cog/Frameworks/WavPack/Files/wavpack_local.h

896 lines
36 KiB
C

////////////////////////////////////////////////////////////////////////////
// **** WAVPACK **** //
// Hybrid Lossless Wavefile Compressor //
// Copyright (c) 1998 - 2013 Conifer Software. //
// All Rights Reserved. //
// Distributed under the BSD Software License (see license.txt) //
////////////////////////////////////////////////////////////////////////////
// wavpack_local.h
#ifndef WAVPACK_LOCAL_H
#define WAVPACK_LOCAL_H
#if defined(_WIN32)
#define FASTCALL __fastcall
#else
#define FASTCALL
#endif
#if defined(_WIN32) || \
(defined(BYTE_ORDER) && defined(LITTLE_ENDIAN) && (BYTE_ORDER == LITTLE_ENDIAN)) || \
(defined(__BYTE_ORDER__) && defined(__ORDER_LITTLE_ENDIAN__) && (__BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__))
#define BITSTREAM_SHORTS // use 16-bit "shorts" for reading/writing bitstreams (instead of chars)
// (only works on little-endian machines)
#endif
#include <sys/types.h>
// This header file contains all the definitions required by WavPack.
#if defined(_MSC_VER) && _MSC_VER < 1600
#include <stdlib.h>
typedef unsigned __int64 uint64_t;
typedef unsigned __int32 uint32_t;
typedef unsigned __int16 uint16_t;
typedef unsigned __int8 uint8_t;
typedef __int64 int64_t;
typedef __int32 int32_t;
typedef __int16 int16_t;
typedef __int8 int8_t;
#else
#include <stdint.h>
#endif
// Because the C99 specification states that "The order of allocation of
// bit-fields within a unit (high-order to low-order or low-order to
// high-order) is implementation-defined" (6.7.2.1), I decided to change
// the representation of floating-point values from a structure of
// bit-fields to a 32-bit integer with access macros. Note that the WavPack
// library doesn't use any floating-point math to implement compression of
// floating-point data (although a little floating-point math is used in
// high-level functions unrelated to the codec).
typedef int32_t f32;
#define get_mantissa(f) ((f) & 0x7fffff)
#define get_magnitude(f) ((f) & 0x7fffffff)
#define get_exponent(f) (((f) >> 23) & 0xff)
#define get_sign(f) (((f) >> 31) & 0x1)
#define set_mantissa(f,v) (f) ^= (((f) ^ (v)) & 0x7fffff)
#define set_exponent(f,v) (f) ^= (((f) ^ ((v) << 23)) & 0x7f800000)
#define set_sign(f,v) (f) ^= (((f) ^ ((v) << 31)) & 0x80000000)
#include <stdio.h>
#define FALSE 0
#define TRUE 1
// ID3v1 and APEv2 TAG formats (may occur at the end of WavPack files)
typedef struct {
char tag_id [3], title [30], artist [30], album [30];
char year [4], comment [30], genre;
} ID3_Tag;
typedef struct {
char ID [8];
int32_t version, length, item_count, flags;
char res [8];
} APE_Tag_Hdr;
#define APE_Tag_Hdr_Format "8LLLL"
#define APE_TAG_TYPE_TEXT 0x0
#define APE_TAG_TYPE_BINARY 0x1
#define APE_TAG_THIS_IS_HEADER 0x20000000
#define APE_TAG_CONTAINS_HEADER 0x80000000
#define APE_TAG_MAX_LENGTH (1024 * 1024 * 16)
typedef struct {
int64_t tag_file_pos;
int tag_begins_file;
ID3_Tag id3_tag;
APE_Tag_Hdr ape_tag_hdr;
unsigned char *ape_tag_data;
} M_Tag;
// RIFF / wav header formats (these occur at the beginning of both wav files
// and pre-4.0 WavPack files that are not in the "raw" mode)
typedef struct {
char ckID [4];
uint32_t ckSize;
char formType [4];
} RiffChunkHeader;
typedef struct {
char ckID [4];
uint32_t ckSize;
} ChunkHeader;
#define ChunkHeaderFormat "4L"
typedef struct {
uint16_t FormatTag, NumChannels;
uint32_t SampleRate, BytesPerSecond;
uint16_t BlockAlign, BitsPerSample;
uint16_t cbSize, ValidBitsPerSample;
int32_t ChannelMask;
uint16_t SubFormat;
char GUID [14];
} WaveHeader;
#define WaveHeaderFormat "SSLLSSSSLS"
////////////////////////////// WavPack Header /////////////////////////////////
// Note that this is the ONLY structure that is written to (or read from)
// WavPack 4.0 files, and is the preamble to every block in both the .wv
// and .wvc files.
typedef struct {
char ckID [4];
uint32_t ckSize;
int16_t version;
unsigned char block_index_u8;
unsigned char total_samples_u8;
uint32_t total_samples, block_index, block_samples, flags, crc;
} WavpackHeader;
#define WavpackHeaderFormat "4LS2LLLLL"
// Macros to access the 40-bit block_index field
#define GET_BLOCK_INDEX(hdr) ( (int64_t) (hdr).block_index + ((int64_t) (hdr).block_index_u8 << 32) )
#define SET_BLOCK_INDEX(hdr,value) do { \
int64_t tmp = (value); \
(hdr).block_index = (uint32_t) tmp; \
(hdr).block_index_u8 = \
(unsigned char) (tmp >> 32); \
} while (0)
// Macros to access the 40-bit total_samples field, which is complicated by the fact that
// all 1's in the lower 32 bits indicates "unknown" (regardless of upper 8 bits)
#define GET_TOTAL_SAMPLES(hdr) ( ((hdr).total_samples == (uint32_t) -1) ? -1 : \
(int64_t) (hdr).total_samples + ((int64_t) (hdr).total_samples_u8 << 32) - (hdr).total_samples_u8 )
#define SET_TOTAL_SAMPLES(hdr,value) do { \
int64_t tmp = (value); \
if (tmp < 0) \
(hdr).total_samples = (uint32_t) -1; \
else { \
tmp += (tmp / 0xffffffffLL); \
(hdr).total_samples = (uint32_t) tmp; \
(hdr).total_samples_u8 = \
(unsigned char) (tmp >> 32); \
} \
} while (0)
// or-values for "flags"
#define BYTES_STORED 3 // 1-4 bytes/sample
#define MONO_FLAG 4 // not stereo
#define HYBRID_FLAG 8 // hybrid mode
#define JOINT_STEREO 0x10 // joint stereo
#define CROSS_DECORR 0x20 // no-delay cross decorrelation
#define HYBRID_SHAPE 0x40 // noise shape (hybrid mode only)
#define FLOAT_DATA 0x80 // ieee 32-bit floating point data
#define INT32_DATA 0x100 // special extended int handling
#define HYBRID_BITRATE 0x200 // bitrate noise (hybrid mode only)
#define HYBRID_BALANCE 0x400 // balance noise (hybrid stereo mode only)
#define INITIAL_BLOCK 0x800 // initial block of multichannel segment
#define FINAL_BLOCK 0x1000 // final block of multichannel segment
#define SHIFT_LSB 13
#define SHIFT_MASK (0x1fL << SHIFT_LSB)
#define MAG_LSB 18
#define MAG_MASK (0x1fL << MAG_LSB)
#define SRATE_LSB 23
#define SRATE_MASK (0xfL << SRATE_LSB)
#define FALSE_STEREO 0x40000000 // block is stereo, but data is mono
#define IGNORED_FLAGS 0x18000000 // reserved, but ignore if encountered
#define NEW_SHAPING 0x20000000 // use IIR filter for negative shaping
#define DSD_FLAG 0x80000000 // block is DSD encoded (introduced in
// WavPack 5.0)
#define UNKNOWN_FLAGS 0x00000000 // we no longer have any of these spares
#define MONO_DATA (MONO_FLAG | FALSE_STEREO)
#define MIN_STREAM_VERS 0x402 // lowest stream version we'll decode
#define MAX_STREAM_VERS 0x410 // highest stream version we'll decode or encode
#define CUR_STREAM_VERS 0x410 // stream version we are writing now
//////////////////////////// WavPack Metadata /////////////////////////////////
// This is an internal representation of metadata.
typedef struct {
int32_t byte_length;
void *data;
unsigned char id;
} WavpackMetadata;
#define ID_UNIQUE 0x3f
#define ID_OPTIONAL_DATA 0x20
#define ID_ODD_SIZE 0x40
#define ID_LARGE 0x80
#define ID_DUMMY 0x0
#define ID_ENCODER_INFO 0x1
#define ID_DECORR_TERMS 0x2
#define ID_DECORR_WEIGHTS 0x3
#define ID_DECORR_SAMPLES 0x4
#define ID_ENTROPY_VARS 0x5
#define ID_HYBRID_PROFILE 0x6
#define ID_SHAPING_WEIGHTS 0x7
#define ID_FLOAT_INFO 0x8
#define ID_INT32_INFO 0x9
#define ID_WV_BITSTREAM 0xa
#define ID_WVC_BITSTREAM 0xb
#define ID_WVX_BITSTREAM 0xc
#define ID_CHANNEL_INFO 0xd
#define ID_DSD_BLOCK 0xe
#define ID_RIFF_HEADER (ID_OPTIONAL_DATA | 0x1)
#define ID_RIFF_TRAILER (ID_OPTIONAL_DATA | 0x2)
#define ID_ALT_HEADER (ID_OPTIONAL_DATA | 0x3)
#define ID_ALT_TRAILER (ID_OPTIONAL_DATA | 0x4)
#define ID_CONFIG_BLOCK (ID_OPTIONAL_DATA | 0x5)
#define ID_MD5_CHECKSUM (ID_OPTIONAL_DATA | 0x6)
#define ID_SAMPLE_RATE (ID_OPTIONAL_DATA | 0x7)
#define ID_ALT_EXTENSION (ID_OPTIONAL_DATA | 0x8)
#define ID_ALT_MD5_CHECKSUM (ID_OPTIONAL_DATA | 0x9)
#define ID_NEW_CONFIG_BLOCK (ID_OPTIONAL_DATA | 0xa)
///////////////////////// WavPack Configuration ///////////////////////////////
// This internal structure is used during encode to provide configuration to
// the encoding engine and during decoding to provide fle information back to
// the higher level functions. Not all fields are used in both modes.
typedef struct {
float bitrate, shaping_weight;
int bits_per_sample, bytes_per_sample;
int qmode, flags, xmode, num_channels, float_norm_exp;
int32_t block_samples, extra_flags, sample_rate, channel_mask;
unsigned char md5_checksum [16], md5_read;
int num_tag_strings;
char **tag_strings;
} WavpackConfig;
#define CONFIG_BYTES_STORED 3 // 1-4 bytes/sample
#define CONFIG_MONO_FLAG 4 // not stereo
#define CONFIG_HYBRID_FLAG 8 // hybrid mode
#define CONFIG_JOINT_STEREO 0x10 // joint stereo
#define CONFIG_CROSS_DECORR 0x20 // no-delay cross decorrelation
#define CONFIG_HYBRID_SHAPE 0x40 // noise shape (hybrid mode only)
#define CONFIG_FLOAT_DATA 0x80 // ieee 32-bit floating point data
#define CONFIG_FAST_FLAG 0x200 // fast mode
#define CONFIG_HIGH_FLAG 0x800 // high quality mode
#define CONFIG_VERY_HIGH_FLAG 0x1000 // very high
#define CONFIG_BITRATE_KBPS 0x2000 // bitrate is kbps, not bits / sample
#define CONFIG_AUTO_SHAPING 0x4000 // automatic noise shaping
#define CONFIG_SHAPE_OVERRIDE 0x8000 // shaping mode specified
#define CONFIG_JOINT_OVERRIDE 0x10000 // joint-stereo mode specified
#define CONFIG_DYNAMIC_SHAPING 0x20000 // dynamic noise shaping
#define CONFIG_CREATE_EXE 0x40000 // create executable
#define CONFIG_CREATE_WVC 0x80000 // create correction file
#define CONFIG_OPTIMIZE_WVC 0x100000 // maximize bybrid compression
#define CONFIG_CALC_NOISE 0x800000 // calc noise in hybrid mode
#define CONFIG_LOSSY_MODE 0x1000000 // obsolete (for information)
#define CONFIG_EXTRA_MODE 0x2000000 // extra processing mode
#define CONFIG_SKIP_WVX 0x4000000 // no wvx stream w/ floats & big ints
#define CONFIG_MD5_CHECKSUM 0x8000000 // compute & store MD5 signature
#define CONFIG_MERGE_BLOCKS 0x10000000 // merge blocks of equal redundancy (for lossyWAV)
#define CONFIG_PAIR_UNDEF_CHANS 0x20000000 // encode undefined channels in stereo pairs
#define CONFIG_OPTIMIZE_MONO 0x80000000 // optimize for mono streams posing as stereo
#define QMODE_DSD_AUDIO 0x30 // if either of these is set in qmode (version 5.0)
/*
* These config flags were never actually used, or are no longer used, or are
* used for something else now. They may be used in the future for what they
* say, or for something else. WavPack files in the wild *may* have some of
* these bit set in their config flags (with these older meanings), but only
* if the stream version is 0x410 or less than 0x407. Of course, this is not
* very important because once the file has been encoded, the config bits are
* just for information purposes (i.e., they do not affect decoding),
*
#define CONFIG_ADOBE_MODE 0x100 // "adobe" mode for 32-bit floats
#define CONFIG_VERY_FAST_FLAG 0x400 // double fast
#define CONFIG_COPY_TIME 0x20000 // copy file-time from source
#define CONFIG_QUALITY_MODE 0x200000 // psychoacoustic quality mode
#define CONFIG_RAW_FLAG 0x400000 // raw mode (not implemented yet)
#define CONFIG_QUIET_MODE 0x10000000 // don't report progress %
#define CONFIG_IGNORE_LENGTH 0x20000000 // ignore length in wav header
#define CONFIG_NEW_RIFF_HEADER 0x40000000 // generate new RIFF wav header
*
*/
#define EXTRA_SCAN_ONLY 1
#define EXTRA_STEREO_MODES 2
#define EXTRA_TRY_DELTAS 8
#define EXTRA_ADJUST_DELTAS 16
#define EXTRA_SORT_FIRST 32
#define EXTRA_BRANCHES 0x1c0
#define EXTRA_SKIP_8TO16 512
#define EXTRA_TERMS 0x3c00
#define EXTRA_DUMP_TERMS 16384
#define EXTRA_SORT_LAST 32768
//////////////////////////////// WavPack Stream ///////////////////////////////
// This internal structure contains everything required to handle a WavPack
// "stream", which is defined as a stereo or mono stream of audio samples. For
// multichannel audio several of these would be required. Each stream contains
// pointers to hold a complete allocated block of WavPack data, although it's
// possible to decode WavPack blocks without buffering an entire block.
typedef struct bs {
#ifdef BITSTREAM_SHORTS
uint16_t *buf, *end, *ptr;
#else
unsigned char *buf, *end, *ptr;
#endif
void (*wrap)(struct bs *bs);
int error, bc;
uint32_t sr;
} Bitstream;
#define MAX_WRAPPER_BYTES 16777216
#define NEW_MAX_STREAMS 4096
#define OLD_MAX_STREAMS 8
#define MAX_NTERMS 16
#define MAX_TERM 8
// Note that this structure is directly accessed in assembly files, so modify with care
struct decorr_pass {
int32_t term, delta, weight_A, weight_B;
int32_t samples_A [MAX_TERM], samples_B [MAX_TERM];
int32_t aweight_A, aweight_B;
int32_t sum_A, sum_B;
};
typedef struct {
signed char joint_stereo, delta, terms [MAX_NTERMS+1];
} WavpackDecorrSpec;
struct entropy_data {
uint32_t median [3], slow_level, error_limit;
};
struct words_data {
uint32_t bitrate_delta [2], bitrate_acc [2];
uint32_t pend_data, holding_one, zeros_acc;
int holding_zero, pend_count;
struct entropy_data c [2];
};
typedef struct {
int32_t filter1, filter2, filter3, filter4, filter5, filter6, factor;
} DSDfilters;
typedef struct {
WavpackHeader wphdr;
struct words_data w;
unsigned char *blockbuff, *blockend;
unsigned char *block2buff, *block2end;
int32_t *sample_buffer;
int64_t sample_index;
int bits, num_terms, mute_error, joint_stereo, false_stereo, shift;
int num_decorrs, num_passes, best_decorr, mask_decorr;
uint32_t crc, crc_x, crc_wvx;
Bitstream wvbits, wvcbits, wvxbits;
int init_done, wvc_skip;
float delta_decay;
unsigned char int32_sent_bits, int32_zeros, int32_ones, int32_dups;
unsigned char float_flags, float_shift, float_max_exp, float_norm_exp;
struct {
int32_t shaping_acc [2], shaping_delta [2], error [2];
double noise_sum, noise_ave, noise_max;
int16_t *shaping_data, *shaping_array;
int32_t shaping_samples;
} dc;
struct decorr_pass decorr_passes [MAX_NTERMS], analysis_pass;
const WavpackDecorrSpec *decorr_specs;
struct {
unsigned char *byteptr, *endptr, (*probabilities) [256], **value_lookup, mode, ready;
int history_bins, p0, p1;
int16_t (*summed_probabilities) [256];
uint32_t low, high, value;
DSDfilters filters [2];
int32_t *ptable;
} dsd;
} WavpackStream;
// flags for float_flags:
#define FLOAT_SHIFT_ONES 1 // bits left-shifted into float = '1'
#define FLOAT_SHIFT_SAME 2 // bits left-shifted into float are the same
#define FLOAT_SHIFT_SENT 4 // bits shifted into float are sent literally
#define FLOAT_ZEROS_SENT 8 // "zeros" are not all real zeros
#define FLOAT_NEG_ZEROS 0x10 // contains negative zeros
#define FLOAT_EXCEPTIONS 0x20 // contains exceptions (inf, nan, etc.)
/////////////////////////////// WavPack Context ///////////////////////////////
// This internal structure holds everything required to encode or decode WavPack
// files. It is recommended that direct access to this structure be minimized
// and the provided utilities used instead.
typedef struct {
int32_t (*read_bytes)(void *id, void *data, int32_t bcount);
uint32_t (*get_pos)(void *id);
int (*set_pos_abs)(void *id, uint32_t pos);
int (*set_pos_rel)(void *id, int32_t delta, int mode);
int (*push_back_byte)(void *id, int c);
uint32_t (*get_length)(void *id);
int (*can_seek)(void *id);
// this callback is for writing edited tags only
int32_t (*write_bytes)(void *id, void *data, int32_t bcount);
} WavpackStreamReader;
// Extended version of structure for handling large files and added
// functionality for truncating and closing files
typedef struct {
int32_t (*read_bytes)(void *id, void *data, int32_t bcount);
int32_t (*write_bytes)(void *id, void *data, int32_t bcount);
int64_t (*get_pos)(void *id); // new signature for large files
int (*set_pos_abs)(void *id, int64_t pos); // new signature for large files
int (*set_pos_rel)(void *id, int64_t delta, int mode); // new signature for large files
int (*push_back_byte)(void *id, int c);
int64_t (*get_length)(void *id); // new signature for large files
int (*can_seek)(void *id);
int (*truncate_here)(void *id); // new function to truncate file at current position
int (*close)(void *id); // new function to close file
} WavpackStreamReader64;
typedef int (*WavpackBlockOutput)(void *id, void *data, int32_t bcount);
typedef struct {
WavpackConfig config;
WavpackMetadata *metadata;
uint32_t metabytes;
int metacount;
unsigned char *wrapper_data;
uint32_t wrapper_bytes;
WavpackBlockOutput blockout;
void *wv_out, *wvc_out;
WavpackStreamReader64 *reader;
void *wv_in, *wvc_in;
int64_t filelen, file2len, filepos, file2pos, total_samples, initial_index;
uint32_t crc_errors, first_flags;
int wvc_flag, open_flags, norm_offset, reduced_channels, lossy_blocks, version_five;
uint32_t block_samples, ave_block_samples, block_boundary, max_samples, acc_samples, riff_trailer_bytes;
int riff_header_added, riff_header_created;
M_Tag m_tag;
int current_stream, num_streams, max_streams, stream_version;
WavpackStream **streams;
void *stream3;
// these items were added in 5.0 to support alternate file types (especially CAF & DSD)
unsigned char file_format, *channel_reordering;
uint32_t channel_layout, dsd_multiplier;
void *decimation_context;
char file_extension [8];
char error_message [80];
} WavpackContext;
//////////////////////// function prototypes and macros //////////////////////
#define CLEAR(destin) memset (&destin, 0, sizeof (destin));
//////////////////////////////// decorrelation //////////////////////////////
// modules: pack.c, unpack.c, unpack_floats.c, extra1.c, extra2.c
// #define SKIP_DECORRELATION // experimental switch to disable all decorrelation on encode
// These macros implement the weight application and update operations
// that are at the heart of the decorrelation loops. Note that there are
// sometimes two and even three versions of each macro. Theses should be
// equivalent and produce identical results, but some may perform better
// or worse on a given architecture.
#if 1 // PERFCOND - apply decorrelation weight when no 32-bit overflow possible
#define apply_weight_i(weight, sample) ((weight * sample + 512) >> 10)
#else
#define apply_weight_i(weight, sample) ((((weight * sample) >> 8) + 2) >> 2)
#endif
#if 1 // PERFCOND - apply decorrelation weight when 32-bit overflow is possible
#define apply_weight_f(weight, sample) (((((sample & 0xffff) * weight) >> 9) + \
(((sample & ~0xffff) >> 9) * weight) + 1) >> 1)
#elif 1
#define apply_weight_f(weight, sample) ((int32_t)((weight * (int64_t) sample + 512) >> 10))
#else
#define apply_weight_f(weight, sample) ((int32_t)floor(((double) weight * sample + 512.0) / 1024.0))
#endif
#if 1 // PERFCOND - universal version that checks input magnitude or always uses long version
#define apply_weight(weight, sample) (sample != (int16_t) sample ? \
apply_weight_f (weight, sample) : apply_weight_i (weight, sample))
#else
#define apply_weight(weight, sample) (apply_weight_f (weight, sample))
#endif
#if 1 // PERFCOND
#define update_weight(weight, delta, source, result) \
if (source && result) { int32_t s = (int32_t) (source ^ result) >> 31; weight = (delta ^ s) + (weight - s); }
#elif 1
#define update_weight(weight, delta, source, result) \
if (source && result) weight += (((source ^ result) >> 30) | 1) * delta;
#else
#define update_weight(weight, delta, source, result) \
if (source && result) (source ^ result) < 0 ? (weight -= delta) : (weight += delta);
#endif
#define update_weight_d2(weight, delta, source, result) \
if (source && result) weight -= (((source ^ result) >> 29) & 4) - 2;
#define update_weight_clip(weight, delta, source, result) \
if (source && result) { \
const int32_t s = (source ^ result) >> 31; \
if ((weight = (weight ^ s) + (delta - s)) > 1024) weight = 1024; \
weight = (weight ^ s) - s; \
}
#define update_weight_clip_d2(weight, delta, source, result) \
if (source && result) { \
const int32_t s = (source ^ result) >> 31; \
if ((weight = (weight ^ s) + (2 - s)) > 1024) weight = 1024; \
weight = (weight ^ s) - s; \
}
void pack_init (WavpackContext *wpc);
int pack_block (WavpackContext *wpc, int32_t *buffer);
void send_general_metadata (WavpackContext *wpc);
void free_metadata (WavpackMetadata *wpmd);
int copy_metadata (WavpackMetadata *wpmd, unsigned char *buffer_start, unsigned char *buffer_end);
double WavpackGetEncodedNoise (WavpackContext *wpc, double *peak);
int unpack_init (WavpackContext *wpc);
int read_decorr_terms (WavpackStream *wps, WavpackMetadata *wpmd);
int read_decorr_weights (WavpackStream *wps, WavpackMetadata *wpmd);
int read_decorr_samples (WavpackStream *wps, WavpackMetadata *wpmd);
int read_shaping_info (WavpackStream *wps, WavpackMetadata *wpmd);
int32_t unpack_samples (WavpackContext *wpc, int32_t *buffer, uint32_t sample_count);
int check_crc_error (WavpackContext *wpc);
int scan_float_data (WavpackStream *wps, f32 *values, int32_t num_values);
void send_float_data (WavpackStream *wps, f32 *values, int32_t num_values);
void float_values (WavpackStream *wps, int32_t *values, int32_t num_values);
void dynamic_noise_shaping (WavpackContext *wpc, int32_t *buffer, int shortening_allowed);
void execute_stereo (WavpackContext *wpc, int32_t *samples, int no_history, int do_samples);
void execute_mono (WavpackContext *wpc, int32_t *samples, int no_history, int do_samples);
////////////////////////// DSD related (including decimation) //////////////////////////
// modules: pack_dsd.c unpack_dsd.c
void pack_dsd_init (WavpackContext *wpc);
int pack_dsd_block (WavpackContext *wpc, int32_t *buffer);
int init_dsd_block (WavpackContext *wpc, WavpackMetadata *wpmd);
int32_t unpack_dsd_samples (WavpackContext *wpc, int32_t *buffer, uint32_t sample_count);
void *decimate_dsd_init (int num_channels);
void decimate_dsd_reset (void *decimate_context);
void decimate_dsd_run (void *decimate_context, int32_t *samples, int num_samples);
void decimate_dsd_destroy (void *decimate_context);
///////////////////////////////// CPU feature detection ////////////////////////////////
int unpack_cpu_has_feature_x86 (int findex), pack_cpu_has_feature_x86 (int findex);
#define CPU_FEATURE_MMX 23
///////////////////////////// pre-4.0 version decoding ////////////////////////////
// modules: unpack3.c, unpack3_open.c, unpack3_seek.c
WavpackContext *open_file3 (WavpackContext *wpc, char *error);
int32_t unpack_samples3 (WavpackContext *wpc, int32_t *buffer, uint32_t sample_count);
int seek_sample3 (WavpackContext *wpc, uint32_t desired_index);
uint32_t get_sample_index3 (WavpackContext *wpc);
void free_stream3 (WavpackContext *wpc);
int get_version3 (WavpackContext *wpc);
////////////////////////////// bitstream macros & functions /////////////////////////////
#define bs_is_open(bs) ((bs)->ptr != NULL)
uint32_t bs_close_read (Bitstream *bs);
#define getbit(bs) ( \
(((bs)->bc) ? \
((bs)->bc--, (bs)->sr & 1) : \
(((++((bs)->ptr) != (bs)->end) ? (void) 0 : (bs)->wrap (bs)), (bs)->bc = sizeof (*((bs)->ptr)) * 8 - 1, ((bs)->sr = *((bs)->ptr)) & 1) \
) ? \
((bs)->sr >>= 1, 1) : \
((bs)->sr >>= 1, 0) \
)
#define getbits(value, nbits, bs) do { \
while ((nbits) > (bs)->bc) { \
if (++((bs)->ptr) == (bs)->end) (bs)->wrap (bs); \
(bs)->sr |= (int32_t)*((bs)->ptr) << (bs)->bc; \
(bs)->bc += sizeof (*((bs)->ptr)) * 8; \
} \
*(value) = (bs)->sr; \
if ((bs)->bc > 32) { \
(bs)->bc -= (nbits); \
(bs)->sr = *((bs)->ptr) >> (sizeof (*((bs)->ptr)) * 8 - (bs)->bc); \
} \
else { \
(bs)->bc -= (nbits); \
(bs)->sr >>= (nbits); \
} \
} while (0)
#define putbit(bit, bs) do { if (bit) (bs)->sr |= (1 << (bs)->bc); \
if (++((bs)->bc) == sizeof (*((bs)->ptr)) * 8) { \
*((bs)->ptr) = (bs)->sr; \
(bs)->sr = (bs)->bc = 0; \
if (++((bs)->ptr) == (bs)->end) (bs)->wrap (bs); \
}} while (0)
#define putbit_0(bs) do { \
if (++((bs)->bc) == sizeof (*((bs)->ptr)) * 8) { \
*((bs)->ptr) = (bs)->sr; \
(bs)->sr = (bs)->bc = 0; \
if (++((bs)->ptr) == (bs)->end) (bs)->wrap (bs); \
}} while (0)
#define putbit_1(bs) do { (bs)->sr |= (1 << (bs)->bc); \
if (++((bs)->bc) == sizeof (*((bs)->ptr)) * 8) { \
*((bs)->ptr) = (bs)->sr; \
(bs)->sr = (bs)->bc = 0; \
if (++((bs)->ptr) == (bs)->end) (bs)->wrap (bs); \
}} while (0)
#define putbits(value, nbits, bs) do { \
(bs)->sr |= (int32_t)(value) << (bs)->bc; \
if (((bs)->bc += (nbits)) >= sizeof (*((bs)->ptr)) * 8) \
do { \
*((bs)->ptr) = (bs)->sr; \
(bs)->sr >>= sizeof (*((bs)->ptr)) * 8; \
if (((bs)->bc -= sizeof (*((bs)->ptr)) * 8) > 32 - sizeof (*((bs)->ptr)) * 8) \
(bs)->sr |= ((value) >> ((nbits) - (bs)->bc)); \
if (++((bs)->ptr) == (bs)->end) (bs)->wrap (bs); \
} while ((bs)->bc >= sizeof (*((bs)->ptr)) * 8); \
} while (0)
///////////////////////////// entropy encoder / decoder ////////////////////////////
// modules: entropy_utils.c, read_words.c, write_words.c
// these control the time constant "slow_level" which is used for hybrid mode
// that controls bitrate as a function of residual level (HYBRID_BITRATE).
#define SLS 8
#define SLO ((1 << (SLS - 1)))
#define LIMIT_ONES 16 // maximum consecutive 1s sent for "div" data
// these control the time constant of the 3 median level breakpoints
#define DIV0 128 // 5/7 of samples
#define DIV1 64 // 10/49 of samples
#define DIV2 32 // 20/343 of samples
// this macro retrieves the specified median breakpoint (without frac; min = 1)
#define GET_MED(med) (((c->median [med]) >> 4) + 1)
// These macros update the specified median breakpoints. Note that the median
// is incremented when the sample is higher than the median, else decremented.
// They are designed so that the median will never drop below 1 and the value
// is essentially stationary if there are 2 increments for every 5 decrements.
#define INC_MED0() (c->median [0] += ((c->median [0] + DIV0) / DIV0) * 5)
#define DEC_MED0() (c->median [0] -= ((c->median [0] + (DIV0-2)) / DIV0) * 2)
#define INC_MED1() (c->median [1] += ((c->median [1] + DIV1) / DIV1) * 5)
#define DEC_MED1() (c->median [1] -= ((c->median [1] + (DIV1-2)) / DIV1) * 2)
#define INC_MED2() (c->median [2] += ((c->median [2] + DIV2) / DIV2) * 5)
#define DEC_MED2() (c->median [2] -= ((c->median [2] + (DIV2-2)) / DIV2) * 2)
#ifdef HAVE___BUILTIN_CLZ
#define count_bits(av) ((av) ? 32 - __builtin_clz (av) : 0)
#elif defined (_WIN64)
static __inline int count_bits (uint32_t av) { unsigned long res; return _BitScanReverse (&res, av) ? (int)(res + 1) : 0; }
#else
#define count_bits(av) ( \
(av) < (1 << 8) ? nbits_table [av] : \
( \
(av) < (1L << 16) ? nbits_table [(av) >> 8] + 8 : \
((av) < (1L << 24) ? nbits_table [(av) >> 16] + 16 : nbits_table [(av) >> 24] + 24) \
) \
)
#endif
void init_words (WavpackStream *wps);
void write_entropy_vars (WavpackStream *wps, WavpackMetadata *wpmd);
void write_hybrid_profile (WavpackStream *wps, WavpackMetadata *wpmd);
int read_entropy_vars (WavpackStream *wps, WavpackMetadata *wpmd);
int read_hybrid_profile (WavpackStream *wps, WavpackMetadata *wpmd);
int32_t FASTCALL send_word (WavpackStream *wps, int32_t value, int chan);
void send_words_lossless (WavpackStream *wps, int32_t *buffer, int32_t nsamples);
int32_t FASTCALL get_word (WavpackStream *wps, int chan, int32_t *correction);
int32_t get_words_lossless (WavpackStream *wps, int32_t *buffer, int32_t nsamples);
void flush_word (WavpackStream *wps);
int32_t nosend_word (WavpackStream *wps, int32_t value, int chan);
void scan_word (WavpackStream *wps, int32_t *samples, uint32_t num_samples, int dir);
void update_error_limit (WavpackStream *wps);
extern const uint32_t bitset [32];
extern const uint32_t bitmask [32];
extern const char nbits_table [256];
int wp_log2s (int32_t value);
int32_t wp_exp2s (int log);
int FASTCALL wp_log2 (uint32_t avalue);
#ifdef OPT_ASM_X86
#define LOG2BUFFER log2buffer_x86
#elif defined(OPT_ASM_X64) && (defined (_WIN64) || defined(__CYGWIN__) || defined(__MINGW64__))
#define LOG2BUFFER log2buffer_x64win
#elif defined(OPT_ASM_X64)
#define LOG2BUFFER log2buffer_x64
#else
#define LOG2BUFFER log2buffer
#endif
uint32_t LOG2BUFFER (int32_t *samples, uint32_t num_samples, int limit);
signed char store_weight (int weight);
int restore_weight (signed char weight);
#define WORD_EOF ((int32_t)(1L << 31))
void WavpackFloatNormalize (int32_t *values, int32_t num_values, int delta_exp);
/////////////////////////// high-level unpacking API and support ////////////////////////////
// modules: open_utils.c, unpack_utils.c, unpack_seek.c, unpack_floats.c
WavpackContext *WavpackOpenFileInputEx64 (WavpackStreamReader64 *reader, void *wv_id, void *wvc_id, char *error, int flags, int norm_offset);
WavpackContext *WavpackOpenFileInputEx (WavpackStreamReader *reader, void *wv_id, void *wvc_id, char *error, int flags, int norm_offset);
WavpackContext *WavpackOpenFileInput (const char *infilename, char *error, int flags, int norm_offset);
#define OPEN_WVC 0x1 // open/read "correction" file
#define OPEN_TAGS 0x2 // read ID3v1 / APEv2 tags (seekable file)
#define OPEN_WRAPPER 0x4 // make audio wrapper available (i.e. RIFF)
#define OPEN_2CH_MAX 0x8 // open multichannel as stereo (no downmix)
#define OPEN_NORMALIZE 0x10 // normalize floating point data to +/- 1.0
#define OPEN_STREAMING 0x20 // "streaming" mode blindly unpacks blocks
// w/o regard to header file position info
#define OPEN_EDIT_TAGS 0x40 // allow editing of tags
#define OPEN_FILE_UTF8 0x80 // assume filenames are UTF-8 encoded, not ANSI (Windows only)
// new for version 5
#define OPEN_DSD_NATIVE 0x100 // open DSD files as bitstreams
// (returned as 8-bit "samples" stored in 32-bit words)
#define OPEN_DSD_AS_PCM 0x200 // open DSD files as 24-bit PCM (decimated 8x)
#define OPEN_ALT_TYPES 0x400 // application is aware of alternate file types & qmode
// (just affects retrieving wrappers & MD5 checksums)
int WavpackGetMode (WavpackContext *wpc);
#define MODE_WVC 0x1
#define MODE_LOSSLESS 0x2
#define MODE_HYBRID 0x4
#define MODE_FLOAT 0x8
#define MODE_VALID_TAG 0x10
#define MODE_HIGH 0x20
#define MODE_FAST 0x40
#define MODE_EXTRA 0x80 // extra mode used, see MODE_XMODE for possible level
#define MODE_APETAG 0x100
#define MODE_SFX 0x200
#define MODE_VERY_HIGH 0x400
#define MODE_MD5 0x800
#define MODE_XMODE 0x7000 // mask for extra level (1-6, 0=unknown)
#define MODE_DNS 0x8000
int WavpackGetQualifyMode (WavpackContext *wpc);
int WavpackGetVersion (WavpackContext *wpc);
uint32_t WavpackUnpackSamples (WavpackContext *wpc, int32_t *buffer, uint32_t samples);
int WavpackSeekSample (WavpackContext *wpc, uint32_t sample);
int WavpackSeekSample64 (WavpackContext *wpc, int64_t sample);
int WavpackGetMD5Sum (WavpackContext *wpc, unsigned char data [16]);
uint32_t read_next_header (WavpackStreamReader64 *reader, void *id, WavpackHeader *wphdr);
int read_wvc_block (WavpackContext *wpc);
/////////////////////////// high-level packing API and support ////////////////////////////
// modules: pack_utils.c, pack_floats.c
WavpackContext *WavpackOpenFileOutput (WavpackBlockOutput blockout, void *wv_id, void *wvc_id);
int WavpackSetConfiguration (WavpackContext *wpc, WavpackConfig *config, uint32_t total_samples);
int WavpackSetConfiguration64 (WavpackContext *wpc, WavpackConfig *config, int64_t total_samples);
int WavpackPackInit (WavpackContext *wpc);
int WavpackAddWrapper (WavpackContext *wpc, void *data, uint32_t bcount);
int WavpackPackSamples (WavpackContext *wpc, int32_t *sample_buffer, uint32_t sample_count);
int WavpackFlushSamples (WavpackContext *wpc);
int WavpackStoreMD5Sum (WavpackContext *wpc, unsigned char data [16]);
void WavpackSeekTrailingWrapper (WavpackContext *wpc);
void WavpackUpdateNumSamples (WavpackContext *wpc, void *first_block);
void *WavpackGetWrapperLocation (void *first_block, uint32_t *size);
/////////////////////////////////// common utilities ////////////////////////////////////
// module: common_utils.c
extern const uint32_t sample_rates [16];
uint32_t WavpackGetLibraryVersion (void);
const char *WavpackGetLibraryVersionString (void);
uint32_t WavpackGetSampleRate (WavpackContext *wpc);
int WavpackGetBitsPerSample (WavpackContext *wpc);
int WavpackGetBytesPerSample (WavpackContext *wpc);
int WavpackGetNumChannels (WavpackContext *wpc);
int WavpackGetChannelMask (WavpackContext *wpc);
int WavpackGetReducedChannels (WavpackContext *wpc);
int WavpackGetFloatNormExp (WavpackContext *wpc);
uint32_t WavpackGetNumSamples (WavpackContext *wpc);
int64_t WavpackGetNumSamples64 (WavpackContext *wpc);
uint32_t WavpackGetSampleIndex (WavpackContext *wpc);
int64_t WavpackGetSampleIndex64 (WavpackContext *wpc);
char *WavpackGetErrorMessage (WavpackContext *wpc);
int WavpackGetNumErrors (WavpackContext *wpc);
int WavpackLossyBlocks (WavpackContext *wpc);
uint32_t WavpackGetWrapperBytes (WavpackContext *wpc);
unsigned char *WavpackGetWrapperData (WavpackContext *wpc);
void WavpackFreeWrapper (WavpackContext *wpc);
double WavpackGetProgress (WavpackContext *wpc);
uint32_t WavpackGetFileSize (WavpackContext *wpc);
int64_t WavpackGetFileSize64 (WavpackContext *wpc);
double WavpackGetRatio (WavpackContext *wpc);
double WavpackGetAverageBitrate (WavpackContext *wpc, int count_wvc);
double WavpackGetInstantBitrate (WavpackContext *wpc);
WavpackContext *WavpackCloseFile (WavpackContext *wpc);
void WavpackLittleEndianToNative (void *data, char *format);
void WavpackNativeToLittleEndian (void *data, char *format);
void WavpackBigEndianToNative (void *data, char *format);
void WavpackNativeToBigEndian (void *data, char *format);
void free_streams (WavpackContext *wpc);
/////////////////////////////////// tag utilities ////////////////////////////////////
// modules: tags.c, tag_utils.c
int WavpackGetNumTagItems (WavpackContext *wpc);
int WavpackGetTagItem (WavpackContext *wpc, const char *item, char *value, int size);
int WavpackGetTagItemIndexed (WavpackContext *wpc, int index, char *item, int size);
int WavpackGetNumBinaryTagItems (WavpackContext *wpc);
int WavpackGetBinaryTagItem (WavpackContext *wpc, const char *item, char *value, int size);
int WavpackGetBinaryTagItemIndexed (WavpackContext *wpc, int index, char *item, int size);
int WavpackAppendTagItem (WavpackContext *wpc, const char *item, const char *value, int vsize);
int WavpackAppendBinaryTagItem (WavpackContext *wpc, const char *item, const char *value, int vsize);
int WavpackDeleteTagItem (WavpackContext *wpc, const char *item);
int WavpackWriteTag (WavpackContext *wpc);
int load_tag (WavpackContext *wpc);
void free_tag (M_Tag *m_tag);
int valid_tag (M_Tag *m_tag);
int editable_tag (M_Tag *m_tag);
#endif