public void drawBoundingVolume(Camera camera, final Matrix4 vpMatrix, final Matrix4 projMatrix, final Matrix4 vMatrix, final Matrix4 mMatrix) { if (mVisualBox == null) { mVisualBox = new Cube(1); Material material = new Material(); mVisualBox.setMaterial(material); mVisualBox.setColor(mBoundingColor.get()); mVisualBox.setDrawingMode(GLES20.GL_LINE_LOOP); mVisualBox.setDoubleSided(true); } mVisualBox.setScale( Math.abs(mTransformedMax.x - mTransformedMin.x), Math.abs(mTransformedMax.y - mTransformedMin.y), Math.abs(mTransformedMax.z - mTransformedMin.z) ); mVisualBox.setPosition( mTransformedMin.x + (mTransformedMax.x - mTransformedMin.x) * .5, mTransformedMin.y + (mTransformedMax.y - mTransformedMin.y) * .5, mTransformedMin.z + (mTransformedMax.z - mTransformedMin.z) * .5 ); mVisualBox.render(camera, vpMatrix, projMatrix, vMatrix, mTmpMatrix, null); }
/** * Creates a skybox with the specified 6 {@link Bitmap} textures. * * @param bitmaps {@link Bitmap} array containing the cube map textures. */ public boolean setSkybox(Bitmap[] bitmaps) throws TextureException { final Cube skybox = new Cube(700, true); final CubeMapTexture texture = new CubeMapTexture("bitmap_skybox", bitmaps); texture.isSkyTexture(true); final Material material = new Material(); material.setColorInfluence(0); material.addTexture(texture); skybox.setMaterial(material); return setSkybox(skybox, texture); }
/** * Creates a skybox with the specified single texture. * * @param resourceId int Resouce id of the skybox texture. * @throws TextureException * * @return {@code boolean} True if the clear task was queued successfully. */ public boolean setSkybox(int resourceId) throws TextureException { Cube skybox = new Cube(700, true, false); skybox.setDoubleSided(true); Texture texture = new Texture("skybox", resourceId); Material material = new Material(); material.setColorInfluence(0); material.addTexture(texture); skybox.setMaterial(material); return setSkybox(skybox, texture); }
/** * Creates a skybox with the specified 6 textures. * * @param posx int Resource id for the front face. * @param negx int Resource id for the right face. * @param posy int Resource id for the back face. * @param negy int Resource id for the left face. * @param posz int Resource id for the up face. * @param negz int Resource id for the down face. * @throws TextureException */ public boolean setSkybox(int posx, int negx, int posy, int negy, int posz, int negz) throws TextureException { Cube skybox = new Cube(700, true); int[] resourceIds = new int[] { posx, negx, posy, negy, posz, negz }; CubeMapTexture texture = new CubeMapTexture("skybox", resourceIds); texture.isSkyTexture(true); Material mat = new Material(); mat.setColorInfluence(0); mat.addTexture(texture); skybox.setMaterial(mat); return setSkybox(skybox, texture); }
cube.setMaterial(material); cube.setColor(0xffffff00); // Yellow addChild(cube);
public void drawBoundingVolume(Camera camera, final Matrix4 vpMatrix, final Matrix4 projMatrix, final Matrix4 vMatrix, final Matrix4 mMatrix) { if (mVisualBox == null) { mVisualBox = new Cube(1); Material material = new Material(); mVisualBox.setMaterial(material); mVisualBox.setColor(mBoundingColor.get()); mVisualBox.setDrawingMode(GLES20.GL_LINE_LOOP); mVisualBox.setDoubleSided(true); } mVisualBox.setScale( Math.abs(mTransformedMax.x - mTransformedMin.x), Math.abs(mTransformedMax.y - mTransformedMin.y), Math.abs(mTransformedMax.z - mTransformedMin.z) ); mVisualBox.setPosition( mTransformedMin.x + (mTransformedMax.x - mTransformedMin.x) * .5, mTransformedMin.y + (mTransformedMax.y - mTransformedMin.y) * .5, mTransformedMin.z + (mTransformedMax.z - mTransformedMin.z) * .5 ); mVisualBox.render(camera, vpMatrix, projMatrix, vMatrix, mTmpMatrix, null); }
/** * Creates a skybox with the specified single texture. * * @param resourceId int Resouce id of the skybox texture. * @throws TextureException */ public void setSkybox(int resourceId) throws TextureException { synchronized (mCameras) { for (int i = 0, j = mCameras.size(); i < j; ++i) mCameras.get(i).setFarPlane(1000); } synchronized (mNextSkyboxLock) { mNextSkybox = new Cube(700, true, false); mNextSkybox.setDoubleSided(true); mSkyboxTexture = new Texture("skybox", resourceId); Material material = new Material(); material.setColorInfluence(0); material.addTexture(mSkyboxTexture); mNextSkybox.setMaterial(material); } }
/** * Creates a skybox with the specified 6 textures. * * @param posx int Resource id for the front face. * @param negx int Resource id for the right face. * @param posy int Resource id for the back face. * @param negy int Resource id for the left face. * @param posz int Resource id for the up face. * @param negz int Resource id for the down face. * @throws TextureException */ public void setSkybox(int posx, int negx, int posy, int negy, int posz, int negz) throws TextureException { synchronized (mCameras) { for (int i = 0, j = mCameras.size(); i < j; ++i) mCameras.get(i).setFarPlane(1000); } synchronized (mNextSkyboxLock) { mNextSkybox = new Cube(700, true); int[] resourceIds = new int[]{posx, negx, posy, negy, posz, negz}; mSkyboxTexture = new CubeMapTexture("skybox", resourceIds); ((CubeMapTexture) mSkyboxTexture).isSkyTexture(true); Material mat = new Material(); mat.setColorInfluence(0); mat.addTexture(mSkyboxTexture); mNextSkybox.setMaterial(mat); } }
/** * Creates a skybox with the specified 6 {@link Bitmap} textures. * * @param bitmaps {@link Bitmap} array containing the cube map textures. */ public void setSkybox(Bitmap[] bitmaps) { synchronized (mCameras) { for (int i = 0, j = mCameras.size(); i < j; ++i) mCameras.get(i).setFarPlane(1000); } final Cube skybox = new Cube(700, true); final CubeMapTexture texture = new CubeMapTexture("bitmap_skybox", bitmaps); texture.isSkyTexture(true); final Material material = new Material(); material.setColorInfluence(0); try { material.addTexture(texture); } catch (TextureException e) { RajLog.e(e.getMessage()); } skybox.setMaterial(material); synchronized (mNextCameraLock) { mNextSkybox = skybox; } }