virtualx-engine/thirdparty/basis_universal/basisu_comp.h

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// basisu_comp.h
// Copyright (C) 2019 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.
#pragma once
#include "basisu_frontend.h"
#include "basisu_backend.h"
#include "basisu_basis_file.h"
#include "transcoder/basisu_global_selector_palette.h"
#include "transcoder/basisu_transcoder.h"
namespace basisu
{
const uint32_t BASISU_MAX_SUPPORTED_TEXTURE_DIMENSION = 16384;
// Allow block's color distance to increase by 1.5 while searching for an alternative nearby endpoint.
const float BASISU_DEFAULT_ENDPOINT_RDO_THRESH = 1.5f;
// Allow block's color distance to increase by 1.25 while searching the selector history buffer for a close enough match.
const float BASISU_DEFAULT_SELECTOR_RDO_THRESH = 1.25f;
const int BASISU_DEFAULT_QUALITY = 128;
const float BASISU_DEFAULT_HYBRID_SEL_CB_QUALITY_THRESH = 2.0f;
const uint32_t BASISU_MAX_IMAGE_DIMENSION = 16384;
const uint32_t BASISU_QUALITY_MIN = 1;
const uint32_t BASISU_QUALITY_MAX = 255;
const uint32_t BASISU_MAX_ENDPOINT_CLUSTERS = basisu_frontend::cMaxEndpointClusters;
const uint32_t BASISU_MAX_SELECTOR_CLUSTERS = basisu_frontend::cMaxSelectorClusters;
const uint32_t BASISU_MAX_SLICES = 0xFFFFFF;
struct image_stats
{
image_stats()
{
clear();
}
void clear()
{
m_filename.clear();
m_width = 0;
m_height = 0;
m_basis_etc1s_rgb_avg_psnr = 0.0f;
m_basis_etc1s_luma_709_psnr = 0.0f;
m_basis_etc1s_luma_601_psnr = 0.0f;
m_basis_etc1s_luma_709_ssim = 0.0f;
m_basis_bc1_rgb_avg_psnr = 0.0f;
m_basis_bc1_luma_709_psnr = 0.0f;
m_basis_bc1_luma_601_psnr = 0.0f;
m_basis_bc1_luma_709_ssim = 0.0f;
m_best_rgb_avg_psnr = 0.0f;
m_best_luma_709_psnr = 0.0f;
m_best_luma_601_psnr = 0.0f;
m_best_luma_709_ssim = 0.0f;
}
std::string m_filename;
uint32_t m_width;
uint32_t m_height;
// .basis compressed
float m_basis_etc1s_rgb_avg_psnr;
float m_basis_etc1s_luma_709_psnr;
float m_basis_etc1s_luma_601_psnr;
float m_basis_etc1s_luma_709_ssim;
float m_basis_bc1_rgb_avg_psnr;
float m_basis_bc1_luma_709_psnr;
float m_basis_bc1_luma_601_psnr;
float m_basis_bc1_luma_709_ssim;
// Normal (highest quality) compressed ETC1S
float m_best_rgb_avg_psnr;
float m_best_luma_709_psnr;
float m_best_luma_601_psnr;
float m_best_luma_709_ssim;
};
template<bool def>
struct bool_param
{
bool_param() :
m_value(def),
m_changed(false)
{
}
void clear()
{
m_value = def;
m_changed = false;
}
operator bool() const
{
return m_value;
}
bool operator= (bool v)
{
m_value = v;
m_changed = true;
return m_value;
}
bool was_changed() const { return m_changed; }
void set_changed(bool flag) { m_changed = flag; }
bool m_value;
bool m_changed;
};
template<typename T>
struct param
{
param(T def, T min_v, T max_v) :
m_value(def),
m_def(def),
m_min(min_v),
m_max(max_v),
m_changed(false)
{
}
void clear()
{
m_value = m_def;
m_changed = false;
}
operator T() const
{
return m_value;
}
T operator= (T v)
{
m_value = clamp<T>(v, m_min, m_max);
m_changed = true;
return m_value;
}
T operator *= (T v)
{
m_value *= v;
m_changed = true;
return m_value;
}
bool was_changed() const { return m_changed; }
void set_changed(bool flag) { m_changed = flag; }
T m_value;
T m_def;
T m_min;
T m_max;
bool m_changed;
};
struct basis_compressor_params
{
basis_compressor_params() :
m_hybrid_sel_cb_quality_thresh(BASISU_DEFAULT_HYBRID_SEL_CB_QUALITY_THRESH, 0.0f, 1e+10f),
m_global_pal_bits(8, 0, ETC1_GLOBAL_SELECTOR_CODEBOOK_MAX_PAL_BITS),
m_global_mod_bits(8, 0, basist::etc1_global_palette_entry_modifier::cTotalBits),
m_endpoint_rdo_thresh(BASISU_DEFAULT_ENDPOINT_RDO_THRESH, 0.0f, 1e+10f),
m_selector_rdo_thresh(BASISU_DEFAULT_SELECTOR_RDO_THRESH, 0.0f, 1e+10f),
m_pSel_codebook(NULL),
m_max_endpoint_clusters(512),
m_max_selector_clusters(512),
m_quality_level(-1),
m_mip_scale(1.0f, .000125f, 4.0f),
m_mip_smallest_dimension(1, 1, 16384),
m_compression_level((int)BASISU_DEFAULT_COMPRESSION_LEVEL, 0, (int)BASISU_MAX_COMPRESSION_LEVEL),
m_pJob_pool(nullptr)
{
clear();
}
void clear()
{
m_pSel_codebook = NULL;
m_source_filenames.clear();
m_source_alpha_filenames.clear();
m_source_images.clear();
m_out_filename.clear();
m_y_flip.clear();
m_debug.clear();
m_debug_images.clear();
m_global_sel_pal.clear();
m_auto_global_sel_pal.clear();
m_no_hybrid_sel_cb.clear();
m_perceptual.clear();
m_no_selector_rdo.clear();
m_selector_rdo_thresh.clear();
m_read_source_images.clear();
m_write_output_basis_files.clear();
m_compression_level.clear();
m_compute_stats.clear();
m_check_for_alpha.clear();
m_force_alpha.clear();
m_multithreading.clear();
m_seperate_rg_to_color_alpha.clear();
m_hybrid_sel_cb_quality_thresh.clear();
m_global_pal_bits.clear();
m_global_mod_bits.clear();
m_disable_hierarchical_endpoint_codebooks.clear();
m_no_endpoint_rdo.clear();
m_endpoint_rdo_thresh.clear();
m_mip_gen.clear();
m_mip_scale.clear();
m_mip_filter = "kaiser";
m_mip_scale = 1.0f;
m_mip_srgb.clear();
m_mip_premultiplied.clear();
m_mip_renormalize.clear();
m_mip_wrapping.clear();
m_mip_smallest_dimension.clear();
m_max_endpoint_clusters = 0;
m_max_selector_clusters = 0;
m_quality_level = -1;
m_tex_type = basist::cBASISTexType2D;
m_userdata0 = 0;
m_userdata1 = 0;
m_us_per_frame = 0;
m_pJob_pool = nullptr;
}
// Pointer to the global selector codebook, or nullptr to not use a global selector codebook
const basist::etc1_global_selector_codebook *m_pSel_codebook;
// If m_read_source_images is true, m_source_filenames (and optionally m_source_alpha_filenames) contains the filenames of PNG images to read.
// Otherwise, the compressor processes the images in m_source_images.
std::vector<std::string> m_source_filenames;
std::vector<std::string> m_source_alpha_filenames;
std::vector<image> m_source_images;
// TODO: Allow caller to supply their own mipmaps
// Filename of the output basis file
std::string m_out_filename;
// The params are done this way so we can detect when the user has explictly changed them.
// Flip images across Y axis
bool_param<false> m_y_flip;
// Output debug information during compression
bool_param<false> m_debug;
// m_debug_images is pretty slow
bool_param<false> m_debug_images;
// Compression level, from 0 to BASISU_MAX_COMPRESSION_LEVEL (higher is slower)
param<int> m_compression_level;
bool_param<false> m_global_sel_pal;
bool_param<false> m_auto_global_sel_pal;
// Frontend/backend codec parameters
bool_param<false> m_no_hybrid_sel_cb;
// Use perceptual sRGB colorspace metrics (for normal maps, etc.)
bool_param<true> m_perceptual;
// Disable selector RDO, for faster compression but larger files
bool_param<false> m_no_selector_rdo;
param<float> m_selector_rdo_thresh;
bool_param<false> m_no_endpoint_rdo;
param<float> m_endpoint_rdo_thresh;
// Read source images from m_source_filenames/m_source_alpha_filenames
bool_param<false> m_read_source_images;
// Write the output basis file to disk using m_out_filename
bool_param<false> m_write_output_basis_files;
// Compute and display image metrics
bool_param<false> m_compute_stats;
// Check to see if any input image has an alpha channel, if so then the output basis file will have alpha channels
bool_param<true> m_check_for_alpha;
// Always put alpha slices in the output basis file, even when the input doesn't have alpha
bool_param<false> m_force_alpha;
bool_param<true> m_multithreading;
// Split the R channel to RGB and the G channel to alpha, then write a basis file with alpha channels
bool_param<false> m_seperate_rg_to_color_alpha;
bool_param<false> m_disable_hierarchical_endpoint_codebooks;
// Global/hybrid selector codebook parameters
param<float> m_hybrid_sel_cb_quality_thresh;
param<int> m_global_pal_bits;
param<int> m_global_mod_bits;
// mipmap generation parameters
bool_param<false> m_mip_gen;
param<float> m_mip_scale;
std::string m_mip_filter;
bool_param<false> m_mip_srgb;
bool_param<true> m_mip_premultiplied; // not currently supported
bool_param<false> m_mip_renormalize;
bool_param<true> m_mip_wrapping;
param<int> m_mip_smallest_dimension;
// Codebook size (quality) control.
// If m_quality_level != -1, it controls the quality level. It ranges from [0,255].
// Otherwise m_max_endpoint_clusters/m_max_selector_clusters controls the codebook sizes directly.
uint32_t m_max_endpoint_clusters;
uint32_t m_max_selector_clusters;
int m_quality_level;
// m_tex_type, m_userdata0, m_userdata1, m_framerate - These fields go directly into the Basis file header.
basist::basis_texture_type m_tex_type;
uint32_t m_userdata0;
uint32_t m_userdata1;
uint32_t m_us_per_frame;
job_pool *m_pJob_pool;
};
class basis_compressor
{
BASISU_NO_EQUALS_OR_COPY_CONSTRUCT(basis_compressor);
public:
basis_compressor();
bool init(const basis_compressor_params &params);
enum error_code
{
cECSuccess = 0,
cECFailedReadingSourceImages,
cECFailedValidating,
cECFailedFrontEnd,
cECFailedFontendExtract,
cECFailedBackend,
cECFailedCreateBasisFile,
cECFailedWritingOutput
};
error_code process();
const uint8_vec &get_output_basis_file() const { return m_output_basis_file; }
const etc_block_vec &get_output_blocks() const { return m_output_blocks; }
const std::vector<image_stats> &get_stats() const { return m_stats; }
uint32_t get_basis_file_size() const { return m_basis_file_size; }
double get_basis_bits_per_texel() const { return m_basis_bits_per_texel; }
bool get_any_source_image_has_alpha() const { return m_any_source_image_has_alpha; }
private:
basis_compressor_params m_params;
std::vector<image> m_slice_images;
std::vector<image_stats> m_stats;
uint32_t m_basis_file_size;
double m_basis_bits_per_texel;
basisu_backend_slice_desc_vec m_slice_descs;
uint32_t m_total_blocks;
bool m_auto_global_sel_pal;
basisu_frontend m_frontend;
pixel_block_vec m_source_blocks;
std::vector<gpu_image> m_frontend_output_textures;
std::vector<gpu_image> m_best_etc1s_images;
std::vector<image> m_best_etc1s_images_unpacked;
basisu_backend m_backend;
basisu_file m_basis_file;
std::vector<gpu_image> m_decoded_output_textures;
std::vector<image> m_decoded_output_textures_unpacked;
std::vector<gpu_image> m_decoded_output_textures_bc1;
std::vector<image> m_decoded_output_textures_unpacked_bc1;
uint8_vec m_output_basis_file;
etc_block_vec m_output_blocks;
bool m_any_source_image_has_alpha;
bool read_source_images();
bool process_frontend();
bool extract_frontend_texture_data();
bool process_backend();
bool create_basis_file_and_transcode();
bool write_output_files_and_compute_stats();
bool generate_mipmaps(const image &img, std::vector<image> &mips, bool has_alpha);
bool validate_texture_type_constraints();
};
} // namespace basisu