Mercurial > repos > public > sbplib
view CellTest.m @ 577:e45c9b56d50d feature/grids
Add an Empty grid class
The need turned up for the flexural code when we may or may not have a grid for the open water and want to plot that solution.
In case there is no open water we need an empty grid to plot the empty gridfunction against to avoid errors.
| author | Jonatan Werpers <jonatan@werpers.com> |
|---|---|
| date | Thu, 07 Sep 2017 09:16:12 +0200 |
| parents | da7df0c9af05 |
| children | 2ce903f28193 |
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function tests = CellTest() tests = functiontests(localfunctions); end function testSize(testCase) cases = { {{}, [0, 0]}, {{1}, [1, 1]}, {{1, 2}, [1, 2]}, {{1; 2}, [2, 1]}, {{1, 2; 3, 4}, [2,2]}, }; for i = 1:length(cases) A = Cell(cases{i}{1}); expected = cases{i}{2}; testCase.verifyEqual(size(A),expected); end end function testLength(testCase) cases = { {{}, 0}, {{1}, 1}, {{1, 2}, 2}, {{1; 2}, 2}, {{1, 2; 3, 4}, 2}, }; for i = 1:length(cases) A = Cell(cases{i}{1}); expected = cases{i}{2}; testCase.verifyEqual(length(A),expected); end end function testTranspose(testCase) testCase.verifyEqual(Cell({1i, 2}).', Cell({1i; 2})); testCase.verifyEqual(Cell({1i; 2}).', Cell({1i, 2})); end function testCtranspose(testCase) testCase.verifyEqual(Cell({1i, 2})', Cell({1i; 2})); testCase.verifyEqual(Cell({1i; 2})', Cell({1i, 2})); end function testRoundIndexWithProperty(testCase) A = Cell({3,2,1}); result = A([1,3]).data; testCase.verifyEqual(result, {3, 1}); end function testSubAssignmentRound(testCase) cases = { % { % lArray, % index, % rhs, % expectedResult % }, { {}, 1, {'a'}, {'a'}, }, { {1}, 1, {'a'}, {'a'}, }, { {1,2,3}, 2, {'a'}, {1,'a',3}, }, { {1,2,3}, 2, [], {1,3}, }, }; for i = 1:length(cases) lArray = Cell(cases{i}{1}); index = cases{i}{2}; rhs = cases{i}{3}; expectedResult = cases{i}{4}; lArray(index) = rhs; testCase.verifyEqual(lArray.data, expectedResult) end end function testSubAssignmentCurly(testCase) cases = { % { % lArray, % index, % rhs, % expectedResult % }, { {}, 1, 'a', {'a'}, }, { {1}, 1, 'a', {'a'}, }, { {1,2,3}, 2, 'a', {1,'a',3}, }, }; for i = 1:length(cases) lArray = Cell(cases{i}{1}); index = cases{i}{2}; rhs = cases{i}{3}; expectedResult = cases{i}{4}; lArray{index} = rhs; testCase.verifyEqual(lArray.data, expectedResult) end end function testIndexreferenceRound(testCase) cases = { % { % array, % index, % roundResult % }, { {1,2,3}, 1, {1}, }, { {1,3,2}, 2, {3}, }, { {1,3,2}, [1 3], {1, 2}, }, }; for i = 1:length(cases) array = Cell(cases{i}{1}); index = cases{i}{2}; expected = cases{i}{3}; result = array(index); testCase.verifyTrue(isa(result, 'Cell')); testCase.verifyEqual(result.data, expected); end end function testEndIndexing(testCase) C = Cell({1,2,3}); testCase.verifyEqual(C(end), Cell({3})); testCase.verifyEqual(C{end}, 3); end function testColonIndexing(testCase) C = Cell({1, 2, 3}); D = Cell({1; 2; 3}); testCase.verifyEqual(C(:), D); testCase.verifyEqual(D(:), D); end function testIndexreferenceCurly(testCase) cases = { % { % array, % index, % curlyResult % }, { {1,2,3}, 1, 1 }, { {1,3,2}, 2, 3 }, }; for i = 1:length(cases) array = Cell(cases{i}{1}); index = cases{i}{2}; expected = cases{i}{3}; result = array{index}; testCase.verifyEqual(result, expected); end end function testConcat(testCase) cases = { {{},{}}, {{1},{}}, {{},{1}}, {{1},{2}}, {{1, 2},{3, 4}}, {{1; 2},{3; 4}}, }; horzCat = { {}, {1}, {1}, {1,2}, {1, 2, 3, 4}, {1, 3; 2, 4}, }; vertCat = { {}, {1}, {1}, {1; 2}, {1, 2; 3, 4}, {1; 2; 3; 4}, }; for i = 1:length(cases) A = Cell(cases{i}{1}); B = Cell(cases{i}{2}); C_horz = [A, B]; C_vert = [A; B]; testCase.verifyEqual(C_horz.data, horzCat{i}); testCase.verifyEqual(C_vert.data, vertCat{i}); end end