
+ return 0;
+ }
+
+ // had to manually eliminate tailcall recursion for debugging complex stuff
+#define TAILCALL(x) n = (x); goto top;
+ static stua_obj stu__eval(int n)
+ {
+ top:
+ if (stu__flow >= FLOW_return) return stua_nil; // is this needed?
+ if (n < 0) return stu__const(stu__f)[n];
+ assert(n != 0 && n != 1);
+ switch (stu__f[n]) {
+ stua_obj a, b, c;
+ case ST_catch: a = stu__eval(stu__f[n + 1]);
+ if (stu__flow == FLOW_error) { a = stu__flow_val; stu__flow = FLOW_normal; }
+ return a;
+ case ST_var: b = stu__eval(stu__f[n + 2]); if (stu__flow) break;
+ stu__set(stu__c, stu__const(stu__f)[stu__f[n + 1]], b);
+ return b;
+ case STU__seq: stu__eval(stu__f[n + 1]); if (stu__flow) break;
+ TAILCALL(stu__f[n + 2]);
+ case ST_if: if (!stu__cond(stu__eval(stu__f[n + 1]))) return stua_nil;
+ TAILCALL(stu__f[n + 2]);
+ case ST_else: a = stu__cond(stu__eval(stu__f[n + 1]));
+ TAILCALL(stu__f[n + 2 + !a]);
+#define STU__HANDLE_BREAK \
+ if (stu__flow >= FLOW_break) { \
+ if (stu__flow == FLOW_break) { \
+ a = stu__flow_val; \
+ stu__flow = FLOW_normal; \
+ stu__flow_val = stua_nil; \
+ return a; \
+ } \
+ return stua_nil; \
+ }
+ case ST_as: stu__eval(stu__f[n + 3]);
+ STU__HANDLE_BREAK
+ // fallthrough!
+ case ST_while: a = stua_nil; stua_pushroot(a);
+ while (stu__cond(stu__eval(stu__f[n + 1]))) {
+ stua_poproot();
+ a = stu__eval(stu__f[n + 2]);
+ STU__HANDLE_BREAK
+ stu__flow = FLOW_normal; // clear 'continue' flag
+ stua_pushroot(a);
+ if (stu__f[n + 3]) stu__eval(stu__f[n + 3]);
+ STU__HANDLE_BREAK
+ stu__flow = FLOW_normal; // clear 'continue' flag
+ }
+ stua_poproot();
+ return a;
+ case ST_break: stu__flow = FLOW_break; stu__flow_val = stu__eval(stu__f[n + 1]); break;
+ case ST_continue:stu__flow = FLOW_continue; break;
+ case ST_return: stu__flow = FLOW_return; stu__flow_val = stu__eval(stu__f[n + 1]); break;
+ case ST__frame: return stu__f_obj;
+ case '[': STU__EVAL2(a, b);
+ if (stu__checkt(STU___dict, a))
+ return stu__get(stu__pd(a), b, stua_nil);
+ return stu__op(stu__f[n], a, b, stua_nil);
+ case '=': a = stu__eval(stu__f[n + 2]); if (stu__flow) break;
+ n = stu__f[n + 1];
+ if (stu__f[n] == ST_id) {
+ if (!stb_idict_update(stu__c, stu__const(stu__f)[stu__f[n + 1]], a))
+ if (!stb_idict_update(stu__globaldict, stu__const(stu__f)[stu__f[n + 1]], a))
+ return stua_error("Assignment to undefined variable");
+ }
+ else if (stu__f[n] == '[') {
+ stua_pushroot(a);
+ b = stu__eval(stu__f[n + 1]); if (stu__flow) { stua_poproot(); break; }
+ stua_pushroot(b);
+ c = stu__eval(stu__f[n + 2]); stua_poproot(); stua_poproot();
+ if (stu__flow) break;
+ if (!stu__checkt(STU___dict, b)) return stua_nil;
+ stu__set(stu__pd(b), c, a);
+ }
+ else {
+ return stu__op(stu__f[n], stu__eval(n), a, stua_nil);
+ }
+ return a;
+ case STU__defaultparm:
+ a = stu__eval(stu__f[n + 2]);
+ stu__flow = FLOW_normal;
+ if (stb_idict_add(stu__c, stu__const(stu__f)[stu__f[n + 1]], a))
+ stu__size_allocs += 8;
+ return stua_nil;
+ case ST_id: a = stu__get(stu__c, stu__const(stu__f)[stu__f[n + 1]], STUA_NO_VALUE); // try local variable
+ return a != STUA_NO_VALUE // else try stu__compile_global_scope variable
+ ? a : stu__get(stu__globaldict, stu__const(stu__f)[stu__f[n + 1]], stua_nil);
+ case STU__negate:a = stu__eval(stu__f[n + 1]); if (stu__flow) break;
+ return stu__isint(a) ? -a : stu__op(stu__f[n], a, stua_nil, stua_nil);
+ case '~': a = stu__eval(stu__f[n + 1]); if (stu__flow) break;
+ return stu__isint(a) ? (~a)&~3 : stu__op(stu__f[n], a, stua_nil, stua_nil);
+ case '!': a = stu__eval(stu__f[n + 1]); if (stu__flow) break;
+ a = stu__cond(a); if (stu__flow) break;
+ return a ? stua_true : stua_false;
+ case ST_eq: STU__CE(== ); case ST_le: STU__C(<= ); case '<': STU__C(<);
+ case ST_ne: STU__CE(!= ); case ST_ge: STU__C(>= ); case '>': STU__C(>);
+ case '+': STU__FB(+); case '*': STU__F(*); case '&': STU__I(&); case ST_shl: STU__I(<< );
+ case '-': STU__FB(-); case '/': STU__F(/ ); case '|': STU__I(| ); case ST_shr: STU__I(>> );
+ case '%': STU__I(%); case '^': STU__I(^);
+ case ST_shru: STU__EVAL2(a, b);
+ if (stu__tag(a) == stu__int_tag && stu__tag(b) == stu__int_tag)
+ return stu__makeint((unsigned)stu__int(a) >> stu__int(b));
+ return stu__op(stu__f[n], a, b, stua_nil);
+ case ST_and: a = stu__eval(stu__f[n + 1]); b = stu__cond(a); if (stu__flow) break;
+ return a ? stu__eval(stu__f[n + 2]) : a;
+ case ST_or: a = stu__eval(stu__f[n + 1]); b = stu__cond(a); if (stu__flow) break;
+ return a ? b : stu__eval(stu__f[n + 2]);
+ case'(':case':': STU__EVAL2(a, b);
+ if (!stu__checkt(STU___function, a))
+ return stu__op(stu__f[n], a, b, stua_nil);
+ if (!stu__checkt(STU___dict, b))
+ return stua_nil;
+ if (stu__f[n] == ':')
+ b = stu__makeobj(STU___dict, stb_idict_copy(stu__pd(b)), stb_idict_memory_usage(stu__pd(b)), 0);
+ a = stu__funceval(a, b);
+ return a;
+ case '{': {
+ stua_dict *d;
+ d = stb_idict_new_size(stu__f[n + 1] > 40 ? 64 : 16);
+ if (d == NULL)
+ return stua_nil; // breakpoint fodder
+ c = stu__makeobj(STU___dict, d, 32, 1);
+ stua_pushroot(c);
+ a = stu__f[n + 1];
+ for (b = 0; b < a; ++b) {
+ stua_obj x = stua_pushroot(stu__eval(stu__f[n + 2 + b * 2 + 0]));
+ stua_obj y = stu__eval(stu__f[n + 2 + b * 2 + 1]);
+ stua_poproot();
+ if (stu__flow) { stua_poproot(); return stua_nil; }
+ stu__set(d, x, y);
+ }
+ stua_poproot();
+ return c;
+ }
+ default: if (stu__f[n] < 0) return stu__const(stu__f)[stu__f[n]];
+ assert(0); /* NOTREACHED */ // internal error!
+ }
+ return stua_nil;
+ }
+
+ int stb__stua_nesting;
+ static stua_obj stu__funceval(stua_obj fo, stua_obj co)
+ {
+ stu__func *f = stu__pf(fo);
+ stua_dict *context = stu__pd(co);
+ int i, j;
+ stua_obj p;
+ short *tf = stu__f; // save previous function
+ stua_dict *tc = stu__c;
+
+ if (stu__flow == FLOW_error) return stua_nil;
+ assert(stu__flow == FLOW_normal);
+
+ stua_pushroot(fo);
+ stua_pushroot(co);
+ stu__consider_gc(stua_nil);
+
+ while ((stb_uint)f->closure_source > 4) {
+ // add data from closure to context
+ stua_dict *e = (stua_dict *)stu__pd(f->f.closure_data);
+ for (i = 0; i < e->limit; ++i)
+ if (e->table[i].k != STB_IEMPTY && e->table[i].k != STB_IDEL)
+ if (stb_idict_add(context, e->table[i].k, e->table[i].v))
+ stu__size_allocs += 8;
+ // use add so if it's already defined, we don't override it; that way
+ // explicit parameters win over applied ones, and most recent applications
+ // win over previous ones
+ f = stu__pf(f->closure_source);
+ }
+
+ for (j = 0, i = 0; i < f->num_param; ++i)
+ // if it doesn't already exist, add it from the numbered parameters
+ if (stb_idict_add(context, f->param[i], stu__get(context, stu__int(j), stua_nil)))
+ ++j;
+
+ // @TODO: if (stu__get(context, stu__int(f->num_param+1)) != STUA_NO_VALUE) // error: too many parameters
+ // @TODO: ditto too few parameters
+
+ if (f->closure_source == 4)
+ p = f->f.func(context);
+ else {
+ stu__f = f->code, stu__c = context;
+ stu__f_obj = co;
+ ++stb__stua_nesting;
+ if (stu__f[1])
+ p = stu__eval(stu__f[1]);
+ else
+ p = stua_nil;
+ --stb__stua_nesting;
+ stu__f = tf, stu__c = tc; // restore previous function
+ if (stu__flow == FLOW_return) {
+ stu__flow = FLOW_normal;
+ p = stu__flow_val;
+ stu__flow_val = stua_nil;
+ }
+ }
+
+ stua_poproot();
+ stua_poproot();
+
+ return p;
+ }
+
+ // Parser
+
+ static int stu__tok;
+ static stua_obj stu__tokval;
+
+ static char *stu__curbuf, *stu__bufstart;
+
+ static stb_matcher *stu__lex_matcher;
+
+ static unsigned char stu__prec[ST__max_terminals], stu__end[ST__max_terminals];
+
+ static void stu__nexttoken(void)
+ {
+ int len;
+
+ retry:
+ stu__tok = stb_lex(stu__lex_matcher, stu__curbuf, &len);
+ if (stu__tok == 0)
+ return;
+ switch (stu__tok) {
+ case ST_white: stu__curbuf += len; goto retry;
+ case T__none: stu__tok = *stu__curbuf; break;
+ case ST_string: stu__tokval = make_string(stu__curbuf + 1, len - 2); break;
+ case ST_id: stu__tokval = make_string(stu__curbuf, len); break;
+ case ST_hex: stu__tokval = stu__makeint(strtol(stu__curbuf + 2, NULL, 16)); stu__tok = ST_number; break;
+ case ST_decimal: stu__tokval = stu__makeint(strtol(stu__curbuf, NULL, 10)); stu__tok = ST_number; break;
+ case ST_float: stu__tokval = stua_float((float)atof(stu__curbuf)); stu__tok = ST_number; break;
+ case ST_char: stu__tokval = stu__curbuf[2] == '\\' ? stu__curbuf[3] : stu__curbuf[2];
+ if (stu__curbuf[3] == 't') stu__tokval = '\t';
+ if (stu__curbuf[3] == 'n') stu__tokval = '\n';
+ if (stu__curbuf[3] == 'r') stu__tokval = '\r';
+ stu__tokval = stu__makeint(stu__tokval);
+ stu__tok = ST_number;
+ break;
+ }
+ stu__curbuf += len;
+ }
+
+ static struct { int stu__tok; char *regex; } stu__lexemes[] =
+ {
+ ST_white , "([ \t\n\r]|/\\*(.|\n)*\\*/|//[^\r\n]*([\r\n]|$))+",
+ ST_id , "[_a-zA-Z][_a-zA-Z0-9]*",
+ ST_hex , "0x[0-9a-fA-F]+",
+ ST_decimal, "[0-9]+[0-9]*",
+ ST_float , "[0-9]+\\.?[0-9]*([eE][-+]?[0-9]+)?",
+ ST_float , "\\.[0-9]+([eE][-+]?[0-9]+)?",
+ ST_char , "c'(\\\\.|[^\\'])'",
+ ST_string , "\"(\\\\.|[^\\\"\n\r])*\"",
+ ST_string , "\'(\\\\.|[^\\\'\n\r])*\'",
+
+#define stua_key4(a,b,c,d) ST_##a, #a, ST_##b, #b, ST_##c, #c, ST_##d, #d,
+ stua_key4(if,then,else,elseif) stua_key4(while,do,for,in)
+ stua_key4(func,var,let,break) stua_key4(nil,true,false,end)
+ stua_key4(return,continue,as,repeat) stua_key4(_frame,catch,catch,catch)
+
+ ST_shl, "<<", ST_and, "&&", ST_eq, "==", ST_ge, ">=",
+ ST_shr, ">>", ST_or , "||", ST_ne, "!=", ST_le, "<=",
+ ST_shru,">>>", ST_into, "=>",
+ T__none, ".",
+ };
+
+ typedef struct
+ {
+ stua_obj *data; // constants being compiled
+ short *code; // code being compiled
+ stua_dict *locals;
+ short *non_local_refs;
+ } stu__comp_func;
+
+ static stu__comp_func stu__pfunc;
+ static stu__comp_func *func_stack = NULL;
+ static void stu__push_func_comp(void)
+ {
+ stb_arr_push(func_stack, stu__pfunc);
+ stu__pfunc.data = NULL;
+ stu__pfunc.code = NULL;
+ stu__pfunc.locals = stb_idict_new_size(16);
+ stu__pfunc.non_local_refs = NULL;
+ stb_arr_push(stu__pfunc.code, 0); // number of data items
+ stb_arr_push(stu__pfunc.code, 1); // starting execution address
+ }
+
+ static void stu__pop_func_comp(void)
+ {
+ stb_arr_free(stu__pfunc.code);
+ stb_arr_free(stu__pfunc.data);
+ stb_idict_destroy(stu__pfunc.locals);
+ stb_arr_free(stu__pfunc.non_local_refs);
+ stu__pfunc = stb_arr_pop(func_stack);
+ }
+
+ // if an id is a reference to an outer lexical scope, this
+ // function returns the "name" of it, and updates the stack
+ // structures to make sure the names are propogated in.
+ static int stu__nonlocal_id(stua_obj var_obj)
+ {
+ stua_obj dummy, var = var_obj;
+ int i, n = stb_arr_len(func_stack), j, k;
+ if (stb_idict_get_flag(stu__pfunc.locals, var, &dummy)) return 0;
+ for (i = n - 1; i > 1; --i) {
+ if (stb_idict_get_flag(func_stack[i].locals, var, &dummy))
+ break;
+ }
+ if (i <= 1) return 0; // stu__compile_global_scope
+ j = i; // need to access variable from j'th frame
+ for (i = 0; i < stb_arr_len(stu__pfunc.non_local_refs); ++i)
+ if (stu__pfunc.non_local_refs[i] == j) return j - n;
+ stb_arr_push(stu__pfunc.non_local_refs, j - n);
+ // now make sure all the parents propogate it down
+ for (k = n - 1; k > 1; --k) {
+ if (j - k >= 0) return j - n; // comes direct from this parent
+ for (i = 0; i < stb_arr_len(func_stack[k].non_local_refs); ++i)
+ if (func_stack[k].non_local_refs[i] == j - k)
+ return j - n;
+ stb_arr_push(func_stack[k].non_local_refs, j - k);
+ }
+ assert(k != 1);
+
+ return j - n;
+ }
+
+ static int stu__off(void) { return stb_arr_len(stu__pfunc.code); }
+ static void stu__cc(int a)
+ {
+ assert(a >= -2000 && a < 5000);
+ stb_arr_push(stu__pfunc.code, a);
+ }
+ static int stu__cc1(int a) { stu__cc(a); return stu__off() - 1; }
+ static int stu__cc2(int a, int b) { stu__cc(a); stu__cc(b); return stu__off() - 2; }
+ static int stu__cc3(int a, int b, int c) {
+ if (a == '=') assert(c != 0);
+ stu__cc(a); stu__cc(b); stu__cc(c); return stu__off() - 3;
+ }
+ static int stu__cc4(int a, int b, int c, int d) { stu__cc(a); stu__cc(b); stu__cc(c); stu__cc(d); return stu__off() - 4; }
+
+ static int stu__cdv(stua_obj p)
+ {
+ int i;
+ assert(p != STUA_NO_VALUE);
+ for (i = 0; i < stb_arr_len(stu__pfunc.data); ++i)
+ if (stu__pfunc.data[i] == p)
+ break;
+ if (i == stb_arr_len(stu__pfunc.data))
+ stb_arr_push(stu__pfunc.data, p);
+ return ~i;
+ }
+
+ static int stu__cdt(void)
+ {
+ int z = stu__cdv(stu__tokval);
+ stu__nexttoken();
+ return z;
+ }
+
+ static int stu__seq(int a, int b)
+ {
+ return !a ? b : !b ? a : stu__cc3(STU__seq, a, b);
+ }
+
+ static char stu__comp_err_str[1024];
+ static int stu__comp_err_line;
+ static int stu__err(char *str, ...)
+ {
+ va_list v;
+ char *s = stu__bufstart;
+ stu__comp_err_line = 1;
+ while (s < stu__curbuf) {
+ if (s[0] == '\n' || s[0] == '\r') {
+ if (s[0] + s[1] == '\n' + '\r') ++s;
+ ++stu__comp_err_line;
+ }
+ ++s;
+ }
+ va_start(v, str);
+ vsprintf(stu__comp_err_str, str, v);
+ va_end(v);
+ return 0;
+ }
+
+ static int stu__accept(int p)
+ {
+ if (stu__tok != p) return 0;
+ stu__nexttoken();
+ return 1;
+ }
+
+ static int stu__demand(int p)
+ {
+ if (stu__accept(p)) return 1;
+ return stu__err("Didn't find expected stu__tok");
+ }
+
+ static int stu__demandv(int p, stua_obj *val)
+ {
+ if (stu__tok == p || p == 0) {
+ *val = stu__tokval;
+ stu__nexttoken();
+ return 1;
+ }
+ else
+ return 0;
+ }
+
+ static int stu__expr(int p);
+ int stu__nexpr(int p) { stu__nexttoken(); return stu__expr(p); }
+ static int stu__statements(int once, int as);
+
+ static int stu__parse_if(void) // parse both ST_if and ST_elseif
+ {
+ int b, c, a;
+ a = stu__nexpr(1); if (!a) return 0;
+ if (!stu__demand(ST_then)) return stu__err("expecting THEN");
+ b = stu__statements(0, 0); if (!b) return 0;
+ if (b == 1) b = -1;
+
+ if (stu__tok == ST_elseif) {
+ return stu__parse_if();
+ }
+ else if (stu__accept(ST_else)) {
+ c = stu__statements(0, 0); if (!c) return 0;
+ if (!stu__demand(ST_end)) return stu__err("expecting END after else clause");
+ return stu__cc4(ST_else, a, b, c);
+ }
+ else {
+ if (!stu__demand(ST_end)) return stu__err("expecting END in if statement");
+ return stu__cc3(ST_if, a, b);
+ }
+ }
+
+ int stu__varinit(int z, int in_globals)
+ {
+ int a, b;
+ stu__nexttoken();
+ while (stu__demandv(ST_id, &b)) {
+ if (!stb_idict_add(stu__pfunc.locals, b, 1))
+ if (!in_globals) return stu__err("Redefined variable %s.", stu__pw(b)->ptr);
+ if (stu__accept('=')) {
+ a = stu__expr(1); if (!a) return 0;
+ }
+ else
+ a = stu__cdv(stua_nil);
+ z = stu__seq(z, stu__cc3(ST_var, stu__cdv(b), a));
+ if (!stu__accept(',')) break;
+ }
+ return z;
+ }
+
+ static int stu__compile_unary(int z, int outparm, int require_inparm)
+ {
+ int op = stu__tok, a, b;
+ stu__nexttoken();
+ if (outparm) {
+ if (require_inparm || (stu__tok && stu__tok != ST_end && stu__tok != ST_else && stu__tok != ST_elseif && stu__tok != ';')) {
+ a = stu__expr(1); if (!a) return 0;
+ }
+ else
+ a = stu__cdv(stua_nil);
+ b = stu__cc2(op, a);
+ }
+ else
+ b = stu__cc1(op);
+ return stu__seq(z, b);
+ }
+
+ static int stu__assign(void)
+ {
+ int z;
+ stu__accept(ST_let);
+ z = stu__expr(1); if (!z) return 0;
+ if (stu__accept('=')) {
+ int y, p = (z >= 0 ? stu__pfunc.code[z] : 0);
+ if (z < 0 || (p != ST_id && p != '[')) return stu__err("Invalid lvalue in assignment");
+ y = stu__assign(); if (!y) return 0;
+ z = stu__cc3('=', z, y);
+ }
+ return z;
+ }
+
+ static int stu__statements(int once, int stop_while)
+ {
+ int a, b, c, z = 0;
+ for (;;) {
+ switch (stu__tok) {
+ case ST_if: a = stu__parse_if(); if (!a) return 0;
+ z = stu__seq(z, a);
+ break;
+ case ST_while: if (stop_while) return (z ? z : 1);
+ a = stu__nexpr(1); if (!a) return 0;
+ if (stu__accept(ST_as)) c = stu__statements(0, 0); else c = 0;
+ if (!stu__demand(ST_do)) return stu__err("expecting DO");
+ b = stu__statements(0, 0); if (!b) return 0;
+ if (!stu__demand(ST_end)) return stu__err("expecting END");
+ if (b == 1) b = -1;
+ z = stu__seq(z, stu__cc4(ST_while, a, b, c));
+ break;
+ case ST_repeat: stu__nexttoken();
+ c = stu__statements(0, 1); if (!c) return 0;
+ if (!stu__demand(ST_while)) return stu__err("expecting WHILE");
+ a = stu__expr(1); if (!a) return 0;
+ if (!stu__demand(ST_do)) return stu__err("expecting DO");
+ b = stu__statements(0, 0); if (!b) return 0;
+ if (!stu__demand(ST_end)) return stu__err("expecting END");
+ if (b == 1) b = -1;
+ z = stu__seq(z, stu__cc4(ST_as, a, b, c));
+ break;
+ case ST_catch: a = stu__nexpr(1); if (!a) return 0;
+ z = stu__seq(z, stu__cc2(ST_catch, a));
+ break;
+ case ST_var: z = stu__varinit(z, 0); break;
+ case ST_return: z = stu__compile_unary(z, 1, 1); break;
+ case ST_continue:z = stu__compile_unary(z, 0, 0); break;
+ case ST_break: z = stu__compile_unary(z, 1, 0); break;
+ case ST_into: if (z == 0 && !once) return stu__err("=> cannot be first statement in block");
+ a = stu__nexpr(99);
+ b = (a >= 0 ? stu__pfunc.code[a] : 0);
+ if (a < 0 || (b != ST_id && b != '[')) return stu__err("Invalid lvalue on right side of =>");
+ z = stu__cc3('=', a, z);
+ break;
+ default: if (stu__end[stu__tok]) return once ? 0 : (z ? z : 1);
+ a = stu__assign(); if (!a) return 0;
+ stu__accept(';');
+ if (stu__tok && !stu__end[stu__tok]) {
+ if (a < 0)
+ return stu__err("Constant has no effect");
+ if (stu__pfunc.code[a] != '(' && stu__pfunc.code[a] != '=')
+ return stu__err("Expression has no effect");
+ }
+ z = stu__seq(z, a);
+ break;
+ }
+ if (!z) return 0;
+ stu__accept(';');
+ if (once && stu__tok != ST_into) return z;
+ }
+ }
+
+ static int stu__postexpr(int z, int p);
+ static int stu__dictdef(int end, int *count)
+ {
+ int z, n = 0, i, flags = 0;
+ short *dict = NULL;
+ stu__nexttoken();
+ while (stu__tok != end) {
+ if (stu__tok == ST_id) {
+ stua_obj id = stu__tokval;
+ stu__nexttoken();
+ if (stu__tok == '=') {
+ flags |= 1;
+ stb_arr_push(dict, stu__cdv(id));
+ z = stu__nexpr(1); if (!z) return 0;
+ }
+ else {
+ z = stu__cc2(ST_id, stu__cdv(id));
+ z = stu__postexpr(z, 1); if (!z) return 0;
+ flags |= 2;
+ stb_arr_push(dict, stu__cdv(stu__makeint(n++)));
+ }
+ }
+ else {
+ z = stu__expr(1); if (!z) return 0;
+ flags |= 2;
+ stb_arr_push(dict, stu__cdv(stu__makeint(n++)));
+ }
+ if (end != ')' && flags == 3) { z = stu__err("can't mix initialized and uninitialized defs"); goto done; }
+ stb_arr_push(dict, z);
+ if (!stu__accept(',')) break;
+ }
+ if (!stu__demand(end))
+ return stu__err(end == ')' ? "Expecting ) at end of function call"
+ : "Expecting } at end of dictionary definition");
+ z = stu__cc2('{', stb_arr_len(dict) / 2);
+ for (i = 0; i < stb_arr_len(dict); ++i)
+ stu__cc(dict[i]);
+ if (count) *count = n;
+ done:
+ stb_arr_free(dict);
+ return z;
+ }
+
+ static int stu__comp_id(void)
+ {
+ int z, d;
+ d = stu__nonlocal_id(stu__tokval);
+ if (d == 0)
+ return z = stu__cc2(ST_id, stu__cdt());
+ // access a non-local frame by naming it with the appropriate int
+ assert(d < 0);
+ z = stu__cdv(d); // relative frame # is the 'variable' in our local frame
+ z = stu__cc2(ST_id, z); // now access that dictionary
+ return stu__cc3('[', z, stu__cdt()); // now access the variable from that dir
+ }
+
+ static stua_obj stu__funcdef(stua_obj *id, stua_obj *func);
+ static int stu__expr(int p)
+ {
+ int z;
+ // unary
+ switch (stu__tok) {
+ case ST_number: z = stu__cdt(); break;
+ case ST_string: z = stu__cdt(); break; // @TODO - string concatenation like C
+ case ST_id: z = stu__comp_id(); break;
+ case ST__frame: z = stu__cc1(ST__frame); stu__nexttoken(); break;
+ case ST_func: z = stu__funcdef(NULL, NULL); break;
+ case ST_if: z = stu__parse_if(); break;
+ case ST_nil: z = stu__cdv(stua_nil); stu__nexttoken(); break;
+ case ST_true: z = stu__cdv(stua_true); stu__nexttoken(); break;
+ case ST_false: z = stu__cdv(stua_false); stu__nexttoken(); break;
+ case '-': z = stu__nexpr(99); if (z) z = stu__cc2(STU__negate, z); else return z; break;
+ case '!': z = stu__nexpr(99); if (z) z = stu__cc2('!', z); else return z; break;
+ case '~': z = stu__nexpr(99); if (z) z = stu__cc2('~', z); else return z; break;
+ case '{': z = stu__dictdef('}', NULL); break;
+ default: return stu__err("Unexpected token");
+ case '(': stu__nexttoken(); z = stu__statements(0, 0); if (!stu__demand(')')) return stu__err("Expecting )");
+ }
+ return stu__postexpr(z, p);
+ }
+
+ static int stu__postexpr(int z, int p)
+ {
+ int q;
+ // postfix
+ while (stu__tok == '(' || stu__tok == '[' || stu__tok == '.') {
+ if (stu__accept('.')) {
+ // MUST be followed by a plain identifier! use [] for other stuff
+ if (stu__tok != ST_id) return stu__err("Must follow . with plain name; try [] instead");
+ z = stu__cc3('[', z, stu__cdv(stu__tokval));
+ stu__nexttoken();
+ }
+ else if (stu__accept('[')) {
+ while (stu__tok != ']') {
+ int r = stu__expr(1); if (!r) return 0;
+ z = stu__cc3('[', z, r);
+ if (!stu__accept(',')) break;
+ }
+ if (!stu__demand(']')) return stu__err("Expecting ]");
+ }
+ else {
+ int n, p = stu__dictdef(')', &n); if (!p) return 0;
+#if 0 // this is incorrect!
+ if (z > 0 && stu__pfunc.code[z] == ST_id) {
+ stua_obj q = stu__get(stu__globaldict, stu__pfunc.data[-stu__pfunc.code[z + 1] - 1], stua_nil);
+ if (stu__checkt(STU___function, q))
+ if ((stu__pf(q))->num_param != n)
+ return stu__err("Incorrect number of parameters");
+ }
+#endif
+ z = stu__cc3('(', z, p);
+ }
+ }
+ // binop - this implementation taken from lcc
+ for (q = stu__prec[stu__tok]; q >= p; --q) {
+ while (stu__prec[stu__tok] == q) {
+ int o = stu__tok, y = stu__nexpr(p + 1); if (!y) return 0;
+ z = stu__cc3(o, z, y);
+ }
+ }
+ return z;
+ }
+
+ static stua_obj stu__finish_func(stua_obj *param, int start)
+ {
+ int n, size;
+ stu__func *f = (stu__func *)malloc(sizeof(*f));
+ f->closure_source = 0;
+ f->num_param = stb_arr_len(param);
+ f->param = (int *)stb_copy(param, f->num_param * sizeof(*f->param));
+ size = stb_arr_storage(stu__pfunc.code) + stb_arr_storage(stu__pfunc.data) + sizeof(*f) + 8;
+ f->f.store = malloc(stb_arr_storage(stu__pfunc.code) + stb_arr_storage(stu__pfunc.data));
+ f->code = (short *)((char *)f->f.store + stb_arr_storage(stu__pfunc.data));
+ memcpy(f->code, stu__pfunc.code, stb_arr_storage(stu__pfunc.code));
+ f->code[1] = start;
+ f->code[0] = stb_arr_len(stu__pfunc.data);
+ for (n = 0; n < f->code[0]; ++n)
+ ((stua_obj *)f->code)[-1 - n] = stu__pfunc.data[n];
+ return stu__makeobj(STU___function, f, size, 0);
+ }
+
+ static int stu__funcdef(stua_obj *id, stua_obj *result)
+ {
+ int n, z = 0, i, q;
+ stua_obj *param = NULL;
+ short *nonlocal;
+ stua_obj v, f = stua_nil;
+ assert(stu__tok == ST_func);
+ stu__nexttoken();
+ if (id) {
+ if (!stu__demandv(ST_id, id)) return stu__err("Expecting function name");
+ }
+ else
+ stu__accept(ST_id);
+ if (!stu__demand('(')) return stu__err("Expecting ( for function parameter");
+ stu__push_func_comp();
+ while (stu__tok != ')') {
+ if (!stu__demandv(ST_id, &v)) { z = stu__err("Expecting parameter name"); goto done; }
+ stb_idict_add(stu__pfunc.locals, v, 1);
+ if (stu__tok == '=') {
+ n = stu__nexpr(1); if (!n) { z = 0; goto done; }
+ z = stu__seq(z, stu__cc3(STU__defaultparm, stu__cdv(v), n));
+ }
+ else
+ stb_arr_push(param, v);
+ if (!stu__accept(',')) break;
+ }
+ if (!stu__demand(')')) { z = stu__err("Expecting ) at end of parameter list"); goto done; }
+ n = stu__statements(0, 0); if (!n) { z = 0; goto done; }
+ if (!stu__demand(ST_end)) { z = stu__err("Expecting END at end of function"); goto done; }
+ if (n == 1) n = 0;
+ n = stu__seq(z, n);
+ f = stu__finish_func(param, n);
+ if (result) { *result = f; z = 1; stu__pop_func_comp(); }
+ else {
+ nonlocal = stu__pfunc.non_local_refs;
+ stu__pfunc.non_local_refs = NULL;
+ stu__pop_func_comp();
+ z = stu__cdv(f);
+ if (nonlocal) { // build a closure with references to the needed frames
+ short *initcode = NULL;
+ for (i = 0; i < stb_arr_len(nonlocal); ++i) {
+ int k = nonlocal[i], p;
+ stb_arr_push(initcode, stu__cdv(k));
+ if (k == -1) p = stu__cc1(ST__frame);
+ else { p = stu__cdv(stu__makeint(k + 1)); p = stu__cc2(ST_id, p); }
+ stb_arr_push(initcode, p);
+ }
+ q = stu__cc2('{', stb_arr_len(nonlocal));
+ for (i = 0; i < stb_arr_len(initcode); ++i)
+ stu__cc(initcode[i]);
+ z = stu__cc3('+', z, q);
+ stb_arr_free(initcode);
+ }
+ stb_arr_free(nonlocal);
+ }
+ done:
+ stb_arr_free(param);
+ if (!z) stu__pop_func_comp();
+ return z;
+ }
+
+ static int stu__compile_global_scope(void)
+ {
+ stua_obj o;
+ int z = 0;
+
+ stu__push_func_comp();
+ while (stu__tok != 0) {
+ if (stu__tok == ST_func) {
+ stua_obj id, f;
+ if (!stu__funcdef(&id, &f))
+ goto error;
+ stu__set(stu__globaldict, id, f);
+ }
+ else if (stu__tok == ST_var) {
+ z = stu__varinit(z, 1); if (!z) goto error;
+ }
+ else {
+ int y = stu__statements(1, 0); if (!y) goto error;
+ z = stu__seq(z, y);
+ }
+ stu__accept(';');
+ }
+ o = stu__finish_func(NULL, z);
+ stu__pop_func_comp();
+
+ o = stu__funceval(o, stua_globals); // initialize stu__globaldict
+ if (stu__flow == FLOW_error)
+ printf("Error: %s\n", ((stu__wrapper *)stu__ptr(stu__flow_val))->ptr);
+ return 1;
+ error:
+ stu__pop_func_comp();
+ return 0;
+ }
+
+ stua_obj stu__myprint(stua_dict *context)
+ {
+ stua_obj x = stu__get(context, stua_string("x"), stua_nil);
+ if ((x & 1) == stu__float_tag) printf("%f", stu__getfloat(x));
+ else if (stu__tag(x) == stu__int_tag) printf("%d", stu__int(x));
+ else {
+ stu__wrapper *s = stu__pw(x);
+ if (s->type == STU___string || s->type == STU___error)
+ printf("%s", s->ptr);
+ else if (s->type == STU___dict) printf("{{dictionary}}");
+ else if (s->type == STU___function) printf("[[function]]");
+ else
+ printf("[[ERROR:%s]]", s->ptr);
+ }
+ return x;
+ }
+
+ void stua_init(void)
+ {
+ if (!stu__globaldict) {
+ int i;
+ stua_obj s;
+ stu__func *f;
+
+ stu__prec[ST_and] = stu__prec[ST_or] = 1;
+ stu__prec[ST_eq] = stu__prec[ST_ne] = stu__prec[ST_le] =
+ stu__prec[ST_ge] = stu__prec['>'] = stu__prec['<'] = 2;
+ stu__prec[':'] = 3;
+ stu__prec['&'] = stu__prec['|'] = stu__prec['^'] = 4;
+ stu__prec['+'] = stu__prec['-'] = 5;
+ stu__prec['*'] = stu__prec['/'] = stu__prec['%'] =
+ stu__prec[ST_shl] = stu__prec[ST_shr] = stu__prec[ST_shru] = 6;
+
+ stu__end[')'] = stu__end[ST_end] = stu__end[ST_else] = 1;
+ stu__end[ST_do] = stu__end[ST_elseif] = 1;
+
+ stu__float_init();
+ stu__lex_matcher = stb_lex_matcher();
+ for (i = 0; i < sizeof(stu__lexemes) / sizeof(stu__lexemes[0]); ++i)
+ stb_lex_item(stu__lex_matcher, stu__lexemes[i].regex, stu__lexemes[i].stu__tok);
+
+ stu__globaldict = stb_idict_new_size(64);
+ stua_globals = stu__makeobj(STU___dict, stu__globaldict, 0, 0);
+ stu__strings = stb_sdict_new(0);
+
+ stu__curbuf = stu__bufstart = "func _print(x) end\n"
+ "func print()\n var x=0 while _frame[x] != nil as x=x+1 do _print(_frame[x]) end end\n";
+ stu__nexttoken();
+ if (!stu__compile_global_scope())
+ printf("Compile error in line %d: %s\n", stu__comp_err_line, stu__comp_err_str);
+
+ s = stu__get(stu__globaldict, stua_string("_print"), stua_nil);
+ if (stu__tag(s) == stu__ptr_tag && stu__ptr(s)->type == STU___function) {
+ f = stu__pf(s);
+ free(f->f.store);
+ f->closure_source = 4;
+ f->f.func = stu__myprint;
+ f->code = NULL;
+ }
+ }
+ }
+
+ void stua_uninit(void)
+ {
+ if (stu__globaldict) {
+ stb_idict_remove_all(stu__globaldict);
+ stb_arr_setlen(stu__gc_root_stack, 0);
+ stua_gc(1);
+ stb_idict_destroy(stu__globaldict);
+ stb_sdict_delete(stu__strings);
+ stb_matcher_free(stu__lex_matcher);
+ stb_arr_free(stu__gc_ptrlist);
+ stb_arr_free(func_stack);
+ stb_arr_free(stu__gc_root_stack);
+ stu__globaldict = NULL;
+ }
+ }
+
+ void stua_run_script(char *s)
+ {
+ stua_init();
+
+ stu__curbuf = stu__bufstart = s;
+ stu__nexttoken();
+
+ stu__flow = FLOW_normal;
+
+ if (!stu__compile_global_scope())
+ printf("Compile error in line %d: %s\n", stu__comp_err_line, stu__comp_err_str);
+ stua_gc(1);
+ }
+#endif // STB_DEFINE
+#endif // STB_STUA
+
+#undef STB_EXTERN
+#endif // STB_INCLUDE_STB_H
+
+ /*
+ ------------------------------------------------------------------------------
+ This software is available under 2 licenses -- choose whichever you prefer.
+ ------------------------------------------------------------------------------
+ ALTERNATIVE A - MIT License
+ Copyright (c) 2017 Sean Barrett
+ Permission is hereby granted, free of charge, to any person obtaining a copy of
+ this software and associated documentation files (the "Software"), to deal in
+ the Software without restriction, including without limitation the rights to
+ use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
+ of the Software, and to permit persons to whom the Software is furnished to do
+ so, subject to the following conditions:
+ The above copyright notice and this permission notice shall be included in all
+ copies or substantial portions of the Software.
+ THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ SOFTWARE.
+ ------------------------------------------------------------------------------
+ ALTERNATIVE B - Public Domain (www.unlicense.org)
+ This is free and unencumbered software released into the public domain.
+ Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
+ software, either in source code form or as a compiled binary, for any purpose,
+ commercial or non-commercial, and by any means.
+ In jurisdictions that recognize copyright laws, the author or authors of this
+ software dedicate any and all copyright interest in the software to the public
+ domain. We make this dedication for the benefit of the public at large and to
+ the detriment of our heirs and successors. We intend this dedication to be an
+ overt act of relinquishment in perpetuity of all present and future rights to
+ this software under copyright law.
+ THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
+ ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
+ WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
+ ------------------------------------------------------------------------------
+ */ \ No newline at end of file
diff --git a/src/libjin/audio/sdl/audio.cpp b/src/libjin/audio/sdl/audio.cpp
index 7870329..d753587 100644
--- a/src/libjin/audio/sdl/audio.cpp
+++ b/src/libjin/audio/sdl/audio.cpp
@@ -1,22 +1,29 @@
#include "audio.h"
+#include "source.h"
namespace jin
{
namespace audio
{
+ static void defaultCallback(void *userdata, Uint8 *stream, int size)
+ {
+ SDLAudio* audio = (SDLAudio*)userdata;
+ audio->processCommands();
+ audio->processSources(stream, size);
+ }
+
onlyonce bool SDLAudio::_init(const SettingBase* s)
{
if (SDL_Init(SDL_INIT_AUDIO) < 0)
return false;
-
- const SDLAudioSetting* setting = (SDLAudioSetting*)s;
+ SDLAudioSetting* setting = (SDLAudioSetting*)s;
SDL_AudioSpec spec;
zero(spec);
- spec.freq = setting->rate;
- spec.format = setting->resolution;
- spec.channels = setting->channels;
- spec.samples = setting->samples;
+ spec.freq = 44100;
+ spec.format = AUDIO_S16SYS;
+ spec.channels = 1;
+ spec.samples = 2048;
spec.userdata = this;
spec.callback = defaultCallback;
@@ -36,17 +43,14 @@ namespace audio
delete audio;
}
- shared void SDLAudio::defaultCallback(void *userdata, Uint8 *stream, int size)
+ void SDLAudio::processCommands()
{
- SDLAudio* audio = (SDLAudio*)userdata;
- int16_t* buffer = (int16_t*)stream;
- int len = size >> 1;
- audio->processSources(len);
+ SDLSourceManager::get()->processCommands();
}
- void SDLAudio::processSources(int len)
+ void SDLAudio::processSources(Uint8* buffer, int len)
{
-
+ SDLSourceManager::get()->processSources(buffer, len);
}
void SDLAudio::play() {}
diff --git a/src/libjin/audio/sdl/audio.h b/src/libjin/audio/sdl/audio.h
index 969fbd9..53d0d76 100644
--- a/src/libjin/audio/sdl/audio.h
+++ b/src/libjin/audio/sdl/audio.h
@@ -16,6 +16,7 @@ namespace audio
public:
+ /*
struct Setting : SettingBase
{
int rate; //
@@ -23,6 +24,7 @@ namespace audio
char channels; //
int samples; // ȡ
};
+ */
static inline Audio* get()
{
@@ -40,6 +42,10 @@ namespace audio
void setVolume(float volume) override;
float getVolume() override;
+ /* process functions*/
+ void processCommands();
+ void processSources(Uint8* buffer, int len);
+
private:
SDLAudio() {}
@@ -50,14 +56,6 @@ namespace audio
unsigned int audioDevice;
- std::vector<SDLSource*> sources;
-
- static void defaultCallback(void *udata, Uint8 *stream, int len);
-
- /* process functions*/
- void processCommands();
- void processSources(int len);
-
};
typedef SDLAudio::Setting SDLAudioSetting;
diff --git a/src/libjin/audio/sdl/source.cpp b/src/libjin/audio/sdl/source.cpp
index ecdf5b5..7d71ce7 100644
--- a/src/libjin/audio/sdl/source.cpp
+++ b/src/libjin/audio/sdl/source.cpp
@@ -1,34 +1,132 @@
+#include <exception>
+
+#include "../../math/math.h"
#include "../../utils/macros.h"
#include "source.h"
+#include "3rdparty/wav/wav.h"
+#define STB_VORBIS_HEADER_ONLY
+#include "3rdparty/stb/stb_vorbis.c"
namespace jin
{
namespace audio
{
- shared std::queue<SDLSource::Command*> SDLSource::commands;
- shared std::stack<SDLSource::Command*> SDLSource::commandsPool;
+ struct SDLSourceCommand
+ {
+ typedef enum Action
+ {
+ Nothing = 0, //
+ Play, // ͷʼ
+ Stop, // ֹͣ
+ Pause, //
+ Resume, //
+ Rewind, //
+ SetVolume, //
+ SetLoop, //
+ SetRate, //
+ };
+
+ Action action;
+ union {
+ int _integer;
+ float _float;
+ bool _boolean;
+ const char* _string;
+ } parameter;
+
+ SDLSource* source;
+ };
+
+ typedef enum STATUS
+ {
+ PLAYING = 2,
+ PAUSED = 4,
+ STOPPED = 8
+ };
+
+#define Command SDLSourceCommand
+#define Action Command::Action
+#define Manager SDLSourceManager
+
+ shared std::queue<Command*> Manager::commands;
+ shared std::stack<Command*> Manager::commandsPool;
+ shared std::vector<SDLSource*> Manager::sources;
+ shared Manager* Manager::manager = nullptr;
+
+ SDLSource::SDLSource(Type format, void* mem, int size)
+ : pos(0)
+ , pitch(0)
+ , status(0)
+ , loop(false)
+ {
+ memset(&raw, 0, sizeof(raw));
+ try
+ {
+ switch (format)
+ {
+ case WAV:
+ loadWAV(mem, size);
+ break;
+ case OGG:
+ loadOGG(mem, size);
+ break;
+ }
+ }
+ catch(SourceException& exp)
+ {
+
+ };
+ }
+
+ void SDLSource::loadWAV(void* mem, int size)
+ {
+ wav_t wav;
+ if (wav_read(&wav, mem, size) == 0)
+ {
+ raw.data = wav.data;
+ raw.length = wav.length;
+ raw.end = (char*)raw.data + raw.length;
+ raw.rate = wav.samplerate;
+ raw.bitdepth = wav.bitdepth;
+ raw.samples = wav.length / (wav.bitdepth / 8.f);
+ raw.channel = wav.channels;
+ raw.silence = 0;
+ }
+ else
+ throw SourceException();
+ }
+
+ void SDLSource::loadOGG(void* mem, int size)
+ {
+ raw.samples = stb_vorbis_decode_memory((unsigned char*)mem, size, (int*)&raw.channel, &raw.rate, (short**)&raw.data);
+ if (raw.samples < 0)
+ {
+ throw SourceException();
+ }
+ }
- void SDLSource::generateSamples(Uint8* streamIn, int len)
+ SDLSource::~SDLSource()
{
}
+
#define ActionNone(T)\
do{\
-Command* cmd = getCommand(); \
-cmd->action = Command::Action::T; \
-cmd->source = this; \
-commands.push(cmd); \
+Command* cmd = Manager::get()->getCommand();\
+cmd->action = Action::T; \
+cmd->source = this; \
+Manager::get()->pushCommand(cmd); \
} while (0)
#define ActionArg(T, ARGT, ARG)\
do{\
-Command* cmd = getCommand(); \
-cmd->action = Command::Action::T; \
-cmd->ARGT = ARG; \
-cmd->source = this; \
-commands.push(cmd); \
+Command* cmd = Manager::get()->getCommand();\
+cmd->action = Action::T; \
+cmd->parameter.ARGT = ARG; \
+cmd->source = this; \
+Manager::get()->pushCommand(cmd); \
}while(0)
#define ActionInt(T, INT) ActionArg(T, _integer, INT)
@@ -63,7 +161,7 @@ commands.push(cmd); \
void SDLSource::isStopped() const
{
-
+
}
void SDLSource::isPaused() const {}
@@ -81,7 +179,7 @@ commands.push(cmd); \
bool SDLSource::setLoop(bool loop)
{
- ActionFloat(SetLoop, loop);
+ ActionBool(SetLoop, loop);
return false;
}
@@ -90,43 +188,106 @@ commands.push(cmd); \
ActionFloat(SetRate, rate);
}
- shared SDLSource::Command* SDLSource::getCommand()
+ Manager* Manager::get()
{
- if (!commandsPool.empty())
- {
- Command* cmd = commandsPool.top();
- commandsPool.pop();
- }
- return new Command();
+ return (manager == nullptr ? manager = new Manager() : manager);
}
- shared void SDLSource::collectCommand(SDLSource::Command* cmd)
+ shared void Manager::processCommands()
{
- if (cmd != nullptr && cmd != NULL)
- {
- commandsPool.push(cmd);
- }
- }
-
- shared void SDLSource::processCommand()
- {
- Command* cmd = NULL;
- Source* source = NULL;
+ Command* cmd = nullptr;
+ SDLSource* source = nullptr;
while (!commands.empty())
{
cmd = commands.front();
- source = cmd->source;
-
+ source = cmd->source;
+ if (source != nullptr && cmd != nullptr)
+ {
+ switch (cmd->action)
+ {
+ case Command::Action::Play:
+ removeSource(source);
+ pushSource(source);
+ source->status = PLAYING;
+ source->pos = 0; // rewind
+ break;
+ case Command::Action::Stop:
+ manager->removeSource(source);
+ source->status = STOPPED;
+ source->pos = 0; // rewind
+ break;
+ case Command::Action::Pause:
+ source->status = PAUSED;
+ break;
+ case Command::Action::Resume:
+ source->status = PLAYING;
+ break;
+ case Command::Action::Rewind:
+ source->status = PLAYING;
+ source->pos = 0;
+ break;
+ case Command::Action::SetVolume:
+ break;
+ case Command::Action::SetLoop:
+ source->loop = cmd->parameter._boolean;
+ break;
+ /*case Command::Action::SetRate:
+ */
+ }
+ }
commands.pop();
}
}
- shared void SDLSource::processSource()
+ shared void Manager::processSources(Uint8* buffer, int len)
{
+ memset(buffer, 0, len);
+ int16_t* buf16 = (int16_t*)buffer;
+ int samples = len >> 1;
+ std::vector<SDLSource*>::iterator it = sources.begin();
+ SDLSource* source = nullptr;
+ for (; it != sources.end(); ++it)
+ {
+ source = *it;
+ int16_t* data16 = (int16_t*)source->raw.data;
+ if (source->is(STOPPED))
+ removeSource(source);
+ else if (source->is(PAUSED))
+ continue;
+ else if (source->is(PLAYING))
+ {
+ int16_t* src16 = (int16_t*)((char*)source->raw.data + source->pos);
+ int remainsample = (source->raw.length - source->pos) >> 1;
+ int bound = min(samples, remainsample);
+ for (int i = 0; i < bound; ++i)
+ {
+ buf16[i] += src16[i]; // mix sources
+ }
+ source->pos += (bound << 1);
+ if (source->pos == 0)
+ {
+ if (source->loop)
+ {
+ int j = 0;
+ for (int i = bound; i < samples; ++i, ++j)
+ {
+ int val = data16[j];
+ buf16[i] += val;
+ }
+ source->pos = (j << 1);
+ continue;
+ }
+ else
+ {
+ sources.erase(it);
+ }
+ }
+ }
+ }
}
- shared void SDLSource::removeSource(SDLSource* source)
+ shared void Manager::removeSource(SDLSource* source)
{
std::vector<SDLSource*>::iterator it = sources.begin();
for (it = sources.begin(); it != sources.end(); ++it)
@@ -139,5 +300,34 @@ commands.push(cmd); \
}
}
+ shared void Manager::pushSource(SDLSource* source)
+ {
+ if(source != nullptr)
+ sources.push_back(source);
+ }
+
+ shared void Manager::pushCommand(SDLSourceCommand* cmd)
+ {
+ commands.push(cmd);
+ }
+
+ shared Command* Manager::getCommand()
+ {
+ if (!commandsPool.empty())
+ {
+ Command* cmd = commandsPool.top();
+ commandsPool.pop();
+ }
+ return new Command();
+ }
+
+ shared void Manager::collectCommand(Command* cmd)
+ {
+ if (cmd != nullptr)
+ {
+ commandsPool.push(cmd);
+ }
+ }
+
}
-}
+} \ No newline at end of file
diff --git a/src/libjin/audio/sdl/source.h b/src/libjin/audio/sdl/source.h
index 682ff50..d97590e 100644
--- a/src/libjin/audio/sdl/source.h
+++ b/src/libjin/audio/sdl/source.h
@@ -4,11 +4,7 @@
#include <vector>
#include <queue>
#include <stack>
-
-#include "3rdparty/wav/wav.h"
-#define STB_VORBIS_HEADER_ONLY
-#include "3rdparty/stb/stb_vorbis.c"
-#undef STB_VORBIS_HEADER_ONLY
+#include <exception>
#include "../source.h"
@@ -17,15 +13,21 @@ namespace jin
namespace audio
{
+ struct SDLSourceCommand;
+
class SDLSource : public Source
{
public:
- SDLSource() {}
- ~SDLSource() {}
+ enum Type
+ {
+ WAV = 1,
+ OGG = 2,
+ };
- void generateSamples(Uint8* streamIn, int len);
+ SDLSource(Type format, void* mem, int size) ;
+ ~SDLSource();
/* ISource interface */
void play() override;
@@ -41,52 +43,70 @@ namespace audio
bool setLoop(bool loop) override;
void setRate(float rate) override;
- /* process function */
- static void processCommand();
- static void processSource();
- static void removeSource(SDLSource* source);
-
private:
- struct Command
+ friend class SDLSourceManager;
+
+ void loadWAV(void* mem, int size);
+ void loadOGG(void* mem, int size);
+
+ inline bool is(int state) { return (status & state) == state; }
+
+ struct
{
- typedef enum Action
- {
- Nothing = 0,
- Play,
- Stop,
- Pause,
- Resume,
- Rewind,
- SetVolume,
- SetLoop,
- SetRate,
- };
- Action action;
- union {
- int _integer;
- float _float;
- bool _boolean;
- const char* _string;
- };
- SDLSource* source;
- };
+ const void* data; // Ƶ
+ int length; // dataֽڳ
+ void* end; // dataβ = (unsigned char*)data + length
+ int rate; // Ƶ
+ unsigned char bitdepth; // ÿsampleıس
+ int samples; // sample = length / (bitdepth / 8)
+ unsigned char channel; // channel12
+ char silence; // 0
+ } raw;
+
+ /* Procedure controller variable */
+ int pos; // ǰŵλ
+ int pitch; // pitch
+ int status; // ǰ״̬
+ bool loop; // loop or not
+
+ };
+
+ class SDLSourceManager
+ {
+
+ public:
+
+ static SDLSourceManager* get();
- static std::queue<Command*> commands;
- static std::stack<Command*> commandsPool;
- static Command* getCommand();
- static void collectCommand(Command* cmd);
-
- static std::vector<SDLSource*> sources;
-
- void* data;
- void* pos;
- int length;
- int pitch;
- bool paused;
- bool playing;
- bool stopped;
+ /* Process function */
+ static void processCommands();
+ static void processSources(Uint8* buffer, int len);
+
+ private:
+
+ friend class SDLSource;
+
+ static void removeSource(SDLSource* source);
+ static void pushSource(SDLSource* source);
+ static SDLSourceCommand* getCommand();
+ static void pushCommand(SDLSourceCommand* cmd);
+ static void collectCommand(SDLSourceCommand* cmd);
+ static SDLSourceManager* manager;
+
+ static std::queue<SDLSourceCommand*> commands;
+ static std::stack<SDLSourceCommand*> commandsPool;
+ static std::vector<SDLSource*> sources; // processing sources
+
+ };
+
+ class SourceException : public std::exception
+ {
+ const char * what() const throw ()
+ {
+ return "Load Source Exception";
+ }
};
}
diff --git a/src/libjin/audio/source.h b/src/libjin/audio/source.h
index 4ed8752..b625758 100644
--- a/src/libjin/audio/source.h
+++ b/src/libjin/audio/source.h
@@ -33,13 +33,13 @@ namespace audio
public:
+ Source() {};
+ virtual ~Source() {};
+
/* ISource interface */
protected:
- Source();
- virtual ~Source();
-
};
}
diff --git a/src/libjin/fs/filesystem.cpp b/src/libjin/fs/filesystem.cpp
index 72f1144..af94034 100644
--- a/src/libjin/fs/filesystem.cpp
+++ b/src/libjin/fs/filesystem.cpp
@@ -12,7 +12,7 @@ namespace fs
Filesystem::Filesystem()
{
- S = sm_newshared();
+ S = smtnewshared();
}
Filesystem* Filesystem::get()
@@ -25,10 +25,10 @@ namespace fs
*/
void Filesystem::mount(const char * path)
{
- int err = sm_mount(S, path);
+ int err = smtmount(S, path);
if (err)
{
- printf("%s mounted path %s", sm_errstr(err), path);
+ printf("%s mounted path %s", smterrstr(err), path);
exit(1);
}
}
@@ -38,7 +38,7 @@ namespace fs
*/
int Filesystem::read(const char* path, Buffer* buffer)
{
- buffer->data = sm_read(S, path, &buffer->size);
+ buffer->data = smtread(S, path, &buffer->size);
if (buffer->data == 0)
return 0;
return 1;
@@ -46,22 +46,22 @@ namespace fs
const char* Filesystem::getFull(const char* path)
{
- return sm_fullpath(S, path);
+ return smtfullpath(S, path);
}
bool Filesystem::isDir(const char* path)
{
- return sm_isdir(S, path);
+ return smtisdir(S, path);
}
bool Filesystem::isFile(const char* path)
{
- return sm_isreg(S, path);
+ return smtisreg(S, path);
}
bool Filesystem::exists(const char* path)
{
- return sm_exists(S, path) == 0;
+ return smtexists(S, path) == 0;
}
}
diff --git a/src/libjin/fs/filesystem.h b/src/libjin/fs/filesystem.h
index 8c8ef04..15f0b9f 100644
--- a/src/libjin/fs/filesystem.h
+++ b/src/libjin/fs/filesystem.h
@@ -48,7 +48,7 @@ namespace fs
static Filesystem* fs;
- sm_Shared* S;
+ smtShared* S;
};
}
diff --git a/src/libjin/render/jsl.cpp b/src/libjin/render/jsl.cpp
index e883104..f4e1cb0 100644
--- a/src/libjin/render/jsl.cpp
+++ b/src/libjin/render/jsl.cpp
@@ -16,7 +16,7 @@ namespace render
"uniform Image _tex0_; \n"
"%s \n"
"void main(){ \n"
- "gl_FragColor = effect(gl_Color, _tex0_, gl_TexCoord[0].xy, gl_FragCoord.xy);\n"
+ " gl_FragColor = effect(gl_Color, _tex0_, gl_TexCoord[0].xy, gl_FragCoord.xy);\n"
"}\0";
shared JSLProgram* JSLProgram::currentJSLProgram = nullptr;
diff --git a/src/libjin/utils/unittest.cpp b/src/libjin/utils/unittest.cpp
index b64f394..df1a2b6 100644
--- a/src/libjin/utils/unittest.cpp
+++ b/src/libjin/utils/unittest.cpp
@@ -1,20 +1,26 @@
#include "utils.h"
#if UNITTEST
+#include <iostream>
#include <stdio.h>
+#include <fstream>
+#include "../audio/sdl/source.h"
#include "../audio/sdl/audio.h"
using namespace jin::audio;
-
+using namespace std;
+int length = 2226052;
+char buf[2226052];
int main(int argc, char* argv[])
{
Audio* audio = SDLAudio::get();
- SDLAudioSetting setting;
- setting.rate = 44100;
- setting.resolution = AUDIO_S16SYS; /*signed 16 - bit samples in native byte order*/
- setting.channels = 2;
- setting.samples = 44100;
- audio->init(&setting);
+ audio->init(0);
+ ifstream fs;
+ fs.open("a.wav", ios::binary);
+ fs.read(buf, length);
+ SDLSource source(SDLSource::WAV, buf, length);
+ source.play();
+ source.setLoop(true);
while (true)
{
SDL_Delay(100);
@@ -23,4 +29,4 @@ int main(int argc, char* argv[])
return 0;
}
-#endif
+#endif \ No newline at end of file
generated by cgit v1.1-26-g67d0 at 2025-05-21 12:20:18 +0000