Files
ltk/tests/element_map.rs

249 lines
6.7 KiB
Rust

//! Integration tests for [`ltk::Element::map`] — the Elm-style adapter
//! that re-tags every per-leaf message in a sub-tree.
//!
//! Each test renders the mapped tree through a software [`UiSurface`],
//! looks up the per-widget [`WidgetHandlers`] snapshot the runtime
//! produced, and asserts that pressing a leaf fires the *outer*
//! `AppMsg::Sub( ... )` instead of the inner `SubMsg::...`.
use ltk::core::{ RenderOptions, UiSurface };
use ltk::test_support::WidgetHandlers;
use ltk::{
button, checkbox, column, list_item, radio, slider, text_edit, toggle,
vslider,
Color, Element,
};
#[ derive( Clone, Debug, PartialEq ) ]
enum SubMsg
{
Pressed,
Toggled,
Selected,
Open,
Slid( i32 ),
Vol( i32 ),
Typed( String ),
Submit,
}
#[ derive( Clone, Debug, PartialEq ) ]
enum AppMsg
{
Sub( SubMsg ),
}
fn sub_view() -> Element<SubMsg>
{
column::<SubMsg>()
.padding( 0.0 )
.spacing( 4.0 )
.push( button( "press" ).on_press( SubMsg::Pressed ) )
.push( toggle( false ).on_toggle( SubMsg::Toggled ) )
.push( checkbox( true ).on_toggle( SubMsg::Toggled ) )
.push( radio( false ).on_select( SubMsg::Selected ) )
.push( list_item( "row" ).on_press( SubMsg::Open ) )
.push( slider( 0.5 ).on_change( |v| SubMsg::Slid( ( v * 100.0 ) as i32 ) ) )
.push( vslider( 0.25 ).on_change( |v| SubMsg::Vol( ( v * 100.0 ) as i32 ) ) )
.push( text_edit::<SubMsg>( "ph", "" )
.on_change( SubMsg::Typed )
.on_submit( SubMsg::Submit ) )
.into()
}
fn render_mapped() -> UiSurface<AppMsg>
{
let mapped: Element<AppMsg> = sub_view().map( AppMsg::Sub );
let mut surface = UiSurface::<AppMsg>::new( 320, 320 );
let _ = surface.render(
&mapped,
RenderOptions::full_canvas( 320, 320 ).background( Color::rgb( 0.1, 0.1, 0.1 ) ),
);
surface
}
/// Walk every laid-out widget rect in `surface` and call `probe` with
/// each handler snapshot. The probe builds the test assertion for the
/// matching widget kind.
fn for_each_handler( surface: &UiSurface<AppMsg>, mut probe: impl FnMut( &WidgetHandlers<AppMsg> ) )
{
for widget in surface.widget_rects()
{
probe( &widget.handlers );
}
}
#[ test ]
fn button_press_msg_is_remapped()
{
let surface = render_mapped();
let mut found = false;
for_each_handler( &surface, |h|
{
if let WidgetHandlers::Button { on_press, .. } = h
{
if let Some( msg ) = on_press
{
assert_eq!( *msg, AppMsg::Sub( SubMsg::Pressed ), "button.on_press" );
found = true;
}
}
} );
assert!( found, "no Button handler with on_press in the rendered tree" );
}
#[ test ]
fn toggle_and_checkbox_messages_are_remapped()
{
let surface = render_mapped();
let mut toggle_seen = false;
let mut checkbox_seen = false;
for_each_handler( &surface, |h|
{
match h
{
WidgetHandlers::Toggle { on_toggle: Some( m ) } =>
{
assert_eq!( *m, AppMsg::Sub( SubMsg::Toggled ) );
toggle_seen = true;
}
WidgetHandlers::Checkbox { on_toggle: Some( m ) } =>
{
assert_eq!( *m, AppMsg::Sub( SubMsg::Toggled ) );
checkbox_seen = true;
}
_ => {}
}
} );
assert!( toggle_seen );
assert!( checkbox_seen );
}
#[ test ]
fn radio_and_list_item_messages_are_remapped()
{
let surface = render_mapped();
let mut radio_seen = false;
let mut item_seen = false;
for_each_handler( &surface, |h|
{
match h
{
WidgetHandlers::Radio { on_select: Some( m ) } =>
{
assert_eq!( *m, AppMsg::Sub( SubMsg::Selected ) );
radio_seen = true;
}
WidgetHandlers::ListItem { on_press: Some( m ) } =>
{
assert_eq!( *m, AppMsg::Sub( SubMsg::Open ) );
item_seen = true;
}
_ => {}
}
} );
assert!( radio_seen );
assert!( item_seen );
}
#[ test ]
fn slider_callbacks_run_through_the_mapper()
{
let surface = render_mapped();
let mut h_axis = false;
let mut v_axis = false;
for_each_handler( &surface, |h|
{
if let WidgetHandlers::Slider { on_change: Some( cb ), axis } = h
{
// `cb` binds by-ref through default match ergonomics, so
// reach the trait object via `**cb` to invoke it.
let msg = ( **cb )( 0.5 );
match axis
{
ltk::SliderAxis::Horizontal =>
{
assert_eq!( msg, AppMsg::Sub( SubMsg::Slid( 50 ) ) );
h_axis = true;
}
ltk::SliderAxis::Vertical =>
{
assert_eq!( msg, AppMsg::Sub( SubMsg::Vol( 50 ) ) );
v_axis = true;
}
}
}
} );
assert!( h_axis, "horizontal slider handler not exercised" );
assert!( v_axis, "vertical slider handler not exercised" );
}
#[ test ]
fn text_edit_on_change_and_submit_are_remapped()
{
let surface = render_mapped();
let mut found = false;
for_each_handler( &surface, |h|
{
if let WidgetHandlers::TextEdit { on_change: Some( cb ), on_submit: Some( s ), .. } = h
{
let typed = ( **cb )( "hello".to_string() );
assert_eq!( typed, AppMsg::Sub( SubMsg::Typed( "hello".to_string() ) ) );
assert_eq!( *s, AppMsg::Sub( SubMsg::Submit ) );
found = true;
}
} );
assert!( found, "TextEdit handler not seen" );
}
#[ test ]
fn map_walks_into_nested_layouts()
{
// One level of nesting: Column -> Container -> Button.
use ltk::container;
let inner: Element<SubMsg> = container( button( "inner" ).on_press( SubMsg::Pressed ) ).into();
let outer: Element<SubMsg> = column::<SubMsg>().padding( 0.0 ).push( inner ).into();
let mapped: Element<AppMsg> = outer.map( AppMsg::Sub );
let mut surface = UiSurface::<AppMsg>::new( 200, 200 );
let _ = surface.render(
&mapped,
RenderOptions::full_canvas( 200, 200 ).background( Color::rgb( 0.1, 0.1, 0.1 ) ),
);
let widget = surface.widget_rects().iter().find( |w|
matches!( w.handlers, WidgetHandlers::Button { on_press: Some( _ ), .. } ) );
let widget = widget.expect( "button under nested layout not found" );
if let WidgetHandlers::Button { on_press: Some( msg ), .. } = &widget.handlers
{
assert_eq!( *msg, AppMsg::Sub( SubMsg::Pressed ) );
} else { unreachable!() }
}
#[ test ]
fn map_can_be_chained()
{
// `view -> map(L1) -> map(L2)` rewrites twice; the inner Sub gets
// double-wrapped. Verifies that a child Element<U> mapped again is
// still walkable and the closure chain composes left-to-right.
#[ derive( Clone, Debug, PartialEq ) ]
enum L1 { Wrap( SubMsg ) }
#[ derive( Clone, Debug, PartialEq ) ]
enum L2 { Wrap( L1 ) }
let leaf: Element<SubMsg> = button( "x" ).on_press( SubMsg::Pressed ).into();
let l1: Element<L1> = leaf.map( L1::Wrap );
let l2: Element<L2> = l1.map( L2::Wrap );
let mut surface = UiSurface::<L2>::new( 100, 80 );
let _ = surface.render(
&l2,
RenderOptions::full_canvas( 100, 80 ).background( Color::rgb( 0.1, 0.1, 0.1 ) ),
);
let widget = &surface.widget_rects()[ 0 ];
if let WidgetHandlers::Button { on_press: Some( msg ), .. } = &widget.handlers
{
assert_eq!( *msg, L2::Wrap( L1::Wrap( SubMsg::Pressed ) ) );
} else { panic!( "expected Button handler" ) }
}