From: Mathis Rosenhauer Date: Tue, 20 Nov 2012 13:34:45 +0000 (+0100) Subject: pluralization X-Git-Tag: accepted/tizen/5.0/unified/20181102.025501~189 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=3d5b023dedf57b4c447a0a8c89c4057bb67a3ac0;p=platform%2Fupstream%2Flibaec.git pluralization --- diff --git a/src/aec.c b/src/aec.c index 14064f1..df94f14 100644 --- a/src/aec.c +++ b/src/aec.c @@ -25,7 +25,7 @@ int main(int argc, char *argv[]) int dflag = 0; chunk = CHUNK; - strm.bit_per_sample = 8; + strm.bits_per_sample = 8; strm.block_size = 8; strm.rsi = 2; strm.flags = AEC_DATA_PREPROCESS; @@ -41,7 +41,7 @@ int main(int argc, char *argv[]) chunk = atoi(optarg); break; case 'B': - strm.bit_per_sample = atoi(optarg); + strm.bits_per_sample = atoi(optarg); break; case 'J': strm.block_size = atoi(optarg); @@ -85,14 +85,14 @@ int main(int argc, char *argv[]) exit(-1); } - if (strm.bit_per_sample > 16) + if (strm.bits_per_sample > 16) { - if (strm.bit_per_sample <= 24 && strm.flags & AEC_DATA_3BYTE) + if (strm.bits_per_sample <= 24 && strm.flags & AEC_DATA_3BYTE) chunk *= 3; else chunk *= 4; } - else if (strm.bit_per_sample > 8) + else if (strm.bits_per_sample > 8) { chunk *= 2; } diff --git a/src/decode.c b/src/decode.c index 2efb12b..3454977 100644 --- a/src/decode.c +++ b/src/decode.c @@ -35,7 +35,7 @@ state->last_out = state->buf[0]; \ \ if (strm->flags & AEC_DATA_SIGNED) { \ - m = 1ULL << (strm->bit_per_sample - 1); \ + m = 1ULL << (strm->bits_per_sample - 1); \ /* Reference samples have to be sign extended */ \ state->last_out = (state->last_out ^ m) - m; \ } \ @@ -136,8 +136,8 @@ static void put_sample(struct aec_stream *strm, uint32_t s) struct internal_state *state = strm->state; state->buf[state->buf_i++] = s; - strm->avail_out -= state->byte_per_sample; - strm->total_out += state->byte_per_sample; + strm->avail_out -= state->bytes_per_sample; + strm->total_out += state->bytes_per_sample; if (state->buf_i == state->buf_size) { state->flush_output(strm); @@ -206,7 +206,7 @@ static void fast_split(struct aec_stream *strm) k = state->id - 1; if (state->ref) - put_sample(strm, direct_get(strm, strm->bit_per_sample)); + put_sample(strm, direct_get(strm, strm->bits_per_sample)); for (i = state->ref; i < strm->block_size; i++) state->block[i] = direct_get_fs(strm) << k; @@ -249,7 +249,7 @@ static void fast_uncomp(struct aec_stream *strm) int i; for (i = 0; i < strm->block_size; i++) - put_sample(strm, direct_get(strm, strm->bit_per_sample)); + put_sample(strm, direct_get(strm, strm->bits_per_sample)); } static uint32_t bits_ask(struct aec_stream *strm, int n) @@ -310,12 +310,12 @@ static void fs_drop(struct aec_stream *strm) static uint32_t copysample(struct aec_stream *strm) { - if (bits_ask(strm, strm->bit_per_sample) == 0 + if (bits_ask(strm, strm->bits_per_sample) == 0 || strm->avail_out == 0) return 0; - put_sample(strm, bits_get(strm, strm->bit_per_sample)); - bits_drop(strm, strm->bit_per_sample); + put_sample(strm, bits_get(strm, strm->bits_per_sample)); + bits_drop(strm, strm->bits_per_sample); return 1; } @@ -429,7 +429,7 @@ static int m_zero_block(struct aec_stream *strm) else state->i = zero_blocks * strm->block_size; - if (strm->avail_out >= state->i * state->byte_per_sample) { + if (strm->avail_out >= state->i * state->bytes_per_sample) { fast_zero(strm); state->mode = m_id; return M_CONTINUE; @@ -559,7 +559,7 @@ int aec_decode_init(struct aec_stream *strm) int i, modi; struct internal_state *state; - if (strm->bit_per_sample > 32 || strm->bit_per_sample == 0) + if (strm->bits_per_sample > 32 || strm->bits_per_sample == 0) return AEC_CONF_ERROR; state = (struct internal_state *) malloc(sizeof(struct internal_state)); @@ -574,27 +574,27 @@ int aec_decode_init(struct aec_stream *strm) strm->state = state; - if (strm->bit_per_sample > 16) { + if (strm->bits_per_sample > 16) { state->id_len = 5; - if (strm->bit_per_sample <= 24 && strm->flags & AEC_DATA_3BYTE) { - state->byte_per_sample = 3; + if (strm->bits_per_sample <= 24 && strm->flags & AEC_DATA_3BYTE) { + state->bytes_per_sample = 3; if (strm->flags & AEC_DATA_MSB) state->flush_output = flush_msb_24; else state->flush_output = flush_lsb_24; } else { - state->byte_per_sample = 4; + state->bytes_per_sample = 4; if (strm->flags & AEC_DATA_MSB) state->flush_output = flush_msb_32; else state->flush_output = flush_lsb_32; } state->out_blklen = strm->block_size - * state->byte_per_sample; + * state->bytes_per_sample; } - else if (strm->bit_per_sample > 8) { - state->byte_per_sample = 2; + else if (strm->bits_per_sample > 8) { + state->bytes_per_sample = 2; state->id_len = 4; state->out_blklen = strm->block_size * 2; if (strm->flags & AEC_DATA_MSB) @@ -602,22 +602,22 @@ int aec_decode_init(struct aec_stream *strm) else state->flush_output = flush_lsb_16; } else { - state->byte_per_sample = 1; + state->bytes_per_sample = 1; state->id_len = 3; state->out_blklen = strm->block_size; state->flush_output = flush_8; } if (strm->flags & AEC_DATA_SIGNED) { - state->xmin = -(1ULL << (strm->bit_per_sample - 1)); - state->xmax = (1ULL << (strm->bit_per_sample - 1)) - 1; + state->xmin = -(1ULL << (strm->bits_per_sample - 1)); + state->xmax = (1ULL << (strm->bits_per_sample - 1)) - 1; } else { state->xmin = 0; - state->xmax = (1ULL << strm->bit_per_sample) - 1; + state->xmax = (1ULL << strm->bits_per_sample) - 1; } state->ref_int = strm->block_size * strm->rsi; - state->in_blklen = (strm->block_size * strm->bit_per_sample + state->in_blklen = (strm->block_size * strm->bits_per_sample + state->id_len) / 8 + 1; modi = 1UL << state->id_len; diff --git a/src/decode.h b/src/decode.h index a1fd3cd..230e8f3 100644 --- a/src/decode.h +++ b/src/decode.h @@ -39,7 +39,7 @@ struct internal_state { int fs; /* last fundamental sequence in accumulator */ int ref; /* 1 if current block has reference sample */ int pp; /* 1 if postprocessor has to be used */ - int byte_per_sample; + int bytes_per_sample; int *se_table; uint32_t *buf; uint32_t buf_i; diff --git a/src/encode.c b/src/encode.c index 9ee9803..cc7eae1 100644 --- a/src/encode.c +++ b/src/encode.c @@ -202,7 +202,7 @@ static void preprocess_signed(struct aec_stream *strm) struct internal_state *state = strm->state; uint32_t *d = state->data_pp; int32_t *x = (int32_t *)state->data_raw; - uint64_t m = 1ULL << (strm->bit_per_sample - 1); + uint64_t m = 1ULL << (strm->bits_per_sample - 1); int64_t xmax = state->xmax; int64_t xmin = state->xmin; uint32_t rsi = strm->rsi * strm->block_size - 1; @@ -272,7 +272,7 @@ static int assess_splitting_option(struct aec_stream *strm) Length of CDS encoded with splitting option and optimal k. In Rice coding each sample in a block of samples is split at - the same position into k LSB and bit_per_sample - k MSB. The + the same position into k LSB and bits_per_sample - k MSB. The LSB part is left binary and the MSB part is coded as a fundamental sequence a.k.a. unary (see CCSDS 121.0-B-2). The function of the length of the Coded Data Set (CDS) depending on @@ -438,7 +438,7 @@ static int m_encode_splitting(struct aec_stream *strm) if (state->ref) { - emit(state, state->block[0], strm->bit_per_sample); + emit(state, state->block[0], strm->bits_per_sample); emitblock_fs_1(strm, k); if (k) emitblock_1(strm, k); @@ -458,7 +458,7 @@ static int m_encode_uncomp(struct aec_stream *strm) struct internal_state *state = strm->state; emit(state, (1U << state->id_len) - 1, state->id_len); - emitblock_0(strm, strm->bit_per_sample); + emitblock_0(strm, strm->bits_per_sample); return m_flush_block(strm); } @@ -471,7 +471,7 @@ static int m_encode_se(struct aec_stream *strm) emit(state, 1, state->id_len + 1); if (state->ref) - emit(state, state->block[0], strm->bit_per_sample); + emit(state, state->block[0], strm->bits_per_sample); for (i = 0; i < strm->block_size; i+= 2) { d = state->block[i] + state->block[i + 1]; @@ -488,7 +488,7 @@ static int m_encode_zero(struct aec_stream *strm) emit(state, 0, state->id_len + 1); if (state->zero_ref) - emit(state, state->zero_ref_sample, strm->bit_per_sample); + emit(state, state->zero_ref_sample, strm->bits_per_sample); if (state->zero_blocks == ROS) emitfs(state, 4); @@ -513,7 +513,7 @@ static int m_select_code_option(struct aec_stream *strm) struct internal_state *state = strm->state; uncomp_len = (strm->block_size - state->ref) - * strm->bit_per_sample; + * strm->bits_per_sample; split_len = assess_splitting_option(strm); se_len = assess_se_option(split_len, strm); @@ -688,7 +688,7 @@ int aec_encode_init(struct aec_stream *strm) { struct internal_state *state; - if (strm->bit_per_sample > 32 || strm->bit_per_sample == 0) + if (strm->bits_per_sample > 32 || strm->bits_per_sample == 0) return AEC_CONF_ERROR; if (strm->block_size != 8 @@ -707,11 +707,11 @@ int aec_encode_init(struct aec_stream *strm) memset(state, 0, sizeof(struct internal_state)); strm->state = state; - if (strm->bit_per_sample > 16) { + if (strm->bits_per_sample > 16) { /* 24/32 input bit settings */ state->id_len = 5; - if (strm->bit_per_sample <= 24 + if (strm->bits_per_sample <= 24 && strm->flags & AEC_DATA_3BYTE) { state->block_len = 3 * strm->block_size; if (strm->flags & AEC_DATA_MSB) { @@ -732,7 +732,7 @@ int aec_encode_init(struct aec_stream *strm) } } } - else if (strm->bit_per_sample > 8) { + else if (strm->bits_per_sample > 8) { /* 16 bit settings */ state->id_len = 4; state->block_len = 2 * strm->block_size; @@ -754,12 +754,12 @@ int aec_encode_init(struct aec_stream *strm) } if (strm->flags & AEC_DATA_SIGNED) { - state->xmin = -(1ULL << (strm->bit_per_sample - 1)); - state->xmax = (1ULL << (strm->bit_per_sample - 1)) - 1; + state->xmin = -(1ULL << (strm->bits_per_sample - 1)); + state->xmax = (1ULL << (strm->bits_per_sample - 1)) - 1; state->preprocess = preprocess_signed; } else { state->xmin = 0; - state->xmax = (1ULL << strm->bit_per_sample) - 1; + state->xmax = (1ULL << strm->bits_per_sample) - 1; state->preprocess = preprocess_unsigned; } diff --git a/src/libaec.h b/src/libaec.h index 91c8485..9129a32 100644 --- a/src/libaec.h +++ b/src/libaec.h @@ -16,7 +16,7 @@ struct aec_stream { unsigned char *next_out; size_t avail_out; /* remaining free space at next_out */ size_t total_out; /* total number of bytes output so far */ - int bit_per_sample; /* resolution in bits per sample (n = + int bits_per_sample; /* resolution in bits per sample (n = * 1, ..., 32) */ int block_size; /* block size in samples */ diff --git a/src/sz_compat.c b/src/sz_compat.c index 3d4ffed..fdb07b8 100644 --- a/src/sz_compat.c +++ b/src/sz_compat.c @@ -133,17 +133,17 @@ int SZ_BufftoBuffCompress(void *dest, size_t *destLen, interleave = param->bits_per_pixel == 32 || param->bits_per_pixel == 64; if (interleave) { - strm.bit_per_sample = 8; + strm.bits_per_sample = 8; buf = malloc(sourceLen); if (buf == NULL) return SZ_MEM_ERROR; interleave_buffer(buf, source, sourceLen, param->bits_per_pixel / 8); } else { - strm.bit_per_sample = param->bits_per_pixel; + strm.bits_per_sample = param->bits_per_pixel; buf = (void *)source; } - pixel_size = bits_to_bytes(strm.bit_per_sample); + pixel_size = bits_to_bytes(strm.bits_per_sample); if (pad_scanline) { scanlines = (sourceLen / pixel_size + param->pixels_per_scanline - 1) @@ -213,11 +213,11 @@ int SZ_BufftoBuffDecompress(void *dest, size_t *destLen, extra_buffer = pad_scanline || deinterleave; if (deinterleave) - strm.bit_per_sample = 8; + strm.bits_per_sample = 8; else - strm.bit_per_sample = param->bits_per_pixel; + strm.bits_per_sample = param->bits_per_pixel; - pixel_size = bits_to_bytes(strm.bit_per_sample); + pixel_size = bits_to_bytes(strm.bits_per_sample); if (extra_buffer) { if (pad_scanline) { diff --git a/tests/check_aec.c b/tests/check_aec.c index d54c6e8..ac1d915 100644 --- a/tests/check_aec.c +++ b/tests/check_aec.c @@ -25,21 +25,21 @@ int update_state(struct test_state *state) { struct aec_stream *strm = state->strm; - if (strm->bit_per_sample > 16) { + if (strm->bits_per_sample > 16) { state->id_len = 5; - if (strm->bit_per_sample <= 24 && strm->flags & AEC_DATA_3BYTE) { - state->byte_per_sample = 3; + if (strm->bits_per_sample <= 24 && strm->flags & AEC_DATA_3BYTE) { + state->bytes_per_sample = 3; } else { - state->byte_per_sample = 4; + state->bytes_per_sample = 4; } } - else if (strm->bit_per_sample > 8) { + else if (strm->bits_per_sample > 8) { state->id_len = 4; - state->byte_per_sample = 2; + state->bytes_per_sample = 2; } else { state->id_len = 3; - state->byte_per_sample = 1; + state->bytes_per_sample = 1; } if (strm->flags & AEC_DATA_MSB) @@ -48,11 +48,11 @@ int update_state(struct test_state *state) state->out = out_lsb; if (strm->flags & AEC_DATA_SIGNED) { - state->xmin = -(1ULL << (strm->bit_per_sample - 1)); - state->xmax = (1ULL << (strm->bit_per_sample - 1)) - 1; + state->xmin = -(1ULL << (strm->bits_per_sample - 1)); + state->xmax = (1ULL << (strm->bits_per_sample - 1)) - 1; } else { state->xmin = 0; - state->xmax = (1ULL << strm->bit_per_sample) - 1; + state->xmax = (1ULL << strm->bits_per_sample) - 1; } return 0; @@ -75,15 +75,15 @@ int encode_decode_small(struct test_state *state) avail_out = 1; total_out = 0; strm->next_in = state->ubuf; - strm->avail_in = state->byte_per_sample; + strm->avail_in = state->bytes_per_sample; strm->avail_out = 1; strm->next_out = state->cbuf; while ((avail_in || avail_out) && total_out < state->cbuf_len) { if (strm->avail_in == 0 && avail_in) { - n_in += state->byte_per_sample; + n_in += state->bytes_per_sample; if (n_in < state->buf_len) { - strm->avail_in = state->byte_per_sample; + strm->avail_in = state->bytes_per_sample; strm->next_in = state->ubuf + n_in; } else { avail_in = 0; @@ -120,7 +120,7 @@ int encode_decode_small(struct test_state *state) strm->avail_in = 1; strm->next_in = state->cbuf; - strm->avail_out = state->byte_per_sample; + strm->avail_out = state->bytes_per_sample; strm->next_out = state->obuf; status = aec_decode_init(strm); @@ -135,7 +135,7 @@ int encode_decode_small(struct test_state *state) total_out = 0; strm->next_in = state->cbuf; strm->avail_in = 1; - strm->avail_out = state->byte_per_sample; + strm->avail_out = state->bytes_per_sample; strm->next_out = state->obuf; while ((avail_in || avail_out) && total_out < state->buf_len) { @@ -158,7 +158,7 @@ int encode_decode_small(struct test_state *state) if (strm->total_out - total_out > 0 && total_out < state->buf_len) { total_out = strm->total_out; - strm->avail_out = state->byte_per_sample; + strm->avail_out = state->bytes_per_sample; strm->next_out = state->obuf + total_out; avail_out = 1; } else { diff --git a/tests/check_aec.h b/tests/check_aec.h index 2ee231f..e94a48f 100644 --- a/tests/check_aec.h +++ b/tests/check_aec.h @@ -5,7 +5,7 @@ struct test_state { int (* codec)(struct test_state *state); int id_len; - int byte_per_sample; + int bytes_per_sample; unsigned char *ubuf; unsigned char *cbuf; unsigned char *obuf; diff --git a/tests/check_buffer_sizes.c b/tests/check_buffer_sizes.c index 4da4816..abcf5db 100644 --- a/tests/check_buffer_sizes.c +++ b/tests/check_buffer_sizes.c @@ -13,7 +13,7 @@ int check_block_sizes(struct test_state *state) for (bs = 8; bs <= 64; bs *= 2) { state->strm->block_size = bs; - state->strm->rsi = state->buf_len / (bs * state->byte_per_sample); + state->strm->rsi = state->buf_len / (bs * state->bytes_per_sample); status = encode_decode_large(state); if (status) @@ -30,7 +30,7 @@ int check_block_sizes_short(struct test_state *state) tmp = state->ibuf_len; for (bs = 8; bs <= 64; bs *= 2) { state->strm->block_size = bs; - state->strm->rsi = state->buf_len / (bs * state->byte_per_sample); + state->strm->rsi = state->buf_len / (bs * state->bytes_per_sample); state->ibuf_len = state->buf_len - 2 * bs + 4; status = encode_decode_large(state); if (status) @@ -51,11 +51,11 @@ int check_rsi(struct test_state *state) int status, size; unsigned char *tmp; - size = state->byte_per_sample; + size = state->bytes_per_sample; for (tmp = state->ubuf; tmp < state->ubuf + state->buf_len; - tmp += 2 * state->byte_per_sample) { + tmp += 2 * state->bytes_per_sample) { state->out(tmp, state->xmax, size); state->out(tmp + size, state->xmin, size); } @@ -96,7 +96,7 @@ int main (void) strm.flags = AEC_DATA_PREPROCESS; state.strm = &strm; - strm.bit_per_sample = 32; + strm.bits_per_sample = 32; update_state(&state); status = check_rsi(&state); diff --git a/tests/check_code_options.c b/tests/check_code_options.c index fbbff24..5ec62d7 100644 --- a/tests/check_code_options.c +++ b/tests/check_code_options.c @@ -14,7 +14,7 @@ int check_block_sizes(struct test_state *state, int id, int id_len) for (bs = 8; bs <= 64; bs *= 2) { state->strm->block_size = bs; - max_rsi = state->buf_len / (bs * state->byte_per_sample); + max_rsi = state->buf_len / (bs * state->bytes_per_sample); if (max_rsi > 4096) max_rsi = 4096; @@ -54,11 +54,11 @@ int check_splitting(struct test_state *state, int k) int status, size; unsigned char *tmp; - size = state->byte_per_sample; + size = state->bytes_per_sample; for (tmp = state->ubuf; tmp < state->ubuf + state->buf_len; - tmp += 4 * state->byte_per_sample) { + tmp += 4 * state->bytes_per_sample) { state->out(tmp, state->xmin + (1ULL << (k - 1)) - 1, size); state->out(tmp + size, state->xmin, size); state->out(tmp + 2 * size, state->xmin + (1ULL << (k + 1)) - 1, size); @@ -79,11 +79,11 @@ int check_uncompressed(struct test_state *state) int status, size; unsigned char *tmp; - size = state->byte_per_sample; + size = state->bytes_per_sample; for (tmp = state->ubuf; tmp < state->ubuf + state->buf_len; - tmp += 2 * state->byte_per_sample) { + tmp += 2 * state->bytes_per_sample) { state->out(tmp, state->xmax, size); state->out(tmp + size, state->xmin, size); } @@ -104,11 +104,11 @@ int check_fs(struct test_state *state) int status, size; unsigned char *tmp; - size = state->byte_per_sample; + size = state->bytes_per_sample; for (tmp = state->ubuf; tmp < state->ubuf + state->buf_len; - tmp += 4 * state->byte_per_sample) { + tmp += 4 * state->bytes_per_sample) { state->out(tmp, state->xmin + 2, size); state->out(tmp + size, state->xmin, size); state->out(tmp + 2 * size, state->xmin, size); @@ -129,7 +129,7 @@ int check_se(struct test_state *state) int status, size; unsigned char *tmp; - size = state->byte_per_sample; + size = state->bytes_per_sample; for (tmp = state->ubuf; tmp < state->ubuf + state->buf_len; @@ -158,7 +158,7 @@ int check_bps(struct test_state *state) int k, status, bps; for (bps = 8; bps <= 32; bps += 8) { - state->strm->bit_per_sample = bps; + state->strm->bits_per_sample = bps; if (bps == 24) state->strm->flags |= AEC_DATA_3BYTE; else