/* * License Applicability. Except to the extent portions of this file are * made subject to an alternative license as permitted in the SGI Free * Software License B, Version 2.0 (the "License"), the contents of this * file are subject only to the provisions of the License. You may not use * this file except in compliance with the License. You may obtain a copy * of the License at Silicon Graphics, Inc., attn: Legal Services, 1600 * Amphitheatre Parkway, Mountain View, CA 94043-1351, or at: * * http://oss.sgi.com/projects/FreeB * * Note that, as provided in the License, the Software is distributed on an * "AS IS" basis, with ALL EXPRESS AND IMPLIED WARRANTIES AND CONDITIONS * DISCLAIMED, INCLUDING, WITHOUT LIMITATION, ANY IMPLIED WARRANTIES AND * CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY, FITNESS FOR A * PARTICULAR PURPOSE, AND NON-INFRINGEMENT. * * NOTE: The Original Code (as defined below) has been licensed to Sun * Microsystems, Inc. ("Sun") under the SGI Free Software License B * (Version 1.1), shown above ("SGI License"). Pursuant to Section * 3.2(3) of the SGI License, Sun is distributing the Covered Code to * you under an alternative license ("Alternative License"). This * Alternative License includes all of the provisions of the SGI License * except that Section 2.2 and 11 are omitted. Any differences between * the Alternative License and the SGI License are offered solely by Sun * and not by SGI. * * Original Code. The Original Code is: OpenGL Sample Implementation, * Version 1.2.1, released January 26, 2000, developed by Silicon Graphics, * Inc. The Original Code is Copyright (c) 1991-2000 Silicon Graphics, Inc. * Copyright in any portions created by third parties is as indicated * elsewhere herein. All Rights Reserved. * * Additional Notice Provisions: The application programming interfaces * established by SGI in conjunction with the Original Code are The * OpenGL(R) Graphics System: A Specification (Version 1.2.1), released * April 1, 1999; The OpenGL(R) Graphics System Utility Library (Version * 1.3), released November 4, 1998; and OpenGL(R) Graphics with the X * Window System(R) (Version 1.3), released October 19, 1998. This software * was created using the OpenGL(R) version 1.2.1 Sample Implementation * published by SGI, but has not been independently verified as being * compliant with the OpenGL(R) version 1.2.1 Specification. */ package jogamp.opengl.glu.mipmap; import javax.media.opengl.GL; import javax.media.opengl.GL2; import javax.media.opengl.GL2ES2; import javax.media.opengl.GL2GL3; import java.nio.*; /** * * @author Administrator */ public class Image { /** Creates a new instance of Image */ public Image() { } public static short getShortFromByteArray( final byte[] array, final int index ) { short s; s = (short)(array[index] << 8 ); s |= (short)(0x00FF & array[index+1]); return( s ); } public static int getIntFromByteArray( final byte[] array, final int index ) { int i; i = ( array[index] << 24 ) & 0xFF000000; i |= ( array[index+1] << 16 ) & 0x00FF0000; i |= ( array[index+2] << 8 ) & 0x0000FF00; i |= ( array[index+3] ) & 0x000000FF; return( i ); } public static float getFloatFromByteArray( final byte[] array, final int index ) { final int i = getIntFromByteArray( array, index ); return( Float.intBitsToFloat(i) ); } /* * Extract array from user's data applying all pixel store modes. * The internal format used is an array of unsigned shorts. */ public static void fill_image( final PixelStorageModes psm, final int width, final int height, final int format, final int type, final boolean index_format, final ByteBuffer userdata, final ShortBuffer newimage ) { int components; int element_size; int rowsize; int padding; int groups_per_line; int group_size; int elements_per_line; int start; int iter = 0; int iter2; int i, j, k; boolean myswap_bytes; // Create a Extract interface object Extract extract = null; switch( type ) { case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): extract = new Extract332(); break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): extract = new Extract233rev(); break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): extract = new Extract565(); break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): extract = new Extract565rev(); break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): extract = new Extract4444(); break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): extract = new Extract4444rev(); break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): extract = new Extract5551(); break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): extract = new Extract1555rev(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): extract = new Extract8888(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): extract = new Extract8888rev(); break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): extract = new Extract1010102(); break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): extract = new Extract2101010rev(); break; } myswap_bytes = psm.getUnpackSwapBytes(); components = Mipmap.elements_per_group( format, type ); if( psm.getUnpackRowLength() > 0 ) { groups_per_line = psm.getUnpackRowLength(); } else { groups_per_line = width; } // All formats except GL_BITMAP fall out trivially if( type == GL2.GL_BITMAP ) { int bit_offset; int current_bit; rowsize = ( groups_per_line * components + 7 ) / 8; padding = ( rowsize % psm.getUnpackAlignment() ); if( padding != 0 ) { rowsize += psm.getUnpackAlignment() - padding; } start = psm.getUnpackSkipRows() * rowsize + ( psm.getUnpackSkipPixels() * components / 8 ); elements_per_line = width * components; iter2 = 0; for( i = 0; i < height; i++ ) { iter = start; userdata.position( iter ); // **************************************** bit_offset = (psm.getUnpackSkipPixels() * components) % 8; for( j = 0; j < elements_per_line; j++ ) { // retrieve bit if( psm.getUnpackLsbFirst() ) { userdata.position( iter ); current_bit = ( userdata.get() & 0x000000FF ) & ( 1 << bit_offset );//userdata[iter] & ( 1 << bit_offset ); } else { current_bit = ( userdata.get() & 0x000000FF ) & ( 1 << ( 7 - bit_offset ) ); } if( current_bit != 0 ) { if( index_format ) { newimage.position( iter2 ); newimage.put( (short)1 ); } else { newimage.position( iter2 ); newimage.put( (short)65535 ); } } else { newimage.position( iter2 ); newimage.put( (short)0 ); } bit_offset++; if( bit_offset == 8 ) { bit_offset = 0; iter++; } iter2++; } start += rowsize; } } else { element_size = Mipmap.bytes_per_element( type ); group_size = element_size * components; if( element_size == 1 ) { myswap_bytes = false; } rowsize = groups_per_line * group_size; padding = ( rowsize % psm.getUnpackAlignment() ); if( padding != 0 ) { rowsize += psm.getUnpackAlignment() - padding; } start = psm.getUnpackSkipRows() * rowsize + psm.getUnpackSkipPixels() * group_size; elements_per_line = width * components; iter2 = 0; for( i = 0; i < height; i++ ) { iter = start; userdata.position( iter ); //*************************************** for( j = 0; j < elements_per_line; j++ ) { final Type_Widget widget = new Type_Widget(); final float[] extractComponents = new float[4]; userdata.position( iter ); switch( type ) { case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): extract.extract( false, userdata /*userdata[iter]*/, extractComponents ); for( k = 0; k < 3; k++ ) { newimage.put( iter2++, (short)(extractComponents[k] * 65535 ) ); } break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): extract.extract( false, userdata /*userdata[iter]*/, extractComponents ); for( k = 0; k < 3; k++ ) { newimage.put( iter2++, (short)(extractComponents[k] * 65535 ) ); } break; case( GL.GL_UNSIGNED_BYTE ): if( index_format ) { newimage.put( iter2++, (short)( 0x000000FF & userdata.get() ) );//userdata[iter]; } else { newimage.put( iter2++, (short)( 0x000000FF & userdata.get()/*userdata[iter]*/ * 257 ) ); } break; case( GL.GL_BYTE ): if( index_format ) { newimage.put( iter2++, userdata.get() ); //userdata[iter]; } else { newimage.put( iter2++, (short)(userdata.get()/*userdata[iter]*/ * 516 ) ); } break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): extract.extract( myswap_bytes, userdata/*userdata[iter]*/, extractComponents ); for( k = 0; k < 3; k++ ) { newimage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 3; k++ ) { newimage.put( iter2++, (short)(extractComponents[k] * 65535 ) ); } break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)(extractComponents[k] * 65535 ) ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)(extractComponents[k] * 65535 ) ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL.GL_UNSIGNED_SHORT ): case( GL.GL_SHORT ): if( myswap_bytes ) { widget.setUB1( userdata.get() ); widget.setUB0( userdata.get() ); } else { widget.setUB0( userdata.get() ); widget.setUB1( userdata.get() ); } if( type == GL.GL_SHORT ) { if( index_format ) { newimage.put( iter2++, widget.getS0() ); } else { newimage.put( iter2++, (short)(widget.getS0() * 2) ); } } else { newimage.put( iter2++, widget.getUS0() ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): extract.extract( myswap_bytes, userdata, extractComponents ); for( k = 0; k < 4; k++ ) { newimage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2ES2.GL_INT ): case( GL.GL_UNSIGNED_INT ): case( GL.GL_FLOAT ): if( myswap_bytes ) { widget.setUB3( userdata.get() ); widget.setUB2( userdata.get() ); widget.setUB1( userdata.get() ); widget.setUB0( userdata.get() ); } else { widget.setUB0( userdata.get() ); widget.setUB1( userdata.get() ); widget.setUB2( userdata.get() ); widget.setUB3( userdata.get() ); } if( type == GL.GL_FLOAT ) { if( index_format ) { newimage.put( iter2++, (short)widget.getF() ); } else { newimage.put( iter2++, (short)(widget.getF() * 65535 ) ); } } else if( type == GL.GL_UNSIGNED_INT ) { if( index_format ) { newimage.put( iter2++, (short)( widget.getUI() ) ); } else { newimage.put( iter2++, (short)( widget.getUI() >> 16 ) ); } } else { if( index_format ) { newimage.put( iter2++, (short)( widget.getI() ) ); } else { newimage.put( iter2++, (short)( widget.getI() >> 15 ) ); } } break; } iter += element_size; } // for j start += rowsize; // want iter pointing at start, not within, row for assertion purposes iter = start; } // for i // iterators should be one byte past end if( !Mipmap.isTypePackedPixel( type ) ) { assert( iter2 == ( width * height * components ) ); } else { assert( iter2 == ( width * height * Mipmap.elements_per_group( format, 0 ) ) ); } assert( iter == ( rowsize * height + psm.getUnpackSkipRows() * rowsize + psm.getUnpackSkipPixels() * group_size ) ); } } /* * Insert array into user's data applying all pixel store modes. * Theinternal format is an array of unsigned shorts. * empty_image() because it is the opposet of fill_image(). */ public static void empty_image( final PixelStorageModes psm, final int width, final int height, final int format, final int type, final boolean index_format, final ShortBuffer oldimage, final ByteBuffer userdata ) { int components; int element_size; int rowsize; int padding; int groups_per_line; int group_size; int elements_per_line; int start; int iter = 0; int iter2; int i, j, k; boolean myswap_bytes; // Create a Extract interface object Extract extract = null; switch( type ) { case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): extract = new Extract332(); break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): extract = new Extract233rev(); break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): extract = new Extract565(); break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): extract = new Extract565rev(); break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): extract = new Extract4444(); break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): extract = new Extract4444rev(); break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): extract = new Extract5551(); break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): extract = new Extract1555rev(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): extract = new Extract8888(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): extract = new Extract8888rev(); break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): extract = new Extract1010102(); break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): extract = new Extract2101010rev(); break; } myswap_bytes = psm.getPackSwapBytes(); components = Mipmap.elements_per_group( format, type ); if( psm.getPackRowLength() > 0 ) { groups_per_line = psm.getPackRowLength(); } else { groups_per_line = width; } // all formats except GL_BITMAP fall out trivially if( type == GL2.GL_BITMAP ) { int bit_offset; int current_bit; rowsize = ( groups_per_line * components + 7 ) / 8; padding = ( rowsize % psm.getPackAlignment() ); if( padding != 0 ) { rowsize += psm.getPackAlignment() - padding; } start = psm.getPackSkipRows() * rowsize + psm.getPackSkipPixels() * components / 8; elements_per_line = width * components; iter2 = 0; for( i = 0; i < height; i++ ) { iter = start; bit_offset = ( psm.getPackSkipPixels() * components ) % 8; for( j = 0; j < elements_per_line; j++ ) { if( index_format ) { current_bit = oldimage.get( iter2 ) & 1; } else { if( oldimage.get( iter2 ) < 0 ) { // must check for negative rather than 32767 current_bit = 1; } else { current_bit = 0; } } if( current_bit != 0 ) { if( psm.getPackLsbFirst() ) { userdata.put( iter, (byte)( ( userdata.get( iter ) | ( 1 << bit_offset ) ) ) ); } else { userdata.put( iter, (byte)( ( userdata.get( iter ) | ( 7 - bit_offset ) ) ) ); } } else { if( psm.getPackLsbFirst() ) { //userdata[iter] &= ~( 1 << bit_offset ); userdata.put( iter, (byte)( ( userdata.get( iter ) & ~( 1 << bit_offset ) ) ) ); } else { //userdata[iter] &= ~( 1 << ( 7 - bit_offset ) ); userdata.put( iter, (byte)( ( userdata.get( iter ) & ~( 7 - bit_offset ) ) ) ); } } bit_offset++; if( bit_offset == 8 ) { bit_offset = 0; iter++; } iter2++; } start += rowsize; } } else { final float shoveComponents[] = new float[4]; element_size = Mipmap.bytes_per_element( type ); group_size = element_size * components; if( element_size == 1 ) { myswap_bytes = false; } rowsize = groups_per_line * group_size; padding = ( rowsize % psm.getPackAlignment() ); if( padding != 0 ) { rowsize += psm.getPackAlignment() - padding; } start = psm.getPackSkipRows() * rowsize + psm.getPackSkipPixels() * group_size; elements_per_line = width * components; iter2 = 0; for( i = 0; i < height; i++ ) { iter = start; for( j = 0; j < elements_per_line; j++ ) { final Type_Widget widget = new Type_Widget(); switch( type ) { case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): for( k = 0; k < 3; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, userdata ); break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): for( k = 0; k < 3; k++ ) { shoveComponents[k] = oldimage.get(iter2++) / 65535.0f; } extract.shove( shoveComponents, 0, userdata ); break; case( GL.GL_UNSIGNED_BYTE ): if( index_format ) { //userdata[iter] = (byte)oldimage[iter2++]; userdata.put( iter, (byte)oldimage.get(iter2++) ); } else { //userdata[iter] = (byte)( oldimage[iter2++] >> 8 ); userdata.put( iter, (byte)( oldimage.get(iter2++) ) ); } break; case( GL.GL_BYTE ): if( index_format ) { //userdata[iter] = (byte)oldimage[iter2++]; userdata.put( iter, (byte)oldimage.get(iter2++) ); } else { //userdata[iter] = (byte)( oldimage[iter2++] >> 9 ); userdata.put( iter, (byte)( oldimage.get(iter2++) ) ); } break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): for( k = 0; k < 3; k++ ) { shoveComponents[k] = oldimage.get(iter2++) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter] = widget.getUB1(); //userdata[iter+1] = widget.getUB0(); userdata.put( iter, widget.getUB1() ); userdata.put( iter + 1,widget.getUB0() ); } else { //userdata[iter] = widget.getUB0(); //userdata[iter+1] = widget.getUB1(); userdata.put( iter, widget.getUB0() ); userdata.put( iter + 1, widget.getUB1() ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): for( k = 0; k < 3; k++ ) { shoveComponents[k] = oldimage.get(iter2++) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter] = widget.getUB1(); //userdata[iter+1] = widget.getUB0(); userdata.put( iter, widget.getUB1() ); userdata.put( iter + 1, widget.getUB0() ); } else { //userdata[iter] = widget.getUB0(); //userdata[iter+1] = widget.getUB1(); userdata.put( iter, widget.getUB0() ); userdata.put( iter, widget.getUB1() ); } break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get(iter2++) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter] = widget.getUB1(); //userdata[iter+1] = widget.getUB0(); userdata.put( iter, widget.getUB1() ); userdata.put( iter + 1, widget.getUB0() ); } else { //userdata[iter] = widget.getUB0(); //userdata[iter+1] = widget.getUB1(); userdata.put( iter, widget.getUB0() ); userdata.put( iter + 1, widget.getUB1() ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter] = widget.getUB1(); //userdata[iter+1] = widget.getUB0(); userdata.put( iter, widget.getUB1() ); userdata.put( iter + 1, widget.getUB0() ); } else { //userdata[iter] = widget.getUB0(); //userdata[iter+1] = widget.getUB1(); userdata.put( iter, widget.getUB0() ); userdata.put( iter + 1, widget.getUB1() ); } break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter] = widget.getUB1(); //userdata[iter+1] = widget.getUB0(); userdata.put( iter, widget.getUB1() ); userdata.put( iter + 1, widget.getUB0() ); } else { //userdata[iter] = widget.getUB0(); //userdata[iter+1] = widget.getUB1(); userdata.put( iter, widget.getUB0() ); userdata.put( iter + 1, widget.getUB1() ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter] = widget.getUB1(); //userdata[iter+1] = widget.getUB0(); userdata.put( iter, widget.getUB1() ); userdata.put( iter + 1, widget.getUB0() ); } else { //userdata[iter] = widget.getUB0(); //userdata[iter+1] = widget.getUB1(); userdata.put( iter, widget.getUB0() ); userdata.put( iter + 1, widget.getUB1() ); } break; case( GL.GL_UNSIGNED_SHORT ): case( GL.GL_SHORT ): if( type == GL.GL_SHORT ) { if( index_format ) { widget.setS0( oldimage.get( iter2++ ) ); } else { widget.setS0( (short)(oldimage.get( iter2++ ) >> 1) ); } } else { widget.setUS0( oldimage.get( iter2++ ) ); } if( myswap_bytes ) { //userdata[iter] = widget.getUB1(); //userdata[iter+1] = widget.getUB0(); userdata.put( iter, widget.getUB1() ); userdata.put( iter + 1, widget.getUB0() ); } else { //userdata[iter] = widget.getUB0(); //userdata[iter] = widget.getUB1(); userdata.put( iter, widget.getUB0() ); userdata.put( iter + 1, widget.getUB1() ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter+3] = widget.getUB0(); //userdata[iter+2] = widget.getUB1(); //userdata[iter+1] = widget.getUB2(); //userdata[iter ] = widget.getUB3(); userdata.put( iter + 3, widget.getUB0() ); userdata.put( iter + 2, widget.getUB1() ); userdata.put( iter + 1, widget.getUB2() ); userdata.put( iter , widget.getUB3() ); } else { userdata.putInt( iter, widget.getUI() ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter+3] = widget.getUB0(); //userdata[iter+2] = widget.getUB1(); //userdata[iter+1] = widget.getUB2(); //userdata[iter ] = widget.getUB3(); userdata.put( iter + 3, widget.getUB0() ); userdata.put( iter + 2, widget.getUB1() ); userdata.put( iter + 2, widget.getUB2() ); userdata.put( iter , widget.getUB3() ); } else { userdata.putInt( iter, widget.getUI() ); } break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter+3] = widget.getUB0(); //userdata[iter+2] = widget.getUB1(); //userdata[iter+1] = widget.getUB2(); //userdata[iter ] = widget.getUB3(); userdata.put( iter + 3, widget.getUB0() ); userdata.put( iter + 2, widget.getUB1() ); userdata.put( iter + 1, widget.getUB2() ); userdata.put( iter , widget.getUB3() ); } else { userdata.putInt( iter, widget.getUI() ); } break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldimage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswap_bytes ) { //userdata[iter+3] = widget.getUB0(); //userdata[iter+2] = widget.getUB1(); //userdata[iter+1] = widget.getUB2(); //userdata[iter ] = widget.getUB3(); userdata.put( iter + 3, widget.getUB0() ); userdata.put( iter + 2, widget.getUB1() ); userdata.put( iter + 1, widget.getUB2() ); userdata.put( iter , widget.getUB3() ); } else { userdata.putInt( iter, widget.getUI() ); } break; case( GL2ES2.GL_INT ): case( GL.GL_UNSIGNED_INT ): case( GL.GL_FLOAT ): if( type == GL.GL_FLOAT ) { if( index_format ) { widget.setF( oldimage.get( iter2++ ) ); } else { widget.setF( oldimage.get( iter2++ ) / 65535.0f ); } } else if( type == GL.GL_UNSIGNED_INT ) { if( index_format ) { widget.setUI( oldimage.get( iter2++ ) ); } else { widget.setUI( oldimage.get( iter2++ ) * 65537 ); } } else { if( index_format ) { widget.setI( oldimage.get( iter2++ ) ); } else { widget.setI( (oldimage.get( iter2++ ) * 65537) / 2 ); } } if( myswap_bytes ) { userdata.put( iter + 3, widget.getUB0() ); userdata.put( iter + 2, widget.getUB1() ); userdata.put( iter + 1, widget.getUB2() ); userdata.put( iter , widget.getUB3() ); } else { userdata.put( iter , widget.getUB0() ); userdata.put( iter + 1, widget.getUB1() ); userdata.put( iter + 2, widget.getUB2() ); userdata.put( iter + 3, widget.getUB3() ); } break; } iter += element_size; } // for j start += rowsize; // want iter pointing at start, not within, row for assertion purposes iter = start; } // for i // iterators should be one byte past end if( !Mipmap.isTypePackedPixel( type ) ) { assert( iter2 == width * height * components ); } else { assert( iter2 == width * height * Mipmap.elements_per_group( format, 0 ) ); } assert( iter == rowsize * height + psm.getPackSkipRows() * rowsize + psm.getPackSkipPixels() * group_size ); } } public static void fillImage3D( final PixelStorageModes psm, final int width, final int height, final int depth, final int format, final int type, final boolean indexFormat, final ByteBuffer userImage, final ShortBuffer newImage ) { boolean myswapBytes; int components; int groupsPerLine; int elementSize; int groupSize; int rowSize; int padding; int elementsPerLine; int rowsPerImage; int imageSize; int start, rowStart; int iter = 0; int iter2 = 0; int ww, hh, dd, k; final Type_Widget widget = new Type_Widget(); final float extractComponents[] = new float[4]; // Create a Extract interface object Extract extract = null; switch( type ) { case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): extract = new Extract332(); break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): extract = new Extract233rev(); break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): extract = new Extract565(); break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): extract = new Extract565rev(); break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): extract = new Extract4444(); break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): extract = new Extract4444rev(); break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): extract = new Extract5551(); break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): extract = new Extract1555rev(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): extract = new Extract8888(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): extract = new Extract8888rev(); break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): extract = new Extract1010102(); break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): extract = new Extract2101010rev(); break; } myswapBytes = psm.getUnpackSwapBytes(); components = Mipmap.elements_per_group( format, type ); if( psm.getUnpackRowLength() > 0 ) { groupsPerLine = psm.getUnpackRowLength(); } else { groupsPerLine = width; } elementSize = Mipmap.bytes_per_element( type ); groupSize = elementSize * components; if( elementSize == 1 ) { myswapBytes = false; } // 3dstuff begin if( psm.getUnpackImageHeight() > 0 ) { rowsPerImage = psm.getUnpackImageHeight(); } else { rowsPerImage = height; } // 3dstuff end rowSize = groupsPerLine * groupSize; padding = rowSize % psm.getUnpackAlignment(); if( padding != 0 ) { rowSize += psm.getUnpackAlignment() - padding; } imageSize = rowsPerImage * rowSize; // 3dstuff start = psm.getUnpackSkipRows() * rowSize + psm.getUnpackSkipPixels() * groupSize + psm.getUnpackSkipImages() * imageSize; elementsPerLine = width * components; iter2 = 0; for( dd = 0; dd < depth; dd++ ) { rowStart = start; for( hh = 0; hh < height; hh++ ) { iter = rowStart; for( ww = 0; ww < elementsPerLine; ww++ ) { switch( type ) { case( GL.GL_UNSIGNED_BYTE ): if( indexFormat ) { newImage.put( iter2++, (short)(0x000000FF & userImage.get( iter ) ) ); } else { newImage.put( iter2++, (short)((0x000000FF & userImage.get( iter ) ) * 257 ) ); } break; case( GL.GL_BYTE ): if( indexFormat ) { newImage.put( iter2++, userImage.get( iter ) ); } else { newImage.put( iter2++, (short)(userImage.get( iter ) * 516 ) ); } break; case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): userImage.position( iter ); extract.extract( false, userImage, extractComponents ); for( k = 0; k < 3; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): userImage.position( iter ); extract.extract( false, userImage, extractComponents ); for( k = 0; k < 3; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)(extractComponents[k] * 65535) ); } break; case( GL.GL_UNSIGNED_SHORT ): case( GL.GL_SHORT ): if( myswapBytes ) { widget.setUB0( userImage.get( iter + 1 ) ); widget.setUB1( userImage.get( iter ) ); } else { widget.setUB0( userImage.get( iter ) ); widget.setUB1( userImage.get( iter + 1 ) ); } if( type == GL.GL_SHORT ) { if( indexFormat ) { newImage.put( iter2++, widget.getUS0() ); } else { newImage.put( iter2++, (short)(widget.getUS0() * 2) ); } } else { newImage.put( iter2++, widget.getUS0() ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): userImage.position( iter ); extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): extract.extract( myswapBytes, userImage, extractComponents ); for( k = 0; k < 4; k++ ) { newImage.put( iter2++, (short)( extractComponents[k] * 65535 ) ); } break; case( GL2ES2.GL_INT ): case( GL.GL_UNSIGNED_INT ): case( GL.GL_FLOAT ): if( myswapBytes ) { widget.setUB0( userImage.get( iter + 3 ) ); widget.setUB1( userImage.get( iter + 2 ) ); widget.setUB2( userImage.get( iter + 1 ) ); widget.setUB3( userImage.get( iter ) ); } else { widget.setUB0( userImage.get( iter ) ); widget.setUB1( userImage.get( iter + 1 ) ); widget.setUB2( userImage.get( iter + 2 ) ); widget.setUB3( userImage.get( iter + 3 ) ); } if( type == GL.GL_FLOAT ) { if( indexFormat ) { newImage.put( iter2++, (short)widget.getF() ); } else { newImage.put( iter2++, (short)( widget.getF() * 65535.0f ) ); } } else if( type == GL.GL_UNSIGNED_INT ) { if( indexFormat ) { newImage.put( iter2++, (short)widget.getUI() ); } else { newImage.put( iter2++, (short)(widget.getUI() >> 16) ); } } else { if( indexFormat ) { newImage.put( iter2++, (short)widget.getI() ); } else { newImage.put( iter2++, (short)(widget.getI() >> 15) ); } } break; default: assert( false ); } iter += elementSize; } // for ww rowStart += rowSize; iter = rowStart; // for assert } // for hh start += imageSize; }// for dd // iterators should be one byte past end if( !Mipmap.isTypePackedPixel( type ) ) { assert( iter2 == width * height * depth * components ); } else { assert( iter2 == width * height * depth * Mipmap.elements_per_group( format, 0 ) ); } assert( iter == rowSize * height * depth + psm.getUnpackSkipRows() * rowSize + psm.getUnpackSkipPixels() * groupSize + psm.getUnpackSkipImages() * imageSize ); } public static void emptyImage3D( final PixelStorageModes psm, final int width, final int height, final int depth, final int format, final int type, final boolean indexFormat, final ShortBuffer oldImage, final ByteBuffer userImage ) { boolean myswapBytes; int components; int groupsPerLine; int elementSize; int groupSize; int rowSize; int padding; int start, rowStart, iter; int elementsPerLine; int iter2; int ii, jj, dd, k; int rowsPerImage; int imageSize; final Type_Widget widget = new Type_Widget(); final float[] shoveComponents = new float[4]; // Create a Extract interface object Extract extract = null; switch( type ) { case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): extract = new Extract332(); break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): extract = new Extract233rev(); break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): extract = new Extract565(); break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): extract = new Extract565rev(); break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): extract = new Extract4444(); break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): extract = new Extract4444rev(); break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): extract = new Extract5551(); break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): extract = new Extract1555rev(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): extract = new Extract8888(); break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): extract = new Extract8888rev(); break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): extract = new Extract1010102(); break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): extract = new Extract2101010rev(); break; } iter = 0; myswapBytes = psm.getPackSwapBytes(); components = Mipmap.elements_per_group( format, type ); if( psm.getPackRowLength() > 0 ) { groupsPerLine = psm.getPackRowLength(); } else { groupsPerLine = width; } elementSize = Mipmap.bytes_per_element( type ); groupSize = elementSize * components; if( elementSize == 1 ) { myswapBytes = false; } // 3dstuff begin if( psm.getPackImageHeight() > 0 ) { rowsPerImage = psm.getPackImageHeight(); } else { rowsPerImage = height; } // 3dstuff end rowSize = groupsPerLine * groupSize; padding = rowSize % psm.getPackAlignment(); if( padding != 0 ) { rowSize += psm.getPackAlignment() - padding; } imageSize = rowsPerImage * rowSize; start = psm.getPackSkipRows() * rowSize + psm.getPackSkipPixels() * groupSize + psm.getPackSkipImages() * imageSize; elementsPerLine = width * components; iter2 = 0; for( dd = 0; dd < depth; dd++ ) { rowStart = start; for( ii = 0; ii < height; ii++ ) { iter = rowStart; for( jj = 0; jj < elementsPerLine; jj++ ) { switch( type ) { case( GL.GL_UNSIGNED_BYTE ): if( indexFormat ) { userImage.put( iter, (byte)(oldImage.get( iter2++ ) ) ); } else { userImage.put( iter, (byte)(oldImage.get( iter2++ ) >> 8 ) ); } break; case( GL.GL_BYTE ): if( indexFormat ) { userImage.put( iter, (byte)(oldImage.get(iter2++) ) ); } else { userImage.put( iter, (byte)(oldImage.get(iter2++) >> 9) ); } break; case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ): for( k = 0; k < 3; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, userImage ); break; case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ): for( k = 0; k < 3; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, userImage ); break; case( GL.GL_UNSIGNED_SHORT_5_6_5 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.putShort( iter, widget.getUB1() ); userImage.putShort( iter + 1, widget.getUB0() ); } else { userImage.putShort( iter, widget.getUS0() ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter, widget.getUB1() ); userImage.put( iter + 1, widget.getUB0() ); } else { userImage.putShort( iter, widget.getUS0() ); } break; case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter, widget.getUB1() ); userImage.put( iter + 1, widget.getUB0() ); } else { userImage.putShort( iter, widget.getUS0() ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter, widget.getUB1() ); userImage.put( iter + 1, widget.getUB0() ); } else { userImage.putShort( iter, widget.getUS0() ); } break; case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter, widget.getUB1() ); userImage.put( iter + 1, widget.getUB0() ); } else { userImage.putShort( iter, widget.getUS0() ); } break; case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter, widget.getUB1() ); userImage.put( iter + 1, widget.getUB0() ); } else { userImage.putShort( iter, widget.getUS0() ); } break; case( GL.GL_UNSIGNED_SHORT ): case( GL.GL_SHORT ): if( type == GL.GL_SHORT ) { if( indexFormat ) { widget.setS0( oldImage.get( iter2++ ) ); } else { widget.setS0( (short)(oldImage.get( iter2++ ) >> 1) ); } } else { widget.setUS0( oldImage.get( iter2++ ) ); } if( myswapBytes ) { userImage.put( iter, widget.getUB1() ); userImage.put( iter + 1, widget.getUB0() ); } else { userImage.put( iter, widget.getUB0() ); userImage.put( iter + 1, widget.getUB1() ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter + 3, widget.getUB0() ); userImage.put( iter + 2, widget.getUB1() ); userImage.put( iter + 1, widget.getUB2() ); userImage.put( iter , widget.getUB3() ); } else { userImage.putInt( iter, widget.getUI() ); } break; case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter + 3, widget.getUB0() ); userImage.put( iter + 2, widget.getUB1() ); userImage.put( iter + 1, widget.getUB2() ); userImage.put( iter , widget.getUB3() ); } else { userImage.putInt( iter, widget.getUI() ); } break; case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter + 3, widget.getUB0() ); userImage.put( iter + 2, widget.getUB1() ); userImage.put( iter + 1, widget.getUB2() ); userImage.put( iter ,widget.getUB3() ); } else { userImage.putInt( iter, widget.getUI() ); } break; case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ): for( k = 0; k < 4; k++ ) { shoveComponents[k] = oldImage.get( iter2++ ) / 65535.0f; } extract.shove( shoveComponents, 0, widget.getBuffer() ); if( myswapBytes ) { userImage.put( iter + 3, widget.getUB0() ); userImage.put( iter + 2, widget.getUB2() ); userImage.put( iter + 1, widget.getUB1() ); userImage.put( iter , widget.getUB0() ); } else { userImage.putInt( iter, widget.getUI() ); } break; case( GL2ES2.GL_INT ): case( GL.GL_UNSIGNED_INT ): case( GL.GL_FLOAT ): if( type == GL.GL_FLOAT ) { if( indexFormat ) { widget.setF( oldImage.get( iter2++ ) ); } else { widget.setF( oldImage.get( iter2++ ) / 65535.0f ); } } else if( type == GL.GL_UNSIGNED_INT ) { if( indexFormat ) { widget.setUI( oldImage.get( iter2++ ) ); } else { widget.setUI( oldImage.get( iter2++ ) * 65537 ); } } else { if( indexFormat ) { widget.setI( oldImage.get( iter2++ ) ); } else { widget.setI( ( oldImage.get( iter2++ ) * 65535 ) / 2 ); } } if( myswapBytes ) { userImage.put( iter + 3, widget.getUB0() ); userImage.put( iter + 2, widget.getUB1() ); userImage.put( iter + 1, widget.getUB2() ); userImage.put( iter , widget.getUB3() ); } else { userImage.put( iter , widget.getUB0() ); userImage.put( iter + 1, widget.getUB1() ); userImage.put( iter + 2, widget.getUB2() ); userImage.put( iter + 3, widget.getUB3() ); } break; default: assert( false ); } iter += elementSize; } // for jj rowStart += rowSize; } // for ii start += imageSize; } // for dd if( !Mipmap.isTypePackedPixel( type ) ) { assert( iter2 == width * height * depth * components ); } else { assert( iter2 == width * height * depth * Mipmap.elements_per_group( format, 0 ) ); } assert( iter == rowSize * height * depth + psm.getUnpackSkipRows() * rowSize + psm.getUnpackSkipPixels() * groupSize + psm.getUnpackSkipImages() * imageSize ); } }