mirror of https://git.tukaani.org/xz.git
Rename MIN() and MAX() to my_min() and my_max().
This should avoid some minor portability issues.
This commit is contained in:
parent
019ae27c24
commit
920a69a8d8
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@ -29,7 +29,7 @@ encode(size_t size, lzma_action action)
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do {
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do {
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if (strm.avail_in == 0 && size > 0) {
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if (strm.avail_in == 0 && size > 0) {
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const size_t amount = MIN(size, CHUNK);
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const size_t amount = my_min(size, CHUNK);
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strm.avail_in = fread(in, 1, amount, file_in);
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strm.avail_in = fread(in, 1, amount, file_in);
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strm.next_in = in;
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strm.next_in = in;
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size -= amount; // Intentionally not using avail_in.
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size -= amount; // Intentionally not using avail_in.
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@ -29,7 +29,7 @@ encode(size_t size, lzma_action action)
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do {
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do {
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if (strm.avail_in == 0 && size > 0) {
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if (strm.avail_in == 0 && size > 0) {
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const size_t amount = MIN(size, CHUNK);
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const size_t amount = my_min(size, CHUNK);
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strm.avail_in = fread(in, 1, amount, file_in);
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strm.avail_in = fread(in, 1, amount, file_in);
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strm.next_in = in;
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strm.next_in = in;
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size -= amount; // Intentionally not using avail_in.
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size -= amount; // Intentionally not using avail_in.
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@ -156,13 +156,11 @@ typedef unsigned char _Bool;
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#undef memzero
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#undef memzero
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#define memzero(s, n) memset(s, 0, n)
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#define memzero(s, n) memset(s, 0, n)
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#ifndef MIN
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// NOTE: Avoid using MIN() and MAX(), because even conditionally defining
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# define MIN(x, y) ((x) < (y) ? (x) : (y))
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// those macros can cause some portability trouble, since on some systems
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#endif
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// the system headers insist defining their own versions.
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#define my_min(x, y) ((x) < (y) ? (x) : (y))
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#ifndef MAX
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#define my_max(x, y) ((x) > (y) ? (x) : (y))
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# define MAX(x, y) ((x) > (y) ? (x) : (y))
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#endif
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#ifndef ARRAY_SIZE
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#ifndef ARRAY_SIZE
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# define ARRAY_SIZE(array) (sizeof(array) / sizeof((array)[0]))
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# define ARRAY_SIZE(array) (sizeof(array) / sizeof((array)[0]))
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@ -139,7 +139,7 @@ block_encode_uncompressed(lzma_block *block, const uint8_t *in, size_t in_size,
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// Size of the uncompressed chunk
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// Size of the uncompressed chunk
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const size_t copy_size
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const size_t copy_size
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= MIN(in_size - in_pos, LZMA2_CHUNK_MAX);
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= my_min(in_size - in_pos, LZMA2_CHUNK_MAX);
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out[(*out_pos)++] = (copy_size - 1) >> 8;
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out[(*out_pos)++] = (copy_size - 1) >> 8;
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out[(*out_pos)++] = (copy_size - 1) & 0xFF;
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out[(*out_pos)++] = (copy_size - 1) & 0xFF;
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@ -76,7 +76,7 @@ lzma_bufcpy(const uint8_t *restrict in, size_t *restrict in_pos,
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{
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{
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const size_t in_avail = in_size - *in_pos;
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const size_t in_avail = in_size - *in_pos;
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const size_t out_avail = out_size - *out_pos;
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const size_t out_avail = out_size - *out_pos;
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const size_t copy_size = MIN(in_avail, out_avail);
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const size_t copy_size = my_min(in_avail, out_avail);
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memcpy(out + *out_pos, in + *in_pos, copy_size);
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memcpy(out + *out_pos, in + *in_pos, copy_size);
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@ -33,7 +33,7 @@ lzma_stream_buffer_bound(size_t uncompressed_size)
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// Catch the possible integer overflow and also prevent the size of
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// Catch the possible integer overflow and also prevent the size of
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// the Stream exceeding LZMA_VLI_MAX (theoretically possible on
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// the Stream exceeding LZMA_VLI_MAX (theoretically possible on
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// 64-bit systems).
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// 64-bit systems).
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if (MIN(SIZE_MAX, LZMA_VLI_MAX) - block_bound < HEADERS_BOUND)
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if (my_min(SIZE_MAX, LZMA_VLI_MAX) - block_bound < HEADERS_BOUND)
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return 0;
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return 0;
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return block_bound + HEADERS_BOUND;
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return block_bound + HEADERS_BOUND;
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@ -59,7 +59,7 @@ delta_encode(lzma_coder *coder, lzma_allocator *allocator,
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if (coder->next.code == NULL) {
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if (coder->next.code == NULL) {
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const size_t in_avail = in_size - *in_pos;
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const size_t in_avail = in_size - *in_pos;
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const size_t out_avail = out_size - *out_pos;
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const size_t out_avail = out_size - *out_pos;
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const size_t size = MIN(in_avail, out_avail);
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const size_t size = my_min(in_avail, out_avail);
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copy_and_encode(coder, in + *in_pos, out + *out_pos, size);
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copy_and_encode(coder, in + *in_pos, out + *out_pos, size);
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@ -81,7 +81,8 @@ decode_buffer(lzma_coder *coder,
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// It must not decode past the end of the dictionary
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// It must not decode past the end of the dictionary
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// buffer, and we don't want it to decode more than is
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// buffer, and we don't want it to decode more than is
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// actually needed to fill the out[] buffer.
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// actually needed to fill the out[] buffer.
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coder->dict.limit = coder->dict.pos + MIN(out_size - *out_pos,
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coder->dict.limit = coder->dict.pos
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+ my_min(out_size - *out_pos,
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coder->dict.size - coder->dict.pos);
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coder->dict.size - coder->dict.pos);
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// Call the coder->lz.code() to do the actual decoding.
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// Call the coder->lz.code() to do the actual decoding.
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@ -264,7 +265,7 @@ lzma_lz_decoder_init(lzma_next_coder *next, lzma_allocator *allocator,
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&& lz_options.preset_dict_size > 0) {
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&& lz_options.preset_dict_size > 0) {
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// If the preset dictionary is bigger than the actual
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// If the preset dictionary is bigger than the actual
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// dictionary, copy only the tail.
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// dictionary, copy only the tail.
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const size_t copy_size = MIN(lz_options.preset_dict_size,
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const size_t copy_size = my_min(lz_options.preset_dict_size,
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lz_options.dict_size);
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lz_options.dict_size);
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const size_t offset = lz_options.preset_dict_size - copy_size;
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const size_t offset = lz_options.preset_dict_size - copy_size;
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memcpy(next->coder->dict.buf, lz_options.preset_dict + offset,
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memcpy(next->coder->dict.buf, lz_options.preset_dict + offset,
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@ -129,7 +129,7 @@ dict_repeat(lzma_dict *dict, uint32_t distance, uint32_t *len)
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{
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{
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// Don't write past the end of the dictionary.
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// Don't write past the end of the dictionary.
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const size_t dict_avail = dict->limit - dict->pos;
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const size_t dict_avail = dict->limit - dict->pos;
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uint32_t left = MIN(dict_avail, *len);
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uint32_t left = my_min(dict_avail, *len);
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*len -= left;
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*len -= left;
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// Repeat a block of data from the history. Because memcpy() is faster
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// Repeat a block of data from the history. Because memcpy() is faster
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@ -423,7 +423,7 @@ lz_encoder_init(lzma_mf *mf, lzma_allocator *allocator,
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&& lz_options->preset_dict_size > 0) {
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&& lz_options->preset_dict_size > 0) {
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// If the preset dictionary is bigger than the actual
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// If the preset dictionary is bigger than the actual
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// dictionary, use only the tail.
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// dictionary, use only the tail.
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mf->write_pos = MIN(lz_options->preset_dict_size, mf->size);
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mf->write_pos = my_min(lz_options->preset_dict_size, mf->size);
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memcpy(mf->buffer, lz_options->preset_dict
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memcpy(mf->buffer, lz_options->preset_dict
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+ lz_options->preset_dict_size - mf->write_pos,
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+ lz_options->preset_dict_size - mf->write_pos,
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mf->write_pos);
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mf->write_pos);
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@ -281,7 +281,7 @@ mf_read(lzma_mf *mf, uint8_t *out, size_t *out_pos, size_t out_size,
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size_t *left)
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size_t *left)
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{
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{
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const size_t out_avail = out_size - *out_pos;
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const size_t out_avail = out_size - *out_pos;
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const size_t copy_size = MIN(out_avail, *left);
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const size_t copy_size = my_min(out_avail, *left);
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assert(mf->read_ahead == 0);
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assert(mf->read_ahead == 0);
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assert(mf->read_pos >= *left);
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assert(mf->read_pos >= *left);
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@ -481,7 +481,7 @@ bt_find_func(
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<< 1);
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<< 1);
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const uint8_t *const pb = cur - delta;
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const uint8_t *const pb = cur - delta;
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uint32_t len = MIN(len0, len1);
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uint32_t len = my_min(len0, len1);
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if (pb[len] == cur[len]) {
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if (pb[len] == cur[len]) {
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while (++len != len_limit)
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while (++len != len_limit)
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@ -546,7 +546,7 @@ bt_skip_func(
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+ (delta > cyclic_pos ? cyclic_size : 0))
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+ (delta > cyclic_pos ? cyclic_size : 0))
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<< 1);
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<< 1);
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const uint8_t *pb = cur - delta;
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const uint8_t *pb = cur - delta;
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uint32_t len = MIN(len0, len1);
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uint32_t len = my_min(len0, len1);
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if (pb[len] == cur[len]) {
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if (pb[len] == cur[len]) {
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while (++len != len_limit)
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while (++len != len_limit)
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@ -372,7 +372,7 @@ extern lzma_ret
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lzma_lzma2_props_encode(const void *options, uint8_t *out)
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lzma_lzma2_props_encode(const void *options, uint8_t *out)
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{
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{
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const lzma_options_lzma *const opt = options;
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const lzma_options_lzma *const opt = options;
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uint32_t d = MAX(opt->dict_size, LZMA_DICT_SIZE_MIN);
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uint32_t d = my_max(opt->dict_size, LZMA_DICT_SIZE_MIN);
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// Round up to to the next 2^n - 1 or 2^n + 2^(n - 1) - 1 depending
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// Round up to to the next 2^n - 1 or 2^n + 2^(n - 1) - 1 depending
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// on which one is the next:
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// on which one is the next:
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@ -33,7 +33,7 @@ lzma_lzma_optimum_fast(lzma_coder *restrict coder, lzma_mf *restrict mf,
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}
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}
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const uint8_t *buf = mf_ptr(mf) - 1;
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const uint8_t *buf = mf_ptr(mf) - 1;
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const uint32_t buf_avail = MIN(mf_avail(mf) + 1, MATCH_LEN_MAX);
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const uint32_t buf_avail = my_min(mf_avail(mf) + 1, MATCH_LEN_MAX);
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if (buf_avail < 2) {
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if (buf_avail < 2) {
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// There's not enough input left to encode a match.
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// There's not enough input left to encode a match.
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@ -287,7 +287,7 @@ helper1(lzma_coder *restrict coder, lzma_mf *restrict mf,
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matches_count = coder->matches_count;
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matches_count = coder->matches_count;
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}
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}
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const uint32_t buf_avail = MIN(mf_avail(mf) + 1, MATCH_LEN_MAX);
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const uint32_t buf_avail = my_min(mf_avail(mf) + 1, MATCH_LEN_MAX);
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if (buf_avail < 2) {
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if (buf_avail < 2) {
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*back_res = UINT32_MAX;
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*back_res = UINT32_MAX;
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*len_res = 1;
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*len_res = 1;
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@ -371,7 +371,7 @@ helper1(lzma_coder *restrict coder, lzma_mf *restrict mf,
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}
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}
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}
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}
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const uint32_t len_end = MAX(len_main, rep_lens[rep_max_index]);
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const uint32_t len_end = my_max(len_main, rep_lens[rep_max_index]);
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if (len_end < 2) {
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if (len_end < 2) {
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*back_res = coder->opts[1].back_prev;
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*back_res = coder->opts[1].back_prev;
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@ -565,12 +565,12 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
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if (buf_avail_full < 2)
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if (buf_avail_full < 2)
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return len_end;
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return len_end;
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const uint32_t buf_avail = MIN(buf_avail_full, nice_len);
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const uint32_t buf_avail = my_min(buf_avail_full, nice_len);
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if (!next_is_literal && match_byte != current_byte) { // speed optimization
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if (!next_is_literal && match_byte != current_byte) { // speed optimization
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// try literal + rep0
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// try literal + rep0
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const uint8_t *const buf_back = buf - reps[0] - 1;
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const uint8_t *const buf_back = buf - reps[0] - 1;
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const uint32_t limit = MIN(buf_avail_full, nice_len + 1);
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const uint32_t limit = my_min(buf_avail_full, nice_len + 1);
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uint32_t len_test = 1;
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uint32_t len_test = 1;
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while (len_test < limit && buf[len_test] == buf_back[len_test])
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while (len_test < limit && buf[len_test] == buf_back[len_test])
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@ -648,7 +648,7 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
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uint32_t len_test_2 = len_test + 1;
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uint32_t len_test_2 = len_test + 1;
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const uint32_t limit = MIN(buf_avail_full,
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const uint32_t limit = my_min(buf_avail_full,
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len_test_2 + nice_len);
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len_test_2 + nice_len);
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for (; len_test_2 < limit
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for (; len_test_2 < limit
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&& buf[len_test_2] == buf_back[len_test_2];
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&& buf[len_test_2] == buf_back[len_test_2];
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@ -743,7 +743,7 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
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// Try Match + Literal + Rep0
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// Try Match + Literal + Rep0
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const uint8_t *const buf_back = buf - cur_back - 1;
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const uint8_t *const buf_back = buf - cur_back - 1;
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uint32_t len_test_2 = len_test + 1;
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uint32_t len_test_2 = len_test + 1;
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const uint32_t limit = MIN(buf_avail_full,
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const uint32_t limit = my_min(buf_avail_full,
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len_test_2 + nice_len);
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len_test_2 + nice_len);
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for (; len_test_2 < limit &&
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for (; len_test_2 < limit &&
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@ -860,7 +860,7 @@ lzma_lzma_optimum_normal(lzma_coder *restrict coder, lzma_mf *restrict mf,
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len_end = helper2(coder, reps, mf_ptr(mf) - 1, len_end,
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len_end = helper2(coder, reps, mf_ptr(mf) - 1, len_end,
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position + cur, cur, mf->nice_len,
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position + cur, cur, mf->nice_len,
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MIN(mf_avail(mf) + 1, OPTS - 1 - cur));
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my_min(mf_avail(mf) + 1, OPTS - 1 - cur));
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}
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}
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backward(coder, len_res, back_res, cur);
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backward(coder, len_res, back_res, cur);
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@ -406,7 +406,8 @@ parse_environment(args_info *args, char *argv0)
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// Keep argc small enough to fit into a singed int
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// Keep argc small enough to fit into a singed int
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// and to keep it usable for memory allocation.
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// and to keep it usable for memory allocation.
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if (++argc == MIN(INT_MAX, SIZE_MAX / sizeof(char *)))
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if (++argc == my_min(
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INT_MAX, SIZE_MAX / sizeof(char *)))
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message_fatal(_("The environment variable "
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message_fatal(_("The environment variable "
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"XZ_OPT contains too many "
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"XZ_OPT contains too many "
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"arguments"));
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"arguments"));
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