Mercurial > repos > public > sbplib

view +grid/evalOnTest.m @ 958:72cd29107a9a feature/poroelastic

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Temporary changes in multiblock.DiffOp. Change traction operators in Elastic2dvariable to be true boundary operators. But adjoint FD conv test fails for dirichlet BC so need to debug!
author Martin Almquist <malmquist@stanford.edu>
date Wed, 05 Dec 2018 18:58:10 -0800
parents 190941ec12d8
children
line wrap: on
line source

function tests = evalOnTest()
    tests = functiontests(localfunctions);
end

function testInputConstant(testCase)
    in  = {
        0,
        47,
        1,
        [1; 2],
    };

    out = {
        [0; 0; 0],
        [47; 47; 47],
        [1; 1; 1],
        [1; 2; 1; 2; 1; 2],
    };

    g = getTestGrid('1d');

    for i = 1:length(in)
        gf = grid.evalOn(g,in{i});
        testCase.verifyEqual(gf, out{i});
    end
end

% evalOn should give and error if the number of inputs to func is not the same as
% the number of dimensions of the grid.
function testNumberOfInputs(testCase)
    cases = {
        {getTestGrid('1d'), @(x,y)x-y},
        {getTestGrid('2d'), @(x)x    },
    };

    for i = 1:length(cases)
        g = cases{i}{1};
        f = cases{i}{2};
        testCase.verifyError(@()grid.evalOn(g, f),'grid:evalOn:WrongNumberOfInputs',sprintf('in(%d) = %s',i,toString(f)));
    end
end

function testInputScalarFunction1d(testCase)
    in  = {
        @(x)1+x*0,
        @(x)x,
        @(x)x.*x,
    };

    out = {
        [1; 1; 1],
        [0; 1; 2],
        [0; 1; 4],
    };

    g = getTestGrid('1d');

    for i = 1:length(in)
        gf = grid.evalOn(g,in{i});
        testCase.verifyEqual(gf, out{i});
    end
end

function testInputScalarFunction2d(testCase)
    in  = {
        @(x,y)1+x*0,
        @(x,y)x-y,
        @(x,y)x./(1+y),
    };

    out = {
        [1; 1; 1; 1; 1; 1; 1; 1; 1],
        [0; -1; -2; 1; 0; -1; 2; 1; 0],
        [0; 0; 0; 1; 1/2; 1/3; 2; 1; 2/3],
    };

    g = getTestGrid('2d');

    for i = 1:length(in)
        gf = grid.evalOn(g, in{i});
        testCase.verifyEqual(gf, out{i});
    end
end


function testInputVectorFunction(testCase)
    g = getTestGrid('1d');
    in = @(x)[x; -2*x];
    out = [0; 0; 1; -2; 2; -4];

    gf = grid.evalOn(g,in);
    testCase.verifyEqual(gf, out);

    g = getTestGrid('2d');
    in = @(x,y)[x.^2; -2*y];
    out = [
        0;  0;
        0; -2;
        0; -4;
        1;  0;
        1; -2;
        1; -4;
        4;  0;
        4; -2;
        4; -4;
    ];

    gf = grid.evalOn(g,in);
    testCase.verifyEqual(gf, out);
end


function testInputErrorVectorValued(testCase)
    in  = {
        [1,2,3],
        @(x,y)[x,-y],
    };

    g = getTestGrid('2d');

    for i = 1:length(in)
        testCase.verifyError(@()grid.evalOn(g, in{i}),'grid:evalOn:VectorValuedWrongDim',sprintf('in(%d) = %s',i,toString(in{i})));
    end
end

function g = getTestGrid(d)
    switch d
        case '1d'
            g = grid.equidistant(3,{0,2});
        case '2d'
            g = grid.equidistant([3,3],{0,2},{0,2});
    end
end