205 lines
7.5 KiB
C
205 lines
7.5 KiB
C
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////////////////////////////////////////////////////////////////////////////
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// **** WAVPACK **** //
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// Hybrid Lossless Wavefile Compressor //
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// Copyright (c) 1998 - 2013 Conifer Software. //
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// All Rights Reserved. //
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// Distributed under the BSD Software License (see license.txt) //
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////////////////////////////////////////////////////////////////////////////
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// decorr_utils.c
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// This module contains the functions that process metadata blocks that are
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// specific to the decorrelator. These would be called any time a WavPack
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// block was parsed. These are in a module separate from the actual unpack
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// decorrelation code (unpack.c) so that if an application just wants to get
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// information from WavPack files (rather than actually decoding audio) then
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// less code needs to be linked.
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#include <stdlib.h>
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#include <string.h>
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#include "wavpack_local.h"
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///////////////////////////// executable code ////////////////////////////////
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// Read decorrelation terms from specified metadata block into the
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// decorr_passes array. The terms range from -3 to 8, plus 17 & 18;
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// other values are reserved and generate errors for now. The delta
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// ranges from 0 to 7 with all values valid. Note that the terms are
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// stored in the opposite order in the decorr_passes array compared
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// to packing.
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int read_decorr_terms (WavpackStream *wps, WavpackMetadata *wpmd)
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{
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int termcnt = wpmd->byte_length;
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unsigned char *byteptr = wpmd->data;
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struct decorr_pass *dpp;
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if (termcnt > MAX_NTERMS)
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return FALSE;
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wps->num_terms = termcnt;
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for (dpp = wps->decorr_passes + termcnt - 1; termcnt--; dpp--) {
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dpp->term = (int)(*byteptr & 0x1f) - 5;
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dpp->delta = (*byteptr++ >> 5) & 0x7;
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if (!dpp->term || dpp->term < -3 || (dpp->term > MAX_TERM && dpp->term < 17) || dpp->term > 18 ||
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((wps->wphdr.flags & MONO_DATA) && dpp->term < 0))
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return FALSE;
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}
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return TRUE;
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}
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// Read decorrelation weights from specified metadata block into the
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// decorr_passes array. The weights range +/-1024, but are rounded and
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// truncated to fit in signed chars for metadata storage. Weights are
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// separate for the two channels and are specified from the "last" term
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// (first during encode). Unspecified weights are set to zero.
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int read_decorr_weights (WavpackStream *wps, WavpackMetadata *wpmd)
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{
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int termcnt = wpmd->byte_length, tcount;
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char *byteptr = wpmd->data;
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struct decorr_pass *dpp;
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if (!(wps->wphdr.flags & MONO_DATA))
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termcnt /= 2;
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if (termcnt > wps->num_terms)
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return FALSE;
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for (tcount = wps->num_terms, dpp = wps->decorr_passes; tcount--; dpp++)
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dpp->weight_A = dpp->weight_B = 0;
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while (--dpp >= wps->decorr_passes && termcnt--) {
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dpp->weight_A = restore_weight (*byteptr++);
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if (!(wps->wphdr.flags & MONO_DATA))
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dpp->weight_B = restore_weight (*byteptr++);
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}
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return TRUE;
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}
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// Read decorrelation samples from specified metadata block into the
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// decorr_passes array. The samples are signed 32-bit values, but are
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// converted to signed log2 values for storage in metadata. Values are
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// stored for both channels and are specified from the "last" term
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// (first during encode) with unspecified samples set to zero. The
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// number of samples stored varies with the actual term value, so
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// those must obviously come first in the metadata.
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int read_decorr_samples (WavpackStream *wps, WavpackMetadata *wpmd)
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{
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unsigned char *byteptr = wpmd->data;
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unsigned char *endptr = byteptr + wpmd->byte_length;
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struct decorr_pass *dpp;
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int tcount;
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for (tcount = wps->num_terms, dpp = wps->decorr_passes; tcount--; dpp++) {
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CLEAR (dpp->samples_A);
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CLEAR (dpp->samples_B);
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}
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if (wps->wphdr.version == 0x402 && (wps->wphdr.flags & HYBRID_FLAG)) {
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if (byteptr + (wps->wphdr.flags & MONO_DATA ? 2 : 4) > endptr)
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return FALSE;
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wps->dc.error [0] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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byteptr += 2;
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if (!(wps->wphdr.flags & MONO_DATA)) {
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wps->dc.error [1] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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byteptr += 2;
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}
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}
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while (dpp-- > wps->decorr_passes && byteptr < endptr)
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if (dpp->term > MAX_TERM) {
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if (byteptr + (wps->wphdr.flags & MONO_DATA ? 4 : 8) > endptr)
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return FALSE;
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dpp->samples_A [0] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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dpp->samples_A [1] = wp_exp2s ((int16_t)(byteptr [2] + (byteptr [3] << 8)));
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byteptr += 4;
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if (!(wps->wphdr.flags & MONO_DATA)) {
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dpp->samples_B [0] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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dpp->samples_B [1] = wp_exp2s ((int16_t)(byteptr [2] + (byteptr [3] << 8)));
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byteptr += 4;
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}
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}
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else if (dpp->term < 0) {
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if (byteptr + 4 > endptr)
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return FALSE;
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dpp->samples_A [0] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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dpp->samples_B [0] = wp_exp2s ((int16_t)(byteptr [2] + (byteptr [3] << 8)));
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byteptr += 4;
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}
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else {
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int m = 0, cnt = dpp->term;
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while (cnt--) {
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if (byteptr + (wps->wphdr.flags & MONO_DATA ? 2 : 4) > endptr)
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return FALSE;
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dpp->samples_A [m] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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byteptr += 2;
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if (!(wps->wphdr.flags & MONO_DATA)) {
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dpp->samples_B [m] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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byteptr += 2;
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}
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m++;
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}
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}
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return byteptr == endptr;
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}
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// Read the shaping weights from specified metadata block into the
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// WavpackStream structure. Note that there must be two values (even
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// for mono streams) and that the values are stored in the same
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// manner as decorrelation weights. These would normally be read from
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// the "correction" file and are used for lossless reconstruction of
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// hybrid data.
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int read_shaping_info (WavpackStream *wps, WavpackMetadata *wpmd)
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{
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if (wpmd->byte_length == 2) {
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char *byteptr = wpmd->data;
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wps->dc.shaping_acc [0] = (int32_t) restore_weight (*byteptr++) << 16;
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wps->dc.shaping_acc [1] = (int32_t) restore_weight (*byteptr++) << 16;
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return TRUE;
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}
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else if (wpmd->byte_length >= (wps->wphdr.flags & MONO_DATA ? 4 : 8)) {
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unsigned char *byteptr = wpmd->data;
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wps->dc.error [0] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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wps->dc.shaping_acc [0] = wp_exp2s ((int16_t)(byteptr [2] + (byteptr [3] << 8)));
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byteptr += 4;
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if (!(wps->wphdr.flags & MONO_DATA)) {
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wps->dc.error [1] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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wps->dc.shaping_acc [1] = wp_exp2s ((int16_t)(byteptr [2] + (byteptr [3] << 8)));
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byteptr += 4;
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}
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if (wpmd->byte_length == (wps->wphdr.flags & MONO_DATA ? 6 : 12)) {
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wps->dc.shaping_delta [0] = wp_exp2s ((int16_t)(byteptr [0] + (byteptr [1] << 8)));
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if (!(wps->wphdr.flags & MONO_DATA))
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wps->dc.shaping_delta [1] = wp_exp2s ((int16_t)(byteptr [2] + (byteptr [3] << 8)));
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}
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return TRUE;
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}
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return FALSE;
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}
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