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/**************************************************************************/
/* image_compress_basisu.cpp */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
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/**************************************************************************/
# include "image_compress_basisu.h"
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# include "core/io/image.h"
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# include "core/os/os.h"
# include "core/string/print_string.h"
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# include "servers/rendering_server.h"
# include <transcoder/basisu_transcoder.h>
# ifdef TOOLS_ENABLED
# include <encoder/basisu_comp.h>
# endif
void basis_universal_init ( ) {
# ifdef TOOLS_ENABLED
basisu : : basisu_encoder_init ( ) ;
# endif
basist : : basisu_transcoder_init ( ) ;
}
# ifdef TOOLS_ENABLED
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template < typename T >
inline void _basisu_pad_mipmap ( const uint8_t * p_image_mip_data , Vector < uint8_t > & r_mip_data_padded , int p_next_width , int p_next_height , int p_width , int p_height , int64_t p_size ) {
// Source mip's data interpreted as 32-bit RGBA blocks to help with copying pixel data.
const T * mip_src_data = reinterpret_cast < const T * > ( p_image_mip_data ) ;
// Reserve space in the padded buffer.
r_mip_data_padded . resize ( p_next_width * p_next_height * sizeof ( T ) ) ;
T * data_padded_ptr = reinterpret_cast < T * > ( r_mip_data_padded . ptrw ( ) ) ;
// Pad mipmap to the nearest block by smearing.
int x = 0 , y = 0 ;
for ( y = 0 ; y < p_height ; y + + ) {
for ( x = 0 ; x < p_width ; x + + ) {
data_padded_ptr [ p_next_width * y + x ] = mip_src_data [ p_width * y + x ] ;
}
// First, smear in x.
for ( ; x < p_next_width ; x + + ) {
data_padded_ptr [ p_next_width * y + x ] = data_padded_ptr [ p_next_width * y + x - 1 ] ;
}
}
// Then, smear in y.
for ( ; y < p_next_height ; y + + ) {
for ( x = 0 ; x < p_next_width ; x + + ) {
data_padded_ptr [ p_next_width * y + x ] = data_padded_ptr [ p_next_width * y + x - p_next_width ] ;
}
}
}
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Vector < uint8_t > basis_universal_packer ( const Ref < Image > & p_image , Image : : UsedChannels p_channels ) {
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uint64_t start_time = OS : : get_singleton ( ) - > get_ticks_msec ( ) ;
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Ref < Image > image = p_image - > duplicate ( ) ;
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bool is_hdr = false ;
if ( image - > get_format ( ) < = Image : : FORMAT_RGB565 ) {
image - > convert ( Image : : FORMAT_RGBA8 ) ;
} else if ( image - > get_format ( ) < = Image : : FORMAT_RGBE9995 ) {
image - > convert ( Image : : FORMAT_RGBAF ) ;
is_hdr = true ;
}
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basisu : : basis_compressor_params params ;
params . m_uastc = true ;
params . m_quality_level = basisu : : BASISU_QUALITY_MIN ;
params . m_pack_uastc_flags & = ~ basisu : : cPackUASTCLevelMask ;
params . m_pack_uastc_flags | = basisu : : cPackUASTCLevelFastest ;
params . m_rdo_uastc = 0.0f ;
params . m_rdo_uastc_quality_scalar = 0.0f ;
params . m_rdo_uastc_dict_size = 1024 ;
params . m_mip_fast = true ;
params . m_multithreading = true ;
params . m_check_for_alpha = false ;
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if ( ! OS : : get_singleton ( ) - > is_stdout_verbose ( ) ) {
params . m_print_stats = false ;
params . m_compute_stats = false ;
params . m_status_output = false ;
}
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basisu : : job_pool job_pool ( OS : : get_singleton ( ) - > get_processor_count ( ) ) ;
params . m_pJob_pool = & job_pool ;
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BasisDecompressFormat decompress_format = BASIS_DECOMPRESS_MAX ;
if ( is_hdr ) {
decompress_format = BASIS_DECOMPRESS_HDR_RGB ;
params . m_hdr = true ;
params . m_uastc_hdr_options . set_quality_level ( 0 ) ;
} else {
switch ( p_channels ) {
case Image : : USED_CHANNELS_L : {
decompress_format = BASIS_DECOMPRESS_RGB ;
} break ;
case Image : : USED_CHANNELS_LA : {
params . m_force_alpha = true ;
decompress_format = BASIS_DECOMPRESS_RGBA ;
} break ;
case Image : : USED_CHANNELS_R : {
decompress_format = BASIS_DECOMPRESS_R ;
} break ;
case Image : : USED_CHANNELS_RG : {
params . m_force_alpha = true ;
image - > convert_rg_to_ra_rgba8 ( ) ;
decompress_format = BASIS_DECOMPRESS_RG ;
} break ;
case Image : : USED_CHANNELS_RGB : {
decompress_format = BASIS_DECOMPRESS_RGB ;
} break ;
case Image : : USED_CHANNELS_RGBA : {
params . m_force_alpha = true ;
decompress_format = BASIS_DECOMPRESS_RGBA ;
} break ;
}
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}
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ERR_FAIL_COND_V ( decompress_format = = BASIS_DECOMPRESS_MAX , Vector < uint8_t > ( ) ) ;
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// Copy the source image data with mipmaps into BasisU.
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{
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const int orig_width = image - > get_width ( ) ;
const int orig_height = image - > get_height ( ) ;
bool is_res_div_4 = ( orig_width % 4 = = 0 ) & & ( orig_height % 4 = = 0 ) ;
// Image's resolution rounded up to the nearest values divisible by 4.
int next_width = orig_width < = 2 ? orig_width : ( orig_width + 3 ) & ~ 3 ;
int next_height = orig_height < = 2 ? orig_height : ( orig_height + 3 ) & ~ 3 ;
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Vector < uint8_t > image_data = image - > get_data ( ) ;
basisu : : vector < basisu : : image > basisu_mipmaps ;
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basisu : : vector < basisu : : imagef > basisu_mipmaps_hdr ;
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// Buffer for storing padded mipmap data.
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Vector < uint8_t > mip_data_padded ;
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for ( int32_t i = 0 ; i < = image - > get_mipmap_count ( ) ; i + + ) {
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int64_t ofs , size ;
int width , height ;
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image - > get_mipmap_offset_size_and_dimensions ( i , ofs , size , width , height ) ;
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const uint8_t * image_mip_data = image_data . ptr ( ) + ofs ;
// Pad the mipmap's data if its resolution isn't divisible by 4.
if ( image - > has_mipmaps ( ) & & ! is_res_div_4 & & ( width > 2 & & height > 2 ) & & ( width ! = next_width | | height ! = next_height ) ) {
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if ( is_hdr ) {
_basisu_pad_mipmap < BasisRGBAF > ( image_mip_data , mip_data_padded , next_width , next_height , width , height , size ) ;
} else {
_basisu_pad_mipmap < uint32_t > ( image_mip_data , mip_data_padded , next_width , next_height , width , height , size ) ;
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}
// Override the image_mip_data pointer with our temporary Vector.
image_mip_data = reinterpret_cast < const uint8_t * > ( mip_data_padded . ptr ( ) ) ;
// Override the mipmap's properties.
width = next_width ;
height = next_height ;
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size = mip_data_padded . size ( ) ;
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}
// Get the next mipmap's resolution.
next_width / = 2 ;
next_height / = 2 ;
// Copy the source mipmap's data to a BasisU image.
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if ( is_hdr ) {
basisu : : imagef basisu_image ( width , height ) ;
memcpy ( reinterpret_cast < uint8_t * > ( basisu_image . get_ptr ( ) ) , image_mip_data , size ) ;
if ( i = = 0 ) {
params . m_source_images_hdr . push_back ( basisu_image ) ;
} else {
basisu_mipmaps_hdr . push_back ( basisu_image ) ;
}
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} else {
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basisu : : image basisu_image ( width , height ) ;
memcpy ( basisu_image . get_ptr ( ) , image_mip_data , size ) ;
if ( i = = 0 ) {
params . m_source_images . push_back ( basisu_image ) ;
} else {
basisu_mipmaps . push_back ( basisu_image ) ;
}
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}
}
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if ( is_hdr ) {
params . m_source_mipmap_images_hdr . push_back ( basisu_mipmaps_hdr ) ;
} else {
params . m_source_mipmap_images . push_back ( basisu_mipmaps ) ;
}
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}
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// Encode the image data.
basisu : : basis_compressor compressor ;
compressor . init ( params ) ;
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int basisu_err = compressor . process ( ) ;
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ERR_FAIL_COND_V ( basisu_err ! = basisu : : basis_compressor : : cECSuccess , Vector < uint8_t > ( ) ) ;
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const basisu : : uint8_vec & basisu_encoded = compressor . get_output_basis_file ( ) ;
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Vector < uint8_t > basisu_data ;
basisu_data . resize ( basisu_encoded . size ( ) + 4 ) ;
uint8_t * basisu_data_ptr = basisu_data . ptrw ( ) ;
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// Copy the encoded BasisU data into the output buffer.
* ( uint32_t * ) basisu_data_ptr = decompress_format ;
memcpy ( basisu_data_ptr + 4 , basisu_encoded . get_ptr ( ) , basisu_encoded . size ( ) ) ;
print_verbose ( vformat ( " BasisU: Encoding a %dx%d image with %d mipmaps took %d ms. " , p_image - > get_width ( ) , p_image - > get_height ( ) , p_image - > get_mipmap_count ( ) , OS : : get_singleton ( ) - > get_ticks_msec ( ) - start_time ) ) ;
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return basisu_data ;
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}
# endif // TOOLS_ENABLED
Ref < Image > basis_universal_unpacker_ptr ( const uint8_t * p_data , int p_size ) {
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uint64_t start_time = OS : : get_singleton ( ) - > get_ticks_msec ( ) ;
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Ref < Image > image ;
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ERR_FAIL_NULL_V_MSG ( p_data , image , " Cannot unpack invalid BasisUniversal data. " ) ;
const uint8_t * src_ptr = p_data ;
int src_size = p_size ;
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basist : : transcoder_texture_format basisu_format = basist : : transcoder_texture_format : : cTFTotalTextureFormats ;
Image : : Format image_format = Image : : FORMAT_MAX ;
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// Get supported compression formats.
bool bptc_supported = RS : : get_singleton ( ) - > has_os_feature ( " bptc " ) ;
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bool astc_supported = RS : : get_singleton ( ) - > has_os_feature ( " astc " ) ;
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bool rgtc_supported = RS : : get_singleton ( ) - > has_os_feature ( " rgtc " ) ;
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bool s3tc_supported = RS : : get_singleton ( ) - > has_os_feature ( " s3tc " ) ;
bool etc2_supported = RS : : get_singleton ( ) - > has_os_feature ( " etc2 " ) ;
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bool needs_ra_rg_swap = false ;
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bool needs_rg_trim = false ;
BasisDecompressFormat decompress_format = ( BasisDecompressFormat ) ( * ( uint32_t * ) ( src_ptr ) ) ;
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switch ( decompress_format ) {
case BASIS_DECOMPRESS_R : {
if ( rgtc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC4_R ;
image_format = Image : : FORMAT_RGTC_R ;
} else if ( s3tc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC1 ;
image_format = Image : : FORMAT_DXT1 ;
} else if ( etc2_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFETC2_EAC_R11 ;
image_format = Image : : FORMAT_ETC2_R11 ;
} else {
// No supported VRAM compression formats, decompress.
basisu_format = basist : : transcoder_texture_format : : cTFRGBA32 ;
image_format = Image : : FORMAT_RGBA8 ;
needs_rg_trim = true ;
}
} break ;
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case BASIS_DECOMPRESS_RG : {
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if ( rgtc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC5_RG ;
image_format = Image : : FORMAT_RGTC_RG ;
} else if ( s3tc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC3 ;
image_format = Image : : FORMAT_DXT5_RA_AS_RG ;
} else if ( etc2_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFETC2_EAC_RG11 ;
image_format = Image : : FORMAT_ETC2_RG11 ;
} else {
// No supported VRAM compression formats, decompress.
basisu_format = basist : : transcoder_texture_format : : cTFRGBA32 ;
image_format = Image : : FORMAT_RGBA8 ;
needs_ra_rg_swap = true ;
needs_rg_trim = true ;
}
} break ;
case BASIS_DECOMPRESS_RG_AS_RA : {
if ( s3tc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC3 ;
image_format = Image : : FORMAT_DXT5_RA_AS_RG ;
} else if ( etc2_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFETC2 ;
image_format = Image : : FORMAT_ETC2_RA_AS_RG ;
} else {
// No supported VRAM compression formats, decompress.
basisu_format = basist : : transcoder_texture_format : : cTFRGBA32 ;
image_format = Image : : FORMAT_RGBA8 ;
needs_ra_rg_swap = true ;
needs_rg_trim = true ;
}
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} break ;
case BASIS_DECOMPRESS_RGB : {
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if ( bptc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC7_M6_OPAQUE_ONLY ;
image_format = Image : : FORMAT_BPTC_RGBA ;
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} else if ( astc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFASTC_4x4_RGBA ;
image_format = Image : : FORMAT_ASTC_4x4 ;
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} else if ( s3tc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC1 ;
image_format = Image : : FORMAT_DXT1 ;
} else if ( etc2_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFETC1 ;
image_format = Image : : FORMAT_ETC2_RGB8 ;
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} else {
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// No supported VRAM compression formats, decompress.
basisu_format = basist : : transcoder_texture_format : : cTFRGBA32 ;
image_format = Image : : FORMAT_RGBA8 ;
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}
} break ;
case BASIS_DECOMPRESS_RGBA : {
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if ( bptc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC7_M5 ;
image_format = Image : : FORMAT_BPTC_RGBA ;
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} else if ( astc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFASTC_4x4_RGBA ;
image_format = Image : : FORMAT_ASTC_4x4 ;
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} else if ( s3tc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC3 ;
image_format = Image : : FORMAT_DXT5 ;
} else if ( etc2_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFETC2 ;
image_format = Image : : FORMAT_ETC2_RGBA8 ;
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} else {
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// No supported VRAM compression formats, decompress.
basisu_format = basist : : transcoder_texture_format : : cTFRGBA32 ;
image_format = Image : : FORMAT_RGBA8 ;
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}
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} break ;
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case BASIS_DECOMPRESS_HDR_RGB : {
if ( bptc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFBC6H ;
image_format = Image : : FORMAT_BPTC_RGBFU ;
} else if ( astc_supported ) {
basisu_format = basist : : transcoder_texture_format : : cTFASTC_HDR_4x4_RGBA ;
image_format = Image : : FORMAT_ASTC_4x4_HDR ;
} else {
// No supported VRAM compression formats, decompress.
basisu_format = basist : : transcoder_texture_format : : cTFRGB_9E5 ;
image_format = Image : : FORMAT_RGBE9995 ;
}
} break ;
default : {
ERR_FAIL_V ( image ) ;
} break ;
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}
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src_ptr + = 4 ;
src_size - = 4 ;
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basist : : basisu_transcoder transcoder ;
ERR_FAIL_COND_V ( ! transcoder . validate_header ( src_ptr , src_size ) , image ) ;
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transcoder . start_transcoding ( src_ptr , src_size ) ;
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basist : : basisu_image_info basisu_info ;
transcoder . get_image_info ( src_ptr , src_size , basisu_info , 0 ) ;
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// Create the buffer for transcoded/decompressed data.
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Vector < uint8_t > out_data ;
out_data . resize ( Image : : get_image_data_size ( basisu_info . m_width , basisu_info . m_height , image_format , basisu_info . m_total_levels > 1 ) ) ;
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uint8_t * dst = out_data . ptrw ( ) ;
memset ( dst , 0 , out_data . size ( ) ) ;
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for ( uint32_t i = 0 ; i < basisu_info . m_total_levels ; i + + ) {
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basist : : basisu_image_level_info basisu_level ;
transcoder . get_image_level_info ( src_ptr , src_size , basisu_level , 0 , i ) ;
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uint32_t mip_block_or_pixel_count = Image : : is_format_compressed ( image_format ) ? basisu_level . m_total_blocks : basisu_level . m_orig_width * basisu_level . m_orig_height ;
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int64_t ofs = Image : : get_image_mipmap_offset ( basisu_info . m_width , basisu_info . m_height , image_format , i ) ;
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bool result = transcoder . transcode_image_level ( src_ptr , src_size , 0 , i , dst + ofs , mip_block_or_pixel_count , basisu_format ) ;
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if ( ! result ) {
print_line ( vformat ( " BasisUniversal cannot unpack level %d. " , i ) ) ;
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break ;
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}
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}
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image = Image : : create_from_data ( basisu_info . m_width , basisu_info . m_height , basisu_info . m_total_levels > 1 , image_format , out_data ) ;
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if ( needs_ra_rg_swap ) {
// Swap uncompressed RA-as-RG texture's color channels.
image - > convert_ra_rgba8_to_rg ( ) ;
}
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if ( needs_rg_trim ) {
// Remove unnecessary color channels from uncompressed textures.
if ( decompress_format = = BASIS_DECOMPRESS_R ) {
image - > convert ( Image : : FORMAT_R8 ) ;
} else if ( decompress_format = = BASIS_DECOMPRESS_RG | | decompress_format = = BASIS_DECOMPRESS_RG_AS_RA ) {
image - > convert ( Image : : FORMAT_RG8 ) ;
}
}
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print_verbose ( vformat ( " BasisU: Transcoding a %dx%d image with %d mipmaps into %s took %d ms. " ,
image - > get_width ( ) , image - > get_height ( ) , image - > get_mipmap_count ( ) , Image : : get_format_name ( image_format ) , OS : : get_singleton ( ) - > get_ticks_msec ( ) - start_time ) ) ;
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return image ;
}
Ref < Image > basis_universal_unpacker ( const Vector < uint8_t > & p_buffer ) {
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return basis_universal_unpacker_ptr ( p_buffer . ptr ( ) , p_buffer . size ( ) ) ;
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}