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aviplay.c
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aviplay.c
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/* -*- mode: c; tab-width: 4; c-basic-offset: 4; c-file-style: "linux" -*- */
//
// Copyright (c) 2017, SDLPAL development team.
// All rights reserved.
//
// This file is part of SDLPAL.
//
// SDLPAL is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
//
// aviplay.c
//
// Simple quick and dirty AVI player specially designed for PAL Win95.
//
/*
* Portions based on:
*
* Microsoft Video-1 Decoder
* Copyright (C) 2003 The FFmpeg project
*
* This file is part of FFmpeg.
*
* FFmpeg is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* FFmpeg 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Microsoft Video-1 Decoder by Mike Melanson ([email protected])
* For more information about the MS Video-1 format, visit:
* http://www.pcisys.net/~melanson/codecs/
*/
#include "util.h"
#include "audio.h"
#include "aviplay.h"
#include "input.h"
#include "video.h"
#include "riff.h"
#include "palcfg.h"
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
# define SwapStruct32(v, s) \
for(int s##_i = 0; s##_i < sizeof(s) / sizeof(uint32_t); s##_i++) \
((uint32_t *)&v)[s##_i] = SDL_Swap32(((uint32_t *)&v)[s##_i])
# define SwapStructFields(v, f1, f2) v.f1 ^= v.f2, v.f2 ^= v.f1, v.f1 ^= v.f2
#else
# define SwapStruct32(...)
# define SwapStructFields(...)
#endif
#define HAS_FLAG(v, f) (((v) & (f)) == (f))
#define MAX_AVI_BLOCK_LEVELS 3
#define FLAGS_AVI_MAIN_HEADER 0x01
#define FLAGS_AVI_VIDEO_FORMAT 0x02
#define FLAGS_AVI_AUDIO_FORMAT 0x04
#define FLAGS_AVI_ALL_HEADERS 0x07
typedef struct AVIPlayState
{
SDL_mutex *selfMutex;
volatile FILE *fp; // pointer to the AVI file
SDL_Surface *surface; // video buffer
long lVideoEndPos;
uint32_t dwMicroSecPerFrame; // microseconds per frame
uint32_t dwBufferSize;
SDL_AudioCVT cvt;
uint8_t *pChunkBuffer;
uint8_t *pbAudioBuf; // ring buffer for audio data
uint32_t dwAudBufLen;
uint32_t dwAudioReadPos;
uint32_t dwAudioWritePos;
BOOL fInterleaved;
} AVIPlayState;
static AVIPlayState gAVIPlayState;
static AVIPlayState *
PAL_ReadAVIInfo(
FILE *fp,
AVIPlayState *avi
)
{
RIFFHeader hdr;
AVIMainHeader aviHeader;
AVIStreamHeader streamHeader = { 0 };
BitmapInfoHeader bih;
WAVEFormatEx wfe;
uint32_t block_type[MAX_AVI_BLOCK_LEVELS];
long next_pos[MAX_AVI_BLOCK_LEVELS];
long file_length = (fseek(fp, 0, SEEK_END), ftell(fp)), pos = 0;
int current_level = 0, flags = 0;
//
// Check RIFF file header
//
fseek(fp, 0, SEEK_SET);
if(fread(&hdr, sizeof(RIFFHeader), 1, fp) != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "No RIFF header!");
return NULL;
}
hdr.signature = SDL_SwapLE32(hdr.signature);
hdr.type = SDL_SwapLE32(hdr.type);
hdr.length = SDL_SwapLE32(hdr.length);
if (hdr.signature != RIFF_RIFF || hdr.type != RIFF_AVI ||
hdr.length > (uint32_t)(file_length - sizeof(RIFFHeader) + sizeof(uint32_t)))
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Illegal AVI RIFF header!");
return NULL;
}
else
{
next_pos[current_level] = (pos += sizeof(RIFFHeader)) + hdr.length;
block_type[current_level++] = hdr.type;
}
while (!feof(fp) && current_level > 0)
{
RIFFBlockHeader block;
fseek(fp, pos, SEEK_SET);
if (fread(&block.type, sizeof(RIFFChunkHeader), 1, fp) != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Illegal AVI RIFF LIST/Chunk header!");
return NULL;
}
else
{
block.type = SDL_SwapLE32(block.type);
block.length = SDL_SwapLE32(block.length);
pos += sizeof(RIFFChunkHeader);
}
//
// Read further if current block is a 'LIST'
//
if (block.type == AVI_LIST)
{
if (fread(&block.list.type, sizeof(RIFFListHeader) - sizeof(RIFFChunkHeader), 1, fp) != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Illegal AVI RIFF LIST header!");
return NULL;
}
else
{
block.list.type = SDL_SwapLE32(block.list.type);
}
}
switch (block_type[current_level - 1])
{
case RIFF_AVI:
//
// RIFF_AVI only appears at top-level
//
if (current_level != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "RIFF 'AVI ' block appears at non-top level!");
return NULL;
}
//
// For 'LIST' block, should read its contents
//
if (block.type == AVI_LIST)
{
next_pos[current_level] = pos + block.length;
block_type[current_level++] = block.list.type;
pos += sizeof(RIFFListHeader) - sizeof(RIFFChunkHeader);
continue;
}
//
// Ignore any block types other than 'LIST'
//
break;
case AVI_hdrl:
//
// AVI_hdrl only appears at second-level
//
if (current_level != 2)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "RIFF 'hdrl' block does not appear at second level!");
return NULL;
}
switch (block.type)
{
case AVI_avih:
//
// The main header should only appear once
//
if (HAS_FLAG(flags, FLAGS_AVI_MAIN_HEADER))
{
UTIL_LogOutput(LOGLEVEL_WARNING, "More than one RIFF 'avih' blocks appear!");
return NULL;
}
if (fread(&aviHeader, sizeof(AVIMainHeader), 1, fp) != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "RIFF 'avih' blocks corrupted!");
return NULL;
}
SwapStruct32(aviHeader, AVIMainHeader);
flags |= FLAGS_AVI_MAIN_HEADER;
if (aviHeader.dwWidth == 0 || aviHeader.dwHeight == 0)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Invalid AVI frame size!");
return NULL;
}
if (HAS_FLAG(aviHeader.dwFlags, AVIF_MUSTUSEINDEX))
{
UTIL_LogOutput(LOGLEVEL_WARNING, "No built-in support for index-based AVI!");
return NULL;
}
break;
case AVI_LIST:
if (block.list.type == AVI_strl)
{
next_pos[current_level] = pos + block.length;
block_type[current_level++] = block.list.type;
pos += sizeof(RIFFListHeader) - sizeof(RIFFChunkHeader);
continue;
}
break;
}
break;
case AVI_movi:
//
// AVI_movi only appears at second-level and all headers should be read before
//
if (current_level != 2 || !HAS_FLAG(flags, FLAGS_AVI_ALL_HEADERS))
{
UTIL_LogOutput(LOGLEVEL_WARNING, "RIFF 'movi' block does not appear at second level or the AVI does not contain both video & audio!");
return NULL;
}
//
// Stop parsing here as actual movie data starts
//
fseek(fp, pos - sizeof(RIFFChunkHeader), SEEK_SET);
avi->lVideoEndPos = next_pos[current_level - 1];
avi->dwMicroSecPerFrame = aviHeader.dwMicroSecPerFrame;
//
// Create surface
//
avi->surface = SDL_CreateRGBSurface(SDL_SWSURFACE,
bih.biWidth, bih.biHeight, bih.biBitCount,
0x7C00, 0x03E0, 0x001F, 0x0000);
//
// Build SDL audio conversion info
//
SDL_BuildAudioCVT(&avi->cvt,
(wfe.format.wBitsPerSample == 8) ? AUDIO_U8 : AUDIO_S16LSB,
wfe.format.nChannels, wfe.format.nSamplesPerSec,
AUDIO_S16SYS,
AUDIO_GetDeviceSpec()->channels,
AUDIO_GetDeviceSpec()->freq);
//
// Allocate chunk buffer
// Since SDL converts audio in-place, we need to make the buffer large enough to hold converted data
//
avi->dwBufferSize = aviHeader.dwSuggestedBufferSize * avi->cvt.len_mult + sizeof(RIFFChunkHeader);
if (avi->dwBufferSize > 0)
avi->pChunkBuffer = UTIL_malloc(avi->dwBufferSize);
else
avi->pChunkBuffer = NULL;
//
// Allocate audio buffer, the buffer size is large enough to hold two-second audio data
//
avi->dwAudBufLen = max(wfe.format.nAvgBytesPerSec * 2, aviHeader.dwSuggestedBufferSize) * avi->cvt.len_mult;
avi->pbAudioBuf = (uint8_t *)UTIL_malloc(avi->dwAudBufLen);
avi->dwAudioReadPos = avi->dwAudioWritePos = 0;
return avi;
case AVI_strl:
//
// AVI_strl only appears at third-level
//
if (current_level != 3)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "RIFF 'hdrl' block does not appear at third level!");
return NULL;
}
switch (block.type)
{
case AVI_strh:
// strh should be the first block of the list
if (streamHeader.fccType != 0)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "RIFF 'strh' block does not appear at first!");
return NULL;
}
if (fread(&streamHeader, sizeof(AVIStreamHeader), 1, fp) != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "RIFF 'hdrl' block data corrupted!");
return NULL;
}
SwapStruct32(streamHeader, AVIStreamHeader);
SwapStructFields(streamHeader, wLanguage, wPriority);
SwapStructFields(streamHeader, rcFrame[0], rcFrame[1]);
SwapStructFields(streamHeader, rcFrame[2], rcFrame[3]);
break;
case AVI_strf:
//
// AVI_strf should follow AVI_strh
// Accept only one video stream & one audio stream
//
switch (streamHeader.fccType)
{
case AVI_vids:
if (HAS_FLAG(flags, FLAGS_AVI_VIDEO_FORMAT) || (streamHeader.fccHandler != VIDS_MSVC && streamHeader.fccHandler != VIDS_msvc))
{
UTIL_LogOutput(LOGLEVEL_WARNING, "The AVI uses video codec with no built-in support, or video codec appeared before!");
return NULL;
}
if (fread(&bih, sizeof(BitmapInfoHeader), 1, fp) != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Video codec information corrupted!");
return NULL;
}
SwapStruct32(bih, BitmapInfoHeader);
SwapStructFields(bih, biPlanes, biBitCount);
if (bih.biBitCount != 16)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Built-in AVI playing support only 16-bit video!");
return NULL;
}
flags |= FLAGS_AVI_VIDEO_FORMAT;
break;
case AVI_auds:
if (HAS_FLAG(flags, FLAGS_AVI_AUDIO_FORMAT) || streamHeader.fccHandler != 0)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "The AVI uses audio codec with no built-in support, or audio codec appeared before!");
return NULL;
}
if (fread(&wfe, sizeof(WAVEFormatPCM) + sizeof(uint16_t), 1, fp) != 1)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Audio codec information corrupted!");
return NULL;
}
SwapStruct32(wfe, WAVEFormatPCM);
SwapStructFields(wfe.format, wFormatTag, nChannels);
SwapStructFields(wfe.format, nBlockAlign, wBitsPerSample);
flags |= FLAGS_AVI_AUDIO_FORMAT;
break;
}
//
// One strf per strh, reset the fccType here to prepare for next strh
//
streamHeader.fccType = 0;
break;
}
}
//
// Goto next block
//
pos += block.length;
//
// Check if it is the end of the parent block
//
while (current_level > 0 && pos == next_pos[current_level - 1])
{
current_level--;
}
//
// Returns NULL if block is illegaly formed
//
if (current_level > 0 && pos > next_pos[current_level - 1])
{
return NULL;
}
}
return NULL;
}
static RIFFChunk *
PAL_ReadDataChunk(
FILE *fp,
long endPos,
void *userbuf,
uint32_t buflen,
int mult
)
{
RIFFBlockHeader hdr;
RIFFChunk *chunk = NULL;
long pos = feof(fp) ? endPos : ftell(fp);
while (chunk == NULL && pos < endPos)
{
if (fread(&hdr, sizeof(RIFFChunkHeader), 1, fp) != 1) return NULL;
hdr.type = SDL_SwapLE32(hdr.type);
hdr.length = SDL_SwapLE32(hdr.length);
pos += sizeof(RIFFChunkHeader);
switch (hdr.type)
{
case AVI_01wb:
case AVI_00db:
case AVI_00dc:
//
// got actual audio/video frame
//
if (userbuf && buflen >= sizeof(RIFFChunkHeader) + hdr.length)
chunk = (RIFFChunk *)userbuf;
else
chunk = (RIFFChunk *)UTIL_malloc(sizeof(RIFFChunkHeader) + hdr.length * (hdr.type == AVI_01wb ? mult : 1));
if (fread(chunk->data, hdr.length, 1, fp) != 1)
{
free(chunk);
return NULL;
}
chunk->header = hdr.chunk;
break;
case AVI_LIST:
//
// Only 'rec ' LIST is allowed here, if not, skip it completely
//
if (fread(&hdr.list.type, sizeof(uint32_t), 1, fp) != 1) return NULL;
hdr.list.type = SDL_SwapLE32(hdr.list.type);
if (hdr.list.type == AVI_rec) break;
case AVI_JUNK:
default:
//
// Ignore unrecognized chunks
//
fseek(fp, pos += hdr.length, SEEK_SET);
}
}
return chunk;
}
static void
PAL_AVIFeedAudio(
AVIPlayState *avi,
uint8_t *buffer,
uint32_t size
)
{
//
// Convert audio in-place at the original buffer
// This makes filling process much more simpler
//
avi->cvt.buf = buffer;
avi->cvt.len = size;
SDL_ConvertAudio(&avi->cvt);
size = avi->cvt.len_cvt;
SDL_mutexP(avi->selfMutex);
while (size > 0)
{
uint32_t feed_size = (avi->dwAudioWritePos + size > avi->dwAudBufLen) ? avi->dwAudBufLen - avi->dwAudioWritePos : size;
memcpy(avi->pbAudioBuf + avi->dwAudioWritePos, buffer, feed_size);
avi->dwAudioWritePos = (avi->dwAudioWritePos + feed_size) % avi->dwAudBufLen;
buffer += feed_size;
size -= feed_size;
}
SDL_mutexV(avi->selfMutex);
}
void
PAL_AVIInit(
void
)
{
gAVIPlayState.selfMutex = SDL_CreateMutex();
}
void
PAL_AVIShutdown(
void
)
{
SDL_DestroyMutex(gAVIPlayState.selfMutex);
}
static void
PAL_RenderAVIFrameToSurface(
SDL_Surface *lpSurface,
const RIFFChunk *lpChunk
)
{
#define AV_RL16(x) ((((const uint8_t *)(x))[1] << 8) | ((const uint8_t *)(x))[0])
#define CHECK_STREAM_PTR(n) if ((stream_ptr + n) > lpChunk->header.length) { return; }
/* decoding parameters */
uint16_t *pixels = (unsigned short *)lpSurface->pixels;
uint32_t stream_ptr = 0, skip_blocks = 0;
uint32_t stride = lpSurface->pitch >> 1;
const int block_inc = 4;
const int row_dec = stride + 4;
const int blocks_wide = lpSurface->w >> 2; // width in 4x4 blocks
const int blocks_high = lpSurface->h >> 2; // height in 4x4 blocks
uint32_t total_blocks = blocks_wide * blocks_high;
for (int block_y = blocks_high; block_y > 0; block_y--)
{
int block_ptr = ((block_y * 4) - 1) * stride;
for (int block_x = blocks_wide; block_x > 0; block_x--)
{
// check if this block should be skipped
if (skip_blocks)
{
block_ptr += block_inc;
skip_blocks--;
total_blocks--;
continue;
}
int pixel_ptr = block_ptr;
// get the next two bytes in the encoded data stream
CHECK_STREAM_PTR(2);
uint8_t byte_a = lpChunk->data[stream_ptr++];
uint8_t byte_b = lpChunk->data[stream_ptr++];
// check if the decode is finished
if ((byte_a == 0) && (byte_b == 0) && (total_blocks == 0))
{
return;
}
else if ((byte_b & 0xFC) == 0x84)
{
// skip code, but don't count the current block
skip_blocks = ((byte_b - 0x84) << 8) + byte_a - 1;
}
else if (byte_b < 0x80)
{
// 2- or 8-color encoding modes
uint16_t flags = (byte_b << 8) | byte_a;
uint16_t colors[8];
CHECK_STREAM_PTR(4);
colors[0] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
colors[1] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
if (colors[0] & 0x8000)
{
// 8-color encoding
CHECK_STREAM_PTR(12);
colors[2] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
colors[3] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
colors[4] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
colors[5] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
colors[6] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
colors[7] = AV_RL16(&lpChunk->data[stream_ptr]);
stream_ptr += 2;
for (int pixel_y = 0; pixel_y < 4; pixel_y++)
{
for (int pixel_x = 0; pixel_x < 4; pixel_x++, flags >>= 1)
{
pixels[pixel_ptr++] =
colors[((pixel_y & 0x2) << 1) +
(pixel_x & 0x2) + ((flags & 0x1) ^ 1)];
}
pixel_ptr -= row_dec;
}
}
else
{
// 2-color encoding
for (int pixel_y = 0; pixel_y < 4; pixel_y++)
{
for (int pixel_x = 0; pixel_x < 4; pixel_x++, flags >>= 1)
{
pixels[pixel_ptr++] = colors[(flags & 0x1) ^ 1];
}
pixel_ptr -= row_dec;
}
}
}
else
{
// otherwise, it's a 1-color block
uint16_t color = (byte_b << 8) | byte_a;
for (int pixel_y = 0; pixel_y < 4; pixel_y++)
{
for (int pixel_x = 0; pixel_x < 4; pixel_x++)
{
pixels[pixel_ptr++] = color;
}
pixel_ptr -= row_dec;
}
}
block_ptr += block_inc;
total_blocks--;
}
}
}
BOOL
PAL_PlayAVI(
LPCSTR lpszPath
)
{
if (!gConfig.fEnableAviPlay) return FALSE;
//
// Open the file
//
FILE *fp = UTIL_OpenFile(lpszPath);
if (fp == NULL)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Cannot open AVI file: %s!\n", lpszPath);
return FALSE;
}
AVIPlayState *avi = PAL_ReadAVIInfo(fp, &gAVIPlayState);
if (avi == NULL)
{
UTIL_LogOutput(LOGLEVEL_WARNING, "Failed to parse AVI file or its format not supported!\n");
fclose(fp);
return FALSE;
}
PAL_ClearKeyState();
VIDEO_ChangeDepth(avi->surface->format->BitsPerPixel);
BOOL fEndPlay = FALSE;
RIFFChunk *buf = (RIFFChunk *)avi->pChunkBuffer;
uint32_t len = avi->dwBufferSize;
uint32_t dwMicroSecChange = 0;
uint32_t dwCurrentTime = SDL_GetTicks();
uint32_t dwNextFrameTime;
uint32_t dwFrameStartTime = dwCurrentTime;
while (!fEndPlay)
{
RIFFChunk *chunk = PAL_ReadDataChunk(fp, avi->lVideoEndPos, buf, len, avi->cvt.len_mult);
if (chunk == NULL) break;
switch (chunk->header.type)
{
case AVI_00dc:
case AVI_00db:
//
// Video frame
//
dwNextFrameTime = dwFrameStartTime + (avi->dwMicroSecPerFrame / 1000);
dwMicroSecChange += avi->dwMicroSecPerFrame % 1000;
dwNextFrameTime += dwMicroSecChange / 1000;
dwMicroSecChange %= 1000;
PAL_RenderAVIFrameToSurface(avi->surface, chunk);
VIDEO_DrawSurfaceToScreen(avi->surface);
dwCurrentTime = SDL_GetTicks();
// Check input states here
UTIL_Delay(dwCurrentTime >= dwNextFrameTime ? 1 : dwNextFrameTime - dwCurrentTime);
dwFrameStartTime = SDL_GetTicks();
if (g_InputState.dwKeyPress & (kKeyMenu | kKeySearch))
{
fEndPlay = TRUE;
}
break;
case AVI_01wb:
//
// Audio data, just convert it & feed into buffer
//
PAL_AVIFeedAudio(avi, chunk->data, chunk->header.length);
//
// Only enable AVI audio when data are available
// We do not lock on the 'if' because only this function changes 'avi->fp'
//
if (!avi->fp)
{
SDL_mutexP(avi->selfMutex);
avi->fp = fp;
SDL_mutexV(avi->selfMutex);
}
break;
}
if (chunk != buf) free(chunk);
}
SDL_mutexP(avi->selfMutex);
avi->fp = NULL;
SDL_mutexV(avi->selfMutex);
if (fEndPlay)
{
//
// Simulate a short delay (like the original game)
//
UTIL_Delay(500);
}
VIDEO_ChangeDepth(0);
if (avi->surface != NULL)
{
SDL_FreeSurface(avi->surface);
avi->surface = NULL;
}
if (avi->pChunkBuffer)
{
free(avi->pChunkBuffer);
avi->pChunkBuffer = NULL;
}
if (avi->pbAudioBuf)
{
free(avi->pbAudioBuf);
avi->pbAudioBuf = NULL;
}
fclose(fp);
return TRUE;
}
VOID SDLCALL
AVI_FillAudioBuffer(
void *udata,
uint8_t *stream,
int len
)
{
AVIPlayState *avi = (AVIPlayState *)udata;
SDL_mutexP(avi->selfMutex);
while (avi->fp != NULL && len > 0 && avi->dwAudioWritePos != avi->dwAudioReadPos)
{
uint32_t fill_size = (avi->dwAudioReadPos + len > avi->dwAudBufLen) ? avi->dwAudBufLen - avi->dwAudioReadPos : len;
if (avi->dwAudioWritePos > avi->dwAudioReadPos &&
fill_size > avi->dwAudioWritePos - avi->dwAudioReadPos)
{
fill_size = avi->dwAudioWritePos - avi->dwAudioReadPos;
}
memcpy(stream, avi->pbAudioBuf + avi->dwAudioReadPos, fill_size);
avi->dwAudioReadPos = (avi->dwAudioReadPos + fill_size) % avi->dwAudBufLen;
stream += fill_size;
len -= fill_size;
}
SDL_mutexV(avi->selfMutex);
}
void *
AVI_GetPlayState(
void
)
{
return &gAVIPlayState;
}