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|
/*
* 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 com.jogamp.opengl.GL;
import com.jogamp.opengl.GL2;
import com.jogamp.opengl.GL2ES2;
import com.jogamp.opengl.GL2ES3;
import com.jogamp.opengl.GL2GL3;
import com.jogamp.opengl.GLContext;
import com.jogamp.opengl.glu.GLU;
import com.jogamp.opengl.GLException;
import java.nio.*;
import com.jogamp.common.nio.Buffers;
/**
*
* @author Administrator
*/
public class Mipmap {
/** Creates a new instance of Mipmap */
public Mipmap() {
}
public static int computeLog( int value ) {
int i = 0;
// Error
if( value == 0 ) {
return( -1 );
}
for( ;; ) {
if( (value & 1) >= 1 ) {
if( value != 1 ) {
return( -1 );
}
return( i );
}
value = value >> 1;
i++;
}
}
/* Compute the nearest power of 2 number. This algorithm is a little strange
* but it works quite well.
*/
public static int nearestPower( int value ) {
int i = 1;
// Error!
if( value == 0 ) {
return( -1 );
}
for( ;; ) {
if( value == 1 ) {
return( i );
} else if( value == 3 ) {
return( i * 4 );
}
value = value >> 1;
i *= 2;
}
}
public static short GLU_SWAP_2_BYTES( short s ) {
byte b = 0;
b = (byte)( s >>> 8 );
s = (short)( s << 8 );
s = (short)( s | (0x00FF & b) );
return( s );
}
public static int GLU_SWAP_4_BYTES( final int i ) {
int t = i << 24;
t |= 0x00FF0000 & ( i << 8 );
t |= 0x0000FF00 & ( i >>> 8 );
t |= 0x000000FF & ( i >>> 24 );
return( t );
}
public static float GLU_SWAP_4_BYTES( final float f ) {
final int i = Float.floatToRawIntBits( f );
final float temp = Float.intBitsToFloat( i );
return( temp );
}
public static int checkMipmapArgs( final int internalFormat, final int format, final int type ) {
if( !legalFormat( format ) || !legalType( type ) ) {
return( GLU.GLU_INVALID_ENUM );
}
if( format == GL2ES2.GL_STENCIL_INDEX ) {
return( GLU.GLU_INVALID_ENUM );
}
if( !isLegalFormatForPackedPixelType( format, type ) ) {
return( GLU.GLU_INVALID_OPERATION );
}
return( 0 );
}
public static boolean legalFormat( final int format ) {
switch( format ) {
case( GL2.GL_COLOR_INDEX ):
case( GL2ES2.GL_STENCIL_INDEX ):
case( GL2ES2.GL_DEPTH_COMPONENT ):
case( GL2ES2.GL_RED ):
case( GL2ES3.GL_GREEN ):
case( GL2ES3.GL_BLUE ):
case( GL.GL_ALPHA ):
case( GL.GL_RGB ):
case( GL.GL_RGBA ):
case( GL.GL_LUMINANCE ):
case( GL.GL_LUMINANCE_ALPHA ):
case( GL2GL3.GL_BGR ):
case( GL.GL_BGRA ):
return( true );
default:
return( false );
}
}
public static boolean legalType( final int type ) {
switch( type ) {
case( GL2.GL_BITMAP ):
case( GL.GL_BYTE ):
case( GL.GL_UNSIGNED_BYTE ):
case( GL.GL_SHORT ):
case( GL.GL_UNSIGNED_SHORT ):
case( GL2ES2.GL_INT ):
case( GL.GL_UNSIGNED_INT ):
case( GL.GL_FLOAT ):
case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ):
case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ):
case( GL.GL_UNSIGNED_SHORT_5_6_5 ):
case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ):
case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ):
case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ):
case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ):
case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ):
case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ):
case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ):
case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ):
case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ):
return( true );
default:
return( false );
}
}
public static boolean isTypePackedPixel( final int type ) {
assert( legalType( type ) );
if( type == GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ||
type == GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ||
type == GL.GL_UNSIGNED_SHORT_5_6_5 ||
type == GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ||
type == GL.GL_UNSIGNED_SHORT_4_4_4_4 ||
type == GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ||
type == GL.GL_UNSIGNED_SHORT_5_5_5_1 ||
type == GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ||
type == GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ||
type == GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ||
type == GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ||
type == GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ) {
return( true );
}
return( false );
}
public static boolean isLegalFormatForPackedPixelType( final int format, final int type ) {
// if not a packed pixel type then return true
if( isTypePackedPixel( type ) ) {
return( true );
}
// 3_3_2/2_3_3_REV & 5_6_5/5_6_5_REV are only compatible with RGB
if( (type == GL2GL3.GL_UNSIGNED_BYTE_3_3_2 || type == GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ||
type == GL.GL_UNSIGNED_SHORT_5_6_5 || type == GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV )
& format != GL.GL_RGB ) {
return( false );
}
// 4_4_4_4/4_4_4_4_REV & 5_5_5_1/1_5_5_5_REV & 8_8_8_8/8_8_8_8_REV &
// 10_10_10_2/2_10_10_10_REV are only campatible with RGBA, BGRA & ARGB_EXT
if( ( type == GL.GL_UNSIGNED_SHORT_4_4_4_4 ||
type == GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ||
type == GL.GL_UNSIGNED_SHORT_5_5_5_1 ||
type == GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ||
type == GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ||
type == GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ||
type == GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ||
type == GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ) &&
(format != GL.GL_RGBA && format != GL.GL_BGRA) ) {
return( false );
}
return( true );
}
public static boolean isLegalLevels( final int userLevel, final int baseLevel, final int maxLevel,
final int totalLevels ) {
if( (baseLevel < 0) || (baseLevel < userLevel) || (maxLevel < baseLevel) ||
(totalLevels < maxLevel) ) {
return( false );
}
return( true );
}
/* Given user requested textures size, determine if it fits. If it doesn't then
* halve both sides and make the determination again until it does fit ( for
* IR only ).
* Note that proxy textures are not implemented in RE* even though they
* advertise the texture extension.
* Note that proxy textures are implemented but not according to spec in IMPACT*
*/
public static void closestFit( final GL gl, final int target, final int width, final int height, final int internalFormat,
final int format, final int type, final int[] newWidth, final int[] newHeight ) {
// Use proxy textures if OpenGL GL2/GL3 version >= 1.1
if( gl.isGL2GL3() && gl.getContext().getGLVersionNumber().compareTo(GLContext.Version1_1) >= 0 ) {
int widthPowerOf2 = nearestPower( width );
int heightPowerOf2 = nearestPower( height );
final int[] proxyWidth = new int[1];
boolean noProxyTextures = false;
// Some drivers (in particular, ATI's) seem to set a GL error
// when proxy textures are used even though this is in violation
// of the spec. Guard against this and interactions with the
// DebugGL by watching for GLException.
try {
do {
// compute level 1 width & height, clamping each at 1
final int widthAtLevelOne = ( ( width > 1 ) ? (widthPowerOf2 >> 1) : widthPowerOf2 );
final int heightAtLevelOne = ( ( height > 1 ) ? (heightPowerOf2 >> 1) : heightPowerOf2 );
int proxyTarget;
assert( widthAtLevelOne > 0 );
assert( heightAtLevelOne > 0 );
// does width x height at level 1 & all their mipmaps fit?
if( target == GL.GL_TEXTURE_2D || target == GL2GL3.GL_PROXY_TEXTURE_2D ) {
proxyTarget = GL2GL3.GL_PROXY_TEXTURE_2D;
gl.glTexImage2D( proxyTarget, 1, internalFormat, widthAtLevelOne,
heightAtLevelOne, 0, format, type, null );
} else if( (target == GL.GL_TEXTURE_CUBE_MAP_POSITIVE_X) ||
(target == GL.GL_TEXTURE_CUBE_MAP_NEGATIVE_X) ||
(target == GL.GL_TEXTURE_CUBE_MAP_POSITIVE_Y) ||
(target == GL.GL_TEXTURE_CUBE_MAP_NEGATIVE_Y) ||
(target == GL.GL_TEXTURE_CUBE_MAP_POSITIVE_Z) ||
(target == GL.GL_TEXTURE_CUBE_MAP_NEGATIVE_Z) ) {
proxyTarget = GL2GL3.GL_PROXY_TEXTURE_CUBE_MAP;
gl.glTexImage2D( proxyTarget, 1, internalFormat, widthAtLevelOne,
heightAtLevelOne, 0, format, type, null );
} else {
assert( target == GL2GL3.GL_TEXTURE_1D || target == GL2GL3.GL_PROXY_TEXTURE_1D );
proxyTarget = GL2GL3.GL_PROXY_TEXTURE_1D;
gl.getGL2GL3().glTexImage1D( proxyTarget, 1, internalFormat, widthAtLevelOne,
0, format, type, null );
}
if(gl.isGL2GL3()) {
gl.getGL2GL3().glGetTexLevelParameteriv( proxyTarget, 1, GL2GL3.GL_TEXTURE_WIDTH, proxyWidth, 0 );
} else {
proxyWidth[0] = 0;
}
// does it fit?
if( proxyWidth[0] == 0 ) { // nope, so try again with theses sizes
if( widthPowerOf2 == 1 && heightPowerOf2 == 1 ) {
/* A 1x1 texture couldn't fit for some reason so break out. This
* should never happen. But things happen. The disadvantage with
* this if-statement is that we will never be aware of when this
* happens since it will silently branch out.
*/
noProxyTextures = true;
break;
}
widthPowerOf2 = widthAtLevelOne;
heightPowerOf2 = heightAtLevelOne;
}
// else it does fit
} while( proxyWidth[0] == 0 );
} catch (final GLException e) {
noProxyTextures = true;
}
// loop must terminate
// return the width & height at level 0 that fits
if( !noProxyTextures ) {
newWidth[0] = widthPowerOf2;
newHeight[0] = heightPowerOf2;
return;
}
}
final int[] maxsize = new int[1];
gl.glGetIntegerv( GL.GL_MAX_TEXTURE_SIZE, maxsize , 0);
// clamp user's texture sizes to maximum sizes, if necessary
newWidth[0] = nearestPower( width );
if( newWidth[0] > maxsize[0] ) {
newWidth[0] = maxsize[0];
}
newHeight[0] = nearestPower( height );
if( newHeight[0] > maxsize[0] ) {
newHeight[0] = maxsize[0];
}
}
public static void closestFit3D( final GL gl, final int target, final int width, final int height, final int depth,
final int internalFormat, final int format, final int type, final int[] newWidth, final int[] newHeight,
final int[] newDepth ) {
int widthPowerOf2 = nearestPower( width );
int heightPowerOf2 = nearestPower( height );
int depthPowerOf2 = nearestPower( depth );
final int[] proxyWidth = new int[1];
do {
// compute level 1 width & height & depth, clamping each at 1
final int widthAtLevelOne = (widthPowerOf2 > 1) ? widthPowerOf2 >> 1 : widthPowerOf2;
final int heightAtLevelOne = (heightPowerOf2 > 1) ? heightPowerOf2 >> 1 : heightPowerOf2;
final int depthAtLevelOne = (depthPowerOf2 > 1) ? depthPowerOf2 >> 1 : depthPowerOf2;
int proxyTarget = 0;
assert( widthAtLevelOne > 0 );
assert( heightAtLevelOne > 0 );
assert( depthAtLevelOne > 0 );
// does width x height x depth at level 1 & all their mipmaps fit?
if( target == GL2ES2.GL_TEXTURE_3D || target == GL2GL3.GL_PROXY_TEXTURE_3D ) {
proxyTarget = GL2GL3.GL_PROXY_TEXTURE_3D;
gl.getGL2GL3().glTexImage3D( proxyTarget, 1, internalFormat, widthAtLevelOne,
heightAtLevelOne, depthAtLevelOne, 0, format, type, null );
}
if(gl.isGL2GL3()) {
gl.getGL2GL3().glGetTexLevelParameteriv( proxyTarget, 1, GL2GL3.GL_TEXTURE_WIDTH, proxyWidth, 0 );
} else {
proxyWidth[0] = 0;
}
// does it fit
if( proxyWidth[0] == 0 ) {
if( widthPowerOf2 == 1 && heightPowerOf2 == 1 && depthPowerOf2 == 1 ) {
newWidth[0] = newHeight[0] = newDepth[0] = 1;
return;
}
widthPowerOf2 = widthAtLevelOne;
heightPowerOf2 = heightAtLevelOne;
depthPowerOf2 = depthAtLevelOne;
}
} while( proxyWidth[0] == 0 );
// loop must terminate
// return the width & height at level 0 that fits
newWidth[0] = widthPowerOf2;
newHeight[0] = heightPowerOf2;
newDepth[0] = depthPowerOf2;
}
public static int elements_per_group( final int format, final int type ) {
// Return the number of elements per grtoup of a specified gromat
// If the type is packedpixels then answer is 1
if( type == GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ||
type == GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ||
type == GL.GL_UNSIGNED_SHORT_5_6_5 ||
type == GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ||
type == GL.GL_UNSIGNED_SHORT_4_4_4_4 ||
type == GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ||
type == GL.GL_UNSIGNED_SHORT_5_5_5_1 ||
type == GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ||
type == GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ||
type == GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ||
type == GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ||
type == GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ) {
return( 1 );
}
// Types are not packed pixels so get elements per group
switch( format ) {
case( GL.GL_RGB ):
case( GL2GL3.GL_BGR ):
return( 3 );
case( GL.GL_LUMINANCE_ALPHA ):
return( 2 );
case( GL.GL_RGBA ):
case( GL.GL_BGRA ):
return( 4 );
default:
return( 1 );
}
}
public static int bytes_per_element( final int type ) {
// return the number of bytes per element, based on the element type
switch( type ) {
case( GL2.GL_BITMAP ):
case( GL.GL_BYTE ):
case( GL.GL_UNSIGNED_BYTE ):
case( GL2GL3.GL_UNSIGNED_BYTE_3_3_2 ):
case( GL2GL3.GL_UNSIGNED_BYTE_2_3_3_REV ):
return( 1 );
case( GL.GL_SHORT ):
case( GL.GL_UNSIGNED_SHORT ):
case( GL.GL_UNSIGNED_SHORT_5_6_5 ):
case( GL2GL3.GL_UNSIGNED_SHORT_5_6_5_REV ):
case( GL.GL_UNSIGNED_SHORT_4_4_4_4 ):
case( GL2GL3.GL_UNSIGNED_SHORT_4_4_4_4_REV ):
case( GL.GL_UNSIGNED_SHORT_5_5_5_1 ):
case( GL2GL3.GL_UNSIGNED_SHORT_1_5_5_5_REV ):
return( 2 );
case( GL2ES2.GL_INT ):
case( GL.GL_UNSIGNED_INT ):
case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8 ):
case( GL2GL3.GL_UNSIGNED_INT_8_8_8_8_REV ):
case( GL2ES2.GL_UNSIGNED_INT_10_10_10_2 ):
case( GL2ES2.GL_UNSIGNED_INT_2_10_10_10_REV ):
case( GL.GL_FLOAT ):
return( 4 );
default:
return( 4 );
}
}
public static boolean is_index( final int format ) {
return( format == GL2.GL_COLOR_INDEX || format == GL2ES2.GL_STENCIL_INDEX );
}
/* Compute memory required for internal packed array of data of given type and format. */
public static int image_size( final int width, final int height, final int format, final int type ) {
int bytes_per_row;
int components;
assert( width > 0 );
assert( height > 0 );
components = elements_per_group( format, type );
if( type == GL2.GL_BITMAP ) {
bytes_per_row = (width + 7) / 8;
} else {
bytes_per_row = bytes_per_element( type ) * width;
}
return( bytes_per_row * height * components );
}
public static int imageSize3D( final int width, final int height, final int depth, final int format, final int type ) {
final int components = elements_per_group( format, type );
final int bytes_per_row = bytes_per_element( type ) * width;
assert( width > 0 && height > 0 && depth > 0 );
assert( type != GL2.GL_BITMAP );
return( bytes_per_row * height * depth * components );
}
public static void retrieveStoreModes( final GL gl, final PixelStorageModes psm ) {
final int[] a = new int[1];
gl.glGetIntegerv( GL.GL_UNPACK_ALIGNMENT, a, 0);
psm.setUnpackAlignment( a[0] );
gl.glGetIntegerv( GL2ES2.GL_UNPACK_ROW_LENGTH, a, 0);
psm.setUnpackRowLength( a[0] );
gl.glGetIntegerv( GL2ES2.GL_UNPACK_SKIP_ROWS, a, 0);
psm.setUnpackSkipRows( a[0] );
gl.glGetIntegerv( GL2ES2.GL_UNPACK_SKIP_PIXELS, a, 0);
psm.setUnpackSkipPixels( a[0] );
gl.glGetIntegerv( GL2GL3.GL_UNPACK_LSB_FIRST, a, 0);
psm.setUnpackLsbFirst( ( a[0] == 1 ) );
gl.glGetIntegerv( GL2GL3.GL_UNPACK_SWAP_BYTES, a, 0);
psm.setUnpackSwapBytes( ( a[0] == 1 ) );
gl.glGetIntegerv( GL.GL_PACK_ALIGNMENT, a, 0);
psm.setPackAlignment( a[0] );
gl.glGetIntegerv( GL2ES3.GL_PACK_ROW_LENGTH, a, 0);
psm.setPackRowLength( a[0] );
gl.glGetIntegerv( GL2ES3.GL_PACK_SKIP_ROWS, a, 0);
psm.setPackSkipRows( a[0] );
gl.glGetIntegerv( GL2ES3.GL_PACK_SKIP_PIXELS, a, 0);
psm.setPackSkipPixels( a[0] );
gl.glGetIntegerv( GL2GL3.GL_PACK_LSB_FIRST, a, 0);
psm.setPackLsbFirst( ( a[0] == 1 ) );
gl.glGetIntegerv( GL2GL3.GL_PACK_SWAP_BYTES, a, 0);
psm.setPackSwapBytes( ( a[0] == 1 ) );
}
public static void retrieveStoreModes3D( final GL gl, final PixelStorageModes psm ) {
final int[] a = new int[1];
gl.glGetIntegerv( GL.GL_UNPACK_ALIGNMENT, a, 0);
psm.setUnpackAlignment( a[0] );
gl.glGetIntegerv( GL2ES2.GL_UNPACK_ROW_LENGTH, a, 0);
psm.setUnpackRowLength( a[0] );
gl.glGetIntegerv( GL2ES2.GL_UNPACK_SKIP_ROWS, a, 0);
psm.setUnpackSkipRows( a[0] );
gl.glGetIntegerv( GL2ES2.GL_UNPACK_SKIP_PIXELS, a, 0);
psm.setUnpackSkipPixels( a[0] );
gl.glGetIntegerv( GL2GL3.GL_UNPACK_LSB_FIRST, a, 0);
psm.setUnpackLsbFirst( ( a[0] == 1 ) );
gl.glGetIntegerv( GL2GL3.GL_UNPACK_SWAP_BYTES, a, 0);
psm.setUnpackSwapBytes( ( a[0] == 1 ) );
gl.glGetIntegerv( GL2ES3.GL_UNPACK_SKIP_IMAGES, a, 0);
psm.setUnpackSkipImages( a[0] );
gl.glGetIntegerv( GL2ES3.GL_UNPACK_IMAGE_HEIGHT, a, 0);
psm.setUnpackImageHeight( a[0] );
gl.glGetIntegerv( GL.GL_PACK_ALIGNMENT, a, 0);
psm.setPackAlignment( a[0] );
gl.glGetIntegerv( GL2ES3.GL_PACK_ROW_LENGTH, a, 0);
psm.setPackRowLength( a[0] );
gl.glGetIntegerv( GL2ES3.GL_PACK_SKIP_ROWS, a, 0);
psm.setPackSkipRows( a[0] );
gl.glGetIntegerv( GL2ES3.GL_PACK_SKIP_PIXELS, a, 0 );
psm.setPackSkipPixels( a[0] );
gl.glGetIntegerv( GL2GL3.GL_PACK_LSB_FIRST, a, 0 );
psm.setPackLsbFirst( ( a[0] == 1 ) );
gl.glGetIntegerv( GL2GL3.GL_PACK_SWAP_BYTES, a, 0 );
psm.setPackSwapBytes( ( a[0] == 1 ) );
gl.glGetIntegerv( GL2GL3.GL_PACK_SKIP_IMAGES, a, 0 );
psm.setPackSkipImages( a[0] );
gl.glGetIntegerv( GL2GL3.GL_PACK_IMAGE_HEIGHT, a, 0 );
psm.setPackImageHeight( a[0] );
}
public static int gluScaleImage( final GL gl, final int format, final int widthin, final int heightin,
final int typein, final ByteBuffer datain, final int widthout, final int heightout,
final int typeout, final ByteBuffer dataout ) {
final int datainPos = datain.position();
final int dataoutPos = dataout.position();
try {
int components;
ByteBuffer beforeimage;
ByteBuffer afterimage;
final PixelStorageModes psm = new PixelStorageModes();
if( (widthin == 0) || (heightin == 0) || (widthout == 0) || (heightout == 0) ) {
return( 0 );
}
if( (widthin < 0) || (heightin < 0) || (widthout < 0) || (heightout < 0) ) {
return( GLU.GLU_INVALID_VALUE );
}
if( !legalFormat( format ) || !legalType( typein ) || !legalType( typeout ) ) {
return( GLU.GLU_INVALID_ENUM );
}
if( !isLegalFormatForPackedPixelType( format, typein ) ) {
return( GLU.GLU_INVALID_OPERATION );
}
if( !isLegalFormatForPackedPixelType( format, typeout ) ) {
return( GLU.GLU_INVALID_OPERATION );
}
beforeimage = Buffers.newDirectByteBuffer( image_size( widthin, heightin, format, GL.GL_UNSIGNED_SHORT ) );
afterimage = Buffers.newDirectByteBuffer( image_size( widthout, heightout, format, GL.GL_UNSIGNED_SHORT ) );
if( beforeimage == null || afterimage == null ) {
return( GLU.GLU_OUT_OF_MEMORY );
}
retrieveStoreModes( gl, psm );
Image.fill_image( psm, widthin, heightin, format, typein, is_index( format ), datain, beforeimage.asShortBuffer() );
components = elements_per_group( format, 0 );
ScaleInternal.scale_internal( components, widthin, heightin, beforeimage.asShortBuffer(), widthout, heightout, afterimage.asShortBuffer() );
Image.empty_image( psm, widthout, heightout, format, typeout, is_index( format ), afterimage.asShortBuffer(), dataout );
return( 0 );
} finally {
datain.position(datainPos);
dataout.position(dataoutPos);
}
}
public static int gluBuild1DMipmapLevels( final GL gl, final int target, final int internalFormat,
final int width, final int format, final int type, final int userLevel, final int baseLevel,
final int maxLevel, final ByteBuffer data ) {
final int dataPos = data.position();
try {
int levels;
final int rc = checkMipmapArgs( internalFormat, format, type );
if( rc != 0 ) {
return( rc );
}
if( width < 1 ) {
return( GLU.GLU_INVALID_VALUE );
}
levels = computeLog( width );
levels += userLevel;
if( !isLegalLevels( userLevel, baseLevel, maxLevel, levels ) ) {
return( GLU.GLU_INVALID_VALUE );
}
return( BuildMipmap.gluBuild1DMipmapLevelsCore( gl, target, internalFormat, width,
width, format, type, userLevel, baseLevel, maxLevel, data ) );
} finally {
data.position(dataPos);
}
}
public static int gluBuild1DMipmaps( final GL gl, final int target, final int internalFormat, final int width,
final int format, final int type, final ByteBuffer data ) {
final int dataPos = data.position();
try {
final int[] widthPowerOf2 = new int[1];
int levels;
final int[] dummy = new int[1];
final int rc = checkMipmapArgs( internalFormat, format, type );
if( rc != 0 ) {
return( rc );
}
if( width < 1 ) {
return( GLU.GLU_INVALID_VALUE );
}
closestFit( gl, target, width, 1, internalFormat, format, type, widthPowerOf2, dummy );
levels = computeLog( widthPowerOf2[0] );
return( BuildMipmap.gluBuild1DMipmapLevelsCore( gl, target, internalFormat,
width, widthPowerOf2[0], format, type, 0, 0, levels, data ) );
} finally {
data.position(dataPos);
}
}
public static int gluBuild2DMipmapLevels( final GL gl, final int target, final int internalFormat,
final int width, final int height, final int format, final int type, final int userLevel,
final int baseLevel, final int maxLevel, final Object data ) {
int level, levels;
final int rc = checkMipmapArgs( internalFormat, format, type );
if( rc != 0 ) {
return( rc );
}
if( width < 1 || height < 1 ) {
return( GLU.GLU_INVALID_VALUE );
}
levels = computeLog( width );
level = computeLog( height );
if( level > levels ) {
levels = level;
}
levels += userLevel;
if( !isLegalLevels( userLevel, baseLevel, maxLevel, levels ) ) {
return( GLU.GLU_INVALID_VALUE );
}
//PointerWrapper pointer = PointerWrapperFactory.getPointerWrapper( data );
final ByteBuffer buffer;
if( data instanceof ByteBuffer ) {
buffer = (ByteBuffer)data;
} else if( data instanceof byte[] ) {
final byte[] array = (byte[])data;
buffer = ByteBuffer.allocateDirect(array.length);
buffer.put(array);
buffer.flip();
} else if( data instanceof short[] ) {
final short[] array = (short[])data;
buffer = ByteBuffer.allocateDirect( array.length * 2 );
final ShortBuffer sb = buffer.asShortBuffer();
sb.put( array );
} else if( data instanceof int[] ) {
final int[] array = (int[])data;
buffer = ByteBuffer.allocateDirect( array.length * 4 );
final IntBuffer ib = buffer.asIntBuffer();
ib.put( array );
} else if( data instanceof float[] ) {
final float[] array = (float[])data;
buffer = ByteBuffer.allocateDirect( array.length * 4 );
final FloatBuffer fb = buffer.asFloatBuffer();
fb.put( array );
} else {
throw new IllegalArgumentException("Unhandled data type: "+data.getClass().getName());
}
final int dataPos = buffer.position();
try {
return( BuildMipmap.gluBuild2DMipmapLevelsCore( gl, target, internalFormat,
width, height, width, height, format, type, userLevel, baseLevel,
maxLevel, buffer ) );
} finally {
buffer.position(dataPos);
}
}
public static int gluBuild2DMipmaps( final GL gl, final int target, final int internalFormat,
final int width, final int height, final int format, final int type, final Object data ) {
final int[] widthPowerOf2 = new int[1];
final int[] heightPowerOf2 = new int[1];
int level, levels;
final int rc = checkMipmapArgs( internalFormat, format, type );
if( rc != 0 ) {
return( rc );
}
if( width < 1 || height < 1 ) {
return( GLU.GLU_INVALID_VALUE );
}
closestFit( gl, target, width, height, internalFormat, format, type,
widthPowerOf2, heightPowerOf2 );
levels = computeLog( widthPowerOf2[0] );
level = computeLog( heightPowerOf2[0] );
if( level > levels ) {
levels = level;
}
//PointerWrapper pointer = PointerWrapperFactory.getPointerWrapper( data );
final ByteBuffer buffer;
if( data instanceof ByteBuffer ) {
buffer = (ByteBuffer)data;
} else if( data instanceof byte[] ) {
final byte[] array = (byte[])data;
buffer = ByteBuffer.allocateDirect(array.length);
buffer.put(array);
buffer.flip();
} else if( data instanceof short[] ) {
final short[] array = (short[])data;
buffer = ByteBuffer.allocateDirect( array.length * 2 );
final ShortBuffer sb = buffer.asShortBuffer();
sb.put( array );
} else if( data instanceof int[] ) {
final int[] array = (int[])data;
buffer = ByteBuffer.allocateDirect( array.length * 4 );
final IntBuffer ib = buffer.asIntBuffer();
ib.put( array );
} else if( data instanceof float[] ) {
final float[] array = (float[])data;
buffer = ByteBuffer.allocateDirect( array.length * 4 );
final FloatBuffer fb = buffer.asFloatBuffer();
fb.put( array );
} else {
throw new IllegalArgumentException("Unhandled data type: "+data.getClass().getName());
}
final int dataPos = buffer.position();
try {
return( BuildMipmap.gluBuild2DMipmapLevelsCore( gl, target, internalFormat,
width, height, widthPowerOf2[0], heightPowerOf2[0], format, type, 0,
0, levels, buffer ) );
} finally {
buffer.position(dataPos);
}
}
public static int gluBuild3DMipmaps( final GL gl, final int target, final int internalFormat,
final int width, final int height, final int depth, final int format, final int type, final ByteBuffer data ) {
final int dataPos = data.position();
try {
final int[] widthPowerOf2 = new int[1];
final int[] heightPowerOf2 = new int[1];
final int[] depthPowerOf2 = new int[1];
int level, levels;
final int rc = checkMipmapArgs( internalFormat, format, type );
if( rc != 0 ) {
return( rc );
}
if( width < 1 || height < 1 || depth < 1 ) {
return( GLU.GLU_INVALID_VALUE );
}
if( type == GL2.GL_BITMAP ) {
return( GLU.GLU_INVALID_ENUM );
}
closestFit3D( gl, target, width, height, depth, internalFormat, format,
type, widthPowerOf2, heightPowerOf2, depthPowerOf2 );
levels = computeLog( widthPowerOf2[0] );
level = computeLog( heightPowerOf2[0] );
if( level > levels ) {
levels = level;
}
level = computeLog( depthPowerOf2[0] );
if( level > levels ) {
levels = level;
}
return( BuildMipmap.gluBuild3DMipmapLevelsCore( gl, target, internalFormat, width,
height, depth, widthPowerOf2[0], heightPowerOf2[0], depthPowerOf2[0],
format, type, 0, 0, levels, data ) );
} finally {
data.position(dataPos);
}
}
public static int gluBuild3DMipmapLevels( final GL gl, final int target, final int internalFormat,
final int width, final int height, final int depth, final int format, final int type, final int userLevel,
final int baseLevel, final int maxLevel, final ByteBuffer data ) {
final int dataPos = data.position();
try {
int level, levels;
final int rc = checkMipmapArgs( internalFormat, format, type );
if( rc != 0 ) {
return( rc );
}
if( width < 1 || height < 1 || depth < 1 ) {
return( GLU.GLU_INVALID_VALUE );
}
if( type == GL2.GL_BITMAP ) {
return( GLU.GLU_INVALID_ENUM );
}
levels = computeLog( width );
level = computeLog( height );
if( level > levels ) {
levels = level;
}
level = computeLog( depth );
if( level > levels ) {
levels = level;
}
levels += userLevel;
if( !isLegalLevels( userLevel, baseLevel, maxLevel, levels ) ) {
return( GLU.GLU_INVALID_VALUE );
}
return( BuildMipmap.gluBuild3DMipmapLevelsCore( gl, target, internalFormat, width,
height, depth, width, height, depth, format, type, userLevel,
baseLevel, maxLevel, data ) );
} finally {
data.position(dataPos);
}
}
}
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