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Terminal.Gui/Tests/UnitTests/Views/TableViewTests.cs
Copilot c5906c2dc1 #4329—Major Terminal.Gui v2 Architecture Modernization: Application Decoupling, Terminology Improvements, and Nullable Migration (#4338) 
* Initial plan

* Add comprehensive terminology proposal for Application.Top/Toplevel renaming

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Add terminology proposal summary document

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Add before/after comparison document for terminology proposal

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Add index document for terminology proposal

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Add Mermaid diagrams visualizing the terminology proposal

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Move terminology docs to docfx/docs per CONTRIBUTING.md guidelines

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Update terminology proposal to reflect recent modernization (post-MainLoop removal)

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Update terminology proposal - validate against recent driver refactoring changes

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Update proposal after massive v2_develop modernization - TopLevels now public, RunState→SessionToken

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Update proposal: RunStack → SessionStack to align with SessionToken terminology

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Phase 1: Core API rename - Application.Top→Current, TopLevels→SessionStack

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Phase 2: Fix test compilation errors for renamed properties

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Phase 3: Update documentation files with new terminology

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Refactor generic type names and remove unused field

Renamed generic type parameters in `Dim` and `Pos` classes for clarity:
- `T` was renamed to `TDim` in `Dim.Has` method.
- `T` was renamed to `TPos` in `Pos.Has` method.
Updated type casting and pattern matching logic to reflect these changes.

Removed the unused `_stopAfterFirstIteration` field from the `ApplicationImpl` class to clean up the codebase.

* Increase minimum code coverage target to 75%

Updated the `codecov.yml` configuration file to raise the
`project.default.target` value from 70% to 75%, enforcing
stricter code coverage requirements for the overall project.

* Add comprehensive unit tests for ApplicationImpl Begin/End logic

Added ApplicationImplBeginEndTests with 16 tests covering:
- Begin/End argument validation
- SessionStack push/pop operations
- Current property management
- Balanced Begin/End enforcement
- Multiple nested Begin/End scenarios
- ResetState cleanup behavior
- Toplevel activation/deactivation
- SessionToken management

Tests validate the fragile state management logic in ApplicationImpl.Lifecycle.cs
and ApplicationImpl.Run.cs to catch regressions in Current/SessionStack handling.

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Refactor ApplicationImplBeginEndTests to work with ApplicationImpl instances directly

Tests now:
- Create ApplicationImpl instances directly instead of using global Application
- Use try-finally blocks to ensure Shutdown() is always called
- Work with app.Init() and app.Shutdown() properly
- 13 of 16 tests passing (3 tests need adjustment for ResetState behavior)

Tests validate fragile Begin/End state management logic without polluting global Application state.

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Fix ApplicationImplBeginEndTests: Remove explicit ResetState calls, rely on Shutdown

Per maintainer feedback:
- Tests should not call ResetState explicitly if they call Shutdown (Shutdown calls ResetState)
- Removed all explicit app.ResetState() calls from tests
- Tests now only call Shutdown in finally blocks for cleanup
- Ensured toplevels are disposed BEFORE Shutdown to satisfy DEBUG_IDISPOSABLE assertions
- Fixed test cleanup order to prevent ResetState assertion failures
- All 16 tests now pass successfully

ResetState is idempotent - the issue was tests calling it unnecessarily and with incorrect disposal ordering.

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Phase 1: Enable nullable by default, add directives to all files

- Added <Nullable>enable</Nullable> to Terminal.Gui.csproj
- Removed #nullable enable from 37 files (now redundant with project setting)
- Added #nullable disable to 170 files that don't have nullable enabled yet
- Build successful with 279 nullable warnings (expected)

Breakdown of files with #nullable disable:
- 27 in Views/ directory (will remain disabled per plan)
- 143 outside Views/ (need to be fixed in subsequent commits)

Next: Systematically fix nullable issues in non-View files.

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Phase 2: Remove nullable disable from all non-View files - COMPLETE!

- Removed #nullable disable from 142 non-View files
- All non-View code is now nullable-enabled
- Build successful with 0 errors, only 1 unrelated warning
- Created NULLABLE_VIEWS_REMAINING.md documenting the 121 View files still with nullable disable

Nullable cleanup summary:
 App/: 25 files - nullable enabled
 Configuration/: 24 files - nullable enabled
 ViewBase/: 30 files - nullable enabled
 Drivers/: 25 files - nullable enabled
 Drawing/: 18 files - nullable enabled
 FileServices/: 7 files - nullable enabled
 Input/: 6 files - nullable enabled
 Text/: 5 files - nullable enabled
 Resources/: 3 files - nullable enabled
⏸️  Views/: 121 files - remain disabled (as requested)

Total: 143 files nullable-enabled, 121 View files remain disabled.

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* WIP: fixing nullability issues.

* Fixed final nullability issues.

* Moved Arrangment tests

* Refactor and improve modularity across multiple classes

Refactored `FillRectangles` in `RegionScenario` and `Region` to accept an `IDriver` parameter, reducing reliance on global state. Updated `ApplicationImpl` to replace static method calls with instance methods for better encapsulation. Renamed `Toplevel` to `Current` in `IPopover` and related classes for clarity.

Simplified `LineCanvas` methods by removing unnecessary `IDriver` parameters. Added `Id` and `App` properties to `View` for better state management and unique identification. Streamlined the `Driver` property in `View` with a concise getter.

Improved formatting and consistency across files, including `Region` and `IntersectionRuneResolver`. Enhanced thread safety in `Region` and cleaned up redundant code. Updated tests to align with interface changes and ensure compatibility.

* Refactor to make IDriver dependency explicit

Updated `AnsiEscapeSequenceRequest.Send` to accept an `IDriver?` parameter, replacing reliance on `Application.Driver`. Refactored `AnsiRequestScheduler` methods (`SendOrSchedule`, `RunSchedule`, and private `Send`) to propagate the `IDriver?` parameter, ensuring explicit driver dependency.

Modified `DriverImpl.QueueAnsiRequest` to pass `this` to `SendOrSchedule`. Updated `AnsiRequestSchedulerTests` to reflect new method signatures, passing `null` for the driver parameter where applicable.

Added `<param>` documentation for new parameters to improve clarity. These changes enhance flexibility, maintainability, and testability by reducing reliance on global state and allowing driver substitution in tests.

* WIP: Started migrating to View.App

Refactored `ApplicationImpl` to ensure proper handling of the `App`
property for `Toplevel` instances, improving modularity. Replaced
direct references to `Application` with `App` in `Border`, `ShadowView`,
and other classes to enhance flexibility and maintainability.

Introduced `GetApp` in `View` to allow overrides for retrieving the
`App` instance. Updated `Adornment` to use this method. Moved mouse
event subscriptions in `Border` to `BeginInit` for proper lifecycle
management.

Updated unit tests in `ArrangementTests` to use `App.Mouse` instead of
`Application.Mouse`, ensuring alignment with the refactored design.
Added `BeginInit` and `EndInit` calls for proper initialization during
tests. Removed redundant code and improved test assertions.

* WIP: Next set of View.App changes

Updated `SetClipToScreen`, `SetClip`, and `GetClip` methods to accept an `IDriver` parameter, replacing reliance on the global `Application.Driver`. This improves modularity, testability, and reduces implicit global state usage.

- Updated `Driver` property in `View` to use `App?.Driver` as fallback.
- Refactored `DimAuto` to use `App?.Screen.Size` with a default for unit tests.
- Updated all test cases to align with the new method signatures.
- Performed general cleanup for consistency and readability.

* Adds View clip tests.

* Merged

* Merged

* wip

* Fixed test bug.

* Refactored Thickness.Draw to require driver.

* Made TextFormatter.Draw require driver.

* Code cleanup.

* Un did stoopid idea.

* Decouped Application.Navigation

* MASSIVE - Almost completely decoupled Application from View etc...

* Obsolete

* Missed some

* More cleanup and decoupling.

Refactor `ToString` and remove legacy code

Refactored `ToString` implementations across `Application`, `DriverImpl`, and `IDriver` to improve consistency and maintainability. Removed the legacy `ToString(IDriver? driver)` method and its associated references. Simplified `ToString` in `DriverImpl` to generate a string representation of the `Contents` buffer.

Replaced redundant XML documentation with `<inheritdoc/>` tags to reduce duplication. Cleaned up unused `global using` directives and removed deprecated methods and properties, including `Screen`, `SetCursorVisibility`, and `IsRuneSupported`.

Updated test cases in `GuiTestContext` and `DriverAssert` to use the new `ToString` implementation. Improved error messages for better debugging output. Streamlined LINQ queries and removed redundant checks for better readability and performance.

Enhanced maintainability by decluttering the codebase, aligning namespaces, and consolidating related changes.

* Changes before error encountered

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Update docfx/docs to document View.App architecture and instance-based patterns

Updated 16 documentation files to reflect the major architectural changes:

NEW FILES:
- application.md: Comprehensive deep dive on decoupled Application architecture

UPDATED FILES:
- View.md: Documents View.App property, GetApp(), and instance-based patterns
- navigation.md: Shows View.App usage instead of static Application
- drivers.md: Documents View.Driver and GetDriver() patterns
- keyboard.md: Event handling through View.App
- mouse.md: Mouse event handling via View.App
- arrangement.md: Updated code examples to use View.App
- drawing.md: Rendering examples with instance-based API
- cursor.md: Cursor management through View.App
- multitasking.md: SessionStack and session management via View.App
- Popovers.md: Popover patterns with View.App
- cancellable-work-pattern.md: Updated examples
- command.md: Command pattern with View.App context
- config.md: Configuration access through View.App
- migratingfromv1.md: Migration guide for static→instance patterns
- newinv2.md: Documents new instance-based architecture

All code examples now demonstrate the instance-based API (view.App.Current)
instead of obsolete static Application references. Documentation accurately
reflects the massive architectural decoupling achieved in this PR.

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Add `ToAnsi` support for ANSI escape sequence generation

Introduced `ToAnsi` in `IDriver` and `IOutput` interfaces to generate
ANSI escape sequences representing the terminal's current state. This
enables serialization of terminal content for debugging, testing, and
exporting.

Implemented `ToAnsi` in `DriverImpl` and `FakeOutput`, supporting both
16-color and RGB modes. Refactored `OutputBase` with helper methods
`BuildAnsiForRegion` and `AppendCellAnsi` for efficient ANSI generation.

Enhanced `GuiTestContext` with `AnsiScreenShot` for capturing terminal
state during tests. Added `ToAnsiTests` for comprehensive validation,
including edge cases, performance, and wide/Unicode character handling.

Updated documentation to reflect `ToAnsi` functionality and modernized
driver architecture. Improved testability, modularity, and performance
while removing legacy driver references.

* Improve null safety and cleanup in GuiTestContext

Enhanced null safety across `GuiTestContext` and `GuiTestContextTests`:
- Replaced `a` with `app` for better readability in tests.
- Added null checks (`!`, `?.`) to prevent potential null reference exceptions.
- Removed redundant `WaitIteration` and duplicate `ScreenShot` calls.

Improved error handling and robustness:
- Updated shutdown logic to use null-safe calls for `RequestStop` and `Shutdown`.
- Applied null-safe invocation for `_applicationImpl.Invoke`.

General cleanup:
- Removed redundant method calls and improved naming consistency.
- Ensured better maintainability and adherence to best practices.

* Refactor docs: remove deprecated files, update architecture

Removed outdated documentation files related to the terminology
proposal (`terminology-before-after.md`, `terminology-diagrams.md`,
`terminology-index.md`, `terminology-proposal-summary.md`,
`terminology-proposal.md`) from the `Docs` project. These files
were either deprecated or consolidated into other documentation.

Updated `application.md`:
- Added a "View Hierarchy and Run Stack" section with a Mermaid
  diagram to illustrate the relationship between the view hierarchy
  and the application session stack.
- Added a "Usage Example Flow" section with a sequence diagram
  to demonstrate the flow of running and stopping views.

These changes improve clarity, streamline documentation, and
align with the finalized terminology updates for the
`Application.Current` and `Application.SessionStack` APIs.

* Refactor Init/Run methods to simplify driver handling

The `Init` method in `Application` and `IApplication` now accepts only an optional `driverName` parameter, removing the `IDriver` parameter. This simplifies initialization by relying on driver names to determine the appropriate driver.

The `Run` methods have been updated to use `driverName` instead of `driver`, ensuring consistency with the updated `Init` method.

Replaced redundant inline documentation with `<inheritdoc>` tags to improve maintainability and consistency. Legacy `Application` methods (`Init`, `Shutdown`, `Run`) have been marked as `[Obsolete]` to signal their eventual deprecation.

Test cases have been refactored to align with the updated `Init` method signature, removing unused `driver` parameters. Documentation files have also been updated to reflect these API changes.

These changes improve clarity, reduce complexity, and ensure a more consistent API design.

* Refactor: Introduce Application.Create() factory method

Introduced a new static method `Application.Create()` to create
instances of `IApplication`, replacing direct instantiation of
`ApplicationImpl`. This enforces a cleaner, recommended pattern
for creating application instances.

Made the `ApplicationImpl` constructor `internal` to ensure
`Application.Create()` is used for instance creation.

Refactored test cases across multiple files to use
`Application.Create()` instead of directly instantiating
`ApplicationImpl`. Simplified object initialization in tests
using target-typed `new()` expressions.

Updated documentation and examples in `application.md` to
reflect the new instance-based architecture and highlight its
benefits, such as supporting multiple applications with
different drivers.

Improved code readability, formatting, and consistency in
tests and documentation. Aligned `ApplicationImplBeginEndTests`
to use `IApplication` directly, adhering to the new architecture.

* Added `Application.StopAll` and fixed coupling issues.

Refactored `ApplicationImpl` to use an instance-based approach, replacing the static singleton pattern and Lazy<T>. Introduced `SetInstance` for configuring the singleton instance and updated tests to use `ApplicationImpl.Instance` or explicitly set the `Driver` property.

Enabled nullable reference types across the codebase, updating fields and variables to nullable types where applicable. Added null checks to improve safety and prevent runtime errors.

Refactored timeout management by introducing tokens for `Application.AddTimeout` and adding a `StopAll` method to `TimedEvents` for cleanup. Updated tests to use `System.Threading.Timer` for independent watchdog timers.

Removed legacy code, improved logging for error cases, and updated view initialization to explicitly set `App` or `Driver` in tests. Enhanced test coverage and restructured `ScrollSliderTests` for better readability.

Performed general code cleanup, including formatting changes, removal of unused imports, and improved naming consistency.

* Refactor: Transition to IApplication interface

Refactored the codebase to replace the static `Application` class with the `IApplication` interface, improving modularity, testability, and maintainability. Updated methods like `Application.Run`, `RequestStop`, and `Init` to use the new interface.

Marked static members `SessionStack` and `Current` as `[Obsolete]` and delegated their functionality to `ApplicationImpl.Instance`. Updated XML documentation to reflect these changes.

Simplified code by removing redundant comments, unused code, and converting methods like `GetMarginThickness` to single-line expressions. Improved null safety with null-conditional operators in `ToplevelTransitionManager`.

Enhanced consistency with formatting updates, logging improvements, and better error handling. Updated `Shortcut` and other classes to align with the new interface-based design.

Made breaking changes, including the removal of the `helpText` parameter in the `Shortcut` constructor. Updated `Wizard`, `Dialog`, and `GraphView` to use `IApplication` methods. Adjusted `ViewportSettings` and `HighlightStates` for better behavior.

* Enhance null-safety and simplify codebase

Improved null-safety by adopting nullable reference types and adding null-forgiving operators (`!`) where appropriate. Replaced direct method calls with null-safe calls using the null-conditional operator (`?.`) to prevent potential `NullReferenceException`.

Removed default parameter values in test methods to enforce explicit parameter passing. Refactored test classes to remove unnecessary dependencies on `ITestOutputHelper`.

Fixed a bug in `WindowsOutput.cs` by setting `_force16Colors` to `false` to avoid reliance on a problematic driver property. Updated `SessionTokenTests` to use null-forgiving operators for clarity in intentional null usage.

Simplified graph and UI updates by ensuring safe access to properties and methods. Cleaned up namespaces and removed unused `using` directives for better readability.

Updated `Dispose` methods to use null-safe calls and replaced nullable driver initialization with non-nullable initialization in `ScrollSliderTests` to ensure proper instantiation.

* Refactor test code to use nullable `App` property

Replaced direct `Application` references with `App` property across test classes to improve encapsulation and robustness. Updated `GuiTestContext` to use a nullable `App` property, replacing `_applicationImpl` for consistency.

Refactored key event handling to use `App.Driver` and revised `InitializeApplication` and `CleanupApplication` methods to ensure safe usage of the nullable `App` property. Updated `Then` callbacks to explicitly pass `App` for clarity.

Replaced `Application.QuitKey` with `context.App?.Keyboard.RaiseKeyDownEvent` to ensure context-specific event handling. Refactored `EnableForDesign` logic in `MenuBarv2Tests` and `PopoverMenuTests` to operate on the correct application instance.

Improved null safety in test assertions and revised `RequestStop` and `Shutdown` calls to use `App?.RequestStop` and `App?.Shutdown`. Updated navigation logic to use `Terminal.Gui.App.Application` for namespace consistency.

Enhanced exception handling in the `Invoke` method and performed general cleanup to align with modern C# practices, improving maintainability and readability.

* Commented out exception handling in Application.Shutdown

The `try-catch` block around `Application.Shutdown` was commented out, disabling the logging of exceptions thrown after a test exited. This change removes the `catch` block that used `Debug.WriteLine` for logging.

The `finally` block remains intact, ensuring cleanup operations such as clearing `View.Instances` and resetting the application state are still executed.

* Fixes #4394 - Changing Theme at Runtime does not Update Some Properties

* Tweaks to config format.

---------

Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Co-authored-by: Tig <tig@users.noreply.github.com>
Co-authored-by: tig <585482+tig@users.noreply.github.com>
2025-11-19 16:23:35 -05:00

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using System.Collections;
using System.Data;
using System.Globalization;
using UnitTests;
using Xunit.Abstractions;
namespace UnitTests.ViewsTests;
public class TableViewTests (ITestOutputHelper output)
{
/// <summary>Builds a simple list with the requested number of string items</summary>
/// <param name="items"></param>
/// <returns></returns>
public static IList BuildList (int items)
{
List<string> list = new ();
for (var i = 0; i < items; i++)
{
list.Add ("Item " + i);
}
return list.ToArray ();
}
public static DataTableSource BuildTable (int cols, int rows) { return BuildTable (cols, rows, out _); }
/// <summary>Builds a simple table of string columns with the requested number of columns and rows</summary>
/// <param name="cols"></param>
/// <param name="rows"></param>
/// <returns></returns>
public static DataTableSource BuildTable (int cols, int rows, out DataTable dt)
{
dt = new ();
for (var c = 0; c < cols; c++)
{
dt.Columns.Add ("Col" + c);
}
for (var r = 0; r < rows; r++)
{
DataRow newRow = dt.NewRow ();
for (var c = 0; c < cols; c++)
{
newRow [c] = $"R{r}C{c}";
}
dt.Rows.Add (newRow);
}
return new (dt);
}
[Fact]
[AutoInitShutdown]
public void CellEventsBackgroundFill ()
{
var tv = new TableView
{
Driver = ApplicationImpl.Instance.Driver,
Width = 20, Height = 4
};
var dt = new DataTable ();
dt.Columns.Add ("C1");
dt.Columns.Add ("C2");
dt.Columns.Add ("C3");
dt.Rows.Add ("Hello", DBNull.Value, "f");
tv.Table = new DataTableSource (dt);
tv.NullSymbol = string.Empty;
//tv.Scheme = new Scheme ();
tv.Draw ();
var expected =
$@"
┌─────┬──┬─────────┐
│C1 │C2│C3 │
├─────┼──┼─────────┤
│Hello│ │f │
";
DriverAssert.AssertDriverContentsAre (expected, output);
var color = new Attribute (Color.Magenta, Color.BrightBlue);
var scheme = new Scheme
{
Normal = color,
HotFocus = color,
Focus = color,
Disabled = color,
HotNormal = color
};
// Now the thing we really want to test is the styles!
// All cells in the column have a column style that says
// the cell is pink!
for (var i = 0; i < dt.Columns.Count; i++)
{
ColumnStyle style = tv.Style.GetOrCreateColumnStyle (i);
style.ColorGetter = e => { return scheme; };
}
// Required or won't draw properly
Application.Driver.Clip = new (tv.Frame);
tv.SetNeedsDraw ();
tv.Draw ();
expected =
$@"
00000000000000000000
00000000000000000000
00000000000000000000
01111101101111111110
";
DriverAssert.AssertDriverAttributesAre (expected, output, Application.Driver, tv.GetScheme ().Normal, color);
}
[Fact]
public void DeleteRow_SelectAll_AdjustsSelectionToPreventOverrun ()
{
// create a 4 by 4 table
var tableView = new TableView
{
Table = BuildTable (4, 4, out DataTable dt), MultiSelect = true, Viewport = new (0, 0, 10, 5)
};
tableView.BeginInit ();
tableView.EndInit ();
tableView.SelectAll ();
Assert.Equal (16, tableView.GetAllSelectedCells ().Count ());
// delete one of the columns
dt.Columns.RemoveAt (2);
// table should now be 3x4
Assert.Equal (12, tableView.GetAllSelectedCells ().Count ());
// remove a row
dt.Rows.RemoveAt (1);
// table should now be 3x3
Assert.Equal (9, tableView.GetAllSelectedCells ().Count ());
}
[Fact]
public void DeleteRow_SelectLastRow_AdjustsSelectionToPreventOverrun ()
{
// create a 4 by 4 table
var tableView = new TableView
{
Table = BuildTable (4, 4, out DataTable dt), MultiSelect = true, Viewport = new (0, 0, 10, 5)
};
tableView.BeginInit ();
tableView.EndInit ();
tableView.ChangeSelectionToEndOfTable (false);
// select the last row
tableView.MultiSelectedRegions.Clear ();
tableView.MultiSelectedRegions.Push (new (new (0, 3), new (0, 3, 4, 1)));
Assert.Equal (4, tableView.GetAllSelectedCells ().Count ());
// remove a row
dt.Rows.RemoveAt (0);
tableView.EnsureValidSelection ();
// since the selection no longer exists it should be removed
Assert.Empty (tableView.MultiSelectedRegions);
}
[Fact]
public void EnsureValidScrollOffsets_LoadSmallerTable ()
{
var tableView = new TableView ();
tableView.BeginInit ();
tableView.EndInit ();
tableView.Viewport = new (0, 0, 25, 10);
Assert.Equal (0, tableView.RowOffset);
Assert.Equal (0, tableView.ColumnOffset);
// Set big table
tableView.Table = BuildTable (25, 50);
// Scroll down and along
tableView.RowOffset = 20;
tableView.ColumnOffset = 10;
tableView.EnsureValidScrollOffsets ();
// The scroll should be valid at the moment
Assert.Equal (20, tableView.RowOffset);
Assert.Equal (10, tableView.ColumnOffset);
// Set small table
tableView.Table = BuildTable (2, 2);
// Setting a small table should automatically trigger fixing the scroll offsets to ensure valid cells
Assert.Equal (0, tableView.RowOffset);
Assert.Equal (0, tableView.ColumnOffset);
// Trying to set invalid indexes should not be possible
tableView.RowOffset = 20;
tableView.ColumnOffset = 10;
Assert.Equal (1, tableView.RowOffset);
Assert.Equal (1, tableView.ColumnOffset);
}
[Fact]
public void EnsureValidScrollOffsets_WithNoCells ()
{
var tableView = new TableView ();
Assert.Equal (0, tableView.RowOffset);
Assert.Equal (0, tableView.ColumnOffset);
// Set empty table
tableView.Table = new DataTableSource (new ());
// Since table has no rows or columns scroll offset should default to 0
tableView.EnsureValidScrollOffsets ();
Assert.Equal (0, tableView.RowOffset);
Assert.Equal (0, tableView.ColumnOffset);
}
[Theory]
[InlineData (true)]
[InlineData (false)]
public void GetAllSelectedCells_SingleCellSelected_ReturnsOne (bool multiSelect)
{
var tableView = new TableView
{
Table = BuildTable (3, 3), MultiSelect = multiSelect, Viewport = new (0, 0, 10, 5)
};
tableView.BeginInit ();
tableView.EndInit ();
tableView.SetSelection (1, 1, false);
Assert.Single (tableView.GetAllSelectedCells ());
Assert.Equal (new (1, 1), tableView.GetAllSelectedCells ().Single ());
}
[Fact]
public void GetAllSelectedCells_SquareSelection_FullRowSelect ()
{
var tableView = new TableView
{
Table = BuildTable (3, 3), MultiSelect = true, FullRowSelect = true, Viewport = new (0, 0, 10, 5)
};
tableView.BeginInit ();
tableView.EndInit ();
// move cursor to 1,1
tableView.SetSelection (1, 1, false);
// spread selection across to 2,2 (e.g. shift+right then shift+down)
tableView.SetSelection (2, 2, true);
Point [] selected = tableView.GetAllSelectedCells ().ToArray ();
Assert.Equal (6, selected.Length);
Assert.Equal (new (0, 1), selected [0]);
Assert.Equal (new (1, 1), selected [1]);
Assert.Equal (new (2, 1), selected [2]);
Assert.Equal (new (0, 2), selected [3]);
Assert.Equal (new (1, 2), selected [4]);
Assert.Equal (new (2, 2), selected [5]);
}
[Fact]
public void GetAllSelectedCells_SquareSelection_ReturnsFour ()
{
var tableView = new TableView
{
Table = BuildTable (3, 3), MultiSelect = true, Viewport = new (0, 0, 10, 5)
};
tableView.BeginInit ();
tableView.EndInit ();
// move cursor to 1,1
tableView.SetSelection (1, 1, false);
// spread selection across to 2,2 (e.g. shift+right then shift+down)
tableView.SetSelection (2, 2, true);
Point [] selected = tableView.GetAllSelectedCells ().ToArray ();
Assert.Equal (4, selected.Length);
Assert.Equal (new (1, 1), selected [0]);
Assert.Equal (new (2, 1), selected [1]);
Assert.Equal (new (1, 2), selected [2]);
Assert.Equal (new (2, 2), selected [3]);
}
[Fact]
public void GetAllSelectedCells_TwoIsolatedSelections_ReturnsSix ()
{
var tableView = new TableView
{
Table = BuildTable (20, 20), MultiSelect = true, Viewport = new (0, 0, 10, 5)
};
tableView.BeginInit ();
tableView.EndInit ();
/*
Sets up disconnected selections like:
00000000000
01100000000
01100000000
00000001100
00000000000
*/
tableView.MultiSelectedRegions.Clear ();
tableView.MultiSelectedRegions.Push (new (new (1, 1), new (1, 1, 2, 2)));
tableView.MultiSelectedRegions.Push (new (new (7, 3), new (7, 3, 2, 1)));
tableView.SelectedColumn = 8;
tableView.SelectedRow = 3;
Point [] selected = tableView.GetAllSelectedCells ().ToArray ();
Assert.Equal (6, selected.Length);
Assert.Equal (new (1, 1), selected [0]);
Assert.Equal (new (2, 1), selected [1]);
Assert.Equal (new (1, 2), selected [2]);
Assert.Equal (new (2, 2), selected [3]);
Assert.Equal (new (7, 3), selected [4]);
Assert.Equal (new (8, 3), selected [5]);
}
[Fact]
public void IsSelected_MultiSelectionOn_BoxSelection ()
{
var tableView = new TableView { Table = BuildTable (25, 50), MultiSelect = true };
// 4 cell horizontal in box 2x2
tableView.SetSelection (0, 0, false);
tableView.SetSelection (1, 1, true);
Assert.True (tableView.IsSelected (0, 0));
Assert.True (tableView.IsSelected (1, 0));
Assert.False (tableView.IsSelected (2, 0));
Assert.True (tableView.IsSelected (0, 1));
Assert.True (tableView.IsSelected (1, 1));
Assert.False (tableView.IsSelected (2, 1));
Assert.False (tableView.IsSelected (0, 2));
Assert.False (tableView.IsSelected (1, 2));
Assert.False (tableView.IsSelected (2, 2));
}
[Fact]
public void IsSelected_MultiSelectionOn_Horizontal ()
{
var tableView = new TableView { Table = BuildTable (25, 50), MultiSelect = true };
// 2 cell horizontal selection
tableView.SetSelection (1, 0, false);
tableView.SetSelection (2, 0, true);
Assert.False (tableView.IsSelected (0, 0));
Assert.True (tableView.IsSelected (1, 0));
Assert.True (tableView.IsSelected (2, 0));
Assert.False (tableView.IsSelected (3, 0));
Assert.False (tableView.IsSelected (0, 1));
Assert.False (tableView.IsSelected (1, 1));
Assert.False (tableView.IsSelected (2, 1));
Assert.False (tableView.IsSelected (3, 1));
}
[Fact]
public void IsSelected_MultiSelectionOn_Vertical ()
{
var tableView = new TableView { Table = BuildTable (25, 50), MultiSelect = true };
// 3 cell vertical selection
tableView.SetSelection (1, 1, false);
tableView.SetSelection (1, 3, true);
Assert.False (tableView.IsSelected (0, 0));
Assert.False (tableView.IsSelected (1, 0));
Assert.False (tableView.IsSelected (2, 0));
Assert.False (tableView.IsSelected (0, 1));
Assert.True (tableView.IsSelected (1, 1));
Assert.False (tableView.IsSelected (2, 1));
Assert.False (tableView.IsSelected (0, 2));
Assert.True (tableView.IsSelected (1, 2));
Assert.False (tableView.IsSelected (2, 2));
Assert.False (tableView.IsSelected (0, 3));
Assert.True (tableView.IsSelected (1, 3));
Assert.False (tableView.IsSelected (2, 3));
Assert.False (tableView.IsSelected (0, 4));
Assert.False (tableView.IsSelected (1, 4));
Assert.False (tableView.IsSelected (2, 4));
}
[Fact]
[AutoInitShutdown]
public void LongColumnTest ()
{
var tableView = new TableView ();
var top = new Toplevel ();
top.Add (tableView);
SessionToken rs = Application.Begin (top);
tableView.SchemeName = "TopLevel";
// 25 characters can be printed into table
tableView.Viewport = new (0, 0, 25, 5);
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = true;
var dt = new DataTable ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Columns.Add ("Very Long Column");
dt.Rows.Add (1, 2, new string ('a', 500));
dt.Rows.Add (1, 2, "aaa");
tableView.Table = new DataTableSource (dt);
tableView.LayoutSubViews ();
tableView.Draw ();
// default behaviour of TableView is not to render
// columns unless there is sufficient space
var expected =
$@"
│A│B │
├─┼─────────────────────►
│1│2 │
│1│2 │
";
DriverAssert.AssertDriverContentsAre (expected, output);
// get a style for the long column
ColumnStyle style = tableView.Style.GetOrCreateColumnStyle (2);
// one way the API user can fix this for long columns
// is to specify a MinAcceptableWidth for the column
style.MaxWidth = 10;
AutoInitShutdownAttribute.RunIteration ();
expected =
$@"
│A│B│Very Long Column │
├─┼─┼───────────────────┤
│1│2│aaaaaaaaaaaaaaaaaaa│
│1│2│aaa │
";
DriverAssert.AssertDriverContentsAre (expected, output);
// revert the style change
style.MaxWidth = TableView.DefaultMaxCellWidth;
// another way API user can fix problem is to implement
// RepresentationGetter and apply max length there
style.RepresentationGetter = s => { return s.ToString ().Length < 15 ? s.ToString () : s.ToString ().Substring (0, 13) + "..."; };
tableView.SetNeedsDraw ();
AutoInitShutdownAttribute.RunIteration ();
expected =
$@"
│A│B│Very Long Column │
├─┼─┼───────────────────┤
│1│2│aaaaaaaaaaaaa... │
│1│2│aaa │
";
DriverAssert.AssertDriverContentsAre (expected, output);
// revert style change
style.RepresentationGetter = null;
// Both of the above methods rely on having a fixed
// size limit for the column. These are awkward if a
// table is resizeable e.g. Dim.Fill(). Ideally we want
// to render in any space available and truncate the content
// of the column dynamically so it fills the free space at
// the end of the table.
// We can now specify that the column can be any length
// (Up to MaxWidth) but the renderer can accept using
// less space down to this limit
style.MinAcceptableWidth = 5;
tableView.SetNeedsDraw ();
AutoInitShutdownAttribute.RunIteration ();
expected =
$@"
│A│B│Very Long Column │
├─┼─┼───────────────────┤
│1│2│aaaaaaaaaaaaaaaaaaa│
│1│2│aaa │
";
DriverAssert.AssertDriverContentsAre (expected, output);
// Now test making the width too small for the MinAcceptableWidth
// the Column won't fit so should not be rendered
var driver = Application.Driver;
driver.ClearContents ();
tableView.Viewport = new (0, 0, 9, 5);
AutoInitShutdownAttribute.RunIteration ();
expected =
$@"
│A│B │
├─┼─────►
│1│2 │
│1│2 │
";
DriverAssert.AssertDriverContentsAre (expected, output);
// setting width to 10 leaves just enough space for the column to
// meet MinAcceptableWidth of 5. Column width includes terminator line
// symbol (e.g. ┤ or │)
tableView.Viewport = new (0, 0, 10, 5);
AutoInitShutdownAttribute.RunIteration ();
expected =
$@"
│A│B│Very│
├─┼─┼────┤
│1│2│aaaa│
│1│2│aaa │
";
DriverAssert.AssertDriverContentsAre (expected, output);
tableView.Viewport = new (0, 0, 25, 5);
// revert style change
style.MinAcceptableWidth = TableView.DefaultMinAcceptableWidth;
// Now let's test the global MaxCellWidth and MinCellWidth
tableView.Style.ExpandLastColumn = false;
tableView.MaxCellWidth = 10;
tableView.MinCellWidth = 3;
AutoInitShutdownAttribute.RunIteration ();
expected =
$@"
│A │B │Very Long │ │
├───┼───┼──────────┼────┤
│1 │2 │aaaaaaaaaa│ │
│1 │2 │aaa │ │
";
DriverAssert.AssertDriverContentsAre (expected, output);
// MaxCellWidth limits MinCellWidth
tableView.MaxCellWidth = 5;
tableView.MinCellWidth = 10;
tableView.SetNeedsDraw ();
AutoInitShutdownAttribute.RunIteration ();
expected =
$@"
│A │B │Very │ │
├─────┼─────┼─────┼─────┤
│1 │2 │aaaaa│ │
│1 │2 │aaa │ │
";
DriverAssert.AssertDriverContentsAre (expected, output);
top.Dispose ();
Application.Shutdown ();
top.Dispose ();
}
[AutoInitShutdown]
[Fact]
public void PageDown_ExcludesHeaders ()
{
var tableView = new TableView
{
Table = BuildTable (25, 50), MultiSelect = true, Viewport = new (0, 0, 10, 5)
};
// Header should take up 2 lines
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.Style.AlwaysShowHeaders = false;
// ensure that TableView has the input focus
var top = new Toplevel ();
top.Add (tableView);
Application.Begin (top);
top.FocusDeepest (NavigationDirection.Forward, null);
Assert.True (tableView.HasFocus);
Assert.Equal (0, tableView.RowOffset);
tableView.NewKeyDownEvent (Key.PageDown);
// window height is 5 rows 2 are header so page down should give 3 new rows
Assert.Equal (3, tableView.SelectedRow);
Assert.Equal (1, tableView.RowOffset);
// header is no longer visible so page down should give 5 new rows
tableView.NewKeyDownEvent (Key.PageDown);
Assert.Equal (8, tableView.SelectedRow);
Assert.Equal (4, tableView.RowOffset);
top.Dispose ();
}
[Fact]
[SetupFakeApplication]
public void Redraw_EmptyTable ()
{
var tableView = new TableView ();
//tableView.Scheme = new ();
tableView.Viewport = new (0, 0, 25, 10);
// Set a table with 1 column
tableView.Table = BuildTable (1, 50, out DataTable dt);
tableView.Draw ();
dt.Columns.Remove (dt.Columns [0]);
tableView.Draw ();
}
[Fact]
public void ScrollDown_OneLineAtATime ()
{
var tableView = new TableView ();
tableView.BeginInit ();
tableView.EndInit ();
// Set big table
tableView.Table = BuildTable (25, 50);
// 1 header + 4 rows visible
tableView.Viewport = new (0, 0, 25, 5);
tableView.Style.ShowHorizontalHeaderUnderline = false;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
// select last row
tableView.SelectedRow = 3; // row is 0 indexed so this is the 4th visible row
// Scroll down
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorDown });
// Scrolled off the page by 1 row so it should only have moved down 1 line of RowOffset
Assert.Equal (4, tableView.SelectedRow);
Assert.Equal (1, tableView.RowOffset);
}
[Fact]
[SetupFakeApplication]
public void ScrollIndicators ()
{
var tableView = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tableView.BeginInit ();
tableView.EndInit ();
tableView.SchemeName = "TopLevel";
// 3 columns are visibile
tableView.Viewport = new (0, 0, 7, 5);
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = true;
var dt = new DataTable ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Columns.Add ("C");
dt.Columns.Add ("D");
dt.Columns.Add ("E");
dt.Columns.Add ("F");
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.Table = new DataTableSource (dt);
// select last visible column
tableView.SelectedColumn = 2; // column C
tableView.Draw ();
// user can only scroll right so sees right indicator
// Because first column in table is A
var expected =
$@"
│A│B│C│
├─┼─┼─►
│1│2│3│";
DriverAssert.AssertDriverContentsAre (expected, output);
// Scroll right
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
// since A is now pushed off screen we get indicator showing
// that user can scroll left to see first column
tableView.SetClipToScreen ();
tableView.Draw ();
expected =
$@"
│B│C│D│
◄─┼─┼─►
│2│3│4│";
DriverAssert.AssertDriverContentsAre (expected, output);
// Scroll right twice more (to end of columns)
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
tableView.SetClipToScreen ();
tableView.Draw ();
expected =
$@"
│D│E│F│
◄─┼─┼─┤
│4│5│6│";
DriverAssert.AssertDriverContentsAre (expected, output);
// Shutdown must be called to safely clean up Application if Init has been called
Application.Shutdown ();
}
[Fact]
[SetupFakeApplication]
public void ScrollRight_SmoothScrolling ()
{
var tableView = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tableView.BeginInit ();
tableView.EndInit ();
tableView.SchemeName = "TopLevel";
tableView.LayoutSubViews ();
// 3 columns are visibile
tableView.Viewport = new (0, 0, 7, 5);
tableView.Style.ShowHorizontalHeaderUnderline = false;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = true;
var dt = new DataTable ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Columns.Add ("C");
dt.Columns.Add ("D");
dt.Columns.Add ("E");
dt.Columns.Add ("F");
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.Table = new DataTableSource (dt);
// select last visible column
tableView.SelectedColumn = 2; // column C
tableView.Draw ();
var expected =
$@"
│A│B│C│
│1│2│3│";
DriverAssert.AssertDriverContentsAre (expected, output);
// Scroll right
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
tableView.SetClipToScreen ();
tableView.Draw ();
// Note that with SmoothHorizontalScrolling only a single new column
// is exposed when scrolling right. This is not always the case though
// sometimes if the leftmost column is long (i.e. A is a long column)
// then when A is pushed off the screen multiple new columns could be exposed
// (not just D but also E and F). This is because TableView never shows
// 'half cells' or scrolls by console unit (scrolling is done by table row/column increments).
expected =
$@"
│B│C│D│
│2│3│4│";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void ScrollRight_WithoutSmoothScrolling ()
{
var tableView = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tableView.BeginInit ();
tableView.EndInit ();
tableView.SchemeName = "TopLevel";
// 3 columns are visibile
tableView.Viewport = new (0, 0, 7, 5);
tableView.Style.ShowHorizontalHeaderUnderline = false;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = false;
var dt = new DataTable ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Columns.Add ("C");
dt.Columns.Add ("D");
dt.Columns.Add ("E");
dt.Columns.Add ("F");
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.Table = new DataTableSource (dt);
// select last visible column
tableView.SelectedColumn = 2; // column C
tableView.SetClipToScreen ();
tableView.Draw ();
var expected =
$@"
│A│B│C│
│1│2│3│";
DriverAssert.AssertDriverContentsAre (expected, output);
// Scroll right
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
tableView.SetClipToScreen ();
tableView.Draw ();
// notice that without smooth scrolling we just update the first column
// rendered in the table to the newly exposed column (D). This is fast
// since we don't have to worry about repeatedly measuring the content
// area as we scroll until the new column (D) is exposed. But it makes
// the view 'jump' to expose all new columns
expected =
$@"
│D│E│F│
│4│5│6│";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
public void SelectedCellChanged_NotFiredForSameValue ()
{
var tableView = new TableView { Table = BuildTable (25, 50) };
var called = false;
tableView.SelectedCellChanged += (s, e) => { called = true; };
Assert.Equal (0, tableView.SelectedColumn);
Assert.False (called);
// Changing value to same as it already was should not raise an event
tableView.SelectedColumn = 0;
Assert.False (called);
tableView.SelectedColumn = 10;
Assert.True (called);
}
[Fact]
public void SelectedCellChanged_SelectedColumnIndexesCorrect ()
{
var tableView = new TableView { Table = BuildTable (25, 50) };
var called = false;
tableView.SelectedCellChanged += (s, e) =>
{
called = true;
Assert.Equal (0, e.OldCol);
Assert.Equal (10, e.NewCol);
};
tableView.SelectedColumn = 10;
Assert.True (called);
}
[Fact]
public void SelectedCellChanged_SelectedRowIndexesCorrect ()
{
var tableView = new TableView { Table = BuildTable (25, 50) };
var called = false;
tableView.SelectedCellChanged += (s, e) =>
{
called = true;
Assert.Equal (0, e.OldRow);
Assert.Equal (10, e.NewRow);
};
tableView.SelectedRow = 10;
Assert.True (called);
}
[Fact]
[SetupFakeApplication]
public void ShowHorizontalBottomLine_NoCellLines ()
{
TableView tableView = GetABCDEFTableView (out _);
tableView.SchemeName = "TopLevel";
// 3 columns are visibile
tableView.Viewport = new (0, 0, 7, 5);
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = true;
tableView.Style.ShowHorizontalBottomline = true;
tableView.Style.ShowVerticalCellLines = false;
tableView.Draw ();
// user can only scroll right so sees right indicator
// Because first column in table is A
var expected =
$@"
│A│B│C│
└─┴─┴─►
1 2 3
───────";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void ShowHorizontalBottomLine_WithVerticalCellLines ()
{
TableView tableView = GetABCDEFTableView (out _);
tableView.SchemeName = "TopLevel";
// 3 columns are visibile
tableView.Viewport = new (0, 0, 7, 5);
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = true;
tableView.Style.ShowHorizontalBottomline = true;
tableView.Draw ();
// user can only scroll right so sees right indicator
// Because first column in table is A
var expected =
$@"
│A│B│C│
├─┼─┼─►
│1│2│3│
└─┴─┴─┘";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[AutoInitShutdown]
public void TableView_Activate ()
{
string activatedValue = null;
var tv = new TableView (BuildTable (1, 1));
tv.CellActivated += (s, c) => activatedValue = c.Table [c.Row, c.Col].ToString ();
var top = new Toplevel ();
top.Add (tv);
Application.Begin (top);
// pressing enter should activate the first cell (selected cell)
tv.NewKeyDownEvent (Key.Enter);
Assert.Equal ("R0C0", activatedValue);
// reset the test
activatedValue = null;
// clear keybindings and ensure that Enter does not trigger the event anymore
tv.KeyBindings.Clear ();
tv.NewKeyDownEvent (Key.Enter);
Assert.Null (activatedValue);
// New method for changing the activation key
tv.KeyBindings.Add (Key.Z, Command.Accept);
tv.NewKeyDownEvent (Key.Z);
Assert.Equal ("R0C0", activatedValue);
// reset the test
activatedValue = null;
tv.KeyBindings.Clear ();
// Old method for changing the activation key
tv.CellActivationKey = KeyCode.Z;
tv.NewKeyDownEvent (Key.Z);
Assert.Equal ("R0C0", activatedValue);
top.Dispose ();
}
[Theory]
[AutoInitShutdown]
[InlineData (false)]
[InlineData (true)]
public void TableView_ColorsTest_ColorGetter (bool focused)
{
TableView tv = SetUpMiniTable (out DataTable dt);
tv.LayoutSubViews ();
// width exactly matches the max col widths
tv.Viewport = new (0, 0, 5, 4);
// Create a style for column B
ColumnStyle bStyle = tv.Style.GetOrCreateColumnStyle (1);
// when B is 2 use the custom highlight color
var cellHighlight = new Scheme
{
Normal = new (Color.BrightCyan, Color.DarkGray),
HotNormal = new (Color.Green, Color.Blue),
Focus = new (Color.Cyan, Color.Magenta),
// Not used by TableView
HotFocus = new (Color.BrightYellow, Color.White)
};
bStyle.ColorGetter = a => Convert.ToInt32 (a.CellValue) == 2 ? cellHighlight : null;
var top = new Toplevel ();
top.Add (tv);
SessionToken rs = Application.Begin (top);
tv.HasFocus = focused;
Assert.Equal (focused, tv.HasFocus);
AutoInitShutdownAttribute.RunIteration ();
var expected = $@"
┌─┬─┐
│A│B│
├─┼─┤
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
var expectedColors = $@"
00000
00000
00000
01020
";
DriverAssert.AssertDriverAttributesAre (
expectedColors,
output,
Application.Driver,
tv.GetScheme ().Normal,
focused ? tv.GetAttributeForRole (VisualRole.Focus) : tv.GetAttributeForRole (VisualRole.HotNormal),
cellHighlight.Normal
);
// change the value in the table so that
// it no longer matches the ColorGetter
// delegate conditional ( which checks for
// the value 2)
dt.Rows [0] [1] = 5;
tv.SetNeedsDraw ();
AutoInitShutdownAttribute.RunIteration ();
expected = $@"
┌─┬─┐
│A│B│
├─┼─┤
│1│5│
";
DriverAssert.AssertDriverContentsAre (expected, output);
expectedColors = $@"
00000
00000
00000
01000
";
// now we only see 2 colors used (the selected cell color and Normal
// cellHighlight should no longer be used because the delegate returned null
// (now that the cell value is 5 - which does not match the conditional)
DriverAssert.AssertDriverAttributesAre (
expectedColors,
output,
Application.Driver,
tv.GetScheme ().Normal,
focused ? tv.GetAttributeForRole (VisualRole.Focus) : tv.GetAttributeForRole (VisualRole.HotNormal)
);
top.Dispose ();
}
[Theory]
[AutoInitShutdown]
[InlineData (false)]
[InlineData (true)]
public void TableView_ColorsTest_RowColorGetter (bool focused)
{
TableView tv = SetUpMiniTable (out DataTable dt);
tv.LayoutSubViews ();
// width exactly matches the max col widths
tv.Viewport = new (0, 0, 5, 4);
var rowHighlight = new Scheme
{
Normal = new (Color.BrightCyan, Color.DarkGray),
HotNormal = new (Color.Green, Color.Blue),
Focus = new (Color.BrightYellow, Color.White),
// Not used by TableView
HotFocus = new (Color.Cyan, Color.Magenta)
};
// when B is 2 use the custom highlight color for the row
tv.Style.RowColorGetter += e => Convert.ToInt32 (e.Table [e.RowIndex, 1]) == 2 ? rowHighlight : null;
var top = new Toplevel ();
top.Add (tv);
SessionToken rs = Application.Begin (top);
tv.HasFocus = focused;
Assert.Equal (focused, tv.HasFocus);
tv.Draw ();
var expected = $@"
┌─┬─┐
│A│B│
├─┼─┤
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
var expectedColors = $@"
00000
00000
00000
21222
";
DriverAssert.AssertDriverAttributesAre (
expectedColors,
output,
Application.Driver,
tv.GetScheme ().Normal,
focused ? rowHighlight.Focus : rowHighlight.HotNormal,
rowHighlight.Normal
);
// change the value in the table so that
// it no longer matches the RowColorGetter
// delegate conditional ( which checks for
// the value 2)
dt.Rows [0] [1] = 5;
tv.SetNeedsDraw ();
AutoInitShutdownAttribute.RunIteration ();
expected = $@"
┌─┬─┐
│A│B│
├─┼─┤
│1│5│
";
DriverAssert.AssertDriverContentsAre (expected, output);
expectedColors = $@"
00000
00000
00000
01000
";
// now we only see 2 colors used (the selected cell color and Normal
// rowHighlight should no longer be used because the delegate returned null
// (now that the cell value is 5 - which does not match the conditional)
DriverAssert.AssertDriverAttributesAre (
expectedColors,
output,
Application.Driver,
tv.GetScheme ().Normal,
focused ? tv.GetScheme ().Focus : tv.GetScheme ().HotNormal
);
top.Dispose ();
}
[Theory]
[AutoInitShutdown]
[InlineData (false)]
[InlineData (true)]
public void TableView_ColorTests_FocusedOrNot (bool focused)
{
TableView tv = SetUpMiniTable ();
tv.LayoutSubViews ();
// width exactly matches the max col widths
tv.Viewport = new (0, 0, 5, 4);
var top = new Toplevel ();
top.Add (tv);
Application.Begin (top);
tv.HasFocus = focused;
Assert.Equal (focused, tv.HasFocus);
tv.Draw ();
var expected = $@"
┌─┬─┐
│A│B│
├─┼─┤
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
var expectedColors = $@"
00000
00000
00000
01000
";
DriverAssert.AssertDriverAttributesAre (
expectedColors,
output,
Application.Driver,
tv.GetScheme ().Normal,
focused ? tv.GetScheme ().Focus : tv.GetScheme ().HotNormal
);
top.Dispose ();
}
[Theory]
[SetupFakeApplication]
[InlineData (false)]
[InlineData (true)]
public void TableView_ColorTests_InvertSelectedCellFirstCharacter (bool focused)
{
TableView tv = SetUpMiniTable ();
tv.Style.InvertSelectedCellFirstCharacter = true;
tv.LayoutSubViews ();
// width exactly matches the max col widths
tv.Viewport = new (0, 0, 5, 4);
tv.HasFocus = focused;
Assert.Equal (focused, tv.HasFocus);
tv.Draw ();
var expected = $@"
┌─┬─┐
│A│B│
├─┼─┤
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
var expectedColors = $@"
00000
00000
00000
01000
";
var invertFocus = new Attribute (tv.GetScheme ().Focus.Background, tv.GetScheme ().Focus.Foreground, TextStyle.Reverse);
var invertHotNormal = new Attribute (tv.GetScheme ().HotNormal.Background, tv.GetScheme ().HotNormal.Foreground, TextStyle.Reverse);
DriverAssert.AssertDriverAttributesAre (
expectedColors,
output,
Application.Driver,
tv.GetScheme ().Normal,
focused ? invertFocus : invertHotNormal
);
}
[Fact]
[SetupFakeApplication]
public void TableView_ExpandLastColumn_False ()
{
TableView tv = SetUpMiniTable ();
// the thing we are testing
tv.Style.ExpandLastColumn = false;
tv.Draw ();
var expected = $@"
┌─┬─┬────┐
│A│B│ │
├─┼─┼────┤
│1│2│ │
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TableView_ExpandLastColumn_False_ExactBounds ()
{
TableView tv = SetUpMiniTable ();
// the thing we are testing
tv.Style.ExpandLastColumn = false;
// width exactly matches the max col widths
tv.Viewport = new (0, 0, 5, 4);
tv.Draw ();
var expected = $@"
┌─┬─┐
│A│B│
├─┼─┤
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TableView_ExpandLastColumn_True ()
{
TableView tv = SetUpMiniTable ();
// the thing we are testing
tv.Style.ExpandLastColumn = true;
tv.Draw ();
var expected = $@"
┌─┬──────┐
│A│B │
├─┼──────┤
│1│2 │
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TableView_ShowHeadersFalse_AllLines ()
{
TableView tv = GetABCDEFTableView (out _);
tv.Viewport = new (0, 0, 5, 5);
tv.Style.ShowHeaders = false;
tv.Style.ShowHorizontalHeaderOverline = true;
tv.Style.ShowHorizontalHeaderUnderline = true;
// Horizontal scrolling option is part of the underline
tv.Style.ShowHorizontalScrollIndicators = true;
tv.Draw ();
var expected = $@"
┌─┬─┐
├─┼─►
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TableView_ShowHeadersFalse_AndNoHeaderLines ()
{
TableView tv = GetABCDEFTableView (out _);
tv.Viewport = new (0, 0, 5, 5);
tv.Style.ShowHeaders = false;
tv.Style.ShowHorizontalHeaderOverline = false;
tv.Style.ShowHorizontalHeaderUnderline = false;
tv.Draw ();
var expected = $@"
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TableView_ShowHeadersFalse_OverlineTrue ()
{
TableView tv = GetABCDEFTableView (out _);
tv.Viewport = new (0, 0, 5, 5);
tv.Style.ShowHeaders = false;
tv.Style.ShowHorizontalHeaderOverline = true;
tv.Style.ShowHorizontalHeaderUnderline = false;
tv.Draw ();
var expected = $@"
┌─┬─┐
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TableView_ShowHeadersFalse_UnderlineTrue ()
{
TableView tv = GetABCDEFTableView (out _);
tv.Viewport = new (0, 0, 5, 5);
tv.Style.ShowHeaders = false;
tv.Style.ShowHorizontalHeaderOverline = false;
tv.Style.ShowHorizontalHeaderUnderline = true;
// Horizontal scrolling option is part of the underline
tv.Style.ShowHorizontalScrollIndicators = true;
tv.Draw ();
var expected = $@"
├─┼─►
│1│2│
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TableViewMultiSelect_CannotFallOffBottom ()
{
TableView tv = SetUpMiniTable (out DataTable dt);
dt.Rows.Add (1, 2); // add another row (brings us to 2 rows)
tv.MultiSelect = true;
tv.SelectedColumn = 0;
tv.SelectedRow = 0;
tv.NewKeyDownEvent (Key.CursorRight.WithShift);
tv.NewKeyDownEvent (Key.CursorDown.WithShift);
Assert.Equal (new (0, 0, 2, 2), tv.MultiSelectedRegions.Single ().Rectangle);
// this next moves should be ignored because we already selected the whole table
tv.NewKeyDownEvent (Key.CursorRight.WithShift);
tv.NewKeyDownEvent (Key.CursorDown.WithShift);
Assert.Equal (new (0, 0, 2, 2), tv.MultiSelectedRegions.Single ().Rectangle);
Assert.Equal (1, tv.SelectedColumn);
Assert.Equal (1, tv.SelectedRow);
}
[Fact]
[SetupFakeApplication]
public void TableViewMultiSelect_CannotFallOffLeft ()
{
TableView tv = SetUpMiniTable (out DataTable dt);
dt.Rows.Add (1, 2); // add another row (brings us to 2 rows)
tv.MultiSelect = true;
tv.SelectedColumn = 1;
tv.SelectedRow = 1;
tv.NewKeyDownEvent (Key.CursorLeft.WithShift);
Assert.Equal (new (0, 1, 2, 1), tv.MultiSelectedRegions.Single ().Rectangle);
// this next shift left should be ignored because we are already at the bounds
tv.NewKeyDownEvent (Key.CursorLeft.WithShift);
Assert.Equal (new (0, 1, 2, 1), tv.MultiSelectedRegions.Single ().Rectangle);
Assert.Equal (0, tv.SelectedColumn);
Assert.Equal (1, tv.SelectedRow);
}
[Fact]
[SetupFakeApplication]
public void TableViewMultiSelect_CannotFallOffRight ()
{
TableView tv = SetUpMiniTable (out DataTable dt);
dt.Rows.Add (1, 2); // add another row (brings us to 2 rows)
tv.MultiSelect = true;
tv.SelectedColumn = 0;
tv.SelectedRow = 1;
tv.NewKeyDownEvent (Key.CursorRight.WithShift);
Assert.Equal (new (0, 1, 2, 1), tv.MultiSelectedRegions.Single ().Rectangle);
// this next shift right should be ignored because we are already at the right bounds
tv.NewKeyDownEvent (Key.CursorRight.WithShift);
Assert.Equal (new (0, 1, 2, 1), tv.MultiSelectedRegions.Single ().Rectangle);
Assert.Equal (1, tv.SelectedColumn);
Assert.Equal (1, tv.SelectedRow);
}
[Fact]
[SetupFakeApplication]
public void TableViewMultiSelect_CannotFallOffTop ()
{
TableView tv = SetUpMiniTable (out DataTable dt);
dt.Rows.Add (1, 2); // add another row (brings us to 2 rows)
tv.LayoutSubViews ();
tv.MultiSelect = true;
tv.SelectedColumn = 1;
tv.SelectedRow = 1;
tv.NewKeyDownEvent (Key.CursorLeft.WithShift);
tv.NewKeyDownEvent (Key.CursorUp.WithShift);
Assert.Equal (new (0, 0, 2, 2), tv.MultiSelectedRegions.Single ().Rectangle);
// this next moves should be ignored because we already selected the whole table
tv.NewKeyDownEvent (Key.CursorLeft.WithShift);
tv.NewKeyDownEvent (Key.CursorUp.WithShift);
Assert.Equal (new (0, 0, 2, 2), tv.MultiSelectedRegions.Single ().Rectangle);
Assert.Equal (0, tv.SelectedColumn);
Assert.Equal (0, tv.SelectedRow);
}
[Fact]
[AutoInitShutdown]
public void Test_CollectionNavigator ()
{
var tv = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tv.SchemeName = "TopLevel";
tv.Viewport = new (0, 0, 50, 7);
tv.Table = new EnumerableTableSource<string> (
new [] { "fish", "troll", "trap", "zoo" },
new () { { "Name", t => t }, { "EndsWith", t => t.Last () } }
);
tv.LayoutSubViews ();
tv.Draw ();
var expected =
$@"
┌─────┬──────────────────────────────────────────┐
│Name │EndsWith │
├─────┼──────────────────────────────────────────┤
│fish │h │
│troll│l │
│trap │p │
│zoo │o │";
DriverAssert.AssertDriverContentsAre (expected, output);
Assert.Equal (0, tv.SelectedRow);
// this test assumes no focus
Assert.False (tv.HasFocus);
// already on fish
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.F });
Assert.Equal (0, tv.SelectedRow);
// not focused
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.Z });
Assert.Equal (0, tv.SelectedRow);
// ensure that TableView has the input focus
var top = new Toplevel ();
top.Add (tv);
Application.Begin (top);
top.FocusDeepest (NavigationDirection.Forward, null);
Assert.True (tv.HasFocus);
// already on fish
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.F });
Assert.Equal (0, tv.SelectedRow);
// move to zoo
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.Z });
Assert.Equal (3, tv.SelectedRow);
// move to troll
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.T });
Assert.Equal (1, tv.SelectedRow);
// move to trap
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.T });
Assert.Equal (2, tv.SelectedRow);
// change columns to navigate by column 2
Assert.Equal (0, tv.SelectedColumn);
Assert.Equal (2, tv.SelectedRow);
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
Assert.Equal (1, tv.SelectedColumn);
Assert.Equal (2, tv.SelectedRow);
// nothing ends with t so stay where you are
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.T });
Assert.Equal (2, tv.SelectedRow);
//jump to fish which ends in h
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.H });
Assert.Equal (0, tv.SelectedRow);
// jump to zoo which ends in o
tv.NewKeyDownEvent (new () { KeyCode = KeyCode.O });
Assert.Equal (3, tv.SelectedRow);
top.Dispose ();
}
[Fact]
[SetupFakeApplication]
public void Test_ScreenToCell ()
{
TableView tableView = GetTwoRowSixColumnTable ();
tableView.BeginInit ();
tableView.EndInit ();
tableView.LayoutSubViews ();
tableView.Draw ();
// user can only scroll right so sees right indicator
// Because first column in table is A
var expected =
$@"
│A│B│C│
├─┼─┼─►
│1│2│3│
│1│2│3│";
DriverAssert.AssertDriverContentsAre (expected, output);
// ---------------- X=0 -----------------------
// click is before first cell
Assert.Null (tableView.ScreenToCell (0, 0));
Assert.Null (tableView.ScreenToCell (0, 1));
Assert.Null (tableView.ScreenToCell (0, 2));
Assert.Null (tableView.ScreenToCell (0, 3));
Assert.Null (tableView.ScreenToCell (0, 4));
// ---------------- X=1 -----------------------
// click in header
Assert.Null (tableView.ScreenToCell (1, 0));
// click in header row line
Assert.Null (tableView.ScreenToCell (1, 1));
// click in cell 0,0
Assert.Equal (Point.Empty, tableView.ScreenToCell (1, 2));
// click in cell 0,1
Assert.Equal (new Point (0, 1), tableView.ScreenToCell (1, 3));
// after last row
Assert.Null (tableView.ScreenToCell (1, 4));
// ---------------- X=2 -----------------------
// ( even though there is a horizontal dividing line here we treat it as a hit on the cell before)
// click in header
Assert.Null (tableView.ScreenToCell (2, 0));
// click in header row line
Assert.Null (tableView.ScreenToCell (2, 1));
// click in cell 0,0
Assert.Equal (Point.Empty, tableView.ScreenToCell (2, 2));
// click in cell 0,1
Assert.Equal (new Point (0, 1), tableView.ScreenToCell (2, 3));
// after last row
Assert.Null (tableView.ScreenToCell (2, 4));
// ---------------- X=3 -----------------------
// click in header
Assert.Null (tableView.ScreenToCell (3, 0));
// click in header row line
Assert.Null (tableView.ScreenToCell (3, 1));
// click in cell 1,0
Assert.Equal (new Point (1, 0), tableView.ScreenToCell (3, 2));
// click in cell 1,1
Assert.Equal (new Point (1, 1), tableView.ScreenToCell (3, 3));
// after last row
Assert.Null (tableView.ScreenToCell (3, 4));
}
[Fact]
[SetupFakeApplication]
public void Test_ScreenToCell_DataColumnOverload ()
{
TableView tableView = GetTwoRowSixColumnTable ();
tableView.LayoutSubViews ();
tableView.Draw ();
// user can only scroll right so sees right indicator
// Because first column in table is A
var expected =
$@"
│A│B│C│
├─┼─┼─►
│1│2│3│
│1│2│3│";
DriverAssert.AssertDriverContentsAre (expected, output);
int? col;
// ---------------- X=0 -----------------------
// click is before first cell
Assert.Null (tableView.ScreenToCell (0, 0, out col));
Assert.Null (col);
Assert.Null (tableView.ScreenToCell (0, 1, out col));
Assert.Null (col);
Assert.Null (tableView.ScreenToCell (0, 2, out col));
Assert.Null (col);
Assert.Null (tableView.ScreenToCell (0, 3, out col));
Assert.Null (col);
Assert.Null (tableView.ScreenToCell (0, 4, out col));
Assert.Null (col);
// ---------------- X=1 -----------------------
// click in header
Assert.Null (tableView.ScreenToCell (1, 0, out col));
Assert.Equal ("A", tableView.Table.ColumnNames [col.Value]);
// click in header row line (click in the horizontal line below header counts as click in header above - consistent with the column hit box)
Assert.Null (tableView.ScreenToCell (1, 1, out col));
Assert.Equal ("A", tableView.Table.ColumnNames [col.Value]);
// click in cell 0,0
Assert.Equal (Point.Empty, tableView.ScreenToCell (1, 2, out col));
Assert.Null (col);
// click in cell 0,1
Assert.Equal (new Point (0, 1), tableView.ScreenToCell (1, 3, out col));
Assert.Null (col);
// after last row
Assert.Null (tableView.ScreenToCell (1, 4, out col));
Assert.Null (col);
// ---------------- X=2 -----------------------
// click in header
Assert.Null (tableView.ScreenToCell (2, 0, out col));
Assert.Equal ("A", tableView.Table.ColumnNames [col.Value]);
// click in header row line
Assert.Null (tableView.ScreenToCell (2, 1, out col));
Assert.Equal ("A", tableView.Table.ColumnNames [col.Value]);
// click in cell 0,0
Assert.Equal (Point.Empty, tableView.ScreenToCell (2, 2, out col));
Assert.Null (col);
// click in cell 0,1
Assert.Equal (new Point (0, 1), tableView.ScreenToCell (2, 3, out col));
Assert.Null (col);
// after last row
Assert.Null (tableView.ScreenToCell (2, 4, out col));
Assert.Null (col);
// ---------------- X=3 -----------------------
// click in header
Assert.Null (tableView.ScreenToCell (3, 0, out col));
Assert.Equal ("B", tableView.Table.ColumnNames [col.Value]);
// click in header row line
Assert.Null (tableView.ScreenToCell (3, 1, out col));
Assert.Equal ("B", tableView.Table.ColumnNames [col.Value]);
// click in cell 1,0
Assert.Equal (new Point (1, 0), tableView.ScreenToCell (3, 2, out col));
Assert.Null (col);
// click in cell 1,1
Assert.Equal (new Point (1, 1), tableView.ScreenToCell (3, 3, out col));
Assert.Null (col);
// after last row
Assert.Null (tableView.ScreenToCell (3, 4, out col));
Assert.Null (col);
}
[Fact]
public void Test_SumColumnWidth_UnicodeLength ()
{
Assert.Equal (11, "hello there".EnumerateRunes ().Sum (c => c.GetColumns ()));
// Creates a string with the peculiar (french?) r symbol
string surrogate = "Les Mise" + char.ConvertFromUtf32 (int.Parse ("0301", NumberStyles.HexNumber)) + "rables";
// The unicode width of this string is shorter than the string length!
Assert.Equal (14, surrogate.EnumerateRunes ().Sum (c => c.GetColumns ()));
Assert.Equal (15, surrogate.Length);
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_AllColumnsVisibleFalse_BehavesAsTableNull ()
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
for (var i = 0; i < 6; i++)
{
tableView.Style.GetOrCreateColumnStyle (i).Visible = false;
}
tableView.LayoutSubViews ();
// expect nothing to be rendered when all columns are invisible
var expected =
$@"
";
tableView.Draw ();
DriverAssert.AssertDriverContentsAre (expected, output);
// expect behavior to match when Table is null
tableView.Table = null;
tableView.Draw ();
DriverAssert.AssertDriverContentsAre (expected, output);
}
[InlineData (true)]
[InlineData (false)]
[Theory]
[SetupFakeApplication]
public void TestColumnStyle_FirstColumnVisibleFalse_CursorStaysAt1 (bool useHome)
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
tableView.Style.GetOrCreateColumnStyle (0).Visible = false;
tableView.SelectedColumn = 0;
Assert.Equal (0, tableView.SelectedColumn);
// column 0 is invisible so this method should move to 1
tableView.EnsureValidSelection ();
Assert.Equal (1, tableView.SelectedColumn);
tableView.NewKeyDownEvent (
new () { KeyCode = useHome ? KeyCode.Home : KeyCode.CursorLeft }
);
// Expect the cursor to stay at 1
Assert.Equal (1, tableView.SelectedColumn);
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_FirstColumnVisibleFalse_IsNotRendered ()
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.Style.ShowHorizontalScrollIndicators = true;
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.Style.GetOrCreateColumnStyle (0).Visible = false;
tableView.LayoutSubViews ();
tableView.Draw ();
var expected =
$@"
│B│C│D│
├─┼─┼─►
│2│3│4│";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[InlineData (true)]
[InlineData (false)]
[Theory]
[SetupFakeApplication]
public void TestColumnStyle_LastColumnVisibleFalse_CursorStaysAt2 (bool useEnd)
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
// select D
tableView.SelectedColumn = 3;
Assert.Equal (3, tableView.SelectedColumn);
tableView.Style.GetOrCreateColumnStyle (3).Visible = false;
tableView.Style.GetOrCreateColumnStyle (4).Visible = false;
tableView.Style.GetOrCreateColumnStyle (5).Visible = false;
// column D is invisible so this method should move to 2 (C)
tableView.EnsureValidSelection ();
Assert.Equal (2, tableView.SelectedColumn);
tableView.NewKeyDownEvent (
new () { KeyCode = useEnd ? KeyCode.End : KeyCode.CursorRight }
);
// Expect the cursor to stay at 2
Assert.Equal (2, tableView.SelectedColumn);
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_PreceedingColumnsInvisible_NoScrollIndicator ()
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.Style.ShowHorizontalScrollIndicators = true;
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.ColumnOffset = 1;
tableView.LayoutSubViews ();
tableView.Draw ();
// normally we should have scroll indicators because A,E and F are of screen
var expected =
$@"
│B│C│D│
◄─┼─┼─►
│2│3│4│";
DriverAssert.AssertDriverContentsAre (expected, output);
// but if E and F are invisible so we shouldn't show right
tableView.Style.GetOrCreateColumnStyle (4).Visible = false;
tableView.Style.GetOrCreateColumnStyle (5).Visible = false;
expected =
$@"
│B│C│D│
◄─┼─┼─┤
│2│3│4│";
tableView.SetNeedsDraw ();
tableView.SetClipToScreen ();
tableView.Draw ();
DriverAssert.AssertDriverContentsAre (expected, output);
// now also A is invisible so we cannot scroll in either direction
tableView.Style.GetOrCreateColumnStyle (0).Visible = false;
expected =
$@"
│B│C│D│
├─┼─┼─┤
│2│3│4│";
tableView.SetNeedsDraw ();
tableView.SetClipToScreen ();
tableView.Draw ();
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_RemainingColumnsInvisible_NoScrollIndicator ()
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.Style.ShowHorizontalScrollIndicators = true;
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.LayoutSubViews ();
tableView.SetNeedsDraw ();
tableView.SetClipToScreen ();
tableView.Draw ();
// normally we should have scroll indicators because DEF are of screen
var expected =
$@"
│A│B│C│
├─┼─┼─►
│1│2│3│";
DriverAssert.AssertDriverContentsAre (expected, output);
// but if DEF are invisible we shouldn't be showing the indicator
tableView.Style.GetOrCreateColumnStyle (3).Visible = false;
tableView.Style.GetOrCreateColumnStyle (4).Visible = false;
tableView.Style.GetOrCreateColumnStyle (5).Visible = false;
expected =
$@"
│A│B│C│
├─┼─┼─┤
│1│2│3│";
tableView.SetNeedsDraw ();
tableView.SetClipToScreen ();
tableView.Draw ();
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_VisibleFalse_CursorStepsOverInvisibleColumns ()
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
tableView.Style.GetOrCreateColumnStyle (1).Visible = false;
tableView.SelectedColumn = 0;
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
// Expect the cursor navigation to skip over the invisible column(s)
Assert.Equal (2, tableView.SelectedColumn);
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorLeft });
// Expect the cursor navigation backwards to skip over invisible column too
Assert.Equal (0, tableView.SelectedColumn);
}
[Theory]
[SetupFakeApplication]
[InlineData (true, true)]
[InlineData (false, true)]
[InlineData (true, false)]
[InlineData (false, false)]
public void TestColumnStyle_VisibleFalse_DoesNotEffect_EnsureSelectedCellIsVisible (
bool smooth,
bool invisibleCol
)
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
tableView.Style.SmoothHorizontalScrolling = smooth;
if (invisibleCol)
{
tableView.Style.GetOrCreateColumnStyle (3).Visible = false;
}
// New TableView should have first cell selected
Assert.Equal (0, tableView.SelectedColumn);
// With no scrolling
Assert.Equal (0, tableView.ColumnOffset);
// A,B and C are visible on screen at the moment so these should have no effect
tableView.SelectedColumn = 1;
tableView.EnsureSelectedCellIsVisible ();
Assert.Equal (0, tableView.ColumnOffset);
tableView.SelectedColumn = 2;
tableView.EnsureSelectedCellIsVisible ();
Assert.Equal (0, tableView.ColumnOffset);
// Selecting D should move the visible table area to fit D onto the screen
tableView.SelectedColumn = 3;
tableView.EnsureSelectedCellIsVisible ();
Assert.Equal (smooth ? 1 : 3, tableView.ColumnOffset);
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_VisibleFalse_IsNotRendered ()
{
TableView tableView = GetABCDEFTableView (out _);
tableView.Style.GetOrCreateColumnStyle (1).Visible = false;
tableView.LayoutSubViews ();
tableView.Draw ();
var expected =
$@"
│A│C│D│
│1│3│4│";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_VisibleFalse_MultiSelected ()
{
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
// user has rectangular selection
tableView.MultiSelectedRegions.Push (
new (
Point.Empty,
new (0, 0, 3, 1)
)
);
Assert.Equal (3, tableView.GetAllSelectedCells ().Count ());
Assert.True (tableView.IsSelected (0, 0));
Assert.True (tableView.IsSelected (1, 0));
Assert.True (tableView.IsSelected (2, 0));
Assert.False (tableView.IsSelected (3, 0));
// if middle column is invisible
tableView.Style.GetOrCreateColumnStyle (1).Visible = false;
// it should not be included in the selection
Assert.Equal (2, tableView.GetAllSelectedCells ().Count ());
Assert.True (tableView.IsSelected (0, 0));
Assert.False (tableView.IsSelected (1, 0));
Assert.True (tableView.IsSelected (2, 0));
Assert.False (tableView.IsSelected (3, 0));
Assert.DoesNotContain (new (1, 0), tableView.GetAllSelectedCells ());
}
[Fact]
[SetupFakeApplication]
public void TestColumnStyle_VisibleFalse_MultiSelectingStepsOverInvisibleColumns ()
{
TableView tableView = GetABCDEFTableView (out _);
tableView.LayoutSubViews ();
// if middle column is invisible
tableView.Style.GetOrCreateColumnStyle (1).Visible = false;
tableView.NewKeyDownEvent (Key.CursorRight.WithShift);
// Selection should extend from A to C but skip B
Assert.Equal (2, tableView.GetAllSelectedCells ().Count ());
Assert.True (tableView.IsSelected (0, 0));
Assert.False (tableView.IsSelected (1, 0));
Assert.True (tableView.IsSelected (2, 0));
Assert.False (tableView.IsSelected (3, 0));
Assert.DoesNotContain (new (1, 0), tableView.GetAllSelectedCells ());
}
[Fact]
[SetupFakeApplication]
public void TestControlClick_MultiSelect_ThreeRowTable_FullRowSelect ()
{
TableView tv = GetTwoRowSixColumnTable (out DataTable dt);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tv.LayoutSubViews ();
tv.MultiSelect = true;
// Clicking in bottom row
tv.NewMouseEvent (
new () { Position = new (1, 4), Flags = MouseFlags.Button1Clicked }
);
// should select that row
Assert.Equal (2, tv.SelectedRow);
// shift clicking top row
tv.NewMouseEvent (
new () { Position = new (1, 2), Flags = MouseFlags.Button1Clicked | MouseFlags.ButtonCtrl }
);
// should extend the selection
// to include bottom and top row but not middle
Assert.Equal (0, tv.SelectedRow);
Point [] selected = tv.GetAllSelectedCells ().ToArray ();
Assert.Contains (Point.Empty, selected);
Assert.DoesNotContain (new (0, 1), selected);
Assert.Contains (new (0, 2), selected);
}
[Fact]
[SetupFakeApplication]
public void TestEnumerableDataSource_BasicTypes ()
{
ApplicationImpl.Instance.Driver!.SetScreenSize (100, 100);
var tv = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tv.SchemeName = "TopLevel";
tv.Viewport = new (0, 0, 50, 6);
tv.Table = new EnumerableTableSource<Type> (
new [] { typeof (string), typeof (int), typeof (float) },
new ()
{
{ "Name", t => t.Name }, { "Namespace", t => t.Namespace },
{ "BaseType", t => t.BaseType }
}
);
tv.LayoutSubViews ();
tv.Draw ();
var expected =
$@"
┌──────┬─────────┬───────────────────────────────┐
│Name │Namespace│BaseType │
├──────┼─────────┼───────────────────────────────┤
│String│System │System.Object │
│Int32 │System │System.ValueType │
│Single│System │System.ValueType │";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TestFullRowSelect_AlwaysUseNormalColorForVerticalCellLines ()
{
TableView tv = GetTwoRowSixColumnTable (out DataTable dt);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tv.Viewport = new (0, 0, 7, 6);
tv.Frame = new (0, 0, 7, 6);
tv.LayoutSubViews ();
tv.FullRowSelect = true;
tv.Style.ShowHorizontalBottomline = true;
tv.Style.AlwaysUseNormalColorForVerticalCellLines = true;
// Clicking in bottom row
tv.NewMouseEvent (
new () { Position = new (1, 4), Flags = MouseFlags.Button1Clicked }
);
// should select that row
Assert.Equal (2, tv.SelectedRow);
tv.Draw ();
var expected =
$@"
│A│B│C│
├─┼─┼─►
│1│2│3│
│1│2│3│
│1│2│3│
└─┴─┴─┘";
DriverAssert.AssertDriverContentsAre (expected, output);
Attribute normal = tv.GetScheme ().Normal;
tv.SetScheme (new (tv.GetScheme ()) { Focus = new (Color.Magenta, Color.White) });
Attribute focus = tv.GetScheme ().Focus;
tv.Draw ();
// Focus color (1) should be used for cells only because
// AlwaysUseNormalColorForVerticalCellLines is true
expected =
$@"
0000000
0000000
0000000
0000000
0101010
0000000";
DriverAssert.AssertDriverAttributesAre (expected, output, Application.Driver, normal, focus);
}
[Fact]
[SetupFakeApplication]
public void TestFullRowSelect_SelectionColorDoesNotStop_WhenShowVerticalCellLinesIsFalse ()
{
TableView tv = GetTwoRowSixColumnTable (out DataTable dt);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tv.LayoutSubViews ();
tv.Viewport = new (0, 0, 7, 6);
tv.FullRowSelect = true;
tv.Style.ShowVerticalCellLines = false;
tv.Style.ShowVerticalHeaderLines = false;
// Clicking in bottom row
tv.NewMouseEvent (
new () { Position = new (1, 4), Flags = MouseFlags.Button1Clicked }
);
// should select that row
Assert.Equal (2, tv.SelectedRow);
tv.Draw ();
var expected =
$@"
A B C
───────
1 2 3
1 2 3
1 2 3";
DriverAssert.AssertDriverContentsAre (expected, output);
Attribute normal = tv.GetScheme ().Normal;
tv.SetScheme (new (tv.GetScheme ()) { Focus = new (Color.Magenta, Color.White) });
Attribute focus = tv.GetScheme ().Focus;
tv.Draw ();
// Focus color (1) should be used for rendering the selected line
// Note that because there are no vertical cell lines we use the focus
// color for the whole row
expected =
$@"
000000
000000
000000
000000
111111";
DriverAssert.AssertDriverAttributesAre (expected, output, Application.Driver, normal, focus);
}
[Fact]
[SetupFakeApplication]
public void TestFullRowSelect_SelectionColorStopsAtTableEdge_WithCellLines ()
{
TableView tv = GetTwoRowSixColumnTable (out DataTable dt);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tv.Viewport = new (0, 0, 7, 6);
tv.Frame = new (0, 0, 7, 6);
tv.LayoutSubViews ();
tv.FullRowSelect = true;
tv.Style.ShowHorizontalBottomline = true;
// Clicking in bottom row
tv.NewMouseEvent (
new () { Position = new (1, 4), Flags = MouseFlags.Button1Clicked }
);
// should select that row
Assert.Equal (2, tv.SelectedRow);
tv.Draw ();
var expected =
$@"
│A│B│C│
├─┼─┼─►
│1│2│3│
│1│2│3│
│1│2│3│
└─┴─┴─┘";
DriverAssert.AssertDriverContentsAre (expected, output);
Attribute normal = tv.GetScheme ().Normal;
tv.SetScheme (new (tv.GetScheme ()) { Focus = new (Color.Magenta, Color.White) });
Attribute focus = tv.GetScheme ().Focus;
tv.Draw ();
// Focus color (1) should be used for rendering the selected line
// But should not spill into the borders. Normal color (0) should be
// used for the rest.
expected =
$@"
0000000
0000000
0000000
0000000
0111110
0000000";
DriverAssert.AssertDriverAttributesAre (expected, output, Application.Driver, normal, focus);
}
[Theory]
[SetupFakeApplication]
[InlineData (Orientation.Horizontal, false)]
[InlineData (Orientation.Vertical, false)]
[InlineData (Orientation.Horizontal, true)]
[InlineData (Orientation.Vertical, true)]
public void TestListTableSource (Orientation orient, bool parallel)
{
IList list = BuildList (16);
var tv = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
//tv.BeginInit (); tv.EndInit ();
tv.SchemeName = "TopLevel";
tv.Viewport = new (0, 0, 25, 4);
tv.Style = new ()
{
ShowHeaders = false, ShowHorizontalHeaderOverline = false, ShowHorizontalHeaderUnderline = false
};
var listStyle = new ListColumnStyle { Orientation = orient, ScrollParallel = parallel };
tv.Table = new ListTableSource (list, tv, listStyle);
tv.LayoutSubViews ();
tv.Draw ();
var horizPerpExpected =
$@"
│Item 0│Item 1 │
│Item 2│Item 3 │
│Item 4│Item 5 │
│Item 6│Item 7 │";
var horizParaExpected =
$@"
│Item 0 │Item 1 │Item 2 │
│Item 4 │Item 5 │Item 6 │
│Item 8 │Item 9 │Item 10│
│Item 12│Item 13│Item 14│";
var vertPerpExpected =
$@"
│Item 0│Item 4│Item 8 │
│Item 1│Item 5│Item 9 │
│Item 2│Item 6│Item 10 │
│Item 3│Item 7│Item 11 │";
var vertParaExpected =
$@"
│Item 0│Item 8 │
│Item 1│Item 9 │
│Item 2│Item 10 │
│Item 3│Item 11 │";
string expected;
if (orient == Orientation.Vertical)
{
if (parallel)
{
expected = vertParaExpected;
}
else
{
expected = vertPerpExpected;
}
}
else
{
if (parallel)
{
expected = horizParaExpected;
}
else
{
expected = horizPerpExpected;
}
}
DriverAssert.AssertDriverContentsAre (expected, output);
}
[InlineData (true)]
[InlineData (false)]
[Theory]
[SetupFakeApplication]
public void TestMoveStartEnd_WithFullRowSelect (bool withFullRowSelect)
{
TableView tableView = GetTwoRowSixColumnTable ();
tableView.LayoutSubViews ();
tableView.FullRowSelect = withFullRowSelect;
tableView.SelectedRow = 1;
tableView.SelectedColumn = 1;
tableView.NewKeyDownEvent (Key.Home.WithCtrl);
if (withFullRowSelect)
{
// Should not be any horizontal movement when
// using navigate to Start/End and FullRowSelect
Assert.Equal (1, tableView.SelectedColumn);
Assert.Equal (0, tableView.SelectedRow);
}
else
{
Assert.Equal (0, tableView.SelectedColumn);
Assert.Equal (0, tableView.SelectedRow);
}
tableView.NewKeyDownEvent (
new (
KeyCode.End | KeyCode.CtrlMask
)
);
if (withFullRowSelect)
{
Assert.Equal (1, tableView.SelectedColumn);
Assert.Equal (1, tableView.SelectedRow);
}
else
{
Assert.Equal (5, tableView.SelectedColumn);
Assert.Equal (1, tableView.SelectedRow);
}
}
[Fact]
[SetupFakeApplication]
public void TestShiftClick_MultiSelect_TwoRowTable_FullRowSelect ()
{
TableView tv = GetTwoRowSixColumnTable ();
tv.LayoutSubViews ();
tv.MultiSelect = true;
// Clicking in bottom row
tv.NewMouseEvent (
new () { Position = new (1, 3), Flags = MouseFlags.Button1Clicked }
);
// should select that row
Assert.Equal (1, tv.SelectedRow);
// shift clicking top row
tv.NewMouseEvent (
new () { Position = new (1, 2), Flags = MouseFlags.Button1Clicked | MouseFlags.ButtonShift }
);
// should extend the selection
Assert.Equal (0, tv.SelectedRow);
Point [] selected = tv.GetAllSelectedCells ().ToArray ();
Assert.Contains (Point.Empty, selected);
Assert.Contains (new (0, 1), selected);
}
[Fact]
[SetupFakeApplication]
public void TestTableViewCheckboxes_ByObject ()
{
TableView tv = GetPetTable (out EnumerableTableSource<PickablePet> source);
tv.LayoutSubViews ();
IReadOnlyCollection<PickablePet> pets = source.Data;
CheckBoxTableSourceWrapperByObject<PickablePet> wrapper = new (
tv,
source,
p => p.IsPicked,
(p, b) => p.IsPicked = b
);
tv.Table = wrapper;
tv.Draw ();
var expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│{Glyphs.CheckStateUnChecked}│Tammy │Cat │
│{Glyphs.CheckStateUnChecked}│Tibbles│Cat │
│{Glyphs.CheckStateUnChecked}│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
#pragma warning disable xUnit2029
Assert.Empty (pets.Where (p => p.IsPicked));
#pragma warning restore xUnit2029
tv.NewKeyDownEvent (Key.Space);
Assert.True (pets.First ().IsPicked);
tv.SetClipToScreen ();
tv.Draw ();
expected =
@$"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│{Glyphs.CheckStateChecked}│Tammy │Cat │
│{Glyphs.CheckStateUnChecked}│Tibbles│Cat │
│{Glyphs.CheckStateUnChecked}│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
tv.NewKeyDownEvent (Key.CursorDown);
tv.NewKeyDownEvent (Key.Space);
Assert.True (pets.ElementAt (0).IsPicked);
Assert.True (pets.ElementAt (1).IsPicked);
Assert.False (pets.ElementAt (2).IsPicked);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│{Glyphs.CheckStateChecked}│Tammy │Cat │
│{Glyphs.CheckStateChecked}│Tibbles│Cat │
│{Glyphs.CheckStateUnChecked}│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
tv.NewKeyDownEvent (Key.CursorUp);
tv.NewKeyDownEvent (Key.Space);
Assert.False (pets.ElementAt (0).IsPicked);
Assert.True (pets.ElementAt (1).IsPicked);
Assert.False (pets.ElementAt (2).IsPicked);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│{Glyphs.CheckStateUnChecked}│Tammy │Cat │
│{Glyphs.CheckStateChecked}│Tibbles│Cat │
│{Glyphs.CheckStateUnChecked}│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TestTableViewCheckboxes_MultiSelectIsUnion_WhenToggling ()
{
TableView tv = GetTwoRowSixColumnTable (out DataTable dt);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tv.LayoutSubViews ();
var wrapper = new CheckBoxTableSourceWrapperByIndex (tv, tv.Table);
tv.Table = wrapper;
wrapper.CheckedRows.Add (0);
wrapper.CheckedRows.Add (2);
tv.SetClipToScreen ();
tv.Draw ();
var expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│";
//toggle top two at once
tv.NewKeyDownEvent (Key.CursorDown.WithShift);
Assert.True (tv.IsSelected (0, 0));
Assert.True (tv.IsSelected (0, 1));
tv.NewKeyDownEvent (Key.Space);
// Because at least 1 of the rows is not yet ticked we toggle them all to ticked
DriverAssert.AssertDriverContentsAre (expected, output);
Assert.Contains (0, wrapper.CheckedRows);
Assert.Contains (1, wrapper.CheckedRows);
Assert.Contains (2, wrapper.CheckedRows);
Assert.Equal (3, wrapper.CheckedRows.Count);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
// Untoggle the top 2
tv.NewKeyDownEvent (Key.Space);
tv.SetClipToScreen ();
tv.Draw ();
expected =
@$"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
Assert.Single (wrapper.CheckedRows, 2);
}
[Fact]
[SetupFakeApplication]
public void TestTableViewCheckboxes_SelectAllToggle ()
{
TableView tv = GetTwoRowSixColumnTable (out DataTable dt);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tv.LayoutSubViews ();
var wrapper = new CheckBoxTableSourceWrapperByIndex (tv, tv.Table);
tv.Table = wrapper;
//toggle all cells
tv.NewKeyDownEvent (Key.A.WithCtrl);
tv.NewKeyDownEvent (Key.Space);
tv.SetClipToScreen ();
tv.Draw ();
var expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
Assert.Contains (0, wrapper.CheckedRows);
Assert.Contains (1, wrapper.CheckedRows);
Assert.Contains (2, wrapper.CheckedRows);
Assert.Equal (3, wrapper.CheckedRows.Count);
// Untoggle all again
tv.NewKeyDownEvent (Key.Space);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
Assert.Empty (wrapper.CheckedRows);
}
[Fact]
[SetupFakeApplication]
public void TestTableViewCheckboxes_SelectAllToggle_ByObject ()
{
TableView tv = GetPetTable (out EnumerableTableSource<PickablePet> source);
tv.LayoutSubViews ();
IReadOnlyCollection<PickablePet> pets = source.Data;
CheckBoxTableSourceWrapperByObject<PickablePet> wrapper = new (
tv,
source,
p => p.IsPicked,
(p, b) => p.IsPicked = b
);
tv.Table = wrapper;
Assert.DoesNotContain (pets, p => p.IsPicked);
//toggle all cells
tv.NewKeyDownEvent (Key.A.WithCtrl);
tv.NewKeyDownEvent (Key.Space);
Assert.True (pets.All (p => p.IsPicked));
tv.SetClipToScreen ();
tv.Draw ();
var expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│{Glyphs.CheckStateChecked}│Tammy │Cat │
│{Glyphs.CheckStateChecked}│Tibbles│Cat │
│{Glyphs.CheckStateChecked}│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
tv.NewKeyDownEvent (Key.Space);
#pragma warning disable xUnit2029
Assert.Empty (pets.Where (p => p.IsPicked));
#pragma warning restore xUnit2029
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│{Glyphs.CheckStateUnChecked}│Tammy │Cat │
│{Glyphs.CheckStateUnChecked}│Tibbles│Cat │
│{Glyphs.CheckStateUnChecked}│Ripper │Dog │
";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TestTableViewCheckboxes_Simple ()
{
TableView tv = GetTwoRowSixColumnTable (out DataTable dt);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tv.LayoutSubViews ();
var wrapper = new CheckBoxTableSourceWrapperByIndex (tv, tv.Table);
tv.Table = wrapper;
tv.SetClipToScreen ();
tv.Draw ();
var expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
Assert.Empty (wrapper.CheckedRows);
//toggle the top cell
tv.NewKeyDownEvent (Key.Space);
Assert.Single (wrapper.CheckedRows, 0);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
tv.NewKeyDownEvent (Key.CursorDown);
tv.NewKeyDownEvent (Key.Space);
Assert.Contains (0, wrapper.CheckedRows);
Assert.Contains (1, wrapper.CheckedRows);
Assert.Equal (2, wrapper.CheckedRows.Count);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
// untoggle top one
tv.NewKeyDownEvent (Key.CursorUp);
tv.NewKeyDownEvent (Key.Space);
Assert.Single (wrapper.CheckedRows, 1);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
│ │A│B│
├─┼─┼─►
│{Glyphs.CheckStateUnChecked}│1│2│
│{Glyphs.CheckStateChecked}│1│2│
│{Glyphs.CheckStateUnChecked}│1│2│";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
[SetupFakeApplication]
public void TestTableViewRadioBoxes_Simple_ByObject ()
{
TableView tv = GetPetTable (out EnumerableTableSource<PickablePet> source);
tv.LayoutSubViews ();
IReadOnlyCollection<PickablePet> pets = source.Data;
CheckBoxTableSourceWrapperByObject<PickablePet> wrapper = new (
tv,
source,
p => p.IsPicked,
(p, b) => p.IsPicked = b
);
wrapper.UseRadioButtons = true;
tv.Table = wrapper;
tv.SetClipToScreen ();
tv.Draw ();
var expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│○│Tammy │Cat │
│○│Tibbles│Cat │
│○│Ripper │Dog │
";
DriverAssert.AssertDriverContentsAre (expected, output);
#pragma warning disable xUnit2029
Assert.Empty (pets.Where (p => p.IsPicked));
#pragma warning restore xUnit2029
tv.NewKeyDownEvent (Key.Space);
Assert.True (pets.First ().IsPicked);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│◉│Tammy │Cat │
│○│Tibbles│Cat │
│○│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
tv.NewKeyDownEvent (Key.CursorDown);
tv.NewKeyDownEvent (Key.Space);
Assert.False (pets.ElementAt (0).IsPicked);
Assert.True (pets.ElementAt (1).IsPicked);
Assert.False (pets.ElementAt (2).IsPicked);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│○│Tammy │Cat │
│◉│Tibbles│Cat │
│○│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
tv.NewKeyDownEvent (Key.CursorUp);
tv.NewKeyDownEvent (Key.Space);
Assert.True (pets.ElementAt (0).IsPicked);
Assert.False (pets.ElementAt (1).IsPicked);
Assert.False (pets.ElementAt (2).IsPicked);
tv.SetClipToScreen ();
tv.Draw ();
expected =
$@"
┌─┬───────┬─────────────┐
│ │Name │Kind │
├─┼───────┼─────────────┤
│◉│Tammy │Cat │
│○│Tibbles│Cat │
│○│Ripper │Dog │";
DriverAssert.AssertDriverContentsAre (expected, output);
}
[Fact]
public void TestToggleCells_MultiSelectOn ()
{
// 2 row table
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.MultiSelect = true;
tableView.KeyBindings.ReplaceCommands (Key.Space, Command.Select);
Point selectedCell = tableView.GetAllSelectedCells ().Single ();
Assert.Equal (0, selectedCell.X);
Assert.Equal (0, selectedCell.Y);
// Go Right
tableView.NewKeyDownEvent (Key.CursorRight);
selectedCell = tableView.GetAllSelectedCells ().Single ();
Assert.Equal (1, selectedCell.X);
Assert.Equal (0, selectedCell.Y);
// Toggle Select
tableView.NewKeyDownEvent (Key.Space);
TableSelection m = tableView.MultiSelectedRegions.Single ();
Assert.True (m.IsToggled);
Assert.Equal (1, m.Origin.X);
Assert.Equal (0, m.Origin.Y);
selectedCell = tableView.GetAllSelectedCells ().Single ();
Assert.Equal (1, selectedCell.X);
Assert.Equal (0, selectedCell.Y);
// Go Left
tableView.NewKeyDownEvent (Key.CursorLeft);
// Both Toggled and Moved to should be selected
Assert.Equal (2, tableView.GetAllSelectedCells ().Count ());
Point s1 = tableView.GetAllSelectedCells ().ElementAt (0);
Point s2 = tableView.GetAllSelectedCells ().ElementAt (1);
Assert.Equal (1, s1.X);
Assert.Equal (0, s1.Y);
Assert.Equal (0, s2.X);
Assert.Equal (0, s2.Y);
// Go Down
tableView.NewKeyDownEvent (Key.CursorDown);
// Both Toggled and Moved to should be selected but not 0,0
// which we moved down from
Assert.Equal (2, tableView.GetAllSelectedCells ().Count ());
s1 = tableView.GetAllSelectedCells ().ElementAt (0);
s2 = tableView.GetAllSelectedCells ().ElementAt (1);
Assert.Equal (1, s1.X);
Assert.Equal (0, s1.Y);
Assert.Equal (0, s2.X);
Assert.Equal (1, s2.Y);
// Go back to the toggled cell
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorUp });
// Toggle off
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.Space });
// Go Left
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorLeft });
selectedCell = tableView.GetAllSelectedCells ().Single ();
Assert.Equal (0, selectedCell.X);
Assert.Equal (0, selectedCell.Y);
}
[Fact]
public void TestToggleCells_MultiSelectOn_FullRowSelect ()
{
// 2 row table
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.FullRowSelect = true;
tableView.MultiSelect = true;
tableView.KeyBindings.ReplaceCommands (Key.Space, Command.Select);
// Toggle Select Cell 0,0
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.Space });
// Go Down
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorDown });
TableSelection m = tableView.MultiSelectedRegions.Single ();
Assert.True (m.IsToggled);
Assert.Equal (0, m.Origin.X);
Assert.Equal (0, m.Origin.Y);
//First row toggled and Second row active = 12 selected cells
Assert.Equal (12, tableView.GetAllSelectedCells ().Count ());
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorUp });
#pragma warning disable xUnit2031
Assert.Single (tableView.MultiSelectedRegions.Where (r => r.IsToggled));
#pragma warning restore xUnit2031
// Can untoggle at 1,0 even though 0,0 was initial toggle because FullRowSelect is on
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.Space });
#pragma warning disable xUnit2029
Assert.Empty (tableView.MultiSelectedRegions.Where (r => r.IsToggled));
#pragma warning restore xUnit2029
}
[Fact]
public void TestToggleCells_MultiSelectOn_SquareSelectToggled ()
{
// 3 row table
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
dt.Rows.Add (1, 2, 3, 4, 5, 6);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.MultiSelect = true;
tableView.KeyBindings.ReplaceCommands (Key.Space, Command.Select);
// Make a square selection
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.ShiftMask | KeyCode.CursorDown });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.ShiftMask | KeyCode.CursorRight });
Assert.Equal (4, tableView.GetAllSelectedCells ().Count ());
// Toggle the square selected region on
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.Space });
// Go Right
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorRight });
//Toggled on square + the active cell (x=2,y=1)
Assert.Equal (5, tableView.GetAllSelectedCells ().Count ());
Assert.Equal (2, tableView.SelectedColumn);
Assert.Equal (1, tableView.SelectedRow);
// Untoggle the rectangular region by hitting toggle in
// any cell in that rect
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorUp });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorLeft });
Assert.Equal (4, tableView.GetAllSelectedCells ().Count ());
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.Space });
Assert.Single (tableView.GetAllSelectedCells ());
}
[Fact]
public void TestToggleCells_MultiSelectOn_Two_SquareSelects_BothToggled ()
{
// 6 row table
TableView tableView = GetABCDEFTableView (out DataTable dt);
tableView.LayoutSubViews ();
dt.Rows.Add (1, 2, 3, 4, 5, 6);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.MultiSelect = true;
tableView.KeyBindings.ReplaceCommands (Key.Space, Command.Select);
// Make first square selection (0,0 to 1,1)
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.ShiftMask | KeyCode.CursorDown });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.ShiftMask | KeyCode.CursorRight });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.Space });
Assert.Equal (4, tableView.GetAllSelectedCells ().Count ());
// Make second square selection leaving 1 unselected line between them
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorLeft });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorDown });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.CursorDown });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.ShiftMask | KeyCode.CursorDown });
tableView.NewKeyDownEvent (new () { KeyCode = KeyCode.ShiftMask | KeyCode.CursorRight });
// 2 square selections
Assert.Equal (8, tableView.GetAllSelectedCells ().Count ());
}
[Fact]
public void TestDataColumnCaption ()
{
var tableView = new TableView ();
var dt = new DataTable ();
dt.Columns.Add (
new DataColumn
{
Caption = "Caption 1",
ColumnName = "Column Name 1"
});
dt.Columns.Add (
new DataColumn
{
ColumnName = "Column Name 2"
});
var dts = new DataTableSource (dt);
string [] cn = dts.ColumnNames;
Assert.Equal ("Caption 1", cn [0]);
Assert.Equal ("Column Name 2", cn [1]);
}
[Fact]
public void CanTabOutOfTableViewUsingCursor_Left ()
{
GetTableViewWithSiblings (out TextField tf1, out TableView tableView, out TextField tf2);
// Make the selected cell one in
tableView.SelectedColumn = 1;
// Pressing left should move us to the first column without changing focus
Application.RaiseKeyDownEvent (Key.CursorLeft);
Assert.Same (tableView, Application.Current!.MostFocused);
Assert.True (tableView.HasFocus);
// Because we are now on the leftmost cell a further left press should move focus
Application.RaiseKeyDownEvent (Key.CursorLeft);
Assert.NotSame (tableView, Application.Current.MostFocused);
Assert.False (tableView.HasFocus);
Assert.Same (tf1, Application.Current.MostFocused);
Assert.True (tf1.HasFocus);
Application.Current.Dispose ();
}
[Fact]
public void CanTabOutOfTableViewUsingCursor_Up ()
{
GetTableViewWithSiblings (out TextField tf1, out TableView tableView, out TextField tf2);
// Make the selected cell one in
tableView.SelectedRow = 1;
// First press should move us up
Application.RaiseKeyDownEvent (Key.CursorUp);
Assert.Same (tableView, Application.Current!.MostFocused);
Assert.True (tableView.HasFocus);
// Because we are now on the top row a further press should move focus
Application.RaiseKeyDownEvent (Key.CursorUp);
Assert.NotSame (tableView, Application.Current.MostFocused);
Assert.False (tableView.HasFocus);
Assert.Same (tf1, Application.Current.MostFocused);
Assert.True (tf1.HasFocus);
Application.Current.Dispose ();
}
[Fact]
public void CanTabOutOfTableViewUsingCursor_Right ()
{
GetTableViewWithSiblings (out TextField tf1, out TableView tableView, out TextField tf2);
// Make the selected cell one in from the rightmost column
tableView.SelectedColumn = tableView.Table.Columns - 2;
// First press should move us to the rightmost column without changing focus
Application.RaiseKeyDownEvent (Key.CursorRight);
Assert.Same (tableView, Application.Current!.MostFocused);
Assert.True (tableView.HasFocus);
// Because we are now on the rightmost cell, a further right press should move focus
Application.RaiseKeyDownEvent (Key.CursorRight);
Assert.NotSame (tableView, Application.Current.MostFocused);
Assert.False (tableView.HasFocus);
Assert.Same (tf2, Application.Current.MostFocused);
Assert.True (tf2.HasFocus);
Application.Current.Dispose ();
}
[Fact]
public void CanTabOutOfTableViewUsingCursor_Down ()
{
GetTableViewWithSiblings (out TextField tf1, out TableView tableView, out TextField tf2);
// Make the selected cell one in from the bottommost row
tableView.SelectedRow = tableView.Table.Rows - 2;
// First press should move us to the bottommost row without changing focus
Application.RaiseKeyDownEvent (Key.CursorDown);
Assert.Same (tableView, Application.Current!.MostFocused);
Assert.True (tableView.HasFocus);
// Because we are now on the bottommost cell, a further down press should move focus
Application.RaiseKeyDownEvent (Key.CursorDown);
Assert.NotSame (tableView, Application.Current.MostFocused);
Assert.False (tableView.HasFocus);
Assert.Same (tf2, Application.Current.MostFocused);
Assert.True (tf2.HasFocus);
Application.Current.Dispose ();
}
[Fact]
public void CanTabOutOfTableViewUsingCursor_Left_ClearsSelectionFirst ()
{
GetTableViewWithSiblings (out TextField tf1, out TableView tableView, out TextField tf2);
// Make the selected cell one in
tableView.SelectedColumn = 1;
// Pressing shift-left should give us a multi selection
Application.RaiseKeyDownEvent (Key.CursorLeft.WithShift);
Assert.Same (tableView, Application.Current!.MostFocused);
Assert.True (tableView.HasFocus);
Assert.Equal (2, tableView.GetAllSelectedCells ().Count ());
// Because we are now on the leftmost cell a further left press would normally move focus
// However there is an ongoing selection so instead the operation clears the selection and
// gets swallowed (not resulting in a focus change)
Application.RaiseKeyDownEvent (Key.CursorLeft);
// Selection 'clears' just to the single cell and we remain focused
Assert.Single (tableView.GetAllSelectedCells ());
Assert.Same (tableView, Application.Current.MostFocused);
Assert.True (tableView.HasFocus);
// A further left will switch focus
Application.RaiseKeyDownEvent (Key.CursorLeft);
Assert.NotSame (tableView, Application.Current.MostFocused);
Assert.False (tableView.HasFocus);
Assert.Same (tf1, Application.Current.MostFocused);
Assert.True (tf1.HasFocus);
Application.Current.Dispose ();
}
[Theory]
[InlineData (true, 0, 1)]
[InlineData (true, 1, 1)]
[InlineData (false, 0, 1)]
[InlineData (false, 1, 0)]
public void TableCollectionNavigator_FullRowSelect_True_False (bool fullRowSelect, int selectedCol, int expectedRow)
{
TableView tableView = new () { FullRowSelect = fullRowSelect, SelectedColumn = selectedCol };
tableView.BeginInit ();
tableView.EndInit ();
DataTable dt = new ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Rows.Add (1, 2);
dt.Rows.Add (3, 4);
tableView.Table = new DataTableSource (dt);
tableView.SelectedColumn = selectedCol;
Assert.Equal (expectedRow, tableView.CollectionNavigator.GetNextMatchingItem (0, "3".ToCharArray () [0]));
}
/// <summary>
/// Creates 3 views on <see cref="Application.Current"/> with the focus in the
/// <see cref="TableView"/>. This is a helper method to setup tests that want to
/// explore moving input focus out of a tableview.
/// </summary>
/// <param name="tv"></param>
/// <param name="tf1"></param>
/// <param name="tf2"></param>
private void GetTableViewWithSiblings (out TextField tf1, out TableView tableView, out TextField tf2)
{
tableView = new ();
tableView.BeginInit ();
tableView.EndInit ();
Application.Current = new ();
tf1 = new ();
tf2 = new ();
Application.Current.Add (tf1);
Application.Current.Add (tableView);
Application.Current.Add (tf2);
tableView.SetFocus ();
Assert.Same (tableView, Application.Current.MostFocused);
Assert.True (tableView.HasFocus);
// Set big table
tableView.Table = BuildTable (25, 50);
}
private TableView GetABCDEFTableView (out DataTable dt)
{
var tableView = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tableView.BeginInit ();
tableView.EndInit ();
tableView.SchemeName = "TopLevel";
// 3 columns are visible
tableView.Viewport = new (0, 0, 7, 5);
tableView.Style.ShowHorizontalHeaderUnderline = false;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = false;
dt = new ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Columns.Add ("C");
dt.Columns.Add ("D");
dt.Columns.Add ("E");
dt.Columns.Add ("F");
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.Table = new DataTableSource (dt);
return tableView;
}
private TableView GetPetTable (out EnumerableTableSource<PickablePet> source)
{
var tv = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver,
SchemeName = "TopLevel",
Viewport = new (0, 0, 25, 6)
};
List<PickablePet> pets = new ()
{
new (false, "Tammy", "Cat"),
new (false, "Tibbles", "Cat"),
new (false, "Ripper", "Dog")
};
tv.Table = source = new (
pets,
new ()
{
{ "Name", p => p.Name }, { "Kind", p => p.Kind }
}
);
tv.LayoutSubViews ();
return tv;
}
private TableView GetTwoRowSixColumnTable () { return GetTwoRowSixColumnTable (out _); }
private TableView GetTwoRowSixColumnTable (out DataTable dt)
{
var tableView = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tableView.SchemeName = "TopLevel";
// 3 columns are visible
tableView.Viewport = new (0, 0, 7, 5);
tableView.Style.ShowHorizontalHeaderUnderline = true;
tableView.Style.ShowHorizontalHeaderOverline = false;
tableView.Style.AlwaysShowHeaders = true;
tableView.Style.SmoothHorizontalScrolling = true;
dt = new ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Columns.Add ("C");
dt.Columns.Add ("D");
dt.Columns.Add ("E");
dt.Columns.Add ("F");
dt.Rows.Add (1, 2, 3, 4, 5, 6);
dt.Rows.Add (1, 2, 3, 4, 5, 6);
tableView.Table = new DataTableSource (dt);
return tableView;
}
private TableView SetUpMiniTable () { return SetUpMiniTable (out _); }
private TableView SetUpMiniTable (out DataTable dt)
{
var tv = new TableView ()
{
Driver = ApplicationImpl.Instance.Driver
};
tv.BeginInit ();
tv.EndInit ();
tv.Viewport = new (0, 0, 10, 4);
dt = new ();
dt.Columns.Add ("A");
dt.Columns.Add ("B");
dt.Rows.Add (1, 2);
tv.Table = new DataTableSource (dt);
tv.Style.GetOrCreateColumnStyle (0).MinWidth = 1;
tv.Style.GetOrCreateColumnStyle (0).MinWidth = 1;
tv.Style.GetOrCreateColumnStyle (1).MaxWidth = 1;
tv.Style.GetOrCreateColumnStyle (1).MaxWidth = 1;
tv.SchemeName = "Base";
return tv;
}
private class PickablePet
{
public PickablePet (bool isPicked, string name, string kind)
{
IsPicked = isPicked;
Name = name;
Kind = kind;
}
public bool IsPicked { get; set; }
public string Kind { get; }
public string Name { get; }
}
}
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