视点变换，旋转，加速减速，星空背景太阳，光晕各行星纹理#include#include#include#include#include#include#include#pragmacomment(lib,"winmm.lib")#pragmacomment(lib,"wininet")//纹理图像结构typedefstruct{intimgWidth;//纹理宽度intimgHeight;//纹理高度unsignedcharbyteCount;//每个象素对应的字节数，3：24位图，4：带alpha通道的24位图unsignedchar*data;//纹理数据}TEXTUREIMAGE;//BMP文件头#pragmapack(2)typedefstruct{unsignedshortbfType;//文件类型unsignedlongbfSize;//文件大小unsignedshortbfReserved1;//保留位unsignedshortbfReserved2;//保留位unsignedlongbfOffBits;//数据偏移位置}BMPFILEHEADER;#pragmapack()//BMP信息头typedefstruct{unsignedlongbiSize;//此结构大小longbiWidth;//图像宽度longbiHeight;//图像高度unsignedshortbiPlanes;//调色板数量unsignedshortbiBitCount;//每个象素对应的位数，24：24位图，32：带alpha通道的24位图unsignedlongbiCompression;//压缩unsignedlongbiSizeImage;//图像大小longbiXPelsPerMeter;//横向分辨率longbiYPelsPerMeter;//纵向分辨率unsignedlongbiClrUsed;//颜色使用数unsignedlongbiClrImportant;//重要颜色数}BMPINFOHEADER;//定义窗口的标题、宽度、高度、全屏布尔变量#defineWIN_TITLE"模拟太阳系各星球的转动"constintWIN_WIDTH=800;constintWIN_HEIGHT=600;BOOLisFullScreen=FALSE;//初始不为全屏#defineDEG_TO_RAD0.017453floatangle=0.0;staticGLdoubleviewer[]={0,0,0,0,0};//初始化视角GLUquadricObj*quadric;//建立二次曲面对象GLfloatangle_Z;//星空旋转角度boolg_bOrbitOn=true;//控制转动暂停floatg_fSpeedmodifier=1.0f;//时间控制floatg_fElpasedTime;doubleg_dCurrentTime;doubleg_dLastTime;GLfloatLightAmbient[]={1.0f,1.0f,1.0f,0.0f};//环境光参数GLfloatLightDiffuse[]={1.0f,1.0f,1.0f,0.0f};//漫射光参数GLfloatLightPosition[]={0.0f,0.0f,0.0f,1.0f};//光源的位置//纹理图象TEXTUREIMAGEskyImg;TEXTUREIMAGEsunImg;TEXTUREIMAGErayImg;TEXTUREIMAGEmercuImg;TEXTUREIMAGEvenusImg;TEXTUREIMAGEearthImg;TEXTUREIMAGEmarsImg;TEXTUREIMAGEjupiterImg;TEXTUREIMAGEsaturnImg;TEXTUREIMAGEuranusImg;TEXTUREIMAGEneptuneImg;TEXTUREIMAGEmoonImg;GLuinttexture[12];//纹理数组//星球速度定义staticfloatfSunSpin=0.0f;//太阳自转速度staticfloatfMercuSpin=0.0f;//水星自转速度staticfloatfMercuOrbit=0.0f;//水星公转速度staticfloatfVenusSpin=0.0f;//金星自转速度staticfloatfVenusOrbit=0.0f;//金星公转速度staticfloatfEarthSpin=0.0f;//地球自转速度staticfloatfEarthOrbit=0.0f;//地球公转速度staticfloatfMarsSpin=0.0f;//火星自转速度staticfloatfMarsOrbit=0.0f;//火星公转速度staticfloatfJupiterSpin=0.0f;//木星自转速度staticfloatfJupiterOrbit=0.0f;//木星公转速度staticfloatfSaturnSpin=0.0f;//土星自转速度staticfloatfSaturnOrbit=0.0f;//土星公转速度staticfloatfUranusSpin=0.0f;//天王星自转速度staticfloatfUranusOrbit=0.0f;//天王星公转速度staticfloatfNeptuneSpin=0.0f;//海王星自转速度staticfloatfNeptuneOrbit=0.0f;//海王星公转速度staticfloatfMoonSpin=0.0f;//月亮自转速度staticfloatfMoonOrbit=0.0f;//月亮公转速度voidMakeTexture(TEXTUREIMAGEtextureImg,GLuint*texName)//转换为纹理{glPixelStorei(GL_UNPACK_ALIGNMENT,1);//对齐像素字节函数glGenTextures(1,texName);//第一个参数指定表明获取多少个连续的纹理标识符glBindTexture(GL_TEXTURE_2D,*texName);glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_WRAP_S,GL_REPEAT);glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_WRAP_T,GL_REPEAT);glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_MAG_FILTER,GL_LINEAR);glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_MIN_FILTER,GL_LINEAR);glTexImage2D(GL_TEXTURE_2D,0,GL_RGB,textureImg.imgWidth,textureImg.imgHeight,0,GL_RGB,GL_UNSIGNED_BYTE,textureImg.data);}//初始化OpenGLvoidInitGL(void){glClearColor(0.0f,0.0f,0.0f,0.5f);//设置黑色背景glClearDepth(2.0f);//设置深度缓存glEnable(GL_DEPTH_TEST);//启动深度测试glDepthFunc(GL_LEQUAL);//深度小或相等的时候渲染glShadeModel(GL_SMOOTH);//启动阴影平滑glEnable(GL_CULL_FACE);//开启剔除操作效果glHint(GL_PERSPECTIVE_CORRECTION_HINT,GL_NICEST);//使用质量最好的模式指定颜色和纹理坐标的插值质量glLightfv(GL_LIGHT1,GL_AMBIENT,LightAmbient);//设置环境光glLightfv(GL_LIGHT1,GL_DIFFUSE,LightDiffuse);//设置漫反射光glEnable(GL_LIGHTING);//打开光照glEnable(GL_LIGHT1);//打开光源1//载入纹理glEnable(GL_TEXTURE_2D);//开启2D纹理映射MakeTexture(skyImg,&texture;[0]);MakeTexture(sunImg,&texture;[1]);MakeTexture(rayImg,&texture;[2]);MakeTexture(mercuImg,&texture;[3]);MakeTexture(venusImg,&texture;[4]);MakeTexture(earthImg,&texture;[5]);MakeTexture(marsImg,&texture;[6]);MakeTexture(jupiterImg,&texture;[7]);MakeTexture(saturnImg,&texture;[8]);MakeTexture(uranusImg,&texture;[9]);MakeTexture(neptuneImg,&texture;[10]);MakeTexture(moonImg,&texture;[11]);quadric=gluNewQuadric();//建立一个曲面对象指针gluQuadricTexture(quadric,GLU_TRUE);//建立纹理坐标gluQuadricDrawStyle(quadric,GLU_FILL);//面填充}voidDisplay(void){glLoadIdentity();//设置观察点的位置和观察的方向gluLookAt(viewer[0],viewer[1],viewer[2],viewer[3],viewer[4],-5,0,1,0);//摄像机x,摄像机y,摄像机z,目标点x,目标点y,目标点z,摄像机顶朝向x,摄像机顶朝向y,摄像机顶朝向z//获得系统时间使太阳系有动态效果g_dCurrentTime=timeGetTime();g_fElpasedTime=(float)((g_dCurrentTime-g_dLastTime)*0.0005);g_dLastTime=g_dCurrentTime;glClear(GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT);glMatrixMode(GL_MODELVIEW);//指定GL_MODELVIEW是下一个矩阵操作的目标glTranslatef(0.0f,0.0f,-5.0f);//将坐标系移入屏幕5.0fglRotatef(10,1.0f,0.0f,0.0f);//将坐标系绕x轴旋转10度glEnable(GL_LIGHT0);//打开光源0/**********************************绘制背景星空********************************************/glPushMatrix();//当前模型矩阵入栈glTranslatef(-10.0f,3.0f,0.0f);glRotatef(angle_Z,0.0f,0.0f,1.0f);glEnable(GL_TEXTURE_2D);glBindTexture(GL_TEXTURE_2D,texture[0]);//星空纹理glBegin(GL_QUADS);glNormal3f(0.0f,0.0f,1.0f);glTexCoord2f(0.0f,0.0f);glVertex3f(-50.0f,-50.0f,-50.0f);glTexCoord2f(6.0f,0.0f);glVertex3f(50.0f,-50.0f,-50.0f);glTexCoord2f(6.0f,6.0f);glVertex3f(50.0f,50.0f,-50.0f);glTexCoord2f(0.0f,6.0f);glVertex3f(-50.0f,50.0f,-50.0f);glEnd();glBegin(GL_QUADS);glNormal3f(0.0f,0.0f,-1.0f);glTexCoord2f(6.0f,6.0f);glVertex3f(-50.0f,-50.0f,50.0f);glTexCoord2f(0.0f,6.0f);glVertex3f(50.0f,-50.0f,50.0f);glTexCoord2f(0.0f,0.0f);glVertex3f(50.0f,50.0f,50.0f);glTexCoord2f(6.0f,0.0f);glVertex3f(-50.0f,50.0f,50.0f);glEnd();glBegin(GL_QUADS);glNormal3f(0.0f,1.0f,0.0f);glTexCoord2f(0.0f,0.0f);glVertex3f(-50.0f,-50.0f,-50.0f);glTexCoord2f(6.0f,6.0f);glVertex3f(50.0f,-50.0f,50.0f);glTexCoord2f(6.0f,0.0f);glVertex3f(50.0f,-50.0f,-50.0f);glTexCoord2f(0.0f,6.0f);glVertex3f(-50.0f,-50.0f,50.0f);glEnd();glBegin(GL_QUADS);glNormal3f(0.0f,-1.0f,0.0f);glTexCoord2f(6.0f,6.0f);glVertex3f(-50.0f,50.0f,-50.0f);glTexCoord2f(0.0f,0.0f);glVertex3f(50.0f,50.0f,50.0f);glTexCoord2f(0.0f,6.0f);glVertex3f(50.0f,50.0f,-50.0f);glTexCoord2f(6.0f,0.0f);glVertex3f(-50.0f,50.0f,50.0f);glEnd();glBegin(GL_QUADS);glNormal3f(1.0f,0.0f,0.0f);glTexCoord2f(0.0f,0.0f);glVertex3f(-50.0f,-50.0f,-50.0f);glTexCoord2f(6.0f,6.0f);glVertex3f(-50.0f,50.0f,50.0f);glTexCoord2f(0.0f,6.0f);glVertex3f(-50.0f,-50.0f,50.0f);glTexCoord2f(6.0f,0.0f);glVertex3f(-50.0f,50.0f,-50.0f);glEnd();glBegin(GL_QUADS);glNormal3f(-1.0f,0.0f,0.0f);glTexCoord2f(6.0f,6.0f);glVertex3f(50.0f,-50.0f,-50.0f);glTexCoord2f(0.0f,0.0f);glVertex3f(50.0f,50.0f,50.0f);glTexCoord2f(6.0f,0.0f);glVertex3f(50.0f,-50.0f,50.0f);glTexCoord2f(0.0f,6.0f);glVertex3f(50.0f,50.0f,-50.0f);glEnd();glPopMatrix();//当前模型矩阵出栈/**********************************绘制太阳************************************************/glBindTexture(GL_TEXTURE_2D,texture[2]);//光晕纹理glEnable(GL_BLEND);//开启混合glDisable(GL_DEPTH_TEST);//关闭深度测试//绘制太阳光晕glDisable(GL_LIGHTING);//关闭光照glBlendFunc(GL_SRC_ALPHA,GL_ONE);//半透明混合函数glColor4f(1.0f,0.5f,0.0f,0.5f);//设置RGBA值glBegin(GL_QUADS);glNormal3f(0.0f,0.0f,1.0f);glTexCoord2f(0.0f,0.0f);glVertex3f(-1.0f,-1.0f,0.0f);glTexCoord2f(1.0f,0.0f);glVertex3f(1.0f,-1.0f,0.0f);glTexCoord2f(1.0f,1.0f);glVertex3f(1.0f,1.0f,0.0f);glTexCoord2f(0.0f,1.0f);glVertex3f(-1.0f,1.0f,0.0f);glEnd();glDisable(GL_BLEND);//关闭混合glEnable(GL_DEPTH_TEST);glEnable(GL_LIGHTING);//开启光照glLightfv(GL_LIGHT1,GL_POSITION,LightPosition);//设置光源1位置glBindTexture(GL_TEXTURE_2D,texture[1]);//太阳纹理//将坐标系绕Y轴旋转fSunSpin角度,控制太阳自转glRotatef(fSunSpin,0.0,1.0,0.0);gluSphere(quadric,0.3f,32,32);//绘制太阳球体/**********************************绘制水星************************************************/glDisable(GL_LIGHT0);glEnable(GL_TEXTURE_2D);//开启纹理glPushMatrix();//当前模型视图矩阵入栈//将坐标系绕Y轴旋转fMercuOrbit角度,控制水星公转glRotatef(fMercuOrbit,0.0f,1.0f,0.0f);glRotatef(-90.0f,1.0f,0.0f,0.0f);//将坐标系绕X轴旋转-90度glTranslatef(0.5f,0.0f,0.0f);//将坐标系右移0.5fglBindTexture(GL_TEXTURE_2D,texture[3]);//水星纹理//将坐标系绕Z轴旋转fMercuSpin角度控制水星自转glRotatef(fMercuSpin,0.0f,0.0f,1.0f);gluSphere(quadric,0.04f,32,32);//水星球体glPopMatrix();//当前模型视图矩阵出栈//绘制轨道glBegin(GL_LINE_LOOP);for(angle=0;angle=-6.0)viewer[0]-=0.5;break;case'u':case'U':if(viewer[1]=-6.0)viewer[1]-=0.1;break;case'+':case'='://加速,减速,暂停g_fSpeedmodifier+=1.0f;glutPostRedisplay();break;case'':g_bOrbitOn=!g_bOrbitOn;glutPostRedisplay();break;case'-'://按'-'减小运行速度g_fSpeedmodifier-=1.0f;glutPostRedisplay();break;caseVK_ESCAPE://按ESC键时退出exit(0);break;default:break;}}voidspecial_keys(ints_keys,intx,inty){switch(s_keys){caseGLUT_KEY_F1://按F1键时切换窗口/全屏模式if(isFullScreen){glutReshapeWindow(WIN_WIDTH,WIN_HEIGHT);glutPositionWindow(30,30);isFullScreen=FALSE;}else{glutFullScreen();isFullScreen=TRUE;}break;caseGLUT_KEY_RIGHT://视角上下左右旋转if(viewer[3]=-3.0)viewer[3]-=0.1;break;caseGLUT_KEY_UP:if(viewer[4]=-4.5)viewer[4]-=0.1;break;default:break;}}voidmouse(intbtn,intstate,intx,inty)//远近视角{if(btn==GLUT_RIGHT_BUTTON&&state==GLUT_DOWN)viewer[2]+=0.3;if(btn==GLUT_LEFT_BUTTON&&state==GLUT_DOWN&&viewer;[2]＞=-3.9)viewer[2]-=0.3;}voidLoadBmp(char*filename,TEXTUREIMAGE*textureImg)//载入图片{inti,j;FILE*file;BMPFILEHEADERbmpFile;BMPINFOHEADERbmpInfo;intpixel_size;//初始化纹理数据textureImg-＞imgWidth=0;textureImg-＞imgHeight=0;if(textureImg-＞data!=NULL){delete[]textureImg-＞data;}//打开文件file=fopen(filename,"rb");if(file==NULL){return;}//获取文件头rewind(file);fread(&bmpFile;,sizeof(BMPFILEHEADER),1,file);fread(&bmpInfo;,sizeof(BMPINFOHEADER),1,file);//验证文件类型if(bmpFile.bfType!=0x4D42){return;}//获取图像色彩数pixel_size=bmpInfo.biBitCount＞＞3;//读取文件数据textureImg-＞data=newunsignedchar[bmpInfo.biWidth*bmpInfo.biHeight*pixel_size];for(i=0;idata+(i*bmpInfo.biWidth+j)*pixel_size+2,sizeof(unsignedchar),1,file);//绿色分量fread(textureImg-＞data+(i*bmpInfo.biWidth+j)*pixel_size+1,sizeof(unsignedchar),1,file);//蓝色分量fread(textureImg-＞data+(i*bmpInfo.biWidth+j)*pixel_size+0,sizeof(unsignedchar),1,file);//Alpha分量if(pixel_size==4){fread(textureImg-＞data+(i*bmpInfo.biWidth+j)*pixel_size+3,sizeof(unsignedchar),1,file);}}}//记录图像相关参数textureImg-＞imgWidth=bmpInfo.biWidth;textureImg-＞imgHeight=bmpInfo.biHeight;textureImg-＞byteCount=pixel_size;fclose(file);}//程序主函数voidmain(intargc,char**argv){//读图片LoadBmp("Picture//Sky.bmp",&skyImg;);LoadBmp("Picture//Sun.bmp",&sunImg;);LoadBmp("Picture//Ray.bmp",&rayImg;);LoadBmp("Picture//Mercu.bmp",&mercuImg;);LoadBmp("Picture//Venus.bmp",&venusImg;);//金星LoadBmp("Picture//Earth.bmp",&earthImg;);LoadBmp("Picture//Mars.bmp",&marsImg;);//火星LoadBmp("Picture//Jupiter.bmp",&jupiterImg;);//木星LoadBmp("Picture//Saturn.bmp",&saturnImg;);//土星LoadBmp("Picture//Uranus.bmp",&uranusImg;);//天王星LoadBmp("Picture//Neptune.bmp",&neptuneImg;);//海王星LoadBmp("Picture//Moon.bmp",&moonImg;);glutInit(&argc;,argv);//初始化GLUT库glutInitDisplayMode(GLUT_RGBA|GLUT_DOUBLE|GLUT_DEPTH);//初始化显示模式glutInitWindowSize(WIN_WIDTH,WIN_HEIGHT);//初始化窗口大小glutInitWindowPosition(20,20);//初始化窗口位置GLuintwindow=glutCreateWindow(WIN_TITLE);//建立窗口InitGL();//初始化OpenGLglutDisplayFunc(Display);glutReshapeFunc(Reshape);glutKeyboardFunc(keyboard);glutSpecialFunc(special_keys);glutMouseFunc(mouse);glutIdleFunc(Display);//设置窗口空闲时的处理函数glutMainLoop();//进入事件处理循环}

实验一OpenGL+GLUT开发平台搭建5小实验1：开发环境设置5小实验2：控制窗口位置和大小6小实验3：默认的可视化范围6小实验4：自定义可视化范围7小实验5：几何对象变形的原因8小实验6：视口坐标系及视口定义8小实验7：动态调整长宽比例，保证几何对象不变形9实验二动画和交互10小实验1：单缓冲动画技术10小实验2：双缓冲动画技术11小实验3：键盘控制13小实验4：鼠标控制【试着单击鼠标左键或者右键，试着按下鼠标左键后再移动】14实验三几何变换、观察变换、三维对象16小实验1：二维几何变换16小实验2：建模观察（MODELVIEW）矩阵堆栈17小实验3：正平行投影119小实验4：正平行投影219小实验5：正平行投影320小实验6：透射投影121小实验6：透射投影222小实验7：三维对象24实验四光照模型和纹理映射26小实验1：光照模型1----OpenGL简单光照效果的关键步骤。
26小实验2：光照模型2----光源位置的问题28小实验3：光照模型3----光源位置的问题31小实验4：光照模型4----光源位置的问题33小实验5：光照模型5----光源位置的问题35小实验6：光照模型6----光源位置的问题38小实验7：光照模型7----光源位置的动态变化40小实验8：光照模型8----光源位置的动态变化43小实验9：光照模型9---光源位置的动态变化45小实验10：光照模型10---聚光灯效果模拟48小实验11：光照模型11---多光源效果模拟50小实验12：光照效果和雾效果的结合53小实验13：纹理映射初步—掌握OpenGL纹理映射的一般步骤56小实验13：纹理映射—纹理坐标的自动生成（基于参数的曲面映射）59小实验14：纹理映射—纹理坐标的自动生成（基于参考面距离）61

实验一OpenGL+GLUT开发平台搭建5小实验1：开发环境设置5小实验2：控制窗口位置和大小6小实验3：默认的可视化范围6小实验4：自定义可视化范围7小实验5：几何对象变形的原因8小实验6：视口坐标系及视口定义8小实验7：动态调整长宽比例，保证几何对象不变形9实验二动画和交互10小实验1：单缓冲动画技术10小实验2：双缓冲动画技术11小实验3：键盘控制13小实验4：鼠标控制【试着单击鼠标左键或者右键，试着按下鼠标左键后再移动】14实验三几何变换、观察变换、三维对象16小实验1：二维几何变换16小实验2：建模观察（MODELVIEW）矩阵堆栈17小实验3：正平行投影119小实验4：正平行投影219小实验5：正平行投影320小实验6：透射投影121小实验6：透射投影222小实验7：三维对象24实验四光照模型和纹理映射26小实验1：光照模型1----OpenGL简单光照效果的关键步骤。
26小实验2：光照模型2----光源位置的问题28小实验3：光照模型3----光源位置的问题31小实验4：光照模型4----光源位置的问题33小实验5：光照模型5----光源位置的问题35小实验6：光照模型6----光源位置的问题38小实验7：光照模型7----光源位置的动态变化40小实验8：光照模型8----光源位置的动态变化43小实验9：光照模型9---光源位置的动态变化45小实验10：光照模型10---聚光灯效果模拟48小实验11：光照模型11---多光源效果模拟50小实验12：光照效果和雾效果的结合53小实验13：纹理映射初步—掌握OpenGL纹理映射的一般步骤56小实验13：纹理映射—纹理坐标的自动生成（基于参数的曲面映射）59小实验14：纹理映射—纹理坐标的自动生成（基于参考面距离）61

一、1.Pleasedownloadandinstalltheglutlibrary.2.WriteacompleteprogramusingthefollowingcodestodrawaSierpinskigasket.voidmyinit(){//attributesglClearColor(1.0,1.0,1.0,1.0);glColor3f(1.0,0.0,0.0);//setupviewingglMatrixMode(GL_PROJECTION);glLoadIdentity();gluOrtho2D(0.0,50.0,0.0,50.0);glMatrixMode(GL_MODELVIEW);}voiddisplay(){GLfloatvertices[3][3]={{0.0,0.0,0.0},{25.0,50.0,0.0},{50.0,0.0,0.0}};//anarbitrarytriangleintheplanez=0;GLfloatp[3]={7.5,5.0,0.0};//orsetanydesiredinitialpointwhichisinsidethetriangle;intj,k;intrand();glBegin(GL_POINTS);for(k=0;k＜5000;k++){/*pickarandomvertexfrom0,1,2*/j=rand()%3;//computenewlocation;p[0]=(p[0]+vertices[j][0])/2;p[1]=(p[1]+vertices[j][1])/2;//displaynewpointglVertex3fv(p);}glEnd();glFlush();}#includevoidmain(intargc,char**argv){glutInit(&argc;,argv);glutInitDisplayMode(GLUT_SINGLE|GLUT_RGB);glutInitAWindowSize(500,500);glutInitWindowPosition(0,0);glutCreateWindow(“SimpleOpenGLExample”);glutDisplayFunc(display);myinit();glutMainLoop();}3.实现DDA和Bresenham画线算法(1)画10万以上随机生成的直线段，比较两个算法的平均时间.(2)分别把屏幕上的1*1，5*5,9*9像素当作直线段上的一个点，观察线段的走样情况.二、请写一个OpenGL（如果熟悉WebGL也可以用）程序完成如下任务(1)读入三维网格模型的obj文件;(2)用OpenGL函数glTranslatef()对模型模型进行平移，使得其重心位于原点;(3)用函数glLookAt()设置视点，并且要求试点绕模型一周，以便用透视投影观察各个侧面;(4)要求利用真实感绘制对模型进行渲染.(利用OpenGL函数设置光源，材质，计算好每个三角形的法向量后，利用OpenGL的glNormal函数给待绘制的三角形设置法向量).绘制的结果大概如下：三、本实验为综合实验,任务是利用光线跟踪算法进行Whitted全局光照计算，并对读入场景进行真实感绘制。
（特别提示:网上类似的projects可以参考，但不能照抄.如http://tobias.isenberg.cc/graphics/LabSessions/RaytracingProject,http://physbam.stanford.edu/links/ray_tracing/project_ray_tracing.htmlhttps://www.cs.utexas.edu/~fussell/courses/cs354/assignments/raytracing/handout.shtml）(1)参加对象:本实验针对所有选课同学，3-5人组成一个小组，共同实现；
非15级同学在组队方面有困难的话可与老师沟通.(2)实验结果提交:每人都要求提交一份.内容包括a.源程序;可执行代码;三维场景数据;同组的同学这部

云音乐网站-数据库和源代码文件都有，是可以运行的，我本人运行之后在里面放了几张功能截图，还附带有一个课程设计说明书。
比较全面，值得学习和下载。
5分少了，满意请好评。
##配置开发环境EclipseJavaEEIDEforWebDevelopers4.3.2开发语言Java1.8MVC框架Spring4.3.3web服务器Tomcat开发系统macOSXMysql数据库##相关路径：controller：CloudMusic/src/controllermodel:CloudMusic/src/modelview:CloudMusic/WebContent/WEB-INF/view##运行方法1、需要提前配置好mysql数据库，sql文件位于根目录(DDL.sqlDML.sql)2、设置数据库参数配置文件位于apache-tomcat/webapps/CloudMusic/WEB-INF/classes/dbConfig.properties3、终端启动服务器```cdapache-tomcat./bin/catalina.shrun```运行成功后，浏览器打开http://localhost:8080/CloudMusic可访问##其他说明1、若运行.sh文件报permisisondenied，则在终端运行chmod+xcatalina.sh修改权限

在日常工作中，钉钉打卡成了我生活中不可或缺的一部分。然而，有时候这个看似简单的任务却给我带来了不少烦恼。 每天早晚，我总是得牢记打开钉钉应用，点击"工作台"，再找到"考勤打卡"进行签到。有时候因为工作忙碌，会忘记打卡，导致考勤异常，影响当月的工作评价。而且，由于我使用的是苹果手机，有时候系统更新后，钉钉的某些功能会出现异常，使得打卡变得更加麻烦。 另外，我的家人使用的是安卓手机，他们也经常抱怨钉钉打卡的繁琐。尤其是对于那些不太熟悉手机操作的长辈来说，每次打卡都是一次挑战。他们总是担心自己会操作失误，导致打卡失败。 为了解决这些烦恼，我开始思考是否可以通过编写一个全自动化脚本来实现钉钉打卡。经过一段时间的摸索和学习，我终于成功编写出了一个适用于苹果和安卓系统的钉钉打卡脚本。