538 lines
16 KiB
Rust
538 lines
16 KiB
Rust
use crate::{
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theme::{Color, ColorSet},
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token::Token,
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};
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use std::iter::Extend;
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#[derive(Eq, Debug, Clone)]
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pub enum Component {
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NextLine,
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X(usize),
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String(String),
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Fg(Color),
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Bg(Color),
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}
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impl Component {
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fn make_for_line(
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comp: Vec<Component>,
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line: usize,
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offset: usize,
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) -> String {
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comp.into_iter()
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.map(|c| match c {
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Component::X(x) => termion::cursor::Goto(
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(x + offset) as u16,
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line as u16,
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)
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.into(),
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Component::String(s) => s,
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Component::Fg(c) => c.fg(),
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Component::Bg(c) => c.bg(),
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Component::NextLine => "\r\n".into(),
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})
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.collect()
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}
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}
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impl PartialEq for Component {
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fn eq(&self, other: &Self) -> bool {
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match self {
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Self::X(x) => match other {
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Self::X(other_x) => x == other_x,
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_ => false,
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},
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Self::String(s) => match other {
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Self::String(other_s) => s == other_s,
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_ => false,
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},
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Self::Fg(c) => match other {
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Self::Fg(other_c) => c == other_c,
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_ => false,
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},
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Self::Bg(c) => match other {
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Self::Bg(other_c) => c == other_c,
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_ => false,
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},
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Self::NextLine => match other {
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Self::NextLine => true,
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_ => false,
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},
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}
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}
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}
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#[derive(Debug, Clone)]
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pub struct Line {
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color: ColorSet,
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components: Vec<Component>,
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}
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#[derive(Debug, Copy, Clone, PartialEq, Eq)]
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pub enum SectionWidth {
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Full,
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Third,
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TwoThirds,
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}
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impl SectionWidth {
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pub fn abs_size(&self, max_width: usize) -> usize {
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match self {
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SectionWidth::Full => max_width,
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SectionWidth::Third => max_width / 3,
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SectionWidth::TwoThirds => (max_width / 3) * 2,
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}
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}
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}
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#[derive(Debug, Clone, Eq)]
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pub struct Widget {
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want_width: SectionWidth,
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per_line: Vec<Token>,
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}
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impl PartialEq for Widget {
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fn eq(&self, other: &Self) -> bool {
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self.want_width == other.want_width
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&& self.per_line.len() == other.per_line.len()
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&& (&self.per_line)
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.into_iter()
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.enumerate()
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.all(|(i, token)| token.eq(&other.per_line[i]))
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}
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}
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impl Widget {
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pub fn new(
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width: SectionWidth,
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tokens_per_line: Vec<Token>,
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) -> Self {
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Self {
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want_width: width,
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per_line: tokens_per_line,
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}
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}
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fn get_line(&self, line: usize) -> Option<&Token> {
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self.per_line.get(line)
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}
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}
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#[derive(Debug, Clone, Eq)]
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pub enum Instruction {
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FixedHeight(Box<Instruction>, usize, Vec<Widget>),
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End,
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}
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impl PartialEq for Instruction {
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fn eq(&self, other: &Self) -> bool {
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match self {
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Instruction::FixedHeight(next, size, widgets) => {
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match other {
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Instruction::FixedHeight(
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other_next,
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other_size,
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other_widgets,
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) => {
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if size == other_size
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&& next.eq(other_next)
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&& widgets.len() == other_widgets.len()
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{
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widgets.into_iter().enumerate().all(
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|(i, widget)| {
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widget.eq(&other_widgets[i])
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},
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)
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} else {
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false
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}
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}
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_ => false,
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}
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}
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Instruction::End => match other {
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Instruction::End => true,
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_ => false,
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},
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}
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}
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}
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impl Instruction {
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pub fn into_components(
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self,
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line_width: usize,
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height_left: usize,
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) -> Vec<Component> {
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if height_left == 0 {
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return vec![];
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}
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match self {
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Instruction::FixedHeight(next, lines, wdg) => (0..lines)
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.map(|line| {
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let mut offset = 0;
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(&wdg)
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.into_iter()
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.map(|w| {
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let (width, token) = (
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w.want_width.abs_size(line_width),
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w.get_line(line).map(|t| t.clone()),
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);
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let mut result = match token {
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Some(tok) => tok
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.with_width(width)
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.into_iter()
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.map(|comp| {
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if let Component::X(x) = comp
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{
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Component::X(offset + x)
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} else {
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comp
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}
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})
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.collect(),
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None => Vec::new(),
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};
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offset += width;
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if offset < line_width {
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result.push(Component::X(offset));
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}
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result
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})
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.flatten()
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.chain(vec![Component::NextLine])
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.collect::<Vec<Component>>()
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})
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.flatten()
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.chain(
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next.into_components(
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line_width,
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height_left - lines,
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),
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)
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.collect(),
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Instruction::End => (0..height_left)
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.map(|_| Component::NextLine)
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.collect(),
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}
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}
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pub fn start() -> Self {
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Self::End
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}
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pub fn fixed(self, height: usize, widgets: Vec<Widget>) -> Self {
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Self::FixedHeight(Box::new(self), height, widgets)
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}
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}
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#[derive(Clone, Debug)]
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pub enum Plan {
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FixedHeight(Box<Plan>, usize, Vec<Widget>),
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Fill(Box<Plan>, Vec<Widget>),
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End,
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}
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impl Plan {
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pub fn start() -> Self {
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Self::End
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}
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fn fit_check(widgets: &Vec<Widget>) {
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if widgets
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.into_iter()
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.map(|wd| wd.want_width.abs_size(100))
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.sum::<usize>()
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>= 100
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{
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panic!("widgets do not fit screen")
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}
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}
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fn to_instruction_set(self, max_height: usize) -> Instruction {
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let fill_height = {
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let (reserved_lines, fill_count) = self.count();
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(max_height - reserved_lines) / 1.max(fill_count)
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};
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self.to_instruction_fixed_fill_height(fill_height)
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}
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fn to_instruction_fixed_fill_height(
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self,
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fill_height: usize,
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) -> Instruction {
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match self {
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Plan::FixedHeight(next, height, widgets) => {
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Instruction::FixedHeight(
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Box::new(next.to_instruction_fixed_fill_height(
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fill_height,
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)),
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height,
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widgets,
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)
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}
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Plan::Fill(next, widgets) => {
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Instruction::FixedHeight(
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Box::new(next.to_instruction_fixed_fill_height(
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fill_height,
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)),
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fill_height,
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widgets,
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)
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}
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Plan::End => Instruction::End,
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}
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}
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// counts how many lines are fixed height, those lines
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// are reserved, and the rest may be split between fills.
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// the return value is (reserved_lines, fill_count)
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// so, fill_height should be reserved_lines/fill_count
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fn count(&self) -> (usize, usize) {
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match self {
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Plan::FixedHeight(next, h, _) => {
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let next = next.count();
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(next.0 + h, next.1)
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}
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Plan::Fill(next, _) => {
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let next = next.count();
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(next.0, next.1 + 1)
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}
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Plan::End => (0, 0),
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}
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}
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pub fn line(self, widgets: Vec<Widget>) -> Self {
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self.fixed(1, widgets)
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}
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pub fn fixed(self, height: usize, widgets: Vec<Widget>) -> Self {
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Self::fit_check(&widgets);
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Self::FixedHeight(Box::new(self), height, widgets)
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}
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pub fn fill(self, widgets: Vec<Widget>) -> Self {
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Self::fit_check(&widgets);
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Self::Fill(Box::new(self), widgets)
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}
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// fn make_line(&self, term_width: u16, )
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// pub fn make(
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// &self,
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// (term_width, term_height): (u16, u16),
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// ) -> String {
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// }
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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fn test_widgets() -> (Widget, Widget, Widget) {
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(
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Widget::new(
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SectionWidth::Third,
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vec![Token::text("hello").centered()],
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),
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Widget::new(
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SectionWidth::Third,
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vec![Token::text("hello")
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.pad_char('*', 16)
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.bg(Color::RED)],
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),
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Widget::new(
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SectionWidth::Third,
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vec![Token::text("hello").limited(16).padded(20)],
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),
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)
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}
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#[test]
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fn test_instructions_to_components() {
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const WIDTH: usize = 120;
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const HEIGHT: usize = 40;
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let (w1, w2, w3) = test_widgets();
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vec![
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(
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"all the widgets, 30 lines",
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Instruction::start().fixed(
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30,
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vec![w1.clone(), w2.clone(), w3.clone()],
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),
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w1.clone()
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.get_line(0)
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.unwrap()
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.clone()
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.with_width(WIDTH / 3)
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.into_iter()
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.chain(vec![Component::X(WIDTH / 3)])
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.chain(
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w2.clone()
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.get_line(0)
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.unwrap()
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.clone()
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.with_width(WIDTH / 3),
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)
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.chain(vec![Component::X((WIDTH / 3) * 2)])
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.chain(
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w3.clone()
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.get_line(0)
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.unwrap()
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.clone()
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.with_width(WIDTH / 3),
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)
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.chain(vec![Component::NextLine])
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.chain(
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(1..30)
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.map(|_| {
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vec![
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Component::X(WIDTH / 3),
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Component::X((WIDTH / 3) * 2),
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Component::NextLine,
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]
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})
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.flatten(),
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)
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.chain(
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(0..(HEIGHT - 30))
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.map(|_| Component::NextLine),
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)
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.collect::<Vec<Component>>(),
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),
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(
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"Single widget, single 10 lines section",
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Instruction::start().fixed(10, vec![w1.clone()]),
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w1.clone()
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.get_line(0)
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.unwrap()
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.clone()
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.with_width(WIDTH / 3)
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.into_iter()
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.chain(
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(0..10)
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.map(|_| {
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vec![
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Component::X(WIDTH / 3),
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Component::NextLine,
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]
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})
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.flatten(),
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)
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.chain(
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(0..(HEIGHT - 10))
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.map(|_| Component::NextLine),
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)
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.collect(),
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),
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]
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.into_iter()
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.for_each(|(name, instruction, expected)| {
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let actual = instruction.into_components(WIDTH, HEIGHT);
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assert!(
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expected == actual,
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"<{}>:
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expected({}):\n{:#?}
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actual({}):\n{:#?}",
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name,
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expected.len(),
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expected,
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actual.len(),
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actual,
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);
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});
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}
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#[test]
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fn test_plan_to_instructions() {
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const HEIGHT: usize = 40;
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let (widget_1, widget_2, widget_3) = test_widgets();
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vec![
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("end -> end", Plan::start(), Instruction::End),
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(
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"fill entire screen",
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Plan::start().fill(vec![]),
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Instruction::start().fixed(HEIGHT, vec![]),
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),
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(
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"5 | fill | 5 -> 5 | HEIGHT - 5 - 5 | 5",
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Plan::start()
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.fixed(5, vec![widget_1.clone()])
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.fill(vec![widget_3.clone()])
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.fixed(5, vec![widget_2.clone()]),
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Instruction::start()
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.fixed(5, vec![widget_1.clone()])
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.fixed(HEIGHT - 5 - 5, vec![widget_3.clone()])
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.fixed(5, vec![widget_2.clone()]),
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),
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(
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"5 | 5 | fill -> 5 | 5 | HEIGHT - 5 - 5",
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Plan::start()
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.fixed(5, vec![widget_3.clone()])
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.fixed(5, vec![widget_2.clone()])
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.fill(vec![widget_1.clone()]),
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Instruction::start()
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.fixed(5, vec![widget_3.clone()])
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.fixed(5, vec![widget_2.clone()])
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.fixed(HEIGHT - 5 - 5, vec![widget_1.clone()]),
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),
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(
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"fill -> HEIGHT",
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Plan::start().fill(vec![widget_1.clone()]),
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Instruction::start()
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.fixed(HEIGHT, vec![widget_1.clone()]),
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),
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(
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"
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5 | fill | 5 | fill | 5
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->
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5 | (HEIGHT - 15) / 2 | 5 | (HEIGHT - 15) / 2 | 5\n",
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Plan::start()
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.fixed(
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5,
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vec![widget_1.clone(), widget_2.clone()],
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)
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.fill(vec![widget_1.clone(), widget_3.clone()])
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.fixed(5, vec![])
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.fill(vec![widget_2.clone()])
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.fixed(
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5,
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vec![widget_3.clone(), widget_2.clone()],
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),
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Instruction::start()
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.fixed(
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5,
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vec![widget_1.clone(), widget_2.clone()],
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)
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.fixed(
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(HEIGHT - 15) / 2,
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vec![widget_1.clone(), widget_3.clone()],
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)
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.fixed(5, vec![])
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.fixed((HEIGHT - 15) / 2, vec![widget_2.clone()])
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.fixed(
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5,
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vec![widget_3.clone(), widget_2.clone()],
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),
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),
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]
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.into_iter()
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.for_each(|(name, plan, expected)| {
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eprintln!("running test <{}>", &name);
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let actual = plan.to_instruction_set(HEIGHT);
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assert!(
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expected == actual,
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"<{}>: not equal!
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expected:\n{:#?}
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actual:\n{:#?}",
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&name,
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expected,
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actual,
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);
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})
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}
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}
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