📄 dot2_make.m
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function [modlist,funlist,fun_info]=dot2_make(typestrlist)% fun_info is a 1x2 cell. fun_info{1}=>1 result is pointer, 0=>not% fun_info{2}=>typestr ('r' or 'c' usually)declare_globalsfunname='dot2';modlist='';funlist='';r=[char(10)];%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%modlist=[modlist,... ' interface ',funname,'f',r];if ~iscell(typestrlist) typestrlist={typestrlist};endfor i=1:length(typestrlist) typestr=typestrlist{i}; for m=1:length(typestr) temp=any(strcmp(typestr(m),{'d','m'})); if temp,typestr(m)='c';end temp=any(strcmp(typestr(m),{'e','n'})); if temp,typestr(m)='r';end temp=any(strcmp(typestr(m),{'f','o'})); if temp,typestr(m)='i';end temp=any(strcmp(typestr(m),{'g','p'})); if temp,typestr(m)='l';end end [modlist,funlist,len]=makeheader(funname,2,typestr,modlist,funlist,r); if any(strcmp(typestr(1),typs{3}))|any(strcmp(typestr(2),typs{3})) funlist=[funlist,' complex, dimension(size(in_1,1),1) :: out',r]; fun_info{2}='c'; else funlist=[funlist,' real, dimension(size(in_1,1),1) :: out',r]; fun_info{2}='r'; end wantsizes=1; if wantsizes funlist=[funlist,' integer out_m, out_n, ']; for ii=1:len if ii~=len funlist=[funlist,'in_',num2str(ii),'_m, in_',num2str(ii),'_n, ']; else funlist=[funlist,'in_',num2str(ii),'_m, in_',num2str(ii),'_n',r]; end end end %Here we can insert any global vars or preliminary options %%%%%% if length(typestr)<3 funlist=[funlist,' integer i,j',r]; funlist=[funlist,' integer :: dim=0',r]; else funlist=[funlist,' integer i,j,dim',r]; end%%% for ii=1:2%%% if typestr(ii)=='c'%%% funlist=[funlist,' complex mat',num2str(ii),'(size(in_',num2str(ii),',1),size(in_',num2str(ii),',2))',r];%%% elseif typestr(ii)=='t'%%% funlist=[funlist,' complex mat',num2str(ii),'(1,1)',r];%%% elseif ((typestr(ii)=='r')|(typestr(ii)=='i'))%%% funlist=[funlist,' real mat',num2str(ii),'(size(in_',num2str(ii),',1),size(in_',num2str(ii),',2))',r];%%% elseif ((typestr(ii)=='s')|(typestr(ii)=='u'))%%% funlist=[funlist,' real mat',num2str(ii),'(1,1)',r];%%% end%%% end%%% funlist=makesize2(wantsizes,funlist,len,r,typestr); %Here we can insert type dependant things %%%%%%%%%%%%%%%%%%%%%%%%%% for ii=1:length(typestr)%%% switch ii%%% case 1%%% switch typestr(ii)%%% case 'r'%%% funlist=[funlist,[' mat1=in_1',r]];%%% case 'c'%%% funlist=[funlist,[' mat1=in_1',r]];%%% case 'i'%%% funlist=[funlist,[' mat1=in_1',r]];%%% case 's'%%% funlist=[funlist,[' mat1(1,1)=in_1',r]];%%% case 't'%%% funlist=[funlist,[' mat1(1,1)=in_1',r]];%%% case 'u'%%% funlist=[funlist,[' mat1(1,1)=in_1',r]];%%% end%%% case 2%%% switch typestr(ii)%%% case 'r'%%% funlist=[funlist,[' mat2=in_2',r]];%%% case 'c'%%% funlist=[funlist,[' mat2=in_2',r]];%%% case 'i'%%% funlist=[funlist,[' mat2=in_2',r]];%%% case 's'%%% funlist=[funlist,[' mat2(1,1)=in_2',r]];%%% case 't'%%% funlist=[funlist,[' mat2(1,1)=in_2',r]];%%% case 'u'%%% funlist=[funlist,[' mat2(1,1)=in_2',r]];%%% end%%% case 3%%% if length(typestr)>1%%% end %%% switch typestr(ii)%%% case 'r'%%% funlist=[funlist,[' dim=int(in_3(1,1))',r]];%%% case 'c'%%% funlist=[funlist,[' dim=int(in_3(1,1))',r]];%%% case 'i'%%% funlist=[funlist,[' dim=(in_3(1,1))',r]];%%% case 's'%%% funlist=[funlist,[' dim=int(in_3)',r]];%%% case 't'%%% funlist=[funlist,[' dim=int(in_3)',r]];%%% case 'u'%%% funlist=[funlist,[' dim=(in_3)',r]];%%% end%%% end%%% end %And now the kernel %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% kernel=[''];%%% kernel=[kernel,' if (in_1_m==1) then',r];%%% kernel=[kernel,' if (in_2_m==1) then',r];%%% kernel=[kernel,' out(1,1)=dot_product(mat1(1,:),mat2(1,:))',r];%%% kernel=[kernel,' elseif (in_2_n==1) then',r];%%% kernel=[kernel,' out(1,1)=dot_product(mat1(1,:),mat2(:,1))',r];%%% kernel=[kernel,' endif',r];%%% kernel=[kernel,' elseif (in_1_n==1) then',r];%%% kernel=[kernel,' if (in_2_m==1) then',r];%%% kernel=[kernel,' out(1,1)=dot_product(mat1(:,1),mat2(1,:))',r];%%% kernel=[kernel,' elseif (in_2_n==1) then',r];%%% kernel=[kernel,' out(1,1)=dot_product(mat1(:,1),mat2(:,1))',r];%%% kernel=[kernel,' endif',r];%%% kernel=[kernel,' else',r];%%% kernel=[kernel,' if ((dim==1).or.(dim==0)) then',r];%%% kernel=[kernel,' do i=1,in_1_n',r];%%% kernel=[kernel,' out(1,i)=dot_product(mat1(:,i),mat2(:,i))',r];%%% kernel=[kernel,' enddo',r];%%% kernel=[kernel,' elseif (dim==2) then',r]; kernel=[kernel,' do i=1,size(in_1,1)',r]; kernel=[kernel,' out(i,1)=dot_product(in_1(i,:),in_2(i,:))',r]; kernel=[kernel,' enddo',r];%%% kernel=[kernel,' endif',r];%%% kernel=[kernel,' endif',r]; funlist=[funlist,kernel]; %End of the function %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% funlist=[funlist,' end function ',funname,'f_',typestr,r]; if strcmp(typestr,typestrlist{length(typestrlist)}) else funlist=[funlist,r]; endend%And end the module %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%modlist=[modlist... ' end interface ',funname,'f',char(10)];fun_info{1}=0;⌨️ 快捷键说明
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