目录
教程部分0 数据准备1 基础绘制:上色类型2 山脊图间距3 绘制线状散点4 属性单独设置5 多组数据绘图工具函数完整代码本期推送教大家如何绘制各种样式的山脊图,这里做了一个工具函数用来实现好看的山脊图的绘制,编写不易请多多点赞,大体绘制效果如下:
依旧工具函数放在文末。
教程部分
0>
X1=normrnd(2,2,1,50);
X2=[normrnd(4,4,1,50),normrnd(5,2,1,50)];
X3=[normrnd(6,2,1,50),normrnd(8,4,1,50)];
X4=[normrnd(12,1,1,50),normrnd(12,4,1,50)];
X5=[normrnd(10,2,1,50),normrnd(10,4,1,50)];
X6=[normrnd(7,2,1,50),normrnd(7,4,1,50)];
X7=[normrnd(4,2,1,50),normrnd(4,4,1,50)];
Data={X1,X2,X3,X4,X5,X6,X7};
数据为多个一维向量放在元胞数组中,大概像这样:
1>
通过设置ColorMode属性设置上色方式,可设置为:
- OrderXGlobalXKdensityQt
Qt Order:每个山脊不同颜色
JP=joyPlot(Data,'ColorMode','Order'); JP=JP.draw();
绘制并添加图例(同时可以通过MedLine设置显示中位线):
JP=joyPlot(Data,'ColorMode','Order','MedLine','on'); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl)
可以通过设置ColorList属性或者使用setPatchColor函数设置颜色,推荐前者:
ColorList属性设置颜色:
newColorList=[0.1059 0.6196 0.4667
0.8510 0.3725 0.0078
0.4588 0.4392 0.7020
0.6529 0.4059 0.3294
0.9020 0.6706 0.0078
0.6510 0.4627 0.1137
0.4000 0.4000 0.4000];
JP=joyPlot(Data,'ColorMode','Order','ColorList',newColorList);
JP=JP.draw();
legendHdl=JP.getLegendHdl();
legend(legendHdl)
setPatchColor函数设置颜色,只能设置面颜色设置不了线条颜色:
JP=joyPlot(Data,'ColorMode','Order');
JP=JP.draw();
legendHdl=JP.getLegendHdl();
legend(legendHdl)
% 设置山脊颜色
newColorList=[0.1059 0.6196 0.4667
0.8510 0.3725 0.0078
0.4588 0.4392 0.7020
0.6529 0.4059 0.3294
0.9020 0.6706 0.0078
0.6510 0.4627 0.1137
0.4000 0.4000 0.4000];
JP=JP.setPatchColor(newColorList)
当然可以全部设置为同一颜色:
JP=joyPlot(Data,'ColorMode','Order','ColorList',[0,0,.6]); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl(1))
X 每个山脊分别把X映射为颜色
JP=joyPlot(Data,'ColorMode','X','MedLine','on'); JP=JP.draw();
当然可以添加colorbar:
colorbar()
设置为其他颜色:
JP=JP.setPatchColor(winter);
JP=JP.setPatchColor(colorcube(256));
GlobalX 全局性把X坐标映射为颜色
Data={X1,X2,X3,X4,X5,X6,X7};
JP=joyPlot(Data,'ColorMode','GlobalX','MedLine','on');
JP=JP.draw();
colorbar
换成别的颜色:
JP=JP.setPatchColor(colorcube(256));
Kdensity 依靠核密度
Data={X1,X2,X3,X4,X5,X6,X7};
JP=joyPlot(Data,'ColorMode','Kdensity','MedLine','on');
JP=JP.draw();
colorbar
换成别的颜色:
JP=JP.setPatchColor(turbo);
Qt 分位染色
默认是0.25,0.75分位染色:
JP=joyPlot(Data,'ColorMode','Qt','MedLine','on'); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl)
修改分位线(通过设置Quantiles属性):
JP=joyPlot(Data,'ColorMode','Qt','MedLine','on','Quantiles',[.1,.9]); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl)
绘制分位线(可将QtLine设置为on):
JP=joyPlot(Data,'ColorMode','Qt','MedLine','on','Quantiles',[.1,.9],'QtLine','on'); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl)
值得一提的是,所有染色方式都可以绘制QtLine分位线:
JP=joyPlot(Data,'ColorMode','Order','MedLine','on','Quantiles',[.1,.9],'QtLine','on'); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl)
更多分位线和更丰富配色:
JP=joyPlot(Data,'ColorMode','Qt','MedLine','on','Quantiles',[.1,.25,.75,.9],'ColorList',turbo(5),'QtLine','on');
JP=JP.draw();
legendHdl=JP.getLegendHdl();
legend(legendHdl,{'0~0.1','0.1~0.25','0.25~0.75','0.75~0.9','0.9~1'})
更改配色:
JP=JP.setPatchColor(bone(6));
2>
通过设置Sep属性设置间距,例如小间距:
JP=joyPlot(Data,'ColorMode','Kdensity','Sep',1/30); JP=JP.draw(); colorbar
间距设置为1/60:
设置大间距(1/3):
3>
只有Order类型配色不是黑色:
JP=joyPlot(Data,'ColorMode','Order','Scatter','on'); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl
Data={X1,X2,X3,X4,X5,X6,X7};
JP=joyPlot(Data,'ColorMode','GlobalX','MedLine','on','Scatter','on');
JP=JP.draw();
colorbar
4>
每个玩意的属性都可以单独设置
例如:
- setRidgePatch 设置山脊面setRidgeLine 设置山脊边缘线setMedLine 设置中位线setQtLine 设置分位线setScatter 设置散点
JP=joyPlot(Data,'ColorMode','Order','Scatter','on','QtLine','on','MedLine','on','Sep',1/5); JP=JP.draw(); legendHdl=JP.getLegendHdl(); legend(legendHdl)
设置第3个山脊颜色和透明度:
JP.setRidgePatch(3,'FaceColor',[0,0,0],'FaceAlpha',.5)
循环改变所有的颜色和透明度:
for i=1:length(Data)
JP.setRidgePatch(i,'FaceColor',[1,1,1]./length(Data).*i,'FaceAlpha',.5)
end
其他玩意也都类似!
for i=1:length(Data)
JP.setRidgePatch(i,'FaceColor',[1,1,1]./length(Data).*i,'FaceAlpha',.5)
JP.setRidgeLine(i,'Color',[0,0,.8],'LineWidth',1)
JP.setScatter(i,'Color',[0,0,0,.4])
JP.setMedLine(i,'Color',[0,0,.8])
JP.setQtLine(i,'Color',[0,0,.8])
end
5>
举个例子:
X1_1=normrnd(-15,2,1,20);
X1_2=[normrnd(4,4,1,10),normrnd(5,2,1,10)];
X1_3=[normrnd(6,2,1,10),normrnd(8,4,1,10)];
X1_4=[normrnd(12,1,1,10),normrnd(12,4,1,10)];
X1_5=[normrnd(-7,2,1,10),normrnd(2,4,1,10)];
X1_6=[normrnd(-7,2,1,10),normrnd(-7,4,1,10)];
Data1={X1_1,X1_2,X1_3,X1_4,X1_5,X1_6};
X2_1=normrnd(-8,2,1,20);
X2_2=[normrnd(2,4,1,10),normrnd(2,2,1,10)];
X2_3=[normrnd(18,2,1,10),normrnd(18,4,1,10)];
X2_4=[normrnd(18,1,1,10),normrnd(18,4,1,10)];
X2_5=[normrnd(5,2,1,10),normrnd(5,4,1,10)];
X2_6=[normrnd(-20,2,1,10),normrnd(-20,4,1,10)];
Data2={X2_1,X2_2,X2_3,X2_4,X2_5,X2_6};
JP1=joyPlot(Data1,'ColorMode','Order','ColorList',[12,165,154]./255,'MedLine','on','Scatter','on');
JP1=JP1.draw();
JP2=joyPlot(Data2,'ColorMode','Order','ColorList',[151,220,71]./255,'MedLine','on','Scatter','on');
JP2=JP2.draw();
% 设置中位线颜色
for i=1:length(Data1)
JP1.setMedLine(i,'Color',[12,165,154]./255)
end
for i=1:length(Data2)
JP2.setMedLine(i,'Color',[151,220,71]./255)
end
% 绘制图例
legendHdl1=JP1.getLegendHdl();
legendHdl2=JP2.getLegendHdl();
legend([legendHdl1(1),legendHdl2(1)],{'AAAAA','BBBBB'})
工具函数完整代码
classdef joyPlot
% @author : slandarer
% gzh : slandarer随笔
% Zhaoxu Liu / slandarer (2023). joyplot
% (https://www.mathworks.com/matlabcentral/fileexchange/125255-joyplot),
% MATLAB Central File Exchange. 检索来源 2023/2/23.
properties
ax,arginList={'ColorMode','ColorList','Sep','Scatter','MedLine','Quantiles','QtLine'}
ColorMode='Order' % 上色模式'Order'/'X'/'GlobalX'/'Kdensity'/'Qt'
ColorList
defaultColorList1=[0.3725 0.2745 0.5647; 0.1137 0.4118 0.5882; 0.2196 0.6510 0.6471; 0.0588 0.5216 0.3294
0.4510 0.6863 0.2824; 0.9294 0.6784 0.0314; 0.8824 0.4863 0.0196; 0.8000 0.3137 0.2431
0.5804 0.2039 0.4314; 0.4353 0.2510 0.4392];
defaultColorList2=[0.0015 0.0005 0.0139; 0.0143 0.0122 0.0705; 0.0415 0.0323 0.1373; 0.0773 0.0535 0.2088;
0.1179 0.0664 0.2854; 0.1661 0.0678 0.3630; 0.2209 0.0609 0.4276; 0.2758 0.0616 0.4677;
0.3279 0.0755 0.4889; 0.3784 0.0954 0.5001; 0.4284 0.1160 0.5058; 0.4788 0.1357 0.5080;
0.5297 0.1541 0.5070; 0.5814 0.1715 0.5028; 0.6338 0.1882 0.4951; 0.6867 0.2051 0.4836;
0.7395 0.2231 0.4679; 0.7914 0.2438 0.4480; 0.8410 0.2692 0.4245; 0.8861 0.3019 0.3992;
0.9240 0.3441 0.3761; 0.9524 0.3958 0.3617; 0.9715 0.4540 0.3610; 0.9837 0.5147 0.3747;
0.9912 0.5758 0.4003; 0.9954 0.6364 0.4350; 0.9972 0.6964 0.4765; 0.9971 0.7559 0.5234;
0.9956 0.8150 0.5747; 0.9930 0.8739 0.6300; 0.9899 0.9327 0.6886; 0.9871 0.9914 0.7495];
defaultColorList3=[255,153,154;220,220,220;153,153,253]./255;
Sep=1/8; % 两个山脊间距离
Scatter='off'; % 是否绘制竖线状散点
MedLine='off';
QtLine='off';
Quantiles=[.25,.75];QtX,QtY
ridgeNum,Data,minX,maxX,maxY,XiSet,FSet
ridgePatchHdl,ridgeLineHdl
medLineHdl,scatterHdl;QtLineHdl;QtLegendHdl
end
methods
function obj=joyPlot(Data,varargin)
obj.Data=Data;
obj.ridgeNum=length(obj.Data);
% 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 isempty(intersect(obj.ColorMode,{'Order','X','GlobalX','Kdensity','Qt'}))
error('The ColorMode should be one of the following: Order \ X \ GlobalX \ Kdensity \ Qt')
end
switch obj.ColorMode
case 'Order',obj.ColorList=obj.defaultColorList1;
case 'X',obj.ColorList=obj.defaultColorList2;
case 'GlobalX',obj.ColorList=obj.defaultColorList2;
case 'Kdensity',obj.ColorList=obj.defaultColorList2;
case 'Qt',obj.ColorList=obj.defaultColorList3;
end
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
obj.minX=min(obj.Data{1});
obj.maxX=max(obj.Data{1});
for i=1:obj.ridgeNum
obj.minX=min(obj.minX,min(obj.Data{i}));
obj.maxX=max(obj.maxX,max(obj.Data{i}));
end
end
function obj=draw(obj)
obj.ax=gca;hold on;
obj.ax.LineWidth=1;
obj.ax.YTick=(1:obj.ridgeNum).*obj.Sep;
obj.ax.FontName='Cambria';
obj.ax.FontSize=13;
obj.ax.YGrid='on';
% obj.ax.Box='on';
obj.ax.TickDir='out';
tYLabel{obj.ridgeNum}='';
for i=1:obj.ridgeNum
tYLabel{i}=['Class-',num2str(i)];
end
obj.ax.YTickLabel=tYLabel;
% 调整初始界面大小
fig=obj.ax.Parent;
fig.Color=[1,1,1];
if max(fig.Position(3:4))<690
fig.Position(3:4)=1.2.*fig.Position(3:4);
fig.Position(1:2)=fig.Position(1:2)./2;
end
% 绘制patch图像
obj.minX=min(obj.Data{1});
obj.maxX=max(obj.Data{1});
obj.maxY=0;
for i=1:obj.ridgeNum
tX=obj.Data{i};tX=tX(:)';
[F,Xi]=ksdensity(tX);
obj.minX=min(obj.minX,min(Xi));
obj.maxX=max(obj.maxX,max(Xi));
obj.maxY=max(obj.maxY,max(F));
end
for i=obj.ridgeNum:-1:1
tX=obj.Data{i};tX=tX(:)';
[F,Xi]=ksdensity(tX);
OXi=Xi;
Xi=linspace(min(Xi),max(Xi),1000);
F=interp1(OXi,F,Xi);
obj.XiSet{i}=Xi;
obj.FSet{i}=F;
% 绘制竖线散点
tXX=[tX;tX;tX.*nan];
tYY=[tX.*0+obj.Sep.*i-obj.Sep./10;tX.*0+obj.Sep.*i-obj.Sep./2.5;tX.*nan];
if isequal(obj.ColorMode,'Order')
obj.scatterHdl(i)=plot(tXX(:),tYY(:),'Color',[obj.ColorList(mod(i-1,size(obj.ColorList,1))+1,:),.5],'LineWidth',.8,'Visible','off');
else
obj.scatterHdl(i)=plot(tXX(:),tYY(:),'Color',[0,0,0,.5],'LineWidth',.8,'Visible','off');
end
if isequal(obj.Scatter,'on'),set(obj.scatterHdl(i),'Visible','on');end
% 计算分位线
for j=1:length(obj.Quantiles)
obj.QtX(i,j+1)=quantile(tX,obj.Quantiles(j));
obj.QtY(i,j)=interp1(Xi,F,quantile(tX,obj.Quantiles(j)));
end
obj.QtX(i,1)=min(Xi)-inf;
obj.QtX(i,length(obj.Quantiles)+2)=max(Xi)+inf;
switch obj.ColorMode
case 'Order'
obj.ridgePatchHdl(i)=fill([Xi(1),Xi,Xi(end)],[0,F,0]+obj.Sep.*(i).*ones(1,length(F)+2),...
obj.ColorList(mod(i-1,size(obj.ColorList,1))+1,:),'EdgeColor','none','FaceAlpha',.5);
obj.ridgeLineHdl(i)=plot([Xi(1),Xi,Xi(end)],[0,F,0]+obj.Sep.*(i).*ones(1,length(F)+2),...
'Color',obj.ColorList(mod(i-1,size(obj.ColorList,1))+1,:),'LineWidth',.8);
colormap(obj.ColorList);
try caxis([1,obj.ridgeNum]),catch,end
try clim([1,obj.ridgeNum]),catch,end
case 'X'
tTi=[Xi(1),Xi,Xi(end),Xi(end:-1:1)]-min(Xi);tTi=tTi./max(tTi);
tT=linspace(0,1,size(obj.ColorList,1));
tC=cat(3,interp1(tT,obj.ColorList(:,1),tTi),interp1(tT,obj.ColorList(:,2),tTi),interp1(tT,obj.ColorList(:,3),tTi));
obj.ridgePatchHdl(i)=fill([Xi(1),Xi,Xi(end),Xi(end:-1:1)],[0,F,0,F.*0]+obj.Sep.*(i).*ones(1,length(F)*2+2),...
tC,'EdgeColor','none','FaceAlpha',.9,'FaceColor','interp');
obj.ridgeLineHdl(i)=plot([Xi(1),Xi,Xi(end)],[0,F,0]+obj.Sep.*(i).*ones(1,length(F)+2),...
'Color',[0,0,0,.9],'LineWidth',.8);
colormap(obj.ColorList);
try caxis([-1,1]),catch,end
try clim([-1,1]),catch,end
case 'GlobalX'
tTi=[Xi(1),Xi,Xi(end),Xi(end:-1:1)]-obj.minX;
tTi=tTi./(obj.maxX-obj.minX);
tT=linspace(0,1,size(obj.ColorList,1));
tC=cat(3,interp1(tT,obj.ColorList(:,1),tTi),interp1(tT,obj.ColorList(:,2),tTi),interp1(tT,obj.ColorList(:,3),tTi));
obj.ridgePatchHdl(i)=fill([Xi(1),Xi,Xi(end),Xi(end:-1:1)],[0,F,0,F.*0]+obj.Sep.*(i).*ones(1,length(F)*2+2),...
tC,'EdgeColor','none','FaceAlpha',.9,'FaceColor','interp');
obj.ridgeLineHdl(i)=plot([Xi(1),Xi,Xi(end)],[0,F,0]+obj.Sep.*(i).*ones(1,length(F)+2),...
'Color',[0,0,0,.9],'LineWidth',.8);
colormap(obj.ColorList);
try caxis([obj.minX,obj.maxX]),catch,end
try clim([obj.minX,obj.maxX]),catch,end
case 'Kdensity'
tTi=[0,F,0,F(end:-1:1)];
tTi=tTi./obj.maxY;
tT=linspace(0,1,size(obj.ColorList,1));
tC=cat(3,interp1(tT,obj.ColorList(:,1),tTi),interp1(tT,obj.ColorList(:,2),tTi),interp1(tT,obj.ColorList(:,3),tTi));
obj.ridgePatchHdl(i)=fill([Xi(1),Xi,Xi(end),Xi(end:-1:1)],[0,F,0,F.*0]+obj.Sep.*(i).*ones(1,length(F)*2+2),...
tC,'EdgeColor','none','FaceAlpha',.9,'FaceColor','interp');
obj.ridgeLineHdl(i)=plot([Xi(1),Xi,Xi(end)],[0,F,0]+obj.Sep.*(i).*ones(1,length(F)+2),...
'Color',[0,0,0,.9],'LineWidth',.8);
colormap(obj.ColorList);
try caxis([0,obj.maxY]),catch,end
try clim([0,obj.maxY]),catch,end
case 'Qt'
tTi=[Xi(1),Xi,Xi(end),Xi(end:-1:1)];
tR=tTi.*0;tG=tTi.*0;tB=tTi.*0;
for j=1:size(obj.QtX,2)-1
tR(tTi>=obj.QtX(i,j)&tTi<obj.QtX(i,j+1))=obj.ColorList(mod(j-1,size(obj.ColorList,1))+1,1);
tG(tTi>=obj.QtX(i,j)&tTi<obj.QtX(i,j+1))=obj.ColorList(mod(j-1,size(obj.ColorList,1))+1,2);
tB(tTi>=obj.QtX(i,j)&tTi<obj.QtX(i,j+1))=obj.ColorList(mod(j-1,size(obj.ColorList,1))+1,3);
end
tC=cat(3,tR,tG,tB);
obj.ridgePatchHdl(i)=fill([Xi(1),Xi,Xi(end),Xi(end:-1:1)],[0,F,0,F.*0]+obj.Sep.*(i).*ones(1,length(F)*2+2),...
tC,'EdgeColor','none','FaceAlpha',.9,'FaceColor','interp');
obj.ridgeLineHdl(i)=plot([Xi(1),Xi,Xi(end)],[0,F,0]+obj.Sep.*(i).*ones(1,length(F)+2),...
'Color',[0,0,0,.9],'LineWidth',.8);
colormap(obj.ColorList);
try caxis([-1,1]),catch,end
try clim([-1,1]),catch,end
end
% 绘制中位线
tMedX=median(tX);
tMedY=interp1(Xi,F,tMedX);
obj.medLineHdl(i)=plot([tMedX,tMedX],[0,tMedY]++obj.Sep.*[i,i],'LineStyle','--','LineWidth',1,'Color',[0,0,0],'Visible','off');
if isequal(obj.MedLine,'on'),set(obj.medLineHdl(i),'Visible','on');end
% 绘制分位线
tQtY=[obj.QtY(i,:);obj.QtY(i,:).*0;obj.QtY(i,:).*nan]+obj.Sep.*i;
tQtX=[obj.QtX(i,2:end-1);obj.QtX(i,2:end-1);obj.QtX(i,2:end-1).*nan];
obj.QtLineHdl(i)=plot(tQtX(:),tQtY(:),'LineWidth',1,'Color',[0,0,0,.8],'Visible','off');
if isequal(obj.QtLine,'on'),set(obj.QtLineHdl(i),'Visible','on');end
% % 绘制25,75分位线
% tQt25X=quantile(tX,0.25);
% tQt75X=quantile(tX,0.75);
% tQt25Y=interp1(Xi,F,tQt25X);
% tQt75Y=interp1(Xi,F,tQt75X);
% obj.qt25LineHdl(i)=plot([tQt25X,tQt25X],[0,tQt25Y]+obj.Sep.*[i,i],'LineWidth',1,'Color',[1,1,1,.8],'Visible','off');
% obj.qt75LineHdl(i)=plot([tQt75X,tQt75X],[0,tQt75Y]+obj.Sep.*[i,i],'LineWidth',1,'Color',[1,1,1,.8],'Visible','off');
% if isequal(obj.QT25Line,'on'),set(obj.qt25LineHdl(i),'Visible','on');end
% if isequal(obj.QT75Line,'on'),set(obj.qt75LineHdl(i),'Visible','on');end
end
axis tight
obj.ax.YLim(1)=obj.Sep/2;
for i=1:size(obj.QtX,2)-1
obj.QtLegendHdl(i)=fill(mean(obj.ax.XLim).*[1,1,1,1],mean(obj.ax.YLim).*[1,1,1,1],...
obj.ColorList(mod(i-1,size(obj.ColorList,1))+1,:),'EdgeColor','none','FaceAlpha',.9);
end
end
% 获取绘制图例对象
function legendHdl=getLegendHdl(obj)
if isequal(obj.ColorMode,'Qt')
legendHdl=obj.QtLegendHdl;
else
legendHdl=obj.ridgePatchHdl;
end
end
% 颜色重设置
function obj=setPatchColor(obj,ColorList)
obj.ColorList=ColorList;
colormap(obj.ColorList);
for i=obj.ridgeNum:-1:1
Xi=obj.XiSet{i};
F=obj.FSet{i};
switch obj.ColorMode
case 'Order'
set(obj.ridgePatchHdl(i),'FaceColor',obj.ColorList(mod(i-1,size(obj.ColorList,1))+1,:));
case 'X'
tTi=[Xi(1),Xi,Xi(end),Xi(end:-1:1)]-min(Xi);tTi=tTi./max(tTi);
tT=linspace(0,1,size(obj.ColorList,1));
tC=cat(3,interp1(tT,obj.ColorList(:,1),tTi),interp1(tT,obj.ColorList(:,2),tTi),interp1(tT,obj.ColorList(:,3),tTi));
set(obj.ridgePatchHdl(i),'CData',tC);
case 'GlobalX'
tTi=[Xi(1),Xi,Xi(end),Xi(end:-1:1)]-obj.minX;
tTi=tTi./(obj.maxX-obj.minX);
tT=linspace(0,1,size(obj.ColorList,1));
tC=cat(3,interp1(tT,obj.ColorList(:,1),tTi),interp1(tT,obj.ColorList(:,2),tTi),interp1(tT,obj.ColorList(:,3),tTi));
set(obj.ridgePatchHdl(i),'CData',tC);
case 'Kdensity'
tTi=[0,F,0,F(end:-1:1)];
tTi=tTi./obj.maxY;
tT=linspace(0,1,size(obj.ColorList,1));
tC=cat(3,interp1(tT,obj.ColorList(:,1),tTi),interp1(tT,obj.ColorList(:,2),tTi),interp1(tT,obj.ColorList(:,3),tTi));
set(obj.ridgePatchHdl(i),'CData',tC);
case 'Qt'
tTi=[Xi(1),Xi,Xi(end),Xi(end:-1:1)];
tR=tTi.*0;tG=tTi.*0;tB=tTi.*0;
for j=1:size(obj.QtX,2)-1
tR(tTi>=obj.QtX(i,j)&tTi<obj.QtX(i,j+1))=obj.ColorList(mod(j-1,size(obj.ColorList,1))+1,1);
tG(tTi>=obj.QtX(i,j)&tTi<obj.QtX(i,j+1))=obj.ColorList(mod(j-1,size(obj.ColorList,1))+1,2);
tB(tTi>=obj.QtX(i,j)&tTi<obj.QtX(i,j+1))=obj.ColorList(mod(j-1,size(obj.ColorList,1))+1,3);
end
tC=cat(3,tR,tG,tB);
set(obj.ridgePatchHdl(i),'CData',tC);
end
end
for i=1:size(obj.QtX,2)-1
set(obj.QtLegendHdl(i),'FaceColor',obj.ColorList(mod(i-1,size(obj.ColorList,1))+1,:));
end
end
% 设置Patch及Line对象其他属性
function setRidgePatch(obj,n,varargin)
set(obj.ridgePatchHdl(n),varargin{:})
end
function setRidgeLine(obj,n,varargin)
set(obj.ridgeLineHdl(n),varargin{:})
end
% 设置各个分位线属性
function setMedLine(obj,n,varargin)
set(obj.medLineHdl(n),varargin{:})
end
function setQtLine(obj,n,varargin)
set(obj.QtLineHdl(n),varargin{:})
end
% 设置scatter属性
function setScatter(obj,n,varargin)
set(obj.scatterHdl(n),varargin{:})
end
end
% @author : slandarer
% gzh : slandarer随笔
% Zhaoxu Liu / slandarer (2023). joyplot
% (https://www.mathworks.com/matlabcentral/fileexchange/125255-joyplot),
% MATLAB Central File Exchange. 检索来源 2023/2/23.
end
file exchange链接:Zhaoxu Liu / slandarer (2023). joyplot (https://www.mathworks.com/matlabcentral/fileexchange/125255-joyplot), MATLAB Central File Exchange. 检索来源 2023/2/23.
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