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// basisu_frontend.cpp
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// Copyright (C) 2019-2021 Binomial LLC. All Rights Reserved.
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//
// 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.
//
// TODO:
// This code originally supported full ETC1 and ETC1S, so there's some legacy stuff to be cleaned up in here.
// Add endpoint tiling support (where we force adjacent blocks to use the same endpoints during quantization), for a ~10% or more increase in bitrate at same SSIM. The backend already supports this.
//
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# include "../transcoder/basisu.h"
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# include "basisu_frontend.h"
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# include "basisu_opencl.h"
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# include <unordered_set>
# include <unordered_map>
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# if BASISU_SUPPORT_SSE
# define CPPSPMD_NAME(a) a##_sse41
# include "basisu_kernels_declares.h"
# endif
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# define BASISU_FRONTEND_VERIFY(c) do { if (!(c)) handle_verify_failure(__LINE__); } while(0)
namespace basisu
{
const uint32_t cMaxCodebookCreationThreads = 8 ;
const uint32_t BASISU_MAX_ENDPOINT_REFINEMENT_STEPS = 3 ;
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//const uint32_t BASISU_MAX_SELECTOR_REFINEMENT_STEPS = 3;
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const uint32_t BASISU_ENDPOINT_PARENT_CODEBOOK_SIZE = 16 ;
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const uint32_t BASISU_SELECTOR_PARENT_CODEBOOK_SIZE_COMP_LEVEL_01 = 32 ;
const uint32_t BASISU_SELECTOR_PARENT_CODEBOOK_SIZE_COMP_LEVEL_DEFAULT = 16 ;
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// TODO - How to handle internal verifies in the basisu lib
static inline void handle_verify_failure ( int line )
{
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error_printf ( " basisu_frontend: verify check failed at line %i! \n " , line ) ;
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abort ( ) ;
}
bool basisu_frontend : : init ( const params & p )
{
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debug_printf ( " basisu_frontend::init: Multithreaded: %u, Job pool total threads: %u, NumEndpointClusters: %u, NumSelectorClusters: %u, Perceptual: %u, CompressionLevel: %u \n " ,
p . m_multithreaded , p . m_pJob_pool ? p . m_pJob_pool - > get_total_threads ( ) : 0 ,
p . m_max_endpoint_clusters , p . m_max_selector_clusters , p . m_perceptual , p . m_compression_level ) ;
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if ( ( p . m_max_endpoint_clusters < 1 ) | | ( p . m_max_endpoint_clusters > cMaxEndpointClusters ) )
return false ;
if ( ( p . m_max_selector_clusters < 1 ) | | ( p . m_max_selector_clusters > cMaxSelectorClusters ) )
return false ;
m_source_blocks . resize ( 0 ) ;
append_vector ( m_source_blocks , p . m_pSource_blocks , p . m_num_source_blocks ) ;
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m_params = p ;
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if ( m_params . m_pOpenCL_context )
{
BASISU_ASSUME ( sizeof ( cl_pixel_block ) = = sizeof ( pixel_block ) ) ;
// Upload the RGBA pixel blocks a single time.
if ( ! opencl_set_pixel_blocks ( m_params . m_pOpenCL_context , m_source_blocks . size ( ) , ( cl_pixel_block * ) m_source_blocks . data ( ) ) )
{
// This is not fatal, we just won't use OpenCL.
error_printf ( " basisu_frontend::init: opencl_set_pixel_blocks() failed \n " ) ;
m_params . m_pOpenCL_context = nullptr ;
m_opencl_failed = true ;
}
}
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m_encoded_blocks . resize ( m_params . m_num_source_blocks ) ;
memset ( & m_encoded_blocks [ 0 ] , 0 , m_encoded_blocks . size ( ) * sizeof ( m_encoded_blocks [ 0 ] ) ) ;
m_num_endpoint_codebook_iterations = 1 ;
m_num_selector_codebook_iterations = 1 ;
switch ( p . m_compression_level )
{
case 0 :
{
m_endpoint_refinement = false ;
m_use_hierarchical_endpoint_codebooks = true ;
m_use_hierarchical_selector_codebooks = true ;
break ;
}
case 1 :
{
m_endpoint_refinement = true ;
m_use_hierarchical_endpoint_codebooks = true ;
m_use_hierarchical_selector_codebooks = true ;
break ;
}
case 2 :
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{
m_endpoint_refinement = true ;
m_use_hierarchical_endpoint_codebooks = true ;
m_use_hierarchical_selector_codebooks = true ;
break ;
}
case 3 :
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{
m_endpoint_refinement = true ;
m_use_hierarchical_endpoint_codebooks = false ;
m_use_hierarchical_selector_codebooks = false ;
break ;
}
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case 4 :
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{
m_endpoint_refinement = true ;
m_use_hierarchical_endpoint_codebooks = true ;
m_use_hierarchical_selector_codebooks = true ;
m_num_endpoint_codebook_iterations = BASISU_MAX_ENDPOINT_REFINEMENT_STEPS ;
m_num_selector_codebook_iterations = BASISU_MAX_ENDPOINT_REFINEMENT_STEPS ;
break ;
}
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case 5 :
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{
m_endpoint_refinement = true ;
m_use_hierarchical_endpoint_codebooks = false ;
m_use_hierarchical_selector_codebooks = false ;
m_num_endpoint_codebook_iterations = BASISU_MAX_ENDPOINT_REFINEMENT_STEPS ;
m_num_selector_codebook_iterations = BASISU_MAX_ENDPOINT_REFINEMENT_STEPS ;
break ;
}
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case 6 :
default :
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{
m_endpoint_refinement = true ;
m_use_hierarchical_endpoint_codebooks = false ;
m_use_hierarchical_selector_codebooks = false ;
m_num_endpoint_codebook_iterations = BASISU_MAX_ENDPOINT_REFINEMENT_STEPS * 2 ;
m_num_selector_codebook_iterations = BASISU_MAX_ENDPOINT_REFINEMENT_STEPS * 2 ;
break ;
}
}
if ( m_params . m_disable_hierarchical_endpoint_codebooks )
m_use_hierarchical_endpoint_codebooks = false ;
debug_printf ( " Endpoint refinement: %u, Hierarchical endpoint codebooks: %u, Hierarchical selector codebooks: %u, Endpoint codebook iters: %u, Selector codebook iters: %u \n " ,
m_endpoint_refinement , m_use_hierarchical_endpoint_codebooks , m_use_hierarchical_selector_codebooks , m_num_endpoint_codebook_iterations , m_num_selector_codebook_iterations ) ;
return true ;
}
bool basisu_frontend : : compress ( )
{
debug_printf ( " basisu_frontend::compress \n " ) ;
m_total_blocks = m_params . m_num_source_blocks ;
m_total_pixels = m_total_blocks * cPixelBlockTotalPixels ;
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// Encode the initial high quality ETC1S texture
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init_etc1_images ( ) ;
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// First quantize the ETC1S endpoints
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if ( m_params . m_pGlobal_codebooks )
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{
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init_global_codebooks ( ) ;
}
else
{
init_endpoint_training_vectors ( ) ;
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generate_endpoint_clusters ( ) ;
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for ( uint32_t refine_endpoint_step = 0 ; refine_endpoint_step < m_num_endpoint_codebook_iterations ; refine_endpoint_step + + )
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{
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if ( m_params . m_validate )
{
BASISU_FRONTEND_VERIFY ( check_etc1s_constraints ( ) ) ;
BASISU_FRONTEND_VERIFY ( validate_endpoint_cluster_hierarchy ( false ) ) ;
}
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if ( refine_endpoint_step )
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{
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introduce_new_endpoint_clusters ( ) ;
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}
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if ( m_params . m_validate )
{
BASISU_FRONTEND_VERIFY ( validate_endpoint_cluster_hierarchy ( false ) ) ;
}
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generate_endpoint_codebook ( refine_endpoint_step ) ;
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if ( ( m_params . m_debug_images ) & & ( m_params . m_dump_endpoint_clusterization ) )
{
char buf [ 256 ] ;
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snprintf ( buf , sizeof ( buf ) , " endpoint_cluster_vis_pre_%u.png " , refine_endpoint_step ) ;
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dump_endpoint_clusterization_visualization ( buf , false ) ;
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}
bool early_out = false ;
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if ( m_endpoint_refinement )
{
//dump_endpoint_clusterization_visualization("endpoint_clusters_before_refinement.png");
if ( ! refine_endpoint_clusterization ( ) )
early_out = true ;
if ( ( m_params . m_tex_type = = basist : : cBASISTexTypeVideoFrames ) & & ( ! refine_endpoint_step ) & & ( m_num_endpoint_codebook_iterations = = 1 ) )
{
eliminate_redundant_or_empty_endpoint_clusters ( ) ;
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generate_endpoint_codebook ( basisu : : maximum ( 1U , refine_endpoint_step ) ) ;
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}
if ( ( m_params . m_debug_images ) & & ( m_params . m_dump_endpoint_clusterization ) )
{
char buf [ 256 ] ;
snprintf ( buf , sizeof ( buf ) , " endpoint_cluster_vis_post_%u.png " , refine_endpoint_step ) ;
dump_endpoint_clusterization_visualization ( buf , false ) ;
snprintf ( buf , sizeof ( buf ) , " endpoint_cluster_colors_vis_post_%u.png " , refine_endpoint_step ) ;
dump_endpoint_clusterization_visualization ( buf , true ) ;
}
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}
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if ( m_params . m_validate )
{
BASISU_FRONTEND_VERIFY ( validate_endpoint_cluster_hierarchy ( false ) ) ;
}
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eliminate_redundant_or_empty_endpoint_clusters ( ) ;
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if ( m_params . m_validate )
{
BASISU_FRONTEND_VERIFY ( validate_endpoint_cluster_hierarchy ( false ) ) ;
}
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if ( m_params . m_debug_stats )
debug_printf ( " Total endpoint clusters: %u \n " , ( uint32_t ) m_endpoint_clusters . size ( ) ) ;
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if ( early_out )
break ;
}
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if ( m_params . m_validate )
{
BASISU_FRONTEND_VERIFY ( check_etc1s_constraints ( ) ) ;
}
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generate_block_endpoint_clusters ( ) ;
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create_initial_packed_texture ( ) ;
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// Now quantize the ETC1S selectors
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generate_selector_clusters ( ) ;
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if ( m_use_hierarchical_selector_codebooks )
compute_selector_clusters_within_each_parent_cluster ( ) ;
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if ( m_params . m_compression_level = = 0 )
{
create_optimized_selector_codebook ( 0 ) ;
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find_optimal_selector_clusters_for_each_block ( ) ;
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introduce_special_selector_clusters ( ) ;
}
else
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{
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const uint32_t num_refine_selector_steps = m_num_selector_codebook_iterations ;
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for ( uint32_t refine_selector_steps = 0 ; refine_selector_steps < num_refine_selector_steps ; refine_selector_steps + + )
{
create_optimized_selector_codebook ( refine_selector_steps ) ;
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find_optimal_selector_clusters_for_each_block ( ) ;
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introduce_special_selector_clusters ( ) ;
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if ( ( m_params . m_compression_level > = 4 ) | | ( m_params . m_tex_type = = basist : : cBASISTexTypeVideoFrames ) )
{
if ( ! refine_block_endpoints_given_selectors ( ) )
break ;
}
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}
}
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optimize_selector_codebook ( ) ;
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if ( m_params . m_debug_stats )
debug_printf ( " Total selector clusters: %u \n " , ( uint32_t ) m_selector_cluster_block_indices . size ( ) ) ;
}
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finalize ( ) ;
if ( m_params . m_validate )
{
if ( ! validate_output ( ) )
return false ;
}
debug_printf ( " basisu_frontend::compress: Done \n " ) ;
return true ;
}
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bool basisu_frontend : : init_global_codebooks ( )
{
const basist : : basisu_lowlevel_etc1s_transcoder * pTranscoder = m_params . m_pGlobal_codebooks ;
const basist : : basisu_lowlevel_etc1s_transcoder : : endpoint_vec & endpoints = pTranscoder - > get_endpoints ( ) ;
const basist : : basisu_lowlevel_etc1s_transcoder : : selector_vec & selectors = pTranscoder - > get_selectors ( ) ;
m_endpoint_cluster_etc_params . resize ( endpoints . size ( ) ) ;
for ( uint32_t i = 0 ; i < endpoints . size ( ) ; i + + )
{
m_endpoint_cluster_etc_params [ i ] . m_inten_table [ 0 ] = endpoints [ i ] . m_inten5 ;
m_endpoint_cluster_etc_params [ i ] . m_inten_table [ 1 ] = endpoints [ i ] . m_inten5 ;
m_endpoint_cluster_etc_params [ i ] . m_color_unscaled [ 0 ] . set ( endpoints [ i ] . m_color5 . r , endpoints [ i ] . m_color5 . g , endpoints [ i ] . m_color5 . b , 255 ) ;
m_endpoint_cluster_etc_params [ i ] . m_color_used [ 0 ] = true ;
m_endpoint_cluster_etc_params [ i ] . m_valid = true ;
}
m_optimized_cluster_selectors . resize ( selectors . size ( ) ) ;
for ( uint32_t i = 0 ; i < m_optimized_cluster_selectors . size ( ) ; i + + )
{
for ( uint32_t y = 0 ; y < 4 ; y + + )
for ( uint32_t x = 0 ; x < 4 ; x + + )
m_optimized_cluster_selectors [ i ] . set_selector ( x , y , selectors [ i ] . get_selector ( x , y ) ) ;
}
m_block_endpoint_clusters_indices . resize ( m_total_blocks ) ;
m_orig_encoded_blocks . resize ( m_total_blocks ) ;
m_block_selector_cluster_index . resize ( m_total_blocks ) ;
#if 0
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index ] {
# endif
for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
const etc_block & blk = m_etc1_blocks_etc1s [ block_index ] ;
const uint32_t block_endpoint_index = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
etc_block trial_blk ;
trial_blk . set_block_color5_etc1s ( blk . m_color_unscaled [ 0 ] ) ;
trial_blk . set_flip_bit ( true ) ;
uint64_t best_err = UINT64_MAX ;
uint32_t best_index = 0 ;
for ( uint32_t i = 0 ; i < m_optimized_cluster_selectors . size ( ) ; i + + )
{
trial_blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ i ] . get_raw_selector_bits ( ) ) ;
const uint64_t cur_err = trial_blk . evaluate_etc1_error ( get_source_pixel_block ( block_index ) . get_ptr ( ) , m_params . m_perceptual ) ;
if ( cur_err < best_err )
{
best_err = cur_err ;
best_index = i ;
if ( ! cur_err )
break ;
}
} // block_index
m_block_selector_cluster_index [ block_index ] = best_index ;
}
# ifndef __EMSCRIPTEN__
} ) ;
# endif
}
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > wait_for_all ( ) ;
# endif
m_encoded_blocks . resize ( m_total_blocks ) ;
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t endpoint_index = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
const uint32_t selector_index = m_block_selector_cluster_index [ block_index ] ;
etc_block & blk = m_encoded_blocks [ block_index ] ;
blk . set_block_color5_etc1s ( m_endpoint_cluster_etc_params [ endpoint_index ] . m_color_unscaled [ 0 ] ) ;
blk . set_inten_tables_etc1s ( m_endpoint_cluster_etc_params [ endpoint_index ] . m_inten_table [ 0 ] ) ;
blk . set_flip_bit ( true ) ;
blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ selector_index ] . get_raw_selector_bits ( ) ) ;
}
# endif
// HACK HACK
const uint32_t NUM_PASSES = 3 ;
for ( uint32_t pass = 0 ; pass < NUM_PASSES ; pass + + )
{
debug_printf ( " init_global_codebooks: pass %u \n " , pass ) ;
const uint32_t N = 128 ;
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , pass ] {
# endif
for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
const etc_block & blk = pass ? m_encoded_blocks [ block_index ] : m_etc1_blocks_etc1s [ block_index ] ;
const uint32_t blk_raw_selector_bits = blk . get_raw_selector_bits ( ) ;
etc_block trial_blk ( blk ) ;
trial_blk . set_raw_selector_bits ( blk_raw_selector_bits ) ;
trial_blk . set_flip_bit ( true ) ;
uint64_t best_err = UINT64_MAX ;
uint32_t best_index = 0 ;
etc_block best_block ( trial_blk ) ;
for ( uint32_t i = 0 ; i < m_endpoint_cluster_etc_params . size ( ) ; i + + )
{
if ( m_endpoint_cluster_etc_params [ i ] . m_inten_table [ 0 ] > blk . get_inten_table ( 0 ) )
continue ;
trial_blk . set_block_color5_etc1s ( m_endpoint_cluster_etc_params [ i ] . m_color_unscaled [ 0 ] ) ;
trial_blk . set_inten_tables_etc1s ( m_endpoint_cluster_etc_params [ i ] . m_inten_table [ 0 ] ) ;
const color_rgba * pSource_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
uint64_t cur_err ;
if ( ! pass )
cur_err = trial_blk . determine_selectors ( pSource_pixels , m_params . m_perceptual ) ;
else
cur_err = trial_blk . evaluate_etc1_error ( pSource_pixels , m_params . m_perceptual ) ;
if ( cur_err < best_err )
{
best_err = cur_err ;
best_index = i ;
best_block = trial_blk ;
if ( ! cur_err )
break ;
}
}
m_block_endpoint_clusters_indices [ block_index ] [ 0 ] = best_index ;
m_block_endpoint_clusters_indices [ block_index ] [ 1 ] = best_index ;
m_orig_encoded_blocks [ block_index ] = best_block ;
} // block_index
# ifndef __EMSCRIPTEN__
} ) ;
# endif
}
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > wait_for_all ( ) ;
# endif
m_endpoint_clusters . resize ( 0 ) ;
m_endpoint_clusters . resize ( endpoints . size ( ) ) ;
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t endpoint_cluster_index = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
m_endpoint_clusters [ endpoint_cluster_index ] . push_back ( block_index * 2 ) ;
m_endpoint_clusters [ endpoint_cluster_index ] . push_back ( block_index * 2 + 1 ) ;
}
m_block_selector_cluster_index . resize ( m_total_blocks ) ;
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index ] {
# endif
for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
const uint32_t block_endpoint_index = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
etc_block trial_blk ;
trial_blk . set_block_color5_etc1s ( m_endpoint_cluster_etc_params [ block_endpoint_index ] . m_color_unscaled [ 0 ] ) ;
trial_blk . set_inten_tables_etc1s ( m_endpoint_cluster_etc_params [ block_endpoint_index ] . m_inten_table [ 0 ] ) ;
trial_blk . set_flip_bit ( true ) ;
uint64_t best_err = UINT64_MAX ;
uint32_t best_index = 0 ;
for ( uint32_t i = 0 ; i < m_optimized_cluster_selectors . size ( ) ; i + + )
{
trial_blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ i ] . get_raw_selector_bits ( ) ) ;
const uint64_t cur_err = trial_blk . evaluate_etc1_error ( get_source_pixel_block ( block_index ) . get_ptr ( ) , m_params . m_perceptual ) ;
if ( cur_err < best_err )
{
best_err = cur_err ;
best_index = i ;
if ( ! cur_err )
break ;
}
} // block_index
m_block_selector_cluster_index [ block_index ] = best_index ;
}
# ifndef __EMSCRIPTEN__
} ) ;
# endif
}
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > wait_for_all ( ) ;
# endif
m_encoded_blocks . resize ( m_total_blocks ) ;
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t endpoint_index = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
const uint32_t selector_index = m_block_selector_cluster_index [ block_index ] ;
etc_block & blk = m_encoded_blocks [ block_index ] ;
blk . set_block_color5_etc1s ( m_endpoint_cluster_etc_params [ endpoint_index ] . m_color_unscaled [ 0 ] ) ;
blk . set_inten_tables_etc1s ( m_endpoint_cluster_etc_params [ endpoint_index ] . m_inten_table [ 0 ] ) ;
blk . set_flip_bit ( true ) ;
blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ selector_index ] . get_raw_selector_bits ( ) ) ;
}
} // pass
m_selector_cluster_block_indices . resize ( selectors . size ( ) ) ;
for ( uint32_t block_index = 0 ; block_index < m_etc1_blocks_etc1s . size ( ) ; block_index + + )
m_selector_cluster_block_indices [ m_block_selector_cluster_index [ block_index ] ] . push_back ( block_index ) ;
return true ;
}
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void basisu_frontend : : introduce_special_selector_clusters ( )
{
debug_printf ( " introduce_special_selector_clusters \n " ) ;
uint32_t total_blocks_relocated = 0 ;
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const uint32_t initial_selector_clusters = ( uint32_t ) m_selector_cluster_block_indices . size ( ) ;
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bool_vec block_relocated_flags ( m_total_blocks ) ;
// Make sure the selector codebook always has pure flat blocks for each possible selector, to avoid obvious artifacts.
// optimize_selector_codebook() will clean up any redundant clusters we create here.
for ( uint32_t sel = 0 ; sel < 4 ; sel + + )
{
etc_block blk ;
clear_obj ( blk ) ;
for ( uint32_t j = 0 ; j < 16 ; j + + )
blk . set_selector ( j & 3 , j > > 2 , sel ) ;
int k ;
for ( k = 0 ; k < ( int ) m_optimized_cluster_selectors . size ( ) ; k + + )
if ( m_optimized_cluster_selectors [ k ] . get_raw_selector_bits ( ) = = blk . get_raw_selector_bits ( ) )
break ;
if ( k < ( int ) m_optimized_cluster_selectors . size ( ) )
continue ;
debug_printf ( " Introducing sel %u \n " , sel ) ;
const uint32_t new_selector_cluster_index = ( uint32_t ) m_optimized_cluster_selectors . size ( ) ;
m_optimized_cluster_selectors . push_back ( blk ) ;
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vector_ensure_element_is_valid ( m_selector_cluster_block_indices , new_selector_cluster_index ) ;
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for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
if ( m_orig_encoded_blocks [ block_index ] . get_raw_selector_bits ( ) ! = blk . get_raw_selector_bits ( ) )
continue ;
// See if using flat selectors actually decreases the block's error.
const uint32_t old_selector_cluster_index = m_block_selector_cluster_index [ block_index ] ;
etc_block cur_blk ;
const uint32_t endpoint_cluster_index = get_subblock_endpoint_cluster_index ( block_index , 0 ) ;
cur_blk . set_block_color5_etc1s ( get_endpoint_cluster_unscaled_color ( endpoint_cluster_index , false ) ) ;
cur_blk . set_inten_tables_etc1s ( get_endpoint_cluster_inten_table ( endpoint_cluster_index , false ) ) ;
cur_blk . set_raw_selector_bits ( get_selector_cluster_selector_bits ( old_selector_cluster_index ) . get_raw_selector_bits ( ) ) ;
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cur_blk . set_flip_bit ( true ) ;
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const uint64_t cur_err = cur_blk . evaluate_etc1_error ( get_source_pixel_block ( block_index ) . get_ptr ( ) , m_params . m_perceptual ) ;
cur_blk . set_raw_selector_bits ( blk . get_raw_selector_bits ( ) ) ;
const uint64_t new_err = cur_blk . evaluate_etc1_error ( get_source_pixel_block ( block_index ) . get_ptr ( ) , m_params . m_perceptual ) ;
if ( new_err > = cur_err )
continue ;
// Change the block to use the new cluster
m_block_selector_cluster_index [ block_index ] = new_selector_cluster_index ;
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m_selector_cluster_block_indices [ new_selector_cluster_index ] . push_back ( block_index ) ;
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block_relocated_flags [ block_index ] = true ;
#if 0
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int j = vector_find ( m_selector_cluster_block_indices [ old_selector_cluster_index ] , block_index ) ;
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if ( j > = 0 )
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m_selector_cluster_block_indices [ old_selector_cluster_index ] . erase ( m_selector_cluster_block_indices [ old_selector_cluster_index ] . begin ( ) + j ) ;
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# endif
total_blocks_relocated + + ;
m_encoded_blocks [ block_index ] . set_raw_selector_bits ( blk . get_raw_selector_bits ( ) ) ;
} // block_index
} // sel
if ( total_blocks_relocated )
{
debug_printf ( " Fixing selector codebook \n " ) ;
for ( int selector_cluster_index = 0 ; selector_cluster_index < ( int ) initial_selector_clusters ; selector_cluster_index + + )
{
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uint_vec & block_indices = m_selector_cluster_block_indices [ selector_cluster_index ] ;
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uint32_t dst_ofs = 0 ;
for ( uint32_t i = 0 ; i < block_indices . size ( ) ; i + + )
{
const uint32_t block_index = block_indices [ i ] ;
if ( ! block_relocated_flags [ block_index ] )
block_indices [ dst_ofs + + ] = block_index ;
}
block_indices . resize ( dst_ofs ) ;
}
}
debug_printf ( " Total blocks relocated to new flat selector clusters: %u \n " , total_blocks_relocated ) ;
}
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// This method will change the number and ordering of the selector codebook clusters.
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void basisu_frontend : : optimize_selector_codebook ( )
{
debug_printf ( " optimize_selector_codebook \n " ) ;
const uint32_t orig_total_selector_clusters = ( uint32_t ) m_optimized_cluster_selectors . size ( ) ;
bool_vec selector_cluster_was_used ( m_optimized_cluster_selectors . size ( ) ) ;
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
selector_cluster_was_used [ m_block_selector_cluster_index [ i ] ] = true ;
int_vec old_to_new ( m_optimized_cluster_selectors . size ( ) ) ;
int_vec new_to_old ;
uint32_t total_new_entries = 0 ;
std : : unordered_map < uint32_t , uint32_t > selector_hashmap ;
for ( int i = 0 ; i < static_cast < int > ( m_optimized_cluster_selectors . size ( ) ) ; i + + )
{
if ( ! selector_cluster_was_used [ i ] )
{
old_to_new [ i ] = - 1 ;
continue ;
}
const uint32_t raw_selector_bits = m_optimized_cluster_selectors [ i ] . get_raw_selector_bits ( ) ;
auto find_res = selector_hashmap . insert ( std : : make_pair ( raw_selector_bits , total_new_entries ) ) ;
if ( ! find_res . second )
{
old_to_new [ i ] = ( find_res . first ) - > second ;
continue ;
}
old_to_new [ i ] = total_new_entries + + ;
new_to_old . push_back ( i ) ;
}
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debug_printf ( " Original selector clusters: %u, new cluster selectors: %u \n " , orig_total_selector_clusters , total_new_entries ) ;
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for ( uint32_t i = 0 ; i < m_block_selector_cluster_index . size ( ) ; i + + )
{
BASISU_FRONTEND_VERIFY ( ( old_to_new [ m_block_selector_cluster_index [ i ] ] > = 0 ) & & ( old_to_new [ m_block_selector_cluster_index [ i ] ] < ( int ) total_new_entries ) ) ;
m_block_selector_cluster_index [ i ] = old_to_new [ m_block_selector_cluster_index [ i ] ] ;
}
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basisu : : vector < etc_block > new_optimized_cluster_selectors ( m_optimized_cluster_selectors . size ( ) ? total_new_entries : 0 ) ;
basisu : : vector < uint_vec > new_selector_cluster_indices ( m_selector_cluster_block_indices . size ( ) ? total_new_entries : 0 ) ;
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for ( uint32_t i = 0 ; i < total_new_entries ; i + + )
{
if ( m_optimized_cluster_selectors . size ( ) )
new_optimized_cluster_selectors [ i ] = m_optimized_cluster_selectors [ new_to_old [ i ] ] ;
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//if (m_selector_cluster_block_indices.size())
// new_selector_cluster_indices[i] = m_selector_cluster_block_indices[new_to_old[i]];
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}
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for ( uint32_t i = 0 ; i < m_block_selector_cluster_index . size ( ) ; i + + )
{
new_selector_cluster_indices [ m_block_selector_cluster_index [ i ] ] . push_back ( i ) ;
}
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m_optimized_cluster_selectors . swap ( new_optimized_cluster_selectors ) ;
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m_selector_cluster_block_indices . swap ( new_selector_cluster_indices ) ;
// This isn't strictly necessary - doing it for completeness/future sanity.
if ( m_selector_clusters_within_each_parent_cluster . size ( ) )
{
for ( uint32_t i = 0 ; i < m_selector_clusters_within_each_parent_cluster . size ( ) ; i + + )
for ( uint32_t j = 0 ; j < m_selector_clusters_within_each_parent_cluster [ i ] . size ( ) ; j + + )
m_selector_clusters_within_each_parent_cluster [ i ] [ j ] = old_to_new [ m_selector_clusters_within_each_parent_cluster [ i ] [ j ] ] ;
}
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debug_printf ( " optimize_selector_codebook: Before: %u After: %u \n " , orig_total_selector_clusters , total_new_entries ) ;
}
void basisu_frontend : : init_etc1_images ( )
{
debug_printf ( " basisu_frontend::init_etc1_images \n " ) ;
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interval_timer tm ;
tm . start ( ) ;
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m_etc1_blocks_etc1s . resize ( m_total_blocks ) ;
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bool use_cpu = true ;
if ( m_params . m_pOpenCL_context )
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{
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uint32_t total_perms = 64 ;
if ( m_params . m_compression_level = = 0 )
total_perms = 4 ;
else if ( m_params . m_compression_level = = 1 )
total_perms = 16 ;
else if ( m_params . m_compression_level = = BASISU_MAX_COMPRESSION_LEVEL )
total_perms = OPENCL_ENCODE_ETC1S_MAX_PERMS ;
bool status = opencl_encode_etc1s_blocks ( m_params . m_pOpenCL_context , m_etc1_blocks_etc1s . data ( ) , m_params . m_perceptual , total_perms ) ;
if ( status )
use_cpu = false ;
else
{
error_printf ( " basisu_frontend::init_etc1_images: opencl_encode_etc1s_blocks() failed! Using CPU. \n " ) ;
m_params . m_pOpenCL_context = nullptr ;
m_opencl_failed = true ;
}
}
if ( use_cpu )
{
const uint32_t N = 4096 ;
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index ] {
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# endif
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for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
const pixel_block & source_blk = get_source_pixel_block ( block_index ) ;
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etc1_optimizer optimizer ;
etc1_optimizer : : params optimizer_params ;
etc1_optimizer : : results optimizer_results ;
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if ( m_params . m_compression_level = = 0 )
optimizer_params . m_quality = cETCQualityFast ;
else if ( m_params . m_compression_level = = 1 )
optimizer_params . m_quality = cETCQualityMedium ;
else if ( m_params . m_compression_level = = BASISU_MAX_COMPRESSION_LEVEL )
optimizer_params . m_quality = cETCQualityUber ;
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optimizer_params . m_num_src_pixels = 16 ;
optimizer_params . m_pSrc_pixels = source_blk . get_ptr ( ) ;
optimizer_params . m_perceptual = m_params . m_perceptual ;
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uint8_t selectors [ 16 ] ;
optimizer_results . m_pSelectors = selectors ;
optimizer_results . m_n = 16 ;
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optimizer . init ( optimizer_params , optimizer_results ) ;
if ( ! optimizer . compute ( ) )
BASISU_FRONTEND_VERIFY ( false ) ;
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etc_block & blk = m_etc1_blocks_etc1s [ block_index ] ;
memset ( & blk , 0 , sizeof ( blk ) ) ;
blk . set_block_color5_etc1s ( optimizer_results . m_block_color_unscaled ) ;
blk . set_inten_tables_etc1s ( optimizer_results . m_block_inten_table ) ;
blk . set_flip_bit ( true ) ;
for ( uint32_t y = 0 ; y < 4 ; y + + )
for ( uint32_t x = 0 ; x < 4 ; x + + )
blk . set_selector ( x , y , selectors [ x + y * 4 ] ) ;
}
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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}
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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} // use_cpu
debug_printf ( " init_etc1_images: Elapsed time: %3.3f secs \n " , tm . get_elapsed_secs ( ) ) ;
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}
void basisu_frontend : : init_endpoint_training_vectors ( )
{
debug_printf ( " init_endpoint_training_vectors \n " ) ;
vec6F_quantizer : : array_of_weighted_training_vecs & training_vecs = m_endpoint_clusterizer . get_training_vecs ( ) ;
training_vecs . resize ( m_total_blocks * 2 ) ;
const uint32_t N = 16384 ;
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , & training_vecs ] {
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# endif
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for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
const etc_block & blk = m_etc1_blocks_etc1s [ block_index ] ;
color_rgba block_colors [ 2 ] ;
blk . get_block_low_high_colors ( block_colors , 0 ) ;
vec6F v ;
v [ 0 ] = block_colors [ 0 ] . r * ( 1.0f / 255.0f ) ;
v [ 1 ] = block_colors [ 0 ] . g * ( 1.0f / 255.0f ) ;
v [ 2 ] = block_colors [ 0 ] . b * ( 1.0f / 255.0f ) ;
v [ 3 ] = block_colors [ 1 ] . r * ( 1.0f / 255.0f ) ;
v [ 4 ] = block_colors [ 1 ] . g * ( 1.0f / 255.0f ) ;
v [ 5 ] = block_colors [ 1 ] . b * ( 1.0f / 255.0f ) ;
training_vecs [ block_index * 2 + 0 ] = std : : make_pair ( v , 1 ) ;
training_vecs [ block_index * 2 + 1 ] = std : : make_pair ( v , 1 ) ;
} // block_index;
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // block_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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}
void basisu_frontend : : generate_endpoint_clusters ( )
{
debug_printf ( " Begin endpoint quantization \n " ) ;
const uint32_t parent_codebook_size = ( m_params . m_max_endpoint_clusters > = 256 ) ? BASISU_ENDPOINT_PARENT_CODEBOOK_SIZE : 0 ;
uint32_t max_threads = 0 ;
max_threads = m_params . m_multithreaded ? minimum < int > ( std : : thread : : hardware_concurrency ( ) , cMaxCodebookCreationThreads ) : 0 ;
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if ( m_params . m_pJob_pool )
max_threads = minimum < int > ( ( int ) m_params . m_pJob_pool - > get_total_threads ( ) , max_threads ) ;
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debug_printf ( " max_threads: %u \n " , max_threads ) ;
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bool status = generate_hierarchical_codebook_threaded ( m_endpoint_clusterizer ,
m_params . m_max_endpoint_clusters , m_use_hierarchical_endpoint_codebooks ? parent_codebook_size : 0 ,
m_endpoint_clusters ,
m_endpoint_parent_clusters ,
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max_threads , m_params . m_pJob_pool , true ) ;
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BASISU_FRONTEND_VERIFY ( status ) ;
if ( m_use_hierarchical_endpoint_codebooks )
{
if ( ! m_endpoint_parent_clusters . size ( ) )
{
m_endpoint_parent_clusters . resize ( 0 ) ;
m_endpoint_parent_clusters . resize ( 1 ) ;
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
{
m_endpoint_parent_clusters [ 0 ] . push_back ( i * 2 ) ;
m_endpoint_parent_clusters [ 0 ] . push_back ( i * 2 + 1 ) ;
}
}
BASISU_ASSUME ( BASISU_ENDPOINT_PARENT_CODEBOOK_SIZE < = UINT8_MAX ) ;
m_block_parent_endpoint_cluster . resize ( 0 ) ;
m_block_parent_endpoint_cluster . resize ( m_total_blocks ) ;
vector_set_all ( m_block_parent_endpoint_cluster , 0xFF ) ;
for ( uint32_t parent_cluster_index = 0 ; parent_cluster_index < m_endpoint_parent_clusters . size ( ) ; parent_cluster_index + + )
{
const uint_vec & cluster = m_endpoint_parent_clusters [ parent_cluster_index ] ;
for ( uint32_t j = 0 ; j < cluster . size ( ) ; j + + )
{
const uint32_t block_index = cluster [ j ] > > 1 ;
m_block_parent_endpoint_cluster [ block_index ] = static_cast < uint8_t > ( parent_cluster_index ) ;
}
}
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
{
BASISU_FRONTEND_VERIFY ( m_block_parent_endpoint_cluster [ i ] ! = 0xFF ) ;
}
// Ensure that all the blocks within each cluster are all in the same parent cluster, or something is very wrong.
for ( uint32_t cluster_index = 0 ; cluster_index < m_endpoint_clusters . size ( ) ; cluster_index + + )
{
const uint_vec & cluster = m_endpoint_clusters [ cluster_index ] ;
uint32_t parent_cluster_index = 0 ;
for ( uint32_t j = 0 ; j < cluster . size ( ) ; j + + )
{
const uint32_t block_index = cluster [ j ] > > 1 ;
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BASISU_FRONTEND_VERIFY ( block_index < m_block_parent_endpoint_cluster . size ( ) ) ;
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if ( ! j )
{
parent_cluster_index = m_block_parent_endpoint_cluster [ block_index ] ;
}
else
{
BASISU_FRONTEND_VERIFY ( m_block_parent_endpoint_cluster [ block_index ] = = parent_cluster_index ) ;
}
}
}
}
if ( m_params . m_debug_stats )
debug_printf ( " Total endpoint clusters: %u, parent clusters: %u \n " , ( uint32_t ) m_endpoint_clusters . size ( ) , ( uint32_t ) m_endpoint_parent_clusters . size ( ) ) ;
}
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// Iterate through each array of endpoint cluster block indices and set the m_block_endpoint_clusters_indices[][] array to indicaste which cluster index each block uses.
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void basisu_frontend : : generate_block_endpoint_clusters ( )
{
m_block_endpoint_clusters_indices . resize ( m_total_blocks ) ;
for ( int cluster_index = 0 ; cluster_index < static_cast < int > ( m_endpoint_clusters . size ( ) ) ; cluster_index + + )
{
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const basisu : : vector < uint32_t > & cluster_indices = m_endpoint_clusters [ cluster_index ] ;
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for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
m_block_endpoint_clusters_indices [ block_index ] [ subblock_index ] = cluster_index ;
} // cluster_indices_iter
}
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if ( m_params . m_validate )
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{
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for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
uint32_t cluster_0 = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
uint32_t cluster_1 = m_block_endpoint_clusters_indices [ block_index ] [ 1 ] ;
BASISU_FRONTEND_VERIFY ( cluster_0 = = cluster_1 ) ;
}
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}
}
void basisu_frontend : : compute_endpoint_clusters_within_each_parent_cluster ( )
{
generate_block_endpoint_clusters ( ) ;
m_endpoint_clusters_within_each_parent_cluster . resize ( 0 ) ;
m_endpoint_clusters_within_each_parent_cluster . resize ( m_endpoint_parent_clusters . size ( ) ) ;
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// Note: It's possible that some blocks got moved into the same cluster, but live in different parent clusters.
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for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t cluster_index = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
const uint32_t parent_cluster_index = m_block_parent_endpoint_cluster [ block_index ] ;
m_endpoint_clusters_within_each_parent_cluster [ parent_cluster_index ] . push_back ( cluster_index ) ;
}
for ( uint32_t i = 0 ; i < m_endpoint_clusters_within_each_parent_cluster . size ( ) ; i + + )
{
uint_vec & cluster_indices = m_endpoint_clusters_within_each_parent_cluster [ i ] ;
BASISU_FRONTEND_VERIFY ( cluster_indices . size ( ) ) ;
vector_sort ( cluster_indices ) ;
auto last = std : : unique ( cluster_indices . begin ( ) , cluster_indices . end ( ) ) ;
cluster_indices . erase ( last , cluster_indices . end ( ) ) ;
}
}
void basisu_frontend : : compute_endpoint_subblock_error_vec ( )
{
m_subblock_endpoint_quant_err_vec . resize ( 0 ) ;
const uint32_t N = 512 ;
for ( uint32_t cluster_index_iter = 0 ; cluster_index_iter < m_endpoint_clusters . size ( ) ; cluster_index_iter + = N )
{
const uint32_t first_index = cluster_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( ( uint32_t ) m_endpoint_clusters . size ( ) , cluster_index_iter + N ) ;
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index ] {
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# endif
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for ( uint32_t cluster_index = first_index ; cluster_index < last_index ; cluster_index + + )
{
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const basisu : : vector < uint32_t > & cluster_indices = m_endpoint_clusters [ cluster_index ] ;
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assert ( cluster_indices . size ( ) ) ;
for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
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basisu : : vector < color_rgba > cluster_pixels ( 8 ) ;
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const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
const bool flipped = true ;
const color_rgba * pSource_block_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
for ( uint32_t pixel_index = 0 ; pixel_index < 8 ; pixel_index + + )
{
cluster_pixels [ pixel_index ] = pSource_block_pixels [ g_etc1_pixel_indices [ flipped ] [ subblock_index ] [ pixel_index ] ] ;
}
const endpoint_cluster_etc_params & etc_params = m_endpoint_cluster_etc_params [ cluster_index ] ;
assert ( etc_params . m_valid ) ;
color_rgba block_colors [ 4 ] ;
etc_block : : get_block_colors5 ( block_colors , etc_params . m_color_unscaled [ 0 ] , etc_params . m_inten_table [ 0 ] , true ) ;
uint64_t total_err = 0 ;
for ( uint32_t i = 0 ; i < 8 ; i + + )
{
const color_rgba & c = cluster_pixels [ i ] ;
uint64_t best_err = UINT64_MAX ;
//uint32_t best_index = 0;
for ( uint32_t s = 0 ; s < 4 ; s + + )
{
uint64_t err = color_distance ( m_params . m_perceptual , c , block_colors [ s ] , false ) ;
if ( err < best_err )
{
best_err = err ;
//best_index = s;
}
}
total_err + = best_err ;
}
subblock_endpoint_quant_err quant_err ;
quant_err . m_total_err = total_err ;
quant_err . m_cluster_index = cluster_index ;
quant_err . m_cluster_subblock_index = cluster_indices_iter ;
quant_err . m_block_index = block_index ;
quant_err . m_subblock_index = subblock_index ;
{
std : : lock_guard < std : : mutex > lock ( m_lock ) ;
m_subblock_endpoint_quant_err_vec . push_back ( quant_err ) ;
}
}
} // cluster_index
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // cluster_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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vector_sort ( m_subblock_endpoint_quant_err_vec ) ;
}
void basisu_frontend : : introduce_new_endpoint_clusters ( )
{
debug_printf ( " introduce_new_endpoint_clusters \n " ) ;
generate_block_endpoint_clusters ( ) ;
int num_new_endpoint_clusters = m_params . m_max_endpoint_clusters - ( uint32_t ) m_endpoint_clusters . size ( ) ;
if ( num_new_endpoint_clusters < = 0 )
return ;
compute_endpoint_subblock_error_vec ( ) ;
const uint32_t num_orig_endpoint_clusters = ( uint32_t ) m_endpoint_clusters . size ( ) ;
std : : unordered_set < uint32_t > training_vector_was_relocated ;
uint_vec cluster_sizes ( num_orig_endpoint_clusters ) ;
for ( uint32_t i = 0 ; i < num_orig_endpoint_clusters ; i + + )
cluster_sizes [ i ] = ( uint32_t ) m_endpoint_clusters [ i ] . size ( ) ;
std : : unordered_set < uint32_t > ignore_cluster ;
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uint32_t total_new_clusters = 0 ;
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while ( num_new_endpoint_clusters )
{
if ( m_subblock_endpoint_quant_err_vec . size ( ) = = 0 )
break ;
subblock_endpoint_quant_err subblock_to_move ( m_subblock_endpoint_quant_err_vec . back ( ) ) ;
m_subblock_endpoint_quant_err_vec . pop_back ( ) ;
if ( unordered_set_contains ( ignore_cluster , subblock_to_move . m_cluster_index ) )
continue ;
uint32_t training_vector_index = subblock_to_move . m_block_index * 2 + subblock_to_move . m_subblock_index ;
if ( cluster_sizes [ subblock_to_move . m_cluster_index ] < = 2 )
continue ;
if ( unordered_set_contains ( training_vector_was_relocated , training_vector_index ) )
continue ;
if ( unordered_set_contains ( training_vector_was_relocated , training_vector_index ^ 1 ) )
continue ;
#if 0
const uint32_t block_index = subblock_to_move . m_block_index ;
const etc_block & blk = m_etc1_blocks_etc1s [ block_index ] ;
uint32_t ls , hs ;
blk . get_selector_range ( ls , hs ) ;
if ( ls ! = hs )
continue ;
# endif
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//const uint32_t new_endpoint_cluster_index = (uint32_t)m_endpoint_clusters.size();
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enlarge_vector ( m_endpoint_clusters , 1 ) - > push_back ( training_vector_index ) ;
enlarge_vector ( m_endpoint_cluster_etc_params , 1 ) ;
assert ( m_endpoint_clusters . size ( ) = = m_endpoint_cluster_etc_params . size ( ) ) ;
training_vector_was_relocated . insert ( training_vector_index ) ;
m_endpoint_clusters . back ( ) . push_back ( training_vector_index ^ 1 ) ;
training_vector_was_relocated . insert ( training_vector_index ^ 1 ) ;
BASISU_FRONTEND_VERIFY ( cluster_sizes [ subblock_to_move . m_cluster_index ] > = 2 ) ;
cluster_sizes [ subblock_to_move . m_cluster_index ] - = 2 ;
ignore_cluster . insert ( subblock_to_move . m_cluster_index ) ;
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total_new_clusters + + ;
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num_new_endpoint_clusters - - ;
}
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debug_printf ( " Introduced %i new endpoint clusters \n " , total_new_clusters ) ;
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for ( uint32_t i = 0 ; i < num_orig_endpoint_clusters ; i + + )
{
uint_vec & cluster_indices = m_endpoint_clusters [ i ] ;
uint_vec new_cluster_indices ;
for ( uint32_t j = 0 ; j < cluster_indices . size ( ) ; j + + )
{
uint32_t training_vector_index = cluster_indices [ j ] ;
if ( ! unordered_set_contains ( training_vector_was_relocated , training_vector_index ) )
new_cluster_indices . push_back ( training_vector_index ) ;
}
if ( cluster_indices . size ( ) ! = new_cluster_indices . size ( ) )
{
BASISU_FRONTEND_VERIFY ( new_cluster_indices . size ( ) > 0 ) ;
cluster_indices . swap ( new_cluster_indices ) ;
}
}
generate_block_endpoint_clusters ( ) ;
}
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struct color_rgba_hasher
{
inline std : : size_t operator ( ) ( const color_rgba & k ) const
{
uint32_t v = * ( const uint32_t * ) & k ;
//return bitmix32(v);
//v ^= (v << 10);
//v ^= (v >> 12);
return v ;
}
} ;
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// Given each endpoint cluster, gather all the block pixels which are in that cluster and compute optimized ETC1S endpoints for them.
// TODO: Don't optimize endpoint clusters which haven't changed.
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// If step>=1, we check to ensure the new endpoint values actually decrease quantization error.
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void basisu_frontend : : generate_endpoint_codebook ( uint32_t step )
{
debug_printf ( " generate_endpoint_codebook \n " ) ;
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interval_timer tm ;
tm . start ( ) ;
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m_endpoint_cluster_etc_params . resize ( m_endpoint_clusters . size ( ) ) ;
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bool use_cpu = true ;
// TODO: Get this working when step>0
if ( m_params . m_pOpenCL_context & & ! step )
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{
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const uint32_t total_clusters = m_endpoint_clusters . size ( ) ;
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basisu : : vector < cl_pixel_cluster > pixel_clusters ( total_clusters ) ;
std : : vector < color_rgba > input_pixels ;
input_pixels . reserve ( m_total_blocks * 16 ) ;
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std : : vector < uint32_t > pixel_weights ;
pixel_weights . reserve ( m_total_blocks * 16 ) ;
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uint_vec cluster_sizes ( total_clusters ) ;
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//typedef basisu::hash_map<color_rgba, uint32_t, color_rgba_hasher> color_hasher_type;
//color_hasher_type color_hasher;
//color_hasher.reserve(2048);
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interval_timer hash_tm ;
hash_tm . start ( ) ;
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basisu : : vector < uint32_t > colors , colors2 ;
colors . reserve ( 65536 ) ;
colors2 . reserve ( 65536 ) ;
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for ( uint32_t cluster_index = 0 ; cluster_index < m_endpoint_clusters . size ( ) ; cluster_index + + )
{
const basisu : : vector < uint32_t > & cluster_indices = m_endpoint_clusters [ cluster_index ] ;
assert ( ( cluster_indices . size ( ) & 1 ) = = 0 ) ;
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#if 0
uint64_t first_pixel_index = input_pixels . size ( ) ;
const uint32_t total_pixels = 16 * ( cluster_indices . size ( ) / 2 ) ;
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input_pixels . resize ( input_pixels . size ( ) + total_pixels ) ;
pixel_weights . resize ( pixel_weights . size ( ) + total_pixels ) ;
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uint64_t dst_ofs = first_pixel_index ;
uint64_t total_r = 0 , total_g = 0 , total_b = 0 ;
for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
if ( subblock_index )
continue ;
const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const color_rgba * pBlock_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
for ( uint32_t i = 0 ; i < 16 ; i + + )
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{
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input_pixels [ dst_ofs ] = pBlock_pixels [ i ] ;
pixel_weights [ dst_ofs ] = 1 ;
dst_ofs + + ;
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total_r + = pBlock_pixels [ i ] . r ;
total_g + = pBlock_pixels [ i ] . g ;
total_b + = pBlock_pixels [ i ] . b ;
}
}
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//printf("%i %f %f %f\n", cluster_index, total_r / (float)total_pixels, total_g / (float)total_pixels, total_b / (float)total_pixels);
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pixel_clusters [ cluster_index ] . m_first_pixel_index = first_pixel_index ;
pixel_clusters [ cluster_index ] . m_total_pixels = total_pixels ;
cluster_sizes [ cluster_index ] = total_pixels ;
# elif 1
colors . resize ( cluster_indices . size ( ) * 8 ) ;
colors2 . resize ( cluster_indices . size ( ) * 8 ) ;
uint32_t dst_ofs = 0 ;
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for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
if ( subblock_index )
continue ;
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const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const color_rgba * pBlock_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
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memcpy ( colors . data ( ) + dst_ofs , pBlock_pixels , sizeof ( color_rgba ) * 16 ) ;
dst_ofs + = 16 ;
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} // cluster_indices_iter
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uint32_t * pSorted = radix_sort ( colors . size ( ) , colors . data ( ) , colors2 . data ( ) , 0 , 3 ) ;
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const uint64_t first_pixel_index = input_pixels . size ( ) ;
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uint32_t prev_color = 0 , cur_weight = 0 ;
for ( uint32_t i = 0 ; i < colors . size ( ) ; i + + )
{
uint32_t cur_color = pSorted [ i ] ;
if ( cur_color = = prev_color )
{
if ( + + cur_weight = = 0 )
cur_weight - - ;
}
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else
{
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if ( cur_weight )
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{
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input_pixels . push_back ( * ( const color_rgba * ) & prev_color ) ;
pixel_weights . push_back ( cur_weight ) ;
}
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prev_color = cur_color ;
cur_weight = 1 ;
}
}
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if ( cur_weight )
{
input_pixels . push_back ( * ( const color_rgba * ) & prev_color ) ;
pixel_weights . push_back ( cur_weight ) ;
}
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uint32_t total_unique_pixels = ( uint32_t ) ( input_pixels . size ( ) - first_pixel_index ) ;
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pixel_clusters [ cluster_index ] . m_first_pixel_index = first_pixel_index ;
pixel_clusters [ cluster_index ] . m_total_pixels = total_unique_pixels ;
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cluster_sizes [ cluster_index ] = total_unique_pixels ;
# else
color_hasher . reset ( ) ;
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for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
if ( subblock_index )
continue ;
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const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const color_rgba * pBlock_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
uint32_t * pPrev_weight = nullptr ;
color_rgba prev_color ;
{
color_rgba cur_color = pBlock_pixels [ 0 ] ;
auto res = color_hasher . insert ( cur_color , 0 ) ;
uint32_t & weight = ( res . first ) - > second ;
if ( weight ! = UINT32_MAX )
weight + + ;
prev_color = cur_color ;
pPrev_weight = & ( res . first ) - > second ;
}
for ( uint32_t i = 1 ; i < 16 ; i + + )
{
color_rgba cur_color = pBlock_pixels [ i ] ;
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if ( cur_color = = prev_color )
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{
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if ( * pPrev_weight ! = UINT32_MAX )
* pPrev_weight = * pPrev_weight + 1 ;
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}
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else
{
auto res = color_hasher . insert ( cur_color , 0 ) ;
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uint32_t & weight = ( res . first ) - > second ;
if ( weight ! = UINT32_MAX )
weight + + ;
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prev_color = cur_color ;
pPrev_weight = & ( res . first ) - > second ;
}
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}
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} // cluster_indices_iter
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const uint64_t first_pixel_index = input_pixels . size ( ) ;
uint32_t total_unique_pixels = color_hasher . size ( ) ;
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pixel_clusters [ cluster_index ] . m_first_pixel_index = first_pixel_index ;
pixel_clusters [ cluster_index ] . m_total_pixels = total_unique_pixels ;
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input_pixels . resize ( first_pixel_index + total_unique_pixels ) ;
pixel_weights . resize ( first_pixel_index + total_unique_pixels ) ;
uint32_t j = 0 ;
for ( auto it = color_hasher . begin ( ) ; it ! = color_hasher . end ( ) ; + + it , + + j )
{
input_pixels [ first_pixel_index + j ] = it - > first ;
pixel_weights [ first_pixel_index + j ] = it - > second ;
}
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cluster_sizes [ cluster_index ] = total_unique_pixels ;
# endif
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} // cluster_index
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debug_printf ( " Total hash time: %3.3f secs \n " , hash_tm . get_elapsed_secs ( ) ) ;
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debug_printf ( " Total unique colors: %llu \n " , input_pixels . size ( ) ) ;
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uint_vec sorted_cluster_indices_new_to_old ( total_clusters ) ;
indirect_sort ( total_clusters , sorted_cluster_indices_new_to_old . data ( ) , cluster_sizes . data ( ) ) ;
//for (uint32_t i = 0; i < total_clusters; i++)
// sorted_cluster_indices_new_to_old[i] = i;
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uint_vec sorted_cluster_indices_old_to_new ( total_clusters ) ;
for ( uint32_t i = 0 ; i < total_clusters ; i + + )
sorted_cluster_indices_old_to_new [ sorted_cluster_indices_new_to_old [ i ] ] = i ;
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basisu : : vector < cl_pixel_cluster > sorted_pixel_clusters ( total_clusters ) ;
for ( uint32_t i = 0 ; i < total_clusters ; i + + )
sorted_pixel_clusters [ i ] = pixel_clusters [ sorted_cluster_indices_new_to_old [ i ] ] ;
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uint32_t total_perms = 64 ;
if ( m_params . m_compression_level < = 1 )
total_perms = 16 ;
else if ( m_params . m_compression_level = = BASISU_MAX_COMPRESSION_LEVEL )
total_perms = OPENCL_ENCODE_ETC1S_MAX_PERMS ;
basisu : : vector < etc_block > output_blocks ( total_clusters ) ;
if ( opencl_encode_etc1s_pixel_clusters (
m_params . m_pOpenCL_context ,
output_blocks . data ( ) ,
total_clusters ,
sorted_pixel_clusters . data ( ) ,
input_pixels . size ( ) ,
input_pixels . data ( ) ,
pixel_weights . data ( ) ,
m_params . m_perceptual , total_perms ) )
{
for ( uint32_t old_cluster_index = 0 ; old_cluster_index < m_endpoint_clusters . size ( ) ; old_cluster_index + + )
{
const uint32_t new_cluster_index = sorted_cluster_indices_old_to_new [ old_cluster_index ] ;
const etc_block & blk = output_blocks [ new_cluster_index ] ;
endpoint_cluster_etc_params & prev_etc_params = m_endpoint_cluster_etc_params [ old_cluster_index ] ;
prev_etc_params . m_valid = true ;
etc_block : : unpack_color5 ( prev_etc_params . m_color_unscaled [ 0 ] , blk . get_base5_color ( ) , false ) ;
prev_etc_params . m_inten_table [ 0 ] = blk . get_inten_table ( 0 ) ;
prev_etc_params . m_color_error [ 0 ] = 0 ; // dummy value - we don't actually use this
}
use_cpu = false ;
}
else
{
error_printf ( " basisu_frontend::generate_endpoint_codebook: opencl_encode_etc1s_pixel_clusters() failed! Using CPU. \n " ) ;
m_params . m_pOpenCL_context = nullptr ;
m_opencl_failed = true ;
}
} // if (opencl_is_available() && m_params.m_use_opencl)
if ( use_cpu )
{
const uint32_t N = 128 ;
for ( uint32_t cluster_index_iter = 0 ; cluster_index_iter < m_endpoint_clusters . size ( ) ; cluster_index_iter + = N )
{
const uint32_t first_index = cluster_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( ( uint32_t ) m_endpoint_clusters . size ( ) , cluster_index_iter + N ) ;
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , step ] {
# endif
for ( uint32_t cluster_index = first_index ; cluster_index < last_index ; cluster_index + + )
{
const basisu : : vector < uint32_t > & cluster_indices = m_endpoint_clusters [ cluster_index ] ;
BASISU_FRONTEND_VERIFY ( cluster_indices . size ( ) ) ;
const uint32_t total_pixels = ( uint32_t ) cluster_indices . size ( ) * 8 ;
basisu : : vector < color_rgba > cluster_pixels ( total_pixels ) ;
for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
const bool flipped = true ;
const color_rgba * pBlock_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
for ( uint32_t pixel_index = 0 ; pixel_index < 8 ; pixel_index + + )
{
const color_rgba & c = pBlock_pixels [ g_etc1_pixel_indices [ flipped ] [ subblock_index ] [ pixel_index ] ] ;
cluster_pixels [ cluster_indices_iter * 8 + pixel_index ] = c ;
}
}
endpoint_cluster_etc_params new_subblock_params ;
{
etc1_optimizer optimizer ;
etc1_solution_coordinates solutions [ 2 ] ;
etc1_optimizer : : params cluster_optimizer_params ;
cluster_optimizer_params . m_num_src_pixels = total_pixels ;
cluster_optimizer_params . m_pSrc_pixels = & cluster_pixels [ 0 ] ;
cluster_optimizer_params . m_use_color4 = false ;
cluster_optimizer_params . m_perceptual = m_params . m_perceptual ;
if ( m_params . m_compression_level < = 1 )
cluster_optimizer_params . m_quality = cETCQualityMedium ;
else if ( m_params . m_compression_level = = BASISU_MAX_COMPRESSION_LEVEL )
cluster_optimizer_params . m_quality = cETCQualityUber ;
etc1_optimizer : : results cluster_optimizer_results ;
basisu : : vector < uint8_t > cluster_selectors ( total_pixels ) ;
cluster_optimizer_results . m_n = total_pixels ;
cluster_optimizer_results . m_pSelectors = & cluster_selectors [ 0 ] ;
optimizer . init ( cluster_optimizer_params , cluster_optimizer_results ) ;
if ( ! optimizer . compute ( ) )
BASISU_FRONTEND_VERIFY ( false ) ;
new_subblock_params . m_color_unscaled [ 0 ] = cluster_optimizer_results . m_block_color_unscaled ;
new_subblock_params . m_inten_table [ 0 ] = cluster_optimizer_results . m_block_inten_table ;
new_subblock_params . m_color_error [ 0 ] = cluster_optimizer_results . m_error ;
}
endpoint_cluster_etc_params & prev_etc_params = m_endpoint_cluster_etc_params [ cluster_index ] ;
bool use_new_subblock_params = false ;
if ( ( ! step ) | | ( ! prev_etc_params . m_valid ) )
use_new_subblock_params = true ;
else
{
assert ( prev_etc_params . m_valid ) ;
uint64_t total_prev_err = 0 ;
{
color_rgba block_colors [ 4 ] ;
etc_block : : get_block_colors5 ( block_colors , prev_etc_params . m_color_unscaled [ 0 ] , prev_etc_params . m_inten_table [ 0 ] , false ) ;
uint64_t total_err = 0 ;
for ( uint32_t i = 0 ; i < total_pixels ; i + + )
{
const color_rgba & c = cluster_pixels [ i ] ;
uint64_t best_err = UINT64_MAX ;
//uint32_t best_index = 0;
for ( uint32_t s = 0 ; s < 4 ; s + + )
{
uint64_t err = color_distance ( m_params . m_perceptual , c , block_colors [ s ] , false ) ;
if ( err < best_err )
{
best_err = err ;
//best_index = s;
}
}
total_err + = best_err ;
}
total_prev_err + = total_err ;
}
// See if we should update this cluster's endpoints (if the error has actually fallen)
if ( total_prev_err > new_subblock_params . m_color_error [ 0 ] )
{
use_new_subblock_params = true ;
}
}
if ( use_new_subblock_params )
{
new_subblock_params . m_valid = true ;
prev_etc_params = new_subblock_params ;
}
} // cluster_index
# ifndef __EMSCRIPTEN__
} ) ;
# endif
} // cluster_index_iter
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > wait_for_all ( ) ;
# endif
}
debug_printf ( " Elapsed time: %3.3f secs \n " , tm . get_elapsed_secs ( ) ) ;
}
bool basisu_frontend : : check_etc1s_constraints ( ) const
{
basisu : : vector < vec2U > block_clusters ( m_total_blocks ) ;
for ( int cluster_index = 0 ; cluster_index < static_cast < int > ( m_endpoint_clusters . size ( ) ) ; cluster_index + + )
{
const basisu : : vector < uint32_t > & cluster_indices = m_endpoint_clusters [ cluster_index ] ;
for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
block_clusters [ block_index ] [ subblock_index ] = cluster_index ;
} // cluster_indices_iter
}
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
{
if ( block_clusters [ i ] [ 0 ] ! = block_clusters [ i ] [ 1 ] )
return false ;
}
return true ;
}
// For each block, determine which ETC1S endpoint cluster can encode that block with lowest error.
// This reassigns blocks to different endpoint clusters.
uint32_t basisu_frontend : : refine_endpoint_clusterization ( )
{
debug_printf ( " refine_endpoint_clusterization \n " ) ;
if ( m_use_hierarchical_endpoint_codebooks )
compute_endpoint_clusters_within_each_parent_cluster ( ) ;
// Note: It's possible that an endpoint cluster may live in more than one parent cluster after the first refinement step.
basisu : : vector < vec2U > block_clusters ( m_total_blocks ) ;
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for ( int cluster_index = 0 ; cluster_index < static_cast < int > ( m_endpoint_clusters . size ( ) ) ; cluster_index + + )
{
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const basisu : : vector < uint32_t > & cluster_indices = m_endpoint_clusters [ cluster_index ] ;
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for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t block_index = cluster_indices [ cluster_indices_iter ] > > 1 ;
const uint32_t subblock_index = cluster_indices [ cluster_indices_iter ] & 1 ;
block_clusters [ block_index ] [ subblock_index ] = cluster_index ;
} // cluster_indices_iter
}
//----------------------------------------------------------
// Create a new endpoint clusterization
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interval_timer tm ;
tm . start ( ) ;
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uint_vec best_cluster_indices ( m_total_blocks ) ;
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bool use_cpu = true ;
// TODO: Support non-hierarchical endpoint codebooks here
if ( m_params . m_pOpenCL_context & & m_use_hierarchical_endpoint_codebooks )
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{
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// For the OpenCL kernel, we order the parent endpoint clusters by smallest to largest for efficiency.
// We also prepare an array of block info structs that point into this new parent endpoint cluster array.
const uint32_t total_parent_clusters = m_endpoint_clusters_within_each_parent_cluster . size ( ) ;
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basisu : : vector < cl_block_info_struct > cl_block_info_structs ( m_total_blocks ) ;
// the size of each parent cluster, in total clusters
uint_vec parent_cluster_sizes ( total_parent_clusters ) ;
for ( uint32_t i = 0 ; i < total_parent_clusters ; i + + )
parent_cluster_sizes [ i ] = m_endpoint_clusters_within_each_parent_cluster [ i ] . size ( ) ;
uint_vec first_parent_cluster_ofs ( total_parent_clusters ) ;
uint32_t cur_ofs = 0 ;
for ( uint32_t i = 0 ; i < total_parent_clusters ; i + + )
{
first_parent_cluster_ofs [ i ] = cur_ofs ;
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cur_ofs + = parent_cluster_sizes [ i ] ;
}
// Note: total_actual_endpoint_clusters is not necessarly equal to m_endpoint_clusters.size(), because clusters may live in multiple parent clusters after the first refinement step.
BASISU_FRONTEND_VERIFY ( cur_ofs > = m_endpoint_clusters . size ( ) ) ;
const uint32_t total_actual_endpoint_clusters = cur_ofs ;
basisu : : vector < cl_endpoint_cluster_struct > cl_endpoint_cluster_structs ( total_actual_endpoint_clusters ) ;
for ( uint32_t i = 0 ; i < total_parent_clusters ; i + + )
{
const uint32_t dst_ofs = first_parent_cluster_ofs [ i ] ;
const uint32_t parent_cluster_size = parent_cluster_sizes [ i ] ;
assert ( m_endpoint_clusters_within_each_parent_cluster [ i ] . size ( ) = = parent_cluster_size ) ;
for ( uint32_t j = 0 ; j < parent_cluster_size ; j + + )
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{
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const uint32_t endpoint_cluster_index = m_endpoint_clusters_within_each_parent_cluster [ i ] [ j ] ;
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color_rgba cluster_etc_base_color ( m_endpoint_cluster_etc_params [ endpoint_cluster_index ] . m_color_unscaled [ 0 ] ) ;
uint32_t cluster_etc_inten = m_endpoint_cluster_etc_params [ endpoint_cluster_index ] . m_inten_table [ 0 ] ;
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cl_endpoint_cluster_structs [ dst_ofs + j ] . m_unscaled_color = cluster_etc_base_color ;
cl_endpoint_cluster_structs [ dst_ofs + j ] . m_etc_inten = ( uint8_t ) cluster_etc_inten ;
cl_endpoint_cluster_structs [ dst_ofs + j ] . m_cluster_index = ( uint16_t ) endpoint_cluster_index ;
}
}
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t block_parent_endpoint_cluster_index = m_block_parent_endpoint_cluster [ block_index ] ;
cl_block_info_structs [ block_index ] . m_num_clusters = ( uint16_t ) ( parent_cluster_sizes [ block_parent_endpoint_cluster_index ] ) ;
cl_block_info_structs [ block_index ] . m_first_cluster_ofs = ( uint16_t ) ( first_parent_cluster_ofs [ block_parent_endpoint_cluster_index ] ) ;
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const uint32_t block_cluster_index = block_clusters [ block_index ] [ 0 ] ;
cl_block_info_structs [ block_index ] . m_cur_cluster_index = ( uint16_t ) block_cluster_index ;
cl_block_info_structs [ block_index ] . m_cur_cluster_etc_inten = ( uint8_t ) m_endpoint_cluster_etc_params [ block_cluster_index ] . m_inten_table [ 0 ] ;
}
uint_vec block_cluster_indices ( m_total_blocks ) ;
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
block_cluster_indices [ i ] = block_clusters [ i ] [ 0 ] ;
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uint_vec sorted_block_indices ( m_total_blocks ) ;
indirect_sort ( m_total_blocks , sorted_block_indices . data ( ) , block_cluster_indices . data ( ) ) ;
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bool status = opencl_refine_endpoint_clusterization (
m_params . m_pOpenCL_context ,
cl_block_info_structs . data ( ) ,
total_actual_endpoint_clusters ,
cl_endpoint_cluster_structs . data ( ) ,
sorted_block_indices . data ( ) ,
best_cluster_indices . data ( ) ,
m_params . m_perceptual ) ;
if ( status )
{
use_cpu = false ;
}
else
{
error_printf ( " basisu_frontend::refine_endpoint_clusterization: opencl_refine_endpoint_clusterization() failed! Using CPU. \n " ) ;
m_params . m_pOpenCL_context = nullptr ;
m_opencl_failed = true ;
}
}
if ( use_cpu )
{
const uint32_t N = 1024 ;
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , & best_cluster_indices , & block_clusters ] {
# endif
for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
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{
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const uint32_t cluster_index = block_clusters [ block_index ] [ 0 ] ;
BASISU_FRONTEND_VERIFY ( cluster_index = = block_clusters [ block_index ] [ 1 ] ) ;
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const color_rgba * pSubblock_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
const uint32_t num_subblock_pixels = 16 ;
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uint64_t best_cluster_err = INT64_MAX ;
uint32_t best_cluster_index = 0 ;
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const uint32_t block_parent_endpoint_cluster_index = m_block_parent_endpoint_cluster . size ( ) ? m_block_parent_endpoint_cluster [ block_index ] : 0 ;
const uint_vec * pCluster_indices = m_endpoint_clusters_within_each_parent_cluster . size ( ) ? & m_endpoint_clusters_within_each_parent_cluster [ block_parent_endpoint_cluster_index ] : nullptr ;
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const uint32_t total_clusters = m_use_hierarchical_endpoint_codebooks ? ( uint32_t ) pCluster_indices - > size ( ) : ( uint32_t ) m_endpoint_clusters . size ( ) ;
for ( uint32_t i = 0 ; i < total_clusters ; i + + )
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{
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const uint32_t cluster_iter = m_use_hierarchical_endpoint_codebooks ? ( * pCluster_indices ) [ i ] : i ;
color_rgba cluster_etc_base_color ( m_endpoint_cluster_etc_params [ cluster_iter ] . m_color_unscaled [ 0 ] ) ;
uint32_t cluster_etc_inten = m_endpoint_cluster_etc_params [ cluster_iter ] . m_inten_table [ 0 ] ;
uint64_t total_err = 0 ;
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const uint32_t low_selector = 0 ; //subblock_etc_params_vec[j].m_low_selectors[0];
const uint32_t high_selector = 3 ; //subblock_etc_params_vec[j].m_high_selectors[0];
color_rgba subblock_colors [ 4 ] ;
// Can't assign it here - may result in too much error when selector quant occurs
if ( cluster_etc_inten > m_endpoint_cluster_etc_params [ cluster_index ] . m_inten_table [ 0 ] )
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{
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total_err = INT64_MAX ;
goto skip_cluster ;
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}
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etc_block : : get_block_colors5 ( subblock_colors , cluster_etc_base_color , cluster_etc_inten ) ;
#if 0
for ( uint32_t p = 0 ; p < num_subblock_pixels ; p + + )
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{
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uint64_t best_err = UINT64_MAX ;
for ( uint32_t r = low_selector ; r < = high_selector ; r + + )
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{
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uint64_t err = color_distance ( m_params . m_perceptual , pSubblock_pixels [ p ] , subblock_colors [ r ] , false ) ;
best_err = minimum ( best_err , err ) ;
if ( ! best_err )
break ;
}
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total_err + = best_err ;
if ( total_err > best_cluster_err )
break ;
} // p
# else
if ( m_params . m_perceptual )
{
if ( ! g_cpu_supports_sse41 )
{
for ( uint32_t p = 0 ; p < num_subblock_pixels ; p + + )
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{
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uint64_t best_err = UINT64_MAX ;
for ( uint32_t r = low_selector ; r < = high_selector ; r + + )
{
uint64_t err = color_distance ( true , pSubblock_pixels [ p ] , subblock_colors [ r ] , false ) ;
best_err = minimum ( best_err , err ) ;
if ( ! best_err )
break ;
}
total_err + = best_err ;
if ( total_err > best_cluster_err )
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break ;
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} // p
}
else
{
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# if BASISU_SUPPORT_SSE
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find_lowest_error_perceptual_rgb_4_N_sse41 ( ( int64_t * ) & total_err , subblock_colors , pSubblock_pixels , num_subblock_pixels , best_cluster_err ) ;
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# endif
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}
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}
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else
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{
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if ( ! g_cpu_supports_sse41 )
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{
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for ( uint32_t p = 0 ; p < num_subblock_pixels ; p + + )
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{
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uint64_t best_err = UINT64_MAX ;
for ( uint32_t r = low_selector ; r < = high_selector ; r + + )
{
uint64_t err = color_distance ( false , pSubblock_pixels [ p ] , subblock_colors [ r ] , false ) ;
best_err = minimum ( best_err , err ) ;
if ( ! best_err )
break ;
}
total_err + = best_err ;
if ( total_err > best_cluster_err )
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break ;
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} // p
}
else
{
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# if BASISU_SUPPORT_SSE
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find_lowest_error_linear_rgb_4_N_sse41 ( ( int64_t * ) & total_err , subblock_colors , pSubblock_pixels , num_subblock_pixels , best_cluster_err ) ;
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# endif
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}
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}
# endif
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skip_cluster :
if ( ( total_err < best_cluster_err ) | |
( ( cluster_iter = = cluster_index ) & & ( total_err = = best_cluster_err ) ) )
{
best_cluster_err = total_err ;
best_cluster_index = cluster_iter ;
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if ( ! best_cluster_err )
break ;
}
} // j
best_cluster_indices [ block_index ] = best_cluster_index ;
} // block_index
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // block_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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} // use_cpu
debug_printf ( " refine_endpoint_clusterization time: %3.3f secs \n " , tm . get_elapsed_secs ( ) ) ;
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basisu : : vector < typename basisu : : vector < uint32_t > > optimized_endpoint_clusters ( m_endpoint_clusters . size ( ) ) ;
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uint32_t total_subblocks_reassigned = 0 ;
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t training_vector_index = block_index * 2 + 0 ;
const uint32_t orig_cluster_index = block_clusters [ block_index ] [ 0 ] ;
const uint32_t best_cluster_index = best_cluster_indices [ block_index ] ;
optimized_endpoint_clusters [ best_cluster_index ] . push_back ( training_vector_index ) ;
optimized_endpoint_clusters [ best_cluster_index ] . push_back ( training_vector_index + 1 ) ;
if ( best_cluster_index ! = orig_cluster_index )
{
total_subblocks_reassigned + + ;
}
}
debug_printf ( " total_subblocks_reassigned: %u \n " , total_subblocks_reassigned ) ;
m_endpoint_clusters = optimized_endpoint_clusters ;
return total_subblocks_reassigned ;
}
void basisu_frontend : : eliminate_redundant_or_empty_endpoint_clusters ( )
{
debug_printf ( " eliminate_redundant_or_empty_endpoint_clusters \n " ) ;
// Step 1: Sort endpoint clusters by the base colors/intens
uint_vec sorted_endpoint_cluster_indices ( m_endpoint_clusters . size ( ) ) ;
for ( uint32_t i = 0 ; i < m_endpoint_clusters . size ( ) ; i + + )
sorted_endpoint_cluster_indices [ i ] = i ;
indirect_sort ( ( uint32_t ) m_endpoint_clusters . size ( ) , & sorted_endpoint_cluster_indices [ 0 ] , & m_endpoint_cluster_etc_params [ 0 ] ) ;
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basisu : : vector < basisu : : vector < uint32_t > > new_endpoint_clusters ( m_endpoint_clusters . size ( ) ) ;
basisu : : vector < endpoint_cluster_etc_params > new_subblock_etc_params ( m_endpoint_clusters . size ( ) ) ;
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for ( uint32_t i = 0 ; i < m_endpoint_clusters . size ( ) ; i + + )
{
uint32_t j = sorted_endpoint_cluster_indices [ i ] ;
new_endpoint_clusters [ i ] = m_endpoint_clusters [ j ] ;
new_subblock_etc_params [ i ] = m_endpoint_cluster_etc_params [ j ] ;
}
new_endpoint_clusters . swap ( m_endpoint_clusters ) ;
new_subblock_etc_params . swap ( m_endpoint_cluster_etc_params ) ;
// Step 2: Eliminate redundant endpoint clusters, or empty endpoint clusters
new_endpoint_clusters . resize ( 0 ) ;
new_subblock_etc_params . resize ( 0 ) ;
for ( int i = 0 ; i < ( int ) m_endpoint_clusters . size ( ) ; )
{
if ( ! m_endpoint_clusters [ i ] . size ( ) )
{
i + + ;
continue ;
}
int j ;
for ( j = i + 1 ; j < ( int ) m_endpoint_clusters . size ( ) ; j + + )
{
if ( ! ( m_endpoint_cluster_etc_params [ i ] = = m_endpoint_cluster_etc_params [ j ] ) )
break ;
}
new_endpoint_clusters . push_back ( m_endpoint_clusters [ i ] ) ;
new_subblock_etc_params . push_back ( m_endpoint_cluster_etc_params [ i ] ) ;
for ( int k = i + 1 ; k < j ; k + + )
{
append_vector ( new_endpoint_clusters . back ( ) , m_endpoint_clusters [ k ] ) ;
}
i = j ;
}
if ( m_endpoint_clusters . size ( ) ! = new_endpoint_clusters . size ( ) )
{
if ( m_params . m_debug_stats )
debug_printf ( " Eliminated %u redundant or empty clusters \n " , ( uint32_t ) ( m_endpoint_clusters . size ( ) - new_endpoint_clusters . size ( ) ) ) ;
m_endpoint_clusters . swap ( new_endpoint_clusters ) ;
m_endpoint_cluster_etc_params . swap ( new_subblock_etc_params ) ;
}
}
void basisu_frontend : : create_initial_packed_texture ( )
{
debug_printf ( " create_initial_packed_texture \n " ) ;
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interval_timer tm ;
tm . start ( ) ;
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bool use_cpu = true ;
if ( ( m_params . m_pOpenCL_context ) & & ( opencl_is_available ( ) ) )
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{
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basisu : : vector < color_rgba > block_etc5_color_intens ( m_total_blocks ) ;
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
uint32_t cluster0 = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
const color_rgba & color_unscaled = m_endpoint_cluster_etc_params [ cluster0 ] . m_color_unscaled [ 0 ] ;
uint32_t inten = m_endpoint_cluster_etc_params [ cluster0 ] . m_inten_table [ 0 ] ;
block_etc5_color_intens [ block_index ] . set ( color_unscaled . r , color_unscaled . g , color_unscaled . b , inten ) ;
}
bool status = opencl_determine_selectors ( m_params . m_pOpenCL_context , block_etc5_color_intens . data ( ) ,
m_encoded_blocks . data ( ) ,
m_params . m_perceptual ) ;
if ( ! status )
{
error_printf ( " basisu_frontend::create_initial_packed_texture: opencl_determine_selectors() failed! Using CPU. \n " ) ;
m_params . m_pOpenCL_context = nullptr ;
m_opencl_failed = true ;
}
else
{
use_cpu = false ;
}
}
if ( use_cpu )
{
const uint32_t N = 4096 ;
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index ] {
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# endif
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for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
uint32_t cluster0 = m_block_endpoint_clusters_indices [ block_index ] [ 0 ] ;
uint32_t cluster1 = m_block_endpoint_clusters_indices [ block_index ] [ 1 ] ;
BASISU_FRONTEND_VERIFY ( cluster0 = = cluster1 ) ;
const color_rgba * pSource_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
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etc_block & blk = m_encoded_blocks [ block_index ] ;
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color_rgba unscaled [ 2 ] = { m_endpoint_cluster_etc_params [ cluster0 ] . m_color_unscaled [ 0 ] , m_endpoint_cluster_etc_params [ cluster1 ] . m_color_unscaled [ 0 ] } ;
uint32_t inten [ 2 ] = { m_endpoint_cluster_etc_params [ cluster0 ] . m_inten_table [ 0 ] , m_endpoint_cluster_etc_params [ cluster1 ] . m_inten_table [ 0 ] } ;
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blk . set_block_color5 ( unscaled [ 0 ] , unscaled [ 1 ] ) ;
blk . set_flip_bit ( true ) ;
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blk . set_inten_table ( 0 , inten [ 0 ] ) ;
blk . set_inten_table ( 1 , inten [ 1 ] ) ;
blk . determine_selectors ( pSource_pixels , m_params . m_perceptual ) ;
} // block_index
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // block_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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} // use_cpu
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m_orig_encoded_blocks = m_encoded_blocks ;
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debug_printf ( " Elapsed time: %3.3f secs \n " , tm . get_elapsed_secs ( ) ) ;
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}
void basisu_frontend : : compute_selector_clusters_within_each_parent_cluster ( )
{
uint_vec block_selector_cluster_indices ( m_total_blocks ) ;
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for ( int cluster_index = 0 ; cluster_index < static_cast < int > ( m_selector_cluster_block_indices . size ( ) ) ; cluster_index + + )
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{
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const basisu : : vector < uint32_t > & cluster_indices = m_selector_cluster_block_indices [ cluster_index ] ;
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for ( uint32_t cluster_indices_iter = 0 ; cluster_indices_iter < cluster_indices . size ( ) ; cluster_indices_iter + + )
{
const uint32_t block_index = cluster_indices [ cluster_indices_iter ] ;
block_selector_cluster_indices [ block_index ] = cluster_index ;
} // cluster_indices_iter
} // cluster_index
m_selector_clusters_within_each_parent_cluster . resize ( 0 ) ;
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m_selector_clusters_within_each_parent_cluster . resize ( m_selector_parent_cluster_block_indices . size ( ) ) ;
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for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t cluster_index = block_selector_cluster_indices [ block_index ] ;
const uint32_t parent_cluster_index = m_block_parent_selector_cluster [ block_index ] ;
m_selector_clusters_within_each_parent_cluster [ parent_cluster_index ] . push_back ( cluster_index ) ;
}
for ( uint32_t i = 0 ; i < m_selector_clusters_within_each_parent_cluster . size ( ) ; i + + )
{
uint_vec & cluster_indices = m_selector_clusters_within_each_parent_cluster [ i ] ;
BASISU_FRONTEND_VERIFY ( cluster_indices . size ( ) ) ;
vector_sort ( cluster_indices ) ;
auto last = std : : unique ( cluster_indices . begin ( ) , cluster_indices . end ( ) ) ;
cluster_indices . erase ( last , cluster_indices . end ( ) ) ;
}
}
void basisu_frontend : : generate_selector_clusters ( )
{
debug_printf ( " generate_selector_clusters \n " ) ;
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typedef tree_vector_quant < vec16F > vec16F_clusterizer ;
vec16F_clusterizer : : array_of_weighted_training_vecs training_vecs ( m_total_blocks ) ;
const uint32_t N = 4096 ;
for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , & training_vecs ] {
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# endif
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for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
const etc_block & blk = m_encoded_blocks [ block_index ] ;
vec16F v ;
for ( uint32_t y = 0 ; y < 4 ; y + + )
for ( uint32_t x = 0 ; x < 4 ; x + + )
v [ x + y * 4 ] = static_cast < float > ( blk . get_selector ( x , y ) ) ;
const uint32_t subblock_index = ( blk . get_inten_table ( 0 ) > blk . get_inten_table ( 1 ) ) ? 0 : 1 ;
color_rgba block_colors [ 2 ] ;
blk . get_block_low_high_colors ( block_colors , subblock_index ) ;
const uint32_t dist = color_distance ( m_params . m_perceptual , block_colors [ 0 ] , block_colors [ 1 ] , false ) ;
const uint32_t cColorDistToWeight = 300 ;
const uint32_t cMaxWeight = 4096 ;
uint32_t weight = clamp < uint32_t > ( dist / cColorDistToWeight , 1 , cMaxWeight ) ;
training_vecs [ block_index ] . first = v ;
training_vecs [ block_index ] . second = weight ;
} // block_index
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // block_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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vec16F_clusterizer selector_clusterizer ;
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
selector_clusterizer . add_training_vec ( training_vecs [ i ] . first , training_vecs [ i ] . second ) ;
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const int selector_parent_codebook_size = ( m_params . m_compression_level < = 1 ) ? BASISU_SELECTOR_PARENT_CODEBOOK_SIZE_COMP_LEVEL_01 : BASISU_SELECTOR_PARENT_CODEBOOK_SIZE_COMP_LEVEL_DEFAULT ;
const uint32_t parent_codebook_size = ( m_params . m_max_selector_clusters > = 256 ) ? selector_parent_codebook_size : 0 ;
debug_printf ( " Using selector parent codebook size %u \n " , parent_codebook_size ) ;
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uint32_t max_threads = 0 ;
max_threads = m_params . m_multithreaded ? minimum < int > ( std : : thread : : hardware_concurrency ( ) , cMaxCodebookCreationThreads ) : 0 ;
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if ( m_params . m_pJob_pool )
max_threads = minimum < int > ( ( int ) m_params . m_pJob_pool - > get_total_threads ( ) , max_threads ) ;
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bool status = generate_hierarchical_codebook_threaded ( selector_clusterizer ,
m_params . m_max_selector_clusters , m_use_hierarchical_selector_codebooks ? parent_codebook_size : 0 ,
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m_selector_cluster_block_indices ,
m_selector_parent_cluster_block_indices ,
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max_threads , m_params . m_pJob_pool , false ) ;
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BASISU_FRONTEND_VERIFY ( status ) ;
if ( m_use_hierarchical_selector_codebooks )
{
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if ( ! m_selector_parent_cluster_block_indices . size ( ) )
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{
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m_selector_parent_cluster_block_indices . resize ( 0 ) ;
m_selector_parent_cluster_block_indices . resize ( 1 ) ;
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for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
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m_selector_parent_cluster_block_indices [ 0 ] . push_back ( i ) ;
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}
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BASISU_ASSUME ( BASISU_SELECTOR_PARENT_CODEBOOK_SIZE_COMP_LEVEL_01 < = UINT8_MAX ) ;
BASISU_ASSUME ( BASISU_SELECTOR_PARENT_CODEBOOK_SIZE_COMP_LEVEL_DEFAULT < = UINT8_MAX ) ;
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m_block_parent_selector_cluster . resize ( 0 ) ;
m_block_parent_selector_cluster . resize ( m_total_blocks ) ;
vector_set_all ( m_block_parent_selector_cluster , 0xFF ) ;
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for ( uint32_t parent_cluster_index = 0 ; parent_cluster_index < m_selector_parent_cluster_block_indices . size ( ) ; parent_cluster_index + + )
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{
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const uint_vec & cluster = m_selector_parent_cluster_block_indices [ parent_cluster_index ] ;
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for ( uint32_t j = 0 ; j < cluster . size ( ) ; j + + )
m_block_parent_selector_cluster [ cluster [ j ] ] = static_cast < uint8_t > ( parent_cluster_index ) ;
}
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
{
BASISU_FRONTEND_VERIFY ( m_block_parent_selector_cluster [ i ] ! = 0xFF ) ;
}
// Ensure that all the blocks within each cluster are all in the same parent cluster, or something is very wrong.
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for ( uint32_t cluster_index = 0 ; cluster_index < m_selector_cluster_block_indices . size ( ) ; cluster_index + + )
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{
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const uint_vec & cluster = m_selector_cluster_block_indices [ cluster_index ] ;
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uint32_t parent_cluster_index = 0 ;
for ( uint32_t j = 0 ; j < cluster . size ( ) ; j + + )
{
const uint32_t block_index = cluster [ j ] ;
if ( ! j )
{
parent_cluster_index = m_block_parent_selector_cluster [ block_index ] ;
}
else
{
BASISU_FRONTEND_VERIFY ( m_block_parent_selector_cluster [ block_index ] = = parent_cluster_index ) ;
}
}
}
}
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debug_printf ( " Total selector clusters: %u, total parent selector clusters: %u \n " , ( uint32_t ) m_selector_cluster_block_indices . size ( ) , ( uint32_t ) m_selector_parent_cluster_block_indices . size ( ) ) ;
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}
void basisu_frontend : : create_optimized_selector_codebook ( uint32_t iter )
{
debug_printf ( " create_optimized_selector_codebook \n " ) ;
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interval_timer tm ;
tm . start ( ) ;
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const uint32_t total_selector_clusters = ( uint32_t ) m_selector_cluster_block_indices . size ( ) ;
debug_printf ( " Total selector clusters (from m_selector_cluster_block_indices.size()): %u \n " , ( uint32_t ) m_selector_cluster_block_indices . size ( ) ) ;
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m_optimized_cluster_selectors . resize ( total_selector_clusters ) ;
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uint32_t total_clusters_processed = 0 ;
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// For each selector codebook entry, and for each of the 4x4 selectors, determine which selector minimizes the error across all the blocks that use that quantized selector.
const uint32_t N = 256 ;
for ( uint32_t cluster_index_iter = 0 ; cluster_index_iter < total_selector_clusters ; cluster_index_iter + = N )
{
const uint32_t first_index = cluster_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( ( uint32_t ) total_selector_clusters , cluster_index_iter + N ) ;
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# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , & total_clusters_processed , & total_selector_clusters ] {
# endif
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for ( uint32_t cluster_index = first_index ; cluster_index < last_index ; cluster_index + + )
{
const basisu : : vector < uint32_t > & cluster_block_indices = m_selector_cluster_block_indices [ cluster_index ] ;
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if ( ! cluster_block_indices . size ( ) )
continue ;
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uint64_t overall_best_err = 0 ;
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uint64_t total_err [ 4 ] [ 4 ] [ 4 ] ;
clear_obj ( total_err ) ;
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for ( uint32_t cluster_block_index = 0 ; cluster_block_index < cluster_block_indices . size ( ) ; cluster_block_index + + )
{
const uint32_t block_index = cluster_block_indices [ cluster_block_index ] ;
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const etc_block & blk = m_encoded_blocks [ block_index ] ;
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color_rgba blk_colors [ 4 ] ;
blk . get_block_colors ( blk_colors , 0 ) ;
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for ( uint32_t y = 0 ; y < 4 ; y + + )
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{
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for ( uint32_t x = 0 ; x < 4 ; x + + )
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{
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const color_rgba & orig_color = get_source_pixel_block ( block_index ) ( x , y ) ;
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if ( m_params . m_perceptual )
{
for ( uint32_t s = 0 ; s < 4 ; s + + )
total_err [ y ] [ x ] [ s ] + = color_distance ( true , blk_colors [ s ] , orig_color , false ) ;
}
else
{
for ( uint32_t s = 0 ; s < 4 ; s + + )
total_err [ y ] [ x ] [ s ] + = color_distance ( false , blk_colors [ s ] , orig_color , false ) ;
}
} // x
} // y
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} // cluster_block_index
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for ( uint32_t y = 0 ; y < 4 ; y + + )
{
for ( uint32_t x = 0 ; x < 4 ; x + + )
{
uint64_t best_err = total_err [ y ] [ x ] [ 0 ] ;
uint8_t best_sel = 0 ;
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for ( uint32_t s = 1 ; s < 4 ; s + + )
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{
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if ( total_err [ y ] [ x ] [ s ] < best_err )
{
best_err = total_err [ y ] [ x ] [ s ] ;
best_sel = ( uint8_t ) s ;
}
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}
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m_optimized_cluster_selectors [ cluster_index ] . set_selector ( x , y , best_sel ) ;
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overall_best_err + = best_err ;
} // x
} // y
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} // cluster_index
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // cluster_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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debug_printf ( " Elapsed time: %3.3f secs \n " , tm . get_elapsed_secs ( ) ) ;
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if ( m_params . m_debug_images )
{
uint32_t max_selector_cluster_size = 0 ;
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for ( uint32_t i = 0 ; i < m_selector_cluster_block_indices . size ( ) ; i + + )
max_selector_cluster_size = maximum < uint32_t > ( max_selector_cluster_size , ( uint32_t ) m_selector_cluster_block_indices [ i ] . size ( ) ) ;
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if ( ( max_selector_cluster_size * 5 ) < 32768 )
{
const uint32_t x_spacer_len = 16 ;
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image selector_cluster_vis ( x_spacer_len + max_selector_cluster_size * 5 , ( uint32_t ) m_selector_cluster_block_indices . size ( ) * 5 ) ;
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for ( uint32_t selector_cluster_index = 0 ; selector_cluster_index < m_selector_cluster_block_indices . size ( ) ; selector_cluster_index + + )
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{
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const basisu : : vector < uint32_t > & cluster_block_indices = m_selector_cluster_block_indices [ selector_cluster_index ] ;
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for ( uint32_t y = 0 ; y < 4 ; y + + )
for ( uint32_t x = 0 ; x < 4 ; x + + )
selector_cluster_vis . set_clipped ( x_spacer_len + x - 12 , selector_cluster_index * 5 + y , color_rgba ( ( m_optimized_cluster_selectors [ selector_cluster_index ] . get_selector ( x , y ) * 255 ) / 3 ) ) ;
for ( uint32_t i = 0 ; i < cluster_block_indices . size ( ) ; i + + )
{
uint32_t block_index = cluster_block_indices [ i ] ;
const etc_block & blk = m_orig_encoded_blocks [ block_index ] ;
for ( uint32_t y = 0 ; y < 4 ; y + + )
for ( uint32_t x = 0 ; x < 4 ; x + + )
selector_cluster_vis . set_clipped ( x_spacer_len + x + 5 * i , selector_cluster_index * 5 + y , color_rgba ( ( blk . get_selector ( x , y ) * 255 ) / 3 ) ) ;
}
}
char buf [ 256 ] ;
snprintf ( buf , sizeof ( buf ) , " selector_cluster_vis_%u.png " , iter ) ;
save_png ( buf , selector_cluster_vis ) ;
}
}
}
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// For each block: Determine which quantized selectors best encode that block, given its quantized endpoints.
// Note that this method may leave some empty clusters (i.e. arrays with no block indices), including at the end.
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void basisu_frontend : : find_optimal_selector_clusters_for_each_block ( )
{
debug_printf ( " find_optimal_selector_clusters_for_each_block \n " ) ;
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interval_timer tm ;
tm . start ( ) ;
if ( m_params . m_validate )
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{
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// Sanity checks
BASISU_FRONTEND_VERIFY ( m_selector_cluster_block_indices . size ( ) = = m_optimized_cluster_selectors . size ( ) ) ;
for ( uint32_t i = 0 ; i < m_selector_clusters_within_each_parent_cluster . size ( ) ; i + + )
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{
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for ( uint32_t j = 0 ; j < m_selector_clusters_within_each_parent_cluster [ i ] . size ( ) ; j + + )
{
BASISU_FRONTEND_VERIFY ( m_selector_clusters_within_each_parent_cluster [ i ] [ j ] < m_optimized_cluster_selectors . size ( ) ) ;
}
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}
}
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m_block_selector_cluster_index . resize ( m_total_blocks ) ;
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if ( m_params . m_compression_level = = 0 )
{
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// Just leave the blocks in their original selector clusters.
for ( uint32_t selector_cluster_index = 0 ; selector_cluster_index < m_selector_cluster_block_indices . size ( ) ; selector_cluster_index + + )
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{
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for ( uint32_t j = 0 ; j < m_selector_cluster_block_indices [ selector_cluster_index ] . size ( ) ; j + + )
{
const uint32_t block_index = m_selector_cluster_block_indices [ selector_cluster_index ] [ j ] ;
m_block_selector_cluster_index [ block_index ] = selector_cluster_index ;
etc_block & blk = m_encoded_blocks [ block_index ] ;
blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ selector_cluster_index ] . get_raw_selector_bits ( ) ) ;
}
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}
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debug_printf ( " Elapsed time: %3.3f secs \n " , tm . get_elapsed_secs ( ) ) ;
return ;
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}
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bool use_cpu = true ;
if ( ( m_params . m_pOpenCL_context ) & & m_use_hierarchical_selector_codebooks )
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{
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const uint32_t num_parent_clusters = m_selector_clusters_within_each_parent_cluster . size ( ) ;
basisu : : vector < fosc_selector_struct > selector_structs ;
selector_structs . reserve ( m_optimized_cluster_selectors . size ( ) ) ;
uint_vec parent_selector_cluster_offsets ( num_parent_clusters ) ;
uint_vec selector_cluster_indices ;
selector_cluster_indices . reserve ( m_optimized_cluster_selectors . size ( ) ) ;
uint32_t cur_ofs = 0 ;
for ( uint32_t parent_index = 0 ; parent_index < num_parent_clusters ; parent_index + + )
{
parent_selector_cluster_offsets [ parent_index ] = cur_ofs ;
for ( uint32_t j = 0 ; j < m_selector_clusters_within_each_parent_cluster [ parent_index ] . size ( ) ; j + + )
{
const uint32_t selector_cluster_index = m_selector_clusters_within_each_parent_cluster [ parent_index ] [ j ] ;
uint32_t sel_bits = 0 ;
for ( uint32_t p = 0 ; p < 16 ; p + + )
sel_bits | = ( m_optimized_cluster_selectors [ selector_cluster_index ] . get_selector ( p & 3 , p > > 2 ) < < ( p * 2 ) ) ;
selector_structs . enlarge ( 1 ) - > m_packed_selectors = sel_bits ;
selector_cluster_indices . push_back ( selector_cluster_index ) ;
}
cur_ofs + = m_selector_clusters_within_each_parent_cluster [ parent_index ] . size ( ) ;
}
const uint32_t total_input_selectors = cur_ofs ;
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basisu : : vector < fosc_block_struct > block_structs ( m_total_blocks ) ;
for ( uint32_t i = 0 ; i < m_total_blocks ; i + + )
{
const uint32_t parent_selector_cluster = m_block_parent_selector_cluster [ i ] ;
const etc_block & blk = m_encoded_blocks [ i ] ;
blk . unpack_color5 ( block_structs [ i ] . m_etc_color5_inten , blk . get_base5_color ( ) , false ) ;
block_structs [ i ] . m_etc_color5_inten . a = ( uint8_t ) blk . get_inten_table ( 0 ) ;
block_structs [ i ] . m_first_selector = parent_selector_cluster_offsets [ parent_selector_cluster ] ;
block_structs [ i ] . m_num_selectors = m_selector_clusters_within_each_parent_cluster [ parent_selector_cluster ] . size ( ) ;
}
uint_vec output_selector_cluster_indices ( m_total_blocks ) ;
bool status = opencl_find_optimal_selector_clusters_for_each_block (
m_params . m_pOpenCL_context ,
block_structs . data ( ) ,
total_input_selectors ,
selector_structs . data ( ) ,
selector_cluster_indices . data ( ) ,
output_selector_cluster_indices . data ( ) ,
m_params . m_perceptual ) ;
if ( ! status )
{
error_printf ( " basisu_frontend::find_optimal_selector_clusters_for_each_block: opencl_find_optimal_selector_clusters_for_each_block() failed! Using CPU. \n " ) ;
m_params . m_pOpenCL_context = nullptr ;
m_opencl_failed = true ;
}
else
{
for ( uint32_t i = 0 ; i < m_selector_cluster_block_indices . size ( ) ; i + + )
{
m_selector_cluster_block_indices [ i ] . resize ( 0 ) ;
m_selector_cluster_block_indices [ i ] . reserve ( 128 ) ;
}
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
etc_block & blk = m_encoded_blocks [ block_index ] ;
uint32_t best_cluster_index = output_selector_cluster_indices [ block_index ] ;
blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ best_cluster_index ] . get_raw_selector_bits ( ) ) ;
m_block_selector_cluster_index [ block_index ] = best_cluster_index ;
vector_ensure_element_is_valid ( m_selector_cluster_block_indices , best_cluster_index ) ;
m_selector_cluster_block_indices [ best_cluster_index ] . push_back ( block_index ) ;
}
use_cpu = false ;
}
}
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if ( use_cpu )
{
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basisu : : vector < uint8_t > unpacked_optimized_cluster_selectors ( 16 * m_optimized_cluster_selectors . size ( ) ) ;
for ( uint32_t cluster_index = 0 ; cluster_index < m_optimized_cluster_selectors . size ( ) ; cluster_index + + )
{
for ( uint32_t y = 0 ; y < 4 ; y + + )
{
for ( uint32_t x = 0 ; x < 4 ; x + + )
{
unpacked_optimized_cluster_selectors [ cluster_index * 16 + y * 4 + x ] = ( uint8_t ) m_optimized_cluster_selectors [ cluster_index ] . get_selector ( x , y ) ;
}
}
}
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const uint32_t N = 2048 ;
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for ( uint32_t block_index_iter = 0 ; block_index_iter < m_total_blocks ; block_index_iter + = N )
{
const uint32_t first_index = block_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( m_total_blocks , first_index + N ) ;
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# ifndef __EMSCRIPTEN__
m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , & unpacked_optimized_cluster_selectors ] {
# endif
int prev_best_cluster_index = 0 ;
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for ( uint32_t block_index = first_index ; block_index < last_index ; block_index + + )
{
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const pixel_block & block = get_source_pixel_block ( block_index ) ;
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etc_block & blk = m_encoded_blocks [ block_index ] ;
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if ( ( block_index > first_index ) & & ( block = = get_source_pixel_block ( block_index - 1 ) ) )
{
blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ prev_best_cluster_index ] . get_raw_selector_bits ( ) ) ;
m_block_selector_cluster_index [ block_index ] = prev_best_cluster_index ;
continue ;
}
const color_rgba * pBlock_pixels = block . get_ptr ( ) ;
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color_rgba trial_block_colors [ 4 ] ;
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blk . get_block_colors_etc1s ( trial_block_colors ) ;
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// precompute errors for the i-th block pixel and selector sel: [sel][i]
uint32_t trial_errors [ 4 ] [ 16 ] ;
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if ( m_params . m_perceptual )
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{
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for ( uint32_t sel = 0 ; sel < 4 ; + + sel )
for ( uint32_t i = 0 ; i < 16 ; + + i )
trial_errors [ sel ] [ i ] = color_distance ( true , pBlock_pixels [ i ] , trial_block_colors [ sel ] , false ) ;
}
else
{
for ( uint32_t sel = 0 ; sel < 4 ; + + sel )
for ( uint32_t i = 0 ; i < 16 ; + + i )
trial_errors [ sel ] [ i ] = color_distance ( false , pBlock_pixels [ i ] , trial_block_colors [ sel ] , false ) ;
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}
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// Compute the minimum possible errors (given any selectors) for pixels 0-15
uint64_t min_possible_error_0_15 = 0 ;
for ( uint32_t i = 0 ; i < 16 ; i + + )
min_possible_error_0_15 + = basisu : : minimum ( trial_errors [ 0 ] [ i ] , trial_errors [ 1 ] [ i ] , trial_errors [ 2 ] [ i ] , trial_errors [ 3 ] [ i ] ) ;
// Compute the minimum possible errors (given any selectors) for pixels 4-15
uint64_t min_possible_error_4_15 = 0 ;
for ( uint32_t i = 4 ; i < 16 ; i + + )
min_possible_error_4_15 + = basisu : : minimum ( trial_errors [ 0 ] [ i ] , trial_errors [ 1 ] [ i ] , trial_errors [ 2 ] [ i ] , trial_errors [ 3 ] [ i ] ) ;
// Compute the minimum possible errors (given any selectors) for pixels 8-15
uint64_t min_possible_error_8_15 = 0 ;
for ( uint32_t i = 8 ; i < 16 ; i + + )
min_possible_error_8_15 + = basisu : : minimum ( trial_errors [ 0 ] [ i ] , trial_errors [ 1 ] [ i ] , trial_errors [ 2 ] [ i ] , trial_errors [ 3 ] [ i ] ) ;
// Compute the minimum possible errors (given any selectors) for pixels 12-15
uint64_t min_possible_error_12_15 = 0 ;
for ( uint32_t i = 12 ; i < 16 ; i + + )
min_possible_error_12_15 + = basisu : : minimum ( trial_errors [ 0 ] [ i ] , trial_errors [ 1 ] [ i ] , trial_errors [ 2 ] [ i ] , trial_errors [ 3 ] [ i ] ) ;
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uint64_t best_cluster_err = INT64_MAX ;
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uint32_t best_cluster_index = 0 ;
const uint32_t parent_selector_cluster = m_block_parent_selector_cluster . size ( ) ? m_block_parent_selector_cluster [ block_index ] : 0 ;
const uint_vec * pCluster_indices = m_selector_clusters_within_each_parent_cluster . size ( ) ? & m_selector_clusters_within_each_parent_cluster [ parent_selector_cluster ] : nullptr ;
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const uint32_t total_clusters = m_use_hierarchical_selector_codebooks ? ( uint32_t ) pCluster_indices - > size ( ) : ( uint32_t ) m_selector_cluster_block_indices . size ( ) ;
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#if 0
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for ( uint32_t cluster_iter = 0 ; cluster_iter < total_clusters ; cluster_iter + + )
{
const uint32_t cluster_index = m_use_hierarchical_selector_codebooks ? ( * pCluster_indices ) [ cluster_iter ] : cluster_iter ;
const etc_block & cluster_blk = m_optimized_cluster_selectors [ cluster_index ] ;
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uint64_t trial_err = 0 ;
for ( int y = 0 ; y < 4 ; y + + )
{
for ( int x = 0 ; x < 4 ; x + + )
{
const uint32_t sel = cluster_blk . get_selector ( x , y ) ;
trial_err + = color_distance ( m_params . m_perceptual , trial_block_colors [ sel ] , pBlock_pixels [ x + y * 4 ] , false ) ;
if ( trial_err > best_cluster_err )
goto early_out ;
}
}
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if ( trial_err < best_cluster_err )
{
best_cluster_err = trial_err ;
best_cluster_index = cluster_index ;
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if ( ! best_cluster_err )
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break ;
}
early_out :
;
}
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# else
for ( uint32_t cluster_iter = 0 ; cluster_iter < total_clusters ; cluster_iter + + )
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{
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const uint32_t cluster_index = m_use_hierarchical_selector_codebooks ? ( * pCluster_indices ) [ cluster_iter ] : cluster_iter ;
const uint8_t * pSels = & unpacked_optimized_cluster_selectors [ cluster_index * 16 ] ;
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uint64_t trial_err = ( uint64_t ) trial_errors [ pSels [ 0 ] ] [ 0 ] + trial_errors [ pSels [ 1 ] ] [ 1 ] + trial_errors [ pSels [ 2 ] ] [ 2 ] + trial_errors [ pSels [ 3 ] ] [ 3 ] ;
if ( ( trial_err + min_possible_error_4_15 ) > = best_cluster_err )
continue ;
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trial_err + = ( uint64_t ) trial_errors [ pSels [ 4 ] ] [ 4 ] + trial_errors [ pSels [ 5 ] ] [ 5 ] + trial_errors [ pSels [ 6 ] ] [ 6 ] + trial_errors [ pSels [ 7 ] ] [ 7 ] ;
if ( ( trial_err + min_possible_error_8_15 ) > = best_cluster_err )
continue ;
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trial_err + = ( uint64_t ) trial_errors [ pSels [ 8 ] ] [ 8 ] + trial_errors [ pSels [ 9 ] ] [ 9 ] + trial_errors [ pSels [ 10 ] ] [ 10 ] + trial_errors [ pSels [ 11 ] ] [ 11 ] ;
if ( ( trial_err + min_possible_error_12_15 ) > = best_cluster_err )
continue ;
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trial_err + = ( uint64_t ) trial_errors [ pSels [ 12 ] ] [ 12 ] + trial_errors [ pSels [ 13 ] ] [ 13 ] + trial_errors [ pSels [ 14 ] ] [ 14 ] + trial_errors [ pSels [ 15 ] ] [ 15 ] ;
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if ( trial_err < best_cluster_err )
{
best_cluster_err = trial_err ;
best_cluster_index = cluster_index ;
if ( best_cluster_err = = min_possible_error_0_15 )
break ;
}
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} // cluster_iter
# endif
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blk . set_raw_selector_bits ( m_optimized_cluster_selectors [ best_cluster_index ] . get_raw_selector_bits ( ) ) ;
m_block_selector_cluster_index [ block_index ] = best_cluster_index ;
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prev_best_cluster_index = best_cluster_index ;
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} // block_index
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // block_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
for ( uint32_t i = 0 ; i < m_selector_cluster_block_indices . size ( ) ; i + + )
{
m_selector_cluster_block_indices [ i ] . resize ( 0 ) ;
m_selector_cluster_block_indices [ i ] . reserve ( 128 ) ;
}
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for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
const uint32_t best_cluster_index = m_block_selector_cluster_index [ block_index ] ;
vector_ensure_element_is_valid ( m_selector_cluster_block_indices , best_cluster_index ) ;
m_selector_cluster_block_indices [ best_cluster_index ] . push_back ( block_index ) ;
}
} // if (use_cpu)
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debug_printf ( " Elapsed time: %3.3f secs \n " , tm . get_elapsed_secs ( ) ) ;
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}
// TODO: Remove old ETC1 specific stuff, and thread this.
uint32_t basisu_frontend : : refine_block_endpoints_given_selectors ( )
{
debug_printf ( " refine_block_endpoints_given_selectors \n " ) ;
for ( int block_index = 0 ; block_index < static_cast < int > ( m_total_blocks ) ; block_index + + )
{
//uint32_t selector_cluster = m_block_selector_cluster_index(block_x, block_y);
vec2U & endpoint_clusters = m_block_endpoint_clusters_indices [ block_index ] ;
m_endpoint_cluster_etc_params [ endpoint_clusters [ 0 ] ] . m_subblocks . push_back ( block_index * 2 ) ;
m_endpoint_cluster_etc_params [ endpoint_clusters [ 1 ] ] . m_subblocks . push_back ( block_index * 2 + 1 ) ;
}
uint32_t total_subblocks_refined = 0 ;
uint32_t total_subblocks_examined = 0 ;
for ( uint32_t endpoint_cluster_index = 0 ; endpoint_cluster_index < m_endpoint_cluster_etc_params . size ( ) ; endpoint_cluster_index + + )
{
endpoint_cluster_etc_params & subblock_params = m_endpoint_cluster_etc_params [ endpoint_cluster_index ] ;
const uint_vec & subblocks = subblock_params . m_subblocks ;
//uint32_t total_pixels = subblock.m_subblocks.size() * 8;
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basisu : : vector < color_rgba > subblock_colors [ 2 ] ; // [use_individual_mode]
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uint8_vec subblock_selectors [ 2 ] ;
uint64_t cur_subblock_err [ 2 ] = { 0 , 0 } ;
for ( uint32_t subblock_iter = 0 ; subblock_iter < subblocks . size ( ) ; subblock_iter + + )
{
uint32_t training_vector_index = subblocks [ subblock_iter ] ;
uint32_t block_index = training_vector_index > > 1 ;
uint32_t subblock_index = training_vector_index & 1 ;
const bool is_flipped = true ;
const etc_block & blk = m_encoded_blocks [ block_index ] ;
const bool use_individual_mode = ! blk . get_diff_bit ( ) ;
const color_rgba * pSource_block_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
color_rgba unpacked_block_pixels [ 16 ] ;
unpack_etc1 ( blk , unpacked_block_pixels ) ;
for ( uint32_t i = 0 ; i < 8 ; i + + )
{
const uint32_t pixel_index = g_etc1_pixel_indices [ is_flipped ] [ subblock_index ] [ i ] ;
const etc_coord2 & coords = g_etc1_pixel_coords [ is_flipped ] [ subblock_index ] [ i ] ;
subblock_colors [ use_individual_mode ] . push_back ( pSource_block_pixels [ pixel_index ] ) ;
cur_subblock_err [ use_individual_mode ] + = color_distance ( m_params . m_perceptual , pSource_block_pixels [ pixel_index ] , unpacked_block_pixels [ pixel_index ] , false ) ;
subblock_selectors [ use_individual_mode ] . push_back ( static_cast < uint8_t > ( blk . get_selector ( coords . m_x , coords . m_y ) ) ) ;
}
} // subblock_iter
etc1_optimizer : : results cluster_optimizer_results [ 2 ] ;
bool results_valid [ 2 ] = { false , false } ;
clear_obj ( cluster_optimizer_results ) ;
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basisu : : vector < uint8_t > cluster_selectors [ 2 ] ;
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for ( uint32_t use_individual_mode = 0 ; use_individual_mode < 2 ; use_individual_mode + + )
{
const uint32_t total_pixels = ( uint32_t ) subblock_colors [ use_individual_mode ] . size ( ) ;
if ( ! total_pixels )
continue ;
total_subblocks_examined + = total_pixels / 8 ;
etc1_optimizer optimizer ;
etc1_solution_coordinates solutions [ 2 ] ;
etc1_optimizer : : params cluster_optimizer_params ;
cluster_optimizer_params . m_num_src_pixels = total_pixels ;
cluster_optimizer_params . m_pSrc_pixels = & subblock_colors [ use_individual_mode ] [ 0 ] ;
cluster_optimizer_params . m_use_color4 = use_individual_mode ! = 0 ;
cluster_optimizer_params . m_perceptual = m_params . m_perceptual ;
cluster_optimizer_params . m_pForce_selectors = & subblock_selectors [ use_individual_mode ] [ 0 ] ;
cluster_optimizer_params . m_quality = cETCQualityUber ;
cluster_selectors [ use_individual_mode ] . resize ( total_pixels ) ;
cluster_optimizer_results [ use_individual_mode ] . m_n = total_pixels ;
cluster_optimizer_results [ use_individual_mode ] . m_pSelectors = & cluster_selectors [ use_individual_mode ] [ 0 ] ;
optimizer . init ( cluster_optimizer_params , cluster_optimizer_results [ use_individual_mode ] ) ;
if ( ! optimizer . compute ( ) )
continue ;
if ( cluster_optimizer_results [ use_individual_mode ] . m_error < cur_subblock_err [ use_individual_mode ] )
results_valid [ use_individual_mode ] = true ;
} // use_individual_mode
for ( uint32_t use_individual_mode = 0 ; use_individual_mode < 2 ; use_individual_mode + + )
{
if ( ! results_valid [ use_individual_mode ] )
continue ;
uint32_t num_passes = use_individual_mode ? 1 : 2 ;
bool all_passed5 = true ;
for ( uint32_t pass = 0 ; pass < num_passes ; pass + + )
{
for ( uint32_t subblock_iter = 0 ; subblock_iter < subblocks . size ( ) ; subblock_iter + + )
{
const uint32_t training_vector_index = subblocks [ subblock_iter ] ;
const uint32_t block_index = training_vector_index > > 1 ;
const uint32_t subblock_index = training_vector_index & 1 ;
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//const bool is_flipped = true;
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etc_block & blk = m_encoded_blocks [ block_index ] ;
if ( ! blk . get_diff_bit ( ) ! = static_cast < bool > ( use_individual_mode ! = 0 ) )
continue ;
if ( use_individual_mode )
{
blk . set_base4_color ( subblock_index , etc_block : : pack_color4 ( cluster_optimizer_results [ 1 ] . m_block_color_unscaled , false ) ) ;
blk . set_inten_table ( subblock_index , cluster_optimizer_results [ 1 ] . m_block_inten_table ) ;
subblock_params . m_color_error [ 1 ] = cluster_optimizer_results [ 1 ] . m_error ;
subblock_params . m_inten_table [ 1 ] = cluster_optimizer_results [ 1 ] . m_block_inten_table ;
subblock_params . m_color_unscaled [ 1 ] = cluster_optimizer_results [ 1 ] . m_block_color_unscaled ;
total_subblocks_refined + + ;
}
else
{
const uint16_t base_color5 = blk . get_base5_color ( ) ;
const uint16_t delta_color3 = blk . get_delta3_color ( ) ;
uint32_t r [ 2 ] , g [ 2 ] , b [ 2 ] ;
etc_block : : unpack_color5 ( r [ 0 ] , g [ 0 ] , b [ 0 ] , base_color5 , false ) ;
bool success = etc_block : : unpack_color5 ( r [ 1 ] , g [ 1 ] , b [ 1 ] , base_color5 , delta_color3 , false ) ;
assert ( success ) ;
BASISU_NOTE_UNUSED ( success ) ;
r [ subblock_index ] = cluster_optimizer_results [ 0 ] . m_block_color_unscaled . r ;
g [ subblock_index ] = cluster_optimizer_results [ 0 ] . m_block_color_unscaled . g ;
b [ subblock_index ] = cluster_optimizer_results [ 0 ] . m_block_color_unscaled . b ;
color_rgba colors [ 2 ] = { color_rgba ( r [ 0 ] , g [ 0 ] , b [ 0 ] , 255 ) , color_rgba ( r [ 1 ] , g [ 1 ] , b [ 1 ] , 255 ) } ;
if ( ! etc_block : : try_pack_color5_delta3 ( colors ) )
{
all_passed5 = false ;
break ;
}
if ( ( pass = = 1 ) & & ( all_passed5 ) )
{
blk . set_block_color5 ( colors [ 0 ] , colors [ 1 ] ) ;
blk . set_inten_table ( subblock_index , cluster_optimizer_results [ 0 ] . m_block_inten_table ) ;
subblock_params . m_color_error [ 0 ] = cluster_optimizer_results [ 0 ] . m_error ;
subblock_params . m_inten_table [ 0 ] = cluster_optimizer_results [ 0 ] . m_block_inten_table ;
subblock_params . m_color_unscaled [ 0 ] = cluster_optimizer_results [ 0 ] . m_block_color_unscaled ;
total_subblocks_refined + + ;
}
}
} // subblock_iter
} // pass
} // use_individual_mode
} // endpoint_cluster_index
if ( m_params . m_debug_stats )
debug_printf ( " Total subblock endpoints refined: %u (%3.1f%%) \n " , total_subblocks_refined , total_subblocks_refined * 100.0f / total_subblocks_examined ) ;
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return total_subblocks_refined ;
}
void basisu_frontend : : dump_endpoint_clusterization_visualization ( const char * pFilename , bool vis_endpoint_colors )
{
debug_printf ( " dump_endpoint_clusterization_visualization \n " ) ;
uint32_t max_endpoint_cluster_size = 0 ;
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basisu : : vector < uint32_t > cluster_sizes ( m_endpoint_clusters . size ( ) ) ;
basisu : : vector < uint32_t > sorted_cluster_indices ( m_endpoint_clusters . size ( ) ) ;
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for ( uint32_t i = 0 ; i < m_endpoint_clusters . size ( ) ; i + + )
{
max_endpoint_cluster_size = maximum < uint32_t > ( max_endpoint_cluster_size , ( uint32_t ) m_endpoint_clusters [ i ] . size ( ) ) ;
cluster_sizes [ i ] = ( uint32_t ) m_endpoint_clusters [ i ] . size ( ) ;
}
if ( ! max_endpoint_cluster_size )
return ;
for ( uint32_t i = 0 ; i < m_endpoint_clusters . size ( ) ; i + + )
sorted_cluster_indices [ i ] = i ;
//indexed_heap_sort(endpoint_clusters.size(), cluster_sizes.get_ptr(), sorted_cluster_indices.get_ptr());
image endpoint_cluster_vis ( 12 + minimum < uint32_t > ( max_endpoint_cluster_size , 2048 ) * 5 , ( uint32_t ) m_endpoint_clusters . size ( ) * 3 ) ;
for ( uint32_t unsorted_cluster_iter = 0 ; unsorted_cluster_iter < m_endpoint_clusters . size ( ) ; unsorted_cluster_iter + + )
{
const uint32_t cluster_iter = sorted_cluster_indices [ unsorted_cluster_iter ] ;
etc_block blk ;
blk . clear ( ) ;
blk . set_flip_bit ( false ) ;
blk . set_diff_bit ( true ) ;
blk . set_inten_tables_etc1s ( m_endpoint_cluster_etc_params [ cluster_iter ] . m_inten_table [ 0 ] ) ;
blk . set_base5_color ( etc_block : : pack_color5 ( m_endpoint_cluster_etc_params [ cluster_iter ] . m_color_unscaled [ 0 ] , false ) ) ;
color_rgba blk_colors [ 4 ] ;
blk . get_block_colors ( blk_colors , 0 ) ;
for ( uint32_t i = 0 ; i < 4 ; i + + )
endpoint_cluster_vis . fill_box ( i * 2 , 3 * unsorted_cluster_iter , 2 , 2 , blk_colors [ i ] ) ;
for ( uint32_t subblock_iter = 0 ; subblock_iter < m_endpoint_clusters [ cluster_iter ] . size ( ) ; subblock_iter + + )
{
uint32_t training_vector_index = m_endpoint_clusters [ cluster_iter ] [ subblock_iter ] ;
const uint32_t block_index = training_vector_index > > 1 ;
const uint32_t subblock_index = training_vector_index & 1 ;
const etc_block & blk2 = m_etc1_blocks_etc1s [ block_index ] ;
const color_rgba * pBlock_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
color_rgba subblock_pixels [ 8 ] ;
if ( vis_endpoint_colors )
{
color_rgba colors [ 2 ] ;
blk2 . get_block_low_high_colors ( colors , subblock_index ) ;
for ( uint32_t i = 0 ; i < 8 ; i + + )
subblock_pixels [ i ] = colors [ subblock_index ] ;
}
else
{
for ( uint32_t i = 0 ; i < 8 ; i + + )
subblock_pixels [ i ] = pBlock_pixels [ g_etc1_pixel_indices [ blk2 . get_flip_bit ( ) ] [ subblock_index ] [ i ] ] ;
}
endpoint_cluster_vis . set_block_clipped ( subblock_pixels , 12 + 5 * subblock_iter , 3 * unsorted_cluster_iter , 4 , 2 ) ;
}
}
save_png ( pFilename , endpoint_cluster_vis ) ;
debug_printf ( " Wrote debug visualization file %s \n " , pFilename ) ;
}
void basisu_frontend : : finalize ( )
{
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
for ( uint32_t subblock_index = 0 ; subblock_index < 2 ; subblock_index + + )
{
const uint32_t endpoint_cluster_index = get_subblock_endpoint_cluster_index ( block_index , subblock_index ) ;
m_endpoint_cluster_etc_params [ endpoint_cluster_index ] . m_color_used [ 0 ] = true ;
}
}
}
// The backend has remapped the block endpoints while optimizing the output symbols for better rate distortion performance, so let's go and reoptimize the endpoint codebook.
// This is currently the only place where the backend actually goes and changes the quantization and calls the frontend to fix things up.
// This is basically a bottom up clusterization stage, where some leaves can be combined.
void basisu_frontend : : reoptimize_remapped_endpoints ( const uint_vec & new_block_endpoints , int_vec & old_to_new_endpoint_cluster_indices , bool optimize_final_codebook , uint_vec * pBlock_selector_indices )
{
debug_printf ( " reoptimize_remapped_endpoints \n " ) ;
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basisu : : vector < uint_vec > new_endpoint_cluster_block_indices ( m_endpoint_clusters . size ( ) ) ;
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for ( uint32_t i = 0 ; i < new_block_endpoints . size ( ) ; i + + )
new_endpoint_cluster_block_indices [ new_block_endpoints [ i ] ] . push_back ( i ) ;
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basisu : : vector < uint8_t > cluster_valid ( new_endpoint_cluster_block_indices . size ( ) ) ;
basisu : : vector < uint8_t > cluster_improved ( new_endpoint_cluster_block_indices . size ( ) ) ;
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const uint32_t N = 256 ;
for ( uint32_t cluster_index_iter = 0 ; cluster_index_iter < new_endpoint_cluster_block_indices . size ( ) ; cluster_index_iter + = N )
{
const uint32_t first_index = cluster_index_iter ;
const uint32_t last_index = minimum < uint32_t > ( ( uint32_t ) new_endpoint_cluster_block_indices . size ( ) , cluster_index_iter + N ) ;
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > add_job ( [ this , first_index , last_index , & cluster_improved , & cluster_valid , & new_endpoint_cluster_block_indices , & pBlock_selector_indices ] {
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# endif
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for ( uint32_t cluster_index = first_index ; cluster_index < last_index ; cluster_index + + )
{
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const basisu : : vector < uint32_t > & cluster_block_indices = new_endpoint_cluster_block_indices [ cluster_index ] ;
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if ( ! cluster_block_indices . size ( ) )
continue ;
const uint32_t total_pixels = ( uint32_t ) cluster_block_indices . size ( ) * 16 ;
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basisu : : vector < color_rgba > cluster_pixels ( total_pixels ) ;
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uint8_vec force_selectors ( total_pixels ) ;
etc_block blk ;
blk . set_block_color5_etc1s ( get_endpoint_cluster_unscaled_color ( cluster_index , false ) ) ;
blk . set_inten_tables_etc1s ( get_endpoint_cluster_inten_table ( cluster_index , false ) ) ;
blk . set_flip_bit ( true ) ;
uint64_t cur_err = 0 ;
for ( uint32_t cluster_block_indices_iter = 0 ; cluster_block_indices_iter < cluster_block_indices . size ( ) ; cluster_block_indices_iter + + )
{
const uint32_t block_index = cluster_block_indices [ cluster_block_indices_iter ] ;
const color_rgba * pBlock_pixels = get_source_pixel_block ( block_index ) . get_ptr ( ) ;
memcpy ( & cluster_pixels [ cluster_block_indices_iter * 16 ] , pBlock_pixels , 16 * sizeof ( color_rgba ) ) ;
const uint32_t selector_cluster_index = pBlock_selector_indices ? ( * pBlock_selector_indices ) [ block_index ] : get_block_selector_cluster_index ( block_index ) ;
const etc_block & blk_selectors = get_selector_cluster_selector_bits ( selector_cluster_index ) ;
blk . set_raw_selector_bits ( blk_selectors . get_raw_selector_bits ( ) ) ;
cur_err + = blk . evaluate_etc1_error ( pBlock_pixels , m_params . m_perceptual ) ;
for ( uint32_t y = 0 ; y < 4 ; y + + )
for ( uint32_t x = 0 ; x < 4 ; x + + )
force_selectors [ cluster_block_indices_iter * 16 + x + y * 4 ] = static_cast < uint8_t > ( blk_selectors . get_selector ( x , y ) ) ;
}
endpoint_cluster_etc_params new_endpoint_cluster_etc_params ;
{
etc1_optimizer optimizer ;
etc1_solution_coordinates solutions [ 2 ] ;
etc1_optimizer : : params cluster_optimizer_params ;
cluster_optimizer_params . m_num_src_pixels = total_pixels ;
cluster_optimizer_params . m_pSrc_pixels = & cluster_pixels [ 0 ] ;
cluster_optimizer_params . m_use_color4 = false ;
cluster_optimizer_params . m_perceptual = m_params . m_perceptual ;
cluster_optimizer_params . m_pForce_selectors = & force_selectors [ 0 ] ;
if ( m_params . m_compression_level = = BASISU_MAX_COMPRESSION_LEVEL )
cluster_optimizer_params . m_quality = cETCQualityUber ;
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else
cluster_optimizer_params . m_quality = cETCQualitySlow ;
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etc1_optimizer : : results cluster_optimizer_results ;
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basisu : : vector < uint8_t > cluster_selectors ( total_pixels ) ;
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cluster_optimizer_results . m_n = total_pixels ;
cluster_optimizer_results . m_pSelectors = & cluster_selectors [ 0 ] ;
optimizer . init ( cluster_optimizer_params , cluster_optimizer_results ) ;
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if ( ! optimizer . compute ( ) )
BASISU_FRONTEND_VERIFY ( false ) ;
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new_endpoint_cluster_etc_params . m_color_unscaled [ 0 ] = cluster_optimizer_results . m_block_color_unscaled ;
new_endpoint_cluster_etc_params . m_inten_table [ 0 ] = cluster_optimizer_results . m_block_inten_table ;
new_endpoint_cluster_etc_params . m_color_error [ 0 ] = cluster_optimizer_results . m_error ;
new_endpoint_cluster_etc_params . m_color_used [ 0 ] = true ;
new_endpoint_cluster_etc_params . m_valid = true ;
}
if ( new_endpoint_cluster_etc_params . m_color_error [ 0 ] < cur_err )
{
m_endpoint_cluster_etc_params [ cluster_index ] = new_endpoint_cluster_etc_params ;
cluster_improved [ cluster_index ] = true ;
}
cluster_valid [ cluster_index ] = true ;
} // cluster_index
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# ifndef __EMSCRIPTEN__
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} ) ;
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# endif
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} // cluster_index_iter
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# ifndef __EMSCRIPTEN__
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m_params . m_pJob_pool - > wait_for_all ( ) ;
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# endif
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uint32_t total_unused_clusters = 0 ;
uint32_t total_improved_clusters = 0 ;
old_to_new_endpoint_cluster_indices . resize ( m_endpoint_clusters . size ( ) ) ;
vector_set_all ( old_to_new_endpoint_cluster_indices , - 1 ) ;
int total_new_endpoint_clusters = 0 ;
for ( uint32_t old_cluster_index = 0 ; old_cluster_index < m_endpoint_clusters . size ( ) ; old_cluster_index + + )
{
if ( ! cluster_valid [ old_cluster_index ] )
total_unused_clusters + + ;
else
old_to_new_endpoint_cluster_indices [ old_cluster_index ] = total_new_endpoint_clusters + + ;
if ( cluster_improved [ old_cluster_index ] )
total_improved_clusters + + ;
}
debug_printf ( " Total unused clusters: %u \n " , total_unused_clusters ) ;
debug_printf ( " Total improved_clusters: %u \n " , total_improved_clusters ) ;
debug_printf ( " Total endpoint clusters: %u \n " , total_new_endpoint_clusters ) ;
if ( optimize_final_codebook )
{
cluster_subblock_etc_params_vec new_endpoint_cluster_etc_params ( total_new_endpoint_clusters ) ;
for ( uint32_t old_cluster_index = 0 ; old_cluster_index < m_endpoint_clusters . size ( ) ; old_cluster_index + + )
{
if ( old_to_new_endpoint_cluster_indices [ old_cluster_index ] > = 0 )
new_endpoint_cluster_etc_params [ old_to_new_endpoint_cluster_indices [ old_cluster_index ] ] = m_endpoint_cluster_etc_params [ old_cluster_index ] ;
}
debug_printf ( " basisu_frontend::reoptimize_remapped_endpoints: stage 1 \n " ) ;
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basisu : : vector < uint_vec > new_endpoint_clusters ( total_new_endpoint_clusters ) ;
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for ( uint32_t block_index = 0 ; block_index < new_block_endpoints . size ( ) ; block_index + + )
{
const uint32_t old_endpoint_cluster_index = new_block_endpoints [ block_index ] ;
const int new_endpoint_cluster_index = old_to_new_endpoint_cluster_indices [ old_endpoint_cluster_index ] ;
BASISU_FRONTEND_VERIFY ( new_endpoint_cluster_index > = 0 ) ;
BASISU_FRONTEND_VERIFY ( new_endpoint_cluster_index < ( int ) new_endpoint_clusters . size ( ) ) ;
new_endpoint_clusters [ new_endpoint_cluster_index ] . push_back ( block_index * 2 + 0 ) ;
new_endpoint_clusters [ new_endpoint_cluster_index ] . push_back ( block_index * 2 + 1 ) ;
BASISU_FRONTEND_VERIFY ( new_endpoint_cluster_index < ( int ) new_endpoint_cluster_etc_params . size ( ) ) ;
new_endpoint_cluster_etc_params [ new_endpoint_cluster_index ] . m_subblocks . push_back ( block_index * 2 + 0 ) ;
new_endpoint_cluster_etc_params [ new_endpoint_cluster_index ] . m_subblocks . push_back ( block_index * 2 + 1 ) ;
m_block_endpoint_clusters_indices [ block_index ] [ 0 ] = new_endpoint_cluster_index ;
m_block_endpoint_clusters_indices [ block_index ] [ 1 ] = new_endpoint_cluster_index ;
}
debug_printf ( " basisu_frontend::reoptimize_remapped_endpoints: stage 2 \n " ) ;
m_endpoint_clusters = new_endpoint_clusters ;
m_endpoint_cluster_etc_params = new_endpoint_cluster_etc_params ;
eliminate_redundant_or_empty_endpoint_clusters ( ) ;
debug_printf ( " basisu_frontend::reoptimize_remapped_endpoints: stage 3 \n " ) ;
for ( uint32_t new_cluster_index = 0 ; new_cluster_index < m_endpoint_clusters . size ( ) ; new_cluster_index + + )
{
for ( uint32_t cluster_block_iter = 0 ; cluster_block_iter < m_endpoint_clusters [ new_cluster_index ] . size ( ) ; cluster_block_iter + + )
{
const uint32_t subblock_index = m_endpoint_clusters [ new_cluster_index ] [ cluster_block_iter ] ;
const uint32_t block_index = subblock_index > > 1 ;
m_block_endpoint_clusters_indices [ block_index ] [ 0 ] = new_cluster_index ;
m_block_endpoint_clusters_indices [ block_index ] [ 1 ] = new_cluster_index ;
const uint32_t old_cluster_index = new_block_endpoints [ block_index ] ;
old_to_new_endpoint_cluster_indices [ old_cluster_index ] = new_cluster_index ;
}
}
debug_printf ( " basisu_frontend::reoptimize_remapped_endpoints: stage 4 \n " ) ;
for ( uint32_t block_index = 0 ; block_index < m_encoded_blocks . size ( ) ; block_index + + )
{
const uint32_t endpoint_cluster_index = get_subblock_endpoint_cluster_index ( block_index , 0 ) ;
m_encoded_blocks [ block_index ] . set_block_color5_etc1s ( get_endpoint_cluster_unscaled_color ( endpoint_cluster_index , false ) ) ;
m_encoded_blocks [ block_index ] . set_inten_tables_etc1s ( get_endpoint_cluster_inten_table ( endpoint_cluster_index , false ) ) ;
}
debug_printf ( " Final (post-RDO) endpoint clusters: %u \n " , m_endpoint_clusters . size ( ) ) ;
}
//debug_printf("validate_output: %u\n", validate_output());
}
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// Endpoint clusterization hierarchy integrity checker.
// Note this doesn't check for empty clusters.
bool basisu_frontend : : validate_endpoint_cluster_hierarchy ( bool ensure_clusters_have_same_parents ) const
{
if ( ! m_endpoint_parent_clusters . size ( ) )
return true ;
int_vec subblock_parent_indices ( m_total_blocks * 2 ) ;
subblock_parent_indices . set_all ( - 1 ) ;
int_vec subblock_cluster_indices ( m_total_blocks * 2 ) ;
subblock_cluster_indices . set_all ( - 1 ) ;
for ( uint32_t parent_index = 0 ; parent_index < m_endpoint_parent_clusters . size ( ) ; parent_index + + )
{
for ( uint32_t i = 0 ; i < m_endpoint_parent_clusters [ parent_index ] . size ( ) ; i + + )
{
uint32_t subblock_index = m_endpoint_parent_clusters [ parent_index ] [ i ] ;
if ( subblock_index > = m_total_blocks * 2 )
return false ;
// If the endpoint cluster lives in more than one parent node, that's wrong.
if ( subblock_parent_indices [ subblock_index ] ! = - 1 )
return false ;
subblock_parent_indices [ subblock_index ] = parent_index ;
}
}
// Make sure all endpoint clusters are present in the parent cluster.
for ( uint32_t i = 0 ; i < subblock_parent_indices . size ( ) ; i + + )
{
if ( subblock_parent_indices [ i ] = = - 1 )
return false ;
}
for ( uint32_t cluster_index = 0 ; cluster_index < m_endpoint_clusters . size ( ) ; cluster_index + + )
{
int parent_index = 0 ;
for ( uint32_t i = 0 ; i < m_endpoint_clusters [ cluster_index ] . size ( ) ; i + + )
{
uint32_t subblock_index = m_endpoint_clusters [ cluster_index ] [ i ] ;
if ( subblock_index > = m_total_blocks * 2 )
return false ;
if ( subblock_cluster_indices [ subblock_index ] ! = - 1 )
return false ;
subblock_cluster_indices [ subblock_index ] = cluster_index ;
// There are transformations on the endpoint clusters that can break the strict tree requirement
if ( ensure_clusters_have_same_parents )
{
// Make sure all the subblocks are in the same parent cluster
if ( ! i )
parent_index = subblock_parent_indices [ subblock_index ] ;
else if ( subblock_parent_indices [ subblock_index ] ! = parent_index )
return false ;
}
}
}
// Make sure all endpoint clusters are present in the parent cluster.
for ( uint32_t i = 0 ; i < subblock_cluster_indices . size ( ) ; i + + )
{
if ( subblock_cluster_indices [ i ] = = - 1 )
return false ;
}
return true ;
}
// This is very slow and only intended for debugging/development. It's enabled using the "-validate_etc1s" command line option.
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bool basisu_frontend : : validate_output ( ) const
{
debug_printf ( " validate_output \n " ) ;
if ( ! check_etc1s_constraints ( ) )
return false ;
for ( uint32_t block_index = 0 ; block_index < m_total_blocks ; block_index + + )
{
//#define CHECK(x) do { if (!(x)) { DebugBreak(); return false; } } while(0)
# define CHECK(x) BASISU_FRONTEND_VERIFY(x);
CHECK ( get_output_block ( block_index ) . get_flip_bit ( ) = = true ) ;
const bool diff_flag = get_diff_flag ( block_index ) ;
CHECK ( diff_flag = = true ) ;
etc_block blk ;
memset ( & blk , 0 , sizeof ( blk ) ) ;
blk . set_flip_bit ( true ) ;
blk . set_diff_bit ( true ) ;
const uint32_t endpoint_cluster0_index = get_subblock_endpoint_cluster_index ( block_index , 0 ) ;
const uint32_t endpoint_cluster1_index = get_subblock_endpoint_cluster_index ( block_index , 1 ) ;
// basisu only supports ETC1S, so these must be equal.
CHECK ( endpoint_cluster0_index = = endpoint_cluster1_index ) ;
CHECK ( blk . set_block_color5_check ( get_endpoint_cluster_unscaled_color ( endpoint_cluster0_index , false ) , get_endpoint_cluster_unscaled_color ( endpoint_cluster1_index , false ) ) ) ;
CHECK ( get_endpoint_cluster_color_is_used ( endpoint_cluster0_index , false ) ) ;
blk . set_inten_table ( 0 , get_endpoint_cluster_inten_table ( endpoint_cluster0_index , false ) ) ;
blk . set_inten_table ( 1 , get_endpoint_cluster_inten_table ( endpoint_cluster1_index , false ) ) ;
const uint32_t selector_cluster_index = get_block_selector_cluster_index ( block_index ) ;
CHECK ( selector_cluster_index < get_total_selector_clusters ( ) ) ;
CHECK ( vector_find ( get_selector_cluster_block_indices ( selector_cluster_index ) , block_index ) ! = - 1 ) ;
blk . set_raw_selector_bits ( get_selector_cluster_selector_bits ( selector_cluster_index ) . get_raw_selector_bits ( ) ) ;
const etc_block & rdo_output_block = get_output_block ( block_index ) ;
CHECK ( rdo_output_block . get_flip_bit ( ) = = blk . get_flip_bit ( ) ) ;
CHECK ( rdo_output_block . get_diff_bit ( ) = = blk . get_diff_bit ( ) ) ;
CHECK ( rdo_output_block . get_inten_table ( 0 ) = = blk . get_inten_table ( 0 ) ) ;
CHECK ( rdo_output_block . get_inten_table ( 1 ) = = blk . get_inten_table ( 1 ) ) ;
CHECK ( rdo_output_block . get_base5_color ( ) = = blk . get_base5_color ( ) ) ;
CHECK ( rdo_output_block . get_delta3_color ( ) = = blk . get_delta3_color ( ) ) ;
CHECK ( rdo_output_block . get_raw_selector_bits ( ) = = blk . get_raw_selector_bits ( ) ) ;
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# undef CHECK
}
return true ;
}
void basisu_frontend : : dump_debug_image ( const char * pFilename , uint32_t first_block , uint32_t num_blocks_x , uint32_t num_blocks_y , bool output_blocks )
{
gpu_image g ;
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g . init ( texture_format : : cETC1 , num_blocks_x * 4 , num_blocks_y * 4 ) ;
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for ( uint32_t y = 0 ; y < num_blocks_y ; y + + )
{
for ( uint32_t x = 0 ; x < num_blocks_x ; x + + )
{
const uint32_t block_index = first_block + x + y * num_blocks_x ;
etc_block & blk = * ( etc_block * ) g . get_block_ptr ( x , y ) ;
if ( output_blocks )
blk = get_output_block ( block_index ) ;
else
{
const bool diff_flag = get_diff_flag ( block_index ) ;
blk . set_diff_bit ( diff_flag ) ;
blk . set_flip_bit ( true ) ;
const uint32_t endpoint_cluster0_index = get_subblock_endpoint_cluster_index ( block_index , 0 ) ;
const uint32_t endpoint_cluster1_index = get_subblock_endpoint_cluster_index ( block_index , 1 ) ;
if ( diff_flag )
blk . set_block_color5 ( get_endpoint_cluster_unscaled_color ( endpoint_cluster0_index , false ) , get_endpoint_cluster_unscaled_color ( endpoint_cluster1_index , false ) ) ;
else
blk . set_block_color4 ( get_endpoint_cluster_unscaled_color ( endpoint_cluster0_index , true ) , get_endpoint_cluster_unscaled_color ( endpoint_cluster1_index , true ) ) ;
blk . set_inten_table ( 0 , get_endpoint_cluster_inten_table ( endpoint_cluster0_index , ! diff_flag ) ) ;
blk . set_inten_table ( 1 , get_endpoint_cluster_inten_table ( endpoint_cluster1_index , ! diff_flag ) ) ;
const uint32_t selector_cluster_index = get_block_selector_cluster_index ( block_index ) ;
blk . set_raw_selector_bits ( get_selector_cluster_selector_bits ( selector_cluster_index ) . get_raw_selector_bits ( ) ) ;
}
}
}
image img ;
g . unpack ( img ) ;
save_png ( pFilename , img ) ;
}
} // namespace basisu