import { DataTextureLoader, LinearMipmapLinearFilter } from 'three'; class TGALoader extends DataTextureLoader { constructor( manager ) { super( manager ); } parse( buffer ) { // reference from vthibault, https://github.com/vthibault/roBrowser/blob/master/src/Loaders/Targa.js function tgaCheckHeader( header ) { switch ( header.image_type ) { // check indexed type case TGA_TYPE_INDEXED: case TGA_TYPE_RLE_INDEXED: if ( header.colormap_length > 256 || header.colormap_size !== 24 || header.colormap_type !== 1 ) { throw new Error( 'THREE.TGALoader: Invalid type colormap data for indexed type.' ); } break; // check colormap type case TGA_TYPE_RGB: case TGA_TYPE_GREY: case TGA_TYPE_RLE_RGB: case TGA_TYPE_RLE_GREY: if ( header.colormap_type ) { throw new Error( 'THREE.TGALoader: Invalid type colormap data for colormap type.' ); } break; // What the need of a file without data ? case TGA_TYPE_NO_DATA: throw new Error( 'THREE.TGALoader: No data.' ); // Invalid type ? default: throw new Error( 'THREE.TGALoader: Invalid type ' + header.image_type ); } // check image width and height if ( header.width <= 0 || header.height <= 0 ) { throw new Error( 'THREE.TGALoader: Invalid image size.' ); } // check image pixel size if ( header.pixel_size !== 8 && header.pixel_size !== 16 && header.pixel_size !== 24 && header.pixel_size !== 32 ) { throw new Error( 'THREE.TGALoader: Invalid pixel size ' + header.pixel_size ); } } // parse tga image buffer function tgaParse( use_rle, use_pal, header, offset, data ) { let pixel_data, palettes; const pixel_size = header.pixel_size >> 3; const pixel_total = header.width * header.height * pixel_size; // read palettes if ( use_pal ) { palettes = data.subarray( offset, offset += header.colormap_length * ( header.colormap_size >> 3 ) ); } // read RLE if ( use_rle ) { pixel_data = new Uint8Array( pixel_total ); let c, count, i; let shift = 0; const pixels = new Uint8Array( pixel_size ); while ( shift < pixel_total ) { c = data[ offset ++ ]; count = ( c & 0x7f ) + 1; // RLE pixels if ( c & 0x80 ) { // bind pixel tmp array for ( i = 0; i < pixel_size; ++ i ) { pixels[ i ] = data[ offset ++ ]; } // copy pixel array for ( i = 0; i < count; ++ i ) { pixel_data.set( pixels, shift + i * pixel_size ); } shift += pixel_size * count; } else { // raw pixels count *= pixel_size; for ( i = 0; i < count; ++ i ) { pixel_data[ shift + i ] = data[ offset ++ ]; } shift += count; } } } else { // raw pixels pixel_data = data.subarray( offset, offset += ( use_pal ? header.width * header.height : pixel_total ) ); } return { pixel_data: pixel_data, palettes: palettes }; } function tgaGetImageData8bits( imageData, y_start, y_step, y_end, x_start, x_step, x_end, image, palettes ) { const colormap = palettes; let color, i = 0, x, y; const width = header.width; for ( y = y_start; y !== y_end; y += y_step ) { for ( x = x_start; x !== x_end; x += x_step, i ++ ) { color = image[ i ]; imageData[ ( x + width * y ) * 4 + 3 ] = 255; imageData[ ( x + width * y ) * 4 + 2 ] = colormap[ ( color * 3 ) + 0 ]; imageData[ ( x + width * y ) * 4 + 1 ] = colormap[ ( color * 3 ) + 1 ]; imageData[ ( x + width * y ) * 4 + 0 ] = colormap[ ( color * 3 ) + 2 ]; } } return imageData; } function tgaGetImageData16bits( imageData, y_start, y_step, y_end, x_start, x_step, x_end, image ) { let color, i = 0, x, y; const width = header.width; for ( y = y_start; y !== y_end; y += y_step ) { for ( x = x_start; x !== x_end; x += x_step, i += 2 ) { color = image[ i + 0 ] + ( image[ i + 1 ] << 8 ); imageData[ ( x + width * y ) * 4 + 0 ] = ( color & 0x7C00 ) >> 7; imageData[ ( x + width * y ) * 4 + 1 ] = ( color & 0x03E0 ) >> 2; imageData[ ( x + width * y ) * 4 + 2 ] = ( color & 0x001F ) << 3; imageData[ ( x + width * y ) * 4 + 3 ] = ( color & 0x8000 ) ? 0 : 255; } } return imageData; } function tgaGetImageData24bits( imageData, y_start, y_step, y_end, x_start, x_step, x_end, image ) { let i = 0, x, y; const width = header.width; for ( y = y_start; y !== y_end; y += y_step ) { for ( x = x_start; x !== x_end; x += x_step, i += 3 ) { imageData[ ( x + width * y ) * 4 + 3 ] = 255; imageData[ ( x + width * y ) * 4 + 2 ] = image[ i + 0 ]; imageData[ ( x + width * y ) * 4 + 1 ] = image[ i + 1 ]; imageData[ ( x + width * y ) * 4 + 0 ] = image[ i + 2 ]; } } return imageData; } function tgaGetImageData32bits( imageData, y_start, y_step, y_end, x_start, x_step, x_end, image ) { let i = 0, x, y; const width = header.width; for ( y = y_start; y !== y_end; y += y_step ) { for ( x = x_start; x !== x_end; x += x_step, i += 4 ) { imageData[ ( x + width * y ) * 4 + 2 ] = image[ i + 0 ]; imageData[ ( x + width * y ) * 4 + 1 ] = image[ i + 1 ]; imageData[ ( x + width * y ) * 4 + 0 ] = image[ i + 2 ]; imageData[ ( x + width * y ) * 4 + 3 ] = image[ i + 3 ]; } } return imageData; } function tgaGetImageDataGrey8bits( imageData, y_start, y_step, y_end, x_start, x_step, x_end, image ) { let color, i = 0, x, y; const width = header.width; for ( y = y_start; y !== y_end; y += y_step ) { for ( x = x_start; x !== x_end; x += x_step, i ++ ) { color = image[ i ]; imageData[ ( x + width * y ) * 4 + 0 ] = color; imageData[ ( x + width * y ) * 4 + 1 ] = color; imageData[ ( x + width * y ) * 4 + 2 ] = color; imageData[ ( x + width * y ) * 4 + 3 ] = 255; } } return imageData; } function tgaGetImageDataGrey16bits( imageData, y_start, y_step, y_end, x_start, x_step, x_end, image ) { let i = 0, x, y; const width = header.width; for ( y = y_start; y !== y_end; y += y_step ) { for ( x = x_start; x !== x_end; x += x_step, i += 2 ) { imageData[ ( x + width * y ) * 4 + 0 ] = image[ i + 0 ]; imageData[ ( x + width * y ) * 4 + 1 ] = image[ i + 0 ]; imageData[ ( x + width * y ) * 4 + 2 ] = image[ i + 0 ]; imageData[ ( x + width * y ) * 4 + 3 ] = image[ i + 1 ]; } } return imageData; } function getTgaRGBA( data, width, height, image, palette ) { let x_start, y_start, x_step, y_step, x_end, y_end; switch ( ( header.flags & TGA_ORIGIN_MASK ) >> TGA_ORIGIN_SHIFT ) { default: case TGA_ORIGIN_UL: x_start = 0; x_step = 1; x_end = width; y_start = 0; y_step = 1; y_end = height; break; case TGA_ORIGIN_BL: x_start = 0; x_step = 1; x_end = width; y_start = height - 1; y_step = - 1; y_end = - 1; break; case TGA_ORIGIN_UR: x_start = width - 1; x_step = - 1; x_end = - 1; y_start = 0; y_step = 1; y_end = height; break; case TGA_ORIGIN_BR: x_start = width - 1; x_step = - 1; x_end = - 1; y_start = height - 1; y_step = - 1; y_end = - 1; break; } if ( use_grey ) { switch ( header.pixel_size ) { case 8: tgaGetImageDataGrey8bits( data, y_start, y_step, y_end, x_start, x_step, x_end, image ); break; case 16: tgaGetImageDataGrey16bits( data, y_start, y_step, y_end, x_start, x_step, x_end, image ); break; default: throw new Error( 'THREE.TGALoader: Format not supported.' ); break; } } else { switch ( header.pixel_size ) { case 8: tgaGetImageData8bits( data, y_start, y_step, y_end, x_start, x_step, x_end, image, palette ); break; case 16: tgaGetImageData16bits( data, y_start, y_step, y_end, x_start, x_step, x_end, image ); break; case 24: tgaGetImageData24bits( data, y_start, y_step, y_end, x_start, x_step, x_end, image ); break; case 32: tgaGetImageData32bits( data, y_start, y_step, y_end, x_start, x_step, x_end, image ); break; default: throw new Error( 'THREE.TGALoader: Format not supported.' ); break; } } // Load image data according to specific method // let func = 'tgaGetImageData' + (use_grey ? 'Grey' : '') + (header.pixel_size) + 'bits'; // func(data, y_start, y_step, y_end, x_start, x_step, x_end, width, image, palette ); return data; } // TGA constants const TGA_TYPE_NO_DATA = 0, TGA_TYPE_INDEXED = 1, TGA_TYPE_RGB = 2, TGA_TYPE_GREY = 3, TGA_TYPE_RLE_INDEXED = 9, TGA_TYPE_RLE_RGB = 10, TGA_TYPE_RLE_GREY = 11, TGA_ORIGIN_MASK = 0x30, TGA_ORIGIN_SHIFT = 0x04, TGA_ORIGIN_BL = 0x00, TGA_ORIGIN_BR = 0x01, TGA_ORIGIN_UL = 0x02, TGA_ORIGIN_UR = 0x03; if ( buffer.length < 19 ) throw new Error( 'THREE.TGALoader: Not enough data to contain header.' ); let offset = 0; const content = new Uint8Array( buffer ), header = { id_length: content[ offset ++ ], colormap_type: content[ offset ++ ], image_type: content[ offset ++ ], colormap_index: content[ offset ++ ] | content[ offset ++ ] << 8, colormap_length: content[ offset ++ ] | content[ offset ++ ] << 8, colormap_size: content[ offset ++ ], origin: [ content[ offset ++ ] | content[ offset ++ ] << 8, content[ offset ++ ] | content[ offset ++ ] << 8 ], width: content[ offset ++ ] | content[ offset ++ ] << 8, height: content[ offset ++ ] | content[ offset ++ ] << 8, pixel_size: content[ offset ++ ], flags: content[ offset ++ ] }; // check tga if it is valid format tgaCheckHeader( header ); if ( header.id_length + offset > buffer.length ) { throw new Error( 'THREE.TGALoader: No data.' ); } // skip the needn't data offset += header.id_length; // get targa information about RLE compression and palette let use_rle = false, use_pal = false, use_grey = false; switch ( header.image_type ) { case TGA_TYPE_RLE_INDEXED: use_rle = true; use_pal = true; break; case TGA_TYPE_INDEXED: use_pal = true; break; case TGA_TYPE_RLE_RGB: use_rle = true; break; case TGA_TYPE_RGB: break; case TGA_TYPE_RLE_GREY: use_rle = true; use_grey = true; break; case TGA_TYPE_GREY: use_grey = true; break; } // const imageData = new Uint8Array( header.width * header.height * 4 ); const result = tgaParse( use_rle, use_pal, header, offset, content ); getTgaRGBA( imageData, header.width, header.height, result.pixel_data, result.palettes ); return { data: imageData, width: header.width, height: header.height, flipY: true, generateMipmaps: true, minFilter: LinearMipmapLinearFilter, }; } } export { TGALoader };