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Rename Val
evaluate
to resolve
and implement viewport variant support (#9568)
# Objective Rename `Val`'s `evaluate` method to `resolve`. Implement `resolve` support for `Val`'s viewport variants. fixes #9535 --- ## Changelog `bevy_ui::ui_node::Val`: * Renamed the following methods and added a `viewport_size` parameter: - `evaluate` to `resolve` - `try_add_with_size` to `try_add_with_context` - `try_add_assign_with_size` to `try_add_assign_with_context` - `try_sub_with_size` to `try_sub_with_context` - `try_sub_assign_with_size` to `try_sub_assign_with_context` * Implemented `resolve` support for `Val`'s viewport coordinate types ## Migration Guide * Renamed the following `Val` methods and added a `viewport_size` parameter: - `evaluate` to `resolve` - `try_add_with_size` to `try_add_with_context` - `try_add_assign_with_size` to `try_add_assign_with_context` - `try_sub_with_size` to `try_sub_with_context` - `try_sub_assign_with_size` to `try_sub_assign_with_context`
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1 changed files with 52 additions and 16 deletions
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@ -237,16 +237,19 @@ pub enum ValArithmeticError {
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}
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impl Val {
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/// A convenience function for simple evaluation of [`Val::Percent`] variant into a concrete [`Val::Px`] value.
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/// Returns a [`ValArithmeticError::NonEvaluateable`] if the [`Val`] is impossible to evaluate into [`Val::Px`].
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/// Otherwise it returns an [`f32`] containing the evaluated value in pixels.
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/// Resolves a [`Val`] to its value in logical pixels and returns this as an [`f32`].
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/// Returns a [`ValArithmeticError::NonEvaluateable`] if the [`Val`] is impossible to resolve into a concrete value.
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///
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/// **Note:** If a [`Val::Px`] is evaluated, it's inner value returned unchanged.
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pub fn evaluate(&self, size: f32) -> Result<f32, ValArithmeticError> {
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/// **Note:** If a [`Val::Px`] is resolved, it's inner value is returned unchanged.
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pub fn resolve(self, parent_size: f32, viewport_size: Vec2) -> Result<f32, ValArithmeticError> {
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match self {
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Val::Percent(value) => Ok(size * value / 100.0),
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Val::Px(value) => Ok(*value),
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_ => Err(ValArithmeticError::NonEvaluateable),
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Val::Percent(value) => Ok(parent_size * value / 100.0),
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Val::Px(value) => Ok(value),
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Val::Vw(value) => Ok(viewport_size.x * value / 100.0),
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Val::Vh(value) => Ok(viewport_size.y * value / 100.0),
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Val::VMin(value) => Ok(viewport_size.min_element() * value / 100.0),
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Val::VMax(value) => Ok(viewport_size.max_element() * value / 100.0),
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Val::Auto => Err(ValArithmeticError::NonEvaluateable),
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}
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}
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}
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@ -1714,33 +1717,66 @@ impl Default for ZIndex {
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#[cfg(test)]
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mod tests {
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use super::Val;
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use crate::GridPlacement;
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use crate::ValArithmeticError;
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use super::Val;
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use bevy_math::vec2;
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#[test]
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fn val_evaluate() {
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let size = 250.;
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let result = Val::Percent(80.).evaluate(size).unwrap();
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let viewport_size = vec2(1000., 500.);
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let result = Val::Percent(80.).resolve(size, viewport_size).unwrap();
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assert_eq!(result, size * 0.8);
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}
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#[test]
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fn val_evaluate_px() {
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fn val_resolve_px() {
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let size = 250.;
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let result = Val::Px(10.).evaluate(size).unwrap();
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let viewport_size = vec2(1000., 500.);
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let result = Val::Px(10.).resolve(size, viewport_size).unwrap();
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assert_eq!(result, 10.);
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}
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#[test]
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fn val_invalid_evaluation() {
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fn val_resolve_viewport_coords() {
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let size = 250.;
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let evaluate_auto = Val::Auto.evaluate(size);
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let viewport_size = vec2(500., 500.);
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assert_eq!(evaluate_auto, Err(ValArithmeticError::NonEvaluateable));
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for value in (-10..10).map(|value| value as f32) {
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// for a square viewport there should be no difference between `Vw` and `Vh` and between `Vmin` and `Vmax`.
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assert_eq!(
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Val::Vw(value).resolve(size, viewport_size),
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Val::Vh(value).resolve(size, viewport_size)
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);
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assert_eq!(
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Val::VMin(value).resolve(size, viewport_size),
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Val::VMax(value).resolve(size, viewport_size)
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);
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assert_eq!(
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Val::VMin(value).resolve(size, viewport_size),
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Val::Vw(value).resolve(size, viewport_size)
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);
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}
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let viewport_size = vec2(1000., 500.);
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assert_eq!(Val::Vw(100.).resolve(size, viewport_size).unwrap(), 1000.);
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assert_eq!(Val::Vh(100.).resolve(size, viewport_size).unwrap(), 500.);
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assert_eq!(Val::Vw(60.).resolve(size, viewport_size).unwrap(), 600.);
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assert_eq!(Val::Vh(40.).resolve(size, viewport_size).unwrap(), 200.);
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assert_eq!(Val::VMin(50.).resolve(size, viewport_size).unwrap(), 250.);
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assert_eq!(Val::VMax(75.).resolve(size, viewport_size).unwrap(), 750.);
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}
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#[test]
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fn val_auto_is_non_resolveable() {
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let size = 250.;
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let viewport_size = vec2(1000., 500.);
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let resolve_auto = Val::Auto.resolve(size, viewport_size);
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assert_eq!(resolve_auto, Err(ValArithmeticError::NonEvaluateable));
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}
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#[test]
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