private void setSize(int FBO_W, int FBO_H) { w = FBO_W; h = FBO_H; blurShader.begin(); blurShader.setUniformf("size", FBO_W, FBO_H); blurShader.end(); }
@Override public void render() { frameBuffer.begin(); Gdx.graphics.getGL20().glViewport(0, 0, frameBuffer.getWidth(), frameBuffer.getHeight()); Gdx.graphics.getGL20().glClearColor(0f, 1f, 0f, 1); Gdx.graphics.getGL20().glClear(GL20.GL_COLOR_BUFFER_BIT); Gdx.graphics.getGL20().glEnable(GL20.GL_TEXTURE_2D); texture.bind(); meshShader.begin(); meshShader.setUniformi("u_texture", 0); mesh.render(meshShader, GL20.GL_TRIANGLES); meshShader.end(); frameBuffer.end(); Gdx.graphics.getGL20().glViewport(0, 0, Gdx.graphics.getWidth(), Gdx.graphics.getHeight()); Gdx.graphics.getGL20().glClearColor(0.2f, 0.2f, 0.2f, 1); Gdx.graphics.getGL20().glClear(GL20.GL_COLOR_BUFFER_BIT); spriteBatch.begin(); spriteBatch.draw( frameBuffer.getColorBufferTexture(), 0, 0, 256, 256, 0, 0, frameBuffer.getColorBufferTexture().getWidth(), frameBuffer.getColorBufferTexture().getHeight(), false, true); spriteBatch.end(); }
/** Call this after scene. Renders the bloomed scene. */ public void render() { if (capturing) { capturing = false; frameBuffer.end(); } Gdx.gl.glDisable(GL20.GL_BLEND); Gdx.gl.glDisable(GL20.GL_DEPTH_TEST); Gdx.gl.glDepthMask(false); gaussianBlur(); if (blending) { Gdx.gl.glEnable(GL20.GL_BLEND); Gdx.gl.glBlendFunc(GL20.GL_SRC_ALPHA, GL20.GL_ONE_MINUS_SRC_ALPHA); } pingPongTex1.bind(1); original.bind(0); bloomShader.begin(); { fullScreenQuad.render(bloomShader, GL20.GL_TRIANGLE_FAN); } bloomShader.end(); }
private void gaussianBlur() { // cut bright areas of the picture and blit to smaller fbo original.bind(0); pingPongBuffer1.begin(); { tresholdShader.begin(); { // tresholdShader.setUniformi("u_texture0", 0); fullScreenQuad.render(tresholdShader, GL20.GL_TRIANGLE_FAN, 0, 4); } tresholdShader.end(); } pingPongBuffer1.end(); for (int i = 0; i < blurPasses; i++) { pingPongTex1.bind(0); // horizontal pingPongBuffer2.begin(); { blurShader.begin(); { blurShader.setUniformf("dir", 1f, 0f); fullScreenQuad.render(blurShader, GL20.GL_TRIANGLE_FAN, 0, 4); } blurShader.end(); } pingPongBuffer2.end(); pingPongTex2.bind(0); // vertical pingPongBuffer1.begin(); { blurShader.begin(); { blurShader.setUniformf("dir", 0f, 1f); fullScreenQuad.render(blurShader, GL20.GL_TRIANGLE_FAN, 0, 4); } blurShader.end(); } pingPongBuffer1.end(); } }
/** * set intensity for bloom. higher mean more brightening for spots that are over treshold * * @param intensity multiplier for blurred texture in combining phase. must be positive. */ public void setBloomIntesity(float intensity) { bloomIntensity = intensity; bloomShader.begin(); { bloomShader.setUniformf("BloomIntensity", intensity); } bloomShader.end(); }
/** * set intensity for original scene. under 1 mean darkening and over 1 means lightening * * @param intensity multiplier for captured texture in combining phase. must be positive. */ public void setOriginalIntesity(float intensity) { originalIntensity = intensity; bloomShader.begin(); { bloomShader.setUniformf("OriginalIntensity", intensity); } bloomShader.end(); }
/** * Treshold for bright parts. everything under treshold is clamped to 0 * * @param treshold must be in range 0..1 */ public void setTreshold(float treshold) { this.treshold = treshold; tresholdShader.begin(); { tresholdShader.setUniformf("treshold", treshold, 1f / (1 - treshold)); } tresholdShader.end(); }
private void realRender() { // gives a chance to filters to perform needed operations just before the rendering operation // take place. onBeforeRender(); program.begin(); quad.render(program); program.end(); }
/** * Finishes off rendering. Enables depth writes, disables blending and texturing. Must always be * called after a call to {@link #begin()} */ public void end() { if (!drawing) throw new IllegalStateException("SpriteBatch.begin must be called before end."); if (idx > 0) renderMesh(); lastTexture = null; idx = 0; drawing = false; GLCommon gl = Gdx.gl; gl.glDepthMask(true); if (isBlendingEnabled()) gl.glDisable(GL10.GL_BLEND); if (Gdx.graphics.isGL20Available()) { if (customShader != null) customShader.end(); else shader.end(); } else { gl.glDisable(GL10.GL_TEXTURE_2D); } }
public void render(float delta) { time += delta; shaderProgram.begin(); texture.bind(); shaderProgram.setUniformf("tex0", 0); shaderProgram.setUniformf("resolution", Gdx.graphics.getWidth(), Gdx.graphics.getHeight()); shaderProgram.setUniformf("time", time); this.mesh.render(shaderProgram, GL20.GL_TRIANGLE_FAN); shaderProgram.end(); }
public void end() { newFrame.end(); FrameBuffer oldFrame = newFrame; newFrame = cleanFrame; oldFrame.getColorBufferTexture().bind(); { Gdx.gl.glClear(GL20.GL_COLOR_BUFFER_BIT | GL20.GL_DEPTH_BUFFER_BIT); mShaderProgram.begin(); { mScreenMesh.render(mShaderProgram, GL20.GL_TRIANGLE_FAN, 0, 4); } mShaderProgram.end(); } }
/** IMPORTANT NOTE CALL THIS WHEN RESUMING */ public void resume() { bloomShader.begin(); { bloomShader.setUniformi("u_texture0", 0); bloomShader.setUniformi("u_texture1", 1); } bloomShader.end(); setSize(w, h); setTreshold(treshold); setBloomIntesity(bloomIntensity); setOriginalIntesity(originalIntensity); original = frameBuffer.getColorBufferTexture(); pingPongTex1 = pingPongBuffer1.getColorBufferTexture(); pingPongTex2 = pingPongBuffer2.getColorBufferTexture(); }
@Override public void render() { GL20 gl = Gdx.gl20; gl.glViewport(0, 0, Gdx.graphics.getWidth(), Gdx.graphics.getHeight()); Gdx.gl.glClearColor(0.7f, 0, 0, 1); gl.glClear(GL20.GL_COLOR_BUFFER_BIT); gl.glEnable(GL20.GL_TEXTURE_2D); shader.begin(); shader.setUniformi("u_texture", 0); texture.bind(); vbo.bind(shader); indices.bind(); gl.glDrawElements(GL20.GL_TRIANGLES, 3, GL20.GL_UNSIGNED_SHORT, indices.getBuffer().position()); indices.unbind(); vbo.unbind(shader); shader.end(); }
public void setElement(SceneElement e) { super.setElement(e); RuntimeDrawable<?> r = (RuntimeDrawable<?>) assetHandler.getRuntimeAsset(transition.getMask()); texture = r.getTextureHandle(); offset = new Vector3(); if (maskShader == null) { maskShader = new ShaderProgram( assetHandler.getTextFile("@binary/shaders/mask.vert"), assetHandler.getTextFile("@binary/shaders/mask.frag")); if (maskShader.getLog().length() != 0) logger.warn(maskShader.getLog()); nextSceneBuffer = new FrameBuffer(Format.RGBA8888, 800, 600, false); } maskShader.begin(); maskShader.setUniformi("mask_texture", 1); maskShader.setAttributef("a_sizes", 800, 600, r.getWidth(), r.getHeight()); maskShader.end(); }
private void initializeShaders() { String vertexShader = "shaders/blur.vert"; String fragmentShader = "shaders/blur.frag"; ShaderProgram.pedantic = false; blurShader = new ShaderProgram(Gdx.files.internal(vertexShader), Gdx.files.internal(fragmentShader)); if (!blurShader.isCompiled()) { System.err.println(blurShader.getLog()); System.exit(0); } if (blurShader.getLog().length() != 0) System.out.println(blurShader.getLog()); blurShader.begin(); blurShader.setUniformf("dir", 0f, 0f); blurShader.setUniformf("resolution", FBO_SIZE); blurShader.setUniformf("radius", blurAmount); blurShader.end(); }
public void render() { Gdx.gl20.glViewport(0, 0, Gdx.graphics.getWidth(), Gdx.graphics.getHeight()); Gdx.gl20.glClear(GL20.GL_COLOR_BUFFER_BIT); Gdx.gl20.glActiveTexture(GL20.GL_TEXTURE0); texture.bind(); shader.begin(); shader.setUniformf("s_texture", 0); Gdx.gl20.glTexParameteri(GL20.GL_TEXTURE_2D, GL20.GL_TEXTURE_MIN_FILTER, GL20.GL_NEAREST); shader.setUniformf("u_offset", -0.6f); mesh.render(shader, GL20.GL_TRIANGLES); Gdx.gl20.glTexParameteri( GL20.GL_TEXTURE_2D, GL20.GL_TEXTURE_MIN_FILTER, GL20.GL_LINEAR_MIPMAP_LINEAR); shader.setUniformf("u_offset", 0.6f); mesh.render(shader, GL20.GL_TRIANGLES); shader.end(); }
@Override public void render() { Gdx.gl20.glViewport( 0, 0, Gdx.graphics.getBackBufferWidth(), Gdx.graphics.getBackBufferHeight()); Gdx.gl20.glClear(GL20.GL_COLOR_BUFFER_BIT); shader.begin(); shader.setUniform2fv( "u_resolution", new float[] {(float) Gdx.graphics.getWidth(), (float) Gdx.graphics.getHeight()}, 0, 2); shader.setUniformf("u_time", TimeUtils.timeSinceMillis(startTime) / 1000f); shader.setUniform2fv( "u_mousePos", new float[] {Gdx.input.getX(), Gdx.graphics.getHeight() - Gdx.input.getY()}, 0, 2); mesh.render(shader, GL20.GL_TRIANGLES); shader.end(); }
// float[], vec2[], vec3[], vec4[] 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; }
public void flush() { // if we've already flushed if (idx == 0) return; // sends our vertex data to the mesh mesh.setVertices(verts); // no need for depth... Gdx.gl.glDepthMask(false); // enable blending, for alpha Gdx.gl.glEnable(GL20.GL_BLEND); Gdx.gl.glBlendFunc(GL20.GL_SRC_ALPHA, GL20.GL_ONE_MINUS_SRC_ALPHA); // number of vertices we need to render int vertexCount = (idx / NUM_COMPONENTS); cam.update(); // start the shader before setting any uniforms shader.begin(); // update the projection matrix so our triangles are rendered in 2D shader.setUniformMatrix("u_projTrans", cam.combined); // render the mesh mesh.render(shader, RENDER_TYPE, 0, vertexCount); shader.end(); // re-enable depth to reset states to their default Gdx.gl.glDepthMask(true); // reset index to zero idx = 0; // reset verts Arrays.fill(verts, 0); }
public void draw(Matrix4 mat) { if (!body.isActive()) { return; } Transform transform = body.getTransform(); texture.bind(); shader.begin(); shader.setUniformMatrix("u_projectionViewMatrix", mat); for (FixtureData data : fixtureData) { data.updateData(transform); data.mesh.render(shader, GL20.GL_TRIANGLE_FAN, 0, data.vertices.length); } shader.end(); // chain.getVertex(0, v0); // transform.mul(v0); // chain.getVertex(1, v1); // transform.mul(v1); // chain.getVertex(2, v2); // transform.mul(v2); // chain.getVertex(3, v3); // transform.mul(v3); // mesh.setVertices(new float[] { -5f, -5f, 0, 0, 1, // bottom left // 5f, -5f, 0, 1, 1, // bottom right // 5f, 5f, 0, 1, 0, // top right // -5f, 5f, 0, 0, 0 }); // top left // // mesh.setVertices(new float[] { v0.x, v0.y, 0, 0, 1, // bottom left // v1.x, v1.y, 0, 1, 1, // bottom right // v2.x, v2.y, 0, 1, 0, // top right // v3.x, v3.y, 0, 0, 0 }); // top left // System.out.println("--"); // Vector2 before = new Vector2(); // Vector2 current = new Vector2(); // Vector2 after = new Vector2(); // for (int i = 0; i < meshes.length; i++) { // Fixture fixture = body.getFixtureList().get(i); // PolygonShape poly = (PolygonShape) fixture.getShape(); // // for (int j = 0; j < meshesData[i].length; j += 6) { // int polyIndex = j / 6; // poly.getVertex(polyIndex, current); // // // if (scale) { // // poly.getVertex(polyIndex == 0 ? poly.getVertexCount() - 1 : // polyIndex - 1, before); // // poly.getVertex(polyIndex == poly.getVertexCount() - 1 ? 0 : // polyIndex + 1, after); // // // // Vector2D vec1 = new Vector2D(new Point2D(after.x, after.y), new // Point2D(current.x, current.y)); // // Vector2D vec2 = new Vector2D(new Point2D(before.x, before.y), new // Point2D(current.x, current.y)); // // // // double a1 = vec1.getAngle(); // // double a2 = vec2.getAngle(); // // double diff = a1 - a2; // // double angle = (a1 + a2) / 2.0; // // // // if (diff > 0) { // // angle -= Math.PI; // // } // // // // System.out.println("angle1 " + a1 * 180 / Math.PI); // // System.out.println("angle2 " + a2 * 180 / Math.PI); // // System.out.println("diff " + diff * 180 / Math.PI); // // System.out.println("center " + angle * 180 / Math.PI); // // // // Vector2D sum = new Vector2D(Math.cos(angle) * 0.2, Math.sin(angle) * // 0.2); // // sum.normalize(); // // // // sum = sum.times(0.2); // // // // Vector2 newPoint = new Vector2(current.x + (float) sum.getX(), // current.y + (float) sum.getY()); // // // // transform.mul(newPoint); // // // // transform.mul(current); // // // // // poly.getVertex(polyIndex, newPoint); // // // newPoint.mul(1.2f); // // // transform.mul(newPoint); // // // // // batch.begin(); // // // batch.draw(texture, current.x * 20 + 200, current.y * 20 + 200); // // // batch.draw(texture2, newPoint.x * 20 + 200, newPoint.y * 20 + // 200); // // // batch.end(); // // } // // transform.mul(current); // // meshesData[i][j] = current.x; // meshesData[i][j + 1] = current.y; // meshesData[i][j + 2] = 0; // // meshesData[i][j + 3] = colors[(color + i) % colors.length]; // // meshesData[i][j + 4] = (float) Math.random(); // meshesData[i][j + 5] = (float) Math.random(); // } // // // render // meshes[i].setVertices(meshesData[i]); // // shader.begin(); // shader.setUniformMatrix("u_projectionViewMatrix", mat); // texture.bind(); // meshes[i].render(shader, GL20.GL_TRIANGLE_FAN, 0, // poly.getVertexCount()); // shader.end(); // } }
/** Should be called after any one or more setParams method calls. */ protected void endParams() { if (programBegan) { program.end(); programBegan = false; } }
// vec3 protected void setParam(Parameter param, Vector3 value) { program.begin(); program.setUniformf(param.mnemonic(), value); program.end(); }
// mat3 protected T setParam(Parameter param, Matrix3 value) { program.begin(); program.setUniformMatrix(param.mnemonic(), value); program.end(); return (T) this; }
private void initialize( int FBO_W, int FBO_H, FrameBuffer fbo, boolean hasDepth, boolean useBlending, boolean use32bitFBO) { blending = useBlending; Format format = null; if (use32bitFBO) { if (useBlending) { format = Format.RGBA8888; } else { format = Format.RGB888; } } else { if (useBlending) { format = Format.RGBA4444; } else { format = Format.RGB565; } } if (fbo == null) { frameBuffer = new FrameBuffer(format, Gdx.graphics.getWidth(), Gdx.graphics.getHeight(), hasDepth); } else { frameBuffer = fbo; } pingPongBuffer1 = new FrameBuffer(format, FBO_W, FBO_H, false); pingPongBuffer2 = new FrameBuffer(format, FBO_W, FBO_H, false); original = frameBuffer.getColorBufferTexture(); pingPongTex1 = pingPongBuffer1.getColorBufferTexture(); pingPongTex2 = pingPongBuffer2.getColorBufferTexture(); fullScreenQuad = createFullScreenQuad(); final String alpha = useBlending ? "alpha_" : ""; bloomShader = BloomShaderLoader.createShader("screenspace", alpha + "bloom"); if (useAlphaChannelAsMask) { tresholdShader = BloomShaderLoader.createShader("screenspace", "maskedtreshold"); } else { tresholdShader = BloomShaderLoader.createShader("screenspace", alpha + "treshold"); } blurShader = BloomShaderLoader.createShader("blurspace", alpha + "gaussian"); setSize(FBO_W, FBO_H); setBloomIntesity(2.5f); setOriginalIntesity(0.8f); setTreshold(0.5f); bloomShader.begin(); { bloomShader.setUniformi("u_texture0", 0); bloomShader.setUniformi("u_texture1", 1); } bloomShader.end(); }