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etlegacy-libs/openal/Alc/helpers.c
Remy Marquis 3e97385052 libs: added openAL 1.17.1
2015-12-12 22:07:33 +01:00

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/**
* OpenAL cross platform audio library
* Copyright (C) 2011 by authors.
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
* Or go to http://www.gnu.org/copyleft/lgpl.html
*/
#ifdef _WIN32
#ifdef __MINGW32__
#define _WIN32_IE 0x501
#else
#define _WIN32_IE 0x400
#endif
#endif
#include "config.h"
#include <stdlib.h>
#include <time.h>
#include <errno.h>
#include <stdarg.h>
#ifdef HAVE_MALLOC_H
#include <malloc.h>
#endif
#ifdef HAVE_DIRENT_H
#include <dirent.h>
#endif
#ifndef AL_NO_UID_DEFS
#if defined(HAVE_GUIDDEF_H) || defined(HAVE_INITGUID_H)
#define INITGUID
#include <windows.h>
#ifdef HAVE_GUIDDEF_H
#include <guiddef.h>
#else
#include <initguid.h>
#endif
DEFINE_GUID(KSDATAFORMAT_SUBTYPE_PCM, 0x00000001, 0x0000, 0x0010, 0x80,0x00, 0x00,0xaa,0x00,0x38,0x9b,0x71);
DEFINE_GUID(KSDATAFORMAT_SUBTYPE_IEEE_FLOAT, 0x00000003, 0x0000, 0x0010, 0x80,0x00, 0x00,0xaa,0x00,0x38,0x9b,0x71);
DEFINE_GUID(IID_IDirectSoundNotify, 0xb0210783, 0x89cd, 0x11d0, 0xaf,0x08, 0x00,0xa0,0xc9,0x25,0xcd,0x16);
DEFINE_GUID(CLSID_MMDeviceEnumerator, 0xbcde0395, 0xe52f, 0x467c, 0x8e,0x3d, 0xc4,0x57,0x92,0x91,0x69,0x2e);
DEFINE_GUID(IID_IMMDeviceEnumerator, 0xa95664d2, 0x9614, 0x4f35, 0xa7,0x46, 0xde,0x8d,0xb6,0x36,0x17,0xe6);
DEFINE_GUID(IID_IAudioClient, 0x1cb9ad4c, 0xdbfa, 0x4c32, 0xb1,0x78, 0xc2,0xf5,0x68,0xa7,0x03,0xb2);
DEFINE_GUID(IID_IAudioRenderClient, 0xf294acfc, 0x3146, 0x4483, 0xa7,0xbf, 0xad,0xdc,0xa7,0xc2,0x60,0xe2);
DEFINE_GUID(IID_IAudioCaptureClient, 0xc8adbd64, 0xe71e, 0x48a0, 0xa4,0xde, 0x18,0x5c,0x39,0x5c,0xd3,0x17);
#ifdef HAVE_MMDEVAPI
#include <devpropdef.h>
#include <propkeydef.h>
DEFINE_DEVPROPKEY(DEVPKEY_Device_FriendlyName, 0xa45c254e, 0xdf1c, 0x4efd, 0x80,0x20, 0x67,0xd1,0x46,0xa8,0x50,0xe0, 14);
DEFINE_PROPERTYKEY(PKEY_AudioEndpoint_FormFactor, 0x1da5d803, 0xd492, 0x4edd, 0x8c,0x23, 0xe0,0xc0,0xff,0xee,0x7f,0x0e, 0);
#endif
#endif
#endif /* AL_NO_UID_DEFS */
#ifdef HAVE_DLFCN_H
#include <dlfcn.h>
#endif
#ifdef HAVE_INTRIN_H
#include <intrin.h>
#endif
#ifdef HAVE_CPUID_H
#include <cpuid.h>
#endif
#ifdef HAVE_SYS_SYSCONF_H
#include <sys/sysconf.h>
#endif
#ifdef HAVE_FLOAT_H
#include <float.h>
#endif
#ifdef HAVE_IEEEFP_H
#include <ieeefp.h>
#endif
#ifndef _WIN32
#include <unistd.h>
#elif defined(_WIN32_IE)
#include <shlobj.h>
#endif
#include "alMain.h"
#include "alu.h"
#include "atomic.h"
#include "uintmap.h"
#include "vector.h"
#include "alstring.h"
#include "compat.h"
#include "threads.h"
extern inline ALuint NextPowerOf2(ALuint value);
extern inline ALint fastf2i(ALfloat f);
extern inline ALuint fastf2u(ALfloat f);
ALuint CPUCapFlags = 0;
void FillCPUCaps(ALuint capfilter)
{
ALuint caps = 0;
/* FIXME: We really should get this for all available CPUs in case different
* CPUs have different caps (is that possible on one machine?). */
#if defined(HAVE_GCC_GET_CPUID) && (defined(__i386__) || defined(__x86_64__) || \
defined(_M_IX86) || defined(_M_X64))
union {
unsigned int regs[4];
char str[sizeof(unsigned int[4])];
} cpuinf[3];
if(!__get_cpuid(0, &cpuinf[0].regs[0], &cpuinf[0].regs[1], &cpuinf[0].regs[2], &cpuinf[0].regs[3]))
ERR("Failed to get CPUID\n");
else
{
unsigned int maxfunc = cpuinf[0].regs[0];
unsigned int maxextfunc = 0;
if(__get_cpuid(0x80000000, &cpuinf[0].regs[0], &cpuinf[0].regs[1], &cpuinf[0].regs[2], &cpuinf[0].regs[3]))
maxextfunc = cpuinf[0].regs[0];
TRACE("Detected max CPUID function: 0x%x (ext. 0x%x)\n", maxfunc, maxextfunc);
TRACE("Vendor ID: \"%.4s%.4s%.4s\"\n", cpuinf[0].str+4, cpuinf[0].str+12, cpuinf[0].str+8);
if(maxextfunc >= 0x80000004 &&
__get_cpuid(0x80000002, &cpuinf[0].regs[0], &cpuinf[0].regs[1], &cpuinf[0].regs[2], &cpuinf[0].regs[3]) &&
__get_cpuid(0x80000003, &cpuinf[1].regs[0], &cpuinf[1].regs[1], &cpuinf[1].regs[2], &cpuinf[1].regs[3]) &&
__get_cpuid(0x80000004, &cpuinf[2].regs[0], &cpuinf[2].regs[1], &cpuinf[2].regs[2], &cpuinf[2].regs[3]))
TRACE("Name: \"%.16s%.16s%.16s\"\n", cpuinf[0].str, cpuinf[1].str, cpuinf[2].str);
if(maxfunc >= 1 &&
__get_cpuid(1, &cpuinf[0].regs[0], &cpuinf[0].regs[1], &cpuinf[0].regs[2], &cpuinf[0].regs[3]))
{
if((cpuinf[0].regs[3]&(1<<25)))
{
caps |= CPU_CAP_SSE;
if((cpuinf[0].regs[3]&(1<<26)))
{
caps |= CPU_CAP_SSE2;
if((cpuinf[0].regs[2]&(1<<0)))
{
caps |= CPU_CAP_SSE3;
if((cpuinf[0].regs[2]&(1<<19)))
caps |= CPU_CAP_SSE4_1;
}
}
}
}
}
#elif defined(HAVE_CPUID_INTRINSIC) && (defined(__i386__) || defined(__x86_64__) || \
defined(_M_IX86) || defined(_M_X64))
union {
int regs[4];
char str[sizeof(int[4])];
} cpuinf[3];
(__cpuid)(cpuinf[0].regs, 0);
if(cpuinf[0].regs[0] == 0)
ERR("Failed to get CPUID\n");
else
{
unsigned int maxfunc = cpuinf[0].regs[0];
unsigned int maxextfunc;
(__cpuid)(cpuinf[0].regs, 0x80000000);
maxextfunc = cpuinf[0].regs[0];
TRACE("Detected max CPUID function: 0x%x (ext. 0x%x)\n", maxfunc, maxextfunc);
TRACE("Vendor ID: \"%.4s%.4s%.4s\"\n", cpuinf[0].str+4, cpuinf[0].str+12, cpuinf[0].str+8);
if(maxextfunc >= 0x80000004)
{
(__cpuid)(cpuinf[0].regs, 0x80000002);
(__cpuid)(cpuinf[1].regs, 0x80000003);
(__cpuid)(cpuinf[2].regs, 0x80000004);
TRACE("Name: \"%.16s%.16s%.16s\"\n", cpuinf[0].str, cpuinf[1].str, cpuinf[2].str);
}
if(maxfunc >= 1)
{
(__cpuid)(cpuinf[0].regs, 1);
if((cpuinf[0].regs[3]&(1<<25)))
{
caps |= CPU_CAP_SSE;
if((cpuinf[0].regs[3]&(1<<26)))
{
caps |= CPU_CAP_SSE2;
if((cpuinf[0].regs[2]&(1<<0)))
{
caps |= CPU_CAP_SSE3;
if((cpuinf[0].regs[2]&(1<<19)))
caps |= CPU_CAP_SSE4_1;
}
}
}
}
}
#else
/* Assume support for whatever's supported if we can't check for it */
#if defined(HAVE_SSE4_1)
#warning "Assuming SSE 4.1 run-time support!"
caps |= CPU_CAP_SSE | CPU_CAP_SSE2 | CPU_CAP_SSE3 | CPU_CAP_SSE4_1;
#elif defined(HAVE_SSE3)
#warning "Assuming SSE 3 run-time support!"
caps |= CPU_CAP_SSE | CPU_CAP_SSE2 | CPU_CAP_SSE3;
#elif defined(HAVE_SSE2)
#warning "Assuming SSE 2 run-time support!"
caps |= CPU_CAP_SSE | CPU_CAP_SSE2;
#elif defined(HAVE_SSE)
#warning "Assuming SSE run-time support!"
caps |= CPU_CAP_SSE;
#endif
#endif
#ifdef HAVE_NEON
/* Assume Neon support if compiled with it */
caps |= CPU_CAP_NEON;
#endif
TRACE("Extensions:%s%s%s%s%s%s\n",
((capfilter&CPU_CAP_SSE) ? ((caps&CPU_CAP_SSE) ? " +SSE" : " -SSE") : ""),
((capfilter&CPU_CAP_SSE2) ? ((caps&CPU_CAP_SSE2) ? " +SSE2" : " -SSE2") : ""),
((capfilter&CPU_CAP_SSE3) ? ((caps&CPU_CAP_SSE3) ? " +SSE3" : " -SSE3") : ""),
((capfilter&CPU_CAP_SSE4_1) ? ((caps&CPU_CAP_SSE4_1) ? " +SSE4.1" : " -SSE4.1") : ""),
((capfilter&CPU_CAP_NEON) ? ((caps&CPU_CAP_NEON) ? " +Neon" : " -Neon") : ""),
((!capfilter) ? " -none-" : "")
);
CPUCapFlags = caps & capfilter;
}
void *al_malloc(size_t alignment, size_t size)
{
#if defined(HAVE_ALIGNED_ALLOC)
size = (size+(alignment-1))&~(alignment-1);
return aligned_alloc(alignment, size);
#elif defined(HAVE_POSIX_MEMALIGN)
void *ret;
if(posix_memalign(&ret, alignment, size) == 0)
return ret;
return NULL;
#elif defined(HAVE__ALIGNED_MALLOC)
return _aligned_malloc(size, alignment);
#else
char *ret = malloc(size+alignment);
if(ret != NULL)
{
*(ret++) = 0x00;
while(((ptrdiff_t)ret&(alignment-1)) != 0)
*(ret++) = 0x55;
}
return ret;
#endif
}
void *al_calloc(size_t alignment, size_t size)
{
void *ret = al_malloc(alignment, size);
if(ret) memset(ret, 0, size);
return ret;
}
void al_free(void *ptr)
{
#if defined(HAVE_ALIGNED_ALLOC) || defined(HAVE_POSIX_MEMALIGN)
free(ptr);
#elif defined(HAVE__ALIGNED_MALLOC)
_aligned_free(ptr);
#else
if(ptr != NULL)
{
char *finder = ptr;
do {
--finder;
} while(*finder == 0x55);
free(finder);
}
#endif
}
void SetMixerFPUMode(FPUCtl *ctl)
{
#ifdef HAVE_FENV_H
fegetenv(STATIC_CAST(fenv_t, ctl));
#if defined(__GNUC__) && defined(HAVE_SSE)
/* FIXME: Some fegetenv implementations can get the SSE environment too?
* How to tell when it does? */
if((CPUCapFlags&CPU_CAP_SSE))
__asm__ __volatile__("stmxcsr %0" : "=m" (*&ctl->sse_state));
#endif
#ifdef FE_TOWARDZERO
fesetround(FE_TOWARDZERO);
#endif
#if defined(__GNUC__) && defined(HAVE_SSE)
if((CPUCapFlags&CPU_CAP_SSE))
{
int sseState = ctl->sse_state;
sseState |= 0x6000; /* set round-to-zero */
sseState |= 0x8000; /* set flush-to-zero */
if((CPUCapFlags&CPU_CAP_SSE2))
sseState |= 0x0040; /* set denormals-are-zero */
__asm__ __volatile__("ldmxcsr %0" : : "m" (*&sseState));
}
#endif
#elif defined(HAVE___CONTROL87_2)
int mode;
__control87_2(0, 0, &ctl->state, NULL);
__control87_2(_RC_CHOP, _MCW_RC, &mode, NULL);
#ifdef HAVE_SSE
if((CPUCapFlags&CPU_CAP_SSE))
{
__control87_2(0, 0, NULL, &ctl->sse_state);
__control87_2(_RC_CHOP|_DN_FLUSH, _MCW_RC|_MCW_DN, NULL, &mode);
}
#endif
#elif defined(HAVE__CONTROLFP)
ctl->state = _controlfp(0, 0);
(void)_controlfp(_RC_CHOP, _MCW_RC);
#endif
}
void RestoreFPUMode(const FPUCtl *ctl)
{
#ifdef HAVE_FENV_H
fesetenv(STATIC_CAST(fenv_t, ctl));
#if defined(__GNUC__) && defined(HAVE_SSE)
if((CPUCapFlags&CPU_CAP_SSE))
__asm__ __volatile__("ldmxcsr %0" : : "m" (*&ctl->sse_state));
#endif
#elif defined(HAVE___CONTROL87_2)
int mode;
__control87_2(ctl->state, _MCW_RC, &mode, NULL);
#ifdef HAVE_SSE
if((CPUCapFlags&CPU_CAP_SSE))
__control87_2(ctl->sse_state, _MCW_RC|_MCW_DN, NULL, &mode);
#endif
#elif defined(HAVE__CONTROLFP)
_controlfp(ctl->state, _MCW_RC);
#endif
}
#ifdef _WIN32
static WCHAR *FromUTF8(const char *str)
{
WCHAR *out = NULL;
int len;
if((len=MultiByteToWideChar(CP_UTF8, 0, str, -1, NULL, 0)) > 0)
{
out = calloc(sizeof(WCHAR), len);
MultiByteToWideChar(CP_UTF8, 0, str, -1, out, len);
}
return out;
}
void *LoadLib(const char *name)
{
HANDLE hdl = NULL;
WCHAR *wname;
wname = FromUTF8(name);
if(!wname)
ERR("Failed to convert UTF-8 filename: \"%s\"\n", name);
else
{
hdl = LoadLibraryW(wname);
free(wname);
}
return hdl;
}
void CloseLib(void *handle)
{ FreeLibrary((HANDLE)handle); }
void *GetSymbol(void *handle, const char *name)
{
void *ret;
ret = (void*)GetProcAddress((HANDLE)handle, name);
if(ret == NULL)
ERR("Failed to load %s\n", name);
return ret;
}
WCHAR *strdupW(const WCHAR *str)
{
const WCHAR *n;
WCHAR *ret;
size_t len;
n = str;
while(*n) n++;
len = n - str;
ret = calloc(sizeof(WCHAR), len+1);
if(ret != NULL)
memcpy(ret, str, sizeof(WCHAR)*len);
return ret;
}
FILE *al_fopen(const char *fname, const char *mode)
{
WCHAR *wname=NULL, *wmode=NULL;
FILE *file = NULL;
wname = FromUTF8(fname);
wmode = FromUTF8(mode);
if(!wname)
ERR("Failed to convert UTF-8 filename: \"%s\"\n", fname);
else if(!wmode)
ERR("Failed to convert UTF-8 mode: \"%s\"\n", mode);
else
file = _wfopen(wname, wmode);
free(wname);
free(wmode);
return file;
}
void al_print(const char *type, const char *func, const char *fmt, ...)
{
char str[1024];
WCHAR *wstr;
va_list ap;
va_start(ap, fmt);
vsnprintf(str, sizeof(str), fmt, ap);
va_end(ap);
str[sizeof(str)-1] = 0;
wstr = FromUTF8(str);
if(!wstr)
fprintf(LogFile, "AL lib: %s %s: <UTF-8 error> %s", type, func, str);
else
{
fprintf(LogFile, "AL lib: %s %s: %ls", type, func, wstr);
free(wstr);
wstr = NULL;
}
fflush(LogFile);
}
static inline int is_slash(int c)
{ return (c == '\\' || c == '/'); }
FILE *OpenDataFile(const char *fname, const char *subdir)
{
static const int ids[2] = { CSIDL_APPDATA, CSIDL_COMMON_APPDATA };
WCHAR *wname=NULL, *wsubdir=NULL;
FILE *f;
size_t i;
wname = FromUTF8(fname);
if(!wname)
{
ERR("Failed to convert UTF-8 filename: \"%s\"\n", fname);
return NULL;
}
/* If the path is absolute, open it directly. */
if(wname[0] != '\0' && wname[1] == ':' && is_slash(wname[2]))
{
f = _wfopen(wname, L"rb");
if(f) TRACE("Opened %s\n", fname);
else WARN("Could not open %s\n", fname);
free(wname);
return f;
}
/* Try the current directory first before the data directories. */
if((f=_wfopen(wname, L"rb")) != NULL)
{
TRACE("Opened %s\n", fname);
free(wname);
return f;
}
wsubdir = FromUTF8(subdir);
if(!wsubdir)
{
ERR("Failed to convert UTF-8 subdir: \"%s\"\n", subdir);
free(wname);
return NULL;
}
for(i = 0;i < COUNTOF(ids);i++)
{
WCHAR buffer[PATH_MAX];
size_t len;
if(SHGetSpecialFolderPathW(NULL, buffer, ids[i], FALSE) == FALSE)
continue;
len = lstrlenW(buffer);
if(len > 0 && is_slash(buffer[len-1]))
buffer[--len] = '\0';
_snwprintf(buffer+len, PATH_MAX-len, L"/%ls/%ls", wsubdir, wname);
len = lstrlenW(buffer);
while(len > 0)
{
--len;
if(buffer[len] == '/')
buffer[len] = '\\';
}
if((f=_wfopen(buffer, L"rb")) != NULL)
{
al_string filepath = AL_STRING_INIT_STATIC();
al_string_copy_wcstr(&filepath, buffer);
TRACE("Opened %s\n", al_string_get_cstr(filepath));
al_string_deinit(&filepath);
break;
}
}
free(wname);
free(wsubdir);
if(f == NULL)
WARN("Could not open %s\\%s\n", subdir, fname);
return f;
}
static size_t strlenW(const WCHAR *str)
{
const WCHAR *end = str;
while(*end) ++end;
return end-str;
}
static const WCHAR *strchrW(const WCHAR *str, WCHAR ch)
{
for(;*str != 0;++str)
{
if(*str == ch)
return str;
}
return NULL;
}
static const WCHAR *strrchrW(const WCHAR *str, WCHAR ch)
{
const WCHAR *ret = NULL;
for(;*str != 0;++str)
{
if(*str == ch)
ret = str;
}
return ret;
}
static const WCHAR *strstrW(const WCHAR *haystack, const WCHAR *needle)
{
size_t len = strlenW(needle);
while(*haystack != 0)
{
if(CompareStringW(GetThreadLocale(), NORM_IGNORECASE,
haystack, len, needle, len) == CSTR_EQUAL)
return haystack;
do {
++haystack;
} while(((*haystack)&0xC000) == 0x8000);
}
return NULL;
}
/* Compares the filename in the find data with the match string. The match
* string may contain the "%r" marker to signifiy a sample rate (really any
* positive integer), "%%" to signify a single '%', or "%s" for a (non-greedy)
* string.
*/
static int MatchFilter(const WCHAR *match, const WIN32_FIND_DATAW *fdata)
{
const WCHAR *name = fdata->cFileName;
int ret = 1;
do {
const WCHAR *p = strchrW(match, '%');
if(!p)
ret = CompareStringW(GetThreadLocale(), NORM_IGNORECASE,
match, -1, name, -1) == CSTR_EQUAL;
else
{
int len = p-match;
ret = lstrlenW(name) >= len;
if(ret)
ret = CompareStringW(GetThreadLocale(), NORM_IGNORECASE,
match, len, name, len) == CSTR_EQUAL;
if(ret)
{
match += len;
name += len;
++p;
if(*p == 'r')
{
unsigned long l = 0;
while(*name >= '0' && *name <= '9')
{
l = l*10 + (*name-'0');
++name;
}
ret = l > 0;
++p;
}
else if(*p == 's')
{
const WCHAR *next = p+1;
if(*next != '\0' && *next != '%')
{
const WCHAR *next_p = strchrW(next, '%');
const WCHAR *m;
if(!next_p)
m = strstrW(name, next);
else
{
WCHAR *tmp = malloc((next_p - next + 1) * 2);
memcpy(tmp, next, (next_p - next) * 2);
tmp[next_p - next] = 0;
m = strstrW(name, tmp);
free(tmp);
}
ret = !!m;
if(ret)
{
size_t l;
if(next_p) l = next_p - next;
else l = strlenW(next);
name = m + l;
next += l;
}
}
p = next;
}
}
}
match = p;
} while(ret && match && *match);
return ret;
}
static void RecurseDirectorySearch(const char *path, const WCHAR *match, vector_al_string *results)
{
WIN32_FIND_DATAW fdata;
const WCHAR *sep, *p;
HANDLE hdl;
if(!match[0])
return;
/* Find the last directory separator and the next '%' marker in the match
* string. */
sep = strrchrW(match, '\\');
p = strchrW(match, '%');
/* If there's no separator, test the files in the specified path against
* the match string, and add the results. */
if(!sep)
{
al_string pathstr = AL_STRING_INIT_STATIC();
WCHAR *wpath;
TRACE("Searching %s for %ls\n", path, match);
al_string_append_cstr(&pathstr, path);
al_string_append_cstr(&pathstr, "\\*.*");
wpath = FromUTF8(al_string_get_cstr(pathstr));
hdl = FindFirstFileW(wpath, &fdata);
if(hdl != INVALID_HANDLE_VALUE)
{
do {
if(MatchFilter(match, &fdata))
{
al_string str = AL_STRING_INIT_STATIC();
al_string_copy_cstr(&str, path);
al_string_append_char(&str, '\\');
al_string_append_wcstr(&str, fdata.cFileName);
TRACE("Got result %s\n", al_string_get_cstr(str));
VECTOR_PUSH_BACK(*results, str);
}
} while(FindNextFileW(hdl, &fdata));
FindClose(hdl);
}
free(wpath);
al_string_deinit(&pathstr);
return;
}
/* If there's no '%' marker, or it's after the final separator, append the
* remaining directories to the path and recurse into it with the remaining
* filename portion. */
if(!p || p-sep >= 0)
{
al_string npath = AL_STRING_INIT_STATIC();
al_string_append_cstr(&npath, path);
al_string_append_char(&npath, '\\');
al_string_append_wrange(&npath, match, sep);
TRACE("Recursing into %s with %ls\n", al_string_get_cstr(npath), sep+1);
RecurseDirectorySearch(al_string_get_cstr(npath), sep+1, results);
al_string_deinit(&npath);
return;
}
/* Look for the last separator before the '%' marker, and the first
* separator after it. */
sep = strchrW(match, '\\');
if(sep-p >= 0) sep = NULL;
for(;;)
{
const WCHAR *next = strchrW(sep?sep+1:match, '\\');
if(next-p < 0)
{
al_string npath = AL_STRING_INIT_STATIC();
WCHAR *nwpath, *nwmatch;
/* Append up to the last directory before the one with a '%'. */
al_string_copy_cstr(&npath, path);
if(sep)
{
al_string_append_char(&npath, '\\');
al_string_append_wrange(&npath, match, sep);
}
al_string_append_cstr(&npath, "\\*.*");
nwpath = FromUTF8(al_string_get_cstr(npath));
/* Take the directory name containing a '%' as a new string to
* match against. */
if(!sep)
{
nwmatch = calloc(2, next-match+1);
memcpy(nwmatch, match, (next-match)*2);
}
else
{
nwmatch = calloc(2, next-(sep+1)+1);
memcpy(nwmatch, sep+1, (next-(sep+1))*2);
}
/* For each matching directory name, recurse into it with the
* remaining string. */
TRACE("Searching %s for %ls\n", al_string_get_cstr(npath), nwmatch);
hdl = FindFirstFileW(nwpath, &fdata);
if(hdl != INVALID_HANDLE_VALUE)
{
do {
if(MatchFilter(nwmatch, &fdata))
{
al_string ndir = AL_STRING_INIT_STATIC();
al_string_copy(&ndir, npath);
al_string_append_char(&ndir, '\\');
al_string_append_wcstr(&ndir, fdata.cFileName);
TRACE("Recursing %s with %ls\n", al_string_get_cstr(ndir), next+1);
RecurseDirectorySearch(al_string_get_cstr(ndir), next+1, results);
al_string_deinit(&ndir);
}
} while(FindNextFileW(hdl, &fdata));
FindClose(hdl);
}
free(nwmatch);
free(nwpath);
al_string_deinit(&npath);
break;
}
sep = next;
}
}
vector_al_string SearchDataFiles(const char *match, const char *subdir)
{
static const int ids[2] = { CSIDL_APPDATA, CSIDL_COMMON_APPDATA };
static RefCount search_lock;
vector_al_string results = VECTOR_INIT_STATIC();
WCHAR *wmatch;
size_t i;
while(ATOMIC_EXCHANGE(uint, &search_lock, 1) == 1)
althrd_yield();
wmatch = FromUTF8(match);
if(!wmatch)
{
ERR("Failed to convert UTF-8 filename: \"%s\"\n", match);
return results;
}
for(i = 0;wmatch[i];++i)
{
if(wmatch[i] == '/')
wmatch[i] = '\\';
}
/* If the path is absolute, use it directly. */
if(isalpha(wmatch[0]) && wmatch[1] == ':' && is_slash(wmatch[2]))
{
char drv[3] = { (char)wmatch[0], ':', 0 };
RecurseDirectorySearch(drv, wmatch+3, &results);
}
else if(wmatch[0] == '\\' && wmatch[1] == '\\' && wmatch[2] == '?' && wmatch[3] == '\\')
RecurseDirectorySearch("\\\\?", wmatch+4, &results);
else
{
al_string path = AL_STRING_INIT_STATIC();
WCHAR *cwdbuf;
/* Search the app-local directory. */
if((cwdbuf=_wgetenv(L"ALSOFT_LOCAL_PATH")) && *cwdbuf != '\0')
{
al_string_copy_wcstr(&path, cwdbuf);
if(is_slash(VECTOR_BACK(path)))
{
VECTOR_POP_BACK(path);
*VECTOR_ITER_END(path) = 0;
}
}
else if(!(cwdbuf=_wgetcwd(NULL, 0)))
al_string_copy_cstr(&path, ".");
else
{
al_string_copy_wcstr(&path, cwdbuf);
if(is_slash(VECTOR_BACK(path)))
{
VECTOR_POP_BACK(path);
*VECTOR_ITER_END(path) = 0;
}
free(cwdbuf);
}
#define FIX_SLASH(i) do { if(*(i) == '/') *(i) = '\\'; } while(0)
VECTOR_FOR_EACH(char, path, FIX_SLASH);
#undef FIX_SLASH
RecurseDirectorySearch(al_string_get_cstr(path), wmatch, &results);
/* Search the local and global data dirs. */
for(i = 0;i < COUNTOF(ids);i++)
{
WCHAR buffer[PATH_MAX];
if(SHGetSpecialFolderPathW(NULL, buffer, ids[i], FALSE) != FALSE)
{
al_string_copy_wcstr(&path, buffer);
if(!is_slash(VECTOR_BACK(path)))
al_string_append_char(&path, '\\');
al_string_append_cstr(&path, subdir);
#define FIX_SLASH(i) do { if(*(i) == '/') *(i) = '\\'; } while(0)
VECTOR_FOR_EACH(char, path, FIX_SLASH);
#undef FIX_SLASH
RecurseDirectorySearch(al_string_get_cstr(path), wmatch, &results);
}
}
al_string_deinit(&path);
}
free(wmatch);
ATOMIC_STORE(&search_lock, 0);
return results;
}
#else
#ifdef HAVE_DLFCN_H
void *LoadLib(const char *name)
{
const char *err;
void *handle;
dlerror();
handle = dlopen(name, RTLD_NOW);
if((err=dlerror()) != NULL)
handle = NULL;
return handle;
}
void CloseLib(void *handle)
{ dlclose(handle); }
void *GetSymbol(void *handle, const char *name)
{
const char *err;
void *sym;
dlerror();
sym = dlsym(handle, name);
if((err=dlerror()) != NULL)
{
WARN("Failed to load %s: %s\n", name, err);
sym = NULL;
}
return sym;
}
#endif /* HAVE_DLFCN_H */
void al_print(const char *type, const char *func, const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
fprintf(LogFile, "AL lib: %s %s: ", type, func);
vfprintf(LogFile, fmt, ap);
va_end(ap);
fflush(LogFile);
}
FILE *OpenDataFile(const char *fname, const char *subdir)
{
char buffer[PATH_MAX] = "";
const char *str, *next;
FILE *f;
if(fname[0] == '/')
{
if((f=al_fopen(fname, "rb")) != NULL)
{
TRACE("Opened %s\n", fname);
return f;
}
WARN("Could not open %s\n", fname);
return NULL;
}
if((f=al_fopen(fname, "rb")) != NULL)
{
TRACE("Opened %s\n", fname);
return f;
}
if((str=getenv("XDG_DATA_HOME")) != NULL && str[0] != '\0')
snprintf(buffer, sizeof(buffer), "%s/%s/%s", str, subdir, fname);
else if((str=getenv("HOME")) != NULL && str[0] != '\0')
snprintf(buffer, sizeof(buffer), "%s/.local/share/%s/%s", str, subdir, fname);
if(buffer[0])
{
if((f=al_fopen(buffer, "rb")) != NULL)
{
TRACE("Opened %s\n", buffer);
return f;
}
}
if((str=getenv("XDG_DATA_DIRS")) == NULL || str[0] == '\0')
str = "/usr/local/share/:/usr/share/";
next = str;
while((str=next) != NULL && str[0] != '\0')
{
size_t len;
next = strchr(str, ':');
if(!next)
len = strlen(str);
else
{
len = next - str;
next++;
}
if(len > sizeof(buffer)-1)
len = sizeof(buffer)-1;
strncpy(buffer, str, len);
buffer[len] = '\0';
snprintf(buffer+len, sizeof(buffer)-len, "/%s/%s", subdir, fname);
if((f=al_fopen(buffer, "rb")) != NULL)
{
TRACE("Opened %s\n", buffer);
return f;
}
}
WARN("Could not open %s/%s\n", subdir, fname);
return NULL;
}
static const char *MatchString;
static int MatchFilter(const struct dirent *dir)
{
const char *match = MatchString;
const char *name = dir->d_name;
int ret = 1;
do {
const char *p = strchr(match, '%');
if(!p)
ret = strcmp(match, name) == 0;
else
{
size_t len = p-match;
ret = strncmp(match, name, len) == 0;
if(ret)
{
match += len;
name += len;
++p;
if(*p == 'r')
{
char *end;
ret = strtoul(name, &end, 10) > 0;
if(ret) name = end;
++p;
}
else if(*p == 's')
{
const char *next = p+1;
if(*next != '\0' && *next != '%')
{
const char *next_p = strchr(next, '%');
const char *m;
if(!next_p)
m = strstr(name, next);
else
{
char *tmp = malloc(next_p - next + 1);
memcpy(tmp, next, next_p - next);
tmp[next_p - next] = 0;
m = strstr(name, tmp);
free(tmp);
}
ret = !!m;
if(ret)
{
size_t l;
if(next_p) l = next_p - next;
else l = strlen(next);
name = m + l;
next += l;
}
}
p = next;
}
}
}
match = p;
} while(ret && match && *match);
return ret;
}
static void RecurseDirectorySearch(const char *path, const char *match, vector_al_string *results)
{
struct dirent **namelist;
char *sep, *p;
int n, i;
if(!match[0])
return;
sep = strrchr(match, '/');
p = strchr(match, '%');
if(!sep)
{
MatchString = match;
TRACE("Searching %s for %s\n", path?path:"/", match);
n = scandir(path?path:"/", &namelist, MatchFilter, alphasort);
if(n >= 0)
{
for(i = 0;i < n;++i)
{
al_string str = AL_STRING_INIT_STATIC();
if(path) al_string_copy_cstr(&str, path);
al_string_append_char(&str, '/');
al_string_append_cstr(&str, namelist[i]->d_name);
TRACE("Got result %s\n", al_string_get_cstr(str));
VECTOR_PUSH_BACK(*results, str);
free(namelist[i]);
}
free(namelist);
}
return;
}
if(!p || p-sep >= 0)
{
al_string npath = AL_STRING_INIT_STATIC();
if(path) al_string_append_cstr(&npath, path);
al_string_append_char(&npath, '/');
al_string_append_range(&npath, match, sep);
TRACE("Recursing into %s with %s\n", al_string_get_cstr(npath), sep+1);
RecurseDirectorySearch(al_string_get_cstr(npath), sep+1, results);
al_string_deinit(&npath);
return;
}
sep = strchr(match, '/');
if(sep-p >= 0) sep = NULL;
for(;;)
{
char *next = strchr(sep?sep+1:match, '/');
if(next-p < 0)
{
al_string npath = AL_STRING_INIT_STATIC();
al_string nmatch = AL_STRING_INIT_STATIC();
if(!sep)
{
al_string_append_cstr(&npath, path?path:"/.");
MatchString = match;
}
else
{
if(path) al_string_append_cstr(&npath, path);
al_string_append_char(&npath, '/');
al_string_append_range(&npath, match, sep);
al_string_append_range(&nmatch, sep+1, next);
MatchString = al_string_get_cstr(nmatch);
}
TRACE("Searching %s for %s\n", al_string_get_cstr(npath), MatchString);
n = scandir(al_string_get_cstr(npath), &namelist, MatchFilter, alphasort);
if(n >= 0)
{
al_string ndir = AL_STRING_INIT_STATIC();
for(i = 0;i < n;++i)
{
al_string_copy(&ndir, npath);
al_string_append_char(&ndir, '/');
al_string_append_cstr(&ndir, namelist[i]->d_name);
free(namelist[i]);
TRACE("Recursing %s with %s\n", al_string_get_cstr(ndir), next+1);
RecurseDirectorySearch(al_string_get_cstr(ndir), next+1, results);
}
al_string_deinit(&ndir);
free(namelist);
}
al_string_deinit(&nmatch);
al_string_deinit(&npath);
break;
}
sep = next;
}
}
vector_al_string SearchDataFiles(const char *match, const char *subdir)
{
static RefCount search_lock;
vector_al_string results = VECTOR_INIT_STATIC();
while(ATOMIC_EXCHANGE(uint, &search_lock, 1) == 1)
althrd_yield();
if(match[0] == '/')
RecurseDirectorySearch(NULL, match+1, &results);
else
{
al_string path = AL_STRING_INIT_STATIC();
const char *str, *next;
char cwdbuf[PATH_MAX];
/* Search the app-local directory. */
if((str=getenv("ALSOFT_LOCAL_PATH")) && *str != '\0')
{
strncpy(cwdbuf, str, sizeof(cwdbuf)-1);
cwdbuf[sizeof(cwdbuf)-1] = '\0';
}
else if(!getcwd(cwdbuf, sizeof(cwdbuf)))
strcpy(cwdbuf, ".");
RecurseDirectorySearch(cwdbuf, match, &results);
// Search local data dir
if((str=getenv("XDG_DATA_HOME")) != NULL && str[0] != '\0')
{
al_string_append_cstr(&path, str);
al_string_append_char(&path, '/');
al_string_append_cstr(&path, subdir);
}
else if((str=getenv("HOME")) != NULL && str[0] != '\0')
{
al_string_append_cstr(&path, str);
al_string_append_cstr(&path, "/.local/share/");
al_string_append_cstr(&path, subdir);
}
if(!al_string_empty(path))
RecurseDirectorySearch(al_string_get_cstr(path), match, &results);
// Search global data dirs
if((str=getenv("XDG_DATA_DIRS")) == NULL || str[0] == '\0')
str = "/usr/local/share/:/usr/share/";
next = str;
while((str=next) != NULL && str[0] != '\0')
{
next = strchr(str, ':');
if(!next)
al_string_copy_cstr(&path, str);
else
{
al_string_clear(&path);
al_string_append_range(&path, str, next);
++next;
}
if(!al_string_empty(path))
{
al_string_append_char(&path, '/');
al_string_append_cstr(&path, subdir);
RecurseDirectorySearch(al_string_get_cstr(path), match, &results);
}
}
al_string_deinit(&path);
}
ATOMIC_STORE(&search_lock, 0);
return results;
}
#endif
void SetRTPriority(void)
{
ALboolean failed = AL_FALSE;
#ifdef _WIN32
if(RTPrioLevel > 0)
failed = !SetThreadPriority(GetCurrentThread(), THREAD_PRIORITY_TIME_CRITICAL);
#elif defined(HAVE_PTHREAD_SETSCHEDPARAM) && !defined(__OpenBSD__)
if(RTPrioLevel > 0)
{
struct sched_param param;
/* Use the minimum real-time priority possible for now (on Linux this
* should be 1 for SCHED_RR) */
param.sched_priority = sched_get_priority_min(SCHED_RR);
failed = !!pthread_setschedparam(pthread_self(), SCHED_RR, &param);
}
#else
/* Real-time priority not available */
failed = (RTPrioLevel>0);
#endif
if(failed)
ERR("Failed to set priority level for thread\n");
}
ALboolean vector_reserve(char *ptr, size_t base_size, size_t obj_size, size_t obj_count, ALboolean exact)
{
vector_ *vecptr = (vector_*)ptr;
if((*vecptr ? (*vecptr)->Capacity : 0) < obj_count)
{
size_t old_size = (*vecptr ? (*vecptr)->Size : 0);
void *temp;
/* Use the next power-of-2 size if we don't need to allocate the exact
* amount. This is preferred when regularly increasing the vector since
* it means fewer reallocations. Though it means it also wastes some
* memory. */
if(exact == AL_FALSE && obj_count < INT_MAX)
obj_count = NextPowerOf2((ALuint)obj_count);
/* Need to be explicit with the caller type's base size, because it
* could have extra padding before the start of the array (that is,
* sizeof(*vector_) may not equal base_size). */
temp = realloc(*vecptr, base_size + obj_size*obj_count);
if(temp == NULL) return AL_FALSE;
*vecptr = temp;
(*vecptr)->Capacity = obj_count;
(*vecptr)->Size = old_size;
}
return AL_TRUE;
}
ALboolean vector_resize(char *ptr, size_t base_size, size_t obj_size, size_t obj_count)
{
vector_ *vecptr = (vector_*)ptr;
if(*vecptr || obj_count > 0)
{
if(!vector_reserve((char*)vecptr, base_size, obj_size, obj_count, AL_TRUE))
return AL_FALSE;
(*vecptr)->Size = obj_count;
}
return AL_TRUE;
}
ALboolean vector_insert(char *ptr, size_t base_size, size_t obj_size, void *ins_pos, const void *datstart, const void *datend)
{
vector_ *vecptr = (vector_*)ptr;
if(datstart != datend)
{
ptrdiff_t ins_elem = (*vecptr ? ((char*)ins_pos - ((char*)(*vecptr) + base_size)) :
((char*)ins_pos - (char*)NULL)) /
obj_size;
ptrdiff_t numins = ((const char*)datend - (const char*)datstart) / obj_size;
assert(numins > 0);
if((size_t)numins + VECTOR_SIZE(*vecptr) < (size_t)numins ||
!vector_reserve((char*)vecptr, base_size, obj_size, VECTOR_SIZE(*vecptr)+numins, AL_TRUE))
return AL_FALSE;
/* NOTE: ins_pos may have been invalidated if *vecptr moved. Use ins_elem instead. */
if((size_t)ins_elem < (*vecptr)->Size)
{
memmove((char*)(*vecptr) + base_size + ((ins_elem+numins)*obj_size),
(char*)(*vecptr) + base_size + ((ins_elem )*obj_size),
((*vecptr)->Size-ins_elem)*obj_size);
}
memcpy((char*)(*vecptr) + base_size + (ins_elem*obj_size),
datstart, numins*obj_size);
(*vecptr)->Size += numins;
}
return AL_TRUE;
}
extern inline void al_string_deinit(al_string *str);
extern inline size_t al_string_length(const_al_string str);
extern inline ALboolean al_string_empty(const_al_string str);
extern inline const al_string_char_type *al_string_get_cstr(const_al_string str);
void al_string_clear(al_string *str)
{
/* Reserve one more character than the total size of the string. This is to
* ensure we have space to add a null terminator in the string data so it
* can be used as a C-style string. */
VECTOR_RESERVE(*str, 1);
VECTOR_RESIZE(*str, 0);
*VECTOR_ITER_END(*str) = 0;
}
static inline int al_string_compare(const al_string_char_type *str1, size_t str1len,
const al_string_char_type *str2, size_t str2len)
{
size_t complen = (str1len < str2len) ? str1len : str2len;
int ret = memcmp(str1, str2, complen);
if(ret == 0)
{
if(str1len > str2len) return 1;
if(str1len < str2len) return -1;
}
return ret;
}
int al_string_cmp(const_al_string str1, const_al_string str2)
{
return al_string_compare(&VECTOR_FRONT(str1), al_string_length(str1),
&VECTOR_FRONT(str2), al_string_length(str2));
}
int al_string_cmp_cstr(const_al_string str1, const al_string_char_type *str2)
{
return al_string_compare(&VECTOR_FRONT(str1), al_string_length(str1),
str2, strlen(str2));
}
void al_string_copy(al_string *str, const_al_string from)
{
size_t len = al_string_length(from);
VECTOR_RESERVE(*str, len+1);
VECTOR_RESIZE(*str, 0);
VECTOR_INSERT(*str, VECTOR_ITER_END(*str), VECTOR_ITER_BEGIN(from), VECTOR_ITER_BEGIN(from)+len);
*VECTOR_ITER_END(*str) = 0;
}
void al_string_copy_cstr(al_string *str, const al_string_char_type *from)
{
size_t len = strlen(from);
VECTOR_RESERVE(*str, len+1);
VECTOR_RESIZE(*str, 0);
VECTOR_INSERT(*str, VECTOR_ITER_END(*str), from, from+len);
*VECTOR_ITER_END(*str) = 0;
}
void al_string_append_char(al_string *str, const al_string_char_type c)
{
VECTOR_RESERVE(*str, al_string_length(*str)+2);
VECTOR_PUSH_BACK(*str, c);
*VECTOR_ITER_END(*str) = 0;
}
void al_string_append_cstr(al_string *str, const al_string_char_type *from)
{
size_t len = strlen(from);
if(len != 0)
{
VECTOR_RESERVE(*str, al_string_length(*str)+len+1);
VECTOR_INSERT(*str, VECTOR_ITER_END(*str), from, from+len);
*VECTOR_ITER_END(*str) = 0;
}
}
void al_string_append_range(al_string *str, const al_string_char_type *from, const al_string_char_type *to)
{
if(to != from)
{
VECTOR_RESERVE(*str, al_string_length(*str)+(to-from)+1);
VECTOR_INSERT(*str, VECTOR_ITER_END(*str), from, to);
*VECTOR_ITER_END(*str) = 0;
}
}
#ifdef _WIN32
void al_string_copy_wcstr(al_string *str, const wchar_t *from)
{
int len;
if((len=WideCharToMultiByte(CP_UTF8, 0, from, -1, NULL, 0, NULL, NULL)) > 0)
{
VECTOR_RESERVE(*str, len);
VECTOR_RESIZE(*str, len-1);
WideCharToMultiByte(CP_UTF8, 0, from, -1, &VECTOR_FRONT(*str), len, NULL, NULL);
*VECTOR_ITER_END(*str) = 0;
}
}
void al_string_append_wcstr(al_string *str, const wchar_t *from)
{
int len;
if((len=WideCharToMultiByte(CP_UTF8, 0, from, -1, NULL, 0, NULL, NULL)) > 0)
{
size_t strlen = al_string_length(*str);
VECTOR_RESERVE(*str, strlen+len);
VECTOR_RESIZE(*str, strlen+len-1);
WideCharToMultiByte(CP_UTF8, 0, from, -1, &VECTOR_FRONT(*str) + strlen, len, NULL, NULL);
*VECTOR_ITER_END(*str) = 0;
}
}
void al_string_append_wrange(al_string *str, const wchar_t *from, const wchar_t *to)
{
int len;
if((len=WideCharToMultiByte(CP_UTF8, 0, from, (int)(to-from), NULL, 0, NULL, NULL)) > 0)
{
size_t strlen = al_string_length(*str);
VECTOR_RESERVE(*str, strlen+len+1);
VECTOR_RESIZE(*str, strlen+len);
WideCharToMultiByte(CP_UTF8, 0, from, (int)(to-from), &VECTOR_FRONT(*str) + strlen, len+1, NULL, NULL);
*VECTOR_ITER_END(*str) = 0;
}
}
#endif
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