1cabdff1aSopenharmony_ci/* 2cabdff1aSopenharmony_ci * Wmapro compatible decoder 3cabdff1aSopenharmony_ci * Copyright (c) 2007 Baptiste Coudurier, Benjamin Larsson, Ulion 4cabdff1aSopenharmony_ci * Copyright (c) 2008 - 2011 Sascha Sommer, Benjamin Larsson 5cabdff1aSopenharmony_ci * 6cabdff1aSopenharmony_ci * This file is part of FFmpeg. 7cabdff1aSopenharmony_ci * 8cabdff1aSopenharmony_ci * FFmpeg is free software; you can redistribute it and/or 9cabdff1aSopenharmony_ci * modify it under the terms of the GNU Lesser General Public 10cabdff1aSopenharmony_ci * License as published by the Free Software Foundation; either 11cabdff1aSopenharmony_ci * version 2.1 of the License, or (at your option) any later version. 12cabdff1aSopenharmony_ci * 13cabdff1aSopenharmony_ci * FFmpeg is distributed in the hope that it will be useful, 14cabdff1aSopenharmony_ci * but WITHOUT ANY WARRANTY; without even the implied warranty of 15cabdff1aSopenharmony_ci * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 16cabdff1aSopenharmony_ci * Lesser General Public License for more details. 17cabdff1aSopenharmony_ci * 18cabdff1aSopenharmony_ci * You should have received a copy of the GNU Lesser General Public 19cabdff1aSopenharmony_ci * License along with FFmpeg; if not, write to the Free Software 20cabdff1aSopenharmony_ci * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA 21cabdff1aSopenharmony_ci */ 22cabdff1aSopenharmony_ci 23cabdff1aSopenharmony_ci/** 24cabdff1aSopenharmony_ci * @file 25cabdff1aSopenharmony_ci * @brief wmapro decoder implementation 26cabdff1aSopenharmony_ci * Wmapro is an MDCT based codec comparable to wma standard or AAC. 27cabdff1aSopenharmony_ci * The decoding therefore consists of the following steps: 28cabdff1aSopenharmony_ci * - bitstream decoding 29cabdff1aSopenharmony_ci * - reconstruction of per-channel data 30cabdff1aSopenharmony_ci * - rescaling and inverse quantization 31cabdff1aSopenharmony_ci * - IMDCT 32cabdff1aSopenharmony_ci * - windowing and overlapp-add 33cabdff1aSopenharmony_ci * 34cabdff1aSopenharmony_ci * The compressed wmapro bitstream is split into individual packets. 35cabdff1aSopenharmony_ci * Every such packet contains one or more wma frames. 36cabdff1aSopenharmony_ci * The compressed frames may have a variable length and frames may 37cabdff1aSopenharmony_ci * cross packet boundaries. 38cabdff1aSopenharmony_ci * Common to all wmapro frames is the number of samples that are stored in 39cabdff1aSopenharmony_ci * a frame. 40cabdff1aSopenharmony_ci * The number of samples and a few other decode flags are stored 41cabdff1aSopenharmony_ci * as extradata that has to be passed to the decoder. 42cabdff1aSopenharmony_ci * 43cabdff1aSopenharmony_ci * The wmapro frames themselves are again split into a variable number of 44cabdff1aSopenharmony_ci * subframes. Every subframe contains the data for 2^N time domain samples 45cabdff1aSopenharmony_ci * where N varies between 7 and 12. 46cabdff1aSopenharmony_ci * 47cabdff1aSopenharmony_ci * Example wmapro bitstream (in samples): 48cabdff1aSopenharmony_ci * 49cabdff1aSopenharmony_ci * || packet 0 || packet 1 || packet 2 packets 50cabdff1aSopenharmony_ci * --------------------------------------------------- 51cabdff1aSopenharmony_ci * || frame 0 || frame 1 || frame 2 || frames 52cabdff1aSopenharmony_ci * --------------------------------------------------- 53cabdff1aSopenharmony_ci * || | | || | | | || || subframes of channel 0 54cabdff1aSopenharmony_ci * --------------------------------------------------- 55cabdff1aSopenharmony_ci * || | | || | | | || || subframes of channel 1 56cabdff1aSopenharmony_ci * --------------------------------------------------- 57cabdff1aSopenharmony_ci * 58cabdff1aSopenharmony_ci * The frame layouts for the individual channels of a wma frame does not need 59cabdff1aSopenharmony_ci * to be the same. 60cabdff1aSopenharmony_ci * 61cabdff1aSopenharmony_ci * However, if the offsets and lengths of several subframes of a frame are the 62cabdff1aSopenharmony_ci * same, the subframes of the channels can be grouped. 63cabdff1aSopenharmony_ci * Every group may then use special coding techniques like M/S stereo coding 64cabdff1aSopenharmony_ci * to improve the compression ratio. These channel transformations do not 65cabdff1aSopenharmony_ci * need to be applied to a whole subframe. Instead, they can also work on 66cabdff1aSopenharmony_ci * individual scale factor bands (see below). 67cabdff1aSopenharmony_ci * The coefficients that carry the audio signal in the frequency domain 68cabdff1aSopenharmony_ci * are transmitted as huffman-coded vectors with 4, 2 and 1 elements. 69cabdff1aSopenharmony_ci * In addition to that, the encoder can switch to a runlevel coding scheme 70cabdff1aSopenharmony_ci * by transmitting subframe_length / 128 zero coefficients. 71cabdff1aSopenharmony_ci * 72cabdff1aSopenharmony_ci * Before the audio signal can be converted to the time domain, the 73cabdff1aSopenharmony_ci * coefficients have to be rescaled and inverse quantized. 74cabdff1aSopenharmony_ci * A subframe is therefore split into several scale factor bands that get 75cabdff1aSopenharmony_ci * scaled individually. 76cabdff1aSopenharmony_ci * Scale factors are submitted for every frame but they might be shared 77cabdff1aSopenharmony_ci * between the subframes of a channel. Scale factors are initially DPCM-coded. 78cabdff1aSopenharmony_ci * Once scale factors are shared, the differences are transmitted as runlevel 79cabdff1aSopenharmony_ci * codes. 80cabdff1aSopenharmony_ci * Every subframe length and offset combination in the frame layout shares a 81cabdff1aSopenharmony_ci * common quantization factor that can be adjusted for every channel by a 82cabdff1aSopenharmony_ci * modifier. 83cabdff1aSopenharmony_ci * After the inverse quantization, the coefficients get processed by an IMDCT. 84cabdff1aSopenharmony_ci * The resulting values are then windowed with a sine window and the first half 85cabdff1aSopenharmony_ci * of the values are added to the second half of the output from the previous 86cabdff1aSopenharmony_ci * subframe in order to reconstruct the output samples. 87cabdff1aSopenharmony_ci */ 88cabdff1aSopenharmony_ci 89cabdff1aSopenharmony_ci#include <inttypes.h> 90cabdff1aSopenharmony_ci 91cabdff1aSopenharmony_ci#include "libavutil/audio_fifo.h" 92cabdff1aSopenharmony_ci#include "libavutil/ffmath.h" 93cabdff1aSopenharmony_ci#include "libavutil/float_dsp.h" 94cabdff1aSopenharmony_ci#include "libavutil/intfloat.h" 95cabdff1aSopenharmony_ci#include "libavutil/intreadwrite.h" 96cabdff1aSopenharmony_ci#include "libavutil/mem_internal.h" 97cabdff1aSopenharmony_ci#include "libavutil/thread.h" 98cabdff1aSopenharmony_ci 99cabdff1aSopenharmony_ci#include "avcodec.h" 100cabdff1aSopenharmony_ci#include "codec_internal.h" 101cabdff1aSopenharmony_ci#include "internal.h" 102cabdff1aSopenharmony_ci#include "get_bits.h" 103cabdff1aSopenharmony_ci#include "put_bits.h" 104cabdff1aSopenharmony_ci#include "wmaprodata.h" 105cabdff1aSopenharmony_ci#include "sinewin.h" 106cabdff1aSopenharmony_ci#include "wma.h" 107cabdff1aSopenharmony_ci#include "wma_common.h" 108cabdff1aSopenharmony_ci 109cabdff1aSopenharmony_ci/** current decoder limitations */ 110cabdff1aSopenharmony_ci#define WMAPRO_MAX_CHANNELS 8 ///< max number of handled channels 111cabdff1aSopenharmony_ci#define MAX_SUBFRAMES 32 ///< max number of subframes per channel 112cabdff1aSopenharmony_ci#define MAX_BANDS 29 ///< max number of scale factor bands 113cabdff1aSopenharmony_ci#define MAX_FRAMESIZE 32768 ///< maximum compressed frame size 114cabdff1aSopenharmony_ci#define XMA_MAX_STREAMS 8 115cabdff1aSopenharmony_ci#define XMA_MAX_CHANNELS_STREAM 2 116cabdff1aSopenharmony_ci#define XMA_MAX_CHANNELS (XMA_MAX_STREAMS * XMA_MAX_CHANNELS_STREAM) 117cabdff1aSopenharmony_ci 118cabdff1aSopenharmony_ci#define WMAPRO_BLOCK_MIN_BITS 6 ///< log2 of min block size 119cabdff1aSopenharmony_ci#define WMAPRO_BLOCK_MAX_BITS 13 ///< log2 of max block size 120cabdff1aSopenharmony_ci#define WMAPRO_BLOCK_MIN_SIZE (1 << WMAPRO_BLOCK_MIN_BITS) ///< minimum block size 121cabdff1aSopenharmony_ci#define WMAPRO_BLOCK_MAX_SIZE (1 << WMAPRO_BLOCK_MAX_BITS) ///< maximum block size 122cabdff1aSopenharmony_ci#define WMAPRO_BLOCK_SIZES (WMAPRO_BLOCK_MAX_BITS - WMAPRO_BLOCK_MIN_BITS + 1) ///< possible block sizes 123cabdff1aSopenharmony_ci 124cabdff1aSopenharmony_ci 125cabdff1aSopenharmony_ci#define VLCBITS 9 126cabdff1aSopenharmony_ci#define SCALEVLCBITS 8 127cabdff1aSopenharmony_ci#define VEC4MAXDEPTH ((HUFF_VEC4_MAXBITS+VLCBITS-1)/VLCBITS) 128cabdff1aSopenharmony_ci#define VEC2MAXDEPTH ((HUFF_VEC2_MAXBITS+VLCBITS-1)/VLCBITS) 129cabdff1aSopenharmony_ci#define VEC1MAXDEPTH ((HUFF_VEC1_MAXBITS+VLCBITS-1)/VLCBITS) 130cabdff1aSopenharmony_ci#define SCALEMAXDEPTH ((HUFF_SCALE_MAXBITS+SCALEVLCBITS-1)/SCALEVLCBITS) 131cabdff1aSopenharmony_ci#define SCALERLMAXDEPTH ((HUFF_SCALE_RL_MAXBITS+VLCBITS-1)/VLCBITS) 132cabdff1aSopenharmony_ci 133cabdff1aSopenharmony_cistatic VLC sf_vlc; ///< scale factor DPCM vlc 134cabdff1aSopenharmony_cistatic VLC sf_rl_vlc; ///< scale factor run length vlc 135cabdff1aSopenharmony_cistatic VLC vec4_vlc; ///< 4 coefficients per symbol 136cabdff1aSopenharmony_cistatic VLC vec2_vlc; ///< 2 coefficients per symbol 137cabdff1aSopenharmony_cistatic VLC vec1_vlc; ///< 1 coefficient per symbol 138cabdff1aSopenharmony_cistatic VLC coef_vlc[2]; ///< coefficient run length vlc codes 139cabdff1aSopenharmony_cistatic float sin64[33]; ///< sine table for decorrelation 140cabdff1aSopenharmony_ci 141cabdff1aSopenharmony_ci/** 142cabdff1aSopenharmony_ci * @brief frame specific decoder context for a single channel 143cabdff1aSopenharmony_ci */ 144cabdff1aSopenharmony_citypedef struct WMAProChannelCtx { 145cabdff1aSopenharmony_ci int16_t prev_block_len; ///< length of the previous block 146cabdff1aSopenharmony_ci uint8_t transmit_coefs; 147cabdff1aSopenharmony_ci uint8_t num_subframes; 148cabdff1aSopenharmony_ci uint16_t subframe_len[MAX_SUBFRAMES]; ///< subframe length in samples 149cabdff1aSopenharmony_ci uint16_t subframe_offset[MAX_SUBFRAMES]; ///< subframe positions in the current frame 150cabdff1aSopenharmony_ci uint8_t cur_subframe; ///< current subframe number 151cabdff1aSopenharmony_ci uint16_t decoded_samples; ///< number of already processed samples 152cabdff1aSopenharmony_ci uint8_t grouped; ///< channel is part of a group 153cabdff1aSopenharmony_ci int quant_step; ///< quantization step for the current subframe 154cabdff1aSopenharmony_ci int8_t reuse_sf; ///< share scale factors between subframes 155cabdff1aSopenharmony_ci int8_t scale_factor_step; ///< scaling step for the current subframe 156cabdff1aSopenharmony_ci int max_scale_factor; ///< maximum scale factor for the current subframe 157cabdff1aSopenharmony_ci int saved_scale_factors[2][MAX_BANDS]; ///< resampled and (previously) transmitted scale factor values 158cabdff1aSopenharmony_ci int8_t scale_factor_idx; ///< index for the transmitted scale factor values (used for resampling) 159cabdff1aSopenharmony_ci int* scale_factors; ///< pointer to the scale factor values used for decoding 160cabdff1aSopenharmony_ci uint8_t table_idx; ///< index in sf_offsets for the scale factor reference block 161cabdff1aSopenharmony_ci float* coeffs; ///< pointer to the subframe decode buffer 162cabdff1aSopenharmony_ci uint16_t num_vec_coeffs; ///< number of vector coded coefficients 163cabdff1aSopenharmony_ci DECLARE_ALIGNED(32, float, out)[WMAPRO_BLOCK_MAX_SIZE + WMAPRO_BLOCK_MAX_SIZE / 2]; ///< output buffer 164cabdff1aSopenharmony_ci} WMAProChannelCtx; 165cabdff1aSopenharmony_ci 166cabdff1aSopenharmony_ci/** 167cabdff1aSopenharmony_ci * @brief channel group for channel transformations 168cabdff1aSopenharmony_ci */ 169cabdff1aSopenharmony_citypedef struct WMAProChannelGrp { 170cabdff1aSopenharmony_ci uint8_t num_channels; ///< number of channels in the group 171cabdff1aSopenharmony_ci int8_t transform; ///< transform on / off 172cabdff1aSopenharmony_ci int8_t transform_band[MAX_BANDS]; ///< controls if the transform is enabled for a certain band 173cabdff1aSopenharmony_ci float decorrelation_matrix[WMAPRO_MAX_CHANNELS*WMAPRO_MAX_CHANNELS]; 174cabdff1aSopenharmony_ci float* channel_data[WMAPRO_MAX_CHANNELS]; ///< transformation coefficients 175cabdff1aSopenharmony_ci} WMAProChannelGrp; 176cabdff1aSopenharmony_ci 177cabdff1aSopenharmony_ci/** 178cabdff1aSopenharmony_ci * @brief main decoder context 179cabdff1aSopenharmony_ci */ 180cabdff1aSopenharmony_citypedef struct WMAProDecodeCtx { 181cabdff1aSopenharmony_ci /* generic decoder variables */ 182cabdff1aSopenharmony_ci AVCodecContext* avctx; ///< codec context for av_log 183cabdff1aSopenharmony_ci AVFloatDSPContext *fdsp; 184cabdff1aSopenharmony_ci uint8_t frame_data[MAX_FRAMESIZE + 185cabdff1aSopenharmony_ci AV_INPUT_BUFFER_PADDING_SIZE];///< compressed frame data 186cabdff1aSopenharmony_ci PutBitContext pb; ///< context for filling the frame_data buffer 187cabdff1aSopenharmony_ci FFTContext mdct_ctx[WMAPRO_BLOCK_SIZES]; ///< MDCT context per block size 188cabdff1aSopenharmony_ci DECLARE_ALIGNED(32, float, tmp)[WMAPRO_BLOCK_MAX_SIZE]; ///< IMDCT output buffer 189cabdff1aSopenharmony_ci const float* windows[WMAPRO_BLOCK_SIZES]; ///< windows for the different block sizes 190cabdff1aSopenharmony_ci 191cabdff1aSopenharmony_ci /* frame size dependent frame information (set during initialization) */ 192cabdff1aSopenharmony_ci uint32_t decode_flags; ///< used compression features 193cabdff1aSopenharmony_ci uint8_t len_prefix; ///< frame is prefixed with its length 194cabdff1aSopenharmony_ci uint8_t dynamic_range_compression; ///< frame contains DRC data 195cabdff1aSopenharmony_ci uint8_t bits_per_sample; ///< integer audio sample size for the unscaled IMDCT output (used to scale to [-1.0, 1.0]) 196cabdff1aSopenharmony_ci uint16_t samples_per_frame; ///< number of samples to output 197cabdff1aSopenharmony_ci uint16_t trim_start; ///< number of samples to skip at start 198cabdff1aSopenharmony_ci uint16_t trim_end; ///< number of samples to skip at end 199cabdff1aSopenharmony_ci uint16_t log2_frame_size; 200cabdff1aSopenharmony_ci int8_t lfe_channel; ///< lfe channel index 201cabdff1aSopenharmony_ci uint8_t max_num_subframes; 202cabdff1aSopenharmony_ci uint8_t subframe_len_bits; ///< number of bits used for the subframe length 203cabdff1aSopenharmony_ci uint8_t max_subframe_len_bit; ///< flag indicating that the subframe is of maximum size when the first subframe length bit is 1 204cabdff1aSopenharmony_ci uint16_t min_samples_per_subframe; 205cabdff1aSopenharmony_ci int8_t num_sfb[WMAPRO_BLOCK_SIZES]; ///< scale factor bands per block size 206cabdff1aSopenharmony_ci int16_t sfb_offsets[WMAPRO_BLOCK_SIZES][MAX_BANDS]; ///< scale factor band offsets (multiples of 4) 207cabdff1aSopenharmony_ci int8_t sf_offsets[WMAPRO_BLOCK_SIZES][WMAPRO_BLOCK_SIZES][MAX_BANDS]; ///< scale factor resample matrix 208cabdff1aSopenharmony_ci int16_t subwoofer_cutoffs[WMAPRO_BLOCK_SIZES]; ///< subwoofer cutoff values 209cabdff1aSopenharmony_ci 210cabdff1aSopenharmony_ci /* packet decode state */ 211cabdff1aSopenharmony_ci GetBitContext pgb; ///< bitstream reader context for the packet 212cabdff1aSopenharmony_ci int next_packet_start; ///< start offset of the next wma packet in the demuxer packet 213cabdff1aSopenharmony_ci uint8_t packet_offset; ///< frame offset in the packet 214cabdff1aSopenharmony_ci uint8_t packet_sequence_number; ///< current packet number 215cabdff1aSopenharmony_ci int num_saved_bits; ///< saved number of bits 216cabdff1aSopenharmony_ci int frame_offset; ///< frame offset in the bit reservoir 217cabdff1aSopenharmony_ci int subframe_offset; ///< subframe offset in the bit reservoir 218cabdff1aSopenharmony_ci uint8_t packet_loss; ///< set in case of bitstream error 219cabdff1aSopenharmony_ci uint8_t packet_done; ///< set when a packet is fully decoded 220cabdff1aSopenharmony_ci uint8_t eof_done; ///< set when EOF reached and extra subframe is written (XMA1/2) 221cabdff1aSopenharmony_ci 222cabdff1aSopenharmony_ci /* frame decode state */ 223cabdff1aSopenharmony_ci uint32_t frame_num; ///< current frame number (not used for decoding) 224cabdff1aSopenharmony_ci GetBitContext gb; ///< bitstream reader context 225cabdff1aSopenharmony_ci int buf_bit_size; ///< buffer size in bits 226cabdff1aSopenharmony_ci uint8_t drc_gain; ///< gain for the DRC tool 227cabdff1aSopenharmony_ci int8_t skip_frame; ///< skip output step 228cabdff1aSopenharmony_ci int8_t parsed_all_subframes; ///< all subframes decoded? 229cabdff1aSopenharmony_ci uint8_t skip_packets; ///< packets to skip to find next packet in a stream (XMA1/2) 230cabdff1aSopenharmony_ci 231cabdff1aSopenharmony_ci /* subframe/block decode state */ 232cabdff1aSopenharmony_ci int16_t subframe_len; ///< current subframe length 233cabdff1aSopenharmony_ci int8_t nb_channels; ///< number of channels in stream (XMA1/2) 234cabdff1aSopenharmony_ci int8_t channels_for_cur_subframe; ///< number of channels that contain the subframe 235cabdff1aSopenharmony_ci int8_t channel_indexes_for_cur_subframe[WMAPRO_MAX_CHANNELS]; 236cabdff1aSopenharmony_ci int8_t num_bands; ///< number of scale factor bands 237cabdff1aSopenharmony_ci int8_t transmit_num_vec_coeffs; ///< number of vector coded coefficients is part of the bitstream 238cabdff1aSopenharmony_ci int16_t* cur_sfb_offsets; ///< sfb offsets for the current block 239cabdff1aSopenharmony_ci uint8_t table_idx; ///< index for the num_sfb, sfb_offsets, sf_offsets and subwoofer_cutoffs tables 240cabdff1aSopenharmony_ci int8_t esc_len; ///< length of escaped coefficients 241cabdff1aSopenharmony_ci 242cabdff1aSopenharmony_ci uint8_t num_chgroups; ///< number of channel groups 243cabdff1aSopenharmony_ci WMAProChannelGrp chgroup[WMAPRO_MAX_CHANNELS]; ///< channel group information 244cabdff1aSopenharmony_ci 245cabdff1aSopenharmony_ci WMAProChannelCtx channel[WMAPRO_MAX_CHANNELS]; ///< per channel data 246cabdff1aSopenharmony_ci} WMAProDecodeCtx; 247cabdff1aSopenharmony_ci 248cabdff1aSopenharmony_citypedef struct XMADecodeCtx { 249cabdff1aSopenharmony_ci WMAProDecodeCtx xma[XMA_MAX_STREAMS]; 250cabdff1aSopenharmony_ci AVFrame *frames[XMA_MAX_STREAMS]; 251cabdff1aSopenharmony_ci int current_stream; 252cabdff1aSopenharmony_ci int num_streams; 253cabdff1aSopenharmony_ci AVAudioFifo *samples[2][XMA_MAX_STREAMS]; 254cabdff1aSopenharmony_ci int start_channel[XMA_MAX_STREAMS]; 255cabdff1aSopenharmony_ci int trim_start, trim_end; 256cabdff1aSopenharmony_ci int flushed; 257cabdff1aSopenharmony_ci} XMADecodeCtx; 258cabdff1aSopenharmony_ci 259cabdff1aSopenharmony_ci/** 260cabdff1aSopenharmony_ci *@brief helper function to print the most important members of the context 261cabdff1aSopenharmony_ci *@param s context 262cabdff1aSopenharmony_ci */ 263cabdff1aSopenharmony_cistatic av_cold void dump_context(WMAProDecodeCtx *s) 264cabdff1aSopenharmony_ci{ 265cabdff1aSopenharmony_ci#define PRINT(a, b) av_log(s->avctx, AV_LOG_DEBUG, " %s = %d\n", a, b); 266cabdff1aSopenharmony_ci#define PRINT_HEX(a, b) av_log(s->avctx, AV_LOG_DEBUG, " %s = %"PRIx32"\n", a, b); 267cabdff1aSopenharmony_ci 268cabdff1aSopenharmony_ci PRINT("ed sample bit depth", s->bits_per_sample); 269cabdff1aSopenharmony_ci PRINT_HEX("ed decode flags", s->decode_flags); 270cabdff1aSopenharmony_ci PRINT("samples per frame", s->samples_per_frame); 271cabdff1aSopenharmony_ci PRINT("log2 frame size", s->log2_frame_size); 272cabdff1aSopenharmony_ci PRINT("max num subframes", s->max_num_subframes); 273cabdff1aSopenharmony_ci PRINT("len prefix", s->len_prefix); 274cabdff1aSopenharmony_ci PRINT("num channels", s->nb_channels); 275cabdff1aSopenharmony_ci} 276cabdff1aSopenharmony_ci 277cabdff1aSopenharmony_ci/** 278cabdff1aSopenharmony_ci *@brief Uninitialize the decoder and free all resources. 279cabdff1aSopenharmony_ci *@param avctx codec context 280cabdff1aSopenharmony_ci *@return 0 on success, < 0 otherwise 281cabdff1aSopenharmony_ci */ 282cabdff1aSopenharmony_cistatic av_cold int decode_end(WMAProDecodeCtx *s) 283cabdff1aSopenharmony_ci{ 284cabdff1aSopenharmony_ci int i; 285cabdff1aSopenharmony_ci 286cabdff1aSopenharmony_ci av_freep(&s->fdsp); 287cabdff1aSopenharmony_ci 288cabdff1aSopenharmony_ci for (i = 0; i < WMAPRO_BLOCK_SIZES; i++) 289cabdff1aSopenharmony_ci ff_mdct_end(&s->mdct_ctx[i]); 290cabdff1aSopenharmony_ci 291cabdff1aSopenharmony_ci return 0; 292cabdff1aSopenharmony_ci} 293cabdff1aSopenharmony_ci 294cabdff1aSopenharmony_cistatic av_cold int wmapro_decode_end(AVCodecContext *avctx) 295cabdff1aSopenharmony_ci{ 296cabdff1aSopenharmony_ci WMAProDecodeCtx *s = avctx->priv_data; 297cabdff1aSopenharmony_ci 298cabdff1aSopenharmony_ci decode_end(s); 299cabdff1aSopenharmony_ci 300cabdff1aSopenharmony_ci return 0; 301cabdff1aSopenharmony_ci} 302cabdff1aSopenharmony_ci 303cabdff1aSopenharmony_cistatic av_cold int get_rate(AVCodecContext *avctx) 304cabdff1aSopenharmony_ci{ 305cabdff1aSopenharmony_ci if (avctx->codec_id != AV_CODEC_ID_WMAPRO) { // XXX: is this really only for XMA? 306cabdff1aSopenharmony_ci if (avctx->sample_rate > 44100) 307cabdff1aSopenharmony_ci return 48000; 308cabdff1aSopenharmony_ci else if (avctx->sample_rate > 32000) 309cabdff1aSopenharmony_ci return 44100; 310cabdff1aSopenharmony_ci else if (avctx->sample_rate > 24000) 311cabdff1aSopenharmony_ci return 32000; 312cabdff1aSopenharmony_ci return 24000; 313cabdff1aSopenharmony_ci } 314cabdff1aSopenharmony_ci 315cabdff1aSopenharmony_ci return avctx->sample_rate; 316cabdff1aSopenharmony_ci} 317cabdff1aSopenharmony_ci 318cabdff1aSopenharmony_cistatic av_cold void decode_init_static(void) 319cabdff1aSopenharmony_ci{ 320cabdff1aSopenharmony_ci INIT_VLC_STATIC(&sf_vlc, SCALEVLCBITS, HUFF_SCALE_SIZE, 321cabdff1aSopenharmony_ci scale_huffbits, 1, 1, 322cabdff1aSopenharmony_ci scale_huffcodes, 2, 2, 616); 323cabdff1aSopenharmony_ci INIT_VLC_STATIC(&sf_rl_vlc, VLCBITS, HUFF_SCALE_RL_SIZE, 324cabdff1aSopenharmony_ci scale_rl_huffbits, 1, 1, 325cabdff1aSopenharmony_ci scale_rl_huffcodes, 4, 4, 1406); 326cabdff1aSopenharmony_ci INIT_VLC_STATIC(&coef_vlc[0], VLCBITS, HUFF_COEF0_SIZE, 327cabdff1aSopenharmony_ci coef0_huffbits, 1, 1, 328cabdff1aSopenharmony_ci coef0_huffcodes, 4, 4, 2108); 329cabdff1aSopenharmony_ci INIT_VLC_STATIC(&coef_vlc[1], VLCBITS, HUFF_COEF1_SIZE, 330cabdff1aSopenharmony_ci coef1_huffbits, 1, 1, 331cabdff1aSopenharmony_ci coef1_huffcodes, 4, 4, 3912); 332cabdff1aSopenharmony_ci INIT_VLC_STATIC(&vec4_vlc, VLCBITS, HUFF_VEC4_SIZE, 333cabdff1aSopenharmony_ci vec4_huffbits, 1, 1, 334cabdff1aSopenharmony_ci vec4_huffcodes, 2, 2, 604); 335cabdff1aSopenharmony_ci INIT_VLC_STATIC(&vec2_vlc, VLCBITS, HUFF_VEC2_SIZE, 336cabdff1aSopenharmony_ci vec2_huffbits, 1, 1, 337cabdff1aSopenharmony_ci vec2_huffcodes, 2, 2, 562); 338cabdff1aSopenharmony_ci INIT_VLC_STATIC(&vec1_vlc, VLCBITS, HUFF_VEC1_SIZE, 339cabdff1aSopenharmony_ci vec1_huffbits, 1, 1, 340cabdff1aSopenharmony_ci vec1_huffcodes, 2, 2, 562); 341cabdff1aSopenharmony_ci 342cabdff1aSopenharmony_ci /** calculate sine values for the decorrelation matrix */ 343cabdff1aSopenharmony_ci for (int i = 0; i < 33; i++) 344cabdff1aSopenharmony_ci sin64[i] = sin(i * M_PI / 64.0); 345cabdff1aSopenharmony_ci 346cabdff1aSopenharmony_ci for (int i = WMAPRO_BLOCK_MIN_BITS; i <= WMAPRO_BLOCK_MAX_BITS; i++) 347cabdff1aSopenharmony_ci ff_init_ff_sine_windows(i); 348cabdff1aSopenharmony_ci} 349cabdff1aSopenharmony_ci 350cabdff1aSopenharmony_ci/** 351cabdff1aSopenharmony_ci *@brief Initialize the decoder. 352cabdff1aSopenharmony_ci *@param avctx codec context 353cabdff1aSopenharmony_ci *@return 0 on success, -1 otherwise 354cabdff1aSopenharmony_ci */ 355cabdff1aSopenharmony_cistatic av_cold int decode_init(WMAProDecodeCtx *s, AVCodecContext *avctx, int num_stream) 356cabdff1aSopenharmony_ci{ 357cabdff1aSopenharmony_ci static AVOnce init_static_once = AV_ONCE_INIT; 358cabdff1aSopenharmony_ci uint8_t *edata_ptr = avctx->extradata; 359cabdff1aSopenharmony_ci unsigned int channel_mask; 360cabdff1aSopenharmony_ci int i, bits, ret; 361cabdff1aSopenharmony_ci int log2_max_num_subframes; 362cabdff1aSopenharmony_ci int num_possible_block_sizes; 363cabdff1aSopenharmony_ci 364cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_XMA1 || avctx->codec_id == AV_CODEC_ID_XMA2) 365cabdff1aSopenharmony_ci avctx->block_align = 2048; 366cabdff1aSopenharmony_ci 367cabdff1aSopenharmony_ci if (!avctx->block_align) { 368cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "block_align is not set\n"); 369cabdff1aSopenharmony_ci return AVERROR(EINVAL); 370cabdff1aSopenharmony_ci } 371cabdff1aSopenharmony_ci 372cabdff1aSopenharmony_ci s->avctx = avctx; 373cabdff1aSopenharmony_ci 374cabdff1aSopenharmony_ci init_put_bits(&s->pb, s->frame_data, MAX_FRAMESIZE); 375cabdff1aSopenharmony_ci 376cabdff1aSopenharmony_ci avctx->sample_fmt = AV_SAMPLE_FMT_FLTP; 377cabdff1aSopenharmony_ci 378cabdff1aSopenharmony_ci /** dump the extradata */ 379cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_DEBUG, "extradata:\n"); 380cabdff1aSopenharmony_ci for (i = 0; i < avctx->extradata_size; i++) 381cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_DEBUG, "[%x] ", avctx->extradata[i]); 382cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_DEBUG, "\n"); 383cabdff1aSopenharmony_ci 384cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_XMA2 && avctx->extradata_size == 34) { /* XMA2WAVEFORMATEX */ 385cabdff1aSopenharmony_ci s->decode_flags = 0x10d6; 386cabdff1aSopenharmony_ci s->bits_per_sample = 16; 387cabdff1aSopenharmony_ci channel_mask = 0; //AV_RL32(edata_ptr+2); /* not always in expected order */ 388cabdff1aSopenharmony_ci if ((num_stream+1) * XMA_MAX_CHANNELS_STREAM > avctx->ch_layout.nb_channels) /* stream config is 2ch + 2ch + ... + 1/2ch */ 389cabdff1aSopenharmony_ci s->nb_channels = 1; 390cabdff1aSopenharmony_ci else 391cabdff1aSopenharmony_ci s->nb_channels = 2; 392cabdff1aSopenharmony_ci } else if (avctx->codec_id == AV_CODEC_ID_XMA2) { /* XMA2WAVEFORMAT */ 393cabdff1aSopenharmony_ci s->decode_flags = 0x10d6; 394cabdff1aSopenharmony_ci s->bits_per_sample = 16; 395cabdff1aSopenharmony_ci channel_mask = 0; /* would need to aggregate from all streams */ 396cabdff1aSopenharmony_ci s->nb_channels = edata_ptr[32 + ((edata_ptr[0]==3)?0:8) + 4*num_stream + 0]; /* nth stream config */ 397cabdff1aSopenharmony_ci } else if (avctx->codec_id == AV_CODEC_ID_XMA1) { /* XMAWAVEFORMAT */ 398cabdff1aSopenharmony_ci s->decode_flags = 0x10d6; 399cabdff1aSopenharmony_ci s->bits_per_sample = 16; 400cabdff1aSopenharmony_ci channel_mask = 0; /* would need to aggregate from all streams */ 401cabdff1aSopenharmony_ci s->nb_channels = edata_ptr[8 + 20*num_stream + 17]; /* nth stream config */ 402cabdff1aSopenharmony_ci } else if (avctx->codec_id == AV_CODEC_ID_WMAPRO && avctx->extradata_size >= 18) { 403cabdff1aSopenharmony_ci s->decode_flags = AV_RL16(edata_ptr+14); 404cabdff1aSopenharmony_ci channel_mask = AV_RL32(edata_ptr+2); 405cabdff1aSopenharmony_ci s->bits_per_sample = AV_RL16(edata_ptr); 406cabdff1aSopenharmony_ci s->nb_channels = channel_mask ? av_popcount(channel_mask) : avctx->ch_layout.nb_channels; 407cabdff1aSopenharmony_ci 408cabdff1aSopenharmony_ci if (s->bits_per_sample > 32 || s->bits_per_sample < 1) { 409cabdff1aSopenharmony_ci avpriv_request_sample(avctx, "bits per sample is %d", s->bits_per_sample); 410cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 411cabdff1aSopenharmony_ci } 412cabdff1aSopenharmony_ci } else { 413cabdff1aSopenharmony_ci avpriv_request_sample(avctx, "Unknown extradata size"); 414cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 415cabdff1aSopenharmony_ci } 416cabdff1aSopenharmony_ci 417cabdff1aSopenharmony_ci /** generic init */ 418cabdff1aSopenharmony_ci s->log2_frame_size = av_log2(avctx->block_align) + 4; 419cabdff1aSopenharmony_ci if (s->log2_frame_size > 25) { 420cabdff1aSopenharmony_ci avpriv_request_sample(avctx, "Large block align"); 421cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 422cabdff1aSopenharmony_ci } 423cabdff1aSopenharmony_ci 424cabdff1aSopenharmony_ci /** frame info */ 425cabdff1aSopenharmony_ci s->skip_frame = 1; /* skip first frame */ 426cabdff1aSopenharmony_ci 427cabdff1aSopenharmony_ci s->packet_loss = 1; 428cabdff1aSopenharmony_ci s->len_prefix = (s->decode_flags & 0x40); 429cabdff1aSopenharmony_ci 430cabdff1aSopenharmony_ci /** get frame len */ 431cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_WMAPRO) { 432cabdff1aSopenharmony_ci bits = ff_wma_get_frame_len_bits(avctx->sample_rate, 3, s->decode_flags); 433cabdff1aSopenharmony_ci if (bits > WMAPRO_BLOCK_MAX_BITS) { 434cabdff1aSopenharmony_ci avpriv_request_sample(avctx, "14-bit block sizes"); 435cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 436cabdff1aSopenharmony_ci } 437cabdff1aSopenharmony_ci s->samples_per_frame = 1 << bits; 438cabdff1aSopenharmony_ci } else { 439cabdff1aSopenharmony_ci s->samples_per_frame = 512; 440cabdff1aSopenharmony_ci } 441cabdff1aSopenharmony_ci 442cabdff1aSopenharmony_ci /** subframe info */ 443cabdff1aSopenharmony_ci log2_max_num_subframes = ((s->decode_flags & 0x38) >> 3); 444cabdff1aSopenharmony_ci s->max_num_subframes = 1 << log2_max_num_subframes; 445cabdff1aSopenharmony_ci if (s->max_num_subframes == 16 || s->max_num_subframes == 4) 446cabdff1aSopenharmony_ci s->max_subframe_len_bit = 1; 447cabdff1aSopenharmony_ci s->subframe_len_bits = av_log2(log2_max_num_subframes) + 1; 448cabdff1aSopenharmony_ci 449cabdff1aSopenharmony_ci num_possible_block_sizes = log2_max_num_subframes + 1; 450cabdff1aSopenharmony_ci s->min_samples_per_subframe = s->samples_per_frame / s->max_num_subframes; 451cabdff1aSopenharmony_ci s->dynamic_range_compression = (s->decode_flags & 0x80); 452cabdff1aSopenharmony_ci 453cabdff1aSopenharmony_ci if (s->max_num_subframes > MAX_SUBFRAMES) { 454cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "invalid number of subframes %"PRId8"\n", 455cabdff1aSopenharmony_ci s->max_num_subframes); 456cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 457cabdff1aSopenharmony_ci } 458cabdff1aSopenharmony_ci 459cabdff1aSopenharmony_ci if (s->min_samples_per_subframe < WMAPRO_BLOCK_MIN_SIZE) { 460cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "min_samples_per_subframe of %d too small\n", 461cabdff1aSopenharmony_ci s->min_samples_per_subframe); 462cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 463cabdff1aSopenharmony_ci } 464cabdff1aSopenharmony_ci 465cabdff1aSopenharmony_ci if (s->avctx->sample_rate <= 0) { 466cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "invalid sample rate\n"); 467cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 468cabdff1aSopenharmony_ci } 469cabdff1aSopenharmony_ci 470cabdff1aSopenharmony_ci if (s->nb_channels <= 0) { 471cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "invalid number of channels %d\n", 472cabdff1aSopenharmony_ci s->nb_channels); 473cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 474cabdff1aSopenharmony_ci } else if (avctx->codec_id != AV_CODEC_ID_WMAPRO && s->nb_channels > XMA_MAX_CHANNELS_STREAM) { 475cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "invalid number of channels per XMA stream %d\n", 476cabdff1aSopenharmony_ci s->nb_channels); 477cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 478cabdff1aSopenharmony_ci } else if (s->nb_channels > WMAPRO_MAX_CHANNELS || s->nb_channels > avctx->ch_layout.nb_channels) { 479cabdff1aSopenharmony_ci avpriv_request_sample(avctx, 480cabdff1aSopenharmony_ci "More than %d channels", WMAPRO_MAX_CHANNELS); 481cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 482cabdff1aSopenharmony_ci } 483cabdff1aSopenharmony_ci 484cabdff1aSopenharmony_ci /** init previous block len */ 485cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) 486cabdff1aSopenharmony_ci s->channel[i].prev_block_len = s->samples_per_frame; 487cabdff1aSopenharmony_ci 488cabdff1aSopenharmony_ci /** extract lfe channel position */ 489cabdff1aSopenharmony_ci s->lfe_channel = -1; 490cabdff1aSopenharmony_ci 491cabdff1aSopenharmony_ci if (channel_mask & 8) { 492cabdff1aSopenharmony_ci unsigned int mask; 493cabdff1aSopenharmony_ci for (mask = 1; mask < 16; mask <<= 1) { 494cabdff1aSopenharmony_ci if (channel_mask & mask) 495cabdff1aSopenharmony_ci ++s->lfe_channel; 496cabdff1aSopenharmony_ci } 497cabdff1aSopenharmony_ci } 498cabdff1aSopenharmony_ci 499cabdff1aSopenharmony_ci /** calculate number of scale factor bands and their offsets 500cabdff1aSopenharmony_ci for every possible block size */ 501cabdff1aSopenharmony_ci for (i = 0; i < num_possible_block_sizes; i++) { 502cabdff1aSopenharmony_ci int subframe_len = s->samples_per_frame >> i; 503cabdff1aSopenharmony_ci int x; 504cabdff1aSopenharmony_ci int band = 1; 505cabdff1aSopenharmony_ci int rate = get_rate(avctx); 506cabdff1aSopenharmony_ci 507cabdff1aSopenharmony_ci s->sfb_offsets[i][0] = 0; 508cabdff1aSopenharmony_ci 509cabdff1aSopenharmony_ci for (x = 0; x < MAX_BANDS-1 && s->sfb_offsets[i][band - 1] < subframe_len; x++) { 510cabdff1aSopenharmony_ci int offset = (subframe_len * 2 * critical_freq[x]) / rate + 2; 511cabdff1aSopenharmony_ci offset &= ~3; 512cabdff1aSopenharmony_ci if (offset > s->sfb_offsets[i][band - 1]) 513cabdff1aSopenharmony_ci s->sfb_offsets[i][band++] = offset; 514cabdff1aSopenharmony_ci 515cabdff1aSopenharmony_ci if (offset >= subframe_len) 516cabdff1aSopenharmony_ci break; 517cabdff1aSopenharmony_ci } 518cabdff1aSopenharmony_ci s->sfb_offsets[i][band - 1] = subframe_len; 519cabdff1aSopenharmony_ci s->num_sfb[i] = band - 1; 520cabdff1aSopenharmony_ci if (s->num_sfb[i] <= 0) { 521cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "num_sfb invalid\n"); 522cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 523cabdff1aSopenharmony_ci } 524cabdff1aSopenharmony_ci } 525cabdff1aSopenharmony_ci 526cabdff1aSopenharmony_ci 527cabdff1aSopenharmony_ci /** Scale factors can be shared between blocks of different size 528cabdff1aSopenharmony_ci as every block has a different scale factor band layout. 529cabdff1aSopenharmony_ci The matrix sf_offsets is needed to find the correct scale factor. 530cabdff1aSopenharmony_ci */ 531cabdff1aSopenharmony_ci 532cabdff1aSopenharmony_ci for (i = 0; i < num_possible_block_sizes; i++) { 533cabdff1aSopenharmony_ci int b; 534cabdff1aSopenharmony_ci for (b = 0; b < s->num_sfb[i]; b++) { 535cabdff1aSopenharmony_ci int x; 536cabdff1aSopenharmony_ci int offset = ((s->sfb_offsets[i][b] 537cabdff1aSopenharmony_ci + s->sfb_offsets[i][b + 1] - 1) << i) >> 1; 538cabdff1aSopenharmony_ci for (x = 0; x < num_possible_block_sizes; x++) { 539cabdff1aSopenharmony_ci int v = 0; 540cabdff1aSopenharmony_ci while (s->sfb_offsets[x][v + 1] << x < offset) { 541cabdff1aSopenharmony_ci v++; 542cabdff1aSopenharmony_ci av_assert0(v < MAX_BANDS); 543cabdff1aSopenharmony_ci } 544cabdff1aSopenharmony_ci s->sf_offsets[i][x][b] = v; 545cabdff1aSopenharmony_ci } 546cabdff1aSopenharmony_ci } 547cabdff1aSopenharmony_ci } 548cabdff1aSopenharmony_ci 549cabdff1aSopenharmony_ci s->fdsp = avpriv_float_dsp_alloc(avctx->flags & AV_CODEC_FLAG_BITEXACT); 550cabdff1aSopenharmony_ci if (!s->fdsp) 551cabdff1aSopenharmony_ci return AVERROR(ENOMEM); 552cabdff1aSopenharmony_ci 553cabdff1aSopenharmony_ci /** init MDCT, FIXME: only init needed sizes */ 554cabdff1aSopenharmony_ci for (int i = 0; i < WMAPRO_BLOCK_SIZES; i++) { 555cabdff1aSopenharmony_ci ret = ff_mdct_init(&s->mdct_ctx[i], WMAPRO_BLOCK_MIN_BITS + 1 + i, 1, 556cabdff1aSopenharmony_ci 1.0 / (1 << (WMAPRO_BLOCK_MIN_BITS + i - 1)) 557cabdff1aSopenharmony_ci / (1ll << (s->bits_per_sample - 1))); 558cabdff1aSopenharmony_ci if (ret < 0) 559cabdff1aSopenharmony_ci return ret; 560cabdff1aSopenharmony_ci } 561cabdff1aSopenharmony_ci 562cabdff1aSopenharmony_ci /** init MDCT windows: simple sine window */ 563cabdff1aSopenharmony_ci for (i = 0; i < WMAPRO_BLOCK_SIZES; i++) { 564cabdff1aSopenharmony_ci const int win_idx = WMAPRO_BLOCK_MAX_BITS - i; 565cabdff1aSopenharmony_ci s->windows[WMAPRO_BLOCK_SIZES - i - 1] = ff_sine_windows[win_idx]; 566cabdff1aSopenharmony_ci } 567cabdff1aSopenharmony_ci 568cabdff1aSopenharmony_ci /** calculate subwoofer cutoff values */ 569cabdff1aSopenharmony_ci for (i = 0; i < num_possible_block_sizes; i++) { 570cabdff1aSopenharmony_ci int block_size = s->samples_per_frame >> i; 571cabdff1aSopenharmony_ci int cutoff = (440*block_size + 3LL * (s->avctx->sample_rate >> 1) - 1) 572cabdff1aSopenharmony_ci / s->avctx->sample_rate; 573cabdff1aSopenharmony_ci s->subwoofer_cutoffs[i] = av_clip(cutoff, 4, block_size); 574cabdff1aSopenharmony_ci } 575cabdff1aSopenharmony_ci 576cabdff1aSopenharmony_ci if (avctx->debug & FF_DEBUG_BITSTREAM) 577cabdff1aSopenharmony_ci dump_context(s); 578cabdff1aSopenharmony_ci 579cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_WMAPRO) { 580cabdff1aSopenharmony_ci if (channel_mask) { 581cabdff1aSopenharmony_ci av_channel_layout_uninit(&avctx->ch_layout); 582cabdff1aSopenharmony_ci av_channel_layout_from_mask(&avctx->ch_layout, channel_mask); 583cabdff1aSopenharmony_ci } else 584cabdff1aSopenharmony_ci avctx->ch_layout.order = AV_CHANNEL_ORDER_UNSPEC; 585cabdff1aSopenharmony_ci } 586cabdff1aSopenharmony_ci 587cabdff1aSopenharmony_ci ff_thread_once(&init_static_once, decode_init_static); 588cabdff1aSopenharmony_ci 589cabdff1aSopenharmony_ci return 0; 590cabdff1aSopenharmony_ci} 591cabdff1aSopenharmony_ci 592cabdff1aSopenharmony_ci/** 593cabdff1aSopenharmony_ci *@brief Initialize the decoder. 594cabdff1aSopenharmony_ci *@param avctx codec context 595cabdff1aSopenharmony_ci *@return 0 on success, -1 otherwise 596cabdff1aSopenharmony_ci */ 597cabdff1aSopenharmony_cistatic av_cold int wmapro_decode_init(AVCodecContext *avctx) 598cabdff1aSopenharmony_ci{ 599cabdff1aSopenharmony_ci WMAProDecodeCtx *s = avctx->priv_data; 600cabdff1aSopenharmony_ci 601cabdff1aSopenharmony_ci return decode_init(s, avctx, 0); 602cabdff1aSopenharmony_ci} 603cabdff1aSopenharmony_ci 604cabdff1aSopenharmony_ci/** 605cabdff1aSopenharmony_ci *@brief Decode the subframe length. 606cabdff1aSopenharmony_ci *@param s context 607cabdff1aSopenharmony_ci *@param offset sample offset in the frame 608cabdff1aSopenharmony_ci *@return decoded subframe length on success, < 0 in case of an error 609cabdff1aSopenharmony_ci */ 610cabdff1aSopenharmony_cistatic int decode_subframe_length(WMAProDecodeCtx *s, int offset) 611cabdff1aSopenharmony_ci{ 612cabdff1aSopenharmony_ci int frame_len_shift = 0; 613cabdff1aSopenharmony_ci int subframe_len; 614cabdff1aSopenharmony_ci 615cabdff1aSopenharmony_ci /** no need to read from the bitstream when only one length is possible */ 616cabdff1aSopenharmony_ci if (offset == s->samples_per_frame - s->min_samples_per_subframe) 617cabdff1aSopenharmony_ci return s->min_samples_per_subframe; 618cabdff1aSopenharmony_ci 619cabdff1aSopenharmony_ci if (get_bits_left(&s->gb) < 1) 620cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 621cabdff1aSopenharmony_ci 622cabdff1aSopenharmony_ci /** 1 bit indicates if the subframe is of maximum length */ 623cabdff1aSopenharmony_ci if (s->max_subframe_len_bit) { 624cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) 625cabdff1aSopenharmony_ci frame_len_shift = 1 + get_bits(&s->gb, s->subframe_len_bits-1); 626cabdff1aSopenharmony_ci } else 627cabdff1aSopenharmony_ci frame_len_shift = get_bits(&s->gb, s->subframe_len_bits); 628cabdff1aSopenharmony_ci 629cabdff1aSopenharmony_ci subframe_len = s->samples_per_frame >> frame_len_shift; 630cabdff1aSopenharmony_ci 631cabdff1aSopenharmony_ci /** sanity check the length */ 632cabdff1aSopenharmony_ci if (subframe_len < s->min_samples_per_subframe || 633cabdff1aSopenharmony_ci subframe_len > s->samples_per_frame) { 634cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, "broken frame: subframe_len %i\n", 635cabdff1aSopenharmony_ci subframe_len); 636cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 637cabdff1aSopenharmony_ci } 638cabdff1aSopenharmony_ci return subframe_len; 639cabdff1aSopenharmony_ci} 640cabdff1aSopenharmony_ci 641cabdff1aSopenharmony_ci/** 642cabdff1aSopenharmony_ci *@brief Decode how the data in the frame is split into subframes. 643cabdff1aSopenharmony_ci * Every WMA frame contains the encoded data for a fixed number of 644cabdff1aSopenharmony_ci * samples per channel. The data for every channel might be split 645cabdff1aSopenharmony_ci * into several subframes. This function will reconstruct the list of 646cabdff1aSopenharmony_ci * subframes for every channel. 647cabdff1aSopenharmony_ci * 648cabdff1aSopenharmony_ci * If the subframes are not evenly split, the algorithm estimates the 649cabdff1aSopenharmony_ci * channels with the lowest number of total samples. 650cabdff1aSopenharmony_ci * Afterwards, for each of these channels a bit is read from the 651cabdff1aSopenharmony_ci * bitstream that indicates if the channel contains a subframe with the 652cabdff1aSopenharmony_ci * next subframe size that is going to be read from the bitstream or not. 653cabdff1aSopenharmony_ci * If a channel contains such a subframe, the subframe size gets added to 654cabdff1aSopenharmony_ci * the channel's subframe list. 655cabdff1aSopenharmony_ci * The algorithm repeats these steps until the frame is properly divided 656cabdff1aSopenharmony_ci * between the individual channels. 657cabdff1aSopenharmony_ci * 658cabdff1aSopenharmony_ci *@param s context 659cabdff1aSopenharmony_ci *@return 0 on success, < 0 in case of an error 660cabdff1aSopenharmony_ci */ 661cabdff1aSopenharmony_cistatic int decode_tilehdr(WMAProDecodeCtx *s) 662cabdff1aSopenharmony_ci{ 663cabdff1aSopenharmony_ci uint16_t num_samples[WMAPRO_MAX_CHANNELS] = { 0 };/**< sum of samples for all currently known subframes of a channel */ 664cabdff1aSopenharmony_ci uint8_t contains_subframe[WMAPRO_MAX_CHANNELS]; /**< flag indicating if a channel contains the current subframe */ 665cabdff1aSopenharmony_ci int channels_for_cur_subframe = s->nb_channels; /**< number of channels that contain the current subframe */ 666cabdff1aSopenharmony_ci int fixed_channel_layout = 0; /**< flag indicating that all channels use the same subframe offsets and sizes */ 667cabdff1aSopenharmony_ci int min_channel_len = 0; /**< smallest sum of samples (channels with this length will be processed first) */ 668cabdff1aSopenharmony_ci int c; 669cabdff1aSopenharmony_ci 670cabdff1aSopenharmony_ci /* Should never consume more than 3073 bits (256 iterations for the 671cabdff1aSopenharmony_ci * while loop when always the minimum amount of 128 samples is subtracted 672cabdff1aSopenharmony_ci * from missing samples in the 8 channel case). 673cabdff1aSopenharmony_ci * 1 + BLOCK_MAX_SIZE * MAX_CHANNELS / BLOCK_MIN_SIZE * (MAX_CHANNELS + 4) 674cabdff1aSopenharmony_ci */ 675cabdff1aSopenharmony_ci 676cabdff1aSopenharmony_ci /** reset tiling information */ 677cabdff1aSopenharmony_ci for (c = 0; c < s->nb_channels; c++) 678cabdff1aSopenharmony_ci s->channel[c].num_subframes = 0; 679cabdff1aSopenharmony_ci 680cabdff1aSopenharmony_ci if (s->max_num_subframes == 1 || get_bits1(&s->gb)) 681cabdff1aSopenharmony_ci fixed_channel_layout = 1; 682cabdff1aSopenharmony_ci 683cabdff1aSopenharmony_ci /** loop until the frame data is split between the subframes */ 684cabdff1aSopenharmony_ci do { 685cabdff1aSopenharmony_ci int subframe_len; 686cabdff1aSopenharmony_ci 687cabdff1aSopenharmony_ci /** check which channels contain the subframe */ 688cabdff1aSopenharmony_ci for (c = 0; c < s->nb_channels; c++) { 689cabdff1aSopenharmony_ci if (num_samples[c] == min_channel_len) { 690cabdff1aSopenharmony_ci if (fixed_channel_layout || channels_for_cur_subframe == 1 || 691cabdff1aSopenharmony_ci (min_channel_len == s->samples_per_frame - s->min_samples_per_subframe)) 692cabdff1aSopenharmony_ci contains_subframe[c] = 1; 693cabdff1aSopenharmony_ci else 694cabdff1aSopenharmony_ci contains_subframe[c] = get_bits1(&s->gb); 695cabdff1aSopenharmony_ci } else 696cabdff1aSopenharmony_ci contains_subframe[c] = 0; 697cabdff1aSopenharmony_ci } 698cabdff1aSopenharmony_ci 699cabdff1aSopenharmony_ci /** get subframe length, subframe_len == 0 is not allowed */ 700cabdff1aSopenharmony_ci if ((subframe_len = decode_subframe_length(s, min_channel_len)) <= 0) 701cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 702cabdff1aSopenharmony_ci 703cabdff1aSopenharmony_ci /** add subframes to the individual channels and find new min_channel_len */ 704cabdff1aSopenharmony_ci min_channel_len += subframe_len; 705cabdff1aSopenharmony_ci for (c = 0; c < s->nb_channels; c++) { 706cabdff1aSopenharmony_ci WMAProChannelCtx* chan = &s->channel[c]; 707cabdff1aSopenharmony_ci 708cabdff1aSopenharmony_ci if (contains_subframe[c]) { 709cabdff1aSopenharmony_ci if (chan->num_subframes >= MAX_SUBFRAMES) { 710cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, 711cabdff1aSopenharmony_ci "broken frame: num subframes > 31\n"); 712cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 713cabdff1aSopenharmony_ci } 714cabdff1aSopenharmony_ci chan->subframe_len[chan->num_subframes] = subframe_len; 715cabdff1aSopenharmony_ci num_samples[c] += subframe_len; 716cabdff1aSopenharmony_ci ++chan->num_subframes; 717cabdff1aSopenharmony_ci if (num_samples[c] > s->samples_per_frame) { 718cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, "broken frame: " 719cabdff1aSopenharmony_ci "channel len > samples_per_frame\n"); 720cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 721cabdff1aSopenharmony_ci } 722cabdff1aSopenharmony_ci } else if (num_samples[c] <= min_channel_len) { 723cabdff1aSopenharmony_ci if (num_samples[c] < min_channel_len) { 724cabdff1aSopenharmony_ci channels_for_cur_subframe = 0; 725cabdff1aSopenharmony_ci min_channel_len = num_samples[c]; 726cabdff1aSopenharmony_ci } 727cabdff1aSopenharmony_ci ++channels_for_cur_subframe; 728cabdff1aSopenharmony_ci } 729cabdff1aSopenharmony_ci } 730cabdff1aSopenharmony_ci } while (min_channel_len < s->samples_per_frame); 731cabdff1aSopenharmony_ci 732cabdff1aSopenharmony_ci for (c = 0; c < s->nb_channels; c++) { 733cabdff1aSopenharmony_ci int i; 734cabdff1aSopenharmony_ci int offset = 0; 735cabdff1aSopenharmony_ci for (i = 0; i < s->channel[c].num_subframes; i++) { 736cabdff1aSopenharmony_ci ff_dlog(s->avctx, "frame[%"PRIu32"] channel[%i] subframe[%i]" 737cabdff1aSopenharmony_ci " len %i\n", s->frame_num, c, i, 738cabdff1aSopenharmony_ci s->channel[c].subframe_len[i]); 739cabdff1aSopenharmony_ci s->channel[c].subframe_offset[i] = offset; 740cabdff1aSopenharmony_ci offset += s->channel[c].subframe_len[i]; 741cabdff1aSopenharmony_ci } 742cabdff1aSopenharmony_ci } 743cabdff1aSopenharmony_ci 744cabdff1aSopenharmony_ci return 0; 745cabdff1aSopenharmony_ci} 746cabdff1aSopenharmony_ci 747cabdff1aSopenharmony_ci/** 748cabdff1aSopenharmony_ci *@brief Calculate a decorrelation matrix from the bitstream parameters. 749cabdff1aSopenharmony_ci *@param s codec context 750cabdff1aSopenharmony_ci *@param chgroup channel group for which the matrix needs to be calculated 751cabdff1aSopenharmony_ci */ 752cabdff1aSopenharmony_cistatic void decode_decorrelation_matrix(WMAProDecodeCtx *s, 753cabdff1aSopenharmony_ci WMAProChannelGrp *chgroup) 754cabdff1aSopenharmony_ci{ 755cabdff1aSopenharmony_ci int i; 756cabdff1aSopenharmony_ci int offset = 0; 757cabdff1aSopenharmony_ci int8_t rotation_offset[WMAPRO_MAX_CHANNELS * WMAPRO_MAX_CHANNELS]; 758cabdff1aSopenharmony_ci memset(chgroup->decorrelation_matrix, 0, s->nb_channels * 759cabdff1aSopenharmony_ci s->nb_channels * sizeof(*chgroup->decorrelation_matrix)); 760cabdff1aSopenharmony_ci 761cabdff1aSopenharmony_ci for (i = 0; i < chgroup->num_channels * (chgroup->num_channels - 1) >> 1; i++) 762cabdff1aSopenharmony_ci rotation_offset[i] = get_bits(&s->gb, 6); 763cabdff1aSopenharmony_ci 764cabdff1aSopenharmony_ci for (i = 0; i < chgroup->num_channels; i++) 765cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[chgroup->num_channels * i + i] = 766cabdff1aSopenharmony_ci get_bits1(&s->gb) ? 1.0 : -1.0; 767cabdff1aSopenharmony_ci 768cabdff1aSopenharmony_ci for (i = 1; i < chgroup->num_channels; i++) { 769cabdff1aSopenharmony_ci int x; 770cabdff1aSopenharmony_ci for (x = 0; x < i; x++) { 771cabdff1aSopenharmony_ci int y; 772cabdff1aSopenharmony_ci for (y = 0; y < i + 1; y++) { 773cabdff1aSopenharmony_ci float v1 = chgroup->decorrelation_matrix[x * chgroup->num_channels + y]; 774cabdff1aSopenharmony_ci float v2 = chgroup->decorrelation_matrix[i * chgroup->num_channels + y]; 775cabdff1aSopenharmony_ci int n = rotation_offset[offset + x]; 776cabdff1aSopenharmony_ci float sinv; 777cabdff1aSopenharmony_ci float cosv; 778cabdff1aSopenharmony_ci 779cabdff1aSopenharmony_ci if (n < 32) { 780cabdff1aSopenharmony_ci sinv = sin64[n]; 781cabdff1aSopenharmony_ci cosv = sin64[32 - n]; 782cabdff1aSopenharmony_ci } else { 783cabdff1aSopenharmony_ci sinv = sin64[64 - n]; 784cabdff1aSopenharmony_ci cosv = -sin64[n - 32]; 785cabdff1aSopenharmony_ci } 786cabdff1aSopenharmony_ci 787cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[y + x * chgroup->num_channels] = 788cabdff1aSopenharmony_ci (v1 * sinv) - (v2 * cosv); 789cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[y + i * chgroup->num_channels] = 790cabdff1aSopenharmony_ci (v1 * cosv) + (v2 * sinv); 791cabdff1aSopenharmony_ci } 792cabdff1aSopenharmony_ci } 793cabdff1aSopenharmony_ci offset += i; 794cabdff1aSopenharmony_ci } 795cabdff1aSopenharmony_ci} 796cabdff1aSopenharmony_ci 797cabdff1aSopenharmony_ci/** 798cabdff1aSopenharmony_ci *@brief Decode channel transformation parameters 799cabdff1aSopenharmony_ci *@param s codec context 800cabdff1aSopenharmony_ci *@return >= 0 in case of success, < 0 in case of bitstream errors 801cabdff1aSopenharmony_ci */ 802cabdff1aSopenharmony_cistatic int decode_channel_transform(WMAProDecodeCtx* s) 803cabdff1aSopenharmony_ci{ 804cabdff1aSopenharmony_ci int i; 805cabdff1aSopenharmony_ci /* should never consume more than 1921 bits for the 8 channel case 806cabdff1aSopenharmony_ci * 1 + MAX_CHANNELS * (MAX_CHANNELS + 2 + 3 * MAX_CHANNELS * MAX_CHANNELS 807cabdff1aSopenharmony_ci * + MAX_CHANNELS + MAX_BANDS + 1) 808cabdff1aSopenharmony_ci */ 809cabdff1aSopenharmony_ci 810cabdff1aSopenharmony_ci /** in the one channel case channel transforms are pointless */ 811cabdff1aSopenharmony_ci s->num_chgroups = 0; 812cabdff1aSopenharmony_ci if (s->nb_channels > 1) { 813cabdff1aSopenharmony_ci int remaining_channels = s->channels_for_cur_subframe; 814cabdff1aSopenharmony_ci 815cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 816cabdff1aSopenharmony_ci avpriv_request_sample(s->avctx, 817cabdff1aSopenharmony_ci "Channel transform bit"); 818cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 819cabdff1aSopenharmony_ci } 820cabdff1aSopenharmony_ci 821cabdff1aSopenharmony_ci for (s->num_chgroups = 0; remaining_channels && 822cabdff1aSopenharmony_ci s->num_chgroups < s->channels_for_cur_subframe; s->num_chgroups++) { 823cabdff1aSopenharmony_ci WMAProChannelGrp* chgroup = &s->chgroup[s->num_chgroups]; 824cabdff1aSopenharmony_ci float** channel_data = chgroup->channel_data; 825cabdff1aSopenharmony_ci chgroup->num_channels = 0; 826cabdff1aSopenharmony_ci chgroup->transform = 0; 827cabdff1aSopenharmony_ci 828cabdff1aSopenharmony_ci /** decode channel mask */ 829cabdff1aSopenharmony_ci if (remaining_channels > 2) { 830cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 831cabdff1aSopenharmony_ci int channel_idx = s->channel_indexes_for_cur_subframe[i]; 832cabdff1aSopenharmony_ci if (!s->channel[channel_idx].grouped 833cabdff1aSopenharmony_ci && get_bits1(&s->gb)) { 834cabdff1aSopenharmony_ci ++chgroup->num_channels; 835cabdff1aSopenharmony_ci s->channel[channel_idx].grouped = 1; 836cabdff1aSopenharmony_ci *channel_data++ = s->channel[channel_idx].coeffs; 837cabdff1aSopenharmony_ci } 838cabdff1aSopenharmony_ci } 839cabdff1aSopenharmony_ci } else { 840cabdff1aSopenharmony_ci chgroup->num_channels = remaining_channels; 841cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 842cabdff1aSopenharmony_ci int channel_idx = s->channel_indexes_for_cur_subframe[i]; 843cabdff1aSopenharmony_ci if (!s->channel[channel_idx].grouped) 844cabdff1aSopenharmony_ci *channel_data++ = s->channel[channel_idx].coeffs; 845cabdff1aSopenharmony_ci s->channel[channel_idx].grouped = 1; 846cabdff1aSopenharmony_ci } 847cabdff1aSopenharmony_ci } 848cabdff1aSopenharmony_ci 849cabdff1aSopenharmony_ci /** decode transform type */ 850cabdff1aSopenharmony_ci if (chgroup->num_channels == 2) { 851cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 852cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 853cabdff1aSopenharmony_ci avpriv_request_sample(s->avctx, 854cabdff1aSopenharmony_ci "Unknown channel transform type"); 855cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 856cabdff1aSopenharmony_ci } 857cabdff1aSopenharmony_ci } else { 858cabdff1aSopenharmony_ci chgroup->transform = 1; 859cabdff1aSopenharmony_ci if (s->nb_channels == 2) { 860cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[0] = 1.0; 861cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[1] = -1.0; 862cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[2] = 1.0; 863cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[3] = 1.0; 864cabdff1aSopenharmony_ci } else { 865cabdff1aSopenharmony_ci /** cos(pi/4) */ 866cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[0] = 0.70703125; 867cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[1] = -0.70703125; 868cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[2] = 0.70703125; 869cabdff1aSopenharmony_ci chgroup->decorrelation_matrix[3] = 0.70703125; 870cabdff1aSopenharmony_ci } 871cabdff1aSopenharmony_ci } 872cabdff1aSopenharmony_ci } else if (chgroup->num_channels > 2) { 873cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 874cabdff1aSopenharmony_ci chgroup->transform = 1; 875cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 876cabdff1aSopenharmony_ci decode_decorrelation_matrix(s, chgroup); 877cabdff1aSopenharmony_ci } else { 878cabdff1aSopenharmony_ci /** FIXME: more than 6 coupled channels not supported */ 879cabdff1aSopenharmony_ci if (chgroup->num_channels > 6) { 880cabdff1aSopenharmony_ci avpriv_request_sample(s->avctx, 881cabdff1aSopenharmony_ci "Coupled channels > 6"); 882cabdff1aSopenharmony_ci } else { 883cabdff1aSopenharmony_ci memcpy(chgroup->decorrelation_matrix, 884cabdff1aSopenharmony_ci default_decorrelation[chgroup->num_channels], 885cabdff1aSopenharmony_ci chgroup->num_channels * chgroup->num_channels * 886cabdff1aSopenharmony_ci sizeof(*chgroup->decorrelation_matrix)); 887cabdff1aSopenharmony_ci } 888cabdff1aSopenharmony_ci } 889cabdff1aSopenharmony_ci } 890cabdff1aSopenharmony_ci } 891cabdff1aSopenharmony_ci 892cabdff1aSopenharmony_ci /** decode transform on / off */ 893cabdff1aSopenharmony_ci if (chgroup->transform) { 894cabdff1aSopenharmony_ci if (!get_bits1(&s->gb)) { 895cabdff1aSopenharmony_ci int i; 896cabdff1aSopenharmony_ci /** transform can be enabled for individual bands */ 897cabdff1aSopenharmony_ci for (i = 0; i < s->num_bands; i++) { 898cabdff1aSopenharmony_ci chgroup->transform_band[i] = get_bits1(&s->gb); 899cabdff1aSopenharmony_ci } 900cabdff1aSopenharmony_ci } else { 901cabdff1aSopenharmony_ci memset(chgroup->transform_band, 1, s->num_bands); 902cabdff1aSopenharmony_ci } 903cabdff1aSopenharmony_ci } 904cabdff1aSopenharmony_ci remaining_channels -= chgroup->num_channels; 905cabdff1aSopenharmony_ci } 906cabdff1aSopenharmony_ci } 907cabdff1aSopenharmony_ci return 0; 908cabdff1aSopenharmony_ci} 909cabdff1aSopenharmony_ci 910cabdff1aSopenharmony_ci/** 911cabdff1aSopenharmony_ci *@brief Extract the coefficients from the bitstream. 912cabdff1aSopenharmony_ci *@param s codec context 913cabdff1aSopenharmony_ci *@param c current channel number 914cabdff1aSopenharmony_ci *@return 0 on success, < 0 in case of bitstream errors 915cabdff1aSopenharmony_ci */ 916cabdff1aSopenharmony_cistatic int decode_coeffs(WMAProDecodeCtx *s, int c) 917cabdff1aSopenharmony_ci{ 918cabdff1aSopenharmony_ci /* Integers 0..15 as single-precision floats. The table saves a 919cabdff1aSopenharmony_ci costly int to float conversion, and storing the values as 920cabdff1aSopenharmony_ci integers allows fast sign-flipping. */ 921cabdff1aSopenharmony_ci static const uint32_t fval_tab[16] = { 922cabdff1aSopenharmony_ci 0x00000000, 0x3f800000, 0x40000000, 0x40400000, 923cabdff1aSopenharmony_ci 0x40800000, 0x40a00000, 0x40c00000, 0x40e00000, 924cabdff1aSopenharmony_ci 0x41000000, 0x41100000, 0x41200000, 0x41300000, 925cabdff1aSopenharmony_ci 0x41400000, 0x41500000, 0x41600000, 0x41700000, 926cabdff1aSopenharmony_ci }; 927cabdff1aSopenharmony_ci int vlctable; 928cabdff1aSopenharmony_ci VLC* vlc; 929cabdff1aSopenharmony_ci WMAProChannelCtx* ci = &s->channel[c]; 930cabdff1aSopenharmony_ci int rl_mode = 0; 931cabdff1aSopenharmony_ci int cur_coeff = 0; 932cabdff1aSopenharmony_ci int num_zeros = 0; 933cabdff1aSopenharmony_ci const uint16_t* run; 934cabdff1aSopenharmony_ci const float* level; 935cabdff1aSopenharmony_ci 936cabdff1aSopenharmony_ci ff_dlog(s->avctx, "decode coefficients for channel %i\n", c); 937cabdff1aSopenharmony_ci 938cabdff1aSopenharmony_ci vlctable = get_bits1(&s->gb); 939cabdff1aSopenharmony_ci vlc = &coef_vlc[vlctable]; 940cabdff1aSopenharmony_ci 941cabdff1aSopenharmony_ci if (vlctable) { 942cabdff1aSopenharmony_ci run = coef1_run; 943cabdff1aSopenharmony_ci level = coef1_level; 944cabdff1aSopenharmony_ci } else { 945cabdff1aSopenharmony_ci run = coef0_run; 946cabdff1aSopenharmony_ci level = coef0_level; 947cabdff1aSopenharmony_ci } 948cabdff1aSopenharmony_ci 949cabdff1aSopenharmony_ci /** decode vector coefficients (consumes up to 167 bits per iteration for 950cabdff1aSopenharmony_ci 4 vector coded large values) */ 951cabdff1aSopenharmony_ci while ((s->transmit_num_vec_coeffs || !rl_mode) && 952cabdff1aSopenharmony_ci (cur_coeff + 3 < ci->num_vec_coeffs)) { 953cabdff1aSopenharmony_ci uint32_t vals[4]; 954cabdff1aSopenharmony_ci int i; 955cabdff1aSopenharmony_ci unsigned int idx; 956cabdff1aSopenharmony_ci 957cabdff1aSopenharmony_ci idx = get_vlc2(&s->gb, vec4_vlc.table, VLCBITS, VEC4MAXDEPTH); 958cabdff1aSopenharmony_ci 959cabdff1aSopenharmony_ci if (idx == HUFF_VEC4_SIZE - 1) { 960cabdff1aSopenharmony_ci for (i = 0; i < 4; i += 2) { 961cabdff1aSopenharmony_ci idx = get_vlc2(&s->gb, vec2_vlc.table, VLCBITS, VEC2MAXDEPTH); 962cabdff1aSopenharmony_ci if (idx == HUFF_VEC2_SIZE - 1) { 963cabdff1aSopenharmony_ci uint32_t v0, v1; 964cabdff1aSopenharmony_ci v0 = get_vlc2(&s->gb, vec1_vlc.table, VLCBITS, VEC1MAXDEPTH); 965cabdff1aSopenharmony_ci if (v0 == HUFF_VEC1_SIZE - 1) 966cabdff1aSopenharmony_ci v0 += ff_wma_get_large_val(&s->gb); 967cabdff1aSopenharmony_ci v1 = get_vlc2(&s->gb, vec1_vlc.table, VLCBITS, VEC1MAXDEPTH); 968cabdff1aSopenharmony_ci if (v1 == HUFF_VEC1_SIZE - 1) 969cabdff1aSopenharmony_ci v1 += ff_wma_get_large_val(&s->gb); 970cabdff1aSopenharmony_ci vals[i ] = av_float2int(v0); 971cabdff1aSopenharmony_ci vals[i+1] = av_float2int(v1); 972cabdff1aSopenharmony_ci } else { 973cabdff1aSopenharmony_ci vals[i] = fval_tab[symbol_to_vec2[idx] >> 4 ]; 974cabdff1aSopenharmony_ci vals[i+1] = fval_tab[symbol_to_vec2[idx] & 0xF]; 975cabdff1aSopenharmony_ci } 976cabdff1aSopenharmony_ci } 977cabdff1aSopenharmony_ci } else { 978cabdff1aSopenharmony_ci vals[0] = fval_tab[ symbol_to_vec4[idx] >> 12 ]; 979cabdff1aSopenharmony_ci vals[1] = fval_tab[(symbol_to_vec4[idx] >> 8) & 0xF]; 980cabdff1aSopenharmony_ci vals[2] = fval_tab[(symbol_to_vec4[idx] >> 4) & 0xF]; 981cabdff1aSopenharmony_ci vals[3] = fval_tab[ symbol_to_vec4[idx] & 0xF]; 982cabdff1aSopenharmony_ci } 983cabdff1aSopenharmony_ci 984cabdff1aSopenharmony_ci /** decode sign */ 985cabdff1aSopenharmony_ci for (i = 0; i < 4; i++) { 986cabdff1aSopenharmony_ci if (vals[i]) { 987cabdff1aSopenharmony_ci uint32_t sign = get_bits1(&s->gb) - 1; 988cabdff1aSopenharmony_ci AV_WN32A(&ci->coeffs[cur_coeff], vals[i] ^ sign << 31); 989cabdff1aSopenharmony_ci num_zeros = 0; 990cabdff1aSopenharmony_ci } else { 991cabdff1aSopenharmony_ci ci->coeffs[cur_coeff] = 0; 992cabdff1aSopenharmony_ci /** switch to run level mode when subframe_len / 128 zeros 993cabdff1aSopenharmony_ci were found in a row */ 994cabdff1aSopenharmony_ci rl_mode |= (++num_zeros > s->subframe_len >> 8); 995cabdff1aSopenharmony_ci } 996cabdff1aSopenharmony_ci ++cur_coeff; 997cabdff1aSopenharmony_ci } 998cabdff1aSopenharmony_ci } 999cabdff1aSopenharmony_ci 1000cabdff1aSopenharmony_ci /** decode run level coded coefficients */ 1001cabdff1aSopenharmony_ci if (cur_coeff < s->subframe_len) { 1002cabdff1aSopenharmony_ci int ret; 1003cabdff1aSopenharmony_ci 1004cabdff1aSopenharmony_ci memset(&ci->coeffs[cur_coeff], 0, 1005cabdff1aSopenharmony_ci sizeof(*ci->coeffs) * (s->subframe_len - cur_coeff)); 1006cabdff1aSopenharmony_ci ret = ff_wma_run_level_decode(s->avctx, &s->gb, vlc, 1007cabdff1aSopenharmony_ci level, run, 1, ci->coeffs, 1008cabdff1aSopenharmony_ci cur_coeff, s->subframe_len, 1009cabdff1aSopenharmony_ci s->subframe_len, s->esc_len, 0); 1010cabdff1aSopenharmony_ci if (ret < 0) 1011cabdff1aSopenharmony_ci return ret; 1012cabdff1aSopenharmony_ci } 1013cabdff1aSopenharmony_ci 1014cabdff1aSopenharmony_ci return 0; 1015cabdff1aSopenharmony_ci} 1016cabdff1aSopenharmony_ci 1017cabdff1aSopenharmony_ci/** 1018cabdff1aSopenharmony_ci *@brief Extract scale factors from the bitstream. 1019cabdff1aSopenharmony_ci *@param s codec context 1020cabdff1aSopenharmony_ci *@return 0 on success, < 0 in case of bitstream errors 1021cabdff1aSopenharmony_ci */ 1022cabdff1aSopenharmony_cistatic int decode_scale_factors(WMAProDecodeCtx* s) 1023cabdff1aSopenharmony_ci{ 1024cabdff1aSopenharmony_ci int i; 1025cabdff1aSopenharmony_ci 1026cabdff1aSopenharmony_ci /** should never consume more than 5344 bits 1027cabdff1aSopenharmony_ci * MAX_CHANNELS * (1 + MAX_BANDS * 23) 1028cabdff1aSopenharmony_ci */ 1029cabdff1aSopenharmony_ci 1030cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1031cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1032cabdff1aSopenharmony_ci int* sf; 1033cabdff1aSopenharmony_ci int* sf_end; 1034cabdff1aSopenharmony_ci s->channel[c].scale_factors = s->channel[c].saved_scale_factors[!s->channel[c].scale_factor_idx]; 1035cabdff1aSopenharmony_ci sf_end = s->channel[c].scale_factors + s->num_bands; 1036cabdff1aSopenharmony_ci 1037cabdff1aSopenharmony_ci /** resample scale factors for the new block size 1038cabdff1aSopenharmony_ci * as the scale factors might need to be resampled several times 1039cabdff1aSopenharmony_ci * before some new values are transmitted, a backup of the last 1040cabdff1aSopenharmony_ci * transmitted scale factors is kept in saved_scale_factors 1041cabdff1aSopenharmony_ci */ 1042cabdff1aSopenharmony_ci if (s->channel[c].reuse_sf) { 1043cabdff1aSopenharmony_ci const int8_t* sf_offsets = s->sf_offsets[s->table_idx][s->channel[c].table_idx]; 1044cabdff1aSopenharmony_ci int b; 1045cabdff1aSopenharmony_ci for (b = 0; b < s->num_bands; b++) 1046cabdff1aSopenharmony_ci s->channel[c].scale_factors[b] = 1047cabdff1aSopenharmony_ci s->channel[c].saved_scale_factors[s->channel[c].scale_factor_idx][*sf_offsets++]; 1048cabdff1aSopenharmony_ci } 1049cabdff1aSopenharmony_ci 1050cabdff1aSopenharmony_ci if (!s->channel[c].cur_subframe || get_bits1(&s->gb)) { 1051cabdff1aSopenharmony_ci 1052cabdff1aSopenharmony_ci if (!s->channel[c].reuse_sf) { 1053cabdff1aSopenharmony_ci int val; 1054cabdff1aSopenharmony_ci /** decode DPCM coded scale factors */ 1055cabdff1aSopenharmony_ci s->channel[c].scale_factor_step = get_bits(&s->gb, 2) + 1; 1056cabdff1aSopenharmony_ci val = 45 / s->channel[c].scale_factor_step; 1057cabdff1aSopenharmony_ci for (sf = s->channel[c].scale_factors; sf < sf_end; sf++) { 1058cabdff1aSopenharmony_ci val += get_vlc2(&s->gb, sf_vlc.table, SCALEVLCBITS, SCALEMAXDEPTH) - 60; 1059cabdff1aSopenharmony_ci *sf = val; 1060cabdff1aSopenharmony_ci } 1061cabdff1aSopenharmony_ci } else { 1062cabdff1aSopenharmony_ci int i; 1063cabdff1aSopenharmony_ci /** run level decode differences to the resampled factors */ 1064cabdff1aSopenharmony_ci for (i = 0; i < s->num_bands; i++) { 1065cabdff1aSopenharmony_ci int idx; 1066cabdff1aSopenharmony_ci int skip; 1067cabdff1aSopenharmony_ci int val; 1068cabdff1aSopenharmony_ci int sign; 1069cabdff1aSopenharmony_ci 1070cabdff1aSopenharmony_ci idx = get_vlc2(&s->gb, sf_rl_vlc.table, VLCBITS, SCALERLMAXDEPTH); 1071cabdff1aSopenharmony_ci 1072cabdff1aSopenharmony_ci if (!idx) { 1073cabdff1aSopenharmony_ci uint32_t code = get_bits(&s->gb, 14); 1074cabdff1aSopenharmony_ci val = code >> 6; 1075cabdff1aSopenharmony_ci sign = (code & 1) - 1; 1076cabdff1aSopenharmony_ci skip = (code & 0x3f) >> 1; 1077cabdff1aSopenharmony_ci } else if (idx == 1) { 1078cabdff1aSopenharmony_ci break; 1079cabdff1aSopenharmony_ci } else { 1080cabdff1aSopenharmony_ci skip = scale_rl_run[idx]; 1081cabdff1aSopenharmony_ci val = scale_rl_level[idx]; 1082cabdff1aSopenharmony_ci sign = get_bits1(&s->gb)-1; 1083cabdff1aSopenharmony_ci } 1084cabdff1aSopenharmony_ci 1085cabdff1aSopenharmony_ci i += skip; 1086cabdff1aSopenharmony_ci if (i >= s->num_bands) { 1087cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, 1088cabdff1aSopenharmony_ci "invalid scale factor coding\n"); 1089cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1090cabdff1aSopenharmony_ci } 1091cabdff1aSopenharmony_ci s->channel[c].scale_factors[i] += (val ^ sign) - sign; 1092cabdff1aSopenharmony_ci } 1093cabdff1aSopenharmony_ci } 1094cabdff1aSopenharmony_ci /** swap buffers */ 1095cabdff1aSopenharmony_ci s->channel[c].scale_factor_idx = !s->channel[c].scale_factor_idx; 1096cabdff1aSopenharmony_ci s->channel[c].table_idx = s->table_idx; 1097cabdff1aSopenharmony_ci s->channel[c].reuse_sf = 1; 1098cabdff1aSopenharmony_ci } 1099cabdff1aSopenharmony_ci 1100cabdff1aSopenharmony_ci /** calculate new scale factor maximum */ 1101cabdff1aSopenharmony_ci s->channel[c].max_scale_factor = s->channel[c].scale_factors[0]; 1102cabdff1aSopenharmony_ci for (sf = s->channel[c].scale_factors + 1; sf < sf_end; sf++) { 1103cabdff1aSopenharmony_ci s->channel[c].max_scale_factor = 1104cabdff1aSopenharmony_ci FFMAX(s->channel[c].max_scale_factor, *sf); 1105cabdff1aSopenharmony_ci } 1106cabdff1aSopenharmony_ci 1107cabdff1aSopenharmony_ci } 1108cabdff1aSopenharmony_ci return 0; 1109cabdff1aSopenharmony_ci} 1110cabdff1aSopenharmony_ci 1111cabdff1aSopenharmony_ci/** 1112cabdff1aSopenharmony_ci *@brief Reconstruct the individual channel data. 1113cabdff1aSopenharmony_ci *@param s codec context 1114cabdff1aSopenharmony_ci */ 1115cabdff1aSopenharmony_cistatic void inverse_channel_transform(WMAProDecodeCtx *s) 1116cabdff1aSopenharmony_ci{ 1117cabdff1aSopenharmony_ci int i; 1118cabdff1aSopenharmony_ci 1119cabdff1aSopenharmony_ci for (i = 0; i < s->num_chgroups; i++) { 1120cabdff1aSopenharmony_ci if (s->chgroup[i].transform) { 1121cabdff1aSopenharmony_ci float data[WMAPRO_MAX_CHANNELS]; 1122cabdff1aSopenharmony_ci const int num_channels = s->chgroup[i].num_channels; 1123cabdff1aSopenharmony_ci float** ch_data = s->chgroup[i].channel_data; 1124cabdff1aSopenharmony_ci float** ch_end = ch_data + num_channels; 1125cabdff1aSopenharmony_ci const int8_t* tb = s->chgroup[i].transform_band; 1126cabdff1aSopenharmony_ci int16_t* sfb; 1127cabdff1aSopenharmony_ci 1128cabdff1aSopenharmony_ci /** multichannel decorrelation */ 1129cabdff1aSopenharmony_ci for (sfb = s->cur_sfb_offsets; 1130cabdff1aSopenharmony_ci sfb < s->cur_sfb_offsets + s->num_bands; sfb++) { 1131cabdff1aSopenharmony_ci int y; 1132cabdff1aSopenharmony_ci if (*tb++ == 1) { 1133cabdff1aSopenharmony_ci /** multiply values with the decorrelation_matrix */ 1134cabdff1aSopenharmony_ci for (y = sfb[0]; y < FFMIN(sfb[1], s->subframe_len); y++) { 1135cabdff1aSopenharmony_ci const float* mat = s->chgroup[i].decorrelation_matrix; 1136cabdff1aSopenharmony_ci const float* data_end = data + num_channels; 1137cabdff1aSopenharmony_ci float* data_ptr = data; 1138cabdff1aSopenharmony_ci float** ch; 1139cabdff1aSopenharmony_ci 1140cabdff1aSopenharmony_ci for (ch = ch_data; ch < ch_end; ch++) 1141cabdff1aSopenharmony_ci *data_ptr++ = (*ch)[y]; 1142cabdff1aSopenharmony_ci 1143cabdff1aSopenharmony_ci for (ch = ch_data; ch < ch_end; ch++) { 1144cabdff1aSopenharmony_ci float sum = 0; 1145cabdff1aSopenharmony_ci data_ptr = data; 1146cabdff1aSopenharmony_ci while (data_ptr < data_end) 1147cabdff1aSopenharmony_ci sum += *data_ptr++ * *mat++; 1148cabdff1aSopenharmony_ci 1149cabdff1aSopenharmony_ci (*ch)[y] = sum; 1150cabdff1aSopenharmony_ci } 1151cabdff1aSopenharmony_ci } 1152cabdff1aSopenharmony_ci } else if (s->nb_channels == 2) { 1153cabdff1aSopenharmony_ci int len = FFMIN(sfb[1], s->subframe_len) - sfb[0]; 1154cabdff1aSopenharmony_ci s->fdsp->vector_fmul_scalar(ch_data[0] + sfb[0], 1155cabdff1aSopenharmony_ci ch_data[0] + sfb[0], 1156cabdff1aSopenharmony_ci 181.0 / 128, len); 1157cabdff1aSopenharmony_ci s->fdsp->vector_fmul_scalar(ch_data[1] + sfb[0], 1158cabdff1aSopenharmony_ci ch_data[1] + sfb[0], 1159cabdff1aSopenharmony_ci 181.0 / 128, len); 1160cabdff1aSopenharmony_ci } 1161cabdff1aSopenharmony_ci } 1162cabdff1aSopenharmony_ci } 1163cabdff1aSopenharmony_ci } 1164cabdff1aSopenharmony_ci} 1165cabdff1aSopenharmony_ci 1166cabdff1aSopenharmony_ci/** 1167cabdff1aSopenharmony_ci *@brief Apply sine window and reconstruct the output buffer. 1168cabdff1aSopenharmony_ci *@param s codec context 1169cabdff1aSopenharmony_ci */ 1170cabdff1aSopenharmony_cistatic void wmapro_window(WMAProDecodeCtx *s) 1171cabdff1aSopenharmony_ci{ 1172cabdff1aSopenharmony_ci int i; 1173cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1174cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1175cabdff1aSopenharmony_ci const float* window; 1176cabdff1aSopenharmony_ci int winlen = s->channel[c].prev_block_len; 1177cabdff1aSopenharmony_ci float* start = s->channel[c].coeffs - (winlen >> 1); 1178cabdff1aSopenharmony_ci 1179cabdff1aSopenharmony_ci if (s->subframe_len < winlen) { 1180cabdff1aSopenharmony_ci start += (winlen - s->subframe_len) >> 1; 1181cabdff1aSopenharmony_ci winlen = s->subframe_len; 1182cabdff1aSopenharmony_ci } 1183cabdff1aSopenharmony_ci 1184cabdff1aSopenharmony_ci window = s->windows[av_log2(winlen) - WMAPRO_BLOCK_MIN_BITS]; 1185cabdff1aSopenharmony_ci 1186cabdff1aSopenharmony_ci winlen >>= 1; 1187cabdff1aSopenharmony_ci 1188cabdff1aSopenharmony_ci s->fdsp->vector_fmul_window(start, start, start + winlen, 1189cabdff1aSopenharmony_ci window, winlen); 1190cabdff1aSopenharmony_ci 1191cabdff1aSopenharmony_ci s->channel[c].prev_block_len = s->subframe_len; 1192cabdff1aSopenharmony_ci } 1193cabdff1aSopenharmony_ci} 1194cabdff1aSopenharmony_ci 1195cabdff1aSopenharmony_ci/** 1196cabdff1aSopenharmony_ci *@brief Decode a single subframe (block). 1197cabdff1aSopenharmony_ci *@param s codec context 1198cabdff1aSopenharmony_ci *@return 0 on success, < 0 when decoding failed 1199cabdff1aSopenharmony_ci */ 1200cabdff1aSopenharmony_cistatic int decode_subframe(WMAProDecodeCtx *s) 1201cabdff1aSopenharmony_ci{ 1202cabdff1aSopenharmony_ci int offset = s->samples_per_frame; 1203cabdff1aSopenharmony_ci int subframe_len = s->samples_per_frame; 1204cabdff1aSopenharmony_ci int i; 1205cabdff1aSopenharmony_ci int total_samples = s->samples_per_frame * s->nb_channels; 1206cabdff1aSopenharmony_ci int transmit_coeffs = 0; 1207cabdff1aSopenharmony_ci int cur_subwoofer_cutoff; 1208cabdff1aSopenharmony_ci 1209cabdff1aSopenharmony_ci s->subframe_offset = get_bits_count(&s->gb); 1210cabdff1aSopenharmony_ci 1211cabdff1aSopenharmony_ci /** reset channel context and find the next block offset and size 1212cabdff1aSopenharmony_ci == the next block of the channel with the smallest number of 1213cabdff1aSopenharmony_ci decoded samples 1214cabdff1aSopenharmony_ci */ 1215cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) { 1216cabdff1aSopenharmony_ci s->channel[i].grouped = 0; 1217cabdff1aSopenharmony_ci if (offset > s->channel[i].decoded_samples) { 1218cabdff1aSopenharmony_ci offset = s->channel[i].decoded_samples; 1219cabdff1aSopenharmony_ci subframe_len = 1220cabdff1aSopenharmony_ci s->channel[i].subframe_len[s->channel[i].cur_subframe]; 1221cabdff1aSopenharmony_ci } 1222cabdff1aSopenharmony_ci } 1223cabdff1aSopenharmony_ci 1224cabdff1aSopenharmony_ci ff_dlog(s->avctx, 1225cabdff1aSopenharmony_ci "processing subframe with offset %i len %i\n", offset, subframe_len); 1226cabdff1aSopenharmony_ci 1227cabdff1aSopenharmony_ci /** get a list of all channels that contain the estimated block */ 1228cabdff1aSopenharmony_ci s->channels_for_cur_subframe = 0; 1229cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) { 1230cabdff1aSopenharmony_ci const int cur_subframe = s->channel[i].cur_subframe; 1231cabdff1aSopenharmony_ci /** subtract already processed samples */ 1232cabdff1aSopenharmony_ci total_samples -= s->channel[i].decoded_samples; 1233cabdff1aSopenharmony_ci 1234cabdff1aSopenharmony_ci /** and count if there are multiple subframes that match our profile */ 1235cabdff1aSopenharmony_ci if (offset == s->channel[i].decoded_samples && 1236cabdff1aSopenharmony_ci subframe_len == s->channel[i].subframe_len[cur_subframe]) { 1237cabdff1aSopenharmony_ci total_samples -= s->channel[i].subframe_len[cur_subframe]; 1238cabdff1aSopenharmony_ci s->channel[i].decoded_samples += 1239cabdff1aSopenharmony_ci s->channel[i].subframe_len[cur_subframe]; 1240cabdff1aSopenharmony_ci s->channel_indexes_for_cur_subframe[s->channels_for_cur_subframe] = i; 1241cabdff1aSopenharmony_ci ++s->channels_for_cur_subframe; 1242cabdff1aSopenharmony_ci } 1243cabdff1aSopenharmony_ci } 1244cabdff1aSopenharmony_ci 1245cabdff1aSopenharmony_ci /** check if the frame will be complete after processing the 1246cabdff1aSopenharmony_ci estimated block */ 1247cabdff1aSopenharmony_ci if (!total_samples) 1248cabdff1aSopenharmony_ci s->parsed_all_subframes = 1; 1249cabdff1aSopenharmony_ci 1250cabdff1aSopenharmony_ci 1251cabdff1aSopenharmony_ci ff_dlog(s->avctx, "subframe is part of %i channels\n", 1252cabdff1aSopenharmony_ci s->channels_for_cur_subframe); 1253cabdff1aSopenharmony_ci 1254cabdff1aSopenharmony_ci /** calculate number of scale factor bands and their offsets */ 1255cabdff1aSopenharmony_ci s->table_idx = av_log2(s->samples_per_frame/subframe_len); 1256cabdff1aSopenharmony_ci s->num_bands = s->num_sfb[s->table_idx]; 1257cabdff1aSopenharmony_ci s->cur_sfb_offsets = s->sfb_offsets[s->table_idx]; 1258cabdff1aSopenharmony_ci cur_subwoofer_cutoff = s->subwoofer_cutoffs[s->table_idx]; 1259cabdff1aSopenharmony_ci 1260cabdff1aSopenharmony_ci /** configure the decoder for the current subframe */ 1261cabdff1aSopenharmony_ci offset += s->samples_per_frame >> 1; 1262cabdff1aSopenharmony_ci 1263cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1264cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1265cabdff1aSopenharmony_ci 1266cabdff1aSopenharmony_ci s->channel[c].coeffs = &s->channel[c].out[offset]; 1267cabdff1aSopenharmony_ci } 1268cabdff1aSopenharmony_ci 1269cabdff1aSopenharmony_ci s->subframe_len = subframe_len; 1270cabdff1aSopenharmony_ci s->esc_len = av_log2(s->subframe_len - 1) + 1; 1271cabdff1aSopenharmony_ci 1272cabdff1aSopenharmony_ci /** skip extended header if any */ 1273cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 1274cabdff1aSopenharmony_ci int num_fill_bits; 1275cabdff1aSopenharmony_ci if (!(num_fill_bits = get_bits(&s->gb, 2))) { 1276cabdff1aSopenharmony_ci int len = get_bits(&s->gb, 4); 1277cabdff1aSopenharmony_ci num_fill_bits = get_bitsz(&s->gb, len) + 1; 1278cabdff1aSopenharmony_ci } 1279cabdff1aSopenharmony_ci 1280cabdff1aSopenharmony_ci if (num_fill_bits >= 0) { 1281cabdff1aSopenharmony_ci if (get_bits_count(&s->gb) + num_fill_bits > s->num_saved_bits) { 1282cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, "invalid number of fill bits\n"); 1283cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1284cabdff1aSopenharmony_ci } 1285cabdff1aSopenharmony_ci 1286cabdff1aSopenharmony_ci skip_bits_long(&s->gb, num_fill_bits); 1287cabdff1aSopenharmony_ci } 1288cabdff1aSopenharmony_ci } 1289cabdff1aSopenharmony_ci 1290cabdff1aSopenharmony_ci /** no idea for what the following bit is used */ 1291cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 1292cabdff1aSopenharmony_ci avpriv_request_sample(s->avctx, "Reserved bit"); 1293cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 1294cabdff1aSopenharmony_ci } 1295cabdff1aSopenharmony_ci 1296cabdff1aSopenharmony_ci 1297cabdff1aSopenharmony_ci if (decode_channel_transform(s) < 0) 1298cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1299cabdff1aSopenharmony_ci 1300cabdff1aSopenharmony_ci 1301cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1302cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1303cabdff1aSopenharmony_ci if ((s->channel[c].transmit_coefs = get_bits1(&s->gb))) 1304cabdff1aSopenharmony_ci transmit_coeffs = 1; 1305cabdff1aSopenharmony_ci } 1306cabdff1aSopenharmony_ci 1307cabdff1aSopenharmony_ci av_assert0(s->subframe_len <= WMAPRO_BLOCK_MAX_SIZE); 1308cabdff1aSopenharmony_ci if (transmit_coeffs) { 1309cabdff1aSopenharmony_ci int step; 1310cabdff1aSopenharmony_ci int quant_step = 90 * s->bits_per_sample >> 4; 1311cabdff1aSopenharmony_ci 1312cabdff1aSopenharmony_ci /** decode number of vector coded coefficients */ 1313cabdff1aSopenharmony_ci if ((s->transmit_num_vec_coeffs = get_bits1(&s->gb))) { 1314cabdff1aSopenharmony_ci int num_bits = av_log2((s->subframe_len + 3)/4) + 1; 1315cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1316cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1317cabdff1aSopenharmony_ci int num_vec_coeffs = get_bits(&s->gb, num_bits) << 2; 1318cabdff1aSopenharmony_ci if (num_vec_coeffs > s->subframe_len) { 1319cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, "num_vec_coeffs %d is too large\n", num_vec_coeffs); 1320cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1321cabdff1aSopenharmony_ci } 1322cabdff1aSopenharmony_ci av_assert0(num_vec_coeffs + offset <= FF_ARRAY_ELEMS(s->channel[c].out)); 1323cabdff1aSopenharmony_ci s->channel[c].num_vec_coeffs = num_vec_coeffs; 1324cabdff1aSopenharmony_ci } 1325cabdff1aSopenharmony_ci } else { 1326cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1327cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1328cabdff1aSopenharmony_ci s->channel[c].num_vec_coeffs = s->subframe_len; 1329cabdff1aSopenharmony_ci } 1330cabdff1aSopenharmony_ci } 1331cabdff1aSopenharmony_ci /** decode quantization step */ 1332cabdff1aSopenharmony_ci step = get_sbits(&s->gb, 6); 1333cabdff1aSopenharmony_ci quant_step += step; 1334cabdff1aSopenharmony_ci if (step == -32 || step == 31) { 1335cabdff1aSopenharmony_ci const int sign = (step == 31) - 1; 1336cabdff1aSopenharmony_ci int quant = 0; 1337cabdff1aSopenharmony_ci while (get_bits_count(&s->gb) + 5 < s->num_saved_bits && 1338cabdff1aSopenharmony_ci (step = get_bits(&s->gb, 5)) == 31) { 1339cabdff1aSopenharmony_ci quant += 31; 1340cabdff1aSopenharmony_ci } 1341cabdff1aSopenharmony_ci quant_step += ((quant + step) ^ sign) - sign; 1342cabdff1aSopenharmony_ci } 1343cabdff1aSopenharmony_ci if (quant_step < 0) { 1344cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_DEBUG, "negative quant step\n"); 1345cabdff1aSopenharmony_ci } 1346cabdff1aSopenharmony_ci 1347cabdff1aSopenharmony_ci /** decode quantization step modifiers for every channel */ 1348cabdff1aSopenharmony_ci 1349cabdff1aSopenharmony_ci if (s->channels_for_cur_subframe == 1) { 1350cabdff1aSopenharmony_ci s->channel[s->channel_indexes_for_cur_subframe[0]].quant_step = quant_step; 1351cabdff1aSopenharmony_ci } else { 1352cabdff1aSopenharmony_ci int modifier_len = get_bits(&s->gb, 3); 1353cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1354cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1355cabdff1aSopenharmony_ci s->channel[c].quant_step = quant_step; 1356cabdff1aSopenharmony_ci if (get_bits1(&s->gb)) { 1357cabdff1aSopenharmony_ci if (modifier_len) { 1358cabdff1aSopenharmony_ci s->channel[c].quant_step += get_bits(&s->gb, modifier_len) + 1; 1359cabdff1aSopenharmony_ci } else 1360cabdff1aSopenharmony_ci ++s->channel[c].quant_step; 1361cabdff1aSopenharmony_ci } 1362cabdff1aSopenharmony_ci } 1363cabdff1aSopenharmony_ci } 1364cabdff1aSopenharmony_ci 1365cabdff1aSopenharmony_ci /** decode scale factors */ 1366cabdff1aSopenharmony_ci if (decode_scale_factors(s) < 0) 1367cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1368cabdff1aSopenharmony_ci } 1369cabdff1aSopenharmony_ci 1370cabdff1aSopenharmony_ci ff_dlog(s->avctx, "BITSTREAM: subframe header length was %i\n", 1371cabdff1aSopenharmony_ci get_bits_count(&s->gb) - s->subframe_offset); 1372cabdff1aSopenharmony_ci 1373cabdff1aSopenharmony_ci /** parse coefficients */ 1374cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1375cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1376cabdff1aSopenharmony_ci if (s->channel[c].transmit_coefs && 1377cabdff1aSopenharmony_ci get_bits_count(&s->gb) < s->num_saved_bits) { 1378cabdff1aSopenharmony_ci decode_coeffs(s, c); 1379cabdff1aSopenharmony_ci } else 1380cabdff1aSopenharmony_ci memset(s->channel[c].coeffs, 0, 1381cabdff1aSopenharmony_ci sizeof(*s->channel[c].coeffs) * subframe_len); 1382cabdff1aSopenharmony_ci } 1383cabdff1aSopenharmony_ci 1384cabdff1aSopenharmony_ci ff_dlog(s->avctx, "BITSTREAM: subframe length was %i\n", 1385cabdff1aSopenharmony_ci get_bits_count(&s->gb) - s->subframe_offset); 1386cabdff1aSopenharmony_ci 1387cabdff1aSopenharmony_ci if (transmit_coeffs) { 1388cabdff1aSopenharmony_ci FFTContext *mdct = &s->mdct_ctx[av_log2(subframe_len) - WMAPRO_BLOCK_MIN_BITS]; 1389cabdff1aSopenharmony_ci /** reconstruct the per channel data */ 1390cabdff1aSopenharmony_ci inverse_channel_transform(s); 1391cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1392cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1393cabdff1aSopenharmony_ci const int* sf = s->channel[c].scale_factors; 1394cabdff1aSopenharmony_ci int b; 1395cabdff1aSopenharmony_ci 1396cabdff1aSopenharmony_ci if (c == s->lfe_channel) 1397cabdff1aSopenharmony_ci memset(&s->tmp[cur_subwoofer_cutoff], 0, sizeof(*s->tmp) * 1398cabdff1aSopenharmony_ci (subframe_len - cur_subwoofer_cutoff)); 1399cabdff1aSopenharmony_ci 1400cabdff1aSopenharmony_ci /** inverse quantization and rescaling */ 1401cabdff1aSopenharmony_ci for (b = 0; b < s->num_bands; b++) { 1402cabdff1aSopenharmony_ci const int end = FFMIN(s->cur_sfb_offsets[b+1], s->subframe_len); 1403cabdff1aSopenharmony_ci const int exp = s->channel[c].quant_step - 1404cabdff1aSopenharmony_ci (s->channel[c].max_scale_factor - *sf++) * 1405cabdff1aSopenharmony_ci s->channel[c].scale_factor_step; 1406cabdff1aSopenharmony_ci const float quant = ff_exp10(exp / 20.0); 1407cabdff1aSopenharmony_ci int start = s->cur_sfb_offsets[b]; 1408cabdff1aSopenharmony_ci s->fdsp->vector_fmul_scalar(s->tmp + start, 1409cabdff1aSopenharmony_ci s->channel[c].coeffs + start, 1410cabdff1aSopenharmony_ci quant, end - start); 1411cabdff1aSopenharmony_ci } 1412cabdff1aSopenharmony_ci 1413cabdff1aSopenharmony_ci /** apply imdct (imdct_half == DCTIV with reverse) */ 1414cabdff1aSopenharmony_ci mdct->imdct_half(mdct, s->channel[c].coeffs, s->tmp); 1415cabdff1aSopenharmony_ci } 1416cabdff1aSopenharmony_ci } 1417cabdff1aSopenharmony_ci 1418cabdff1aSopenharmony_ci /** window and overlapp-add */ 1419cabdff1aSopenharmony_ci wmapro_window(s); 1420cabdff1aSopenharmony_ci 1421cabdff1aSopenharmony_ci /** handled one subframe */ 1422cabdff1aSopenharmony_ci for (i = 0; i < s->channels_for_cur_subframe; i++) { 1423cabdff1aSopenharmony_ci int c = s->channel_indexes_for_cur_subframe[i]; 1424cabdff1aSopenharmony_ci if (s->channel[c].cur_subframe >= s->channel[c].num_subframes) { 1425cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, "broken subframe\n"); 1426cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1427cabdff1aSopenharmony_ci } 1428cabdff1aSopenharmony_ci ++s->channel[c].cur_subframe; 1429cabdff1aSopenharmony_ci } 1430cabdff1aSopenharmony_ci 1431cabdff1aSopenharmony_ci return 0; 1432cabdff1aSopenharmony_ci} 1433cabdff1aSopenharmony_ci 1434cabdff1aSopenharmony_ci/** 1435cabdff1aSopenharmony_ci *@brief Decode one WMA frame. 1436cabdff1aSopenharmony_ci *@param s codec context 1437cabdff1aSopenharmony_ci *@return 0 if the trailer bit indicates that this is the last frame, 1438cabdff1aSopenharmony_ci * 1 if there are additional frames 1439cabdff1aSopenharmony_ci */ 1440cabdff1aSopenharmony_cistatic int decode_frame(WMAProDecodeCtx *s, AVFrame *frame, int *got_frame_ptr) 1441cabdff1aSopenharmony_ci{ 1442cabdff1aSopenharmony_ci GetBitContext* gb = &s->gb; 1443cabdff1aSopenharmony_ci int more_frames = 0; 1444cabdff1aSopenharmony_ci int len = 0; 1445cabdff1aSopenharmony_ci int i; 1446cabdff1aSopenharmony_ci 1447cabdff1aSopenharmony_ci /** get frame length */ 1448cabdff1aSopenharmony_ci if (s->len_prefix) 1449cabdff1aSopenharmony_ci len = get_bits(gb, s->log2_frame_size); 1450cabdff1aSopenharmony_ci 1451cabdff1aSopenharmony_ci ff_dlog(s->avctx, "decoding frame with length %x\n", len); 1452cabdff1aSopenharmony_ci 1453cabdff1aSopenharmony_ci /** decode tile information */ 1454cabdff1aSopenharmony_ci if (decode_tilehdr(s)) { 1455cabdff1aSopenharmony_ci s->packet_loss = 1; 1456cabdff1aSopenharmony_ci return 0; 1457cabdff1aSopenharmony_ci } 1458cabdff1aSopenharmony_ci 1459cabdff1aSopenharmony_ci /** read postproc transform */ 1460cabdff1aSopenharmony_ci if (s->nb_channels > 1 && get_bits1(gb)) { 1461cabdff1aSopenharmony_ci if (get_bits1(gb)) { 1462cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels * s->nb_channels; i++) 1463cabdff1aSopenharmony_ci skip_bits(gb, 4); 1464cabdff1aSopenharmony_ci } 1465cabdff1aSopenharmony_ci } 1466cabdff1aSopenharmony_ci 1467cabdff1aSopenharmony_ci /** read drc info */ 1468cabdff1aSopenharmony_ci if (s->dynamic_range_compression) { 1469cabdff1aSopenharmony_ci s->drc_gain = get_bits(gb, 8); 1470cabdff1aSopenharmony_ci ff_dlog(s->avctx, "drc_gain %i\n", s->drc_gain); 1471cabdff1aSopenharmony_ci } 1472cabdff1aSopenharmony_ci 1473cabdff1aSopenharmony_ci if (get_bits1(gb)) { 1474cabdff1aSopenharmony_ci if (get_bits1(gb)) 1475cabdff1aSopenharmony_ci s->trim_start = get_bits(gb, av_log2(s->samples_per_frame * 2)); 1476cabdff1aSopenharmony_ci 1477cabdff1aSopenharmony_ci if (get_bits1(gb)) 1478cabdff1aSopenharmony_ci s->trim_end = get_bits(gb, av_log2(s->samples_per_frame * 2)); 1479cabdff1aSopenharmony_ci } else { 1480cabdff1aSopenharmony_ci s->trim_start = s->trim_end = 0; 1481cabdff1aSopenharmony_ci } 1482cabdff1aSopenharmony_ci 1483cabdff1aSopenharmony_ci ff_dlog(s->avctx, "BITSTREAM: frame header length was %i\n", 1484cabdff1aSopenharmony_ci get_bits_count(gb) - s->frame_offset); 1485cabdff1aSopenharmony_ci 1486cabdff1aSopenharmony_ci /** reset subframe states */ 1487cabdff1aSopenharmony_ci s->parsed_all_subframes = 0; 1488cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) { 1489cabdff1aSopenharmony_ci s->channel[i].decoded_samples = 0; 1490cabdff1aSopenharmony_ci s->channel[i].cur_subframe = 0; 1491cabdff1aSopenharmony_ci s->channel[i].reuse_sf = 0; 1492cabdff1aSopenharmony_ci } 1493cabdff1aSopenharmony_ci 1494cabdff1aSopenharmony_ci /** decode all subframes */ 1495cabdff1aSopenharmony_ci while (!s->parsed_all_subframes) { 1496cabdff1aSopenharmony_ci if (decode_subframe(s) < 0) { 1497cabdff1aSopenharmony_ci s->packet_loss = 1; 1498cabdff1aSopenharmony_ci return 0; 1499cabdff1aSopenharmony_ci } 1500cabdff1aSopenharmony_ci } 1501cabdff1aSopenharmony_ci 1502cabdff1aSopenharmony_ci /** copy samples to the output buffer */ 1503cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) 1504cabdff1aSopenharmony_ci memcpy(frame->extended_data[i], s->channel[i].out, 1505cabdff1aSopenharmony_ci s->samples_per_frame * sizeof(*s->channel[i].out)); 1506cabdff1aSopenharmony_ci 1507cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) { 1508cabdff1aSopenharmony_ci /** reuse second half of the IMDCT output for the next frame */ 1509cabdff1aSopenharmony_ci memcpy(&s->channel[i].out[0], 1510cabdff1aSopenharmony_ci &s->channel[i].out[s->samples_per_frame], 1511cabdff1aSopenharmony_ci s->samples_per_frame * sizeof(*s->channel[i].out) >> 1); 1512cabdff1aSopenharmony_ci } 1513cabdff1aSopenharmony_ci 1514cabdff1aSopenharmony_ci if (s->skip_frame) { 1515cabdff1aSopenharmony_ci s->skip_frame = 0; 1516cabdff1aSopenharmony_ci *got_frame_ptr = 0; 1517cabdff1aSopenharmony_ci av_frame_unref(frame); 1518cabdff1aSopenharmony_ci } else { 1519cabdff1aSopenharmony_ci *got_frame_ptr = 1; 1520cabdff1aSopenharmony_ci } 1521cabdff1aSopenharmony_ci 1522cabdff1aSopenharmony_ci if (s->len_prefix) { 1523cabdff1aSopenharmony_ci if (len != (get_bits_count(gb) - s->frame_offset) + 2) { 1524cabdff1aSopenharmony_ci /** FIXME: not sure if this is always an error */ 1525cabdff1aSopenharmony_ci av_log(s->avctx, AV_LOG_ERROR, 1526cabdff1aSopenharmony_ci "frame[%"PRIu32"] would have to skip %i bits\n", 1527cabdff1aSopenharmony_ci s->frame_num, 1528cabdff1aSopenharmony_ci len - (get_bits_count(gb) - s->frame_offset) - 1); 1529cabdff1aSopenharmony_ci s->packet_loss = 1; 1530cabdff1aSopenharmony_ci return 0; 1531cabdff1aSopenharmony_ci } 1532cabdff1aSopenharmony_ci 1533cabdff1aSopenharmony_ci /** skip the rest of the frame data */ 1534cabdff1aSopenharmony_ci skip_bits_long(gb, len - (get_bits_count(gb) - s->frame_offset) - 1); 1535cabdff1aSopenharmony_ci } else { 1536cabdff1aSopenharmony_ci while (get_bits_count(gb) < s->num_saved_bits && get_bits1(gb) == 0) { 1537cabdff1aSopenharmony_ci } 1538cabdff1aSopenharmony_ci } 1539cabdff1aSopenharmony_ci 1540cabdff1aSopenharmony_ci /** decode trailer bit */ 1541cabdff1aSopenharmony_ci more_frames = get_bits1(gb); 1542cabdff1aSopenharmony_ci 1543cabdff1aSopenharmony_ci ++s->frame_num; 1544cabdff1aSopenharmony_ci return more_frames; 1545cabdff1aSopenharmony_ci} 1546cabdff1aSopenharmony_ci 1547cabdff1aSopenharmony_ci/** 1548cabdff1aSopenharmony_ci *@brief Calculate remaining input buffer length. 1549cabdff1aSopenharmony_ci *@param s codec context 1550cabdff1aSopenharmony_ci *@param gb bitstream reader context 1551cabdff1aSopenharmony_ci *@return remaining size in bits 1552cabdff1aSopenharmony_ci */ 1553cabdff1aSopenharmony_cistatic int remaining_bits(WMAProDecodeCtx *s, GetBitContext *gb) 1554cabdff1aSopenharmony_ci{ 1555cabdff1aSopenharmony_ci return s->buf_bit_size - get_bits_count(gb); 1556cabdff1aSopenharmony_ci} 1557cabdff1aSopenharmony_ci 1558cabdff1aSopenharmony_ci/** 1559cabdff1aSopenharmony_ci *@brief Fill the bit reservoir with a (partial) frame. 1560cabdff1aSopenharmony_ci *@param s codec context 1561cabdff1aSopenharmony_ci *@param gb bitstream reader context 1562cabdff1aSopenharmony_ci *@param len length of the partial frame 1563cabdff1aSopenharmony_ci *@param append decides whether to reset the buffer or not 1564cabdff1aSopenharmony_ci */ 1565cabdff1aSopenharmony_cistatic void save_bits(WMAProDecodeCtx *s, GetBitContext* gb, int len, 1566cabdff1aSopenharmony_ci int append) 1567cabdff1aSopenharmony_ci{ 1568cabdff1aSopenharmony_ci int buflen; 1569cabdff1aSopenharmony_ci 1570cabdff1aSopenharmony_ci /** when the frame data does not need to be concatenated, the input buffer 1571cabdff1aSopenharmony_ci is reset and additional bits from the previous frame are copied 1572cabdff1aSopenharmony_ci and skipped later so that a fast byte copy is possible */ 1573cabdff1aSopenharmony_ci 1574cabdff1aSopenharmony_ci if (!append) { 1575cabdff1aSopenharmony_ci s->frame_offset = get_bits_count(gb) & 7; 1576cabdff1aSopenharmony_ci s->num_saved_bits = s->frame_offset; 1577cabdff1aSopenharmony_ci init_put_bits(&s->pb, s->frame_data, MAX_FRAMESIZE); 1578cabdff1aSopenharmony_ci buflen = (s->num_saved_bits + len + 7) >> 3; 1579cabdff1aSopenharmony_ci } else 1580cabdff1aSopenharmony_ci buflen = (put_bits_count(&s->pb) + len + 7) >> 3; 1581cabdff1aSopenharmony_ci 1582cabdff1aSopenharmony_ci if (len <= 0 || buflen > MAX_FRAMESIZE) { 1583cabdff1aSopenharmony_ci avpriv_request_sample(s->avctx, "Too small input buffer"); 1584cabdff1aSopenharmony_ci s->packet_loss = 1; 1585cabdff1aSopenharmony_ci return; 1586cabdff1aSopenharmony_ci } 1587cabdff1aSopenharmony_ci 1588cabdff1aSopenharmony_ci av_assert0(len <= put_bits_left(&s->pb)); 1589cabdff1aSopenharmony_ci 1590cabdff1aSopenharmony_ci s->num_saved_bits += len; 1591cabdff1aSopenharmony_ci if (!append) { 1592cabdff1aSopenharmony_ci ff_copy_bits(&s->pb, gb->buffer + (get_bits_count(gb) >> 3), 1593cabdff1aSopenharmony_ci s->num_saved_bits); 1594cabdff1aSopenharmony_ci } else { 1595cabdff1aSopenharmony_ci int align = 8 - (get_bits_count(gb) & 7); 1596cabdff1aSopenharmony_ci align = FFMIN(align, len); 1597cabdff1aSopenharmony_ci put_bits(&s->pb, align, get_bits(gb, align)); 1598cabdff1aSopenharmony_ci len -= align; 1599cabdff1aSopenharmony_ci ff_copy_bits(&s->pb, gb->buffer + (get_bits_count(gb) >> 3), len); 1600cabdff1aSopenharmony_ci } 1601cabdff1aSopenharmony_ci skip_bits_long(gb, len); 1602cabdff1aSopenharmony_ci 1603cabdff1aSopenharmony_ci { 1604cabdff1aSopenharmony_ci PutBitContext tmp = s->pb; 1605cabdff1aSopenharmony_ci flush_put_bits(&tmp); 1606cabdff1aSopenharmony_ci } 1607cabdff1aSopenharmony_ci 1608cabdff1aSopenharmony_ci init_get_bits(&s->gb, s->frame_data, s->num_saved_bits); 1609cabdff1aSopenharmony_ci skip_bits(&s->gb, s->frame_offset); 1610cabdff1aSopenharmony_ci} 1611cabdff1aSopenharmony_ci 1612cabdff1aSopenharmony_cistatic int decode_packet(AVCodecContext *avctx, WMAProDecodeCtx *s, 1613cabdff1aSopenharmony_ci AVFrame *frame, int *got_frame_ptr, AVPacket *avpkt) 1614cabdff1aSopenharmony_ci{ 1615cabdff1aSopenharmony_ci GetBitContext* gb = &s->pgb; 1616cabdff1aSopenharmony_ci const uint8_t* buf = avpkt->data; 1617cabdff1aSopenharmony_ci int buf_size = avpkt->size; 1618cabdff1aSopenharmony_ci int num_bits_prev_frame; 1619cabdff1aSopenharmony_ci int packet_sequence_number; 1620cabdff1aSopenharmony_ci int ret; 1621cabdff1aSopenharmony_ci 1622cabdff1aSopenharmony_ci *got_frame_ptr = 0; 1623cabdff1aSopenharmony_ci 1624cabdff1aSopenharmony_ci if (!buf_size) { 1625cabdff1aSopenharmony_ci int i; 1626cabdff1aSopenharmony_ci 1627cabdff1aSopenharmony_ci /** Must output remaining samples after stream end. WMAPRO 5.1 created 1628cabdff1aSopenharmony_ci * by XWMA encoder don't though (maybe only 1/2ch streams need it). */ 1629cabdff1aSopenharmony_ci s->packet_done = 0; 1630cabdff1aSopenharmony_ci if (s->eof_done) 1631cabdff1aSopenharmony_ci return 0; 1632cabdff1aSopenharmony_ci 1633cabdff1aSopenharmony_ci /** clean output buffer and copy last IMDCT samples */ 1634cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) { 1635cabdff1aSopenharmony_ci memset(frame->extended_data[i], 0, 1636cabdff1aSopenharmony_ci s->samples_per_frame * sizeof(*s->channel[i].out)); 1637cabdff1aSopenharmony_ci 1638cabdff1aSopenharmony_ci memcpy(frame->extended_data[i], s->channel[i].out, 1639cabdff1aSopenharmony_ci s->samples_per_frame * sizeof(*s->channel[i].out) >> 1); 1640cabdff1aSopenharmony_ci } 1641cabdff1aSopenharmony_ci 1642cabdff1aSopenharmony_ci s->eof_done = 1; 1643cabdff1aSopenharmony_ci s->packet_done = 1; 1644cabdff1aSopenharmony_ci *got_frame_ptr = 1; 1645cabdff1aSopenharmony_ci return 0; 1646cabdff1aSopenharmony_ci } 1647cabdff1aSopenharmony_ci else if (s->packet_done || s->packet_loss) { 1648cabdff1aSopenharmony_ci s->packet_done = 0; 1649cabdff1aSopenharmony_ci 1650cabdff1aSopenharmony_ci /** sanity check for the buffer length */ 1651cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_WMAPRO && buf_size < avctx->block_align) { 1652cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "Input packet too small (%d < %d)\n", 1653cabdff1aSopenharmony_ci buf_size, avctx->block_align); 1654cabdff1aSopenharmony_ci s->packet_loss = 1; 1655cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1656cabdff1aSopenharmony_ci } 1657cabdff1aSopenharmony_ci 1658cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_WMAPRO) { 1659cabdff1aSopenharmony_ci s->next_packet_start = buf_size - avctx->block_align; 1660cabdff1aSopenharmony_ci buf_size = avctx->block_align; 1661cabdff1aSopenharmony_ci } else { 1662cabdff1aSopenharmony_ci s->next_packet_start = buf_size - FFMIN(buf_size, avctx->block_align); 1663cabdff1aSopenharmony_ci buf_size = FFMIN(buf_size, avctx->block_align); 1664cabdff1aSopenharmony_ci } 1665cabdff1aSopenharmony_ci s->buf_bit_size = buf_size << 3; 1666cabdff1aSopenharmony_ci 1667cabdff1aSopenharmony_ci /** parse packet header */ 1668cabdff1aSopenharmony_ci ret = init_get_bits8(gb, buf, buf_size); 1669cabdff1aSopenharmony_ci if (ret < 0) 1670cabdff1aSopenharmony_ci return ret; 1671cabdff1aSopenharmony_ci if (avctx->codec_id != AV_CODEC_ID_XMA2) { 1672cabdff1aSopenharmony_ci packet_sequence_number = get_bits(gb, 4); 1673cabdff1aSopenharmony_ci skip_bits(gb, 2); 1674cabdff1aSopenharmony_ci } else { 1675cabdff1aSopenharmony_ci int num_frames = get_bits(gb, 6); 1676cabdff1aSopenharmony_ci ff_dlog(avctx, "packet[%d]: number of frames %d\n", avctx->frame_number, num_frames); 1677cabdff1aSopenharmony_ci packet_sequence_number = 0; 1678cabdff1aSopenharmony_ci } 1679cabdff1aSopenharmony_ci 1680cabdff1aSopenharmony_ci /** get number of bits that need to be added to the previous frame */ 1681cabdff1aSopenharmony_ci num_bits_prev_frame = get_bits(gb, s->log2_frame_size); 1682cabdff1aSopenharmony_ci if (avctx->codec_id != AV_CODEC_ID_WMAPRO) { 1683cabdff1aSopenharmony_ci skip_bits(gb, 3); 1684cabdff1aSopenharmony_ci s->skip_packets = get_bits(gb, 8); 1685cabdff1aSopenharmony_ci ff_dlog(avctx, "packet[%d]: skip packets %d\n", avctx->frame_number, s->skip_packets); 1686cabdff1aSopenharmony_ci } 1687cabdff1aSopenharmony_ci 1688cabdff1aSopenharmony_ci ff_dlog(avctx, "packet[%d]: nbpf %x\n", avctx->frame_number, 1689cabdff1aSopenharmony_ci num_bits_prev_frame); 1690cabdff1aSopenharmony_ci 1691cabdff1aSopenharmony_ci /** check for packet loss */ 1692cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_WMAPRO && !s->packet_loss && 1693cabdff1aSopenharmony_ci ((s->packet_sequence_number + 1) & 0xF) != packet_sequence_number) { 1694cabdff1aSopenharmony_ci s->packet_loss = 1; 1695cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, 1696cabdff1aSopenharmony_ci "Packet loss detected! seq %"PRIx8" vs %x\n", 1697cabdff1aSopenharmony_ci s->packet_sequence_number, packet_sequence_number); 1698cabdff1aSopenharmony_ci } 1699cabdff1aSopenharmony_ci s->packet_sequence_number = packet_sequence_number; 1700cabdff1aSopenharmony_ci 1701cabdff1aSopenharmony_ci if (num_bits_prev_frame > 0) { 1702cabdff1aSopenharmony_ci int remaining_packet_bits = s->buf_bit_size - get_bits_count(gb); 1703cabdff1aSopenharmony_ci if (num_bits_prev_frame >= remaining_packet_bits) { 1704cabdff1aSopenharmony_ci num_bits_prev_frame = remaining_packet_bits; 1705cabdff1aSopenharmony_ci s->packet_done = 1; 1706cabdff1aSopenharmony_ci } 1707cabdff1aSopenharmony_ci 1708cabdff1aSopenharmony_ci /** append the previous frame data to the remaining data from the 1709cabdff1aSopenharmony_ci previous packet to create a full frame */ 1710cabdff1aSopenharmony_ci save_bits(s, gb, num_bits_prev_frame, 1); 1711cabdff1aSopenharmony_ci ff_dlog(avctx, "accumulated %x bits of frame data\n", 1712cabdff1aSopenharmony_ci s->num_saved_bits - s->frame_offset); 1713cabdff1aSopenharmony_ci 1714cabdff1aSopenharmony_ci /** decode the cross packet frame if it is valid */ 1715cabdff1aSopenharmony_ci if (!s->packet_loss) 1716cabdff1aSopenharmony_ci decode_frame(s, frame, got_frame_ptr); 1717cabdff1aSopenharmony_ci } else if (s->num_saved_bits - s->frame_offset) { 1718cabdff1aSopenharmony_ci ff_dlog(avctx, "ignoring %x previously saved bits\n", 1719cabdff1aSopenharmony_ci s->num_saved_bits - s->frame_offset); 1720cabdff1aSopenharmony_ci } 1721cabdff1aSopenharmony_ci 1722cabdff1aSopenharmony_ci if (s->packet_loss) { 1723cabdff1aSopenharmony_ci /** reset number of saved bits so that the decoder 1724cabdff1aSopenharmony_ci does not start to decode incomplete frames in the 1725cabdff1aSopenharmony_ci s->len_prefix == 0 case */ 1726cabdff1aSopenharmony_ci s->num_saved_bits = 0; 1727cabdff1aSopenharmony_ci s->packet_loss = 0; 1728cabdff1aSopenharmony_ci } 1729cabdff1aSopenharmony_ci } else { 1730cabdff1aSopenharmony_ci int frame_size; 1731cabdff1aSopenharmony_ci 1732cabdff1aSopenharmony_ci if (avpkt->size < s->next_packet_start) { 1733cabdff1aSopenharmony_ci s->packet_loss = 1; 1734cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1735cabdff1aSopenharmony_ci } 1736cabdff1aSopenharmony_ci 1737cabdff1aSopenharmony_ci s->buf_bit_size = (avpkt->size - s->next_packet_start) << 3; 1738cabdff1aSopenharmony_ci ret = init_get_bits8(gb, avpkt->data, avpkt->size - s->next_packet_start); 1739cabdff1aSopenharmony_ci if (ret < 0) 1740cabdff1aSopenharmony_ci return ret; 1741cabdff1aSopenharmony_ci skip_bits(gb, s->packet_offset); 1742cabdff1aSopenharmony_ci if (s->len_prefix && remaining_bits(s, gb) > s->log2_frame_size && 1743cabdff1aSopenharmony_ci (frame_size = show_bits(gb, s->log2_frame_size)) && 1744cabdff1aSopenharmony_ci frame_size <= remaining_bits(s, gb)) { 1745cabdff1aSopenharmony_ci save_bits(s, gb, frame_size, 0); 1746cabdff1aSopenharmony_ci if (!s->packet_loss) 1747cabdff1aSopenharmony_ci s->packet_done = !decode_frame(s, frame, got_frame_ptr); 1748cabdff1aSopenharmony_ci } else if (!s->len_prefix 1749cabdff1aSopenharmony_ci && s->num_saved_bits > get_bits_count(&s->gb)) { 1750cabdff1aSopenharmony_ci /** when the frames do not have a length prefix, we don't know 1751cabdff1aSopenharmony_ci the compressed length of the individual frames 1752cabdff1aSopenharmony_ci however, we know what part of a new packet belongs to the 1753cabdff1aSopenharmony_ci previous frame 1754cabdff1aSopenharmony_ci therefore we save the incoming packet first, then we append 1755cabdff1aSopenharmony_ci the "previous frame" data from the next packet so that 1756cabdff1aSopenharmony_ci we get a buffer that only contains full frames */ 1757cabdff1aSopenharmony_ci s->packet_done = !decode_frame(s, frame, got_frame_ptr); 1758cabdff1aSopenharmony_ci } else { 1759cabdff1aSopenharmony_ci s->packet_done = 1; 1760cabdff1aSopenharmony_ci } 1761cabdff1aSopenharmony_ci } 1762cabdff1aSopenharmony_ci 1763cabdff1aSopenharmony_ci if (remaining_bits(s, gb) < 0) { 1764cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "Overread %d\n", -remaining_bits(s, gb)); 1765cabdff1aSopenharmony_ci s->packet_loss = 1; 1766cabdff1aSopenharmony_ci } 1767cabdff1aSopenharmony_ci 1768cabdff1aSopenharmony_ci if (s->packet_done && !s->packet_loss && 1769cabdff1aSopenharmony_ci remaining_bits(s, gb) > 0) { 1770cabdff1aSopenharmony_ci /** save the rest of the data so that it can be decoded 1771cabdff1aSopenharmony_ci with the next packet */ 1772cabdff1aSopenharmony_ci save_bits(s, gb, remaining_bits(s, gb), 0); 1773cabdff1aSopenharmony_ci } 1774cabdff1aSopenharmony_ci 1775cabdff1aSopenharmony_ci s->packet_offset = get_bits_count(gb) & 7; 1776cabdff1aSopenharmony_ci if (s->packet_loss) 1777cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1778cabdff1aSopenharmony_ci 1779cabdff1aSopenharmony_ci if (s->trim_start && avctx->codec_id == AV_CODEC_ID_WMAPRO) { 1780cabdff1aSopenharmony_ci if (s->trim_start < frame->nb_samples) { 1781cabdff1aSopenharmony_ci for (int ch = 0; ch < frame->ch_layout.nb_channels; ch++) 1782cabdff1aSopenharmony_ci frame->extended_data[ch] += s->trim_start * 4; 1783cabdff1aSopenharmony_ci 1784cabdff1aSopenharmony_ci frame->nb_samples -= s->trim_start; 1785cabdff1aSopenharmony_ci } else { 1786cabdff1aSopenharmony_ci *got_frame_ptr = 0; 1787cabdff1aSopenharmony_ci } 1788cabdff1aSopenharmony_ci 1789cabdff1aSopenharmony_ci s->trim_start = 0; 1790cabdff1aSopenharmony_ci } 1791cabdff1aSopenharmony_ci 1792cabdff1aSopenharmony_ci if (s->trim_end && avctx->codec_id == AV_CODEC_ID_WMAPRO) { 1793cabdff1aSopenharmony_ci if (s->trim_end < frame->nb_samples) { 1794cabdff1aSopenharmony_ci frame->nb_samples -= s->trim_end; 1795cabdff1aSopenharmony_ci } else { 1796cabdff1aSopenharmony_ci *got_frame_ptr = 0; 1797cabdff1aSopenharmony_ci } 1798cabdff1aSopenharmony_ci 1799cabdff1aSopenharmony_ci s->trim_end = 0; 1800cabdff1aSopenharmony_ci } 1801cabdff1aSopenharmony_ci 1802cabdff1aSopenharmony_ci return get_bits_count(gb) >> 3; 1803cabdff1aSopenharmony_ci} 1804cabdff1aSopenharmony_ci 1805cabdff1aSopenharmony_ci/** 1806cabdff1aSopenharmony_ci *@brief Decode a single WMA packet. 1807cabdff1aSopenharmony_ci *@param avctx codec context 1808cabdff1aSopenharmony_ci *@param data the output buffer 1809cabdff1aSopenharmony_ci *@param avpkt input packet 1810cabdff1aSopenharmony_ci *@return number of bytes that were read from the input buffer 1811cabdff1aSopenharmony_ci */ 1812cabdff1aSopenharmony_cistatic int wmapro_decode_packet(AVCodecContext *avctx, AVFrame *frame, 1813cabdff1aSopenharmony_ci int *got_frame_ptr, AVPacket *avpkt) 1814cabdff1aSopenharmony_ci{ 1815cabdff1aSopenharmony_ci WMAProDecodeCtx *s = avctx->priv_data; 1816cabdff1aSopenharmony_ci int ret; 1817cabdff1aSopenharmony_ci 1818cabdff1aSopenharmony_ci /* get output buffer */ 1819cabdff1aSopenharmony_ci frame->nb_samples = s->samples_per_frame; 1820cabdff1aSopenharmony_ci if ((ret = ff_get_buffer(avctx, frame, 0)) < 0) { 1821cabdff1aSopenharmony_ci s->packet_loss = 1; 1822cabdff1aSopenharmony_ci return 0; 1823cabdff1aSopenharmony_ci } 1824cabdff1aSopenharmony_ci 1825cabdff1aSopenharmony_ci return decode_packet(avctx, s, frame, got_frame_ptr, avpkt); 1826cabdff1aSopenharmony_ci} 1827cabdff1aSopenharmony_ci 1828cabdff1aSopenharmony_cistatic int xma_decode_packet(AVCodecContext *avctx, AVFrame *frame, 1829cabdff1aSopenharmony_ci int *got_frame_ptr, AVPacket *avpkt) 1830cabdff1aSopenharmony_ci{ 1831cabdff1aSopenharmony_ci XMADecodeCtx *s = avctx->priv_data; 1832cabdff1aSopenharmony_ci int got_stream_frame_ptr = 0; 1833cabdff1aSopenharmony_ci int i, ret = 0, eof = 0; 1834cabdff1aSopenharmony_ci 1835cabdff1aSopenharmony_ci if (!s->frames[s->current_stream]->data[0]) { 1836cabdff1aSopenharmony_ci avctx->internal->skip_samples = 64; 1837cabdff1aSopenharmony_ci s->frames[s->current_stream]->nb_samples = 512; 1838cabdff1aSopenharmony_ci if ((ret = ff_get_buffer(avctx, s->frames[s->current_stream], 0)) < 0) 1839cabdff1aSopenharmony_ci return ret; 1840cabdff1aSopenharmony_ci } else if (s->frames[s->current_stream]->nb_samples != 512) { 1841cabdff1aSopenharmony_ci avctx->internal->skip_samples = 64; 1842cabdff1aSopenharmony_ci av_frame_unref(s->frames[s->current_stream]); 1843cabdff1aSopenharmony_ci s->frames[s->current_stream]->nb_samples = 512; 1844cabdff1aSopenharmony_ci if ((ret = ff_get_buffer(avctx, s->frames[s->current_stream], 0)) < 0) 1845cabdff1aSopenharmony_ci return ret; 1846cabdff1aSopenharmony_ci } 1847cabdff1aSopenharmony_ci /* decode current stream packet */ 1848cabdff1aSopenharmony_ci if (!s->xma[s->current_stream].eof_done) { 1849cabdff1aSopenharmony_ci ret = decode_packet(avctx, &s->xma[s->current_stream], s->frames[s->current_stream], 1850cabdff1aSopenharmony_ci &got_stream_frame_ptr, avpkt); 1851cabdff1aSopenharmony_ci } 1852cabdff1aSopenharmony_ci 1853cabdff1aSopenharmony_ci if (!avpkt->size) { 1854cabdff1aSopenharmony_ci eof = 1; 1855cabdff1aSopenharmony_ci 1856cabdff1aSopenharmony_ci for (i = 0; i < s->num_streams; i++) { 1857cabdff1aSopenharmony_ci if (!s->xma[i].eof_done && s->frames[i]->data[0]) { 1858cabdff1aSopenharmony_ci ret = decode_packet(avctx, &s->xma[i], s->frames[i], 1859cabdff1aSopenharmony_ci &got_stream_frame_ptr, avpkt); 1860cabdff1aSopenharmony_ci } 1861cabdff1aSopenharmony_ci 1862cabdff1aSopenharmony_ci eof &= s->xma[i].eof_done; 1863cabdff1aSopenharmony_ci } 1864cabdff1aSopenharmony_ci } 1865cabdff1aSopenharmony_ci 1866cabdff1aSopenharmony_ci if (s->xma[0].trim_start) 1867cabdff1aSopenharmony_ci s->trim_start = s->xma[0].trim_start; 1868cabdff1aSopenharmony_ci if (s->xma[0].trim_end) 1869cabdff1aSopenharmony_ci s->trim_end = s->xma[0].trim_end; 1870cabdff1aSopenharmony_ci 1871cabdff1aSopenharmony_ci /* copy stream samples (1/2ch) to sample buffer (Nch) */ 1872cabdff1aSopenharmony_ci if (got_stream_frame_ptr) { 1873cabdff1aSopenharmony_ci const int nb_samples = s->frames[s->current_stream]->nb_samples; 1874cabdff1aSopenharmony_ci void *left[1] = { s->frames[s->current_stream]->extended_data[0] }; 1875cabdff1aSopenharmony_ci void *right[1] = { s->frames[s->current_stream]->extended_data[1] }; 1876cabdff1aSopenharmony_ci 1877cabdff1aSopenharmony_ci av_audio_fifo_write(s->samples[0][s->current_stream], left, nb_samples); 1878cabdff1aSopenharmony_ci if (s->xma[s->current_stream].nb_channels > 1) 1879cabdff1aSopenharmony_ci av_audio_fifo_write(s->samples[1][s->current_stream], right, nb_samples); 1880cabdff1aSopenharmony_ci } else if (ret < 0) { 1881cabdff1aSopenharmony_ci s->current_stream = 0; 1882cabdff1aSopenharmony_ci return ret; 1883cabdff1aSopenharmony_ci } 1884cabdff1aSopenharmony_ci 1885cabdff1aSopenharmony_ci /* find next XMA packet's owner stream, and update. 1886cabdff1aSopenharmony_ci * XMA streams find their packets following packet_skips 1887cabdff1aSopenharmony_ci * (at start there is one packet per stream, then interleave non-linearly). */ 1888cabdff1aSopenharmony_ci if (s->xma[s->current_stream].packet_done || 1889cabdff1aSopenharmony_ci s->xma[s->current_stream].packet_loss) { 1890cabdff1aSopenharmony_ci int nb_samples = INT_MAX; 1891cabdff1aSopenharmony_ci 1892cabdff1aSopenharmony_ci /* select stream with 0 skip_packets (= uses next packet) */ 1893cabdff1aSopenharmony_ci if (s->xma[s->current_stream].skip_packets != 0) { 1894cabdff1aSopenharmony_ci int min[2]; 1895cabdff1aSopenharmony_ci 1896cabdff1aSopenharmony_ci min[0] = s->xma[0].skip_packets; 1897cabdff1aSopenharmony_ci min[1] = i = 0; 1898cabdff1aSopenharmony_ci 1899cabdff1aSopenharmony_ci for (i = 1; i < s->num_streams; i++) { 1900cabdff1aSopenharmony_ci if (s->xma[i].skip_packets < min[0]) { 1901cabdff1aSopenharmony_ci min[0] = s->xma[i].skip_packets; 1902cabdff1aSopenharmony_ci min[1] = i; 1903cabdff1aSopenharmony_ci } 1904cabdff1aSopenharmony_ci } 1905cabdff1aSopenharmony_ci 1906cabdff1aSopenharmony_ci s->current_stream = min[1]; 1907cabdff1aSopenharmony_ci } 1908cabdff1aSopenharmony_ci 1909cabdff1aSopenharmony_ci /* all other streams skip next packet */ 1910cabdff1aSopenharmony_ci for (i = 0; i < s->num_streams; i++) { 1911cabdff1aSopenharmony_ci s->xma[i].skip_packets = FFMAX(0, s->xma[i].skip_packets - 1); 1912cabdff1aSopenharmony_ci nb_samples = FFMIN(nb_samples, av_audio_fifo_size(s->samples[0][i])); 1913cabdff1aSopenharmony_ci } 1914cabdff1aSopenharmony_ci 1915cabdff1aSopenharmony_ci if (!eof && avpkt->size) 1916cabdff1aSopenharmony_ci nb_samples -= FFMIN(nb_samples, 4096); 1917cabdff1aSopenharmony_ci 1918cabdff1aSopenharmony_ci /* copy samples from buffer to output if possible */ 1919cabdff1aSopenharmony_ci if ((nb_samples > 0 || eof || !avpkt->size) && !s->flushed) { 1920cabdff1aSopenharmony_ci int bret; 1921cabdff1aSopenharmony_ci 1922cabdff1aSopenharmony_ci if (eof) { 1923cabdff1aSopenharmony_ci nb_samples -= av_clip(s->trim_end + s->trim_start - 128 - 64, 0, nb_samples); 1924cabdff1aSopenharmony_ci s->flushed = 1; 1925cabdff1aSopenharmony_ci } 1926cabdff1aSopenharmony_ci 1927cabdff1aSopenharmony_ci frame->nb_samples = nb_samples; 1928cabdff1aSopenharmony_ci if ((bret = ff_get_buffer(avctx, frame, 0)) < 0) 1929cabdff1aSopenharmony_ci return bret; 1930cabdff1aSopenharmony_ci 1931cabdff1aSopenharmony_ci for (i = 0; i < s->num_streams; i++) { 1932cabdff1aSopenharmony_ci const int start_ch = s->start_channel[i]; 1933cabdff1aSopenharmony_ci void *left[1] = { frame->extended_data[start_ch + 0] }; 1934cabdff1aSopenharmony_ci 1935cabdff1aSopenharmony_ci av_audio_fifo_read(s->samples[0][i], left, nb_samples); 1936cabdff1aSopenharmony_ci if (s->xma[i].nb_channels > 1) { 1937cabdff1aSopenharmony_ci void *right[1] = { frame->extended_data[start_ch + 1] }; 1938cabdff1aSopenharmony_ci av_audio_fifo_read(s->samples[1][i], right, nb_samples); 1939cabdff1aSopenharmony_ci } 1940cabdff1aSopenharmony_ci } 1941cabdff1aSopenharmony_ci 1942cabdff1aSopenharmony_ci *got_frame_ptr = nb_samples > 0; 1943cabdff1aSopenharmony_ci } 1944cabdff1aSopenharmony_ci } 1945cabdff1aSopenharmony_ci 1946cabdff1aSopenharmony_ci return ret; 1947cabdff1aSopenharmony_ci} 1948cabdff1aSopenharmony_ci 1949cabdff1aSopenharmony_cistatic av_cold int xma_decode_init(AVCodecContext *avctx) 1950cabdff1aSopenharmony_ci{ 1951cabdff1aSopenharmony_ci XMADecodeCtx *s = avctx->priv_data; 1952cabdff1aSopenharmony_ci int i, ret, start_channels = 0; 1953cabdff1aSopenharmony_ci 1954cabdff1aSopenharmony_ci if (avctx->ch_layout.nb_channels <= 0 || avctx->extradata_size == 0) 1955cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 1956cabdff1aSopenharmony_ci 1957cabdff1aSopenharmony_ci /* get stream config */ 1958cabdff1aSopenharmony_ci if (avctx->codec_id == AV_CODEC_ID_XMA2 && avctx->extradata_size == 34) { /* XMA2WAVEFORMATEX */ 1959cabdff1aSopenharmony_ci unsigned int channel_mask = AV_RL32(avctx->extradata + 2); 1960cabdff1aSopenharmony_ci if (channel_mask) { 1961cabdff1aSopenharmony_ci av_channel_layout_uninit(&avctx->ch_layout); 1962cabdff1aSopenharmony_ci av_channel_layout_from_mask(&avctx->ch_layout, channel_mask); 1963cabdff1aSopenharmony_ci } else 1964cabdff1aSopenharmony_ci avctx->ch_layout.order = AV_CHANNEL_ORDER_UNSPEC; 1965cabdff1aSopenharmony_ci s->num_streams = AV_RL16(avctx->extradata); 1966cabdff1aSopenharmony_ci } else if (avctx->codec_id == AV_CODEC_ID_XMA2 && avctx->extradata_size >= 2) { /* XMA2WAVEFORMAT */ 1967cabdff1aSopenharmony_ci s->num_streams = avctx->extradata[1]; 1968cabdff1aSopenharmony_ci if (avctx->extradata_size != (32 + ((avctx->extradata[0]==3)?0:8) + 4*s->num_streams)) { 1969cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "Incorrect XMA2 extradata size\n"); 1970cabdff1aSopenharmony_ci s->num_streams = 0; 1971cabdff1aSopenharmony_ci return AVERROR(EINVAL); 1972cabdff1aSopenharmony_ci } 1973cabdff1aSopenharmony_ci } else if (avctx->codec_id == AV_CODEC_ID_XMA1 && avctx->extradata_size >= 4) { /* XMAWAVEFORMAT */ 1974cabdff1aSopenharmony_ci s->num_streams = avctx->extradata[4]; 1975cabdff1aSopenharmony_ci if (avctx->extradata_size != (8 + 20*s->num_streams)) { 1976cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "Incorrect XMA1 extradata size\n"); 1977cabdff1aSopenharmony_ci s->num_streams = 0; 1978cabdff1aSopenharmony_ci return AVERROR(EINVAL); 1979cabdff1aSopenharmony_ci } 1980cabdff1aSopenharmony_ci } else { 1981cabdff1aSopenharmony_ci av_log(avctx, AV_LOG_ERROR, "Incorrect XMA config\n"); 1982cabdff1aSopenharmony_ci return AVERROR(EINVAL); 1983cabdff1aSopenharmony_ci } 1984cabdff1aSopenharmony_ci 1985cabdff1aSopenharmony_ci /* encoder supports up to 64 streams / 64*2 channels (would have to alloc arrays) */ 1986cabdff1aSopenharmony_ci if (avctx->ch_layout.nb_channels > XMA_MAX_CHANNELS || s->num_streams > XMA_MAX_STREAMS || 1987cabdff1aSopenharmony_ci s->num_streams <= 0 1988cabdff1aSopenharmony_ci ) { 1989cabdff1aSopenharmony_ci avpriv_request_sample(avctx, "More than %d channels in %d streams", XMA_MAX_CHANNELS, s->num_streams); 1990cabdff1aSopenharmony_ci s->num_streams = 0; 1991cabdff1aSopenharmony_ci return AVERROR_PATCHWELCOME; 1992cabdff1aSopenharmony_ci } 1993cabdff1aSopenharmony_ci 1994cabdff1aSopenharmony_ci /* init all streams (several streams of 1/2ch make Nch files) */ 1995cabdff1aSopenharmony_ci for (i = 0; i < s->num_streams; i++) { 1996cabdff1aSopenharmony_ci ret = decode_init(&s->xma[i], avctx, i); 1997cabdff1aSopenharmony_ci if (ret < 0) 1998cabdff1aSopenharmony_ci return ret; 1999cabdff1aSopenharmony_ci s->frames[i] = av_frame_alloc(); 2000cabdff1aSopenharmony_ci if (!s->frames[i]) 2001cabdff1aSopenharmony_ci return AVERROR(ENOMEM); 2002cabdff1aSopenharmony_ci 2003cabdff1aSopenharmony_ci s->start_channel[i] = start_channels; 2004cabdff1aSopenharmony_ci start_channels += s->xma[i].nb_channels; 2005cabdff1aSopenharmony_ci } 2006cabdff1aSopenharmony_ci if (start_channels != avctx->ch_layout.nb_channels) 2007cabdff1aSopenharmony_ci return AVERROR_INVALIDDATA; 2008cabdff1aSopenharmony_ci 2009cabdff1aSopenharmony_ci for (int i = 0; i < XMA_MAX_STREAMS; i++) { 2010cabdff1aSopenharmony_ci s->samples[0][i] = av_audio_fifo_alloc(avctx->sample_fmt, 1, 64 * 512); 2011cabdff1aSopenharmony_ci s->samples[1][i] = av_audio_fifo_alloc(avctx->sample_fmt, 1, 64 * 512); 2012cabdff1aSopenharmony_ci if (!s->samples[0][i] || !s->samples[1][i]) 2013cabdff1aSopenharmony_ci return AVERROR(ENOMEM); 2014cabdff1aSopenharmony_ci } 2015cabdff1aSopenharmony_ci 2016cabdff1aSopenharmony_ci return ret; 2017cabdff1aSopenharmony_ci} 2018cabdff1aSopenharmony_ci 2019cabdff1aSopenharmony_cistatic av_cold int xma_decode_end(AVCodecContext *avctx) 2020cabdff1aSopenharmony_ci{ 2021cabdff1aSopenharmony_ci XMADecodeCtx *s = avctx->priv_data; 2022cabdff1aSopenharmony_ci int i; 2023cabdff1aSopenharmony_ci 2024cabdff1aSopenharmony_ci for (i = 0; i < s->num_streams; i++) { 2025cabdff1aSopenharmony_ci decode_end(&s->xma[i]); 2026cabdff1aSopenharmony_ci av_frame_free(&s->frames[i]); 2027cabdff1aSopenharmony_ci } 2028cabdff1aSopenharmony_ci s->num_streams = 0; 2029cabdff1aSopenharmony_ci 2030cabdff1aSopenharmony_ci for (i = 0; i < XMA_MAX_STREAMS; i++) { 2031cabdff1aSopenharmony_ci av_audio_fifo_free(s->samples[0][i]); 2032cabdff1aSopenharmony_ci av_audio_fifo_free(s->samples[1][i]); 2033cabdff1aSopenharmony_ci } 2034cabdff1aSopenharmony_ci 2035cabdff1aSopenharmony_ci return 0; 2036cabdff1aSopenharmony_ci} 2037cabdff1aSopenharmony_ci 2038cabdff1aSopenharmony_cistatic void flush(WMAProDecodeCtx *s) 2039cabdff1aSopenharmony_ci{ 2040cabdff1aSopenharmony_ci int i; 2041cabdff1aSopenharmony_ci /** reset output buffer as a part of it is used during the windowing of a 2042cabdff1aSopenharmony_ci new frame */ 2043cabdff1aSopenharmony_ci for (i = 0; i < s->nb_channels; i++) 2044cabdff1aSopenharmony_ci memset(s->channel[i].out, 0, s->samples_per_frame * 2045cabdff1aSopenharmony_ci sizeof(*s->channel[i].out)); 2046cabdff1aSopenharmony_ci s->packet_loss = 1; 2047cabdff1aSopenharmony_ci s->skip_packets = 0; 2048cabdff1aSopenharmony_ci s->eof_done = 0; 2049cabdff1aSopenharmony_ci s->skip_frame = 1; 2050cabdff1aSopenharmony_ci} 2051cabdff1aSopenharmony_ci 2052cabdff1aSopenharmony_ci/** 2053cabdff1aSopenharmony_ci *@brief Clear decoder buffers (for seeking). 2054cabdff1aSopenharmony_ci *@param avctx codec context 2055cabdff1aSopenharmony_ci */ 2056cabdff1aSopenharmony_cistatic void wmapro_flush(AVCodecContext *avctx) 2057cabdff1aSopenharmony_ci{ 2058cabdff1aSopenharmony_ci WMAProDecodeCtx *s = avctx->priv_data; 2059cabdff1aSopenharmony_ci 2060cabdff1aSopenharmony_ci flush(s); 2061cabdff1aSopenharmony_ci} 2062cabdff1aSopenharmony_ci 2063cabdff1aSopenharmony_cistatic void xma_flush(AVCodecContext *avctx) 2064cabdff1aSopenharmony_ci{ 2065cabdff1aSopenharmony_ci XMADecodeCtx *s = avctx->priv_data; 2066cabdff1aSopenharmony_ci int i; 2067cabdff1aSopenharmony_ci 2068cabdff1aSopenharmony_ci for (i = 0; i < XMA_MAX_STREAMS; i++) { 2069cabdff1aSopenharmony_ci av_audio_fifo_reset(s->samples[0][i]); 2070cabdff1aSopenharmony_ci av_audio_fifo_reset(s->samples[1][i]); 2071cabdff1aSopenharmony_ci } 2072cabdff1aSopenharmony_ci 2073cabdff1aSopenharmony_ci for (i = 0; i < s->num_streams; i++) 2074cabdff1aSopenharmony_ci flush(&s->xma[i]); 2075cabdff1aSopenharmony_ci 2076cabdff1aSopenharmony_ci s->current_stream = 0; 2077cabdff1aSopenharmony_ci s->flushed = 0; 2078cabdff1aSopenharmony_ci} 2079cabdff1aSopenharmony_ci 2080cabdff1aSopenharmony_ci/** 2081cabdff1aSopenharmony_ci *@brief wmapro decoder 2082cabdff1aSopenharmony_ci */ 2083cabdff1aSopenharmony_ciconst FFCodec ff_wmapro_decoder = { 2084cabdff1aSopenharmony_ci .p.name = "wmapro", 2085cabdff1aSopenharmony_ci .p.long_name = NULL_IF_CONFIG_SMALL("Windows Media Audio 9 Professional"), 2086cabdff1aSopenharmony_ci .p.type = AVMEDIA_TYPE_AUDIO, 2087cabdff1aSopenharmony_ci .p.id = AV_CODEC_ID_WMAPRO, 2088cabdff1aSopenharmony_ci .priv_data_size = sizeof(WMAProDecodeCtx), 2089cabdff1aSopenharmony_ci .init = wmapro_decode_init, 2090cabdff1aSopenharmony_ci .close = wmapro_decode_end, 2091cabdff1aSopenharmony_ci FF_CODEC_DECODE_CB(wmapro_decode_packet), 2092cabdff1aSopenharmony_ci .p.capabilities = AV_CODEC_CAP_SUBFRAMES | AV_CODEC_CAP_DR1, 2093cabdff1aSopenharmony_ci .flush = wmapro_flush, 2094cabdff1aSopenharmony_ci .p.sample_fmts = (const enum AVSampleFormat[]) { AV_SAMPLE_FMT_FLTP, 2095cabdff1aSopenharmony_ci AV_SAMPLE_FMT_NONE }, 2096cabdff1aSopenharmony_ci .caps_internal = FF_CODEC_CAP_INIT_THREADSAFE | FF_CODEC_CAP_INIT_CLEANUP, 2097cabdff1aSopenharmony_ci}; 2098cabdff1aSopenharmony_ci 2099cabdff1aSopenharmony_ciconst FFCodec ff_xma1_decoder = { 2100cabdff1aSopenharmony_ci .p.name = "xma1", 2101cabdff1aSopenharmony_ci .p.long_name = NULL_IF_CONFIG_SMALL("Xbox Media Audio 1"), 2102cabdff1aSopenharmony_ci .p.type = AVMEDIA_TYPE_AUDIO, 2103cabdff1aSopenharmony_ci .p.id = AV_CODEC_ID_XMA1, 2104cabdff1aSopenharmony_ci .priv_data_size = sizeof(XMADecodeCtx), 2105cabdff1aSopenharmony_ci .init = xma_decode_init, 2106cabdff1aSopenharmony_ci .close = xma_decode_end, 2107cabdff1aSopenharmony_ci FF_CODEC_DECODE_CB(xma_decode_packet), 2108cabdff1aSopenharmony_ci .p.capabilities = AV_CODEC_CAP_SUBFRAMES | AV_CODEC_CAP_DR1 | AV_CODEC_CAP_DELAY, 2109cabdff1aSopenharmony_ci .p.sample_fmts = (const enum AVSampleFormat[]) { AV_SAMPLE_FMT_FLTP, 2110cabdff1aSopenharmony_ci AV_SAMPLE_FMT_NONE }, 2111cabdff1aSopenharmony_ci .caps_internal = FF_CODEC_CAP_INIT_THREADSAFE | FF_CODEC_CAP_INIT_CLEANUP, 2112cabdff1aSopenharmony_ci}; 2113cabdff1aSopenharmony_ci 2114cabdff1aSopenharmony_ciconst FFCodec ff_xma2_decoder = { 2115cabdff1aSopenharmony_ci .p.name = "xma2", 2116cabdff1aSopenharmony_ci .p.long_name = NULL_IF_CONFIG_SMALL("Xbox Media Audio 2"), 2117cabdff1aSopenharmony_ci .p.type = AVMEDIA_TYPE_AUDIO, 2118cabdff1aSopenharmony_ci .p.id = AV_CODEC_ID_XMA2, 2119cabdff1aSopenharmony_ci .priv_data_size = sizeof(XMADecodeCtx), 2120cabdff1aSopenharmony_ci .init = xma_decode_init, 2121cabdff1aSopenharmony_ci .close = xma_decode_end, 2122cabdff1aSopenharmony_ci FF_CODEC_DECODE_CB(xma_decode_packet), 2123cabdff1aSopenharmony_ci .flush = xma_flush, 2124cabdff1aSopenharmony_ci .p.capabilities = AV_CODEC_CAP_SUBFRAMES | AV_CODEC_CAP_DR1 | AV_CODEC_CAP_DELAY, 2125cabdff1aSopenharmony_ci .p.sample_fmts = (const enum AVSampleFormat[]) { AV_SAMPLE_FMT_FLTP, 2126cabdff1aSopenharmony_ci AV_SAMPLE_FMT_NONE }, 2127cabdff1aSopenharmony_ci .caps_internal = FF_CODEC_CAP_INIT_THREADSAFE | FF_CODEC_CAP_INIT_CLEANUP, 2128cabdff1aSopenharmony_ci}; 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