graphics/java/android/renderscript/ProgramVertex.java - LeafOS-Project/android_frameworks_base - Gitiles

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.renderscript;


 import android.util.Config;
 import android.util.Log;


 /**
  * @hide
  *
  **/
 public class ProgramVertex extends Program {
     public static final int MAX_LIGHT = 8;


     ProgramVertex(int id, RenderScript rs) {
         super(id, rs);
     }

     public void bindAllocation(MatrixAllocation va) {
         mRS.validate();
         bindConstants(va.mAlloc, 0);
     }


     public static class Builder {
         RenderScript mRS;
         boolean mTextureMatrixEnable;

         public Builder(RenderScript rs, Element in, Element out) {
             mRS = rs;
         }

         public void setTextureMatrixEnable(boolean enable) {
             mTextureMatrixEnable = enable;
         }

         public ProgramVertex create() {
             int id = mRS.nProgramVertexCreate(mTextureMatrixEnable);
             return new ProgramVertex(id, mRS);
         }
     }

     public static class ShaderBuilder extends BaseProgramBuilder {
         public ShaderBuilder(RenderScript rs) {
             super(rs);
         }

         public ProgramVertex create() {
             mRS.validate();
             int[] tmp = new int[(mInputCount + mOutputCount + mConstantCount +1) * 2];
             int idx = 0;

             for (int i=0; i < mInputCount; i++) {
                 tmp[idx++] = 0;
                 tmp[idx++] = mInputs[i].mID;
             }
             for (int i=0; i < mOutputCount; i++) {
                 tmp[idx++] = 1;
                 tmp[idx++] = mOutputs[i].mID;
             }
             for (int i=0; i < mConstantCount; i++) {
                 tmp[idx++] = 2;
                 tmp[idx++] = mConstants[i].mID;
             }
             tmp[idx++] = 3;
             tmp[idx++] = mTextureCount;

             int id = mRS.nProgramVertexCreate2(mShader, tmp);
             ProgramVertex pv = new ProgramVertex(id, mRS);
             initProgram(pv);
             return pv;
         }
     }


     public static class MatrixAllocation {
         static final int MODELVIEW_OFFSET = 0;
         static final int PROJECTION_OFFSET = 16;
         static final int TEXTURE_OFFSET = 32;

         Matrix mModel;
         Matrix mProjection;
         Matrix mTexture;

         public Allocation mAlloc;

         public MatrixAllocation(RenderScript rs) {
             mModel = new Matrix();
             mProjection = new Matrix();
             mTexture = new Matrix();

             mAlloc = Allocation.createSized(rs, Element.USER_F32(rs), 48);
             mAlloc.subData1D(MODELVIEW_OFFSET, 16, mModel.mMat);
             mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
             mAlloc.subData1D(TEXTURE_OFFSET, 16, mTexture.mMat);
         }

         public void destroy() {
             mAlloc.destroy();
             mAlloc = null;
         }

         public void loadModelview(Matrix m) {
             mModel = m;
             mAlloc.subData1D(MODELVIEW_OFFSET, 16, m.mMat);
         }

         public void loadProjection(Matrix m) {
             mProjection = m;
             mAlloc.subData1D(PROJECTION_OFFSET, 16, m.mMat);
         }

         public void loadTexture(Matrix m) {
             mTexture = m;
             mAlloc.subData1D(TEXTURE_OFFSET, 16, m.mMat);
         }

         public void setupOrthoWindow(int w, int h) {
             mProjection.loadOrtho(0,w, h,0, -1,1);
             mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
         }

         public void setupOrthoNormalized(int w, int h) {
             // range -1,1 in the narrow axis.
             if(w > h) {
                 float aspect = ((float)w) / h;
                 mProjection.loadOrtho(-aspect,aspect,  -1,1,  -1,1);
             } else {
                 float aspect = ((float)h) / w;
                 mProjection.loadOrtho(-1,1, -aspect,aspect,  -1,1);
             }
             mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
         }

         public void setupProjectionNormalized(int w, int h) {
             // range -1,1 in the narrow axis at z = 0.
             Matrix m1 = new Matrix();
             Matrix m2 = new Matrix();

             if(w > h) {
                 float aspect = ((float)w) / h;
                 m1.loadFrustum(-aspect,aspect,  -1,1,  1,100);
             } else {
                 float aspect = ((float)h) / w;
                 m1.loadFrustum(-1,1, -aspect,aspect, 1,100);
             }

             m2.loadRotate(180, 0, 1, 0);
             m1.loadMultiply(m1, m2);

             m2.loadScale(-2, 2, 1);
             m1.loadMultiply(m1, m2);

             m2.loadTranslate(0, 0, 2);
             m1.loadMultiply(m1, m2);

             mProjection = m1;
             mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
         }

     }

 }
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.renderscript;


	import android.util.Config;
	import android.util.Log;


	/**
	* @hide
	*
	**/
	public class ProgramVertex extends Program {
	public static final int MAX_LIGHT = 8;


	ProgramVertex(int id, RenderScript rs) {
	super(id, rs);
	}

	public void bindAllocation(MatrixAllocation va) {
	mRS.validate();
	bindConstants(va.mAlloc, 0);
	}


	public static class Builder {
	RenderScript mRS;
	boolean mTextureMatrixEnable;

	public Builder(RenderScript rs, Element in, Element out) {
	mRS = rs;
	}

	public void setTextureMatrixEnable(boolean enable) {
	mTextureMatrixEnable = enable;
	}

	public ProgramVertex create() {
	int id = mRS.nProgramVertexCreate(mTextureMatrixEnable);
	return new ProgramVertex(id, mRS);
	}
	}

	public static class ShaderBuilder extends BaseProgramBuilder {
	public ShaderBuilder(RenderScript rs) {
	super(rs);
	}

	public ProgramVertex create() {
	mRS.validate();
	int[] tmp = new int[(mInputCount + mOutputCount + mConstantCount +1) * 2];
	int idx = 0;

	for (int i=0; i < mInputCount; i++) {
	tmp[idx++] = 0;
	tmp[idx++] = mInputs[i].mID;
	}
	for (int i=0; i < mOutputCount; i++) {
	tmp[idx++] = 1;
	tmp[idx++] = mOutputs[i].mID;
	}
	for (int i=0; i < mConstantCount; i++) {
	tmp[idx++] = 2;
	tmp[idx++] = mConstants[i].mID;
	}
	tmp[idx++] = 3;
	tmp[idx++] = mTextureCount;

	int id = mRS.nProgramVertexCreate2(mShader, tmp);
	ProgramVertex pv = new ProgramVertex(id, mRS);
	initProgram(pv);
	return pv;
	}
	}



	public static class MatrixAllocation {
	static final int MODELVIEW_OFFSET = 0;
	static final int PROJECTION_OFFSET = 16;
	static final int TEXTURE_OFFSET = 32;

	Matrix mModel;
	Matrix mProjection;
	Matrix mTexture;

	public Allocation mAlloc;

	public MatrixAllocation(RenderScript rs) {
	mModel = new Matrix();
	mProjection = new Matrix();
	mTexture = new Matrix();

	mAlloc = Allocation.createSized(rs, Element.USER_F32(rs), 48);
	mAlloc.subData1D(MODELVIEW_OFFSET, 16, mModel.mMat);
	mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
	mAlloc.subData1D(TEXTURE_OFFSET, 16, mTexture.mMat);
	}

	public void destroy() {
	mAlloc.destroy();
	mAlloc = null;
	}

	public void loadModelview(Matrix m) {
	mModel = m;
	mAlloc.subData1D(MODELVIEW_OFFSET, 16, m.mMat);
	}

	public void loadProjection(Matrix m) {
	mProjection = m;
	mAlloc.subData1D(PROJECTION_OFFSET, 16, m.mMat);
	}

	public void loadTexture(Matrix m) {
	mTexture = m;
	mAlloc.subData1D(TEXTURE_OFFSET, 16, m.mMat);
	}

	public void setupOrthoWindow(int w, int h) {
	mProjection.loadOrtho(0,w, h,0, -1,1);
	mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
	}

	public void setupOrthoNormalized(int w, int h) {
	// range -1,1 in the narrow axis.
	if(w > h) {
	float aspect = ((float)w) / h;
	mProjection.loadOrtho(-aspect,aspect, -1,1, -1,1);
	} else {
	float aspect = ((float)h) / w;
	mProjection.loadOrtho(-1,1, -aspect,aspect, -1,1);
	}
	mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
	}

	public void setupProjectionNormalized(int w, int h) {
	// range -1,1 in the narrow axis at z = 0.
	Matrix m1 = new Matrix();
	Matrix m2 = new Matrix();

	if(w > h) {
	float aspect = ((float)w) / h;
	m1.loadFrustum(-aspect,aspect, -1,1, 1,100);
	} else {
	float aspect = ((float)h) / w;
	m1.loadFrustum(-1,1, -aspect,aspect, 1,100);
	}

	m2.loadRotate(180, 0, 1, 0);
	m1.loadMultiply(m1, m2);

	m2.loadScale(-2, 2, 1);
	m1.loadMultiply(m1, m2);

	m2.loadTranslate(0, 0, 2);
	m1.loadMultiply(m1, m2);

	mProjection = m1;
	mAlloc.subData1D(PROJECTION_OFFSET, 16, mProjection.mMat);
	}

	}

	}