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fuchsia / third_party / wuffs / e5f535db4f12b40939b769054ab3c2c404ca8951 / . / test / c / std / deflate.c
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// Copyright 2017 The Wuffs Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// ----------------
/*
This test program is typically run indirectly, by the "wuffs test" or "wuffs
bench" commands. These commands take an optional "-mimic" flag to check that
Wuffs' output mimics (i.e. exactly matches) other libraries' output, such as
giflib for GIF, libpng for PNG, etc.
To manually run this test:
for CC in clang gcc; do
$CC -std=c99 -Wall -Werror deflate.c && ./a.out
rm -f a.out
done
Each edition should print "PASS", amongst other information, and exit(0).
Add the "wuffs mimic cflags" (everything after the colon below) to the C
compiler flags (after the .c file) to run the mimic tests.
To manually run the benchmarks, replace "-Wall -Werror" with "-O3" and replace
the first "./a.out" with "./a.out -bench". Combine these changes with the
"wuffs mimic cflags" to run the mimic benchmarks.
*/
// !! wuffs mimic cflags: -DWUFFS_MIMIC -lz
// Wuffs ships as a "single file C library" or "header file library" as per
// https://github.com/nothings/stb/blob/master/docs/stb_howto.txt
//
// To use that single file as a "foo.c"-like implementation, instead of a
// "foo.h"-like header, #define WUFFS_IMPLEMENTATION before #include'ing or
// compiling it.
#define WUFFS_IMPLEMENTATION
// Defining the WUFFS_CONFIG__MODULE* macros are optional, but it lets users of
// release/c/etc.c whitelist which parts of Wuffs to build. That file contains
// the entire Wuffs standard library, implementing a variety of codecs and file
// formats. Without this macro definition, an optimizing compiler or linker may
// very well discard Wuffs code for unused codecs, but listing the Wuffs
// modules we use makes that process explicit. Preprocessing means that such
// code simply isn't compiled.
#define WUFFS_CONFIG__MODULES
#define WUFFS_CONFIG__MODULE__BASE
#define WUFFS_CONFIG__MODULE__DEFLATE
// If building this program in an environment that doesn't easily accommodate
// relative includes, you can use the script/inline-c-relative-includes.go
// program to generate a stand-alone C file.
#include "../../../release/c/wuffs-unsupported-snapshot.c"
#include "../testlib/testlib.c"
#ifdef WUFFS_MIMIC
#include "../mimiclib/deflate-gzip-zlib.c"
#endif
// ---------------- Golden Tests
// The src_offset0 and src_offset1 magic numbers come from:
//
// go run script/extract-flate-offsets.go test/data/*.gz
//
// The empty comments forces clang-format to place one element per line.
golden_test deflate_256_bytes_gt = {
.want_filename = "test/data/artificial/256.bytes", //
.src_filename = "test/data/artificial/256.bytes.gz", //
.src_offset0 = 20, //
.src_offset1 = 281, //
};
golden_test deflate_deflate_backref_crosses_blocks_gt = {
.want_filename =
"test/data/artificial/"
"deflate-backref-crosses-blocks.deflate.decompressed",
.src_filename =
"test/data/artificial/"
"deflate-backref-crosses-blocks.deflate",
};
golden_test deflate_deflate_distance_32768_gt = {
.want_filename =
"test/data/artificial/"
"deflate-distance-32768.deflate.decompressed",
.src_filename =
"test/data/artificial/"
"deflate-distance-32768.deflate",
};
golden_test deflate_deflate_distance_code_31_gt = {
.want_filename = "test/data/artificial/0.bytes",
.src_filename =
"test/data/artificial/"
"deflate-distance-code-31.deflate",
};
golden_test deflate_midsummer_gt = {
.want_filename = "test/data/midsummer.txt", //
.src_filename = "test/data/midsummer.txt.gz", //
.src_offset0 = 24, //
.src_offset1 = 5166, //
};
golden_test deflate_pi_gt = {
.want_filename = "test/data/pi.txt", //
.src_filename = "test/data/pi.txt.gz", //
.src_offset0 = 17, //
.src_offset1 = 48335, //
};
golden_test deflate_romeo_gt = {
.want_filename = "test/data/romeo.txt", //
.src_filename = "test/data/romeo.txt.gz", //
.src_offset0 = 20, //
.src_offset1 = 550, //
};
golden_test deflate_romeo_fixed_gt = {
.want_filename = "test/data/romeo.txt", //
.src_filename = "test/data/romeo.txt.fixed-huff.deflate", //
};
// ---------------- Deflate Tests
const char* wuffs_deflate_decode(wuffs_base__io_buffer* dst,
wuffs_base__io_buffer* src,
uint32_t wuffs_initialize_flags,
uint64_t wlimit,
uint64_t rlimit) {
wuffs_deflate__decoder dec;
const char* status = wuffs_deflate__decoder__initialize(
&dec, sizeof dec, WUFFS_VERSION, wuffs_initialize_flags);
if (status) {
RETURN_FAIL("initialize: \"%s\"", status);
}
while (true) {
wuffs_base__io_buffer limited_dst = make_limited_writer(*dst, wlimit);
wuffs_base__io_writer dst_writer =
wuffs_base__io_buffer__writer(&limited_dst);
wuffs_base__io_buffer limited_src = make_limited_reader(*src, rlimit);
wuffs_base__io_reader src_reader =
wuffs_base__io_buffer__reader(&limited_src);
status = wuffs_deflate__decoder__decode_io_writer(
&dec, dst_writer, src_reader, global_work_slice);
dst->meta.wi += limited_dst.meta.wi;
src->meta.ri += limited_src.meta.ri;
if (((wlimit < UINT64_MAX) &&
(status == wuffs_base__suspension__short_write)) ||
((rlimit < UINT64_MAX) &&
(status == wuffs_base__suspension__short_read))) {
continue;
}
return status;
}
}
const char* test_wuffs_deflate_decode_256_bytes() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_256_bytes_gt,
UINT64_MAX, UINT64_MAX);
}
const char* test_wuffs_deflate_decode_deflate_backref_crosses_blocks() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode,
&deflate_deflate_backref_crosses_blocks_gt,
UINT64_MAX, UINT64_MAX);
}
const char* test_wuffs_deflate_decode_deflate_distance_32768() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode,
&deflate_deflate_distance_32768_gt, UINT64_MAX,
UINT64_MAX);
}
const char* test_wuffs_deflate_decode_deflate_distance_code_31() {
CHECK_FOCUS(__func__);
const char* got = do_test_io_buffers(wuffs_deflate_decode,
&deflate_deflate_distance_code_31_gt,
UINT64_MAX, UINT64_MAX);
if (got != wuffs_deflate__error__bad_huffman_code) {
RETURN_FAIL("got \"%s\", want \"%s\"", got,
wuffs_deflate__error__bad_huffman_code);
}
return NULL;
}
const char* test_wuffs_deflate_decode_midsummer() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_midsummer_gt,
UINT64_MAX, UINT64_MAX);
}
const char* test_wuffs_deflate_decode_pi_just_one_read() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_pi_gt, UINT64_MAX,
UINT64_MAX);
}
const char* test_wuffs_deflate_decode_pi_many_big_reads() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_pi_gt, UINT64_MAX,
4096);
}
const char* test_wuffs_deflate_decode_pi_many_medium_reads() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_pi_gt, UINT64_MAX,
599);
}
const char* test_wuffs_deflate_decode_pi_many_small_writes_reads() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_pi_gt, 59, 61);
}
const char* test_wuffs_deflate_decode_romeo() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_romeo_gt, UINT64_MAX,
UINT64_MAX);
}
const char* test_wuffs_deflate_decode_romeo_fixed() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(wuffs_deflate_decode, &deflate_romeo_fixed_gt,
UINT64_MAX, UINT64_MAX);
}
const char* test_wuffs_deflate_decode_split_src() {
CHECK_FOCUS(__func__);
wuffs_base__io_buffer src = ((wuffs_base__io_buffer){
.data = global_src_slice,
});
wuffs_base__io_buffer got = ((wuffs_base__io_buffer){
.data = global_got_slice,
});
wuffs_base__io_buffer want = ((wuffs_base__io_buffer){
.data = global_want_slice,
});
const char* status;
golden_test* gt = &deflate_256_bytes_gt;
status = read_file(&src, gt->src_filename);
if (status) {
return status;
}
status = read_file(&want, gt->want_filename);
if (status) {
return status;
}
wuffs_base__io_writer dst_writer = wuffs_base__io_buffer__writer(&got);
wuffs_base__io_reader src_reader = wuffs_base__io_buffer__reader(&src);
int i;
for (i = 1; i < 32; i++) {
size_t split = gt->src_offset0 + i;
if (split >= gt->src_offset1) {
RETURN_FAIL("i=%d: split was not an interior split", i);
}
got.meta.wi = 0;
wuffs_deflate__decoder dec;
status = wuffs_deflate__decoder__initialize(
&dec, sizeof dec, WUFFS_VERSION,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED);
if (status) {
RETURN_FAIL("initialize: \"%s\"", status);
}
src.meta.closed = false;
src.meta.ri = gt->src_offset0;
src.meta.wi = split;
const char* z0 = wuffs_deflate__decoder__decode_io_writer(
&dec, dst_writer, src_reader, global_work_slice);
src.meta.closed = true;
src.meta.ri = split;
src.meta.wi = gt->src_offset1;
const char* z1 = wuffs_deflate__decoder__decode_io_writer(
&dec, dst_writer, src_reader, global_work_slice);
if (z0 != wuffs_base__suspension__short_read) {
RETURN_FAIL("i=%d: z0: got \"%s\", want \"%s\"", i, z0,
wuffs_base__suspension__short_read);
}
if (z1) {
RETURN_FAIL("i=%d: z1: got \"%s\"", i, z1);
}
char prefix[64];
snprintf(prefix, 64, "i=%d: ", i);
status = check_io_buffers_equal(prefix, &got, &want);
if (status) {
return status;
}
}
return NULL;
}
const char* do_test_wuffs_deflate_history(int i,
golden_test* gt,
wuffs_base__io_buffer* src,
wuffs_base__io_buffer* got,
wuffs_deflate__decoder* dec,
uint32_t starting_history_index,
uint64_t wlimit,
const char* want_z) {
src->meta.ri = gt->src_offset0;
src->meta.wi = gt->src_offset1;
got->meta.ri = 0;
got->meta.wi = 0;
wuffs_base__io_buffer limited_got = make_limited_writer(*got, wlimit);
wuffs_base__io_writer dst_writer =
wuffs_base__io_buffer__writer(&limited_got);
wuffs_base__io_reader src_reader = wuffs_base__io_buffer__reader(src);
dec->private_impl.f_history_index = starting_history_index;
const char* got_z = wuffs_deflate__decoder__decode_io_writer(
dec, dst_writer, src_reader, global_work_slice);
got->meta.wi += limited_got.meta.wi;
if (got_z != want_z) {
RETURN_FAIL("i=%d: starting_history_index=0x%04" PRIX32
": decode status: got \"%s\", want \"%s\"",
i, starting_history_index, got_z, want_z);
}
return NULL;
}
const char* test_wuffs_deflate_history_full() {
CHECK_FOCUS(__func__);
wuffs_base__io_buffer src = ((wuffs_base__io_buffer){
.data = global_src_slice,
});
wuffs_base__io_buffer got = ((wuffs_base__io_buffer){
.data = global_got_slice,
});
wuffs_base__io_buffer want = ((wuffs_base__io_buffer){
.data = global_want_slice,
});
const char* status;
golden_test* gt = &deflate_pi_gt;
status = read_file(&src, gt->src_filename);
if (status) {
return status;
}
status = read_file(&want, gt->want_filename);
if (status) {
return status;
}
const int full_history_size = 0x8000;
int i;
for (i = -2; i <= +2; i++) {
wuffs_deflate__decoder dec;
status = wuffs_deflate__decoder__initialize(
&dec, sizeof dec, WUFFS_VERSION,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED);
if (status) {
RETURN_FAIL("initialize: \"%s\"", status);
}
status = do_test_wuffs_deflate_history(
i, gt, &src, &got, &dec, 0, want.meta.wi + i,
i >= 0 ? NULL : wuffs_base__suspension__short_write);
if (status) {
return status;
}
uint32_t want_history_index = i >= 0 ? 0 : full_history_size;
if (dec.private_impl.f_history_index != want_history_index) {
RETURN_FAIL("i=%d: history_index: got %" PRIu32 ", want %" PRIu32, i,
dec.private_impl.f_history_index, want_history_index);
}
if (i >= 0) {
continue;
}
wuffs_base__io_buffer history_got = ((wuffs_base__io_buffer){
.data = ((wuffs_base__slice_u8){
.ptr = dec.private_data.f_history,
.len = full_history_size,
}),
});
history_got.meta.wi = full_history_size;
if (want.meta.wi < full_history_size - i) {
RETURN_FAIL("i=%d: want file is too short", i);
}
wuffs_base__io_buffer history_want = ((wuffs_base__io_buffer){
.data = ((wuffs_base__slice_u8){
.ptr = global_want_array + want.meta.wi - (full_history_size - i),
.len = full_history_size,
}),
});
history_want.meta.wi = full_history_size;
status = check_io_buffers_equal("", &history_got, &history_want);
if (status) {
return status;
}
}
return NULL;
}
const char* test_wuffs_deflate_history_partial() {
CHECK_FOCUS(__func__);
wuffs_base__io_buffer src = ((wuffs_base__io_buffer){
.data = global_src_slice,
});
wuffs_base__io_buffer got = ((wuffs_base__io_buffer){
.data = global_got_slice,
});
golden_test* gt = &deflate_pi_gt;
const char* status = read_file(&src, gt->src_filename);
if (status) {
return status;
}
uint32_t starting_history_indexes[] = {
0x0000, 0x0001, 0x1234, 0x7FFB, 0x7FFC, 0x7FFD, 0x7FFE, 0x7FFF,
0x8000, 0x8001, 0x9234, 0xFFFB, 0xFFFC, 0xFFFD, 0xFFFE, 0xFFFF,
};
int i;
for (i = 0; i < WUFFS_TESTLIB_ARRAY_SIZE(starting_history_indexes); i++) {
uint32_t starting_history_index = starting_history_indexes[i];
// The flate_pi_gt golden test file decodes to the digits of pi.
const char* fragment = "3.14";
const uint32_t fragment_length = 4;
wuffs_deflate__decoder dec;
memset(&(dec.private_data.f_history), 0,
sizeof(dec.private_data.f_history));
status = wuffs_deflate__decoder__initialize(
&dec, sizeof dec, WUFFS_VERSION,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED);
if (status) {
RETURN_FAIL("initialize: \"%s\"", status);
}
status = do_test_wuffs_deflate_history(
i, gt, &src, &got, &dec, starting_history_index, fragment_length,
wuffs_base__suspension__short_write);
if (status) {
return status;
}
bool got_full = dec.private_impl.f_history_index >= 0x8000;
uint32_t got_history_index = dec.private_impl.f_history_index & 0x7FFF;
bool want_full = (starting_history_index + fragment_length) >= 0x8000;
uint32_t want_history_index =
(starting_history_index + fragment_length) & 0x7FFF;
if ((got_full != want_full) || (got_history_index != want_history_index)) {
RETURN_FAIL("i=%d: starting_history_index=0x%04" PRIX32
": history_index: got %d;%04" PRIX32 ", want %d;%04" PRIX32,
i, starting_history_index, (int)(got_full), got_history_index,
(int)(want_full), want_history_index);
}
int j;
for (j = -2; j < (int)(fragment_length) + 2; j++) {
uint32_t index = (starting_history_index + j) & 0x7FFF;
uint8_t got = dec.private_data.f_history[index];
uint8_t want = (0 <= j && j < fragment_length) ? fragment[j] : 0;
if (got != want) {
RETURN_FAIL("i=%d: starting_history_index=0x%04" PRIX32
": j=%d: got 0x%02" PRIX8 ", want 0x%02" PRIX8,
i, starting_history_index, j, got, want);
}
}
}
return NULL;
}
const char* test_wuffs_deflate_table_redirect() {
CHECK_FOCUS(__func__);
// Call init_huff with a Huffman code that looks like:
//
// code_bits cl c r s 1st 2nd
// 0b_______________0 1 1 1 0 0b........0
// 0b______________10 2 1 1 1 0b.......01
// 0b_____________110 3 1 1 2 0b......011
// 0b____________1110 4 1 1 3 0b.....0111
// 0b__________1_1110 5 1 1 4 0b....01111
// 0b_________11_1110 6 1 1 5 0b...011111
// 0b________111_1110 7 1 1 6 0b..0111111
// 8 0 2
// 0b_____1_1111_1100 9 1 3 7 0b001111111
// 0b____11_1111_1010 10 1 5 8 0b101111111 0b..0 (3 bits)
// 11 0 10
// 0b__1111_1110_1100 12 19 19 9 0b101111111 0b001
// 0b__1111_1110_1101 12 18 10 0b101111111 0b101
// 0b__1111_1110_1110 12 17 11 0b101111111 0b011
// 0b__1111_1110_1111 12 16 12 0b101111111 0b111
// 0b__1111_1111_0000 12 15 13 0b011111111 0b000 (3 bits)
// 0b__1111_1111_0001 12 14 14 0b011111111 0b100
// 0b__1111_1111_0010 12 13 15 0b011111111 0b010
// 0b__1111_1111_0011 12 12 16 0b011111111 0b110
// 0b__1111_1111_0100 12 11 17 0b011111111 0b001
// 0b__1111_1111_0101 12 10 18 0b011111111 0b101
// 0b__1111_1111_0110 12 9 19 0b011111111 0b011
// 0b__1111_1111_0111 12 8 20 0b011111111 0b111
// 0b__1111_1111_1000 12 7 21 0b111111111 0b.000 (4 bits)
// 0b__1111_1111_1001 12 6 22 0b111111111 0b.100
// 0b__1111_1111_1010 12 5 23 0b111111111 0b.010
// 0b__1111_1111_1011 12 4 24 0b111111111 0b.110
// 0b__1111_1111_1100 12 3 25 0b111111111 0b.001
// 0b__1111_1111_1101 12 2 26 0b111111111 0b.101
// 0b__1111_1111_1110 12 1 27 0b111111111 0b.011
// 0b1_1111_1111_1110 13 2 1 28 0b111111111 0b0111
// 0b1_1111_1111_1111 13 0 29 0b111111111 0b1111
//
// cl is the code_length.
// c is counts[code_length]
// r is the number of codes (of that code_length) remaining.
// s is the symbol
// 1st is the key in the first level table (9 bits).
// 2nd is the key in the second level table (variable bits).
wuffs_deflate__decoder dec;
const char* status = wuffs_deflate__decoder__initialize(
&dec, sizeof dec, WUFFS_VERSION,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED);
if (status) {
RETURN_FAIL("initialize: \"%s\"", status);
}
memset(&(dec.private_data.f_huffs), 0, sizeof(dec.private_data.f_huffs));
int i;
int n = 0;
dec.private_data.f_code_lengths[n++] = 1;
dec.private_data.f_code_lengths[n++] = 2;
dec.private_data.f_code_lengths[n++] = 3;
dec.private_data.f_code_lengths[n++] = 4;
dec.private_data.f_code_lengths[n++] = 5;
dec.private_data.f_code_lengths[n++] = 6;
dec.private_data.f_code_lengths[n++] = 7;
dec.private_data.f_code_lengths[n++] = 9;
dec.private_data.f_code_lengths[n++] = 10;
for (i = 0; i < 19; i++) {
dec.private_data.f_code_lengths[n++] = 12;
}
dec.private_data.f_code_lengths[n++] = 13;
dec.private_data.f_code_lengths[n++] = 13;
status = wuffs_deflate__decoder__init_huff(&dec, 0, 0, n, 257);
if (status) {
RETURN_FAIL("init_huff: \"%s\"", status);
}
// There is one 1st-level table (9 bits), and three 2nd-level tables (3, 3
// and 4 bits). f_huffs[0]'s elements should be non-zero for those tables and
// should be zero outside of those tables.
const int n_f_huffs = sizeof(dec.private_data.f_huffs[0]) /
sizeof(dec.private_data.f_huffs[0][0]);
for (i = 0; i < n_f_huffs; i++) {
bool got = dec.private_data.f_huffs[0][i] == 0;
bool want = i >= (1 << 9) + (1 << 3) + (1 << 3) + (1 << 4);
if (got != want) {
RETURN_FAIL("huffs[0][%d] == 0: got %d, want %d", i, got, want);
}
}
// The redirects in the 1st-level table should be at:
// - 0b101111111 (0x017F) to the table offset 512 (0x0200), a 3-bit table.
// - 0b011111111 (0x00FF) to the table offset 520 (0x0208), a 3-bit table.
// - 0b111111111 (0x01FF) to the table offset 528 (0x0210), a 4-bit table.
uint32_t got;
uint32_t want;
got = dec.private_data.f_huffs[0][0x017F];
want = 0x10020039;
if (got != want) {
RETURN_FAIL("huffs[0][0x017F]: got 0x%08" PRIX32 ", want 0x%08" PRIX32, got,
want);
}
got = dec.private_data.f_huffs[0][0x00FF];
want = 0x10020839;
if (got != want) {
RETURN_FAIL("huffs[0][0x00FF]: got 0x%08" PRIX32 ", want 0x%08" PRIX32, got,
want);
}
got = dec.private_data.f_huffs[0][0x01FF];
want = 0x10021049;
if (got != want) {
RETURN_FAIL("huffs[0][0x01FF]: got 0x%08" PRIX32 ", want 0x%08" PRIX32, got,
want);
}
// The first 2nd-level table should look like wants.
const uint32_t wants[8] = {
0x80000801, 0x80000903, 0x80000801, 0x80000B03,
0x80000801, 0x80000A03, 0x80000801, 0x80000C03,
};
for (i = 0; i < 8; i++) {
got = dec.private_data.f_huffs[0][0x0200 + i];
want = wants[i];
if (got != want) {
RETURN_FAIL("huffs[0][0x%04" PRIX32 "]: got 0x%08" PRIX32
", want 0x%08" PRIX32,
(uint32_t)(0x0200 + i), got, want);
}
}
return NULL;
}
// ---------------- Mimic Tests
#ifdef WUFFS_MIMIC
const char* test_mimic_deflate_decode_256_bytes() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode, &deflate_256_bytes_gt,
UINT64_MAX, UINT64_MAX);
}
const char* test_mimic_deflate_decode_deflate_backref_crosses_blocks() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode,
&deflate_deflate_backref_crosses_blocks_gt,
UINT64_MAX, UINT64_MAX);
}
const char* test_mimic_deflate_decode_deflate_distance_32768() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode,
&deflate_deflate_distance_32768_gt, UINT64_MAX,
UINT64_MAX);
}
const char* test_mimic_deflate_decode_deflate_distance_code_31() {
CHECK_FOCUS(__func__);
const char* got = do_test_io_buffers(mimic_deflate_decode,
&deflate_deflate_distance_code_31_gt,
UINT64_MAX, UINT64_MAX);
const char* want = "inflate failed (data error)";
if ((got != want) && ((got == NULL) || (want == NULL) || strcmp(got, want))) {
RETURN_FAIL("got \"%s\", want \"%s\"", got, want);
}
return NULL;
}
const char* test_mimic_deflate_decode_midsummer() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode, &deflate_midsummer_gt,
UINT64_MAX, UINT64_MAX);
}
const char* test_mimic_deflate_decode_pi_just_one_read() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode, &deflate_pi_gt, UINT64_MAX,
UINT64_MAX);
}
const char* test_mimic_deflate_decode_pi_many_big_reads() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode, &deflate_pi_gt, UINT64_MAX,
4096);
}
const char* test_mimic_deflate_decode_romeo() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode, &deflate_romeo_gt, UINT64_MAX,
UINT64_MAX);
}
const char* test_mimic_deflate_decode_romeo_fixed() {
CHECK_FOCUS(__func__);
return do_test_io_buffers(mimic_deflate_decode, &deflate_romeo_fixed_gt,
UINT64_MAX, UINT64_MAX);
}
#endif // WUFFS_MIMIC
// ---------------- Deflate Benches
const char* bench_wuffs_deflate_decode_1k_full_init() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(wuffs_deflate_decode,
WUFFS_INITIALIZE__DEFAULT_OPTIONS, tc_dst,
&deflate_romeo_gt, UINT64_MAX, UINT64_MAX, 2000);
}
const char* bench_wuffs_deflate_decode_1k_part_init() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(
wuffs_deflate_decode,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED, tc_dst,
&deflate_romeo_gt, UINT64_MAX, UINT64_MAX, 2000);
}
const char* bench_wuffs_deflate_decode_10k_full_init() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(
wuffs_deflate_decode, WUFFS_INITIALIZE__DEFAULT_OPTIONS, tc_dst,
&deflate_midsummer_gt, UINT64_MAX, UINT64_MAX, 300);
}
const char* bench_wuffs_deflate_decode_10k_part_init() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(
wuffs_deflate_decode,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED, tc_dst,
&deflate_midsummer_gt, UINT64_MAX, UINT64_MAX, 300);
}
const char* bench_wuffs_deflate_decode_100k_just_one_read() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(
wuffs_deflate_decode,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED, tc_dst,
&deflate_pi_gt, UINT64_MAX, UINT64_MAX, 30);
}
const char* bench_wuffs_deflate_decode_100k_many_big_reads() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(
wuffs_deflate_decode,
WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED, tc_dst,
&deflate_pi_gt, UINT64_MAX, 4096, 30);
}
// ---------------- Mimic Benches
#ifdef WUFFS_MIMIC
const char* bench_mimic_deflate_decode_1k() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(mimic_deflate_decode, 0, tc_dst, &deflate_romeo_gt,
UINT64_MAX, UINT64_MAX, 2000);
}
const char* bench_mimic_deflate_decode_10k() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(mimic_deflate_decode, 0, tc_dst,
&deflate_midsummer_gt, UINT64_MAX, UINT64_MAX,
300);
}
const char* bench_mimic_deflate_decode_100k_just_one_read() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(mimic_deflate_decode, 0, tc_dst, &deflate_pi_gt,
UINT64_MAX, UINT64_MAX, 30);
}
const char* bench_mimic_deflate_decode_100k_many_big_reads() {
CHECK_FOCUS(__func__);
return do_bench_io_buffers(mimic_deflate_decode, 0, tc_dst, &deflate_pi_gt,
UINT64_MAX, 4096, 30);
}
#endif // WUFFS_MIMIC
// ---------------- Manifest
// The empty comments forces clang-format to place one element per line.
proc tests[] = {
test_wuffs_deflate_decode_256_bytes, //
test_wuffs_deflate_decode_deflate_backref_crosses_blocks, //
test_wuffs_deflate_decode_deflate_distance_32768, //
test_wuffs_deflate_decode_deflate_distance_code_31, //
test_wuffs_deflate_decode_midsummer, //
test_wuffs_deflate_decode_pi_just_one_read, //
test_wuffs_deflate_decode_pi_many_big_reads, //
test_wuffs_deflate_decode_pi_many_medium_reads, //
test_wuffs_deflate_decode_pi_many_small_writes_reads, //
test_wuffs_deflate_decode_romeo, //
test_wuffs_deflate_decode_romeo_fixed, //
test_wuffs_deflate_decode_split_src, //
test_wuffs_deflate_history_full, //
test_wuffs_deflate_history_partial, //
test_wuffs_deflate_table_redirect, //
#ifdef WUFFS_MIMIC
test_mimic_deflate_decode_256_bytes, //
test_mimic_deflate_decode_deflate_backref_crosses_blocks, //
test_mimic_deflate_decode_deflate_distance_32768, //
test_mimic_deflate_decode_deflate_distance_code_31, //
test_mimic_deflate_decode_midsummer, //
test_mimic_deflate_decode_pi_just_one_read, //
test_mimic_deflate_decode_pi_many_big_reads, //
test_mimic_deflate_decode_romeo, //
test_mimic_deflate_decode_romeo_fixed, //
#endif // WUFFS_MIMIC
NULL,
};
// The empty comments forces clang-format to place one element per line.
proc benches[] = {
bench_wuffs_deflate_decode_1k_full_init, //
bench_wuffs_deflate_decode_1k_part_init, //
bench_wuffs_deflate_decode_10k_full_init, //
bench_wuffs_deflate_decode_10k_part_init, //
bench_wuffs_deflate_decode_100k_just_one_read, //
bench_wuffs_deflate_decode_100k_many_big_reads, //
#ifdef WUFFS_MIMIC
bench_mimic_deflate_decode_1k, //
bench_mimic_deflate_decode_10k, //
bench_mimic_deflate_decode_100k_just_one_read, //
bench_mimic_deflate_decode_100k_many_big_reads, //
#endif // WUFFS_MIMIC
NULL,
};
int main(int argc, char** argv) {
proc_package_name = "std/deflate";
return test_main(argc, argv, tests, benches);
}