一、类似公自转
二、核心代码
//图形渲染
void RenderScene() { //清楚缓存区:颜色缓存区、深度缓存区、模版缓存区 glClear(GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT|GL_STENCIL_BUFFER_BIT); //设置颜色:地板、甜甜圈、球体 GLfloat vFloorColor[] = {0.0f, 1.0f, 0.0f, 1.0f}; GLfloat vTorusColor[] = {1.0f, 0.0f, 0.0f, 1.0f}; GLfloat vSphereColor[] = {0.0f, 0.0f, 1.0f, 1.0f}; //基于当前时间动画:当前时间*60s static CStopWatch rotTime; float yRot = rotTime.GetElapsedSeconds()*60.0f; //获取观察者矩阵并入栈 M3DMatrix44f mCamera; cameraFrame.GetCameraMatrix(mCamera); modelViewMatrix.PushMatrix(mCamera); //设置光源矩阵 M3DVector4f vLightPos = {0.0f, 10.0f, 5.0f, 1.0f}; M3DVector4f vLightEyePos; //将光源矩阵和观察者矩阵相乘的结果放在vLightEyePos中 m3dTransformVector4(vLightEyePos, vLightPos, mCamera); //使用管线控制器,平面着色器进行渲染 shaderManager.UseStockShader(GLT_SHADER_FLAT, transformPipeline.GetModelViewProjectionMatrix(), vFloorColor); floorBatch.Draw(); //在模型视图矩阵堆栈中绘制以下图形:先压栈,绘制完毕后再出栈——始终对栈顶矩阵图形渲染 //绘制随机球体 for (int i = 0; i < NUM_SPHERES; i++) { modelViewMatrix.PushMatrix(); //模型视图矩阵堆栈栈顶矩阵与随机球体矩阵相乘的结果放入栈顶 modelViewMatrix.MultMatrix(spheres[i]); shaderManager.UseStockShader(GLT_SHADER_POINT_LIGHT_DIFF, transformPipeline.GetModelViewMatrix(), transformPipeline.GetProjectionMatrix(), vLightEyePos, vSphereColor); //可与公转球体使用同一个容器类对象 sphereBatch.Draw(); modelViewMatrix.PopMatrix(); } //设置甜甜圈平移距离(z轴负方向2.5)和旋转角度; modelViewMatrix.Translate(0.0f, 0.0f, -2.5f); modelViewMatrix.PushMatrix(); modelViewMatrix.Rotate(yRot, 0.0f, 0.1f, 0.0f); //使用点光源着色器渲染 shaderManager.UseStockShader(GLT_SHADER_POINT_LIGHT_DIFF, transformPipeline.GetModelViewMatrix(), transformPipeline.GetProjectionMatrix(), vLightEyePos, vTorusColor); torusBatch.Draw(); modelViewMatrix.PopMatrix(); //设置公转球体:反方向旋转,在x轴上平移0.8 modelViewMatrix.Rotate(yRot *-2.0f, 0.0f, 1.0f, 0.0f); modelViewMatrix.Translate(0.8f, 0.0f, 0.0f); shaderManager.UseStockShader(GLT_SHADER_FLAT, transformPipeline.GetModelViewProjectionMatrix(), vSphereColor); sphereBatch.Draw(); modelViewMatrix.PopMatrix(); //后台渲染完成后交给前台 glutSwapBuffers(); //基于时间动画:实时刷新窗口 glutPostRedisplay(); }
//图形定位
void SetupRC() { //设置窗口背景颜色 glClearColor(0.0f, 0.0f, 0.0f, 1.0f); //初始化管线控制器 shaderManager.InitializeStockShaders(); //开启深度测试:图形间重叠部分无须重复绘制 glEnable(GL_DEPTH_TEST); //提交甜甜圈数据:三角形批次类对象、外圈半径、内圈半径、主半径三角形对数x、小半径三角形对数y(尽量:x=2*y,更圆滑) gltMakeTorus(torusBatch, 0.4f, 0.15f, 30, 15); //提交公转球体数据:三角形批次类对象、半径、底部到顶部三角形带的数量、一条三角形带中的三角形对数(一般指球体中间那条,为最大数) gltMakeSphere(sphereBatch, 0.1f, 26, 20); //线段模式,325个顶点 floorBatch.Begin(GL_LINES, 325); for (GLfloat x = -20.0f; x <= 20.0f; x+=0.5f) { /* 1.一个格子四个顶点,格子方向朝屏幕里面; 2.只绘制x和z轴方向上的顶点; 3.y轴坐标保持不变,负值,展示随机球体悬浮效果; */ floorBatch.Vertex3f(x, -0.55f, 20.0f); floorBatch.Vertex3f(x, -0.55f, -20.0f); floorBatch.Vertex3f(20.0f, -0.55f, x); floorBatch.Vertex3f(-20.0f, -0.55f, x); } floorBatch.End(); //随机悬浮球体:y值不变,x、z值随机 for (int i = 0; i < NUM_SPHERES; i++) { GLfloat x = (GLfloat)(((rand()%400)-200)*0.1f); GLfloat z = (GLfloat)(((rand()%400)-200)*0.1f); spheres[i].SetOrigin(x, 0.0f, z); } }
三、效果
