public void VariableGrid_ConstructorTest02() {
VisualTreeObject actual = null;
using (var hostScript = new VariableRHostScript()) {
using (var script = new ControlTestScript(typeof(VariableGridHost))) {
DoIdle(100);
EvaluationWrapper wrapper = null;
Task.Run(async () => {
hostScript.VariableProvider.Subscribe(
0,
"grid.test",
(r) => wrapper = new EvaluationWrapper(r));
await hostScript.EvaluateAsync("grid.test <- matrix(1:10, 2, 5)");
}).Wait();
DoIdle(2000);
wrapper.Should().NotBeNull();
UIThreadHelper.Instance.Invoke(() => {
var host = (VariableGridHost)script.Control;
host.SetEvaluation(wrapper);
});
DoIdle(1000);
actual = VisualTreeObject.Create(script.Control);
}
}
ViewTreeDump.CompareVisualTrees(_files, actual, "VariableGrid02");
}
public Task InitializeAsync()
{
var workflow = VsAppShell.Current.GlobalServices.GetService <IRInteractiveWorkflowProvider>().GetOrCreate();
_hostScript = new VariableRHostScript(workflow.RSessions);
return(workflow.Connections.ConnectAsync(workflow.Connections.RecentConnections[0]));
}
public Task InitializeAsync()
{
_hostScript = new VariableRHostScript(_sessionProvider, _broker.BrokerConnector);
var connections = VsAppShell.Current.ExportProvider.GetExportedValue <IRInteractiveWorkflowProvider>().GetOrCreate().Connections;
return(connections.ConnectAsync(connections.RecentConnections[0]));
}
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
};
using (var hostScript = new VariableRHostScript()) {
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 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
};
using (var hostScript = new VariableRHostScript()) {
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("NA");
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 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
};
using (var hostScript = new VariableRHostScript()) {
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 PromiseTest()
{
var script = "e <- (function(x, y, z) base::environment())(1,,3)";
var expectation = new VariableExpectation()
{
Name = "e", Value = "<environment:", TypeName = "environment", Class = "environment", HasChildren = true, CanShowDetail = false
};
var x_expectation = new VariableExpectation()
{
Name = "x", Value = "1", TypeName = "<promise>", Class = "<promise>", HasChildren = false, CanShowDetail = false
};
var y_expectation = new VariableExpectation()
{
Name = "z", Value = "3", TypeName = "<promise>", Class = "<promise>", HasChildren = false, CanShowDetail = false
};
var evaluation = (VariableViewModel)await _hostScript.EvaluateAndAssert(
script,
expectation,
VariableRHostScript.AssertEvaluationWrapper_ValueStartWith);
var children = await evaluation.GetChildrenAsync();
children.Count.Should().Be(2);
VariableRHostScript.AssertEvaluationWrapper(children[0], x_expectation);
VariableRHostScript.AssertEvaluationWrapper(children[1], y_expectation);
}
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
};
using (var hostScript = new VariableRHostScript()) {
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");
}
}
private static async Task RunTest(object[,] testData)
{
using (var hostScript = new VariableRHostScript()) {
int testCount = testData.GetLength(0);
for (int i = 0; i < testCount; i++)
{
await hostScript.EvaluateAndAssert(
(string)testData[i, 0],
(VariableExpectation)testData[i, 1],
VariableRHostScript.AssertEvaluationWrapper);
}
}
}
public async Task ValuesTest(string script, string expectedName, string expectedValue, string expectedTypeName, string expectedClass, bool expectedHasChildren, bool expectedCanShowDetail) {
var expected = new VariableExpectation {
Name = expectedName,
Value = expectedValue,
TypeName = expectedTypeName,
Class = expectedClass,
HasChildren = expectedHasChildren,
CanShowDetail = expectedCanShowDetail
};
using (var hostScript = new VariableRHostScript()) {
await hostScript.EvaluateAndAssert(script, expected, VariableRHostScript.AssertEvaluationWrapper);
}
}
public async Task ValuesTest(string script, string expectedName, string expectedValue, string expectedTypeName, string expectedClass, bool expectedHasChildren, bool expectedCanShowDetail)
{
var expected = new VariableExpectation {
Name = expectedName,
Value = expectedValue,
TypeName = expectedTypeName,
Class = expectedClass,
HasChildren = expectedHasChildren,
CanShowDetail = expectedCanShowDetail
};
using (var hostScript = new VariableRHostScript()) {
await hostScript.EvaluateAndAssert(script, expected, VariableRHostScript.AssertEvaluationWrapper);
}
}
public async Task TruncateGrandChildrenTest()
{
using (var hostScript = new VariableRHostScript()) {
await hostScript.EvaluateAsync("x.truncate.children<-1:100");
var children = await hostScript.GlobalEnvrionment.GetChildrenAsync();
var child = children.First(c => c.Name == "x.truncate.children");
var grandChildren = await child.GetChildrenAsync();
grandChildren.Count.Should().Be(21); // truncate 20 + ellipsis
grandChildren[20].Value.Should().Be(Resources.VariableExplorer_Truncated);
}
}
public async Task DoesNotExist()
{
// This is the equivalent of what we get when we fetch a variable
// for a data grid after that variable is no longer available (rm or reset).
var script = "idonotexist";
using (var hostScript = new VariableRHostScript()) {
var evaluationResult = await hostScript.EvaluateAsync(script);
evaluationResult.Name.Should().BeNull();
evaluationResult.Expression.Should().Be("idonotexist");
var model = new VariableViewModel(evaluationResult, null);
model.TypeName.Should().BeNull();
model.Value.Should().BeNull();
}
}
public async Task DataFrameManyColumnTest()
{
var script = "df.manycolumn<-data.frame(1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30);";
var expectation = new VariableExpectation()
{
Name = "df.manycolumn", Value = "1 obs. of 30 variables", TypeName = "list", Class = "data.frame", HasChildren = true, CanShowDetail = true
};
using (var hostScript = new VariableRHostScript()) {
var evaluation = (VariableViewModel)await hostScript.EvaluateAndAssert(
script,
expectation,
VariableRHostScript.AssertEvaluationWrapper);
var children = await evaluation.GetChildrenAsync();
children.Count.Should().BeGreaterOrEqualTo(30);
}
}
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
};
using (var hostScript = new VariableRHostScript()) {
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 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
};
using (var hostScript = new VariableRHostScript()) {
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 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
};
using (var hostScript = new VariableRHostScript()) {
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("NA");
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 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
};
using (var hostScript = new VariableRHostScript()) {
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("NA");
grid.ColumnHeader[3].Should().Be("d");
grid.ColumnHeader[4].Should().Be("NA");
grid.RowHeader.Range.Should().Be(rowRange);
grid.RowHeader[0].Should().Be("r1");
grid.RowHeader[1].Should().Be("NA");
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 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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[2].ShouldBeEquivalentTo("NA");
grid.ColumnHeader[3].ShouldBeEquivalentTo("d");
grid.ColumnHeader[4].ShouldBeEquivalentTo("NA");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("r1");
grid.RowHeader[1].ShouldBeEquivalentTo("NA");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 2].ShouldBeEquivalentTo("NA");
grid.Grid[0, 3].ShouldBeEquivalentTo("7");
grid.Grid[0, 4].ShouldBeEquivalentTo("9");
grid.Grid[1, 2].ShouldBeEquivalentTo("NaN");
grid.Grid[1, 3].ShouldBeEquivalentTo("8");
grid.Grid[1, 4].ShouldBeEquivalentTo("10");
}
}
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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[0].ShouldBeEquivalentTo("[,1]");
grid.ColumnHeader[1].ShouldBeEquivalentTo("[,2]");
grid.ColumnHeader[2].ShouldBeEquivalentTo("[,3]");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("[1,]");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 0].ShouldBeEquivalentTo("1");
grid.Grid[0, 1].ShouldBeEquivalentTo("2");
grid.Grid[0, 2].ShouldBeEquivalentTo("3");
evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[0].ShouldBeEquivalentTo("[,1]");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("[1,]");
grid.RowHeader[1].ShouldBeEquivalentTo("[2,]");
grid.RowHeader[2].ShouldBeEquivalentTo("[3,]");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 0].ShouldBeEquivalentTo("1");
grid.Grid[1, 0].ShouldBeEquivalentTo("2");
grid.Grid[2, 0].ShouldBeEquivalentTo("3");
}
}
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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[0].ShouldBeEquivalentTo("[,1]");
grid.ColumnHeader[1].ShouldBeEquivalentTo("[,2]");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("NA");
grid.RowHeader[1].ShouldBeEquivalentTo("row2");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 0].ShouldBeEquivalentTo("1");
grid.Grid[0, 1].ShouldBeEquivalentTo("3");
grid.Grid[1, 0].ShouldBeEquivalentTo("2");
grid.Grid[1, 1].ShouldBeEquivalentTo("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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[0].ShouldBeEquivalentTo("col1");
grid.ColumnHeader[1].ShouldBeEquivalentTo("NA");
grid.ColumnHeader[2].ShouldBeEquivalentTo("col3");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("[1,]");
grid.RowHeader[1].ShouldBeEquivalentTo("[2,]");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 0].ShouldBeEquivalentTo("1");
grid.Grid[0, 1].ShouldBeEquivalentTo("3");
grid.Grid[0, 2].ShouldBeEquivalentTo("5");
grid.Grid[1, 0].ShouldBeEquivalentTo("2");
grid.Grid[1, 1].ShouldBeEquivalentTo("4");
grid.Grid[1, 2].ShouldBeEquivalentTo("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
};
using (var hostScript = new VariableRHostScript()) {
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 PromiseTest() {
var script = "e <- (function(x, y, z) base::environment())(1,,3)";
var expectation = new VariableExpectation() { Name = "e", Value = "<environment:", TypeName = "environment", Class = "environment", HasChildren = true, CanShowDetail = false };
var x_expectation = new VariableExpectation() { Name = "x", Value = "1", TypeName = "<promise>", Class = "<promise>", HasChildren = false, CanShowDetail = false };
var y_expectation = new VariableExpectation() { Name = "z", Value = "3", TypeName = "<promise>", Class = "<promise>", HasChildren = false, CanShowDetail = false };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)await hostScript.EvaluateAndAssert(
script,
expectation,
VariableRHostScript.AssertEvaluationWrapper_ValueStartWith);
var children = await evaluation.GetChildrenAsync();
children.Count.ShouldBeEquivalentTo(2);
VariableRHostScript.AssertEvaluationWrapper(children[0], x_expectation);
VariableRHostScript.AssertEvaluationWrapper(children[1], y_expectation);
}
}
public EvaluationWrapperTest(IServiceContainer services) : base(new VariableRHostScript(services), services)
{
_hostScript = GetScript <VariableRHostScript>();
_dataSource = new GridDataSource(_hostScript.Session);
}
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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[2].ShouldBeEquivalentTo("c");
grid.ColumnHeader[3].ShouldBeEquivalentTo("d");
grid.ColumnHeader[4].ShouldBeEquivalentTo("e");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("r1");
grid.RowHeader[1].ShouldBeEquivalentTo("r2");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 2].ShouldBeEquivalentTo("5");
grid.Grid[0, 3].ShouldBeEquivalentTo("7");
grid.Grid[0, 4].ShouldBeEquivalentTo("9");
grid.Grid[1, 2].ShouldBeEquivalentTo("6");
grid.Grid[1, 3].ShouldBeEquivalentTo("8");
grid.Grid[1, 4].ShouldBeEquivalentTo("10");
}
}
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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 0].ShouldBeEquivalentTo("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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[0].ShouldBeEquivalentTo("X101.103");
grid.ColumnHeader[1].ShouldBeEquivalentTo("c..a....b....c..");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("1");
grid.RowHeader[1].ShouldBeEquivalentTo("2");
grid.RowHeader[2].ShouldBeEquivalentTo("3");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 0].ShouldBeEquivalentTo("101");
grid.Grid[0, 1].ShouldBeEquivalentTo("a");
grid.Grid[1, 0].ShouldBeEquivalentTo("102");
grid.Grid[1, 1].ShouldBeEquivalentTo("b");
grid.Grid[2, 0].ShouldBeEquivalentTo("103");
grid.Grid[2, 1].ShouldBeEquivalentTo("c");
}
}
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 };
using (var hostScript = new VariableRHostScript()) {
var evaluation = (EvaluationWrapper)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.ShouldBeEquivalentTo(columnRange);
grid.ColumnHeader[1].ShouldBeEquivalentTo("[,2]");
grid.ColumnHeader[2].ShouldBeEquivalentTo("[,3]");
grid.ColumnHeader[3].ShouldBeEquivalentTo("[,4]");
grid.RowHeader.Range.ShouldBeEquivalentTo(rowRange);
grid.RowHeader[0].ShouldBeEquivalentTo("[1,]");
grid.RowHeader[1].ShouldBeEquivalentTo("[2,]");
grid.Grid.Range.ShouldBeEquivalentTo(new GridRange(rowRange, columnRange));
grid.Grid[0, 1].ShouldBeEquivalentTo("11");
grid.Grid[0, 2].ShouldBeEquivalentTo("21");
grid.Grid[0, 3].ShouldBeEquivalentTo("31");
grid.Grid[1, 1].ShouldBeEquivalentTo("12");
grid.Grid[1, 2].ShouldBeEquivalentTo("22");
grid.Grid[1, 3].ShouldBeEquivalentTo("32");
}
}
public EvaluationWrapperTest(IServiceContainer services) : base(new VariableRHostScript(services), services)
{
_hostScript = GetScript <VariableRHostScript>();
}
public VariableGridTest(TestFilesFixture files) {
_files = files;
_hostScript = new VariableRHostScript(SessionProvider);
}
private async Task PrepareControl(VariableRHostScript hostScript, ControlTestScript script, string expression) {
DoIdle(100);
var result = await hostScript.EvaluateAsync(expression);
VariableViewModel wrapper = new VariableViewModel(result, VsAppShell.Current.ExportProvider.GetExportedValue<IObjectDetailsViewerAggregator>());
DoIdle(2000);
wrapper.Should().NotBeNull();
UIThreadHelper.Instance.Invoke(() => {
var host = (VariableGridHost)script.Control;
host.SetEvaluation(wrapper);
});
DoIdle(1000);
}
private static async Task RunTest(object[,] testData) {
using (var hostScript = new VariableRHostScript()) {
int testCount = testData.GetLength(0);
for (int i = 0; i < testCount; i++) {
await hostScript.EvaluateAndAssert(
(string)testData[i, 0],
(VariableExpectation)testData[i, 1],
VariableRHostScript.AssertEvaluationWrapper);
}
}
}
public Task InitializeAsync() {
var workflow = VsAppShell.Current.ExportProvider.GetExportedValue<IRInteractiveWorkflowProvider>().GetOrCreate();
_hostScript = new VariableRHostScript(workflow.RSessions);
return workflow.Connections.ConnectAsync(workflow.Connections.RecentConnections[0]);
}
public async Task TruncateGrandChildrenTest() {
using (var hostScript = new VariableRHostScript()) {
await hostScript.EvaluateAsync("x.truncate.children<-1:100");
var children = await hostScript.GlobalEnvrionment.GetChildrenAsync();
var child = children.First(c => c.Name == "x.truncate.children");
var grandChildren = await child.GetChildrenAsync();
grandChildren.Count.ShouldBeEquivalentTo(21); // truncate 20 + ellipsis
grandChildren[20].Value.ShouldBeEquivalentTo(Resources.VariableExplorer_Truncated);
}
}
