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Fixed lookups for additive relationship matrix

This commit is contained in:
Thomas A. Christensen II 2018-09-27 22:29:34 -06:00
parent 88fbf16ed4
commit bd44916781

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@ -32,7 +32,8 @@ data(:,strings) = cellfun(@num2str, data(:,strings), 'UniformOutput', false);
% Create a lookup lambda function to find the animal represented by a % Create a lookup lambda function to find the animal represented by a
% certain id % certain id
animalrow = @(id) find(strcmp(data(:,1), id)); animal2row = @(id) find(strcmp(data(:,1), id));
row2animal = @(rownum) [data{rownum,1}];
ids = [data{:,1}]; ids = [data{:,1}];
numanimals = length(data(:,1)); numanimals = length(data(:,1));
@ -132,13 +133,20 @@ end
A = zeros(numanimals, numanimals); A = zeros(numanimals, numanimals);
% Create lambdas to find sire and dam of each animal % Create lambdas to find sire and dam of each animal
dam = @(id) [data{animalrow(num2str(id)), 3}]; id2dam = @(id) [data{animal2row(num2str(id)), 3}];
sire = @(id) [data{animalrow(num2str(id)), 4}]; id2sire = @(id) [data{animal2row(num2str(id)), 4}];
row2dam = @(rownum) [data{rownum, 3}];
row2sire = @(rownum) [data{rownum, 4}];
rowofdam = @(id) animal2row(id2dam(id));
rowofsire = @(id) animal2row(id2sire(id));
row2rowofdam = @(rownum) rowofdam(row2animal(rownum));
row2rowofsire = @(rownum) rowofsire(row2animal(rownum));
% Create the additive relationship matrix by the FORTRAN method presented % Create the additive relationship matrix by the FORTRAN method presented
% by Henderson % by Henderson
for i = 1:numanimals for i = 1:numanimals
if strcmp(sire(i), 'NaN') && strcmp(dam(i), 'NaN') id = row2animal(i);
if isempty(row2rowofsire(i)) && isempty(row2rowofdam(i))
for j = 1:(i-1) for j = 1:(i-1)
A(j,i) = 0; A(j,i) = 0;
end end
@ -146,29 +154,29 @@ for i = 1:numanimals
continue continue
end end
if strcmp(sire(i), 'NaN') && not(strcmp(dam(i), 'NaN')) if isempty(row2rowofsire(i)) && not(isempty(row2dam(i)))
for j = 1:(i-1) for j = 1:(i-1)
A(j,i) = A(j,str2double(dam(i))); A(j,i) = A(j,row2rowofdam(i));
A(i,j) = A(j,str2double(dam(i))); A(i,j) = A(j,row2rowofdam(i));
end end
A(i,i) = 1; A(i,i) = 1;
continue continue
end end
if strcmp(dam(i), 'NaN') && not(strcmp(sire(i), 'NaN')) if isempty(row2rowofdam(i)) && not(isempty(row2rowofsire(i)))
for j=1:(i-1) for j=1:(i-1)
A(j,i) = A(j,str2double(sire(i))); A(j,i) = A(j,row2rowofsire(i));
A(i,j) = A(j,str2double(sire(i))); A(i,j) = A(j,row2rowofsire(i));
end end
A(i,i) = 1; A(i,i) = 1;
continue continue
end end
for j=1:(i-1) for j=1:(i-1)
A(j,i) = 0.5.*(A(j,str2double(sire(i))) + A(j,str2double(dam(i)))); A(j,i) = 0.5.*(A(j,row2rowofsire(i)) + A(j,row2rowofdam(i)));
A(i,j) = 0.5.*(A(j,str2double(sire(i))) + A(j,str2double(dam(i)))); A(i,j) = 0.5.*(A(j,row2rowofsire(i)) + A(j,row2rowofdam(i)));
end end
A(i,i) = 1 + 0.5.*A(str2double(sire(i)), str2double(dam(i))); A(i,i) = 1 + 0.5.*A(row2rowofsire(i), row2rowofdam(i));
continue continue
end end
@ -179,8 +187,8 @@ Y = cell2mat(data(:, 5));
% The identity matrix for random effects % The identity matrix for random effects
Z = eye(numanimals, numanimals); Z = eye(numanimals, numanimals);
% Prompt for heritablity % Prompt for heritability
h2 = input('What is the heritablity for this trait? >> '); h2 = input('What is the heritability for this trait? >> ');
lambda = (1-h2)/h2; lambda = (1-h2)/h2;
% Use the mixed-model equations % Use the mixed-model equations