/usr/share/octave/packages/io-2.4.10/pch2mat.m is in octave-io 2.4.10-3.
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%% -*- texinfo -*-
%% @deftypefn {Function File} {@var{data} =} pch2mat (@var{filename})
%% Converts NASTRAN PCH file (SORT2) to a data structure and frequency vector. A
%% filename as a string is the only needed input.
%%
%% The output is in the form of struct. containing a freq vector n x 1 called
%% data.f, and the remaining data are in the form of subcases, point ids
%% and directions respectively. for ex. data.S1.p254686.x and they are n x 2
%%
%% @end deftypefn
function [data] = pch2mat(filename);
%% Open the file and read the file line by line to form a line character array
fid = fopen(filename);
l = 1;
while (~feof(fid))
raw{l} = fgets(fid);
l = l + 1;
end
%% Determine Freq_count and number of lines for each case
a = find (strcmp ('$TITLE',raw));
lines = a(2) -a(1); %number of lines on each subcase and related point id
freq_count = (lines-7)/4;
%% Read from array
C = length(raw) / lines; %number of subcase and related point id
for k = 1 : C; %looping through every case
scase = char(raw{(k-1) * lines + 3}(12:16));
scase = genvarname(scase);
pid = char(raw{(k-1) * lines + 7}(16:25));
pid = genvarname(['p' pid]);
if (k==1)
data.f = zeros(freq_count,1);
end;
data.(scase).(pid).x = zeros(freq_count,2);
data.(scase).(pid).y = zeros(freq_count,2);
data.(scase).(pid).z = zeros(freq_count,2);
data.(scase).(pid).r1 = zeros(freq_count,2);
data.(scase).(pid).r2 = zeros(freq_count,2);
data.(scase).(pid).r3 = zeros(freq_count,2);
i = (k-1) * lines + 8 ;
j = 0;
while( i <= (lines * k)) %loop for each case
j=j+1;
if (k==1)
data.f(j) = str2double(raw{i}(5:17));
end
data.(scase).(pid).x(j,1) = str2double(raw{i}(25:37));
data.(scase).(pid).y(j,1) = str2double(raw{i}(43:55));
data.(scase).(pid).z(j,1) = str2double(raw{i}(61:73));
i=i+1;
data.(scase).(pid).r1(j,1) = str2double(raw{i}(25:37));
data.(scase).(pid).r2(j,1) = str2double(raw{i}(43:55));
data.(scase).(pid).r3(j,1) = str2double(raw{i}(61:73));
i=i+1;
data.(scase).(pid).x(j,2) = str2double(raw{i}(25:37));
data.(scase).(pid).y(j,2) = str2double(raw{i}(43:55));
data.(scase).(pid).z(j,2) = str2double(raw{i}(61:73));
i=i+1;
data.(scase).(pid).r1(j,2) = str2double(raw{i}(25:37));
data.(scase).(pid).r2(j,2) = str2double(raw{i}(43:55));
data.(scase).(pid).r3(j,2) = str2double(raw{i}(61:73));
i=i+1;
end
end
end
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