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basisu_tool.cpp
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basisu_tool.cpp
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// basisu_tool.cpp
// Copyright (C) 2019-2022 Binomial LLC. All Rights Reserved.
// 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
//
// http://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.
#if _MSC_VER
// For sprintf(), strcpy()
#define _CRT_SECURE_NO_WARNINGS (1)
#endif
#include "transcoder/basisu.h"
#include "transcoder/basisu_transcoder_internal.h"
#include "encoder/basisu_enc.h"
#include "encoder/basisu_etc.h"
#include "encoder/basisu_gpu_texture.h"
#include "encoder/basisu_frontend.h"
#include "encoder/basisu_backend.h"
#include "encoder/basisu_comp.h"
#include "transcoder/basisu_transcoder.h"
#include "encoder/basisu_ssim.h"
#include "encoder/basisu_opencl.h"
#define MINIZ_HEADER_FILE_ONLY
#define MINIZ_NO_ZLIB_COMPATIBLE_NAMES
#include "encoder/basisu_miniz.h"
#ifdef _WIN32
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#endif
// Set BASISU_CATCH_EXCEPTIONS if you want exceptions to crash the app, otherwise main() catches them.
#ifndef BASISU_CATCH_EXCEPTIONS
#define BASISU_CATCH_EXCEPTIONS 0
#endif
using namespace basisu;
using namespace buminiz;
#define BASISU_TOOL_VERSION "1.16.4"
enum tool_mode
{
cDefault,
cCompress,
cValidate,
cInfo,
cUnpack,
cCompare,
cVersion,
cBench,
cCompSize,
cTest,
cCLBench,
cSplitImage,
cCombineImages
};
static void print_usage()
{
printf("\nUsage: basisu filename [filename ...] <options>\n");
puts("\n"
"The default mode is compression of one or more PNG/BMP/TGA/JPG files to a .basis file. Alternate modes:\n"
" -unpack: Use transcoder to unpack .basis file to one or more .ktx/.png files\n"
" -validate: Validate and display information about a .basis file\n"
" -info: Display high-level information about a .basis file\n"
" -compare: Compare two PNG/BMP/TGA/JPG images specified with -file, output PSNR and SSIM statistics and RGB/A delta images\n"
" -version: Print basisu version and exit\n"
"Unless an explicit mode is specified, if one or more files have the .basis extension this tool defaults to unpack mode.\n"
"\n"
"Important: By default, the compressor assumes the input is in the sRGB colorspace (like photos/albedo textures).\n"
"If the input is NOT sRGB (like a normal map), be sure to specify -linear for less artifacts. Depending on the content type, some experimentation may be needed.\n"
"\n"
"Filenames prefixed with a @ symbol are read as filename listing files. Listing text files specify which actual filenames to process (one filename per line).\n"
"\n"
"Options:\n"
" -opencl: Enable OpenCL usage\n"
" -opencl_serialize: Serialize all calls to the OpenCL driver (to work around buggy drivers, only useful with -parallel)\n"
" -parallel: Compress multiple textures simumtanously (one per thread), instead of one at a time. Compatible with OpenCL mode. This is much faster, but in OpenCL mode the driver is pushed harder, and the CLI output will be jumbled.\n"
" -ktx2: Write .KTX2 ETC1S/UASTC files instead of .basis files. By default, UASTC files will be compressed using Zstandard unless -ktx2_no_zstandard is specified.\n"
" -ktx2_no_zstandard: Don't compress UASTC texture data using Zstandard, store it uncompressed instead.\n"
" -ktx2_zstandard_level X: Set ZStandard compression level to X (see Zstandard documentation, default level is 6)\n"
" -ktx2_animdata_duration X: Set KTX2animData duration field to integer value X (only valid/useful for -tex_type video, default is 1)\n"
" -ktx2_animdata_timescale X: Set KTX2animData timescale field to integer value X (only valid/useful for -tex_type video, default is 15)\n"
" -ktx2_animdata_loopcount X: Set KTX2animData loopcount field to integer value X (only valid/useful for -tex_type video, default is 0)\n"
" -file filename.png/bmp/tga/jpg/qoi: Input image filename, multiple images are OK, use -file X for each input filename (prefixing input filenames with -file is optional)\n"
" -alpha_file filename.png/bmp/tga/jpg/qoi: Input alpha image filename, multiple images are OK, use -file X for each input filename (must be paired with -file), images converted to REC709 grayscale and used as input alpha\n"
" -multifile_printf: printf() format strint to use to compose multiple filenames\n"
" -multifile_first: The index of the first file to process, default is 0 (must specify -multifile_printf and -multifile_num)\n"
" -multifile_num: The total number of files to process.\n"
" -q X: Set ETC1S quality level, 1-255, default is 128, lower=better compression/lower quality/faster, higher=less compression/higher quality/slower, default is 128. For even higher quality, use -max_endpoints/-max_selectors.\n"
" -linear: Use linear colorspace metrics (instead of the default sRGB), and by default linear (not sRGB) mipmap filtering.\n"
" -output_file filename: Output .basis/.ktx filename\n"
" -output_path: Output .basis/.ktx files to specified directory.\n"
" -debug: Enable codec debug print to stdout (slightly slower).\n"
" -verbose: Same as -debug (debug output to stdout).\n"
" -debug_images: Enable codec debug images (much slower).\n"
" -stats: Compute and display image quality metrics (slightly slower).\n"
" -tex_type <2d, 2darray, 3d, video, cubemap>: Set Basis file header's texture type field. Cubemap arrays require multiples of 6 images, in X+, X-, Y+, Y-, Z+, Z- order, each image must be the same resolutions.\n"
" 2d=arbitrary 2D images, 2darray=2D array, 3D=volume texture slices, video=video frames, cubemap=array of faces. For 2darray/3d/cubemaps/video, each source image's dimensions and # of mipmap levels must be the same.\n"
" For video, the .basis file will be written with the first frame being an I-Frame, and subsequent frames being P-Frames (using conditional replenishment). Playback must always occur in order from first to last image.\n"
" -framerate X: Set framerate in .basis header to X/frames sec.\n"
" -individual: Process input images individually and output multiple .basis/.ktx2 files (not as a texture array - this is now the default as of v1.16)\n"
" -tex_array: Process input images as a single texture array and write a single .basis/.ktx2 file (the former default before v1.16)\n"
" -comp_level X: Set ETC1S encoding speed vs. quality tradeoff. Range is 0-6, default is 1. Higher values=MUCH slower, but slightly higher quality. Higher levels intended for videos. Use -q first!\n"
" -fuzz_testing: Use with -validate: Disables CRC16 validation of file contents before transcoding\n"
"\nUASTC options:\n"
" -uastc: Enable UASTC texture mode, instead of the default ETC1S mode. Significantly higher texture quality, but larger files. (Note that UASTC .basis files must be losslessly compressed by the user.)\n"
" -uastc_level: Set UASTC encoding level. Range is [0,4], default is 2, higher=slower but higher quality. 0=fastest/lowest quality, 3=slowest practical option, 4=impractically slow/highest achievable quality\n"
" -uastc_rdo_l X: Enable UASTC RDO post-processing and set UASTC RDO quality scalar (lambda) to X. Lower values=higher quality/larger LZ\n"
" compressed files, higher values=lower quality/smaller LZ compressed files. Good range to try is [.25-10].\n"
" Note: Previous versons used the -uastc_rdo_q option, which was removed because the RDO algorithm was changed.\n"
" -uastc_rdo_d X: Set UASTC RDO dictionary size in bytes. Default is 4096, max is 65536. Lower values=faster, but less compression.\n"
" -uastc_rdo_b X: Set UASTC RDO max smooth block error scale. Range is [1,300]. Default is 10.0, 1.0=disabled. Larger values suppress more artifacts (and allocate more bits) on smooth blocks.\n"
" -uastc_rdo_s X: Set UASTC RDO max smooth block standard deviation. Range is [.01,65536]. Default is 18.0. Larger values expand the range of blocks considered smooth.\n"
" -uastc_rdo_f: Don't favor simpler UASTC modes in RDO mode.\n"
" -uastc_rdo_m: Disable RDO multithreading (slightly higher compression, deterministic).\n"
"\n"
"More options:\n"
" -test: Run an automated ETC1S/UASTC encoding and transcoding test. Returns EXIT_FAILURE if any failures\n"
" -test_dir: Optional directory of test files. Defaults to \"../test_files\".\n"
" -max_endpoints X: Manually set the max number of color endpoint clusters from 1-16128, use instead of -q\n"
" -max_selectors X: Manually set the max number of color selector clusters from 1-16128, use instead of -q\n"
" -y_flip: Flip input images vertically before compression\n"
" -normal_map: Tunes codec parameters for better quality on normal maps (linear colorspace metrics, linear mipmap filtering, no selector RDO, no sRGB)\n"
" -no_alpha: Always output non-alpha basis files, even if one or more inputs has alpha\n"
" -force_alpha: Always output alpha basis files, even if no inputs has alpha\n"
" -separate_rg_to_color_alpha: Separate input R and G channels to RGB and A (for tangent space XY normal maps)\n"
" -swizzle rgba: Specify swizzle for the 4 input color channels using r, g, b and a (the -separate_rg_to_color_alpha flag is equivalent to rrrg)\n"
" -renorm: Renormalize each input image before any further processing/compression\n"
" -no_multithreading: Disable multithreading\n"
" -max_threads X: Use at most X threads total when multithreading is enabled (this includes the main thread)\n"
" -no_ktx: Disable KTX writing when unpacking (faster, less output files)\n"
" -ktx_only: Only write KTX files when unpacking (faster, less output files)\n"
" -write_out: Write 3dfx OUT files when unpacking FXT1 textures\n"
" -format_only: Only unpack the specified format, by its numeric code.\n"
" -etc1_only: Only unpack to ETC1, skipping the other texture formats during -unpack\n"
" -disable_hierarchical_endpoint_codebooks: Disable hierarchical endpoint codebook usage, slower but higher quality on some compression levels\n"
" -compare_ssim: Compute and display SSIM of image comparison (slow)\n"
" -compare_plot: Display histogram plots in -compare mode\n"
" -bench: UASTC benchmark mode, for development only\n"
" -resample X Y: Resample all input textures to XxY pixels using a box filter\n"
" -resample_factor X: Resample all input textures by scale factor X using a box filter\n"
" -no_sse: Forbid all SSE instruction set usage\n"
" -validate_etc1s: Validate internal ETC1S compressor's data structures during compression (slower, intended for development).\n"
"\n"
"Mipmap generation options:\n"
" -mipmap: Generate mipmaps for each source image\n"
" -mip_srgb: Convert image to linear before filtering, then back to sRGB\n"
" -mip_linear: Keep image in linear light during mipmap filtering (i.e. do not convert to/from sRGB for filtering purposes)\n"
" -mip_scale X: Set mipmap filter kernel's scale, lower=sharper, higher=more blurry, default is 1.0\n"
" -mip_filter X: Set mipmap filter kernel, default is kaiser, filters: box, tent, bell, blackman, catmullrom, mitchell, etc.\n"
" -mip_renorm: Renormalize normal map to unit length vectors after filtering\n"
" -mip_clamp: Use clamp addressing on borders, instead of wrapping\n"
" -mip_fast: Use faster mipmap generation (resample from previous mip, not always first/largest mip level). The default (as of 1/2021)\n"
" -mip_slow: Always resample each mipmap level starting from the largest mipmap. Higher quality, but slower. Opposite of -mip_fast. Was the prior default before 1/2021.\n"
" -mip_smallest X: Set smallest pixel dimension for generated mipmaps, default is 1 pixel\n"
"By default, textures will be converted from sRGB to linear light before mipmap filtering, then back to sRGB (for the RGB color channels) unless -linear is specified.\n"
"You can override this behavior with -mip_srgb/-mip_linear.\n"
"\n"
"Backend endpoint/selector RDO codec options:\n"
" -no_selector_rdo: Disable backend's selector rate distortion optimizations (slightly faster, less noisy output, but lower quality per output bit)\n"
" -selector_rdo_thresh X: Set selector RDO quality threshold, default is 1.25, lower is higher quality but less quality per output bit (try 1.0-3.0)\n"
" -no_endpoint_rdo: Disable backend's endpoint rate distortion optimizations (slightly faster, less noisy output, but lower quality per output bit)\n"
" -endpoint_rdo_thresh X: Set endpoint RDO quality threshold, default is 1.5, lower is higher quality but less quality per output bit (try 1.0-3.0)\n"
"\n"
"Set various fields in the Basis file header:\n"
" -userdata0 X: Set 32-bit userdata0 field in Basis file header to X (X is a signed 32-bit int)\n"
" -userdata1 X: Set 32-bit userdata1 field in Basis file header to X (X is a signed 32-bit int)\n"
"\n"
"Various command line examples:\n"
" basisu x.png : Compress sRGB image x.png to x.basis using default settings (multiple filenames OK, use -tex_array if you want a tex array vs. multiple output files)\n"
" basisu x.basis : Unpack x.basis to PNG/KTX files (multiple filenames OK)\n"
" basisu -file x.png -mipmap -y_flip : Compress a mipmapped x.basis file from an sRGB image named x.png, Y flip each source image\n"
" basisu -validate -file x.basis : Validate x.basis (check header, check file CRC's, attempt to transcode all slices)\n"
" basisu -unpack -file x.basis : Validates, transcodes and unpacks x.basis to mipmapped .KTX and RGB/A .PNG files (transcodes to all supported GPU texture formats)\n"
" basisu -q 255 -file x.png -mipmap -debug -stats : Compress sRGB x.png to x.basis at quality level 255 with compressor debug output/statistics\n"
" basisu -linear -max_endpoints 16128 -max_selectors 16128 -file x.png : Compress non-sRGB x.png to x.basis using the largest supported manually specified codebook sizes\n"
" basisu -comp_level 2 -max_selectors 8192 -max_endpoints 8192 -tex_type video -framerate 20 -multifile_printf \"x%02u.png\" -multifile_first 1 -multifile_count 20 : Compress a 20 sRGB source image video sequence (x01.png, x02.png, x03.png, etc.) to x01.basis\n"
"\n"
"Note: For video use, it's recommended you use a very powerful machine with many cores. Use -comp_level 2 or higher for better codebook\n"
"generation, specify very large codebooks using -max_endpoints and -max_selectors, and reduce the default endpoint RDO threshold\n"
"(-endpoint_rdo_thresh) to around 1.25. Videos may have mipmaps and alpha channels. Videos must always be played back by the transcoder\n"
"in first to last image order.\n"
"Video files currently use I-Frames on the first image, and P-Frames using conditional replenishment on subsequent frames.\n"
"\nCompression level (-comp_level X) details:\n"
" Level 0: Fastest, but has marginal quality and can be brittle on complex images. Avg. Y dB: 35.45\n"
" Level 1: Hierarchical codebook searching, faster ETC1S encoding. 36.87 dB, ~1.4x slower vs. level 0. (This is the default setting.)\n"
" Level 2: Use this or higher for video. Hierarchical codebook searching. 36.87 dB, ~1.4x slower vs. level 0. (This is the v1.12's default setting.)\n"
" Level 3: Full codebook searching. 37.13 dB, ~1.8x slower vs. level 0. (Equivalent the the initial release's default settings.)\n"
" Level 4: Hierarchical codebook searching, codebook k-means iterations. 37.15 dB, ~4x slower vs. level 0\n"
" Level 5: Full codebook searching, codebook k-means iterations. 37.41 dB, ~5.5x slower vs. level 0. (Equivalent to the initial release's -slower setting.)\n"
" Level 6: Full codebook searching, twice as many codebook k-means iterations, best ETC1 endpoint opt. 37.43 dB, ~12x slower vs. level 0\n"
);
}
static bool load_listing_file(const std::string &f, basisu::vector<std::string> &filenames)
{
std::string filename(f);
filename.erase(0, 1);
FILE *pFile = nullptr;
#ifdef _WIN32
fopen_s(&pFile, filename.c_str(), "r");
#else
pFile = fopen(filename.c_str(), "r");
#endif
if (!pFile)
{
error_printf("Failed opening listing file: \"%s\"\n", filename.c_str());
return false;
}
uint32_t total_filenames = 0;
for ( ; ; )
{
char buf[3072];
buf[0] = '\0';
char *p = fgets(buf, sizeof(buf), pFile);
if (!p)
{
if (ferror(pFile))
{
error_printf("Failed reading from listing file: \"%s\"\n", filename.c_str());
fclose(pFile);
return false;
}
else
break;
}
std::string read_filename(p);
while (read_filename.size())
{
if (read_filename[0] == ' ')
read_filename.erase(0, 1);
else
break;
}
while (read_filename.size())
{
const char c = read_filename.back();
if ((c == ' ') || (c == '\n') || (c == '\r'))
read_filename.erase(read_filename.size() - 1, 1);
else
break;
}
if (read_filename.size())
{
filenames.push_back(read_filename);
total_filenames++;
}
}
fclose(pFile);
printf("Successfully read %u filenames(s) from listing file \"%s\"\n", total_filenames, filename.c_str());
return true;
}
class command_line_params
{
BASISU_NO_EQUALS_OR_COPY_CONSTRUCT(command_line_params);
public:
command_line_params() :
m_mode(cDefault),
m_ktx2_mode(false),
m_ktx2_zstandard(true),
m_ktx2_zstandard_level(6),
m_ktx2_animdata_duration(1),
m_ktx2_animdata_timescale(15),
m_ktx2_animdata_loopcount(0),
m_multifile_first(0),
m_multifile_num(0),
m_max_threads(1024), // surely this is high enough
m_individual(true),
m_no_ktx(false),
m_ktx_only(false),
m_write_out(false),
m_format_only(-1),
m_etc1_only(false),
m_fuzz_testing(false),
m_compare_ssim(false),
m_compare_plot(false),
m_bench(false),
m_parallel_compression(false)
{
m_comp_params.m_compression_level = basisu::maximum<int>(0, BASISU_DEFAULT_COMPRESSION_LEVEL - 1);
m_test_file_dir = "../test_files";
}
bool parse(int arg_c, const char **arg_v)
{
int arg_index = 1;
while (arg_index < arg_c)
{
const char *pArg = arg_v[arg_index];
const int num_remaining_args = arg_c - (arg_index + 1);
int arg_count = 1;
#define REMAINING_ARGS_CHECK(n) if (num_remaining_args < (n)) { error_printf("Error: Expected %u values to follow %s!\n", n, pArg); return false; }
if (strcasecmp(pArg, "-ktx2") == 0)
{
m_ktx2_mode = true;
}
else if (strcasecmp(pArg, "-ktx2_no_zstandard") == 0)
{
m_ktx2_zstandard = false;
}
else if (strcasecmp(pArg, "-ktx2_zstandard_level") == 0)
{
REMAINING_ARGS_CHECK(1);
m_ktx2_zstandard_level = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-ktx2_animdata_duration") == 0)
{
REMAINING_ARGS_CHECK(1);
m_ktx2_animdata_duration = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-ktx2_animdata_timescale") == 0)
{
REMAINING_ARGS_CHECK(1);
m_ktx2_animdata_timescale = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-ktx2_animdata_loopcount") == 0)
{
REMAINING_ARGS_CHECK(1);
m_ktx2_animdata_loopcount = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-compress") == 0)
m_mode = cCompress;
else if (strcasecmp(pArg, "-compare") == 0)
m_mode = cCompare;
else if (strcasecmp(pArg, "-split") == 0)
m_mode = cSplitImage;
else if (strcasecmp(pArg, "-combine") == 0)
m_mode = cCombineImages;
else if (strcasecmp(pArg, "-unpack") == 0)
m_mode = cUnpack;
else if (strcasecmp(pArg, "-validate") == 0)
m_mode = cValidate;
else if (strcasecmp(pArg, "-info") == 0)
m_mode = cInfo;
else if (strcasecmp(pArg, "-version") == 0)
m_mode = cVersion;
else if (strcasecmp(pArg, "-compare_ssim") == 0)
m_compare_ssim = true;
else if (strcasecmp(pArg, "-compare_plot") == 0)
m_compare_plot = true;
else if (strcasecmp(pArg, "-bench") == 0)
m_mode = cBench;
else if (strcasecmp(pArg, "-comp_size") == 0)
m_mode = cCompSize;
else if (strcasecmp(pArg, "-test") == 0)
m_mode = cTest;
else if (strcasecmp(pArg, "-clbench") == 0)
m_mode = cCLBench;
else if (strcasecmp(pArg, "-test_dir") == 0)
{
REMAINING_ARGS_CHECK(1);
m_test_file_dir = std::string(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-no_sse") == 0)
{
#if BASISU_SUPPORT_SSE
g_cpu_supports_sse41 = false;
#endif
}
else if (strcasecmp(pArg, "-no_status_output") == 0)
{
m_comp_params.m_status_output = false;
}
else if (strcasecmp(pArg, "-file") == 0)
{
REMAINING_ARGS_CHECK(1);
m_input_filenames.push_back(std::string(arg_v[arg_index + 1]));
arg_count++;
}
else if (strcasecmp(pArg, "-alpha_file") == 0)
{
REMAINING_ARGS_CHECK(1);
m_input_alpha_filenames.push_back(std::string(arg_v[arg_index + 1]));
arg_count++;
}
else if (strcasecmp(pArg, "-multifile_printf") == 0)
{
REMAINING_ARGS_CHECK(1);
m_multifile_printf = std::string(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-multifile_first") == 0)
{
REMAINING_ARGS_CHECK(1);
m_multifile_first = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-multifile_num") == 0)
{
REMAINING_ARGS_CHECK(1);
m_multifile_num = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-uastc") == 0)
m_comp_params.m_uastc = true;
else if (strcasecmp(pArg, "-uastc_level") == 0)
{
REMAINING_ARGS_CHECK(1);
int uastc_level = atoi(arg_v[arg_index + 1]);
uastc_level = clamp<int>(uastc_level, 0, TOTAL_PACK_UASTC_LEVELS - 1);
static_assert(TOTAL_PACK_UASTC_LEVELS == 5, "TOTAL_PACK_UASTC_LEVELS==5");
static const uint32_t s_level_flags[TOTAL_PACK_UASTC_LEVELS] = { cPackUASTCLevelFastest, cPackUASTCLevelFaster, cPackUASTCLevelDefault, cPackUASTCLevelSlower, cPackUASTCLevelVerySlow };
m_comp_params.m_pack_uastc_flags &= ~cPackUASTCLevelMask;
m_comp_params.m_pack_uastc_flags |= s_level_flags[uastc_level];
arg_count++;
}
else if (strcasecmp(pArg, "-resample") == 0)
{
REMAINING_ARGS_CHECK(2);
m_comp_params.m_resample_width = atoi(arg_v[arg_index + 1]);
m_comp_params.m_resample_height = atoi(arg_v[arg_index + 2]);
arg_count += 2;
}
else if (strcasecmp(pArg, "-resample_factor") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_resample_factor = (float)atof(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-uastc_rdo_l") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_rdo_uastc_quality_scalar = (float)atof(arg_v[arg_index + 1]);
m_comp_params.m_rdo_uastc = true;
arg_count++;
}
else if (strcasecmp(pArg, "-uastc_rdo_d") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_rdo_uastc_dict_size = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-uastc_rdo_b") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_rdo_uastc_max_smooth_block_error_scale = (float)atof(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-uastc_rdo_s") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_rdo_uastc_smooth_block_max_std_dev = (float)atof(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-uastc_rdo_f") == 0)
m_comp_params.m_rdo_uastc_favor_simpler_modes_in_rdo_mode = false;
else if (strcasecmp(pArg, "-uastc_rdo_m") == 0)
m_comp_params.m_rdo_uastc_multithreading = false;
else if (strcasecmp(pArg, "-linear") == 0)
m_comp_params.m_perceptual = false;
else if (strcasecmp(pArg, "-srgb") == 0)
m_comp_params.m_perceptual = true;
else if (strcasecmp(pArg, "-q") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_quality_level = clamp<int>(atoi(arg_v[arg_index + 1]), BASISU_QUALITY_MIN, BASISU_QUALITY_MAX);
arg_count++;
}
else if (strcasecmp(pArg, "-output_file") == 0)
{
REMAINING_ARGS_CHECK(1);
m_output_filename = arg_v[arg_index + 1];
arg_count++;
}
else if (strcasecmp(pArg, "-output_path") == 0)
{
REMAINING_ARGS_CHECK(1);
m_output_path = arg_v[arg_index + 1];
arg_count++;
}
else if ((strcasecmp(pArg, "-debug") == 0) || (strcasecmp(pArg, "-verbose") == 0))
{
m_comp_params.m_debug = true;
enable_debug_printf(true);
}
else if (strcasecmp(pArg, "-validate_etc1s") == 0)
{
m_comp_params.m_validate_etc1s = true;
}
else if (strcasecmp(pArg, "-validate_output") == 0)
{
m_comp_params.m_validate_output_data = true;
}
else if (strcasecmp(pArg, "-debug_images") == 0)
m_comp_params.m_debug_images = true;
else if (strcasecmp(pArg, "-stats") == 0)
m_comp_params.m_compute_stats = true;
else if (strcasecmp(pArg, "-gen_global_codebooks") == 0)
{
// TODO
}
else if (strcasecmp(pArg, "-use_global_codebooks") == 0)
{
REMAINING_ARGS_CHECK(1);
m_etc1s_use_global_codebooks_file = arg_v[arg_index + 1];
arg_count++;
}
else if (strcasecmp(pArg, "-comp_level") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_compression_level = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-slower") == 0)
{
// This option is gone, but we'll do something reasonable with it anyway. Level 4 is equivalent to the original release's -slower, but let's just go to level 2.
m_comp_params.m_compression_level = BASISU_DEFAULT_COMPRESSION_LEVEL + 1;
}
else if (strcasecmp(pArg, "-max_endpoints") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_max_endpoint_clusters = clamp<int>(atoi(arg_v[arg_index + 1]), 1, BASISU_MAX_ENDPOINT_CLUSTERS);
arg_count++;
}
else if (strcasecmp(pArg, "-max_selectors") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_max_selector_clusters = clamp<int>(atoi(arg_v[arg_index + 1]), 1, BASISU_MAX_SELECTOR_CLUSTERS);
arg_count++;
}
else if (strcasecmp(pArg, "-y_flip") == 0)
m_comp_params.m_y_flip = true;
else if (strcasecmp(pArg, "-normal_map") == 0)
{
m_comp_params.m_perceptual = false;
m_comp_params.m_mip_srgb = false;
m_comp_params.m_no_selector_rdo = true;
m_comp_params.m_no_endpoint_rdo = true;
}
else if (strcasecmp(pArg, "-no_alpha") == 0)
m_comp_params.m_check_for_alpha = false;
else if (strcasecmp(pArg, "-force_alpha") == 0)
m_comp_params.m_force_alpha = true;
else if ((strcasecmp(pArg, "-separate_rg_to_color_alpha") == 0) ||
(strcasecmp(pArg, "-seperate_rg_to_color_alpha") == 0)) // was mispelled for a while - whoops!
{
m_comp_params.m_swizzle[0] = 0;
m_comp_params.m_swizzle[1] = 0;
m_comp_params.m_swizzle[2] = 0;
m_comp_params.m_swizzle[3] = 1;
}
else if (strcasecmp(pArg, "-swizzle") == 0)
{
REMAINING_ARGS_CHECK(1);
const char *swizzle = arg_v[arg_index + 1];
if (strlen(swizzle) != 4)
{
error_printf("Swizzle requires exactly 4 characters\n");
return false;
}
for (int i=0; i<4; ++i)
{
if (swizzle[i] == 'r')
m_comp_params.m_swizzle[i] = 0;
else if (swizzle[i] == 'g')
m_comp_params.m_swizzle[i] = 1;
else if (swizzle[i] == 'b')
m_comp_params.m_swizzle[i] = 2;
else if (swizzle[i] == 'a')
m_comp_params.m_swizzle[i] = 3;
else
{
error_printf("Swizzle must be one of [rgba]");
return false;
}
}
arg_count++;
}
else if (strcasecmp(pArg, "-renorm") == 0)
m_comp_params.m_renormalize = true;
else if (strcasecmp(pArg, "-no_multithreading") == 0)
{
m_comp_params.m_multithreading = false;
}
else if (strcasecmp(pArg, "-parallel") == 0)
{
m_parallel_compression = true;
}
else if (strcasecmp(pArg, "-max_threads") == 0)
{
REMAINING_ARGS_CHECK(1);
m_max_threads = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-mipmap") == 0)
m_comp_params.m_mip_gen = true;
else if (strcasecmp(pArg, "-no_ktx") == 0)
m_no_ktx = true;
else if (strcasecmp(pArg, "-ktx_only") == 0)
m_ktx_only = true;
else if (strcasecmp(pArg, "-write_out") == 0)
m_write_out = true;
else if (strcasecmp(pArg, "-format_only") == 0)
{
REMAINING_ARGS_CHECK(1);
m_format_only = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-etc1_only") == 0)
{
m_etc1_only = true;
m_format_only = (int)basist::transcoder_texture_format::cTFETC1_RGB;
}
else if (strcasecmp(pArg, "-disable_hierarchical_endpoint_codebooks") == 0)
m_comp_params.m_disable_hierarchical_endpoint_codebooks = true;
else if (strcasecmp(pArg, "-opencl") == 0)
{
m_comp_params.m_use_opencl = true;
}
else if (strcasecmp(pArg, "-opencl_serialize") == 0)
{
}
else if (strcasecmp(pArg, "-mip_scale") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_mip_scale = (float)atof(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-mip_filter") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_mip_filter = arg_v[arg_index + 1];
// TODO: Check filter
arg_count++;
}
else if (strcasecmp(pArg, "-mip_renorm") == 0)
m_comp_params.m_mip_renormalize = true;
else if (strcasecmp(pArg, "-mip_clamp") == 0)
m_comp_params.m_mip_wrapping = false;
else if (strcasecmp(pArg, "-mip_fast") == 0)
m_comp_params.m_mip_fast = true;
else if (strcasecmp(pArg, "-mip_slow") == 0)
m_comp_params.m_mip_fast = false;
else if (strcasecmp(pArg, "-mip_smallest") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_mip_smallest_dimension = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-mip_srgb") == 0)
m_comp_params.m_mip_srgb = true;
else if (strcasecmp(pArg, "-mip_linear") == 0)
m_comp_params.m_mip_srgb = false;
else if (strcasecmp(pArg, "-no_selector_rdo") == 0)
m_comp_params.m_no_selector_rdo = true;
else if (strcasecmp(pArg, "-selector_rdo_thresh") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_selector_rdo_thresh = (float)atof(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-no_endpoint_rdo") == 0)
m_comp_params.m_no_endpoint_rdo = true;
else if (strcasecmp(pArg, "-endpoint_rdo_thresh") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_endpoint_rdo_thresh = (float)atof(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-userdata0") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_userdata0 = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-userdata1") == 0)
{
REMAINING_ARGS_CHECK(1);
m_comp_params.m_userdata1 = atoi(arg_v[arg_index + 1]);
arg_count++;
}
else if (strcasecmp(pArg, "-framerate") == 0)
{
REMAINING_ARGS_CHECK(1);
double fps = atof(arg_v[arg_index + 1]);
double us_per_frame = 0;
if (fps > 0)
us_per_frame = 1000000.0f / fps;
m_comp_params.m_us_per_frame = clamp<int>(static_cast<int>(us_per_frame + .5f), 0, basist::cBASISMaxUSPerFrame);
arg_count++;
}
else if (strcasecmp(pArg, "-tex_type") == 0)
{
REMAINING_ARGS_CHECK(1);
const char* pType = arg_v[arg_index + 1];
if (strcasecmp(pType, "2d") == 0)
m_comp_params.m_tex_type = basist::cBASISTexType2D;
else if (strcasecmp(pType, "2darray") == 0)
{
m_comp_params.m_tex_type = basist::cBASISTexType2DArray;
m_individual = false;
}
else if (strcasecmp(pType, "3d") == 0)
{
m_comp_params.m_tex_type = basist::cBASISTexTypeVolume;
m_individual = false;
}
else if (strcasecmp(pType, "cubemap") == 0)
{
m_comp_params.m_tex_type = basist::cBASISTexTypeCubemapArray;
m_individual = false;
}
else if (strcasecmp(pType, "video") == 0)
{
m_comp_params.m_tex_type = basist::cBASISTexTypeVideoFrames;
m_individual = false;
}
else
{
error_printf("Invalid texture type: %s\n", pType);
return false;
}
arg_count++;
}
else if (strcasecmp(pArg, "-individual") == 0)
m_individual = true;
else if (strcasecmp(pArg, "-tex_array") == 0)
m_individual = false;
else if (strcasecmp(pArg, "-fuzz_testing") == 0)
m_fuzz_testing = true;
else if (strcasecmp(pArg, "-csv_file") == 0)
{
REMAINING_ARGS_CHECK(1);
m_csv_file = arg_v[arg_index + 1];
m_comp_params.m_compute_stats = true;
arg_count++;
}
else if (pArg[0] == '-')
{
error_printf("Unrecognized command line option: %s\n", pArg);
return false;
}
else
{
// Let's assume it's a source filename, so globbing works
//error_printf("Unrecognized command line option: %s\n", pArg);
m_input_filenames.push_back(pArg);
}
arg_index += arg_count;
}
if (m_comp_params.m_quality_level != -1)
{
m_comp_params.m_max_endpoint_clusters = 0;
m_comp_params.m_max_selector_clusters = 0;
}
else if ((!m_comp_params.m_max_endpoint_clusters) || (!m_comp_params.m_max_selector_clusters))
{
m_comp_params.m_max_endpoint_clusters = 0;
m_comp_params.m_max_selector_clusters = 0;
m_comp_params.m_quality_level = 128;
}
if (!m_comp_params.m_mip_srgb.was_changed())
{
// They didn't specify what colorspace to do mipmap filtering in, so choose sRGB if they've specified that the texture is sRGB.
if (m_comp_params.m_perceptual)
m_comp_params.m_mip_srgb = true;
else
m_comp_params.m_mip_srgb = false;
}
return true;
}
bool process_listing_files()
{
basisu::vector<std::string> new_input_filenames;
for (uint32_t i = 0; i < m_input_filenames.size(); i++)
{
if (m_input_filenames[i][0] == '@')
{
if (!load_listing_file(m_input_filenames[i], new_input_filenames))
return false;
}
else
new_input_filenames.push_back(m_input_filenames[i]);
}
new_input_filenames.swap(m_input_filenames);
basisu::vector<std::string> new_input_alpha_filenames;
for (uint32_t i = 0; i < m_input_alpha_filenames.size(); i++)
{
if (m_input_alpha_filenames[i][0] == '@')
{
if (!load_listing_file(m_input_alpha_filenames[i], new_input_alpha_filenames))
return false;
}
else
new_input_alpha_filenames.push_back(m_input_alpha_filenames[i]);
}
new_input_alpha_filenames.swap(m_input_alpha_filenames);
return true;
}
basis_compressor_params m_comp_params;
tool_mode m_mode;
bool m_ktx2_mode;
bool m_ktx2_zstandard;
int m_ktx2_zstandard_level;
uint32_t m_ktx2_animdata_duration;
uint32_t m_ktx2_animdata_timescale;
uint32_t m_ktx2_animdata_loopcount;
basisu::vector<std::string> m_input_filenames;
basisu::vector<std::string> m_input_alpha_filenames;
std::string m_output_filename;
std::string m_output_path;
int m_format_only;
std::string m_multifile_printf;
uint32_t m_multifile_first;
uint32_t m_multifile_num;
std::string m_csv_file;
std::string m_etc1s_use_global_codebooks_file;
std::string m_test_file_dir;
uint32_t m_max_threads;
bool m_individual;
bool m_no_ktx;
bool m_ktx_only;
bool m_write_out;
bool m_etc1_only;
bool m_fuzz_testing;
bool m_compare_ssim;
bool m_compare_plot;
bool m_bench;
bool m_parallel_compression;
};
static bool expand_multifile(command_line_params &opts)
{
if (!opts.m_multifile_printf.size())
return true;
if (!opts.m_multifile_num)
{
error_printf("-multifile_printf specified, but not -multifile_num\n");
return false;
}
std::string fmt(opts.m_multifile_printf);
// Workaround for MSVC debugger issues. Questionable to leave in here.
size_t x = fmt.find_first_of('!');
if (x != std::string::npos)
fmt[x] = '%';
if (string_find_right(fmt, '%') == -1)
{
error_printf("Must include C-style printf() format character '%%' in -multifile_printf string\n");
return false;
}
for (uint32_t i = opts.m_multifile_first; i < opts.m_multifile_first + opts.m_multifile_num; i++)
{
char buf[1024];
#ifdef _WIN32
sprintf_s(buf, sizeof(buf), fmt.c_str(), i);
#else
snprintf(buf, sizeof(buf), fmt.c_str(), i);
#endif
if (buf[0])
opts.m_input_filenames.push_back(buf);
}
return true;
}
struct basis_data
{
basis_data() :
m_transcoder()
{
}
uint8_vec m_file_data;
basist::basisu_transcoder m_transcoder;
};
static basis_data *load_basis_file(const char *pInput_filename, bool force_etc1s)
{
basis_data* p = new basis_data;
uint8_vec &basis_data = p->m_file_data;
if (!basisu::read_file_to_vec(pInput_filename, basis_data))
{
error_printf("Failed reading file \"%s\"\n", pInput_filename);
delete p;
return nullptr;
}
printf("Input file \"%s\"\n", pInput_filename);
if (!basis_data.size())
{
error_printf("File is empty!\n");
delete p;
return nullptr;
}
if (basis_data.size() > UINT32_MAX)
{
error_printf("File is too large!\n");
delete p;
return nullptr;
}
if (force_etc1s)
{
if (p->m_transcoder.get_tex_format((const void*)&p->m_file_data[0], (uint32_t)p->m_file_data.size()) != basist::basis_tex_format::cETC1S)
{
error_printf("Global codebook file must be in ETC1S format!\n");
delete p;
return nullptr;
}
}
if (!p->m_transcoder.start_transcoding(&basis_data[0], (uint32_t)basis_data.size()))
{
error_printf("start_transcoding() failed!\n");
delete p;
return nullptr;
}
return p;
}
static bool compress_mode(command_line_params &opts)
{
uint32_t num_threads = 1;
if (opts.m_comp_params.m_multithreading)
{
// We use std::thread::hardware_concurrency() as a hint to determine the default # of threads to put into a pool.
num_threads = std::thread::hardware_concurrency();
if (num_threads < 1)
num_threads = 1;
if (num_threads > opts.m_max_threads)
num_threads = opts.m_max_threads;
}
job_pool compressor_jpool(opts.m_parallel_compression ? 1 : num_threads);
if (!opts.m_parallel_compression)
opts.m_comp_params.m_pJob_pool = &compressor_jpool;
if (!expand_multifile(opts))
{
error_printf("-multifile expansion failed!\n");
return false;
}
if (!opts.m_input_filenames.size())
{
error_printf("No input files to process!\n");
return false;
}
basis_data* pGlobal_codebook_data = nullptr;