Merge commit '613a37eca4c7b8eefceaa3e0231c23ad090ca94f'

* commit '613a37eca4c7b8eefceaa3e0231c23ad090ca94f':
  ape: 3.80-3.92 decoding support
  h264: Remove an unused variable

Conflicts:
	libavcodec/apedec.c
	libavformat/ape.c

Merged-by: Michael Niedermayer <michaelni@gmx.at>
This commit is contained in:
Michael Niedermayer 2013-03-26 13:14:16 +01:00
commit 795b911bd8
2 changed files with 481 additions and 25 deletions

View File

@ -27,6 +27,8 @@
#include "dsputil.h"
#include "bytestream.h"
#include "internal.h"
#include "get_bits.h"
#include "unary.h"
/**
* @file
@ -123,6 +125,8 @@ typedef struct APEPredictor {
int32_t coeffsA[2][4]; ///< adaption coefficients
int32_t coeffsB[2][5]; ///< adaption coefficients
int32_t historybuffer[HISTORY_SIZE + PREDICTOR_SIZE];
unsigned int sample_pos;
} APEPredictor;
/** Decoder context */
@ -154,6 +158,7 @@ typedef struct APEContext {
APERice riceX; ///< rice code parameters for the second channel
APERice riceY; ///< rice code parameters for the first channel
APEFilter filters[APE_FILTER_LEVELS][2]; ///< filters used for reconstruction
GetBitContext gb;
uint8_t *data; ///< current frame data
uint8_t *data_end; ///< frame data end
@ -171,11 +176,18 @@ typedef struct APEContext {
static void ape_apply_filters(APEContext *ctx, int32_t *decoded0,
int32_t *decoded1, int count);
static void entropy_decode_mono_0000(APEContext *ctx, int blockstodecode);
static void entropy_decode_stereo_0000(APEContext *ctx, int blockstodecode);
static void entropy_decode_mono_3860(APEContext *ctx, int blockstodecode);
static void entropy_decode_stereo_3860(APEContext *ctx, int blockstodecode);
static void entropy_decode_mono_3900(APEContext *ctx, int blockstodecode);
static void entropy_decode_stereo_3900(APEContext *ctx, int blockstodecode);
static void entropy_decode_stereo_3930(APEContext *ctx, int blockstodecode);
static void entropy_decode_mono_3990(APEContext *ctx, int blockstodecode);
static void entropy_decode_stereo_3990(APEContext *ctx, int blockstodecode);
static void predictor_decode_mono_3800(APEContext *ctx, int count);
static void predictor_decode_stereo_3800(APEContext *ctx, int count);
static void predictor_decode_mono_3930(APEContext *ctx, int count);
static void predictor_decode_stereo_3930(APEContext *ctx, int count);
static void predictor_decode_mono_3950(APEContext *ctx, int count);
@ -235,7 +247,9 @@ static av_cold int ape_decode_init(AVCodecContext *avctx)
av_log(avctx, AV_LOG_DEBUG, "Compression Level: %d - Flags: %d\n",
s->compression_level, s->flags);
if (s->compression_level % 1000 || s->compression_level > COMPRESSION_LEVEL_INSANE || !s->compression_level) {
if (s->compression_level % 1000 || s->compression_level > COMPRESSION_LEVEL_INSANE ||
!s->compression_level ||
(s->fileversion < 3930 && s->compression_level == COMPRESSION_LEVEL_INSANE)) {
av_log(avctx, AV_LOG_ERROR, "Incorrect compression level %d\n",
s->compression_level);
return AVERROR_INVALIDDATA;
@ -249,15 +263,27 @@ static av_cold int ape_decode_init(AVCodecContext *avctx)
filter_alloc_fail);
}
if (s->fileversion < 3990) {
if (s->fileversion < 3860) {
s->entropy_decode_mono = entropy_decode_mono_0000;
s->entropy_decode_stereo = entropy_decode_stereo_0000;
} else if (s->fileversion < 3900) {
s->entropy_decode_mono = entropy_decode_mono_3860;
s->entropy_decode_stereo = entropy_decode_stereo_3860;
} else if (s->fileversion < 3930) {
s->entropy_decode_mono = entropy_decode_mono_3900;
s->entropy_decode_stereo = entropy_decode_stereo_3900;
} else if (s->fileversion < 3990) {
s->entropy_decode_mono = entropy_decode_mono_3900;
s->entropy_decode_stereo = entropy_decode_stereo_3930;
} else {
s->entropy_decode_mono = entropy_decode_mono_3990;
s->entropy_decode_stereo = entropy_decode_stereo_3990;
}
if (s->fileversion < 3950) {
if (s->fileversion < 3930) {
s->predictor_decode_mono = predictor_decode_mono_3800;
s->predictor_decode_stereo = predictor_decode_stereo_3800;
} else if (s->fileversion < 3950) {
s->predictor_decode_mono = predictor_decode_mono_3930;
s->predictor_decode_stereo = predictor_decode_stereo_3930;
} else {
@ -435,6 +461,50 @@ static inline void update_rice(APERice *rice, unsigned int x)
rice->k++;
}
static inline int get_rice_ook(GetBitContext *gb, int k)
{
unsigned int x;
x = get_unary(gb, 1, get_bits_left(gb));
if (k)
x = (x << k) | get_bits(gb, k);
return x;
}
static inline int ape_decode_value_3860(APEContext *ctx, GetBitContext *gb,
APERice *rice)
{
unsigned int x, overflow;
overflow = get_unary(gb, 1, get_bits_left(gb));
if (ctx->fileversion > 3880) {
while (overflow >= 16) {
overflow -= 16;
rice->k += 4;
}
}
if (!rice->k)
x = overflow;
else
x = (overflow << rice->k) + get_bits(gb, rice->k);
rice->ksum += x - (rice->ksum + 8 >> 4);
if (rice->ksum < (rice->k ? 1 << (rice->k + 4) : 0))
rice->k--;
else if (rice->ksum >= (1 << (rice->k + 5)) && rice->k < 24)
rice->k++;
/* Convert to signed */
if (x & 1)
return (x >> 1) + 1;
else
return -(x >> 1);
}
static inline int ape_decode_value_3900(APEContext *ctx, APERice *rice)
{
unsigned int x, overflow;
@ -448,7 +518,7 @@ static inline int ape_decode_value_3900(APEContext *ctx, APERice *rice)
} else
tmpk = (rice->k < 1) ? 0 : rice->k - 1;
if (tmpk <= 16)
if (tmpk <= 16 || ctx->fileversion < 3910)
x = range_decode_bits(ctx, tmpk);
else if (tmpk <= 32) {
x = range_decode_bits(ctx, 16);
@ -514,6 +584,84 @@ static inline int ape_decode_value_3990(APEContext *ctx, APERice *rice)
return -(x >> 1);
}
static void decode_array_0000(APEContext *ctx, GetBitContext *gb,
int32_t *out, APERice *rice, int blockstodecode)
{
int i;
int ksummax, ksummin;
rice->ksum = 0;
for (i = 0; i < 5; i++) {
out[i] = get_rice_ook(&ctx->gb, 10);
rice->ksum += out[i];
}
rice->k = av_log2(rice->ksum / 10) + 1;
for (; i < 64; i++) {
out[i] = get_rice_ook(&ctx->gb, rice->k);
rice->ksum += out[i];
rice->k = av_log2(rice->ksum / ((i + 1) * 2)) + 1;
}
ksummax = 1 << rice->k + 7;
ksummin = rice->k ? (1 << rice->k + 6) : 0;
for (; i < blockstodecode; i++) {
out[i] = get_rice_ook(&ctx->gb, rice->k);
rice->ksum += out[i] - out[i - 64];
while (rice->ksum < ksummin) {
rice->k--;
ksummin = rice->k ? ksummin >> 1 : 0;
ksummax >>= 1;
}
while (rice->ksum >= ksummax) {
rice->k++;
if (rice->k > 24)
return;
ksummax <<= 1;
ksummin = ksummin ? ksummin << 1 : 128;
}
}
for (i = 0; i < blockstodecode; i++) {
if (out[i] & 1)
out[i] = (out[i] >> 1) + 1;
else
out[i] = -(out[i] >> 1);
}
}
static void entropy_decode_mono_0000(APEContext *ctx, int blockstodecode)
{
decode_array_0000(ctx, &ctx->gb, ctx->decoded[0], &ctx->riceY,
blockstodecode);
}
static void entropy_decode_stereo_0000(APEContext *ctx, int blockstodecode)
{
decode_array_0000(ctx, &ctx->gb, ctx->decoded[0], &ctx->riceY,
blockstodecode);
decode_array_0000(ctx, &ctx->gb, ctx->decoded[1], &ctx->riceX,
blockstodecode);
}
static void entropy_decode_mono_3860(APEContext *ctx, int blockstodecode)
{
int32_t *decoded0 = ctx->decoded[0];
while (blockstodecode--)
*decoded0++ = ape_decode_value_3860(ctx, &ctx->gb, &ctx->riceY);
}
static void entropy_decode_stereo_3860(APEContext *ctx, int blockstodecode)
{
int32_t *decoded0 = ctx->decoded[0];
int32_t *decoded1 = ctx->decoded[1];
int blocks = blockstodecode;
while (blockstodecode--)
*decoded0++ = ape_decode_value_3860(ctx, &ctx->gb, &ctx->riceY);
while (blocks--)
*decoded1++ = ape_decode_value_3860(ctx, &ctx->gb, &ctx->riceX);
}
static void entropy_decode_mono_3900(APEContext *ctx, int blockstodecode)
{
int32_t *decoded0 = ctx->decoded[0];
@ -523,6 +671,22 @@ static void entropy_decode_mono_3900(APEContext *ctx, int blockstodecode)
}
static void entropy_decode_stereo_3900(APEContext *ctx, int blockstodecode)
{
int32_t *decoded0 = ctx->decoded[0];
int32_t *decoded1 = ctx->decoded[1];
int blocks = blockstodecode;
while (blockstodecode--)
*decoded0++ = ape_decode_value_3900(ctx, &ctx->riceY);
range_dec_normalize(ctx);
// because of some implementation peculiarities we need to backpedal here
ctx->ptr -= 1;
range_start_decoding(ctx);
while (blocks--)
*decoded1++ = ape_decode_value_3900(ctx, &ctx->riceX);
}
static void entropy_decode_stereo_3930(APEContext *ctx, int blockstodecode)
{
int32_t *decoded0 = ctx->decoded[0];
int32_t *decoded1 = ctx->decoded[1];
@ -555,9 +719,13 @@ static void entropy_decode_stereo_3990(APEContext *ctx, int blockstodecode)
static int init_entropy_decoder(APEContext *ctx)
{
/* Read the CRC */
if (ctx->data_end - ctx->ptr < 6)
return AVERROR_INVALIDDATA;
ctx->CRC = bytestream_get_be32(&ctx->ptr);
if (ctx->fileversion >= 3900) {
if (ctx->data_end - ctx->ptr < 6)
return AVERROR_INVALIDDATA;
ctx->CRC = bytestream_get_be32(&ctx->ptr);
} else {
ctx->CRC = get_bits_long(&ctx->gb, 32);
}
/* Read the frame flags if they exist */
ctx->frameflags = 0;
@ -575,15 +743,29 @@ static int init_entropy_decoder(APEContext *ctx)
ctx->riceY.k = 10;
ctx->riceY.ksum = (1 << ctx->riceY.k) * 16;
/* The first 8 bits of input are ignored. */
ctx->ptr++;
if (ctx->fileversion >= 3900) {
/* The first 8 bits of input are ignored. */
ctx->ptr++;
range_start_decoding(ctx);
range_start_decoding(ctx);
}
return 0;
}
static const int32_t initial_coeffs[4] = {
static const int32_t initial_coeffs_fast_3320[1] = {
375,
};
static const int32_t initial_coeffs_a_3800[3] = {
64, 115, 64,
};
static const int32_t initial_coeffs_b_3800[2] = {
740, 0
};
static const int32_t initial_coeffs_3930[4] = {
360, 317, -109, 98
};
@ -596,13 +778,35 @@ static void init_predictor_decoder(APEContext *ctx)
p->buf = p->historybuffer;
/* Initialize and zero the coefficients */
memcpy(p->coeffsA[0], initial_coeffs, sizeof(initial_coeffs));
memcpy(p->coeffsA[1], initial_coeffs, sizeof(initial_coeffs));
if (ctx->fileversion < 3930) {
if (ctx->compression_level == COMPRESSION_LEVEL_FAST) {
memcpy(p->coeffsA[0], initial_coeffs_fast_3320,
sizeof(initial_coeffs_fast_3320));
memcpy(p->coeffsA[1], initial_coeffs_fast_3320,
sizeof(initial_coeffs_fast_3320));
} else {
memcpy(p->coeffsA[0], initial_coeffs_a_3800,
sizeof(initial_coeffs_a_3800));
memcpy(p->coeffsA[1], initial_coeffs_a_3800,
sizeof(initial_coeffs_a_3800));
}
} else {
memcpy(p->coeffsA[0], initial_coeffs_3930, sizeof(initial_coeffs_3930));
memcpy(p->coeffsA[1], initial_coeffs_3930, sizeof(initial_coeffs_3930));
}
memset(p->coeffsB, 0, sizeof(p->coeffsB));
if (ctx->fileversion < 3930) {
memcpy(p->coeffsB[0], initial_coeffs_b_3800,
sizeof(initial_coeffs_b_3800));
memcpy(p->coeffsB[1], initial_coeffs_b_3800,
sizeof(initial_coeffs_b_3800));
}
p->filterA[0] = p->filterA[1] = 0;
p->filterB[0] = p->filterB[1] = 0;
p->lastA[0] = p->lastA[1] = 0;
p->sample_pos = 0;
}
/** Get inverse sign of integer (-1 for positive, 1 for negative and 0 for zero) */
@ -610,6 +814,224 @@ static inline int APESIGN(int32_t x) {
return (x < 0) - (x > 0);
}
static av_always_inline int filter_fast_3320(APEPredictor *p,
const int decoded, const int filter,
const int delayA)
{
int32_t predictionA;
p->buf[delayA] = p->lastA[filter];
if (p->sample_pos < 3) {
p->lastA[filter] = decoded;
p->filterA[filter] = decoded;
return decoded;
}
predictionA = p->buf[delayA] * 2 - p->buf[delayA - 1];
p->lastA[filter] = decoded + (predictionA * p->coeffsA[filter][0] >> 9);
if ((decoded ^ predictionA) > 0)
p->coeffsA[filter][0]++;
else
p->coeffsA[filter][0]--;
p->filterA[filter] += p->lastA[filter];
return p->filterA[filter];
}
static av_always_inline int filter_3800(APEPredictor *p,
const int decoded, const int filter,
const int delayA, const int delayB,
const int start, const int shift)
{
int32_t predictionA, predictionB, sign;
int32_t d0, d1, d2, d3, d4;
p->buf[delayA] = p->lastA[filter];
p->buf[delayB] = p->filterB[filter];
if (p->sample_pos < start) {
predictionA = decoded + p->filterA[filter];
p->lastA[filter] = decoded;
p->filterB[filter] = decoded;
p->filterA[filter] = predictionA;
return predictionA;
}
d2 = p->buf[delayA];
d1 = (p->buf[delayA] - p->buf[delayA - 1]) << 1;
d0 = p->buf[delayA] + ((p->buf[delayA - 2] - p->buf[delayA - 1]) << 3);
d3 = p->buf[delayB] * 2 - p->buf[delayB - 1];
d4 = p->buf[delayB];
predictionA = d0 * p->coeffsA[filter][0] +
d1 * p->coeffsA[filter][1] +
d2 * p->coeffsA[filter][2];
sign = APESIGN(decoded);
p->coeffsA[filter][0] += (((d0 >> 30) & 2) - 1) * sign;
p->coeffsA[filter][1] += (((d1 >> 28) & 8) - 4) * sign;
p->coeffsA[filter][2] += (((d2 >> 28) & 8) - 4) * sign;
predictionB = d3 * p->coeffsB[filter][0] -
d4 * p->coeffsB[filter][1];
p->lastA[filter] = decoded + (predictionA >> 11);
sign = APESIGN(p->lastA[filter]);
p->coeffsB[filter][0] += (((d3 >> 29) & 4) - 2) * sign;
p->coeffsB[filter][1] -= (((d4 >> 30) & 2) - 1) * sign;
p->filterB[filter] = p->lastA[filter] + (predictionB >> shift);
p->filterA[filter] = p->filterB[filter] + ((p->filterA[filter] * 31) >> 5);
return p->filterA[filter];
}
static void long_filter_high_3800(int32_t *buffer, int order, int shift,
int32_t *coeffs, int32_t *delay, int length)
{
int i, j;
int32_t dotprod, sign;
memset(coeffs, 0, order * sizeof(*coeffs));
for (i = 0; i < order; i++)
delay[i] = buffer[i];
for (i = order; i < length; i++) {
dotprod = 0;
sign = APESIGN(buffer[i]);
for (j = 0; j < order; j++) {
dotprod += delay[j] * coeffs[j];
coeffs[j] -= (((delay[j] >> 30) & 2) - 1) * sign;
}
buffer[i] -= dotprod >> shift;
for (j = 0; j < order - 1; j++)
delay[j] = delay[j + 1];
delay[order - 1] = buffer[i];
}
}
static void long_filter_ehigh_3830(int32_t *buffer, int length)
{
int i, j;
int32_t dotprod, sign;
int32_t coeffs[8], delay[8];
memset(coeffs, 0, sizeof(coeffs));
memset(delay, 0, sizeof(delay));
for (i = 0; i < length; i++) {
dotprod = 0;
sign = APESIGN(buffer[i]);
for (j = 7; j >= 0; j--) {
dotprod += delay[j] * coeffs[j];
coeffs[j] -= (((delay[j] >> 30) & 2) - 1) * sign;
}
for (j = 7; j > 0; j--)
delay[j] = delay[j - 1];
delay[0] = buffer[i];
buffer[i] -= dotprod >> 9;
}
}
static void predictor_decode_stereo_3800(APEContext *ctx, int count)
{
APEPredictor *p = &ctx->predictor;
int32_t *decoded0 = ctx->decoded[0];
int32_t *decoded1 = ctx->decoded[1];
int32_t coeffs[256], delay[256];
int start = 4, shift = 10;
if (ctx->compression_level == COMPRESSION_LEVEL_HIGH) {
start = 16;
long_filter_high_3800(decoded0, 16, 9, coeffs, delay, count);
long_filter_high_3800(decoded1, 16, 9, coeffs, delay, count);
} else if (ctx->compression_level == COMPRESSION_LEVEL_EXTRA_HIGH) {
int order = 128, shift2 = 11;
if (ctx->fileversion >= 3830) {
order <<= 1;
shift++;
shift2++;
long_filter_ehigh_3830(decoded0 + order, count - order);
long_filter_ehigh_3830(decoded1 + order, count - order);
}
start = order;
long_filter_high_3800(decoded0, order, shift2, coeffs, delay, count);
long_filter_high_3800(decoded1, order, shift2, coeffs, delay, count);
}
while (count--) {
int X = *decoded0, Y = *decoded1;
if (ctx->compression_level == COMPRESSION_LEVEL_FAST) {
*decoded0 = filter_fast_3320(p, Y, 0, YDELAYA);
decoded0++;
*decoded1 = filter_fast_3320(p, X, 1, XDELAYA);
decoded1++;
} else {
*decoded0 = filter_3800(p, Y, 0, YDELAYA, YDELAYB,
start, shift);
decoded0++;
*decoded1 = filter_3800(p, X, 1, XDELAYA, XDELAYB,
start, shift);
decoded1++;
}
/* Combined */
p->buf++;
p->sample_pos++;
/* Have we filled the history buffer? */
if (p->buf == p->historybuffer + HISTORY_SIZE) {
memmove(p->historybuffer, p->buf,
PREDICTOR_SIZE * sizeof(*p->historybuffer));
p->buf = p->historybuffer;
}
}
}
static void predictor_decode_mono_3800(APEContext *ctx, int count)
{
APEPredictor *p = &ctx->predictor;
int32_t *decoded0 = ctx->decoded[0];
int32_t coeffs[256], delay[256];
int start = 4, shift = 10;
if (ctx->compression_level == COMPRESSION_LEVEL_HIGH) {
start = 16;
long_filter_high_3800(decoded0, 16, 9, coeffs, delay, count);
} else if (ctx->compression_level == COMPRESSION_LEVEL_EXTRA_HIGH) {
int order = 128, shift2 = 11;
if (ctx->fileversion >= 3830) {
order <<= 1;
shift++;
shift2++;
long_filter_ehigh_3830(decoded0 + order, count - order);
}
start = order;
long_filter_high_3800(decoded0, order, shift2, coeffs, delay, count);
}
while (count--) {
if (ctx->compression_level == COMPRESSION_LEVEL_FAST) {
*decoded0 = filter_fast_3320(p, *decoded0, 0, YDELAYA);
decoded0++;
} else {
*decoded0 = filter_3800(p, *decoded0, 0, YDELAYA, YDELAYB,
start, shift);
decoded0++;
}
/* Combined */
p->buf++;
p->sample_pos++;
/* Have we filled the history buffer? */
if (p->buf == p->historybuffer + HISTORY_SIZE) {
memmove(p->historybuffer, p->buf,
PREDICTOR_SIZE * sizeof(*p->historybuffer));
p->buf = p->historybuffer;
}
}
}
static av_always_inline int predictor_update_3930(APEPredictor *p,
const int decoded, const int filter,
const int delayA)
@ -1015,16 +1437,24 @@ static int ape_decode_frame(AVCodecContext *avctx, void *data,
nblocks = bytestream_get_be32(&s->ptr);
offset = bytestream_get_be32(&s->ptr);
if (offset > 3) {
av_log(avctx, AV_LOG_ERROR, "Incorrect offset passed\n");
s->data = NULL;
return AVERROR_INVALIDDATA;
if (s->fileversion >= 3900) {
if (offset > 3) {
av_log(avctx, AV_LOG_ERROR, "Incorrect offset passed\n");
s->data = NULL;
return AVERROR_INVALIDDATA;
}
if (s->data_end - s->ptr < offset) {
av_log(avctx, AV_LOG_ERROR, "Packet is too small\n");
return AVERROR_INVALIDDATA;
}
s->ptr += offset;
} else {
init_get_bits(&s->gb, s->ptr, (s->data_end - s->ptr) * 8);
if (s->fileversion > 3800)
skip_bits_long(&s->gb, offset * 8);
else
skip_bits_long(&s->gb, offset);
}
if (s->data_end - s->ptr < offset) {
av_log(avctx, AV_LOG_ERROR, "Packet is too small\n");
return AVERROR_INVALIDDATA;
}
s->ptr += offset;
if (!nblocks || nblocks > INT_MAX) {
av_log(avctx, AV_LOG_ERROR, "Invalid sample count: %u.\n", nblocks);
@ -1045,6 +1475,10 @@ static int ape_decode_frame(AVCodecContext *avctx, void *data,
}
blockstodecode = FFMIN(s->blocks_per_loop, s->samples);
// for old files coefficients were not interleaved,
// so we need to decode all of them at once
if (s->fileversion < 3930)
blockstodecode = s->samples;
/* reallocate decoded sample buffer if needed */
av_fast_malloc(&s->decoded_buffer, &s->decoded_size,

View File

@ -28,7 +28,7 @@
#include "apetag.h"
/* The earliest and latest file formats supported by this library */
#define APE_MIN_VERSION 3930
#define APE_MIN_VERSION 3800
#define APE_MAX_VERSION 3990
#define MAC_FORMAT_FLAG_8_BIT 1 // is 8-bit [OBSOLETE]
@ -81,6 +81,7 @@ typedef struct {
/* Seektable */
uint32_t *seektable;
uint8_t *bittable;
} APEContext;
static int ape_probe(AVProbeData * p)
@ -128,9 +129,13 @@ static void ape_dumpinfo(AVFormatContext * s, APEContext * ape_ctx)
} else {
for (i = 0; i < ape_ctx->seektablelength / sizeof(uint32_t); i++) {
if (i < ape_ctx->totalframes - 1) {
av_log(s, AV_LOG_DEBUG, "%8d %"PRIu32" (%"PRIu32" bytes)\n",
av_log(s, AV_LOG_DEBUG, "%8d %"PRIu32" (%"PRIu32" bytes)",
i, ape_ctx->seektable[i],
ape_ctx->seektable[i + 1] - ape_ctx->seektable[i]);
if (s->bittable)
av_log(s, AV_LOG_DEBUG, " + %2d bits\n",
ape_ctx->bittable[i]);
av_log(s, AV_LOG_DEBUG, "\n");
} else {
av_log(s, AV_LOG_DEBUG, "%8d %"PRIu32"\n", i, ape_ctx->seektable[i]);
}
@ -263,6 +268,8 @@ static int ape_read_header(AVFormatContext * s)
if(!ape->frames)
return AVERROR(ENOMEM);
ape->firstframe = ape->junklength + ape->descriptorlength + ape->headerlength + ape->seektablelength + ape->wavheaderlength;
if (ape->fileversion < 3810)
ape->firstframe += ape->totalframes;
ape->currentframe = 0;
@ -276,6 +283,13 @@ static int ape_read_header(AVFormatContext * s)
return AVERROR(ENOMEM);
for (i = 0; i < ape->seektablelength / sizeof(uint32_t); i++)
ape->seektable[i] = avio_rl32(pb);
if (ape->fileversion < 3810) {
ape->bittable = av_malloc(ape->totalframes);
if (!ape->bittable)
return AVERROR(ENOMEM);
for (i = 0; i < ape->totalframes; i++)
ape->bittable[i] = avio_r8(pb);
}
}else{
av_log(s, AV_LOG_ERROR, "Missing seektable\n");
return AVERROR_INVALIDDATA;
@ -309,7 +323,14 @@ static int ape_read_header(AVFormatContext * s)
}
ape->frames[i].size = (ape->frames[i].size + 3) & ~3;
}
if (ape->fileversion < 3810) {
for (i = 0; i < ape->totalframes; i++) {
if (i < ape->totalframes - 1 && ape->bittable[i + 1])
ape->frames[i].size += 4;
ape->frames[i].skip <<= 3;
ape->frames[i].skip += ape->bittable[i];
}
}
ape_dumpinfo(s, ape);
@ -412,6 +433,7 @@ static int ape_read_close(AVFormatContext * s)
av_freep(&ape->frames);
av_freep(&ape->seektable);
av_freep(&ape->bittable);
return 0;
}