diff options
Diffstat (limited to 'apps/codecs/libwavpack/unpack.c')
| -rw-r--r-- | apps/codecs/libwavpack/unpack.c | 463 |
1 files changed, 343 insertions, 120 deletions
diff --git a/apps/codecs/libwavpack/unpack.c b/apps/codecs/libwavpack/unpack.c index cc31b8808e..ae473787a7 100644 --- a/apps/codecs/libwavpack/unpack.c +++ b/apps/codecs/libwavpack/unpack.c @@ -18,20 +18,34 @@ #include <string.h> #include <math.h> +static void strcpy_loc (char *dst, char *src) { while (*src) *dst++ = *src++; *dst = 0; } + #define LOSSY_MUTE //////////////////////////////// local macros ///////////////////////////////// +// these macros implement the weight application and update operations +// that are at the heart of the decorrelation loops + #define apply_weight_i(weight, sample) ((weight * sample + 512) >> 10) #define apply_weight_f(weight, sample) (((((sample & 0xffff) * weight) >> 9) + \ (((sample & ~0xffff) >> 9) * weight) + 1) >> 1) +#if 1 // PERFCOND #define apply_weight(weight, sample) (sample != (short) sample ? \ apply_weight_f (weight, sample) : apply_weight_i (weight, sample)) +#else +#define apply_weight(weight, sample) ((int32_t)((weight * (int64_t) sample + 512) >> 10)) +#endif +#if 1 // PERFCOND #define update_weight(weight, delta, source, result) \ if (source && result) weight -= ((((source ^ result) >> 30) & 2) - 1) * delta; +#else +#define update_weight(weight, delta, source, result) \ + if (source && result) (source ^ result) < 0 ? (weight -= delta) : (weight += delta); +#endif #define update_weight_clip(weight, delta, source, result) \ if (source && result && ((source ^ result) < 0 ? (weight -= delta) < -1024 : (weight += delta) > 1024)) \ @@ -61,7 +75,7 @@ int unpack_init (WavpackContext *wpc) while (read_metadata_buff (wpc, &wpmd)) { if (!process_metadata (wpc, &wpmd)) { - /*strcpy (wpc->error_message, "invalid metadata!");*/ + strcpy_loc (wpc->error_message, "invalid metadata!"); return FALSE; } @@ -70,7 +84,7 @@ int unpack_init (WavpackContext *wpc) } if (wps->wphdr.block_samples && !bs_is_open (&wps->wvbits)) { - /*strcpy (wpc->error_message, "invalid WavPack file!");*/ + strcpy_loc (wpc->error_message, "invalid WavPack file!"); return FALSE; } @@ -301,6 +315,9 @@ int read_config_info (WavpackContext *wpc, WavpackMetadata *wpmd) // samples unpacked, which can be less than the number requested if an error // occurs or the end of the block is reached. +static void decorr_mono_pass (struct decorr_pass *dpp, long *buffer, long sample_count); +static void decorr_stereo_pass (struct decorr_pass *dpp, long *buffer, long sample_count); +static void decorr_stereo_pass_cont (struct decorr_pass *dpp, long *buffer, long sample_count); static void fixup_samples (WavpackStream *wps, long *buffer, ulong sample_count); long unpack_samples (WavpackContext *wpc, long *buffer, ulong sample_count) @@ -309,8 +326,8 @@ long unpack_samples (WavpackContext *wpc, long *buffer, ulong sample_count) ulong flags = wps->wphdr.flags, crc = wps->crc, i; long mute_limit = (1L << ((flags & MAG_MASK) >> MAG_LSB)) + 2; struct decorr_pass *dpp; - long read_word, *bptr; - int tcount, m = 0; + long *bptr, *eptr; + int tcount; if (wps->sample_index + sample_count > wps->wphdr.block_index + wps->wphdr.block_samples) sample_count = wps->wphdr.block_index + wps->wphdr.block_samples - wps->sample_index; @@ -326,121 +343,59 @@ long unpack_samples (WavpackContext *wpc, long *buffer, ulong sample_count) ///////////////////// handle version 4 mono data ///////////////////////// - if (flags & MONO_FLAG) - for (bptr = buffer, i = 0; i < sample_count; ++i) { - if ((read_word = get_word (wps, 0)) == WORD_EOF) - break; - - for (tcount = wps->num_terms, dpp = wps->decorr_passes; tcount--; dpp++) { - long sam, temp; - int k; - - if (dpp->term > MAX_TERM) { - if (dpp->term & 1) - sam = 2 * dpp->samples_A [0] - dpp->samples_A [1]; - else - sam = (3 * dpp->samples_A [0] - dpp->samples_A [1]) >> 1; + if (flags & MONO_FLAG) { + eptr = buffer + sample_count; + i = get_words (wps, 1, sample_count, buffer); - dpp->samples_A [1] = dpp->samples_A [0]; - k = 0; - } - else { - sam = dpp->samples_A [m]; - k = (m + dpp->term) & (MAX_TERM - 1); - } - - temp = apply_weight (dpp->weight_A, sam) + read_word; - update_weight (dpp->weight_A, dpp->delta, sam, read_word); - dpp->samples_A [k] = read_word = temp; - } + for (tcount = wps->num_terms, dpp = wps->decorr_passes; tcount--; dpp++) + decorr_mono_pass (dpp, buffer, sample_count); - if (labs (read_word) > mute_limit) + for (bptr = buffer; bptr < eptr; ++bptr) { + if (labs (bptr [0]) > mute_limit) { + i = bptr - buffer; break; + } - m = (m + 1) & (MAX_TERM - 1); - crc = crc * 3 + read_word; - *bptr++ = read_word; + crc = crc * 3 + bptr [0]; } + } //////////////////// handle version 4 stereo data //////////////////////// - else - for (bptr = buffer, i = 0; i < sample_count; ++i) { - long left, right, left2, right2; - - if ((left = get_word (wps, 0)) == WORD_EOF || - (right = get_word (wps, 1)) == WORD_EOF) - break; + else { + eptr = buffer + (sample_count * 2); + i = get_words (wps, 2, sample_count, buffer); + if (sample_count < 16) for (tcount = wps->num_terms, dpp = wps->decorr_passes; tcount--; dpp++) - if (dpp->term > 0) { - long sam_A, sam_B; - int k; - - if (dpp->term > MAX_TERM) { - if (dpp->term & 1) { - sam_A = 2 * dpp->samples_A [0] - dpp->samples_A [1]; - sam_B = 2 * dpp->samples_B [0] - dpp->samples_B [1]; - } - else { - sam_A = (3 * dpp->samples_A [0] - dpp->samples_A [1]) >> 1; - sam_B = (3 * dpp->samples_B [0] - dpp->samples_B [1]) >> 1; - } - - dpp->samples_A [1] = dpp->samples_A [0]; - dpp->samples_B [1] = dpp->samples_B [0]; - k = 0; - } - else { - sam_A = dpp->samples_A [m]; - sam_B = dpp->samples_B [m]; - k = (m + dpp->term) & (MAX_TERM - 1); - } - - left2 = apply_weight (dpp->weight_A, sam_A) + left; - right2 = apply_weight (dpp->weight_B, sam_B) + right; - - update_weight (dpp->weight_A, dpp->delta, sam_A, left); - update_weight (dpp->weight_B, dpp->delta, sam_B, right); - - dpp->samples_A [k] = left = left2; - dpp->samples_B [k] = right = right2; - } - else if (dpp->term == -1) { - left2 = left + apply_weight (dpp->weight_A, dpp->samples_A [0]); - update_weight_clip (dpp->weight_A, dpp->delta, dpp->samples_A [0], left); - left = left2; - right2 = right + apply_weight (dpp->weight_B, left2); - update_weight_clip (dpp->weight_B, dpp->delta, left2, right); - dpp->samples_A [0] = right = right2; - } - else { - right2 = right + apply_weight (dpp->weight_B, dpp->samples_B [0]); - update_weight_clip (dpp->weight_B, dpp->delta, dpp->samples_B [0], right); - right = right2; - - if (dpp->term == -3) { - right2 = dpp->samples_A [0]; - dpp->samples_A [0] = right; - } - - left2 = left + apply_weight (dpp->weight_A, right2); - update_weight_clip (dpp->weight_A, dpp->delta, right2, left); - dpp->samples_B [0] = left = left2; - } + decorr_stereo_pass (dpp, buffer, sample_count); + else + for (tcount = wps->num_terms, dpp = wps->decorr_passes; tcount--; dpp++) { + decorr_stereo_pass (dpp, buffer, 8); + decorr_stereo_pass_cont (dpp, buffer + 16, sample_count - 8); + } - m = (m + 1) & (MAX_TERM - 1); + if (flags & JOINT_STEREO) + for (bptr = buffer; bptr < eptr; bptr += 2) { + bptr [0] += (bptr [1] -= (bptr [0] >> 1)); - if (flags & JOINT_STEREO) - left += (right -= (left >> 1)); + if (labs (bptr [0]) > mute_limit || labs (bptr [1]) > mute_limit) { + i = (bptr - buffer) / 2; + break; + } - if (labs (left) > mute_limit || labs (right) > mute_limit) - break; + crc = (crc * 3 + bptr [0]) * 3 + bptr [1]; + } + else + for (bptr = buffer; bptr < eptr; bptr += 2) { + if (labs (bptr [0]) > mute_limit || labs (bptr [1]) > mute_limit) { + i = (bptr - buffer) / 2; + break; + } - crc = (crc * 3 + left) * 3 + right; - *bptr++ = left; - *bptr++ = right; - } + crc = (crc * 3 + bptr [0]) * 3 + bptr [1]; + } + } if (i != sample_count) { memset (buffer, 0, sample_count * (flags & MONO_FLAG ? 4 : 8)); @@ -448,17 +403,6 @@ long unpack_samples (WavpackContext *wpc, long *buffer, ulong sample_count) i = sample_count; } - while (m--) - for (tcount = wps->num_terms, dpp = wps->decorr_passes; tcount--; dpp++) - if (dpp->term > 0 && dpp->term <= MAX_TERM) { - long temp = dpp->samples_A [0]; - memcpy (dpp->samples_A, dpp->samples_A + 1, sizeof (dpp->samples_A) - sizeof (dpp->samples_A [0])); - dpp->samples_A [MAX_TERM - 1] = temp; - temp = dpp->samples_B [0]; - memcpy (dpp->samples_B, dpp->samples_B + 1, sizeof (dpp->samples_B) - sizeof (dpp->samples_B [0])); - dpp->samples_B [MAX_TERM - 1] = temp; - } - fixup_samples (wps, buffer, i); if (flags & FLOAT_DATA) @@ -471,6 +415,286 @@ long unpack_samples (WavpackContext *wpc, long *buffer, ulong sample_count) return i; } +static void decorr_stereo_pass (struct decorr_pass *dpp, long *buffer, long sample_count) +{ + long delta = dpp->delta, weight_A = dpp->weight_A, weight_B = dpp->weight_B; + long *bptr, *eptr = buffer + (sample_count * 2), sam_A, sam_B; + int m, k; + + switch (dpp->term) { + + case 17: + for (bptr = buffer; bptr < eptr; bptr += 2) { + sam_A = 2 * dpp->samples_A [0] - dpp->samples_A [1]; + dpp->samples_A [1] = dpp->samples_A [0]; + dpp->samples_A [0] = apply_weight (weight_A, sam_A) + bptr [0]; + update_weight (weight_A, delta, sam_A, bptr [0]); + bptr [0] = dpp->samples_A [0]; + + sam_A = 2 * dpp->samples_B [0] - dpp->samples_B [1]; + dpp->samples_B [1] = dpp->samples_B [0]; + dpp->samples_B [0] = apply_weight (weight_B, sam_A) + bptr [1]; + update_weight (weight_B, delta, sam_A, bptr [1]); + bptr [1] = dpp->samples_B [0]; + } + + break; + + case 18: + for (bptr = buffer; bptr < eptr; bptr += 2) { + sam_A = (3 * dpp->samples_A [0] - dpp->samples_A [1]) >> 1; + dpp->samples_A [1] = dpp->samples_A [0]; + dpp->samples_A [0] = apply_weight (weight_A, sam_A) + bptr [0]; + update_weight (weight_A, delta, sam_A, bptr [0]); + bptr [0] = dpp->samples_A [0]; + + sam_A = (3 * dpp->samples_B [0] - dpp->samples_B [1]) >> 1; + dpp->samples_B [1] = dpp->samples_B [0]; + dpp->samples_B [0] = apply_weight (weight_B, sam_A) + bptr [1]; + update_weight (weight_B, delta, sam_A, bptr [1]); + bptr [1] = dpp->samples_B [0]; + } + + break; + + default: + for (m = 0, k = dpp->term & (MAX_TERM - 1), bptr = buffer; bptr < eptr; bptr += 2) { + sam_A = dpp->samples_A [m]; + dpp->samples_A [k] = apply_weight (weight_A, sam_A) + bptr [0]; + update_weight (weight_A, delta, sam_A, bptr [0]); + bptr [0] = dpp->samples_A [k]; + + sam_A = dpp->samples_B [m]; + dpp->samples_B [k] = apply_weight (weight_B, sam_A) + bptr [1]; + update_weight (weight_B, delta, sam_A, bptr [1]); + bptr [1] = dpp->samples_B [k]; + + m = (m + 1) & (MAX_TERM - 1); + k = (k + 1) & (MAX_TERM - 1); + } + + if (m) { + long temp_samples [MAX_TERM]; + + memcpy (temp_samples, dpp->samples_A, sizeof (dpp->samples_A)); + + for (k = 0; k < MAX_TERM; k++, m++) + dpp->samples_A [k] = temp_samples [m & (MAX_TERM - 1)]; + + memcpy (temp_samples, dpp->samples_B, sizeof (dpp->samples_B)); + + for (k = 0; k < MAX_TERM; k++, m++) + dpp->samples_B [k] = temp_samples [m & (MAX_TERM - 1)]; + } + + break; + + case -1: + for (bptr = buffer; bptr < eptr; bptr += 2) { + sam_A = bptr [0] + apply_weight (weight_A, dpp->samples_A [0]); + update_weight_clip (weight_A, delta, dpp->samples_A [0], bptr [0]); + bptr [0] = sam_A; + dpp->samples_A [0] = bptr [1] + apply_weight (weight_B, sam_A); + update_weight_clip (weight_B, delta, sam_A, bptr [1]); + bptr [1] = dpp->samples_A [0]; + } + + break; + + case -2: + for (bptr = buffer; bptr < eptr; bptr += 2) { + sam_B = bptr [1] + apply_weight (weight_B, dpp->samples_B [0]); + update_weight_clip (weight_B, delta, dpp->samples_B [0], bptr [1]); + bptr [1] = sam_B; + dpp->samples_B [0] = bptr [0] + apply_weight (weight_A, sam_B); + update_weight_clip (weight_A, delta, sam_B, bptr [0]); + bptr [0] = dpp->samples_B [0]; + } + + break; + + case -3: + for (bptr = buffer; bptr < eptr; bptr += 2) { + sam_A = bptr [0] + apply_weight (weight_A, dpp->samples_A [0]); + update_weight_clip (weight_A, delta, dpp->samples_A [0], bptr [0]); + sam_B = bptr [1] + apply_weight (weight_B, dpp->samples_B [0]); + update_weight_clip (weight_B, delta, dpp->samples_B [0], bptr [1]); + bptr [0] = dpp->samples_B [0] = sam_A; + bptr [1] = dpp->samples_A [0] = sam_B; + } + + break; + } + + dpp->weight_A = weight_A; + dpp->weight_B = weight_B; +} + +static void decorr_stereo_pass_cont (struct decorr_pass *dpp, long *buffer, long sample_count) +{ + long delta = dpp->delta, weight_A = dpp->weight_A, weight_B = dpp->weight_B; + long *bptr, *tptr, *eptr = buffer + (sample_count * 2), sam_A, sam_B; + int k; + + switch (dpp->term) { + + case 17: + for (bptr = buffer; bptr < eptr; bptr += 2) { + sam_A = 2 * bptr [-2] - bptr [-4]; + bptr [0] = apply_weight (weight_A, sam_A) + (sam_B = bptr [0]); + update_weight (weight_A, delta, sam_A, sam_B); + + sam_A = 2 * bptr [-1] - bptr [-3]; + bptr [1] = apply_weight (weight_B, sam_A) + (sam_B = bptr [1]); + update_weight (weight_B, delta, sam_A, sam_B); + } + + dpp->samples_B [0] = bptr [-1]; + dpp->samples_A [0] = bptr [-2]; + dpp->samples_B [1] = bptr [-3]; + dpp->samples_A [1] = bptr [-4]; + break; + + case 18: + for (bptr = buffer; bptr < eptr; bptr += 2) { + sam_A = (3 * bptr [-2] - bptr [-4]) >> 1; + bptr [0] = apply_weight (weight_A, sam_A) + (sam_B = bptr [0]); + update_weight (weight_A, delta, sam_A, sam_B); + + sam_A = (3 * bptr [-1] - bptr [-3]) >> 1; + bptr [1] = apply_weight (weight_B, sam_A) + (sam_B = bptr [1]); + update_weight (weight_B, delta, sam_A, sam_B); + } + + dpp->samples_B [0] = bptr [-1]; + dpp->samples_A [0] = bptr [-2]; + dpp->samples_B [1] = bptr [-3]; + dpp->samples_A [1] = bptr [-4]; + break; + + default: + for (bptr = buffer, tptr = buffer - (dpp->term * 2); bptr < eptr; bptr += 2, tptr += 2) { + bptr [0] = apply_weight (weight_A, tptr [0]) + (sam_A = bptr [0]); + update_weight (weight_A, delta, tptr [0], sam_A); + + bptr [1] = apply_weight (weight_B, tptr [1]) + (sam_A = bptr [1]); + update_weight (weight_B, delta, tptr [1], sam_A); + } + + k = dpp->term; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-1]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-2]; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-3]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-4]; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-5]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-6]; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-7]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-8]; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-9]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-10]; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-11]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-12]; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-13]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-14]; + dpp->samples_B [--k & (MAX_TERM - 1)] = bptr [-15]; + dpp->samples_A [ k & (MAX_TERM - 1)] = bptr [-16]; + break; + + case -1: + for (bptr = buffer; bptr < eptr; bptr += 2) { + bptr [0] = apply_weight (weight_A, bptr [-1]) + (sam_A = bptr [0]); + update_weight_clip (weight_A, delta, bptr [-1], sam_A); + bptr [1] = apply_weight (weight_B, bptr [0]) + (sam_A = bptr [1]); + update_weight_clip (weight_B, delta, bptr [0], sam_A); + } + + dpp->samples_A [0] = bptr [-1]; + break; + + case -2: + for (bptr = buffer; bptr < eptr; bptr += 2) { + bptr [1] = apply_weight (weight_B, bptr [-2]) + (sam_A = bptr [1]); + update_weight_clip (weight_B, delta, bptr [-2], sam_A); + bptr [0] = apply_weight (weight_A, bptr [1]) + (sam_A = bptr [0]); + update_weight_clip (weight_A, delta, bptr [1], sam_A); + } + + dpp->samples_B [0] = bptr [-2]; + break; + + case -3: + for (bptr = buffer; bptr < eptr; bptr += 2) { + bptr [0] = apply_weight (weight_A, bptr [-1]) + (sam_A = bptr [0]); + update_weight_clip (weight_A, delta, bptr [-1], sam_A); + bptr [1] = apply_weight (weight_B, bptr [-2]) + (sam_A = bptr [1]); + update_weight_clip (weight_B, delta, bptr [-2], sam_A); + } + + dpp->samples_A [0] = bptr [-1]; + dpp->samples_B [0] = bptr [-2]; + break; + } + + dpp->weight_A = weight_A; + dpp->weight_B = weight_B; +} + +static void decorr_mono_pass (struct decorr_pass *dpp, long *buffer, long sample_count) +{ + long delta = dpp->delta, weight_A = dpp->weight_A; + long *bptr, *eptr = buffer + sample_count, sam_A; + int m, k; + + switch (dpp->term) { + + case 17: + for (bptr = buffer; bptr < eptr; bptr++) { + sam_A = 2 * dpp->samples_A [0] - dpp->samples_A [1]; + dpp->samples_A [1] = dpp->samples_A [0]; + dpp->samples_A [0] = apply_weight (weight_A, sam_A) + bptr [0]; + update_weight (weight_A, delta, sam_A, bptr [0]); + bptr [0] = dpp->samples_A [0]; + } + + break; + + case 18: + for (bptr = buffer; bptr < eptr; bptr++) { + sam_A = (3 * dpp->samples_A [0] - dpp->samples_A [1]) >> 1; + dpp->samples_A [1] = dpp->samples_A [0]; + dpp->samples_A [0] = apply_weight (weight_A, sam_A) + bptr [0]; + update_weight (weight_A, delta, sam_A, bptr [0]); + bptr [0] = dpp->samples_A [0]; + } + + break; + + default: + for (m = 0, k = dpp->term & (MAX_TERM - 1), bptr = buffer; bptr < eptr; bptr++) { + sam_A = dpp->samples_A [m]; + dpp->samples_A [k] = apply_weight (weight_A, sam_A) + bptr [0]; + update_weight (weight_A, delta, sam_A, bptr [0]); + bptr [0] = dpp->samples_A [k]; + m = (m + 1) & (MAX_TERM - 1); + k = (k + 1) & (MAX_TERM - 1); + } + + if (m) { + long temp_samples [MAX_TERM]; + + memcpy (temp_samples, dpp->samples_A, sizeof (dpp->samples_A)); + + for (k = 0; k < MAX_TERM; k++, m++) + dpp->samples_A [k] = temp_samples [m & (MAX_TERM - 1)]; + } + + break; + } + + dpp->weight_A = weight_A; +} + + // This is a helper function for unpack_samples() that applies several final // operations. First, if the data is 32-bit float data, then that conversion // is done in the float.c module (whether lossy or lossless) and we return. @@ -513,7 +737,6 @@ static void fixup_samples (WavpackStream *wps, long *buffer, ulong sample_count) if (flags & HYBRID_FLAG) { long min_value, max_value, min_shifted, max_shifted; - min_value = max_value = min_shifted = max_shifted = 0; switch (flags & BYTES_STORED) { case 0: @@ -532,9 +755,9 @@ static void fixup_samples (WavpackStream *wps, long *buffer, ulong sample_count) break; case 3: - // 0x80000000 is the same as 2147483648 - min_shifted = (min_value = -0x80000000 >> shift) << shift; - max_shifted = (max_value = 0x80000000 >> shift) << shift; + default: + min_shifted = (min_value = (long) 0x80000000 >> shift) << shift; + max_shifted = (max_value = (long) 0x7FFFFFFF >> shift) << shift; break; } |