public void render () { angle += 45 * Gdx.graphics.getDeltaTime(); Gdx.gl.glClear(GL20.GL_COLOR_BUFFER_BIT | GL20.GL_DEPTH_BUFFER_BIT); cam.update(); matrix.setToRotation(0, 1, 0, angle); cam.combined.mul(matrix); fbo.begin(); Gdx.gl.glClear(GL20.GL_COLOR_BUFFER_BIT | GL20.GL_DEPTH_BUFFER_BIT); Gdx.gl.glEnable(GL20.GL_DEPTH_TEST); modelBatch.begin(cam); modelBatch.render(sceneInstance); modelBatch.end(); fbo.end(); batch.begin(); batch.disableBlending(); batchShader.setUniformi("u_filterSize", filter.length); batchShader.setUniform1fv("u_filter", filter, 0, filter.length); batchShader.setUniform2fv("u_offsets", offsets, 0, offsets.length); batch.draw(fboRegion, 0, 0, Gdx.graphics.getWidth(), Gdx.graphics.getHeight()); batch.end(); logger.log(); } }
protected T setParamsv (Parameter param, float[] values, int offset, int length) { if (!programBegan) { programBegan = true; program.begin(); } switch (param.arrayElementSize()) { case 4: program.setUniform4fv(param.mnemonic(), values, offset, length); break; case 3: program.setUniform3fv(param.mnemonic(), values, offset, length); break; case 2: program.setUniform2fv(param.mnemonic(), values, offset, length); break; default: case 1: program.setUniform1fv(param.mnemonic(), values, offset, length); break; } return (T)this; }
protected T setParamsv (Parameter param, float[] values, int offset, int length) { if (!programBegan) { programBegan = true; program.begin(); } switch (param.arrayElementSize()) { case 4: program.setUniform4fv(param.mnemonic(), values, offset, length); break; case 3: program.setUniform3fv(param.mnemonic(), values, offset, length); break; case 2: program.setUniform2fv(param.mnemonic(), values, offset, length); break; default: case 1: program.setUniform1fv(param.mnemonic(), values, offset, length); break; } return (T)this; }
protected T setParamv (Parameter param, float[] values, int offset, int length) { program.begin(); switch (param.arrayElementSize()) { case 4: program.setUniform4fv(param.mnemonic(), values, offset, length); break; case 3: program.setUniform3fv(param.mnemonic(), values, offset, length); break; case 2: program.setUniform2fv(param.mnemonic(), values, offset, length); break; default: case 1: program.setUniform1fv(param.mnemonic(), values, offset, length); break; } program.end(); return (T)this; }
protected T setParamsv (Parameter param, float[] values, int offset, int length) { if (!programBegan) { programBegan = true; program.begin(); } switch (param.arrayElementSize()) { case 4: program.setUniform4fv(param.mnemonic(), values, offset, length); break; case 3: program.setUniform3fv(param.mnemonic(), values, offset, length); break; case 2: program.setUniform2fv(param.mnemonic(), values, offset, length); break; default: case 1: program.setUniform1fv(param.mnemonic(), values, offset, length); break; } return (T)this; }
protected T setParamv (Parameter param, float[] values, int offset, int length) { program.begin(); switch (param.arrayElementSize()) { case 4: program.setUniform4fv(param.mnemonic(), values, offset, length); break; case 3: program.setUniform3fv(param.mnemonic(), values, offset, length); break; case 2: program.setUniform2fv(param.mnemonic(), values, offset, length); break; default: case 1: program.setUniform1fv(param.mnemonic(), values, offset, length); break; } program.end(); return (T)this; }
protected T setParamv (Parameter param, float[] values, int offset, int length) { program.begin(); switch (param.arrayElementSize()) { case 4: program.setUniform4fv(param.mnemonic(), values, offset, length); break; case 3: program.setUniform3fv(param.mnemonic(), values, offset, length); break; case 2: program.setUniform2fv(param.mnemonic(), values, offset, length); break; default: case 1: program.setUniform1fv(param.mnemonic(), values, offset, length); break; } program.end(); return (T)this; }