0.运行效果
要制作一款相册足够的图片量是必不可少的,不然整个相册只有一张图来回重复多没意思呀,因此我们需要一个文件夹专门放图片,为了方便导入,这里全部都是jpg格式:
图片导入代码:
path='.\album\';%文件夹路径
files=dir(fullfile(path,'*.jpg'));
picNum=size(files,1);
%遍历路径下每一幅图像
for i=1:picNum
fileName = strcat(path,files(i).name);
img = imread(fileName);
imgSet.(['p',num2str(i)])=img;
end
for i=1:length(BlockNum)%圆环层数
blockNum=BlockNum(i);%每一层图片数量
Rrange=R(i,:);%每次一层半径范围
for j=1:blockNum
tempBoard=ones(2401,2401)==1;
tempBoard=tempBoard&(disMesh>Rrange(1))&(disMesh((j-1)*2*pi/blockNum))&(thetaMeshRrange(1))&(disMesh((j-1)*2*pi/blockNum))&(thetaMesh0);
TrueY=find(sum(tempBoard,2)>0);
tempMask=tempBoard(min(TrueY):max(TrueY),min(TrueX):max(TrueX));
x1=YMesh(min(TrueX),min(TrueY));
y1=XMesh(min(TrueX),min(TrueY));
x2=YMesh(max(TrueX),max(TrueY));
y2=XMesh(max(TrueX),max(TrueY));
xdiff=x2-x1;
ydiff=y2-y1;
pic=imgSet.(['p',num2str(tempPic)]);
[rows,cols,~]=size(pic);
ratio=[ydiff+1,xdiff+1]./[rows,cols];
newsize=ceil([rows,cols].*max(ratio));
offset=floor((newsize-[ydiff+1,xdiff+1])./2);
pic=imresize(pic,newsize);
pic=pic((1:ydiff+1)+offset(1),(1:xdiff+1)+offset(2),:);
end
end
基本参数:
BlockNum=[7,11];%每层扇形数量 R=[300,670;%第一层半径范围 670,1090];%第二层半径范围 lineColor=[0.98,0.98,0.98];线颜色 lineWidth=2;%线粗细
关于线的属性之后再说
绘图就直接是用image函数,这个没啥好说的,如果文件夹图片不多我们会采用取余的方式循环画之前的图:
tempPic=1;
for i=1:length(BlockNum)
blockNum=BlockNum(i);
for j=1:blockNum
tempPic=tempPic+1;
tempPic=mod(tempPic-1,picNum)+1;
end
end
我们发现直接绘图的话边缘锯齿化比较严重: 
我们很容易想到画线来遮丑:
t=0:0.001:(2*pi+0.001);
for i=1:length(BlockNum)
blockNum=BlockNum(i);
Rrange=R(i,:);
for j=1:blockNum
plot(cos(j*2*pi/blockNum).*Rrange,sin(j*2*pi/blockNum).*Rrange,'Color',lineColor,'LineWidth',lineWidth)
end
plot(cos(t).*Rrange(1),sin(t).*Rrange(1),'Color',lineColor,'LineWidth',lineWidth)
plot(cos(t).*Rrange(2),sin(t).*Rrange(2),'Color',lineColor,'LineWidth',lineWidth)
end
当然也可以画黑线: 只需要lineColor=[0,0,0]或者lineColor='k’即可 
function ringAlbum
BlockNum=[7,11];
R=[300,670;
670,1090];
lineColor=[0.98,0.98,0.98];
lineWidth=2;
path='.\album\';%文件夹名称
files=dir(fullfile(path,'*.jpg'));
picNum=size(files,1);
%遍历路径下每一幅图像
for i=1:picNum
fileName = strcat(path,files(i).name);
img = imread(fileName);
imgSet.(['p',num2str(i)])=img;
end
fig=figure('units','pixels',...
'position',[20 60 560 560],...
'Color',[1 1 1]);
ax=axes('Units','pixels',...
'parent',fig,...
'Color',[1 1 1],...
'Position',[0 0 560,560],...
'XLim',[-1200,1200],...
'YLim',[-1200,1200],...
'XColor','none',...
'YColor','none');
hold(ax,'on')
ax.YDir='reverse';
ax.XDir='normal';
[XMesh,YMesh]=meshgrid(-1200:1:1200,-1200:1:1200);
disMesh=sqrt(XMesh.^2+YMesh.^2);
thetaMesh=atan2(YMesh,XMesh)+pi;
thetaMesh=thetaMesh(:,end:-1:1);
tempPic=1;
t=0:0.001:(2*pi+0.001);
for i=1:length(BlockNum)
blockNum=BlockNum(i);
Rrange=R(i,:);
for j=1:blockNum
tempBoard=ones(2401,2401)==1;
tempBoard=tempBoard&(disMesh>Rrange(1))&(disMesh((j-1)*2*pi/blockNum))&(thetaMesh0);
TrueY=find(sum(tempBoard,2)>0);
tempMask=tempBoard(min(TrueY):max(TrueY),min(TrueX):max(TrueX));
x1=YMesh(min(TrueX),min(TrueY));
y1=XMesh(min(TrueX),min(TrueY));
x2=YMesh(max(TrueX),max(TrueY));
y2=XMesh(max(TrueX),max(TrueY));
xdiff=x2-x1;
ydiff=y2-y1;
pic=imgSet.(['p',num2str(tempPic)]);
[rows,cols,~]=size(pic);
ratio=[ydiff+1,xdiff+1]./[rows,cols];
newsize=ceil([rows,cols].*max(ratio));
offset=floor((newsize-[ydiff+1,xdiff+1])./2);
pic=imresize(pic,newsize);
pic=pic((1:ydiff+1)+offset(1),(1:xdiff+1)+offset(2),:);
image(ax,[x1,x2],[y1,y2],pic,'alphaData',tempMask);
tempPic=tempPic+1;
tempPic=mod(tempPic-1,picNum)+1;
end
for j=1:blockNum
plot(cos(j*2*pi/blockNum).*Rrange,sin(j*2*pi/blockNum).*Rrange,'Color',lineColor,'LineWidth',lineWidth)
end
plot(cos(t).*Rrange(1),sin(t).*Rrange(1),'Color',lineColor,'LineWidth',lineWidth)
plot(cos(t).*Rrange(2),sin(t).*Rrange(2),'Color',lineColor,'LineWidth',lineWidth)
end
end
