below is a program that i am using to derive idf curves .suppose i have the code for plotting idf curve for one particular grid or place but now i need to plot 10 idf curves using that code simultaneously. i introduced a outer for loop will it do?

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OMKAR ACHARJEE 2018 年 7 月 1 日

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https://jp.mathworks.com/matlabcentral/answers/408239-below-is-a-program-that-i-am-using-to-derive-idf-curves-suppose-i-have-the-code-for-plotting-idf-cu

回答済み: JAYANTH BHIMAVARAPU 2018 年 7 月 1 日

# * load allrains.txt
# * y=allrains(:,:);
# * rain=data1(:,:);
# * data=data1(:,1:10);
# * for n=1:size(data,2)
# * dataA=[];
# *   for i=1:length(rain)-2
# *      dataA=[dataA; sum(data(i:i+2,n))];         
# *   end
# * dataB=[];
# *   for i=1:length(rain)-5
# *      dataB=[dataB; sum(data(i:i+5,n))];         
# *   end
# *   dataC=[];
# *   for i=1:length(rain)-8
# *      dataC=[dataC; sum(data(i:i+8,n))];         
# *   end
# *   dataD=[];
# *   for i=1:length(rain)-11
# *      dataD=[dataD; sum(data(i:i+11,n))];         
# *   end
# *   dataF=[];
# *   for i=1:length(rain)-14
# *      dataF=[dataF; sum(data(i:i+14,n))];         
# *   end
# *   dataG=[];
# *   for i=1:length(rain)-17
# *      dataG=[dataG; sum(data(i:i+17,n))];         
# *   end
# *   dataK=[]
# *   for i=1:length(rain)-20
# *      dataK=[dataK; sum(data(i:i+20,n))];         
# *   end
# *   
# *  dataH=[];
# *   for i=1:length(rain)-23
# *      dataH=[dataH; sum(data(i:i+23,n))];         
# *   end
# *   dataI=[];
# *   for i=1:length(rain)-35
# *      dataI=[dataI; sum(data(i:i+35,n))];         
# *   end
# *   dataJ=[];
# *   for i=1:length(rain)-47
# *      dataJ=[dataJ; sum(data(i:i+47,n))];         
# *   end
# * 
# * % % Make padded array.....
# * M = nan(length(rain),10);
# * M(3:length(data),1) = dataA;
# * M(6:length(data),2) = dataB;
# * M(9:length(data),3) = dataC;
# * M(12:length(data),4) = dataD;
# * M(15:length(data),5) = dataF;
# * M(18:length(data),6) = dataG;
# * M(21:length(data),7) = dataK;
# * M(24:length(data),8) = dataH;
# * M(36:length(data),9) = dataI;
# * M(48:length(data),10) = dataJ;
# * %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
# * year=y(:,1);
# * dataset=[year M];
# * [years, ~, gg] = unique(dataset(:, 1));
# * dataset1=[gg M];
# * MaxC=[];
# * for i=1:31
# *     
# * for k1 = 2:size(dataset,2)
# *     maxd = max(dataset(gg==i,k1));
# *     MaxCol(k1,:) =  maxd;
# * end
# * MaxC=[MaxC MaxCol]; 
# * end
# * MaxC =(MaxC(2:end,:))';
# * mm=mean(MaxC,1);
# * stdev=std(MaxC,1);
# * recurrence=[2;5;10;25;50;100];
# * KT=[];
# * for i=1:length(recurrence)
# * gumbell_kt(i)=-(sqrt(6))/pi*(0.5772+log(log(recurrence(i)/(recurrence(i)-1))));
# * end
# * KT=[KT gumbell_kt];
# * KT=KT';
# * dataarrange=[mm' stdev'];
# * for i=1:length(dataarrange)
# *     for j=1:length(KT)
# *         table(i,j)=dataarrange(i,1)+KT(j).*dataarrange(i,2);
# *     end
# * end
# * duration=[3;6;9;12;15;18;21;24;36;48];
# * for i=1:length(duration)
# *     for j=1:length(KT)
# *         intensity(i,j)=table(i,j)./duration(i);
# *     end
# * end
# * PLOT(n)=plot(duration,intensity(:,1),'bd-',duration,intensity(:,2),'gd-',duration,intensity(:,3),'cd-',duration,intensity(:,4),'kd-',duration,intensity(:,5),'md-',duration,intensity(:,6),'yd-');

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Answer 1

JAYANTH BHIMAVARAPU 2018 年 7 月 1 日

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この回答への直接リンク

https://jp.mathworks.com/matlabcentral/answers/408239-below-is-a-program-that-i-am-using-to-derive-idf-curves-suppose-i-have-the-code-for-plotting-idf-cu#answer_327021

Try to use subplot of MATLAB to plot different plots in a form of grid: Subplot in MATLAB

And if you add outer loop and change the variables to be plotted in each iteration, it will work. But don't forget to change the parameters of subplot too.