use std::ops::Deref;
pub use euclid::Rect;
use crate::geometry::Length;
use crate::scaled::Scaled;
#[derive(PartialEq, Clone, Debug)]
pub enum Size {
Inner,
Fill,
Percentage(Length),
Pixels(Length),
RootPercentage(Length),
DynamicCalculations(Box<Vec<DynamicCalculation>>),
}
impl Default for Size {
fn default() -> Self {
Self::Inner
}
}
impl Size {
pub fn pretty(&self) -> String {
match self {
Size::Inner => "auto".to_string(),
Size::Pixels(s) => format!("{}", s.get()),
Size::DynamicCalculations(calcs) => format!(
"calc({})",
calcs
.iter()
.map(|c| c.to_string())
.collect::<Vec<String>>()
.join(" ")
),
Size::Percentage(p) => format!("{}%", p.get()),
Size::Fill => "fill".to_string(),
Size::RootPercentage(p) => format!("{}% of root", p.get()),
}
}
pub fn eval(
&self,
parent_value: f32,
available_parent_value: f32,
parent_margin: f32,
root_value: f32,
) -> Option<f32> {
match self {
Size::Pixels(px) => Some(px.get() + parent_margin),
Size::Percentage(per) => Some(parent_value / 100.0 * per.get()),
Size::DynamicCalculations(calculations) => {
Some(run_calculations(calculations.deref(), parent_value))
}
Size::Fill => Some(available_parent_value),
Size::RootPercentage(per) => Some(root_value / 100.0 * per.get()),
_ => None,
}
}
#[allow(clippy::too_many_arguments)]
pub fn min_max(
&self,
value: f32,
parent_value: f32,
available_parent_value: f32,
single_margin: f32,
margin: f32,
minimum: &Self,
maximum: &Self,
root_value: f32,
) -> f32 {
let value = self
.eval(parent_value, available_parent_value, margin, root_value)
.unwrap_or(value + margin);
let minimum_value = minimum
.eval(parent_value, available_parent_value, margin, root_value)
.map(|v| v + single_margin);
let maximum_value = maximum.eval(parent_value, available_parent_value, margin, root_value);
let mut final_value = value;
if let Some(minimum_value) = minimum_value {
if minimum_value > final_value {
final_value = minimum_value;
}
}
if let Some(maximum_value) = maximum_value {
if final_value > maximum_value {
final_value = maximum_value
}
}
final_value
}
}
impl Scaled for Size {
fn scale(&mut self, scale_factor: f32) {
match self {
Size::Pixels(s) => *s *= scale_factor,
Size::DynamicCalculations(calcs) => {
calcs.iter_mut().for_each(|calc| calc.scale(scale_factor));
}
_ => (),
}
}
}
#[derive(Copy, Clone, Debug, PartialEq)]
pub enum DynamicCalculation {
Sub,
Mul,
Div,
Add,
Percentage(f32),
Pixels(f32),
}
impl Scaled for DynamicCalculation {
fn scale(&mut self, scale_factor: f32) {
if let DynamicCalculation::Pixels(s) = self {
*s *= scale_factor;
}
}
}
impl std::fmt::Display for DynamicCalculation {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
DynamicCalculation::Sub => f.write_str("-"),
DynamicCalculation::Mul => f.write_str("*"),
DynamicCalculation::Div => f.write_str("/"),
DynamicCalculation::Add => f.write_str("+"),
DynamicCalculation::Percentage(p) => f.write_fmt(format_args!("{p}%")),
DynamicCalculation::Pixels(s) => f.write_fmt(format_args!("{s}")),
}
}
}
pub fn run_calculations(calcs: &[DynamicCalculation], value: f32) -> f32 {
let mut prev_number: Option<f32> = None;
let mut prev_op: Option<DynamicCalculation> = None;
let mut calc_with_op = |val: f32, prev_op: Option<DynamicCalculation>| {
if let Some(op) = prev_op {
match op {
DynamicCalculation::Sub => {
prev_number = Some(prev_number.unwrap() - val);
}
DynamicCalculation::Add => {
prev_number = Some(prev_number.unwrap() + val);
}
DynamicCalculation::Mul => {
prev_number = Some(prev_number.unwrap() * val);
}
DynamicCalculation::Div => {
prev_number = Some(prev_number.unwrap() / val);
}
_ => {}
}
} else {
prev_number = Some(val);
}
};
for calc in calcs {
match calc {
DynamicCalculation::Percentage(per) => {
let val = (value / 100.0 * per).round();
calc_with_op(val, prev_op);
prev_op = None;
}
DynamicCalculation::Pixels(val) => {
calc_with_op(*val, prev_op);
prev_op = None;
}
_ => prev_op = Some(*calc),
}
}
prev_number.unwrap()
}