public async Task DataFrameLangTest() { var script = "df.lang <- data.frame(col1=c('a','中'),col2=c('國','d'),row.names = c('マイクロソフト','row2'));"; var expectation = new VariableExpectation() { Name = "df.lang", Value = "2 obs. of 2 variables", TypeName = "list", Class = "data.frame", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 2); Range columnRange = new Range(0, 2); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[0].Should().Be("col1"); grid.ColumnHeader[1].Should().Be("col2"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("マイクロソフト"); grid.RowHeader[1].Should().Be("row2"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 0].Should().Be("a"); grid.Grid[0, 1].Should().Be("國"); grid.Grid[1, 0].Should().Be("中"); grid.Grid[1, 1].Should().Be("d"); }
public async Task MatrixLargeCellTest() { var script = "matrix.largecell <- matrix(list(as.double(1:5000), 2, 3, 4), nrow = 2, ncol = 2);"; var expectation = new VariableExpectation() { Name = "matrix.largecell", Value = "List of 4", TypeName = "list", Class = "matrix", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 1); Range columnRange = new Range(0, 1); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.RowHeader.Range.Should().Be(rowRange); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 0].Should().Be("1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27..."); }
public async Task DataFrameTest() { var script = "df.test <- data.frame(101:103, c('\"a', 'b', 'c'))"; var expectation = new VariableExpectation() { Name = "df.test", Value = "3 obs. of 2 variables", TypeName = "list", Class = "data.frame", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 3); Range columnRange = new Range(0, 2); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[0].Should().Be("X101.103"); grid.ColumnHeader[1].Should().Be("c....a....b....c.."); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("1"); grid.RowHeader[1].Should().Be("2"); grid.RowHeader[2].Should().Be("3"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 0].Should().Be("101"); grid.Grid[0, 1].Should().Be("\"a"); grid.Grid[1, 0].Should().Be("102"); grid.Grid[1, 1].Should().Be("b"); grid.Grid[2, 0].Should().Be("103"); grid.Grid[2, 1].Should().Be("c"); // single column columnRange = new Range(1, 1); grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[1].Should().Be("c....a....b....c.."); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("1"); grid.RowHeader[1].Should().Be("2"); grid.RowHeader[2].Should().Be("3"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 1].Should().Be("\"a"); grid.Grid[1, 1].Should().Be("b"); grid.Grid[2, 1].Should().Be("c"); }
public async Task MatrixOnlyRowNameTest() { var script = "matrix.rowname.na <- matrix(c(1,2,3,4), nrow=2, ncol=2);rownames(matrix.rowname.na)<-c(NA, 'row2');"; var expectation = new VariableExpectation() { Name = "matrix.rowname.na", Value = "num [1:2, 1:2] 1 2 3 4", TypeName = "double", Class = "matrix", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 2); Range columnRange = new Range(0, 2); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[0].Should().Be("[,1]"); grid.ColumnHeader[1].Should().Be("[,2]"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("[1,]"); grid.RowHeader[1].Should().Be("row2"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 0].Should().Be("1"); grid.Grid[0, 1].Should().Be("3"); grid.Grid[1, 0].Should().Be("2"); grid.Grid[1, 1].Should().Be("4"); }
public async Task MatrixOnlyColumnNameTest() { var script = "matrix.colname.na <- matrix(1:6, nrow=2, ncol=3);colnames(matrix.colname.na)<-c('col1',NA,'col3');"; var expectation = new VariableExpectation() { Name = "matrix.colname.na", Value = "int [1:2, 1:3] 1 2 3 4 5 6", TypeName = "integer", Class = "matrix", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 2); Range columnRange = new Range(0, 3); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[0].Should().Be("col1"); grid.ColumnHeader[1].Should().Be("[,2]"); grid.ColumnHeader[2].Should().Be("col3"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("[1,]"); grid.RowHeader[1].Should().Be("[2,]"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 0].Should().Be("1"); grid.Grid[0, 1].Should().Be("3"); grid.Grid[0, 2].Should().Be("5"); grid.Grid[1, 0].Should().Be("2"); grid.Grid[1, 1].Should().Be("4"); grid.Grid[1, 2].Should().Be("6"); }
public async Task MatrixOneRowColumnTest() { var script1 = "matrix.singlerow <- matrix(1:3, nrow=1);"; var expectation1 = new VariableExpectation() { Name = "matrix.singlerow", Value = "int [1, 1:3] 1 2 3", TypeName = "integer", Class = "matrix", HasChildren = true, CanShowDetail = true }; var script2 = "matrix.singlecolumn <- matrix(1:3, ncol=1);"; var expectation2 = new VariableExpectation() { Name = "matrix.singlecolumn", Value = "int [1:3, 1] 1 2 3", TypeName = "integer", Class = "matrix", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script1, expectation1, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 1); Range columnRange = new Range(0, 3); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[0].Should().Be("[,1]"); grid.ColumnHeader[1].Should().Be("[,2]"); grid.ColumnHeader[2].Should().Be("[,3]"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("[1,]"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 0].Should().Be("1"); grid.Grid[0, 1].Should().Be("2"); grid.Grid[0, 2].Should().Be("3"); evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script2, expectation2, VariableRHostScript.AssertEvaluationWrapper); rowRange = new Range(0, 3); columnRange = new Range(0, 1); grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[0].Should().Be("[,1]"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("[1,]"); grid.RowHeader[1].Should().Be("[2,]"); grid.RowHeader[2].Should().Be("[3,]"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 0].Should().Be("1"); grid.Grid[1, 0].Should().Be("2"); grid.Grid[2, 0].Should().Be("3"); }
public async Task MatrixNATest() { var script = "matrix.na.header <- matrix(c(1, 2, 3, 4, NA, NaN, 7, 8, 9, 10), 2, 5, dimnames = list(r = c('r1', NA), c = c('a', 'b', NA, 'd', NA)))"; var expectation = new VariableExpectation() { Name = "matrix.na.header", Value = "num [1:2, 1:5] 1 2 3 4 NA NaN 7 8 9 10", TypeName = "double", Class = "matrix", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 2); Range columnRange = new Range(2, 3); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[2].Should().Be("[,1]"); grid.ColumnHeader[3].Should().Be("d"); grid.ColumnHeader[4].Should().Be("[,3]"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("r1"); grid.RowHeader[1].Should().Be("[2,]"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 2].Should().Be("NA"); grid.Grid[0, 3].Should().Be("7"); grid.Grid[0, 4].Should().Be("9"); grid.Grid[1, 2].Should().Be("NaN"); grid.Grid[1, 3].Should().Be("8"); grid.Grid[1, 4].Should().Be("10"); }
public async Task MatrixNamedTest() { var script = "matrix.named <- matrix(1:10, 2, 5, dimnames = list(r = c('r1', 'r2'), c = c('a', 'b', 'c', 'd', 'e')))"; var expectation = new VariableExpectation() { Name = "matrix.named", Value = "int [1:2, 1:5] 1 2 3 4 5 6 7 8 9 10", TypeName = "integer", Class = "matrix", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 2); Range columnRange = new Range(2, 3); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[2].Should().Be("c"); grid.ColumnHeader[3].Should().Be("d"); grid.ColumnHeader[4].Should().Be("e"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("r1"); grid.RowHeader[1].Should().Be("r2"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 2].Should().Be("5"); grid.Grid[0, 3].Should().Be("7"); grid.Grid[0, 4].Should().Be("9"); grid.Grid[1, 2].Should().Be("6"); grid.Grid[1, 3].Should().Be("8"); grid.Grid[1, 4].Should().Be("10"); }
public async Task Matrix10x100Test() { var script = "matrix.10x100 <-matrix(1:1000, 10, 100)"; var expectation = new VariableExpectation() { Name = "matrix.10x100", Value = "int [1:10, 1:100] 1 2 3 4 5 6 7 8 9 10 ...", TypeName = "integer", Class = "matrix", HasChildren = true, CanShowDetail = true }; var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert( script, expectation, VariableRHostScript.AssertEvaluationWrapper); Range rowRange = new Range(0, 2); Range columnRange = new Range(1, 3); var grid = await GridDataSource.GetGridDataAsync(evaluation.Expression, new GridRange(rowRange, columnRange)); grid.ColumnHeader.Range.Should().Be(columnRange); grid.ColumnHeader[1].Should().Be("[,2]"); grid.ColumnHeader[2].Should().Be("[,3]"); grid.ColumnHeader[3].Should().Be("[,4]"); grid.RowHeader.Range.Should().Be(rowRange); grid.RowHeader[0].Should().Be("[1,]"); grid.RowHeader[1].Should().Be("[2,]"); grid.Grid.Range.Should().Be(new GridRange(rowRange, columnRange)); grid.Grid[0, 1].Should().Be("11"); grid.Grid[0, 2].Should().Be("21"); grid.Grid[0, 3].Should().Be("31"); grid.Grid[1, 1].Should().Be("12"); grid.Grid[1, 2].Should().Be("22"); grid.Grid[1, 3].Should().Be("32"); }
public bool Contains(Range other) { if (Count == 0) return false; return (other.Start <= this.Start) && (other._end >= this._end); }