void VelocityBallRenderer::renderBalls(Gengine::SpriteBatch& spriteBatch, const std::vector<Ball>& balls, const glm::mat4& projectionMatrix) { glClearColor(0.0f, 0.0f, 0.0f, 1.0f); // Lazily initialize the program if (m_program == nullptr) { m_program = std::make_unique<Gengine::GLSLProgram>(); m_program->compileShaders("Shaders/textureShading.vert", "Shaders/textureShading.frag"); m_program->addAttribute("vertexPosition"); m_program->addAttribute("vertexColor"); m_program->addAttribute("vertexUV"); m_program->linkShaders(); } m_program->use(); spriteBatch.begin(); // Make sure the shader uses texture 0 glActiveTexture(GL_TEXTURE0); GLint textureUniform = m_program->getUniformLocation("mySampler"); glUniform1i(textureUniform, 0); // Grab the camera matrix GLint pUniform = m_program->getUniformLocation("P"); glUniformMatrix4fv(pUniform, 1, GL_FALSE, &projectionMatrix[0][0]); // Render all the balls for (auto& ball : balls) { const glm::vec4 uvRect(0.0f, 0.0f, 1.0f, 1.0f); const glm::vec4 destRect(ball.position.x - ball.radius, ball.position.y - ball.radius, ball.radius * 2.0f, ball.radius * 2.0f); Gengine::ColorRGBA8 color; float mult = 100.0f; GLubyte colorVal = (GLubyte)(glm::clamp(ball.velocity.x * mult, 0.0f, 255.0f)); color.r = 128; color.g = (GLubyte)((ball.position.x / m_screenWidth) * 255.0f); color.b = (GLubyte)((ball.position.y / m_screenHeight) * 255.0f);; color.a = colorVal; spriteBatch.draw(destRect, uvRect, ball.textureId, 0.0f, color); } spriteBatch.end(); spriteBatch.renderBatch(); m_program->unuse(); }
void Enemy::draw(GEngine::SpriteBatch& spriteBatch) { const glm::vec4 uvRect(0.0f, 0.0f, 1.0f, 1.0f); glm::vec4 destRect; destRect.x = m_position.x; destRect.y = m_position.y; destRect.z = width; destRect.w = height; spriteBatch.draw(destRect, uvRect, m_textureID, 0.0f, m_color, m_direction); // Debug bounding box drawing /* glm::vec4 aabbRect; aabbRect.x = m_position.x + 16.0f; aabbRect.y = m_position.y + 16.0f; aabbRect.z = width - 32.0f; aabbRect.w = height - 32.0f; spriteBatch.draw(aabbRect, uvRect, m_debugTextureID, 1.0f, m_color); */ }
void TrippyBallRenderer::renderBalls(Gengine::SpriteBatch& spriteBatch, const std::vector<Ball>& balls, const glm::mat4& projectionMatrix) { glClearColor(0.1f, 0.0f, 0.0f, 1.0f); // Lazily initialize the program if (m_program == nullptr) { m_program = std::make_unique<Gengine::GLSLProgram>(); m_program->compileShaders("Shaders/textureShading.vert", "Shaders/textureShading.frag"); m_program->addAttribute("vertexPosition"); m_program->addAttribute("vertexColor"); m_program->addAttribute("vertexUV"); m_program->linkShaders(); } m_program->use(); spriteBatch.begin(); // Make sure the shader uses texture 0 glActiveTexture(GL_TEXTURE0); GLint textureUniform = m_program->getUniformLocation("mySampler"); glUniform1i(textureUniform, 0); // Grab the camera matrix GLint pUniform = m_program->getUniformLocation("P"); glUniformMatrix4fv(pUniform, 1, GL_FALSE, &projectionMatrix[0][0]); // Change these constants to get cool stuff float TIME_SPEED = 0.01f; float DIVISOR = 4.0f; // Increase to get more arms float SPIRAL_INTENSITY = 10.0f; // Increase to make it spiral more m_time += TIME_SPEED; // Render all the balls for (auto& ball : balls) { const glm::vec4 uvRect(0.0f, 0.0f, 1.0f, 1.0f); const glm::vec4 destRect(ball.position.x - ball.radius, ball.position.y - ball.radius, ball.radius * 2.0f, ball.radius * 2.0f); Gengine::ColorRGBA8 color; // Get vector from center point glm::vec2 centerVec = ball.position - glm::vec2(m_screenWidth / 2, m_screenHeight / 2); float centerDist = glm::length(centerVec); // Get angle from the horizontal float angle = atan2(centerVec.x, centerVec.y) / (3.1415926 / DIVISOR); // Move with time angle -= m_time; // Add the spiral angle += (centerDist / m_screenWidth) * SPIRAL_INTENSITY; color.r = (GLubyte)(angle * 255.0f); color.g = (GLubyte)(angle * 255.0f * cos(m_time)); color.b = (GLubyte)(angle * 255.0f * sin(m_time)); color.a = (GLubyte)(glm::clamp(1.0f - (centerDist / (m_screenWidth / 2.0f)), 0.0f, 1.0f) * 255.0f); spriteBatch.draw(destRect, uvRect, ball.textureId, 0.0f, color); } spriteBatch.end(); spriteBatch.renderBatch(); m_program->unuse(); }