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/**************************************************************************/
/* image_compress_etcpak.cpp */
/**************************************************************************/
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# include "image_compress_etcpak.h"
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# include "core/os/os.h"
# include "core/string/print_string.h"
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# include <ProcessDxtc.hpp>
# include <ProcessRGB.hpp>
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EtcpakType _determine_etc_type ( Image : : UsedChannels p_channels ) {
switch ( p_channels ) {
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case Image : : USED_CHANNELS_L :
return EtcpakType : : ETCPAK_TYPE_ETC1 ;
case Image : : USED_CHANNELS_LA :
return EtcpakType : : ETCPAK_TYPE_ETC2_ALPHA ;
case Image : : USED_CHANNELS_R :
return EtcpakType : : ETCPAK_TYPE_ETC2 ;
case Image : : USED_CHANNELS_RG :
return EtcpakType : : ETCPAK_TYPE_ETC2_RA_AS_RG ;
case Image : : USED_CHANNELS_RGB :
return EtcpakType : : ETCPAK_TYPE_ETC2 ;
case Image : : USED_CHANNELS_RGBA :
return EtcpakType : : ETCPAK_TYPE_ETC2_ALPHA ;
default :
return EtcpakType : : ETCPAK_TYPE_ETC2_ALPHA ;
}
}
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EtcpakType _determine_dxt_type ( Image : : UsedChannels p_channels ) {
switch ( p_channels ) {
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case Image : : USED_CHANNELS_L :
return EtcpakType : : ETCPAK_TYPE_DXT1 ;
case Image : : USED_CHANNELS_LA :
return EtcpakType : : ETCPAK_TYPE_DXT5 ;
case Image : : USED_CHANNELS_R :
return EtcpakType : : ETCPAK_TYPE_DXT5 ;
case Image : : USED_CHANNELS_RG :
return EtcpakType : : ETCPAK_TYPE_DXT5_RA_AS_RG ;
case Image : : USED_CHANNELS_RGB :
return EtcpakType : : ETCPAK_TYPE_DXT5 ;
case Image : : USED_CHANNELS_RGBA :
return EtcpakType : : ETCPAK_TYPE_DXT5 ;
default :
return EtcpakType : : ETCPAK_TYPE_DXT5 ;
}
}
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void _compress_etc1 ( Image * r_img ) {
_compress_etcpak ( EtcpakType : : ETCPAK_TYPE_ETC1 , r_img ) ;
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}
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void _compress_etc2 ( Image * r_img , Image : : UsedChannels p_channels ) {
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EtcpakType type = _determine_etc_type ( p_channels ) ;
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_compress_etcpak ( type , r_img ) ;
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}
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void _compress_bc ( Image * r_img , Image : : UsedChannels p_channels ) {
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EtcpakType type = _determine_dxt_type ( p_channels ) ;
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_compress_etcpak ( type , r_img ) ;
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}
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void _compress_etcpak ( EtcpakType p_compresstype , Image * r_img ) {
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uint64_t start_time = OS : : get_singleton ( ) - > get_ticks_msec ( ) ;
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Image : : Format img_format = r_img - > get_format ( ) ;
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if ( img_format > = Image : : FORMAT_DXT1 ) {
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return ; // Do not compress, already compressed.
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}
if ( img_format > Image : : FORMAT_RGBA8 ) {
// TODO: we should be able to handle FORMAT_RGBA4444 and FORMAT_RGBA5551 eventually
return ;
}
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// Use RGBA8 to convert.
if ( img_format ! = Image : : FORMAT_RGBA8 ) {
r_img - > convert ( Image : : FORMAT_RGBA8 ) ;
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}
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// Determine output format based on Etcpak type.
Image : : Format target_format = Image : : FORMAT_RGBA8 ;
if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC1 ) {
target_format = Image : : FORMAT_ETC ;
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r_img - > convert_rgba8_to_bgra8 ( ) ; // It's badly documented but ETCPAK seems to be expected BGRA8 for ETC.
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC2 ) {
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target_format = Image : : FORMAT_ETC2_RGB8 ;
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r_img - > convert_rgba8_to_bgra8 ( ) ; // It's badly documented but ETCPAK seems to be expected BGRA8 for ETC.
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC2_RA_AS_RG ) {
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target_format = Image : : FORMAT_ETC2_RA_AS_RG ;
r_img - > convert_rg_to_ra_rgba8 ( ) ;
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r_img - > convert_rgba8_to_bgra8 ( ) ; // It's badly documented but ETCPAK seems to be expected BGRA8 for ETC.
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC2_ALPHA ) {
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target_format = Image : : FORMAT_ETC2_RGBA8 ;
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r_img - > convert_rgba8_to_bgra8 ( ) ; // It's badly documented but ETCPAK seems to be expected BGRA8 for ETC.
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_DXT1 ) {
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target_format = Image : : FORMAT_DXT1 ;
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_DXT5_RA_AS_RG ) {
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target_format = Image : : FORMAT_DXT5_RA_AS_RG ;
r_img - > convert_rg_to_ra_rgba8 ( ) ;
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_DXT5 ) {
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target_format = Image : : FORMAT_DXT5 ;
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} else {
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ERR_FAIL_MSG ( " Invalid or unsupported etcpak compression format, not ETC or DXT. " ) ;
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}
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// Compress image data and (if required) mipmaps.
const bool mipmaps = r_img - > has_mipmaps ( ) ;
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int width = r_img - > get_width ( ) ;
int height = r_img - > get_height ( ) ;
/*
The first mipmap level of a compressed texture must be a multiple of 4. Quote from D3D11 .3 spec :
BC format surfaces are always multiples of full blocks , each block representing 4 x4 pixels .
For mipmaps , the top level map is required to be a multiple of 4 size in all dimensions .
The sizes for the lower level maps are computed as they are for all mipmapped surfaces ,
and thus may not be a multiple of 4 , for example a top level map of 20 results in a second level
map size of 10. For these cases , there is a differing ' physical ' size and a ' virtual ' size .
The virtual size is that computed for each mip level without adjustment , which is 10 for the example .
The physical size is the virtual size rounded up to the next multiple of 4 , which is 12 for the example ,
and this represents the actual memory size . The sampling hardware will apply texture address
processing based on the virtual size ( using , for example , border color if specified for accesses
beyond 10 ) , and thus for the example case will not access the 11 th and 12 th row of the resource .
So for mipmap chains when an axis becomes < 4 in size , only texels ' a ' , ' b ' , ' e ' , ' f '
are used for a 2 x2 map , and texel ' a ' is used for 1 x1 . Note that this is similar to , but distinct from ,
the surface pitch , which can encompass additional padding beyond the physical surface size .
*/
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int next_width = width < = 2 ? width : ( width + 3 ) & ~ 3 ;
int next_height = height < = 2 ? height : ( height + 3 ) & ~ 3 ;
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if ( next_width ! = width | | next_height ! = height ) {
r_img - > resize ( next_width , next_height , Image : : INTERPOLATE_LANCZOS ) ;
width = r_img - > get_width ( ) ;
height = r_img - > get_height ( ) ;
}
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// ERR_FAIL_COND(width % 4 != 0 || height % 4 != 0); // FIXME: No longer guaranteed.
// Multiple-of-4 should be guaranteed by above.
// However, power-of-two 3d textures will create Nx2 and Nx1 mipmap levels,
// which are individually compressed Image objects that violate the above rule.
// Hence, we allow Nx1 and Nx2 images through without forcing to multiple-of-4.
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const uint8_t * src_read = r_img - > get_data ( ) . ptr ( ) ;
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print_verbose ( vformat ( " etcpak: Encoding image size %dx%d to format %s%s. " , width , height , Image : : get_format_name ( target_format ) , mipmaps ? " , with mipmaps " : " " ) ) ;
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int dest_size = Image : : get_image_data_size ( width , height , target_format , mipmaps ) ;
Vector < uint8_t > dest_data ;
dest_data . resize ( dest_size ) ;
uint8_t * dest_write = dest_data . ptrw ( ) ;
int mip_count = mipmaps ? Image : : get_image_required_mipmaps ( width , height , target_format ) : 0 ;
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Vector < uint32_t > padded_src ;
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for ( int i = 0 ; i < mip_count + 1 ; i + + ) {
// Get write mip metrics for target image.
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int orig_mip_w , orig_mip_h ;
int mip_ofs = Image : : get_image_mipmap_offset_and_dimensions ( width , height , target_format , i , orig_mip_w , orig_mip_h ) ;
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// Ensure that mip offset is a multiple of 8 (etcpak expects uint64_t pointer).
ERR_FAIL_COND ( mip_ofs % 8 ! = 0 ) ;
uint64_t * dest_mip_write = ( uint64_t * ) & dest_write [ mip_ofs ] ;
// Block size. Align stride to multiple of 4 (RGBA8).
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int mip_w = ( orig_mip_w + 3 ) & ~ 3 ;
int mip_h = ( orig_mip_h + 3 ) & ~ 3 ;
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const uint32_t blocks = mip_w * mip_h / 16 ;
// Get mip data from source image for reading.
int src_mip_ofs = r_img - > get_mipmap_offset ( i ) ;
const uint32_t * src_mip_read = ( const uint32_t * ) & src_read [ src_mip_ofs ] ;
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// Pad textures to nearest block by smearing.
if ( mip_w ! = orig_mip_w | | mip_h ! = orig_mip_h ) {
padded_src . resize ( mip_w * mip_h ) ;
uint32_t * ptrw = padded_src . ptrw ( ) ;
int x = 0 , y = 0 ;
for ( y = 0 ; y < orig_mip_h ; y + + ) {
for ( x = 0 ; x < orig_mip_w ; x + + ) {
ptrw [ mip_w * y + x ] = src_mip_read [ orig_mip_w * y + x ] ;
}
// First, smear in x.
for ( ; x < mip_w ; x + + ) {
ptrw [ mip_w * y + x ] = ptrw [ mip_w * y + x - 1 ] ;
}
}
// Then, smear in y.
for ( ; y < mip_h ; y + + ) {
for ( x = 0 ; x < mip_w ; x + + ) {
ptrw [ mip_w * y + x ] = ptrw [ mip_w * y + x - mip_w ] ;
}
}
// Override the src_mip_read pointer to our temporary Vector.
src_mip_read = padded_src . ptr ( ) ;
}
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if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC1 ) {
CompressEtc1RgbDither ( src_mip_read , dest_mip_write , blocks , mip_w ) ;
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC2 ) {
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CompressEtc2Rgb ( src_mip_read , dest_mip_write , blocks , mip_w , true ) ;
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC2_ALPHA | | p_compresstype = = EtcpakType : : ETCPAK_TYPE_ETC2_RA_AS_RG ) {
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CompressEtc2Rgba ( src_mip_read , dest_mip_write , blocks , mip_w , true ) ;
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} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_DXT1 ) {
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CompressDxt1Dither ( src_mip_read , dest_mip_write , blocks , mip_w ) ;
} else if ( p_compresstype = = EtcpakType : : ETCPAK_TYPE_DXT5 | | p_compresstype = = EtcpakType : : ETCPAK_TYPE_DXT5_RA_AS_RG ) {
CompressDxt5 ( src_mip_read , dest_mip_write , blocks , mip_w ) ;
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} else {
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ERR_FAIL_MSG ( " etcpak: Invalid or unsupported compression format. " ) ;
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}
}
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// Replace original image with compressed one.
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r_img - > set_data ( width , height , mipmaps , target_format , dest_data ) ;
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print_verbose ( vformat ( " etcpak: Encoding took %s ms. " , rtos ( OS : : get_singleton ( ) - > get_ticks_msec ( ) - start_time ) ) ) ;
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}