diff options
| author | Sven Gothel <[email protected]> | 2012-04-02 08:28:56 +0200 |
|---|---|---|
| committer | Sven Gothel <[email protected]> | 2012-04-02 08:28:56 +0200 |
| commit | de2b129a56335262a44a05541a3ab2e35668cc6e (patch) | |
| tree | cc38af2233fe39f9eaecf945b8af62065bb783ff | |
| parent | 7642d54fb2cae56331c28a780a4f9074fa904016 (diff) | |
ProjectFloat: Promote to public, exposing general matrix/vector math, custom instancing using sliced nio-buffer/primitive-array
| -rw-r--r-- | src/jogl/classes/com/jogamp/opengl/util/PMVMatrix.java | 125 | ||||
| -rw-r--r-- | src/jogl/classes/com/jogamp/opengl/util/ProjectFloat.java (renamed from src/jogl/classes/jogamp/opengl/ProjectFloat.java) | 562 |
2 files changed, 362 insertions, 325 deletions
diff --git a/src/jogl/classes/com/jogamp/opengl/util/PMVMatrix.java b/src/jogl/classes/com/jogamp/opengl/util/PMVMatrix.java index 10ea29168..1db3f132f 100644 --- a/src/jogl/classes/com/jogamp/opengl/util/PMVMatrix.java +++ b/src/jogl/classes/com/jogamp/opengl/util/PMVMatrix.java @@ -1,5 +1,6 @@ /* * Copyright (c) 2009 Sun Microsystems, Inc. All Rights Reserved. + * Copyright (c) 2011 JogAmp Community. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are @@ -33,16 +34,18 @@ package com.jogamp.opengl.util; -import com.jogamp.common.nio.Buffers; -import jogamp.opengl.ProjectFloat; - -import java.nio.*; +import java.nio.Buffer; +import java.nio.FloatBuffer; +import java.nio.IntBuffer; import java.util.ArrayList; import java.util.List; -import javax.media.opengl.*; +import javax.media.opengl.GL; +import javax.media.opengl.GLException; import javax.media.opengl.fixedfunc.GLMatrixFunc; +import com.jogamp.common.nio.Buffers; + public class PMVMatrix implements GLMatrixFunc { protected final float[] matrixBufferArray; @@ -69,8 +72,6 @@ public class PMVMatrix implements GLMatrixFunc { * this flag shall be set to <code>true</code> or <code>false</code></p>. */ public PMVMatrix(boolean useBackingArray) { - projectFloat = new ProjectFloat(); - // I Identity // T Texture // P Projection @@ -78,29 +79,30 @@ public class PMVMatrix implements GLMatrixFunc { // Mvi Modelview-Inverse // Mvit Modelview-Inverse-Transpose if(useBackingArray) { - matrixBufferArray = new float[6*16]; + matrixBufferArray = new float[ 6*16 + ProjectFloat.getRequiredFloatBufferSize() ]; matrixBuffer = null; - // matrixBuffer = FloatBuffer.wrap(new float[12*16]); } else { matrixBufferArray = null; - matrixBuffer = Buffers.newDirectByteBuffer(6*16 * Buffers.SIZEOF_FLOAT); + matrixBuffer = Buffers.newDirectByteBuffer( ( 6*16 + ProjectFloat.getRequiredFloatBufferSize() ) * Buffers.SIZEOF_FLOAT ); matrixBuffer.mark(); } - matrixIdent = slice2Float(matrixBuffer, matrixBufferArray, 0*16, 1*16); // I - matrixTex = slice2Float(matrixBuffer, matrixBufferArray, 1*16, 1*16); // T - matrixPMvMvit = slice2Float(matrixBuffer, matrixBufferArray, 2*16, 4*16); // P + Mv + Mvi + Mvit - matrixPMvMvi = slice2Float(matrixBuffer, matrixBufferArray, 2*16, 3*16); // P + Mv + Mvi - matrixPMv = slice2Float(matrixBuffer, matrixBufferArray, 2*16, 2*16); // P + Mv - matrixP = slice2Float(matrixBuffer, matrixBufferArray, 2*16, 1*16); // P - matrixMv = slice2Float(matrixBuffer, matrixBufferArray, 3*16, 1*16); // Mv - matrixMvi = slice2Float(matrixBuffer, matrixBufferArray, 4*16, 1*16); // Mvi - matrixMvit = slice2Float(matrixBuffer, matrixBufferArray, 5*16, 1*16); // Mvit + matrixIdent = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 0*16, 1*16); // I + matrixTex = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 1*16, 1*16); // T + matrixPMvMvit = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 2*16, 4*16); // P + Mv + Mvi + Mvit + matrixPMvMvi = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 2*16, 3*16); // P + Mv + Mvi + matrixPMv = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 2*16, 2*16); // P + Mv + matrixP = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 2*16, 1*16); // P + matrixMv = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 3*16, 1*16); // Mv + matrixMvi = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 4*16, 1*16); // Mvi + matrixMvit = ProjectFloat.slice2Float(matrixBuffer, matrixBufferArray, 5*16, 1*16); // Mvit + + projectFloat = new ProjectFloat(matrixBuffer, matrixBufferArray, 6*16); if(null != matrixBuffer) { matrixBuffer.reset(); } - ProjectFloat.gluMakeIdentityf(matrixIdent); + ProjectFloat.makeIdentityf(matrixIdent); vec3f = new float[3]; matrixMult = new float[16]; @@ -109,11 +111,11 @@ public class PMVMatrix implements GLMatrixFunc { matrixScale = new float[16]; matrixOrtho = new float[16]; matrixFrustum = new float[16]; - ProjectFloat.gluMakeIdentityf(matrixTrans, 0); - ProjectFloat.gluMakeIdentityf(matrixRot, 0); - ProjectFloat.gluMakeIdentityf(matrixScale, 0); - ProjectFloat.gluMakeIdentityf(matrixOrtho, 0); - ProjectFloat.gluMakeZero(matrixFrustum, 0); + ProjectFloat.makeIdentityf(matrixTrans, 0); + ProjectFloat.makeIdentityf(matrixRot, 0); + ProjectFloat.makeIdentityf(matrixScale, 0); + ProjectFloat.makeIdentityf(matrixOrtho, 0); + ProjectFloat.makeZero(matrixFrustum, 0); matrixPStack = new ArrayList<float[]>(); matrixMvStack= new ArrayList<float[]>(); @@ -161,43 +163,6 @@ public class PMVMatrix implements GLMatrixFunc { } - /** - * Slices a ByteBuffer to a FloatBuffer at the given position with the given size - * in float-space. Using a ByteBuffer as the source guarantees - * keeping the source native order programmatically. - * This works around <a href="http://code.google.com/p/android/issues/detail?id=16434">Honeycomb / Android 3.0 Issue 16434</a>. - * This bug is resolved at least in Android 3.2. - * - * @param buf source ByteBuffer - * @param backing source float array - * @param posFloat {@link Buffers#SIZEOF_FLOAT} position - * @param lenFloat {@link Buffers#SIZEOF_FLOAT} size - * @return FloatBuffer w/ native byte order as given ByteBuffer - */ - private static FloatBuffer slice2Float(Buffer buf, float[] backing, int posFloat, int lenFloat) { - if(buf instanceof ByteBuffer) { - ByteBuffer bb = (ByteBuffer) buf; - bb.position( posFloat * Buffers.SIZEOF_FLOAT ); - bb.limit( (posFloat + lenFloat) * Buffers.SIZEOF_FLOAT ); - FloatBuffer fb = bb.slice().order(bb.order()).asFloatBuffer(); // slice and duplicate may change byte order - fb.mark(); - return fb; - } else if(null != backing) { - FloatBuffer fb = FloatBuffer.wrap(backing, posFloat, lenFloat); - fb.mark(); - return fb; - } else if(buf instanceof FloatBuffer) { - FloatBuffer fb = (FloatBuffer) buf; - fb.position( posFloat ); - fb.limit( posFloat + lenFloat ); - FloatBuffer fb0 = fb.slice(); // slice and duplicate may change byte order - fb0.mark(); - return fb0; - } else { - throw new InternalError("XXX"); - } - } - public static final boolean isMatrixModeName(final int matrixModeName) { switch(matrixModeName) { case GL_MODELVIEW_MATRIX: @@ -364,30 +329,6 @@ public class PMVMatrix implements GLMatrixFunc { glFrustumf(left, right, bottom, top, zNear, zFar); } - public static final void glMultMatrixf(final FloatBuffer a, final FloatBuffer b, FloatBuffer d) { - final int aP = a.position(); - final int bP = b.position(); - final int dP = d.position(); - for (int i = 0; i < 4; i++) { - final float ai0=a.get(aP+i+0*4), ai1=a.get(aP+i+1*4), ai2=a.get(aP+i+2*4), ai3=a.get(aP+i+3*4); - d.put(dP+i+0*4 , ai0 * b.get(bP+0+0*4) + ai1 * b.get(bP+1+0*4) + ai2 * b.get(bP+2+0*4) + ai3 * b.get(bP+3+0*4) ); - d.put(dP+i+1*4 , ai0 * b.get(bP+0+1*4) + ai1 * b.get(bP+1+1*4) + ai2 * b.get(bP+2+1*4) + ai3 * b.get(bP+3+1*4) ); - d.put(dP+i+2*4 , ai0 * b.get(bP+0+2*4) + ai1 * b.get(bP+1+2*4) + ai2 * b.get(bP+2+2*4) + ai3 * b.get(bP+3+2*4) ); - d.put(dP+i+3*4 , ai0 * b.get(bP+0+3*4) + ai1 * b.get(bP+1+3*4) + ai2 * b.get(bP+2+3*4) + ai3 * b.get(bP+3+3*4) ); - } - } - public static final void glMultMatrixf(final FloatBuffer a, final float[] b, int b_off, FloatBuffer d) { - final int aP = a.position(); - final int dP = d.position(); - for (int i = 0; i < 4; i++) { - final float ai0=a.get(aP+i+0*4), ai1=a.get(aP+i+1*4), ai2=a.get(aP+i+2*4), ai3=a.get(aP+i+3*4); - d.put(dP+i+0*4 , ai0 * b[b_off+0+0*4] + ai1 * b[b_off+1+0*4] + ai2 * b[b_off+2+0*4] + ai3 * b[b_off+3+0*4] ); - d.put(dP+i+1*4 , ai0 * b[b_off+0+1*4] + ai1 * b[b_off+1+1*4] + ai2 * b[b_off+2+1*4] + ai3 * b[b_off+3+1*4] ); - d.put(dP+i+2*4 , ai0 * b[b_off+0+2*4] + ai1 * b[b_off+1+2*4] + ai2 * b[b_off+2+2*4] + ai3 * b[b_off+3+2*4] ); - d.put(dP+i+3*4 , ai0 * b[b_off+0+3*4] + ai1 * b[b_off+1+3*4] + ai2 * b[b_off+2+3*4] + ai3 * b[b_off+3+3*4] ); - } - } - // // MatrixIf // @@ -524,26 +465,26 @@ public class PMVMatrix implements GLMatrixFunc { public final void glMultMatrixf(final FloatBuffer m) { if(matrixMode==GL_MODELVIEW) { - glMultMatrixf(matrixMv, m, matrixMv); + ProjectFloat.multMatrixf(matrixMv, m, matrixMv); modified |= DIRTY_MODELVIEW ; } else if(matrixMode==GL_PROJECTION) { - glMultMatrixf(matrixP, m, matrixP); + ProjectFloat.multMatrixf(matrixP, m, matrixP); modified |= DIRTY_PROJECTION ; } else if(matrixMode==GL.GL_TEXTURE) { - glMultMatrixf(matrixTex, m, matrixTex); + ProjectFloat.multMatrixf(matrixTex, m, matrixTex); modified |= DIRTY_TEXTURE ; } } public void glMultMatrixf(float[] m, int m_offset) { if(matrixMode==GL_MODELVIEW) { - glMultMatrixf(matrixMv, m, m_offset, matrixMv); + ProjectFloat.multMatrixf(matrixMv, m, m_offset, matrixMv); modified |= DIRTY_MODELVIEW ; } else if(matrixMode==GL_PROJECTION) { - glMultMatrixf(matrixP, m, m_offset, matrixP); + ProjectFloat.multMatrixf(matrixP, m, m_offset, matrixP); modified |= DIRTY_PROJECTION ; } else if(matrixMode==GL.GL_TEXTURE) { - glMultMatrixf(matrixTex, m, m_offset, matrixTex); + ProjectFloat.multMatrixf(matrixTex, m, m_offset, matrixTex); modified |= DIRTY_TEXTURE ; } } diff --git a/src/jogl/classes/jogamp/opengl/ProjectFloat.java b/src/jogl/classes/com/jogamp/opengl/util/ProjectFloat.java index 1c69fa370..aa1258c34 100644 --- a/src/jogl/classes/jogamp/opengl/ProjectFloat.java +++ b/src/jogl/classes/com/jogamp/opengl/util/ProjectFloat.java @@ -79,6 +79,7 @@ /* * Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved. + * Copyright (c) 2011 JogAmp Community. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are @@ -112,12 +113,15 @@ * in the design, construction, operation or maintenance of any nuclear * facility. */ -package jogamp.opengl; +package com.jogamp.opengl.util; -import java.nio.*; +import java.nio.Buffer; +import java.nio.ByteBuffer; +import java.nio.FloatBuffer; +import java.nio.IntBuffer; -import javax.media.opengl.*; import javax.media.opengl.fixedfunc.GLMatrixFunc; + import com.jogamp.common.nio.Buffers; /** @@ -128,6 +132,7 @@ import com.jogamp.common.nio.Buffers; * * @author Erik Duijs * @author Kenneth Russell + * @author Sven Gothel */ public class ProjectFloat { private static final float[] IDENTITY_MATRIX = @@ -144,80 +149,19 @@ public class ProjectFloat { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f }; - // Note that we have cloned parts of the implementation in order to - // support incoming Buffers. The reason for this is to avoid loading - // non-direct buffer subclasses unnecessarily, because doing so can - // cause performance decreases on direct buffer operations, at least - // on the current HotSpot JVM. It would be nicer (and make the code - // simpler) to simply have the array-based entry points delegate to - // the versions taking Buffers by wrapping the arrays. - - // Array-based implementation - private final float[] matrix = new float[16]; - private final float[][] tempInvertMatrix = new float[4][4]; - - private final float[] in = new float[4]; - private final float[] out = new float[4]; - - private final float[] forward = new float[3]; - private final float[] side = new float[3]; - private final float[] up = new float[3]; - - // Buffer-based implementation - private FloatBuffer locbuf; - private final FloatBuffer matrixBuf; - private final FloatBuffer tempInvertMatrixBuf; - - private final FloatBuffer inBuf; - private final FloatBuffer outBuf; - - private final FloatBuffer forwardBuf; - private final FloatBuffer sideBuf; - private final FloatBuffer upBuf; - - public ProjectFloat() { - // Use direct buffers to avoid loading indirect buffer - // implementations for applications trying to avoid doing so. - // Slice up one big buffer because some NIO implementations - // allocate a huge amount of memory to back even the smallest of - // buffers. - locbuf = Buffers.newDirectFloatBuffer(2*16+2*4+3*3); - int pos = 0; - int sz = 16; - matrixBuf = slice(locbuf, pos, sz); - pos += sz; - tempInvertMatrixBuf = slice(locbuf, pos, sz); - pos += sz; - sz = 4; - inBuf = slice(locbuf, pos, sz); - pos += sz; - outBuf = slice(locbuf, pos, sz); - pos += sz; - sz = 3; - forwardBuf = slice(locbuf, pos, sz); - pos += sz; - sideBuf = slice(locbuf, pos, sz); - pos += sz; - upBuf = slice(locbuf, pos, sz); - } - - public void destroy() { - if(locbuf!=null) { - locbuf.clear(); - locbuf=null; + /** + * Make matrix an identity matrix + */ + public static void makeIdentityf(float[] m, int offset) { + for (int i = 0; i < 16; i++) { + m[i+offset] = IDENTITY_MATRIX[i]; } } - private static FloatBuffer slice(FloatBuffer buf, int pos, int len) { - buf.position(pos); - buf.limit(pos + len); - return buf.slice(); - } - /** * Make matrix an identity matrix */ - public static void gluMakeIdentityf(FloatBuffer m) { + public static void makeIdentityf(FloatBuffer m) { int oldPos = m.position(); m.put(IDENTITY_MATRIX); m.position(oldPos); @@ -226,68 +170,335 @@ public class ProjectFloat { /** * Make matrix an zero matrix */ - public static void gluMakeZero(FloatBuffer m) { + public static void makeZero(float[] m, int offset) { + for (int i = 0; i < 16; i++) { + m[i+offset] = 0; + } + } + + /** + * Make matrix an zero matrix + */ + public static void makeZero(FloatBuffer m) { int oldPos = m.position(); m.put(ZERO_MATRIX); m.position(oldPos); } + + /** + * @param a + * @param b + * @param d result a*b + */ + public static final void multMatrixf(final float[] a, int a_off, final float[] b, int b_off, float[] d, int d_off) { + for (int i = 0; i < 4; i++) { + final float ai0=a[a_off+i+0*4], ai1=a[a_off+i+1*4], ai2=a[a_off+i+2*4], ai3=a[a_off+i+3*4]; + d[d_off+i+0*4] = ai0 * b[b_off+0+0*4] + ai1 * b[b_off+1+0*4] + ai2 * b[b_off+2+0*4] + ai3 * b[b_off+3+0*4] ; + d[d_off+i+1*4] = ai0 * b[b_off+0+1*4] + ai1 * b[b_off+1+1*4] + ai2 * b[b_off+2+1*4] + ai3 * b[b_off+3+1*4] ; + d[d_off+i+2*4] = ai0 * b[b_off+0+2*4] + ai1 * b[b_off+1+2*4] + ai2 * b[b_off+2+2*4] + ai3 * b[b_off+3+2*4] ; + d[d_off+i+3*4] = ai0 * b[b_off+0+3*4] + ai1 * b[b_off+1+3*4] + ai2 * b[b_off+2+3*4] + ai3 * b[b_off+3+3*4] ; + } + } /** - * Make matrix an identity matrix + * @param a + * @param b + * @param d result a*b */ - public static void gluMakeIdentityf(float[] m, int offset) { - for (int i = 0; i < 16; i++) { - m[i+offset] = IDENTITY_MATRIX[i]; + public static final void multMatrixf(final float[] a, int a_off, final float[] b, int b_off, FloatBuffer d) { + final int dP = d.position(); + for (int i = 0; i < 4; i++) { + final float ai0=a[a_off+i+0*4], ai1=a[a_off+i+1*4], ai2=a[a_off+i+2*4], ai3=a[a_off+i+3*4]; + d.put(dP+i+0*4 , ai0 * b[b_off+0+0*4] + ai1 * b[b_off+1+0*4] + ai2 * b[b_off+2+0*4] + ai3 * b[b_off+3+0*4] ); + d.put(dP+i+1*4 , ai0 * b[b_off+0+1*4] + ai1 * b[b_off+1+1*4] + ai2 * b[b_off+2+1*4] + ai3 * b[b_off+3+1*4] ); + d.put(dP+i+2*4 , ai0 * b[b_off+0+2*4] + ai1 * b[b_off+1+2*4] + ai2 * b[b_off+2+2*4] + ai3 * b[b_off+3+2*4] ); + d.put(dP+i+3*4 , ai0 * b[b_off+0+3*4] + ai1 * b[b_off+1+3*4] + ai2 * b[b_off+2+3*4] + ai3 * b[b_off+3+3*4] ); + } + } + + /** + * @param a + * @param b + * @param d result a*b + */ + public static final void multMatrixf(final FloatBuffer a, final float[] b, int b_off, FloatBuffer d) { + final int aP = a.position(); + final int dP = d.position(); + for (int i = 0; i < 4; i++) { + final float ai0=a.get(aP+i+0*4), ai1=a.get(aP+i+1*4), ai2=a.get(aP+i+2*4), ai3=a.get(aP+i+3*4); + d.put(dP+i+0*4 , ai0 * b[b_off+0+0*4] + ai1 * b[b_off+1+0*4] + ai2 * b[b_off+2+0*4] + ai3 * b[b_off+3+0*4] ); + d.put(dP+i+1*4 , ai0 * b[b_off+0+1*4] + ai1 * b[b_off+1+1*4] + ai2 * b[b_off+2+1*4] + ai3 * b[b_off+3+1*4] ); + d.put(dP+i+2*4 , ai0 * b[b_off+0+2*4] + ai1 * b[b_off+1+2*4] + ai2 * b[b_off+2+2*4] + ai3 * b[b_off+3+2*4] ); + d.put(dP+i+3*4 , ai0 * b[b_off+0+3*4] + ai1 * b[b_off+1+3*4] + ai2 * b[b_off+2+3*4] + ai3 * b[b_off+3+3*4] ); + } + } + + /** + * @param a + * @param b + * @param d result a*b + */ + public static final void multMatrixf(final FloatBuffer a, final FloatBuffer b, FloatBuffer d) { + final int aP = a.position(); + final int bP = b.position(); + final int dP = d.position(); + for (int i = 0; i < 4; i++) { + final float ai0=a.get(aP+i+0*4), ai1=a.get(aP+i+1*4), ai2=a.get(aP+i+2*4), ai3=a.get(aP+i+3*4); + d.put(dP+i+0*4 , ai0 * b.get(bP+0+0*4) + ai1 * b.get(bP+1+0*4) + ai2 * b.get(bP+2+0*4) + ai3 * b.get(bP+3+0*4) ); + d.put(dP+i+1*4 , ai0 * b.get(bP+0+1*4) + ai1 * b.get(bP+1+1*4) + ai2 * b.get(bP+2+1*4) + ai3 * b.get(bP+3+1*4) ); + d.put(dP+i+2*4 , ai0 * b.get(bP+0+2*4) + ai1 * b.get(bP+1+2*4) + ai2 * b.get(bP+2+2*4) + ai3 * b.get(bP+3+2*4) ); + d.put(dP+i+3*4 , ai0 * b.get(bP+0+3*4) + ai1 * b.get(bP+1+3*4) + ai2 * b.get(bP+2+3*4) + ai3 * b.get(bP+3+3*4) ); + } + } + + + /** + * Normalize vector + * + * @param v makes len(v)==1 + */ + public static void normalize(float[] v) { + float r = (float) Math.sqrt(v[0] * v[0] + v[1] * v[1] + v[2] * v[2]); + + if ( r == 0.0 || r == 1.0) { + return; } + + r = 1.0f / r; + + v[0] *= r; + v[1] *= r; + v[2] *= r; } /** - * Make matrix an zero matrix + * Normalize vector + * + * @param v makes len(v)==1 */ - public static void gluMakeZero(float[] m, int offset) { - for (int i = 0; i < 16; i++) { - m[i+offset] = 0; + public static void normalize(FloatBuffer v) { + final int vPos = v.position(); + + float r = (float) Math.sqrt(v.get(0+vPos) * v.get(0+vPos) + + v.get(1+vPos) * v.get(1+vPos) + + v.get(2+vPos) * v.get(2+vPos)); + + if ( r == 0.0 || r == 1.0) { + return; } + + r = 1.0f / r; + + v.put(0+vPos, v.get(0+vPos) * r); + v.put(1+vPos, v.get(1+vPos) * r); + v.put(2+vPos, v.get(2+vPos) * r); + } + + + /** + * Calculate cross-product + * + * @param v1 + * @param v2 + * @param result v1 X v2 + */ + public static void cross(float[] v1, float[] v2, float[] result) { + result[0] = v1[1] * v2[2] - v1[2] * v2[1]; + result[1] = v1[2] * v2[0] - v1[0] * v2[2]; + result[2] = v1[0] * v2[1] - v1[1] * v2[0]; + } + + /** + * Calculate cross-product + * + * @param v1 + * @param v2 + * @param result v1 X v2 + */ + public static void cross(FloatBuffer v1, FloatBuffer v2, FloatBuffer result) { + final int v1Pos = v1.position(); + final int v2Pos = v2.position(); + final int rPos = result.position(); + + result.put(0+rPos, v1.get(1+v1Pos) * v2.get(2+v2Pos) - v1.get(2+v1Pos) * v2.get(1+v2Pos)); + result.put(1+rPos, v1.get(2+v1Pos) * v2.get(0+v2Pos) - v1.get(0+v1Pos) * v2.get(2+v2Pos)); + result.put(2+rPos, v1.get(0+v1Pos) * v2.get(1+v2Pos) - v1.get(1+v1Pos) * v2.get(0+v2Pos)); } /** * Method __gluMultMatrixVecf * - * @param matrix - * @param in - * @param out + * @param m_in + * @param m_in_off + * @param v_in + * @param v_out m_in * v_in */ - private void __gluMultMatrixVecf(float[] matrix, int matrix_offset, float[] in, float[] out) { + public static void multMatrixVecf(float[] m_in, int m_in_off, float[] v_in, int v_in_off, float[] v_out) { for (int i = 0; i < 4; i++) { - out[i] = - in[0] * matrix[0*4+i+matrix_offset] + - in[1] * matrix[1*4+i+matrix_offset] + - in[2] * matrix[2*4+i+matrix_offset] + - in[3] * matrix[3*4+i+matrix_offset]; + v_out[i] = + v_in[0+v_in_off] * m_in[0*4+i+m_in_off] + + v_in[1+v_in_off] * m_in[1*4+i+m_in_off] + + v_in[2+v_in_off] * m_in[2*4+i+m_in_off] + + v_in[3+v_in_off] * m_in[3*4+i+m_in_off]; } } /** * Method __gluMultMatrixVecf * - * @param matrix - * @param in - * @param out + * @param m_in + * @param m_in_off + * @param v_in + * @param v_out m_in * v_in + */ + public static void multMatrixVecf(float[] m_in, float[] v_in, float[] v_out) { + for (int i = 0; i < 4; i++) { + v_out[i] = + v_in[0] * m_in[0*4+i] + + v_in[1] * m_in[1*4+i] + + v_in[2] * m_in[2*4+i] + + v_in[3] * m_in[3*4+i]; + } + } + + /** + * Method __gluMultMatrixVecf + * + * @param m_in + * @param v_in + * @param v_out m_in * v_in */ - private void __gluMultMatrixVecf(FloatBuffer matrix, FloatBuffer in, FloatBuffer out) { - int inPos = in.position(); - int outPos = out.position(); - int matrixPos = matrix.position(); + public static void multMatrixVecf(FloatBuffer m_in, FloatBuffer v_in, FloatBuffer v_out) { + int inPos = v_in.position(); + int outPos = v_out.position(); + int matrixPos = m_in.position(); for (int i = 0; i < 4; i++) { - out.put(i + outPos, - in.get(0+inPos) * matrix.get(0*4+i+matrixPos) + - in.get(1+inPos) * matrix.get(1*4+i+matrixPos) + - in.get(2+inPos) * matrix.get(2*4+i+matrixPos) + - in.get(3+inPos) * matrix.get(3*4+i+matrixPos)); + v_out.put(i + outPos, + v_in.get(0+inPos) * m_in.get(0*4+i+matrixPos) + + v_in.get(1+inPos) * m_in.get(1*4+i+matrixPos) + + v_in.get(2+inPos) * m_in.get(2*4+i+matrixPos) + + v_in.get(3+inPos) * m_in.get(3*4+i+matrixPos)); } } /** + * Slices a ByteBuffer or a primitive float array to a FloatBuffer at the given position with the given size + * in float-space. + * <p> + * Using a ByteBuffer as the source guarantees + * keeping the source native order programmatically. + * This works around <a href="http://code.google.com/p/android/issues/detail?id=16434">Honeycomb / Android 3.0 Issue 16434</a>. + * This bug is resolved at least in Android 3.2. + * </p> + * + * @param buf source Buffer, maybe ByteBuffer (recommended) or FloatBuffer or <code>null</code>. + * Buffer's position is ignored and floatPos is being used. + * @param backing source float array or <code>null</code> + * @param floatPos {@link Buffers#SIZEOF_FLOAT} position + * @param floatSize {@link Buffers#SIZEOF_FLOAT} size + * @return FloatBuffer w/ native byte order as given ByteBuffer + */ + public static FloatBuffer slice2Float(Buffer buf, float[] backing, int floatPos, int floatSize) { + if(buf instanceof ByteBuffer) { + ByteBuffer bb = (ByteBuffer) buf; + bb.position( floatPos * Buffers.SIZEOF_FLOAT ); + bb.limit( (floatPos + floatSize) * Buffers.SIZEOF_FLOAT ); + FloatBuffer fb = bb.slice().order(bb.order()).asFloatBuffer(); // slice and duplicate may change byte order + fb.mark(); + return fb; + } else if(null != backing) { + FloatBuffer fb = FloatBuffer.wrap(backing, floatPos, floatSize); + fb.mark(); + return fb; + } else if(buf instanceof FloatBuffer) { + FloatBuffer fb = (FloatBuffer) buf; + fb.position( floatPos ); + fb.limit( floatPos + floatSize ); + FloatBuffer fb0 = fb.slice(); // slice and duplicate may change byte order + fb0.mark(); + return fb0; + } else { + throw new InternalError("XXX"); + } + } + + public static final int getRequiredFloatBufferSize() { return 2*16+2*4+3*3; } + + // Note that we have cloned parts of the implementation in order to + // support incoming Buffers. The reason for this is to avoid loading + // non-direct buffer subclasses unnecessarily, because doing so can + // cause performance decreases on direct buffer operations, at least + // on the current HotSpot JVM. It would be nicer (and make the code + // simpler) to simply have the array-based entry points delegate to + // the versions taking Buffers by wrapping the arrays. + + // Array-based implementation + private final float[] matrix = new float[16]; + private final float[][] tempInvertMatrix = new float[4][4]; + + private final float[] in = new float[4]; + private final float[] out = new float[4]; + + // Buffer-based implementation + private FloatBuffer matrixBuf; + private FloatBuffer tempInvertMatrixBuf; + + private FloatBuffer inBuf; + private FloatBuffer outBuf; + + private FloatBuffer forwardBuf; + private FloatBuffer sideBuf; + private FloatBuffer upBuf; + + public ProjectFloat() { + this(false); + } + + public ProjectFloat(boolean useBackingArray) { + this(useBackingArray ? null : Buffers.newDirectByteBuffer(getRequiredFloatBufferSize() * Buffers.SIZEOF_FLOAT), + useBackingArray ? new float[getRequiredFloatBufferSize()] : null, + 0); + } + + /** + * @param floatBuffer source buffer, may be ByteBuffer (recommended) or FloatBuffer or <code>null</code>. + * If used, shall be ≥ {@link #getRequiredFloatBufferSize()} + floatOffset. + * Buffer's position is ignored and floatPos is being used. + * @param floatArray source float array or <code>null</code>. + * If used, size shall be ≥ {@link #getRequiredFloatBufferSize()} + floatOffset. + * @param floatOffset Offset for either of the given sources (buffer or array) + */ + public ProjectFloat(Buffer floatBuffer, float[] floatArray, int floatOffset) { + int floatPos = floatOffset; + int floatSize = 16; + matrixBuf = slice2Float(floatBuffer, floatArray, floatPos, floatSize); + floatPos += floatSize; + tempInvertMatrixBuf = slice2Float(floatBuffer, floatArray, floatPos, floatSize); + floatPos += floatSize; + floatSize = 4; + inBuf = slice2Float(floatBuffer, floatArray, floatPos, floatSize); + floatPos += floatSize; + outBuf = slice2Float(floatBuffer, floatArray, floatPos, floatSize); + floatPos += floatSize; + floatSize = 3; + forwardBuf = slice2Float(floatBuffer, floatArray, floatPos, floatSize); + floatPos += floatSize; + sideBuf = slice2Float(floatBuffer, floatArray, floatPos, floatSize); + floatPos += floatSize; + upBuf = slice2Float(floatBuffer, floatArray, floatPos, floatSize); + } + + public void destroy() { + matrixBuf = null; + tempInvertMatrixBuf = null; + inBuf = null; + outBuf = null; + forwardBuf = null; + sideBuf = null; + upBuf = null; + } + + /** * @param src * @param srcOffset * @param inverse @@ -304,7 +515,7 @@ public class ProjectFloat { temp[i][j] = src[i*4+j+srcOffset]; } } - gluMakeIdentityf(inverse, inverseOffset); + makeIdentityf(inverse, inverseOffset); for (i = 0; i < 4; i++) { // @@ -378,7 +589,7 @@ public class ProjectFloat { temp.put(i*4+j, src.get(i*4+j + srcPos)); } } - gluMakeIdentityf(inverse); + makeIdentityf(inverse); for (i = 0; i < 4; i++) { // @@ -434,122 +645,6 @@ public class ProjectFloat { /** - * @param a - * @param b - * @param r - */ - private void gluMultMatricesf(float[] a, int a_offset, float[] b, int b_offset, float[] r) { - for (int i = 0; i < 4; i++) { - for (int j = 0; j < 4; j++) { - r[i*4+j] = - a[i*4+0+a_offset]*b[0*4+j+b_offset] + - a[i*4+1+a_offset]*b[1*4+j+b_offset] + - a[i*4+2+a_offset]*b[2*4+j+b_offset] + - a[i*4+3+a_offset]*b[3*4+j+b_offset]; - } - } - } - - - /** - * @param a - * @param b - * @param r - */ - public static void gluMultMatricesf(FloatBuffer a, FloatBuffer b, FloatBuffer r) { - int aPos = a.position(); - int bPos = b.position(); - int rPos = r.position(); - - for (int i = 0; i < 4; i++) { - for (int j = 0; j < 4; j++) { - r.put(i*4+j + rPos, - a.get(i*4+0+aPos)*b.get(0*4+j+bPos) + - a.get(i*4+1+aPos)*b.get(1*4+j+bPos) + - a.get(i*4+2+aPos)*b.get(2*4+j+bPos) + - a.get(i*4+3+aPos)*b.get(3*4+j+bPos)); - } - } - } - - /** - * Normalize vector - * - * @param v - */ - public static void normalize(float[] v) { - float r; - - r = (float) Math.sqrt(v[0] * v[0] + v[1] * v[1] + v[2] * v[2]); - if ( r == 0.0 || r == 1.0) - return; - - r = 1.0f / r; - - v[0] *= r; - v[1] *= r; - v[2] *= r; - - return; - } - - /** - * Normalize vector - * - * @param v - */ - public static void normalize(FloatBuffer v) { - float r; - - int vPos = v.position(); - - r = (float) Math.sqrt(v.get(0+vPos) * v.get(0+vPos) + - v.get(1+vPos) * v.get(1+vPos) + - v.get(2+vPos) * v.get(2+vPos)); - if ( r == 0.0 || r == 1.0) - return; - - r = 1.0f / r; - - v.put(0+vPos, v.get(0+vPos) * r); - v.put(1+vPos, v.get(1+vPos) * r); - v.put(2+vPos, v.get(2+vPos) * r); - - return; - } - - - /** - * Calculate cross-product - * - * @param v1 - * @param v2 - * @param result - */ - private static void cross(float[] v1, float[] v2, float[] result) { - result[0] = v1[1] * v2[2] - v1[2] * v2[1]; - result[1] = v1[2] * v2[0] - v1[0] * v2[2]; - result[2] = v1[0] * v2[1] - v1[1] * v2[0]; - } - - /** - * Calculate cross-product - * - * @param v1 - * @param v2 - * @param result - */ - private static void cross(FloatBuffer v1, FloatBuffer v2, FloatBuffer result) { - int v1Pos = v1.position(); - int v2Pos = v2.position(); - int rPos = result.position(); - - result.put(0+rPos, v1.get(1+v1Pos) * v2.get(2+v2Pos) - v1.get(2+v1Pos) * v2.get(1+v2Pos)); - result.put(1+rPos, v1.get(2+v1Pos) * v2.get(0+v2Pos) - v1.get(0+v1Pos) * v2.get(2+v2Pos)); - result.put(2+rPos, v1.get(0+v1Pos) * v2.get(1+v2Pos) - v1.get(1+v1Pos) * v2.get(0+v2Pos)); - } - - /** * Method gluOrtho2D. * * @param left @@ -582,7 +677,7 @@ public class ProjectFloat { cotangent = (float) Math.cos(radians) / sine; - gluMakeIdentityf(matrixBuf); + makeIdentityf(matrixBuf); matrixBuf.put(0 * 4 + 0, cotangent / aspect); matrixBuf.put(1 * 4 + 1, cotangent); @@ -638,7 +733,7 @@ public class ProjectFloat { /* Recompute up as: up = side x forward */ cross(side, forward, up); - gluMakeIdentityf(matrixBuf); + makeIdentityf(matrixBuf); matrixBuf.put(0 * 4 + 0, side.get(0)); matrixBuf.put(1 * 4 + 0, side.get(1)); matrixBuf.put(2 * 4 + 0, side.get(2)); @@ -688,8 +783,8 @@ public class ProjectFloat { in[2] = objz; in[3] = 1.0f; - __gluMultMatrixVecf(modelMatrix, modelMatrix_offset, in, out); - __gluMultMatrixVecf(projMatrix, projMatrix_offset, out, in); + multMatrixVecf(modelMatrix, modelMatrix_offset, in, 0, out); + multMatrixVecf(projMatrix, projMatrix_offset, out, 0, in); if (in[3] == 0.0f) return false; @@ -738,8 +833,8 @@ public class ProjectFloat { in.put(2, objz); in.put(3, 1.0f); - __gluMultMatrixVecf(modelMatrix, in, out); - __gluMultMatrixVecf(projMatrix, out, in); + multMatrixVecf(modelMatrix, in, out); + multMatrixVecf(projMatrix, out, in); if (in.get(3) == 0.0f) return false; @@ -789,7 +884,7 @@ public class ProjectFloat { float[] in = this.in; float[] out = this.out; - gluMultMatricesf(modelMatrix, modelMatrix_offset, projMatrix, projMatrix_offset, matrix); + multMatrixf(modelMatrix, modelMatrix_offset, projMatrix, projMatrix_offset, matrix, 0); if (!gluInvertMatrixf(matrix, 0, matrix, 0)) return false; @@ -808,7 +903,7 @@ public class ProjectFloat { in[1] = in[1] * 2 - 1; in[2] = in[2] * 2 - 1; - __gluMultMatrixVecf(matrix, 0, in, out); + multMatrixVecf(matrix, in, out); if (out[3] == 0.0) return false; @@ -846,7 +941,7 @@ public class ProjectFloat { FloatBuffer in = this.inBuf; FloatBuffer out = this.outBuf; - gluMultMatricesf(modelMatrix, projMatrix, matrixBuf); + multMatrixf(modelMatrix, projMatrix, matrixBuf); if (!gluInvertMatrixf(matrixBuf, matrixBuf)) return false; @@ -867,7 +962,7 @@ public class ProjectFloat { in.put(1, in.get(1) * 2 - 1); in.put(2, in.get(2) * 2 - 1); - __gluMultMatrixVecf(matrixBuf, in, out); + multMatrixVecf(matrixBuf, in, out); if (out.get(3) == 0.0f) return false; @@ -915,7 +1010,7 @@ public class ProjectFloat { float[] in = this.in; float[] out = this.out; - gluMultMatricesf(modelMatrix, modelMatrix_offset, projMatrix, projMatrix_offset, matrix); + multMatrixf(modelMatrix, modelMatrix_offset, projMatrix, projMatrix_offset, matrix, 0); if (!gluInvertMatrixf(matrix, 0, matrix, 0)) return false; @@ -935,7 +1030,7 @@ public class ProjectFloat { in[1] = in[1] * 2 - 1; in[2] = in[2] * 2 - 1; - __gluMultMatrixVecf(matrix, 0, in, out); + multMatrixVecf(matrix, in, out); if (out[3] == 0.0f) return false; @@ -976,7 +1071,7 @@ public class ProjectFloat { FloatBuffer in = this.inBuf; FloatBuffer out = this.outBuf; - gluMultMatricesf(modelMatrix, projMatrix, matrixBuf); + multMatrixf(modelMatrix, projMatrix, matrixBuf); if (!gluInvertMatrixf(matrixBuf, matrixBuf)) return false; @@ -997,7 +1092,7 @@ public class ProjectFloat { in.put(1, in.get(1) * 2 - 1); in.put(2, in.get(2) * 2 - 1); - __gluMultMatrixVecf(matrixBuf, in, out); + multMatrixVecf(matrixBuf, in, out); if (out.get(3) == 0.0f) return false; @@ -1065,4 +1160,5 @@ public class ProjectFloat { 0); gl.glScalef(viewport[2+viewport_offset] / deltaX, viewport[3+viewport_offset] / deltaY, 1.0f); } + } |