commit

2023-05-30 21:46:04 -04:00 · 2023-05-30 21:46:04 -04:00 · 3e9f05bbfd
commit 3e9f05bbfd
parent ee26b6133a
11 changed files with 222 additions and 174 deletions
--- a/index.html
+++ b/index.html
@ -16,24 +16,25 @@
 				<textarea id="srcinput"></textarea>
 			</div>
 			<div id="canvas_container" class="split right">
 				<!-- canvas -->
 			</div>
 		</div>
 	</div>
 	<script type="module">
 		import init, * as cxgraph from "./pkg/cxgraph.js";
 		await init();
 		await cxgraph.load_shader("plot(z) = z");
 		await cxgraph.redraw();
 		let canvas = document.getElementsByTagName("canvas")[0];
 		canvas.style.width = "100%";
 		canvas.style.height = "100%";
 		await cxgraph.load_shader("f(z) = z^8 + 15z^4 - 16\nfp(z) = 8z^7 + 60z^3\nn(z) = z - f(z)/fp(z)\nni: iter n, 60\nplot(z) = f(z)");
 		await cxgraph.redraw();
 		let canvas = document.getElementsByTagName("canvas")[0];
 		new ResizeObserver(async () => {
-			//console.log("resize");
+			let width = canvas.clientWidth;
-			//let width = canvas.clientWidth;
+			let height = canvas.clientHeight;
-			//let height = canvas.clientHeight;
+			await cxgraph.resize(width*2, height*2);
-			//await cxgraph.resize(width, height);
+			await cxgraph.set_bounds(-5*width/height, -5, 5*width/height, 5);
-			//await cxgraph.redraw();
+			await cxgraph.redraw();
 		}).observe(canvas);
 	</script>
 </body>
--- a/src/language/compiler.rs
+++ b/src/language/compiler.rs
@ -2,7 +2,7 @@ use std::{collections::{HashMap, HashSet}, fmt::Write};
 use crate::complex::{Complex, cxfn};
-use super::parser::{Expr, Stmt, UnaryOp, BinaryOp};
+use super::parser::{Expr, Stmt, UnaryOp, BinaryOp, Defn};
 #[derive(Clone, Debug)]
 pub enum CompileError<'s> {
@ -85,10 +85,10 @@ type LocalTable<'s> = HashSet<&'s str>;
 type CompileResult<'s,T=()> = Result<T, CompileError<'s>>;
-pub fn compile<'s>(buf: &mut impl Write, stmts: &[Stmt<'s>]) -> CompileResult<'s> {
+pub fn compile<'s>(buf: &mut impl Write, defns: &[Defn<'s>]) -> CompileResult<'s> {
 	let mut compiler = Compiler::new(buf);
-	for stmt in stmts {
+	for defn in defns {
-		compiler.compile_stmt(stmt)?;
+		compiler.compile_defn(defn)?;
 	}
 	Ok(())
 }
@ -110,18 +110,16 @@ impl <'s, 'w, W: Write> Compiler<'s, 'w, W> {
 	//  Statements  //
 	//////////////////
-    fn compile_stmt(&mut self, stmt: &Stmt<'s>) -> CompileResult<'s> {
+    fn compile_defn(&mut self, defn: &Defn<'s>) -> CompileResult<'s> {
-        let res = match stmt {
+        let res = match defn {
-            Stmt::Const { name, body } => self.stmt_const(name, body),
+            Defn::Const { name, body } => self.defn_const(name, body),
-            Stmt::Func { name, args, body } => self.stmt_func(name, args, body),
+            Defn::Func { name, args, body } => self.defn_func(name, args, body),
            Stmt::Deriv { name, func } => self.stmt_deriv(name, func),
            Stmt::Iter { name, func, count } => self.stmt_iter(name, func, *count),
        };
 		writeln!(self.buf)?;
 		res
    }
-	fn stmt_const(&mut self, name: &'s str, body: &Expr<'s>) -> CompileResult<'s> {
+	fn defn_const(&mut self, name: &'s str, body: &Expr<'s>) -> CompileResult<'s> {
 		if self.name_info(name, None).is_some() {
 			return Err(CompileError::Reassignment(name))
 		}
@ -136,7 +134,7 @@ impl <'s, 'w, W: Write> Compiler<'s, 'w, W> {
 		Ok(())
 	}
-	fn stmt_func(&mut self, name: &'s str, args: &[&'s str], body: &Expr<'s>) -> CompileResult<'s> {
+	fn defn_func(&mut self, name: &'s str, args: &[&'s str], body: &(Vec<Stmt<'s>>, Expr<'s>)) -> CompileResult<'s> {
 		if self.name_info(name, None).is_some() {
 			return Err(CompileError::Reassignment(name))
 		}
@ -150,7 +148,7 @@ impl <'s, 'w, W: Write> Compiler<'s, 'w, W> {
 			locals.insert(arg);
 		}
 		write!(self.buf, ")->vec2f{{return ")?;
-		self.compile_expr(&locals, body)?;
+		self.compile_expr(&locals, &body.1)?;
 		write!(self.buf, ";}}")?;
 		Ok(())
 	}
--- a/src/language/mod.rs
+++ b/src/language/mod.rs
@ -17,7 +17,7 @@ pub struct Position {
 #[derive(Clone, Debug)]
 pub enum Error<'s> {
-	Parse(ParseError<'s>),
+	Parse(ParseError),
 	Compile(CompileError<'s>),
 }
@ -27,16 +27,19 @@ impl <'s> From<CompileError<'s>> for Error<'s> {
    }
 }
-impl <'s> From<ParseError<'s>> for Error<'s> {
+impl <'s> From<ParseError> for Error<'s> {
-    fn from(value: ParseError<'s>) -> Self {
+    fn from(value: ParseError) -> Self {
        Self::Parse(value)
    }
 }
 pub fn compile(src: &str) -> Result<String, Error> {
 	let mut buf = String::new();
-	let stmts = parser::Parser::new(src).parse()?;
+	println!("parsing");
-	let stmts = optimize(stmts);
+	let defns = parser::Parser::new(src).parse()?;
-	compiler::compile(&mut buf, &stmts)?;
+	println!("optimizing");
 	let defns = optimize(defns);
 	println!("compiling");
 	compiler::compile(&mut buf, &defns)?;
 	Ok(buf)
 }
--- a/src/language/optimizer.rs
+++ b/src/language/optimizer.rs
@ -1,6 +1,6 @@
 use crate::complex::{Complex, cxfn};
-use super::{parser::{Expr, UnaryOp, BinaryOp, Stmt}, compiler::{BUILTINS, Type}};
+use super::{parser::{Expr, UnaryOp, BinaryOp, Stmt, Defn}, compiler::{BUILTINS, Type}};
 fn apply_unary(op: UnaryOp, arg: Complex) -> Complex {
 	match op {
@ -20,14 +20,29 @@ fn apply_binary(op: BinaryOp, u: Complex, v: Complex) -> Complex {
 	}
 }
-pub fn optimize(stmts: Vec<Stmt>) -> Vec<Stmt> {
+pub fn optimize(defns: Vec<Defn>) -> Vec<Defn> {
-	stmts.into_iter().map(|s| match s {
+	defns.into_iter().map(|s| match s {
-		Stmt::Const { name, body } => Stmt::Const { name, body: optimize_expr(body) },
+		Defn::Const { name, body } => Defn::Const { name, body: optimize_expr(body) },
-		Stmt::Func { name, args, body } => Stmt::Func { name, args, body: optimize_expr(body) },
+		Defn::Func { name, args, body } => {
 			let stmts = body.0.into_iter()
 				.map(optimize_stmt).collect();
 			let expr = optimize_expr(body.1);
 			Defn::Func { name, args, body: (stmts, expr) }
 		}
 		_ => s,
 	}).collect()
 }
 fn optimize_stmt(stmt: Stmt) -> Stmt {
 	match stmt {
 		Stmt::Expr(e) => Stmt::Expr(optimize_expr(e)),
 		Stmt::Store(v, e) => Stmt::Store(v, optimize_expr(e)),
 		Stmt::Iter(v, min, max, stmts) => Stmt::Iter(v, min, max,
 			stmts.into_iter().map(optimize_stmt).collect()
 		)
 	}
 }
 fn optimize_expr<'s>(e: Expr<'s>) -> Expr<'s> {
 	match e {
 		Expr::Unary(op, arg) => {
--- a/src/language/parser.rs
+++ b/src/language/parser.rs
@ -5,14 +5,11 @@ use crate::complex::Complex;
 use super::{scanner::{Scanner, Token}, Position};
 #[derive(Clone, Debug)]
-pub enum ParseError<'s> {
+pub struct ParseError {
-	UnexpectedExpr(Position, Expr<'s>),
+	msg: String,
-	Unexpected(Position, Token<'s>),
+	pos: Option<Position>,
 	Expected(Position, Token<'s>),
 	InvalidLValue(Position),
 	InvalidFunction(Expr<'s>),
 	UnexpectedEof,
 }
 #[derive(Debug, Clone, Copy)]
 pub enum BinaryOp {
 	Add, Sub, Mul, Div, Pow,
@ -73,10 +70,14 @@ pub enum Expr<'s> {
 #[derive(Debug)]
 pub enum Stmt<'s> {
 	Expr(Expr<'s>),
 	Store(&'s str, Expr<'s>),
 	Iter(&'s str, u32, u32, Vec<Stmt<'s>>),
 }
 pub enum Defn<'s> {
 	Const { name: &'s str, body: Expr<'s> },
-	Func { name: &'s str, args: Vec<&'s str>, body: Expr<'s> },
+	Func { name: &'s str, args: Vec<&'s str>, body: (Vec<Stmt<'s>>, Expr<'s>) },
 	Deriv { name: &'s str, func: &'s str },
 	Iter { name: &'s str, func: &'s str, count: u32 }
 }
 pub struct Parser<'s> {
@ -90,20 +91,46 @@ impl <'s> Parser<'s> {
 		}
 	}
-	fn expect(&mut self, tok: Token<'s>) -> Result<Position, ParseError<'s>> {
+	fn next(&mut self) -> Result<(Position, Token<'s>), ParseError> {
-		match self.scanner.peek() {
+		match self.scanner.next() {
-			Some((p, t)) if *t == tok => {
+			Some(r) => Ok(r),
-				let p = *p;
+			None => Err(self.err_here("Unexpected EOF")),
 				self.scanner.next();
 				Ok(p)
 			},
 			Some((p, _)) => Err(ParseError::Expected(*p, tok)),
 			None => Err(ParseError::UnexpectedEof),
 		}
 	}
-	fn expr(&mut self, min_prec: u32) -> Result<Expr<'s>, ParseError<'s>> {
+	fn peek(&mut self) -> Result<(Position, Token<'s>), ParseError> {
-		let (pos, tok) = self.scanner.next().unwrap();
+		match self.scanner.peek() {
 			Some(r) => Ok(*r),
 			None => Err(self.err_here("Unexpected EOF")),
 		}
 	}
 	fn at_end(&mut self) -> bool {
 		self.scanner.peek().is_none()
 	}
 	fn expect(&mut self, tok: Token<'s>) -> Result<Position, ParseError> {
 		match self.peek()? {
 			(p, t) if t == tok => {
 				self.next()?;
 				Ok(p)
 			},
 			(p, t) => Err(self.err_at(format!("Unexpected token {t:?}, expected {tok:?}"), p)),
 		}
 	}
 	fn err_here<S>(&mut self, msg: S) -> ParseError
 	where S: Into<String> {
 		ParseError { msg: msg.into(), pos: self.peek().map(|(p,_)| p).ok() }
 	}
 	fn err_at<S>(&mut self, msg: S, pos: Position) -> ParseError
 	where S: Into<String> {
 		ParseError { msg: msg.into(), pos: Some(pos) }
 	}
 	fn expr(&mut self, min_prec: u32) -> Result<Expr<'s>, ParseError> {
 		let (pos, tok) = self.next()?;
 		let mut expr = match tok {
 			Token::Number(n) => Expr::Number(Complex::from(n)),
 			Token::Name(n) => Expr::Name(n),
@ -115,37 +142,38 @@ impl <'s> Parser<'s> {
 			tok => if let Some(op) = UnaryOp::from_token(tok) {
 				Expr::Unary(op, Box::new(self.expr(op.precedence())?))
 			} else {
-				return Err(ParseError::Unexpected(pos, tok))
+				return Err(self.err_at(format!("Unexpected token {:?}", tok), pos))
 			}
 		};
-		while let Some((_, tok)) = self.scanner.peek() {
+		while let Ok((_, tok)) = self.peek() {
 			if is_closing(&tok) {
 				break;
 			}
 			expr = match tok {
 				Token::Equal | Token::Colon | Token::RParen | Token::Newline | Token::Comma => break,
 				Token::LParen => {
-					self.scanner.next();
+					self.next()?;
 					let mut args = Vec::new();
-					while !matches!(self.scanner.peek(), None | Some((_, Token::RParen))) {
+					while !matches!(self.peek(), Err(_) | Ok((_, Token::RParen))) {
 						args.push(self.expr(0)?);
-						match self.scanner.peek() {
+						match self.peek()?.1 {
-							Some((_, Token::Comma)) => { self.scanner.next(); },
+							Token::Comma => { self.next()?; },
-							Some((_, Token::RParen)) => break,
+							Token::RParen => break,
-							Some((pos, _)) => return Err(ParseError::Expected(*pos, Token::RParen)),
+							_ => return Err(self.err_here(format!("Unexpected token {:?}, expected ',' or ')'", tok)))
 							None => return Err(ParseError::UnexpectedEof),
 						}
 					}
 					self.expect(Token::RParen)?;
 					match expr {
 						Expr::Name(name) => Expr::FnCall(name, args),
-						_ => return Err(ParseError::InvalidFunction(expr)),
+						_ => return Err(self.err_here("Cannot call this expression"))
 					}
 				},
-				tok => if let Some(op) = BinaryOp::from_token(*tok) {
+				tok => if let Some(op) = BinaryOp::from_token(tok) {
 					let (lp, rp) = op.precedence();
 					if lp < min_prec {
 						break;
 					}
-					self.scanner.next();
+					self.next()?;
 					let rhs = self.expr(rp)?;
 					Expr::Binary(op, Box::new(expr), Box::new(rhs))
 				} else {
@ -162,98 +190,83 @@ impl <'s> Parser<'s> {
 		Ok(expr)
 	}
-	pub fn parse_stmt_equals(&mut self, lhs_pos: Position, lhs: Expr<'s>) -> Result<Stmt<'s>, ParseError<'s>> {
+	fn stmt(&mut self) -> Result<Stmt<'s>, ParseError> {
-		if self.scanner.peek().is_none() {
+		let expr = self.expr(0)?;
-			return Err(ParseError::UnexpectedEof)
+		match self.peek()?.1 {
-		}
+			Token::Arrow => {
-
+				self.next()?;
-		let rhs = self.expr(0)?;
+				let name = match self.next()? {
-
+					(_, Token::Name(name)) => name,
-		if self.scanner.peek().is_some() {
+					(p, t) => return Err(self.err_at(format!("Unexpected token {t:?}, expected a name"), p))
-			self.expect(Token::Newline)?;
+				};
-		}
+				Ok(Stmt::Store(name, expr))
 		match lhs {
 			Expr::Name(name) => Ok(Stmt::Const { name, body: rhs }),
 			Expr::FnCall(name, args) => {
 				let mut arg_names = Vec::with_capacity(args.len());
 				for arg in args {
 					if let Expr::Name(name) = arg {
 						arg_names.push(name);
 					}
 				}
 				Ok(Stmt::Func { name, args: arg_names, body: rhs })
 			}
-			_ => return Err(ParseError::InvalidLValue(lhs_pos))
+			_ => Ok(Stmt::Expr(expr))
 		}
 	}
-	pub fn parse_stmt_deriv(&mut self, lhs_pos: Position, lhs: Expr<'s>) -> Result<Stmt<'s>, ParseError<'s>> {
+	fn stmts(&mut self) -> Result<Vec<Stmt<'s>>, ParseError> {
 		if self.scanner.peek().is_none() {
 			return Err(ParseError::UnexpectedEof)
 		}
 		let pos = self.scanner.peek().unwrap().0;
 		let f = self.expr(0)?;
 		match (lhs, f) {
 			(Expr::Name(name), Expr::Name(func)) => Ok(Stmt::Deriv { name, func }),
 			(Expr::Name(_), f) => Err(ParseError::UnexpectedExpr(pos, f)),
 			(lhs, _) => Err(ParseError::UnexpectedExpr(lhs_pos, lhs)),
 		}
 	}
 	pub fn parse_stmt_iter(&mut self, lhs_pos: Position, lhs: Expr<'s>) -> Result<Stmt<'s>, ParseError<'s>> {
 		let Expr::Name(name) = lhs else {
 			return Err(ParseError::UnexpectedExpr(lhs_pos, lhs))
 		};
 		if self.scanner.peek().is_none() {
 			return Err(ParseError::UnexpectedEof)
 		}
 		let pos = self.scanner.peek().unwrap().0;
 		let func = self.expr(0)?;
 		let Expr::Name(func) = func else {
 			return Err(ParseError::UnexpectedExpr(pos, func))
 		};
 		self.expect(Token::Comma)?;
 		if self.scanner.peek().is_none() {
 			return Err(ParseError::UnexpectedEof)
 		}
 		let pos = self.scanner.peek().unwrap().0;
 		let count = self.expr(0)?;
 		let Expr::Number(count) = count else {
 			return Err(ParseError::UnexpectedExpr(pos, count))
 		};
 		Ok(Stmt::Iter { name, func, count: count.re as u32 })
 	}
 	pub fn parse(&mut self) -> Result<Vec<Stmt<'s>>, ParseError<'s>> {
 		let mut stmts = Vec::new();
-		while self.scanner.peek().is_some() {
+		loop {
-			while matches!(self.scanner.peek(), Some((_, Token::Newline))) {
+			stmts.push(self.stmt()?);
-				self.scanner.next();
+			if !matches!(self.peek(), Ok((_, Token::Comma))) {
 				break
 			}
-
+			self.next()?;
 			if self.scanner.peek().is_none() {
 				break;
 			}
 			let lhs_pos = self.scanner.peek().unwrap().0;
 			let lhs = self.expr(0)?;
 			let stmt = match self.scanner.next() {
 				Some((_, Token::Equal)) => self.parse_stmt_equals(lhs_pos, lhs)?,
 				Some((_, Token::Colon)) => match self.scanner.next() {
 					Some((_, Token::Name("deriv"))) => self.parse_stmt_deriv(lhs_pos, lhs)?,
 					Some((_, Token::Name("iter"))) => self.parse_stmt_iter(lhs_pos, lhs)?,
 					Some((pos, tok)) => return Err(ParseError::Unexpected(pos, tok)),
 					None => return Err(ParseError::UnexpectedEof),
 				}
 				Some((pos, tok)) => return Err(ParseError::Unexpected(pos, tok)),
 				None => return Err(ParseError::UnexpectedEof),
 			};
 			stmts.push(stmt);
 		}
 		Ok(stmts)
 	}
 	pub fn parse(&mut self) -> Result<Vec<Defn<'s>>, ParseError> {
 		println!("parse");
 		let mut defns = Vec::new();
 		while self.peek().is_ok() {
 			println!("parse loop");
 			while matches!(self.peek(), Ok((_, Token::Newline))) {
 				self.next()?;
 			}
 			if self.peek().is_err() {
 				break;
 			}
 			let lhspos = self.peek()?.0;
 			let lhs = self.expr(0)?;
 			self.expect(Token::Equal)?;
 			let defn = match lhs {
 				Expr::Name(name) => {
 					let rhs = self.expr(0)?;
 					Defn::Const { name, body: rhs }
 				},
 				Expr::FnCall(name, args) => {
 					let mut rhs = self.stmts()?;
 					let last = rhs.pop().ok_or(self.err_here("Empty function body"))?;
 					let Stmt::Expr(last) = last else {
 						return Err(self.err_here("Last statement in function body must be a plain expression"))
 					};
 					let args = args.iter()
 						.map(|a| match a {
 							Expr::Name(n) => Ok(*n),
 							_ => Err(self.err_at("Invalid function declaration", lhspos))
 						}).collect::<Result<Vec<&str>, ParseError>>()?;
 					Defn::Func { name, args, body: (rhs, last) }
 				},
 				_ => return Err(self.err_at("Invalid lvalue, expected a name or function call", lhspos)),
 			};
 			defns.push(defn);
 			if self.at_end() {
 				break
 			}
 			self.expect(Token::Newline)?;
 		}
 		Ok(defns)
 	}
 }
 fn is_closing(tok: &Token) -> bool {
 	matches!(tok, Token::Equal | Token::RParen | Token::Newline | Token::Comma | Token::Arrow)
 }
--- a/src/language/scanner.rs
+++ b/src/language/scanner.rs
@ -14,7 +14,7 @@ pub enum Token<'s> {
 	Caret,
 	Equal,
 	Comma,
-	Colon,
+	Arrow,
 	LParen,
 	RParen,
 	Newline,
@ -90,11 +90,13 @@ impl <'s> Scanner<'s> {
 		let tok = match self.next().unwrap() {
 			'\n' => Token::Newline,
 			'+' => Token::Plus,
-			'-' => Token::Minus,
+			'-' => match self.peek().unwrap() {
 				'>' => { self.next(); Token::Arrow },
 				_ => Token::Minus,
 			}
 			'*' => Token::Star,
 			'/' => Token::Slash,
 			'^' => Token::Caret,
 			':' => Token::Colon,
 			'=' => Token::Equal,
 			',' => Token::Comma,
 			'(' => Token::LParen,
--- a/src/main.rs
+++ b/src/main.rs
@ -8,9 +8,7 @@ fn main() {
 		.init();
 	let src = r#"
-		f(z, c) = z^2 + c
+        plot(z) = z^2 -> w, z*w
 		g: iter f, 100
 		plot(z) = g(z, z)
 	"#;
 	let wgsl = compile(src).unwrap();
 	println!("{wgsl}");
--- a/src/renderer/mod.rs
+++ b/src/renderer/mod.rs
@ -207,7 +207,7 @@ impl WgpuState {
 	}
 	pub fn resize(&mut self, size: (u32, u32)) {
-		let size = (size.0.max(1).min(2048), size.1.max(1).min(2048));
+		let size = (size.0.max(1).min(8192), size.1.max(1).min(8192));
 		self.config.width = size.0;
 		self.config.height = size.1;
 		self.surface.configure(&self.device, &self.config);
--- a/src/renderer/shader.wgsl
+++ b/src/renderer/shader.wgsl
@ -190,16 +190,22 @@ fn shademap(r: f32) -> f32 {
    return r*inverseSqrt(r * r + 0.0625 * uniforms.shading_intensity)*0.9875 + 0.0125;
 }
-@fragment
+fn colorfor(w: vec2f) -> vec3f {
-fn fs_main(@builtin(position) in: vec4f) -> @location(0) vec4f {
+	let z = func_plot(w);
 	let pos = vec2(in.x, f32(uniforms.resolution.y) - in.y);
 	var z = remap(pos, vec2(0.0), vec2f(uniforms.resolution), uniforms.bounds_min, uniforms.bounds_max);
 	z = func_plot(z);
 	let r = sqrt(z.x*z.x + z.y*z.y);
 	let arg = atan2(z.y, z.x);
 	let hsv = vec3f(arg / TAU + 1.0, shademap(1.0/r), shademap(r));
-	let col = pow(hsv2rgb(hsv), vec3(2.0));
+	return pow(hsv2rgb(hsv), vec3(2.0));
 }
@fragment
 fn fs_main(@builtin(position) in: vec4f) -> @location(0) vec4f {
 	let pos = vec2(in.x, f32(uniforms.resolution.y) - in.y);
 	let z = remap(pos, vec2(0.0), vec2f(uniforms.resolution), uniforms.bounds_min, uniforms.bounds_max);
 	//let dz = z - remap(pos + vec2f(1.0), vec2(0.0), vec2f(uniforms.resolution), uniforms.bounds_min, uniforms.bounds_max);
 	let col = colorfor(z);
 	return vec4f(col, 1.0);
 }
--- a/src/wasm.rs
+++ b/src/wasm.rs
@ -26,7 +26,7 @@ pub async fn start() {
 	let event_loop = EventLoop::new();
 	let window = Window::new(&event_loop).unwrap();
-	window.set_inner_size(PhysicalSize::new(1200, 1200));
+	window.set_inner_size(PhysicalSize::new(100, 100));
 	web_sys::window()
 		.and_then(|win| win.document())
 		.and_then(|doc| {
--- a/style.css
+++ b/style.css
@ -4,32 +4,44 @@
 }
 body {
-	height: 100%;
+	min-height: 100vh;
 	max-height: 100vh;
 	overflow: hidden;
 	--header-height: 50px;
 	--sidebar-width: 500px;
 }
 #main {
 	min-height: 100vh;
-	display: flex;
+	max-height: 100vh;
 	flex-direction: column;
 }
 #header {
-	height: 50px;
+	height: var(--header-height);
 }
 #content {
 	display: flex;
 	flex: 1;
 	width: 100vw;
 	height: calc(100vh - var(--header-height));
 	display: flex;
 }
 #sidebar {
-	flex: 1;
+	width: var(--sidebar-width);
 	height: inherit;
 }
 #canvas_container {
-	flex: 3;
+	width: calc(100vw - var(--sidebar-width));
 	height: inherit;
 }
 #sidebar textarea {
 	width: calc(100% - 24px);
 	margin-left: 10px;
 	height: 99%;
 	resize: none;
 	font-size: 16px;
 }
 canvas {