OpenGL ES学习之路(7.0) 地球与月亮旋转
2019-03-05 本文已影响0人
velue
目的
本案例主要实现月亮围绕着地球自转功能,同时可以切换透视投影或正投影,通过GLKit来实现效果
效果
image.png
案例流程图
image.png
案例源码
案例主要分为7个步骤:在viewDidLoad当中设置步骤
步骤的配置
#import "AGLKVertexAttribArrayBuffer.h"
#import "sphere.h"
//场景地球轴倾斜度
static const GLfloat SceneEarthAxialTiltDeg = 23.5f;
//月球轨道日数
static const GLfloat SceneDaysPerMoonOrbit = 28.0f;
//半径
static const GLfloat SceneMoonRadiusFractionOfEarth = 0.25;
//月球距离地球的距离
static const GLfloat SceneMoonDistanceFromEarth = 2.0f;
@interface CCViewController ()
@property(nonatomic,strong)EAGLContext *mContext;
//顶点positionBuffer
@property(nonatomic,strong)AGLKVertexAttribArrayBuffer *vertexPositionBuffer;
//顶点NormalBuffer
@property(nonatomic,strong)AGLKVertexAttribArrayBuffer *vertexNormalBuffer;
//顶点TextureCoordBuffer
@property(nonatomic,strong)AGLKVertexAttribArrayBuffer *vertextTextureCoordBuffer;
//光照、纹理
@property(nonatomic,strong)GLKBaseEffect *baseEffect;
//不可变纹理对象数据,地球纹理对象
@property(nonatomic,strong)GLKTextureInfo *earchTextureInfo;
//月亮纹理对象
@property(nonatomic,strong)GLKTextureInfo *moomTextureInfo;
//模型视图矩阵
//GLKMatrixStackRef CFType 允许一个4*4 矩阵堆栈
@property(nonatomic,assign)GLKMatrixStackRef modelViewMatrixStack;
//地球的旋转角度
@property(nonatomic,assign)GLfloat earthRotationAngleDegress;
//月亮旋转的角度
@property(nonatomic,assign)GLfloat moonRotationAngleDegress;
@end
- 1.设置新建OpenGl ES上下文
//1.新建OpenGL ES 上下文
self.mContext = [[EAGLContext alloc] initWithAPI:kEAGLRenderingAPIOpenGLES2];
- 2.获取GLkView并设置属性,属性分为颜色格式(drawableColorFormat)和深度缓冲区的格式(drawableDepthFormat),并开启深度测试
//2.获取GLKView
GLKView *view = (GLKView *)self.view;
view.context = self.mContext;
view.drawableColorFormat = GLKViewDrawableColorFormatRGBA8888;
view.drawableDepthFormat = GLKViewDrawableDepthFormat24; //设置深度缓冲区的格式
[EAGLContext setCurrentContext:self.mContext];
//开启深度测试
glEnable(GL_DEPTH_TEST);
3.创建GLKBaseEffect 光照信息
self.baseEffect = [[GLKBaseEffect alloc] init];
//配置baseEffect光照信息
[self configureLight];
-(void)configureLight
{
//开启light0光照
self.baseEffect.light0.enabled = GL_TRUE;
/*
union _GLKVector4
{
struct { float x, y, z, w; };
struct { float r, g, b, a; };
struct { float s, t, p, q; };
float v[4];
} __attribute__((aligned(16)));
typedef union _GLKVector4 GLKVector4;
union共用体
有3个结构体,
比如表示顶点坐标的x,y,z,w
比如表示颜色的,RGBA;
表示纹理的stpq
*/
//2.设置漫射光颜色,分别是red,green,blue,alpha
self.baseEffect.light0.diffuseColor = GLKVector4Make(1.0f, 1.0f, 1.0f, 1.0f);
/*
The position of the light in world coordinates.
世界坐标中的光的位置。
If the w component of the position is 0.0, the light is calculated using the directional light formula. The x, y, and z components of the vector specify the direction the light shines. The light is assumed to be infinitely far away; attenuation and spotlight properties are ignored.
如果位置的w分量为0,则使用定向光公式计算光。向量的x、y和z分量指定光的方向。光被认为是无限远的,衰减和聚光灯属性被忽略。
If the w component of the position is a non-zero value, the coordinates specify the position of the light in homogenous coordinates, and the light is either calculated as a point light or a spotlight, depending on the value of the spotCutoff property.
如果该位置的W组件是一个非零的值,指定的坐标的光在齐次坐标的位置,和光是一个点光源和聚光灯计算,根据不同的spotcutoff属性的值
The default value is [0.0, 0.0, 1.0, 0.0].
默认值[0.0f,0.0f,1.0f,0.0f];
*/
//灯光位置
self.baseEffect.light0.position = GLKVector4Make(1.0f, 0.0f, 0.2f, 0.0f);
//光的环境部分,分别是red,green,blue,alpha
self.baseEffect.light0.ambientColor = GLKVector4Make(0.2, 0.2, 0.2, 1.0f);
}
4.创建投影矩阵 -> 透视投影矩阵
//获取屏幕纵横比
GLfloat aspectRatio = self.view.frame.size.width / self.view.frame.size.height;
self.baseEffect.transform.projectionMatrix = GLKMatrix4MakeOrtho(-1.0f * aspectRatio, 1.0f * aspectRatio, -1.0, 1.0, 1.0, 120.0f);
5.设置模型矩形 -5.0f 表示往屏幕内移动-5.0f距离
self.baseEffect.transform.modelviewMatrix = GLKMatrix4MakeTranslation(0.0f, 0.0f, -5.0f);
6.设置清屏颜色
GLKVector4 colorVector4 = GLKVector4Make(0.0f, 0.0f, 0.0f, 1.0f);
[self setClearColor:colorVector4];
-(void)setClearColor:(GLKVector4)clearColorRGBA
{
glClearColor(clearColorRGBA.r, clearColorRGBA.g, clearColorRGBA.b, clearColorRGBA.a);
}
7.设置顶点数据
-(void)bufferData
{
//1、GLKMatrixStackCreate()创建一个新的空矩阵
self.modelViewMatrixStack = GLKMatrixStackCreate(kCFAllocatorDefault);
//2、为将要缓存区数据开辟空间
//sphereVerts 在sphere.h文件中存在
/*
参数1:数据大小 3个GLFloat类型,x,y,z
参数2:有多少个数据,count
参数3:数据大小
参数4:用途 GL_STATIC_DRAW,
*/
//顶点数据缓存,顶点数据从sphere.h文件的sphereVerts数组中获取顶点数据x,y,z
self.vertexPositionBuffer = [[AGLKVertexAttribArrayBuffer alloc]initWithAttribStride:(3 * sizeof(GLfloat)) numberOfVertices:sizeof(sphereVerts)/(3 * sizeof(GLfloat)) bytes:sphereVerts usage:GL_STATIC_DRAW];
//法线,光照坐标 sphereNormals数组 x,y,z
self.vertexNormalBuffer = [[AGLKVertexAttribArrayBuffer alloc]initWithAttribStride:(3 * sizeof(GLfloat)) numberOfVertices:sizeof(sphereNormals)/(3 * sizeof(GLfloat)) bytes:sphereNormals usage:GL_STATIC_DRAW];
//纹理坐标 sphereTexCoords数组 x,y
self.vertextTextureCoordBuffer = [[AGLKVertexAttribArrayBuffer alloc]initWithAttribStride:(2 * sizeof(GLfloat)) numberOfVertices:sizeof(sphereTexCoords)/ (2 * sizeof(GLfloat)) bytes:sphereTexCoords usage:GL_STATIC_DRAW];
//3.获取地球纹理
CGImageRef earthImageRef = [UIImage imageNamed:@"Earth512x256.jpg"].CGImage;
//控制图像加载方式的选项
NSDictionary *earthOptions = [NSDictionary dictionaryWithObjectsAndKeys:[NSNumber numberWithBool:YES],GLKTextureLoaderOriginBottomLeft, nil];
//将纹理图片加载到纹理数据对象earchTextureInfo中
/*
参数1:加载的纹理图片
参数2:控制图像加载的方式的选项-字典
参数3:错误信息
*/
self.earchTextureInfo = [GLKTextureLoader textureWithCGImage:earthImageRef options:earthOptions error:NULL];
//4.获取月亮纹理
CGImageRef moonImageRef = [UIImage imageNamed:@"Moon256x128"].CGImage;
NSDictionary *moonOptions = [NSDictionary dictionaryWithObjectsAndKeys:[NSNumber numberWithBool:YES],GLKTextureLoaderOriginBottomLeft, nil];
self.moomTextureInfo = [GLKTextureLoader textureWithCGImage:moonImageRef options:moonOptions error:NULL];
//矩阵堆
//用所提供的矩阵替换最顶层矩阵,将self.baseEffect.transform.modelviewMatrix,替换self.modelViewMatrixStack
GLKMatrixStackLoadMatrix4(self.modelViewMatrixStack, self.baseEffect.transform.modelviewMatrix);
//初始化在轨道上月球位置
self.moonRotationAngleDegress = -20.0f;
}
开始代理绘制渲染操作 - GLKViewDelegate
//渲染场景
-(void)glkView:(GLKView *)view drawInRect:(CGRect)rect
{
//设置清屏颜色
glClearColor(0.3f, 0.3f, 0.3f, 1.0f);
//清空颜色缓存区和深度缓存区
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
//地球旋转角度
_earthRotationAngleDegress += 360.0f/60.0f;
//月球旋转角度
_moonRotationAngleDegress += (360.0f/60.0f)/SceneDaysPerMoonOrbit;
//2、准备绘制
/*
其实就是把数据传递过去,然后指定读取方式
参数1:数据是做什么用的
参数2:数据读取个数
参数3:数据读取索引
参数4:是否调用glEnableVertexAttribArray
着色器能否读取到数据,由是否启用了对应的属性决定,这就是glEnableVertexAttribArray的功能,允许顶点着色器读取GPU(服务器端)数据。
默认情况下,出于性能考虑,所有顶点着色器的属性(Attribute)变量都是关闭的,意味着数据在着色器端是不可见的,哪怕数据已经上传到GPU,由glEnableVertexAttribArray启用指定属性,才可在顶点着色器中访问逐顶点的属性数据。glVertexAttribPointer或VBO只是建立CPU和GPU之间的逻辑连接,从而实现了CPU数据上传至GPU。但是,数据在GPU端是否可见,即,着色器能否读取到数据,由是否启用了对应的属性决定,这就是glEnableVertexAttribArray的功能,允许顶点着色器读取GPU(服务器端)数据。
那么,glEnableVertexAttribArray应该在glVertexAttribPointer之前还是之后调用?答案是都可以,只要在绘图调用(glDraw*系列函数)前调用即可。
*/
[self.vertexPositionBuffer prepareToDrawWithAttrib:GLKVertexAttribPosition numberOfCoordinates:3 attribOffset:0 shouldEnable:YES];
[self.vertexNormalBuffer prepareToDrawWithAttrib:GLKVertexAttribNormal numberOfCoordinates:3 attribOffset:0 shouldEnable:YES];
[self.vertextTextureCoordBuffer prepareToDrawWithAttrib:GLKVertexAttribTexCoord0 numberOfCoordinates:2 attribOffset:0 shouldEnable:YES];
//3.开始绘制
[self drawEarth];
[self drawMoon];
}
开始绘制地球
-(void)drawEarth
{
//获取纹理的name、target
self.baseEffect.texture2d0.name = self.earchTextureInfo.name;
self.baseEffect.texture2d0.target = self.earchTextureInfo.target;
/*
current matrix:
1.000000 0.000000 0.000000 0.000000
0.000000 1.000000 0.000000 0.000000
0.000000 0.000000 1.000000 0.000000
0.000000 0.000000 -5.000000 1.000000
为什么?因为你在viewDidLoad中设置的
//5.设置模型矩形 -5.0f表示往屏幕内移动-5.0f距离
self.baseEffect.transform.modelviewMatrix = GLKMatrix4MakeTranslation(0.0f, 0.0f, -5.0f);
*/
//将当前的modelViewMatrixStack 压栈
GLKMatrixStackPush(self.modelViewMatrixStack);
//在指定的轴上旋转最上面的矩阵,围绕x轴旋转
GLKMatrixStackRotate(self.modelViewMatrixStack, GLKMathDegreesToRadians(SceneEarthAxialTiltDeg), 1.0f, 0.0f, 0.0f);
/*
current matrix:
1.000000 0.000000 0.000000 0.000000
0.000000 0.917060 0.398749 0.000000
0.000000 -0.398749 0.917060 0.000000
0.000000 0.000000 -5.000000 1.000000
为什么?
将矩阵与围绕X旋转的旋转矩阵相乘,即可得上述结果
*/
self.baseEffect.transform.modelviewMatrix = GLKMatrixStackGetMatrix4(self.modelViewMatrixStack);
//准备绘制
[self.baseEffect prepareToDraw];
//调用AGLKVertexAttribArrayBuffer,绘制图形
/*
参数1:绘制的方式,三角形
参数2:绘制数据读取的索引
参数3:绘制数据的大小
*/
[AGLKVertexAttribArrayBuffer drawPreparedArraysWithMode:GL_TRIANGLES startVertexIndex:0 numberOfVertices:sphereNumVerts];
//绘制完毕,则出栈
/*
current matrix:
0.994522 0.041681 -0.095859 0.000000
0.000000 0.917060 0.398749 0.000000
0.104528 -0.396565 0.912036 0.000000
0.000000 0.000000 -5.000000 1.000000
*/
GLKMatrixStackPop(self.modelViewMatrixStack);
/*
current matrix:
1.000000 0.000000 0.000000 0.000000
0.000000 1.000000 0.000000 0.000000
0.000000 0.000000 1.000000 0.000000
0.000000 0.000000 -5.000000 1.000000
*/
self.baseEffect.transform.modelviewMatrix = GLKMatrixStackGetMatrix4(self.modelViewMatrixStack);
}
绘制月亮
-(void)drawMoon
{
//获取纹理的name、target
self.baseEffect.texture2d0.name = self.moomTextureInfo.name;
self.baseEffect.texture2d0.target = self.moomTextureInfo.target;
//压栈
GLKMatrixStackPush(self.modelViewMatrixStack);
//围绕Y轴旋转moonRotationAngleDegress角度
//自转
GLKMatrixStackRotate(self.modelViewMatrixStack, GLKMathDegreesToRadians(self.moonRotationAngleDegress), 0.0f, 1.0f, 0.0f);
//平移 - 月球距离地球的距离
GLKMatrixStackTranslate(self.modelViewMatrixStack, 0.0f, 0.0f, SceneMoonDistanceFromEarth);
//缩放,把月球缩放
GLKMatrixStackScale(self.modelViewMatrixStack, SceneMoonRadiusFractionOfEarth, SceneMoonRadiusFractionOfEarth, SceneMoonRadiusFractionOfEarth);
//旋转 围绕Y轴旋转
GLKMatrixStackRotate(self.modelViewMatrixStack, GLKMathDegreesToRadians(self.moonRotationAngleDegress), 0.0f, 1.0f, 0.0f);
self.baseEffect.transform.modelviewMatrix = GLKMatrixStackGetMatrix4(self.modelViewMatrixStack);
[self.baseEffect prepareToDraw];
[AGLKVertexAttribArrayBuffer drawPreparedArraysWithMode:GL_TRIANGLES startVertexIndex:0 numberOfVertices:sphereNumVerts];
//设置完毕出栈
GLKMatrixStackPop(self.modelViewMatrixStack);
self.baseEffect.transform.modelviewMatrix = GLKMatrixStackGetMatrix4(self.modelViewMatrixStack);
}
Switch切换正投影或透视投影
#pragma mark -Switch Click
//切换正投影效果或透视投影效果
- (IBAction)switchClick:(UISwitch *)sender {
GLfloat aspect = self.view.bounds.size.width / self.view.bounds.size.height;
if ([sender isOn]) {
//正投影
self.baseEffect.transform.projectionMatrix = GLKMatrix4MakeFrustum(-1.0f * aspect, 1.0f * aspect, -1.0, 1.0, 2.0f, 120.0);
}else {
//透视投影
self.baseEffect.transform.projectionMatrix = GLKMatrix4MakeOrtho(-1.0f * aspect, 1.0f * aspect, -1.0, 1.0, 2.0f, 120.0);
}
}
github地址:YSEarthAndMoon.git
