Matlab实现绘制有气泡感的网络图
slandarer 人气:0今天给大家带来一款用来绘制有气泡感的网络图的工具函数,绘制效果如下:
花里胡哨的,气泡大小代表流入流出数据量总和,不同颜色的气泡代表属于不同类,两个气泡之间有连线代表有数据流动,连线透明度代表流动数据量,连线的颜色是有方向性的渐变色。
依旧完整代码放在文末。
教程部分
0 数据准备
数据需要的关系矩阵需要的是反对称矩阵:
% 随机生成100x100的反对角矩阵 Data=(rand(100)-.5).*(rand(100)>.978); Data(1:30,:)=Data(1:30,:).*3; Data=tril(Data)-tril(Data)'; % 生成100x1列向量,分类标签为1-10 Class=(1:10).*ones(10,1); Class=Class(:);
1 基础绘图
两行代码完事:
% 基础绘图 BD=bubbleDigraph(Data,Class); BD=BD.draw();
2 气泡大小
可以使用bubblesize
函数设置气泡大小范围,例如:
bubblesize([5,40])
3 气泡颜色
使用setBubbleColor
函数设置颜色:
BD.setBubbleColor(turbo(10))
4 气泡其他属性
可以使用setBubble
函数进行设置,bubblechart图形对象具有的属性均可以修改:
BD.setBubble('MarkerFaceAlpha',.2,'MarkerEdgeColor',[0,0,0])
5 连线配色
直接使用colormap
函数即可设置:
colormap(bone)
6 添加节点及类标签
分别使用:
- NodeName
- ClassName
俩属性设置两种标签:
for i=1:100 nodeName{i}=[num2str(Class(i)),'-',num2str(i)]; end className={'AAAAA','BBBBB','CCCCC','DDDDD','EEEEE','FFFFF','GGGGG','HHHHH','IIIII','JJJJJ'}; BD=bubbleDigraph(Data,Class,'NodeName',nodeName,'ClassName',className); BD=BD.draw(); bubblesize([5,25])
7 标签距离
分别通过:
- RNode
- RClass
俩属性设置两种标签距离中心的距离:
BD=bubbleDigraph(Data,Class,'NodeName',nodeName,'ClassName',className,'RClass',1.38,'RNode',1.2); BD=BD.draw();
8 设置字体
分别使用:
- setNodeLabel
- setClassLabel
俩函数设置两种标签的属性:
BD.setNodeLabel('FontName','Cambria','Color',[0,0,.8]) BD.setClassLabel('FontName','Cambria','Color',[.8,0,0],'FontSize',14)
工具函数完整代码
classdef bubbleDigraph % @author : slandarer % 公众号 : slandarer随笔 % Zhaoxu Liu / slandarer (2023). bubble digraph % (https://www.mathworks.com/matlabcentral/fileexchange/125140-bubble-digraph), % MATLAB Central File Exchange. 检索来源 2023/2/21. properties ax,arginList={'ColorOrder','Colormap','ClassName','NodeName','BubbleSize','RClass','RNode'} ClassName % 类名称 NodeName % 节点名称 % 节点配色 ColorOrder=[0.6510 0.8078 0.8902; 0.1216 0.4706 0.7059; 0.6980 0.8745 0.5412 0.2000 0.6275 0.1725; 0.9843 0.6039 0.6000; 0.8902 0.1020 0.1098 0.9922 0.7490 0.4353; 1.0000 0.4980 0; 0.7922 0.6980 0.8392 0.4157 0.2392 0.6039; 1.0000 1.0000 0.6000; 0.6941 0.3490 0.1569]; % 连线配色 Colormap=[1.0000 0.9686 0.9529; 0.9980 0.9454 0.9307; 0.9960 0.9221 0.9084; 0.9939 0.8988 0.8861 0.9920 0.8750 0.8630; 0.9910 0.8477 0.8336; 0.9900 0.8204 0.8043; 0.9890 0.7930 0.7750; 0.9877 0.7629 0.7502; 0.9857 0.7245 0.7390; 0.9837 0.6860 0.7279; 0.9817 0.6476 0.7168; 0.9793 0.6027 0.7022; 0.9762 0.5470 0.6820; 0.9732 0.4913 0.6617; 0.9701 0.4357 0.6415; 0.9555 0.3815 0.6263; 0.9292 0.3289 0.6162; 0.9028 0.2763 0.6061; 0.8765 0.2237 0.5960; 0.8369 0.1717 0.5763; 0.7894 0.1201 0.5510; 0.7418 0.0684 0.5257; 0.6942 0.0168 0.5004; 0.6429 0.0039 0.4888; 0.5903 0.0039 0.4817; 0.5376 0.0039 0.4746; 0.4850 0.0039 0.4676; 0.4350 0.0030 0.4552; 0.3855 0.0020 0.4420; 0.3359 0.0010 0.4288; 0.2863 0 0.4157]; Data,Class % 有向图及节点分类 BubbleSize=[5,25]; % 节点气泡大小范围[min,max] LineWidth=1.5; % 连接线粗细 AlphaLim=[.1,.9]; ClassSet,ClassNum, RClass=1.25; RNode=1.08; ColorList; bubbleHdl,nodeLabelHdl,classLabelHdl end methods function obj=bubbleDigraph(Data,Class,varargin) obj.Data=Data; obj.Class=Class(:); obj.ClassSet=unique(Class); obj.ClassNum=length(obj.ClassSet); for i=1:size(obj.Data,1) obj.NodeName{i}=''; end for i=1:obj.ClassNum obj.ClassName{i}=''; end % 获取其他数据 disp(char([64 97 117 116 104 111 114 32 58 32,... 115 108 97 110 100 97 114 101 114])) for i=1:2:(length(varargin)-1) tid=ismember(obj.arginList,varargin{i}); if any(tid) obj.(obj.arginList{tid})=varargin{i+1}; end end if obj.ClassNum>size(obj.ColorOrder,1) obj.ColorOrder=[obj.ColorOrder;rand([obj.ClassNum,3])]; end end function obj=draw(obj) obj.ax=gca;hold on; colormap(obj.Colormap) obj.ax.XLim=[-1.2,1.2]; obj.ax.YLim=[-1.2,1.2]; obj.ax.XTick=[]; obj.ax.YTick=[]; obj.ax.XColor='none'; obj.ax.YColor='none'; obj.ax.PlotBoxAspectRatio=[1,1,1]; % 调整初始界面大小 fig=obj.ax.Parent; fig.Color=[1,1,1]; if max(fig.Position(3:4))<600 fig.Position(3:4)=1.8.*fig.Position(3:4); fig.Position(1:2)=fig.Position(1:2)./3; end % 绘制气泡 thetaList=linspace(0,2*pi,size(obj.Data,1)+1);thetaList(end)=[]; XList=cos(thetaList);YList=sin(thetaList); obj.bubbleHdl=bubblechart(XList,YList,sum(abs(obj.Data))); bubblesize(obj.BubbleSize) obj.ColorList=zeros(size(obj.Data,1),3); for i=1:length(obj.ClassSet) obj.ColorList(obj.Class==obj.ClassSet(i),:)=... repmat(obj.ColorOrder(i,:),sum(obj.Class==obj.ClassSet(i)),1); end obj.bubbleHdl.CData=obj.ColorList; % 绘制连线 alphaData=abs(obj.Data); alphaData=alphaData-min(min(alphaData)); alphaData=alphaData./max(max(alphaData)); alphaData=alphaData.*(obj.AlphaLim(2)-obj.AlphaLim(1))+obj.AlphaLim(1); for i=1:size(obj.Data,1) for j=1:i-1 if obj.Data(i,j)~=0 bezierX=[cos(thetaList(i)),0,cos(thetaList(j))].*.93; bezierY=[sin(thetaList(i)),0,sin(thetaList(j))].*.93; bezierPnts=bezierCurve([bezierX',bezierY'],100); bezierX=[bezierPnts(:,1);nan]; bezierY=[bezierPnts(:,2);nan]; fill(bezierX,bezierY,linspace(-1,1,101).*obj.Data(i,j)./abs(obj.Data(i,j)),'EdgeColor','interp',... 'LineWidth',obj.LineWidth,'EdgeAlpha',alphaData(i,j)) end end end % 绘制节点标签 for i=1:size(obj.Data,1) Ti=thetaList(i); rotation=Ti/pi*180; if rotation>90&&rotation<270 rotation=rotation+180; obj.nodeLabelHdl(i)=text(cos(Ti).*obj.RNode,sin(Ti).*obj.RNode,obj.NodeName{i},... 'Rotation',rotation,'HorizontalAlignment','right','FontSize',9); else obj.nodeLabelHdl(i)=text(cos(Ti).*obj.RNode,sin(Ti).*obj.RNode,obj.NodeName{i},... 'Rotation',rotation,'FontSize',9); end end % 绘制类标签 for i=1:obj.ClassNum CTi=mean(thetaList(obj.Class==obj.ClassSet(i))); rotation=CTi/pi*180; if rotation>0&&rotation<180 obj.classLabelHdl(i)=text(cos(CTi).*obj.RClass,sin(CTi).*obj.RClass,obj.ClassName{i},'FontSize',14,'FontName','Arial',... 'HorizontalAlignment','center','Rotation',-(.5*pi-CTi)./pi.*180); else obj.classLabelHdl(i)=text(cos(CTi).*obj.RClass,sin(CTi).*obj.RClass,obj.ClassName{i},'FontSize',14,... 'HorizontalAlignment','center','Rotation',-(1.5*pi-CTi)./pi.*180); end end % 贝塞尔函数 function pnts=bezierCurve(pnts,N) t=linspace(0,1,N); p=size(pnts,1)-1; coe1=factorial(p)./factorial(0:p)./factorial(p:-1:0); coe2=((t).^((0:p)')).*((1-t).^((p:-1:0)')); pnts=(pnts'*(coe1'.*coe2))'; end end % 修改气泡颜色 function obj=setBubbleColor(obj,ColorList) obj.ColorOrder=ColorList; for i=1:length(obj.ClassSet) obj.ColorList(obj.Class==obj.ClassSet(i),:)=... repmat(obj.ColorOrder(i,:),sum(obj.Class==obj.ClassSet(i)),1); end set(obj.bubbleHdl,'CData',obj.ColorList); end % 修改气泡其他属性 function obj=setBubble(obj,varargin) set(obj.bubbleHdl,varargin{:}); end % 设置标签 function setNodeLabel(obj,varargin) for i=1:size(obj.Data,1) set(obj.nodeLabelHdl(i),varargin{:}); end end function setClassLabel(obj,varargin) for i=1:obj.ClassNum set(obj.classLabelHdl(i),varargin{:}); end end end % @author : slandarer % 公众号 : slandarer随笔 % Zhaoxu Liu / slandarer (2023). bubble digraph % (https://www.mathworks.com/matlabcentral/fileexchange/125140-bubble-digraph), % MATLAB Central File Exchange. 检索来源 2023/2/21. end
file exchange链接:Zhaoxu Liu / slandarer (2023). bubble digraph (https://www.mathworks.com/matlabcentral/fileexchange/125140-bubble-digraph), MATLAB Central File Exchange. 检索来源 2023/2/21.
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