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Author SHA1 Message Date
Dennis Ranke
0e7ea508cd add memory.fill/memory.copy intrinsics 2022-06-11 23:31:02 +02:00
Dennis Ranke
0a0d90c801 add some docs, allow leading zeros in literals 2022-05-08 19:21:19 +02:00
Dennis Ranke
c22297ea82 fix <| not parsing 2022-05-08 00:06:38 +02:00
Dennis Ranke
c59b35f9c6 fix #<= and #>= not parsing 2022-05-07 23:59:40 +02:00
Dennis Ranke
2cf47085c1 add support for +:= etc. 2022-05-07 23:51:25 +02:00
Dennis Ranke
01d64baaab implement binop-assignment (+= etc.) 2022-05-07 20:30:16 +02:00
Dennis Ranke
a52fe53a01 fix let lazy/inline chains re-using the same variable 2022-05-07 18:33:26 +02:00
Dennis Ranke
1e746be750 add support for 'if else', change hex escapes to '\ab' 2022-05-06 09:03:13 +02:00
Dennis Ranke
4cfc7ae8a8 add support for escaped strings + (multi-)char literatls 2022-05-06 01:23:31 +02:00
Dennis Ranke
aac7bbd878 implement _f literal suffix as shortcut for NUM as f32 2022-04-10 23:58:18 +02:00
Dennis Ranke
ebc701e2f2 fix != operator failing to parse 2022-04-09 08:51:23 +02:00
Dennis Ranke
557c3a8426 always return dependencies, even when hitting an error 2022-03-05 21:02:58 +01:00
Dennis Ranke
896385654a return dependencies for compiling cwa source 2022-02-27 21:26:55 +01:00
Dennis Ranke
cda3eb868b fix "i?SCREEN = 0" being parsed as "i?(SCREEN = 0)" 2022-02-26 21:00:01 +01:00
Dennis Ranke
5f316cf17d add new features to readme 2022-02-26 12:14:31 +01:00
Dennis Ranke
e608d3bb4b implement const 2022-02-26 11:46:38 +01:00
17 changed files with 822 additions and 346 deletions
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105
README.md
View File

@@ -56,6 +56,14 @@ Then run it on [MicroW8](https://exoticorn.github.io/microw8/v0.1pre2)
*/ */
``` ```
### Include
Other sourcefiles can be included with the `include` top level statement:
```
include "platform_imports.cwa"
```
### Types ### Types
There are four types in WebAssembly and therefore CurlyWas: There are four types in WebAssembly and therefore CurlyWas:
@@ -81,16 +89,25 @@ For floating point numbers, only the most basic decimal format is currently impl
0.464, 3.141, -10.0 0.464, 3.141, -10.0
``` ```
String literals exist in a very basic form. No escape character implemented yet. String literals are used for include paths, import names and as literal strings in the data section. The following escapes are supported:
| Escape | Result | Comment |
| `\"` | `"` | |
| `\'` | `'` | |
| `\t` | 8 | |
| `\n` | 10 | |
| `\r` | 13 | |
| `\N` | 0x0N | (Can't be followed by a hex digit) |
| `\NN` | 0xNN | |
``` ```
"env.memory", "Hello World!" "env.memory", "Hello World!"
this does not work, yet:
"one line\nsecond line", "They said: \"Enough!\"" "one line\nsecond line", "They said: \"Enough!\""
``` ```
Character literals are enclosed in single quotes `'` and support the same escapes as strings. They can contain up to 4 characters and evaluate to the
little-endian representation of these characters. For examples: `'A'` evaluates to `0x41`, `'hi'` evaluates to 0x6968, and `'Crly'` to 0x7a6c7243.
### Imports ### Imports
WebAssembly imports are specified with a module and a name. In CurlyWas you give them inside a single string literal, seperated by a dot. So a module `env` and name `printString` would be written `"env.printString"`. WebAssembly imports are specified with a module and a name. In CurlyWas you give them inside a single string literal, seperated by a dot. So a module `env` and name `printString` would be written `"env.printString"`.
@@ -138,6 +155,18 @@ can use it. However, exporting global variable is not yet supported in CurlyWas.
The type is optional, if missing it is inferred from the init value. The type is optional, if missing it is inferred from the init value.
### Constants
Constants can be declared in the global scope:
```
const name[: type] = value;
```
`value` has to be an expression evaluating to a constant value. It may reference other constants.
The type is optional, but if given has to match the type of `value`.
### Functions ### Functions
Functions look like this: Functions look like this:
@@ -275,6 +304,9 @@ So for example this block evaluates to 12:
Blocks are used as function bodies and in flow control (`if`, `block`, `loop`), but can also used at any point inside an expression. Blocks are used as function bodies and in flow control (`if`, `block`, `loop`), but can also used at any point inside an expression.
Variable re-assignments of the form `name = name <op> expression` can be shortened to `name <op>= expression`, for example `x += 1` to increment `x` by one. This works for all arithmetic, bit and shift operators.
The same is allowed for `name := name <op> expression`, ie. `x +:= 1` increments `x` and returns the new value.
#### Flow control #### Flow control
`if condition_expression { if_true_block } [else {if_false_block}]` executes the `if_true_block` if the condition evaluates to a non-zero integer and `if condition_expression { if_true_block } [else {if_false_block}]` executes the `if_true_block` if the condition evaluates to a non-zero integer and
@@ -284,6 +316,17 @@ the `if_false_block` otherwise (if it exists). It can also be used as an express
let a = if 0 { 2 } else { 3 }; // assigns 3 to a let a = if 0 { 2 } else { 3 }; // assigns 3 to a
``` ```
If the `if_false_block` contains exactly one `if` expression or statement you may omit the curly braces, writing `else if` chains like:
```
if x == 0 {
doOneThing()
} else if x == 1 {
doThatOtherThing()
} else {
keepWaiting()
}
```
`block name { ... }` opens a named block scope. A branch statement can be used to jump to the end of the block. Currently, `block` can only be used `block name { ... }` opens a named block scope. A branch statement can be used to jump to the end of the block. Currently, `block` can only be used
as a statement, returning a value from the block is not yet supported. as a statement, returning a value from the block is not yet supported.
@@ -296,15 +339,65 @@ non-zero integer.
#### Memory load/store #### Memory load/store
To read from memory you specify a memory location as `base?offset` or `base!offset`. `?` reads a byte and `!` reads a 32bit word. To read from memory you specify a memory location as `base?offset`, `base!offset` or `base$offset`. `?` reads a byte, `!` reads a 32bit word
and `$` reads a 32bit float.
`base` can be any expression that evaluates to an `i32` while `offset` has to be a constant `i32` value. The effective memory address is the sum of both. `base` can be any expression that evaluates to an `i32` while `offset` has to be a constant `i32` value. The effective memory address is the sum of both.
Writing to memory looks just like an assignment to a memory location: `base?offset = expressoin` and `base!offset = expression`. Writing to memory looks just like an assignment to a memory location: `base?offset = expression`, `base!offset = expression` and `base$offset = expression`.
When reading/writing 32bit words you need to make sure the address is 4-byte aligned. When reading/writing 32bit words you need to make sure the address is 4-byte aligned.
These compile to `i32.load8_u`, `i32.load`, `i32.store8` and `i32.store`. Other WASM load/store instructions will be implemented as intrinsics, but aren't yet. These compile to `i32.load8_u`, `i32.load`, `f32.load`, `i32.store8`, `i32.store` and `f32.store`.
In addition, all wasm memory instructions are available as intrinsics:
```
<load-ins>(<base-address>[, <offset>, [<align>]])
offset defaults to 0, align to the natural alignment: 0 for 8bit loads, 1 for 16bit, 2 for 32 bit and 3 for 64bit.
```
with `<load-ins>` being one of `i32.load`, `i32.load8_u`, `i32.load8_s`, `i32.load16_u`, `i32.load16_s`,
`i64.load`, `i64.load8_u`, `i64.load8_s`, `i64.load16_u`, `i64.load16_s`, `i32.load32_u`, `i32.load32_s`,
`f32.load` and `f64.load`.
```
<store-ins>(<value>, <base-address>[, <offset>, [<align>]])
offset and align defaults are the same as the load intrinsics.
```
with `<store-ins>` being one of `i32.store`, `i32.store8`, `i32.store16`, `i64.store`, `i64.store8`,
`i64.store16`, `i64.store32`, `f32.store` and `f64.store`.
#### Data
Data sections are written in `data` blocks:
```
data <address> {
...
}
```
The content of such a block is loaded at the given address at module start.
Inside the data block you can include 8, 16, 32, 64, f32 or f64 values:
```
i8(1, 255) i16(655350) i32(0x12345678) i64(0x1234567890abcdefi64) f32(1.0, 3.141) f64(0.5f64)
```
Strings:
```
"First line" i8(13, 10) "Second line"
```
And binary files:
```
file("font.bin")
```
#### Advanced sequencing #### Advanced sequencing

37
examples/microw8/palette.cwa
View File

@@ -1,29 +1,8 @@
import "env.memory" memory(4); include "uw8.cwa"
import "env.pow" fn pow(f32, f32) -> f32; const SWEETY = PALETTE + 192 * 4;
import "env.sin" fn sin(f32) -> f32;
import "env.cos" fn cos(f32) -> f32;
import "env.atan2" fn atan2(f32, f32) -> f32;
import "env.tan" fn tan(f32) -> f32;
import "env.atan" fn atan(f32) -> f32;
import "env.rectangle" fn rect(f32, f32, f32, f32, i32);
//export fn tic(time: i32) { export fn upd() {
// let i: i32;
// loop pixels {
// let lazy x = (i % 320) as f32 - 160.5;
// let lazy y = (i / 320 - 120) as f32;
//
// let lazy dist = 4000 as f32 / sqrt(x*x + y*y + 10 as f32);
// let lazy angle = atan2(x, y) * (64.0 / 3.141);
//
// i?120 = ((((dist + time as f32 / 63 as f32) as i32 ^ angle as i32) #% 32 + 32) >> ((dist as i32 - i % 7 * 3) / 40)) + 192;
//
// branch_if (i := i + 1) < 320*240: pixels;
// }
//}
export fn tic(time: i32) {
let i: i32; let i: i32;
loop colors { loop colors {
rect((i % 16 * 15) as f32, (i / 16 * 15) as f32, 15 as f32, 15 as f32, i); rect((i % 16 * 15) as f32, (i / 16 * 15) as f32, 15 as f32, 15 as f32, i);
@@ -43,7 +22,7 @@ start fn gen_palette() {
let lazy a = max(llimit, min(ulimit, c)) * (scale + 0.05); let lazy a = max(llimit, min(ulimit, c)) * (scale + 0.05);
let lazy b = scale * scale * 0.8; let lazy b = scale * scale * 0.8;
let inline v = (select(i < 11*16*3, max(0 as f32, min(a + b - a * b, 1 as f32)), scale) * 255 as f32) as i32; let inline v = (select(i < 11*16*3, max(0 as f32, min(a + b - a * b, 1 as f32)), scale) * 255 as f32) as i32;
(i%3 + i/3*4)?(120+320*240) = v; (i%3 + i/3*4)?PALETTE = v;
avg = (avg + c) * 0.5; avg = (avg + c) * 0.5;
branch_if i := i - 1: gradients; branch_if i := i - 1: gradients;
@@ -56,15 +35,15 @@ start fn gen_palette() {
let lazy first_step = index >= 32; let lazy first_step = index >= 32;
let inline src1 = select(first_step, index % 32 / 2, index * 2); let inline src1 = select(first_step, index % 32 / 2, index * 2);
let inline src2 = select(first_step, (index + 1) % 32 / 2, index * 2 + 1); let inline src2 = select(first_step, (index + 1) % 32 / 2, index * 2 + 1);
let inline c1 = (src1 * 4 + channel)?(120+320*240+192*4); let inline c1 = (src1 * 4 + channel)?SWEETY;
let inline c2 = (src2 * 4 + channel)?(120+320*240+192*4); let inline c2 = (src2 * 4 + channel)?SWEETY;
i?(120+320*240+192*4) = (c1 + c2) * (3 + first_step) / 8; i?SWEETY = (c1 + c2) * (3 + first_step) / 8;
branch_if (i := i - 1) >= 0: expand_sweetie; branch_if (i := i - 1) >= 0: expand_sweetie;
} }
} }
data 120+320*240+192*4 { data SWEETY {
i32( i32(
0x2c1c1a, 0x2c1c1a,
0x5d275d, 0x5d275d,

24
examples/microw8/print.cwa Normal file
View File

@@ -0,0 +1,24 @@
import "env.memory" memory(4);
import "env.printString" fn printString(i32);
import "env.printChar" fn printChar(i32);
export fn upd() {
printChar(12);
printChar('Test');
printChar('\1f\10\10');
printChar('abc\n');
printString(0);
let t = 32!32 / 1000 #% 3;
if t == 0 {
printChar('one');
} else if t == 1 {
printChar('two');
} else {
printChar('many');
}
}
data 0 {
"\0e\64\"Colors!!!\"\0e\1\r\n\0"
}

33
examples/microw8/technotunnel.cwa
View File

@@ -1,24 +1,29 @@
import "env.memory" memory(4); import "env.memory" memory(4);
import "env.sin" fn sin(f32) -> f32; import "env.sin" fn sin(f32) -> f32;
import "env.time" fn time() -> f32;
import "env.setPixel" fn setPixel(i32, i32, i32);
export fn tic(time: i32) { export fn upd() {
let i: i32; let x: i32;
let y: i32;
loop screen { loop screen {
let lazy t = time as f32 / 2000 as f32; let inline t = time() / 2 as f32;
let lazy o = sin(t) * 0.8; let lazy o = sin(t) * 0.75;
let lazy q = (i % 320) as f32 - 160.1; let inline q = x as f32 - 160.5;
let lazy w = (i / 320 - 120) as f32; let inline w = (y - 120) as f32;
let lazy r = sqrt(q*q + w*w); let lazy r = sqrt(q*q + w*w);
let lazy z = q / r; let lazy z = q / r;
let lazy s = z * o + sqrt(z * z * o * o + 1 as f32 - o * o); let lazy s = z * o + sqrt(z * z * o * o + 1 as f32 - o * o);
let lazy q2 = (z * s - o) * 10 as f32 + t; let inline q2 = (z * s - o) * 10 as f32 + t;
let lazy w2 = w / r * s * 10 as f32 + t; let inline w2 = w / r * s * 10 as f32 + t;
let lazy s2 = s * 50 as f32 / r; let inline s2 = s * 100 as f32 / r;
i?120 = max( let inline color = max(
0 as f32, 0 as f32,
((q2 as i32 ^ w2 as i32 & ((s2 + t) * 20 as f32) as i32) & 5) as f32 * ((q2 as i32 ^ w2 as i32 & ((s2 + time()) * 10 as f32) as i32) & 5) as f32 *
(2 as f32 - s2) * 22 as f32 (4 as f32 - s2) as f32
) as i32; ) as i32 - 32;
branch_if (i := i + 1) < 320*240: screen setPixel(x, y, color);
branch_if x := (x + 1) % 320: screen;
branch_if y := (y + 1) % 320: screen;
} }
} }

13
examples/microw8/uw8.cwa Normal file
View File

@@ -0,0 +1,13 @@
import "env.memory" memory(4);
import "env.pow" fn pow(f32, f32) -> f32;
import "env.sin" fn sin(f32) -> f32;
import "env.cos" fn cos(f32) -> f32;
import "env.atan2" fn atan2(f32, f32) -> f32;
import "env.tan" fn tan(f32) -> f32;
import "env.atan" fn atan(f32) -> f32;
import "env.rectangle" fn rect(f32, f32, f32, f32, i32);
const FRAMEBUFFER = 120;
const PALETTE = 0x13000;
const FONT = 0x13400;

11
examples/microw8/warptunnel.cwa
View File

@@ -1,15 +1,16 @@
import "env.memory" memory(2); import "env.memory" memory(2);
import "env.time" fn time() -> f32;
export fn tic(time: i32) { export fn upd() {
let i: i32; let i: i32;
loop pixels { loop pixels {
let lazy x = (i % 320) as f32 - 160.1; let lazy x = (i % 320) as f32 - 160.1;
let lazy y = (i / 320 - 120) as f32; let lazy y = (i / 320 - 120) as f32;
let lazy dist = 10000.0 / (x*x + y*y); let lazy dist = 1024_f / (x*x + y*y);
let lazy t = time as f32 / 20 as f32; let inline t = time() * 4_f;
i?120 = (x * dist + t) as i32 ^ (y * dist + t) as i32; i?120 = (x * dist + t) as i32 ^ (y * dist + t) as i32 | -32;
branch_if (i := i + 1) < 320*240: pixels branch_if (i +:= 1) < 320*240: pixels
} }
} }

6
examples/wasm4/skipahead.cwa
View File

@@ -18,14 +18,14 @@ fn rng(state: i32) -> i32 {
} }
fn set_color(color: i32) -> i32 { fn set_color(color: i32) -> i32 {
?20 = color; 0?20 = color;
6 6
} }
export fn update() { export fn update() {
let y: i32; let y: i32;
let score = pz; let score = pz;
let lazy pad = ?22; let lazy pad = 0?22;
let lazy zero = 0.0; let lazy zero = 0.0;
let lazy control_speed = 0.03; let lazy control_speed = 0.03;
@@ -33,7 +33,7 @@ export fn update() {
f = f * 0.7; f = f * 0.7;
loop lines { loop lines {
?(8003-y) = (score := score / 10) % 10 + 48; (8003-y)?0 = (score := score / 10) % 10 + 48;
let lazy z = (4000 / (y := y + 1) + pz) / 20; let lazy z = (4000 / (y := y + 1) + pz) / 20;
let lazy x = (rng(rng(rng(rng(z)))) >> 30) as f32 - px; let lazy x = (rng(rng(rng(rng(z)))) >> 30) as f32 - px;
let lazy w = 9 as f32 / sqrt(z as f32); let lazy w = 9 as f32 / sqrt(z as f32);

30
src/ast.rs
View File

@@ -8,7 +8,8 @@ pub struct Script {
pub global_vars: Vec<GlobalVar>, pub global_vars: Vec<GlobalVar>,
pub functions: Vec<Function>, pub functions: Vec<Function>,
pub data: Vec<Data>, pub data: Vec<Data>,
pub includes: Vec<Include> pub includes: Vec<Include>,
pub consts: Vec<GlobalConst>,
} }
impl Script { impl Script {
@@ -17,6 +18,7 @@ impl Script {
self.global_vars.append(&mut other.global_vars); self.global_vars.append(&mut other.global_vars);
self.functions.append(&mut other.functions); self.functions.append(&mut other.functions);
self.data.append(&mut other.data); self.data.append(&mut other.data);
self.consts.append(&mut other.consts);
assert!(other.includes.is_empty()); assert!(other.includes.is_empty());
} }
} }
@@ -27,7 +29,8 @@ pub enum TopLevelItem {
GlobalVar(GlobalVar), GlobalVar(GlobalVar),
Function(Function), Function(Function),
Data(Data), Data(Data),
Include(Include) Include(Include),
Const(GlobalConst),
} }
#[derive(Debug)] #[derive(Debug)]
@@ -67,6 +70,14 @@ pub struct GlobalVar {
pub mutable: bool, pub mutable: bool,
} }
#[derive(Debug)]
pub struct GlobalConst {
pub span: Span,
pub name: String,
pub value: Expression,
pub type_: Option<Type>,
}
#[derive(Debug)] #[derive(Debug)]
pub struct Function { pub struct Function {
pub span: Span, pub span: Span,
@@ -170,7 +181,7 @@ pub enum DataType {
F64, F64,
} }
#[derive(Debug)] #[derive(Debug, Clone)]
pub struct MemoryLocation { pub struct MemoryLocation {
pub span: Span, pub span: Span,
pub size: MemSize, pub size: MemSize,
@@ -178,7 +189,7 @@ pub struct MemoryLocation {
pub right: Box<Expression>, pub right: Box<Expression>,
} }
#[derive(Debug)] #[derive(Debug, Clone)]
pub struct Expression { pub struct Expression {
pub type_: Option<Type>, pub type_: Option<Type>,
pub expr: Expr, pub expr: Expr,
@@ -213,9 +224,16 @@ impl Expression {
_ => panic!("Expected F64Const"), _ => panic!("Expected F64Const"),
} }
} }
pub fn is_const(&self) -> bool {
match self.expr {
Expr::I32Const(_) | Expr::I64Const(_) | Expr::F32Const(_) | Expr::F64Const(_) => true,
_ => false,
}
}
} }
#[derive(Debug)] #[derive(Debug, Clone)]
pub enum Expr { pub enum Expr {
Block { Block {
statements: Vec<Expression>, statements: Vec<Expression>,
@@ -355,7 +373,7 @@ pub enum BinOp {
pub enum MemSize { pub enum MemSize {
Byte, Byte,
Word, Word,
Float Float,
} }
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, Ord, PartialOrd)] #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, Ord, PartialOrd)]

160
src/constfold.rs
View File

@@ -1,35 +1,103 @@
use crate::ast; use std::collections::HashMap;
use crate::{
ast,
parser::{Sources, Span},
typecheck::{report_duplicate_definition, report_error},
};
type Result<T> = std::result::Result<T, ()>;
pub fn fold_script(script: &mut ast::Script, sources: &Sources) -> Result<()> {
let mut context = Context {
consts: HashMap::new(),
sources,
};
fold_consts(&mut context, &mut script.consts)?;
pub fn fold_script(script: &mut ast::Script) {
for var in &mut script.global_vars { for var in &mut script.global_vars {
fold_expr(&mut var.value); fold_expr(&context, &mut var.value);
} }
for func in &mut script.functions { for func in &mut script.functions {
fold_expr(&mut func.body); fold_expr(&context, &mut func.body);
} }
for data in &mut script.data { for data in &mut script.data {
fold_expr(&mut data.offset); fold_expr(&context, &mut data.offset);
for values in &mut data.data { for values in &mut data.data {
match values { match values {
ast::DataValues::Array { values, .. } => { ast::DataValues::Array { values, .. } => {
for value in values { for value in values {
fold_expr(value); fold_expr(&context, value);
} }
} }
ast::DataValues::String(_) | ast::DataValues::File { .. } => (), ast::DataValues::String(_) | ast::DataValues::File { .. } => (),
} }
} }
} }
Ok(())
} }
fn fold_mem_location(mem_location: &mut ast::MemoryLocation) { struct Context<'a> {
fold_expr(&mut mem_location.left); consts: HashMap<String, ast::Expr>,
fold_expr(&mut mem_location.right); sources: &'a Sources,
} }
fn fold_expr(expr: &mut ast::Expression) { fn fold_consts(context: &mut Context, consts: &mut [ast::GlobalConst]) -> Result<()> {
let mut spans: HashMap<&str, Span> = HashMap::new();
for cnst in consts.iter_mut() {
if let Some(prev_span) = spans.insert(&cnst.name, cnst.span.clone()) {
report_duplicate_definition(
"Const already defined",
&cnst.span,
&prev_span,
context.sources,
)?;
}
}
while context.consts.len() < consts.len() {
let mut making_progress = false;
for cnst in consts.iter_mut() {
if !context.consts.contains_key(&cnst.name) {
fold_expr(context, &mut cnst.value);
if cnst.value.is_const() {
context
.consts
.insert(cnst.name.clone(), cnst.value.expr.clone());
making_progress = true;
}
}
}
if !making_progress {
break;
}
}
let mut result = Ok(());
for cnst in consts {
if !context.consts.contains_key(&cnst.name) {
result = report_error(
&format!("Failed to fold const '{}'", cnst.name),
&cnst.span,
context.sources,
);
}
}
result
}
fn fold_mem_location(context: &Context, mem_location: &mut ast::MemoryLocation) {
fold_expr(context, &mut mem_location.left);
fold_expr(context, &mut mem_location.right);
}
fn fold_expr(context: &Context, expr: &mut ast::Expression) {
use ast::BinOp::*; use ast::BinOp::*;
match expr.expr { match expr.expr {
ast::Expr::Block { ast::Expr::Block {
@@ -37,15 +105,15 @@ fn fold_expr(expr: &mut ast::Expression) {
ref mut final_expression, ref mut final_expression,
} => { } => {
for stmt in statements { for stmt in statements {
fold_expr(stmt); fold_expr(context, stmt);
} }
if let Some(ref mut expr) = final_expression { if let Some(ref mut expr) = final_expression {
fold_expr(expr); fold_expr(context, expr);
} }
} }
ast::Expr::Let { ref mut value, .. } => { ast::Expr::Let { ref mut value, .. } => {
if let Some(ref mut expr) = value { if let Some(ref mut expr) = value {
fold_expr(expr); fold_expr(context, expr);
} }
} }
ast::Expr::Poke { ast::Expr::Poke {
@@ -53,12 +121,12 @@ fn fold_expr(expr: &mut ast::Expression) {
ref mut value, ref mut value,
.. ..
} => { } => {
fold_mem_location(mem_location); fold_mem_location(context, mem_location);
fold_expr(value); fold_expr(context, value);
} }
ast::Expr::Peek(ref mut mem_location) => fold_mem_location(mem_location), ast::Expr::Peek(ref mut mem_location) => fold_mem_location(context, mem_location),
ast::Expr::UnaryOp { op, ref mut value } => { ast::Expr::UnaryOp { op, ref mut value } => {
fold_expr(value); fold_expr(context, value);
let result = match (op, &value.expr) { let result = match (op, &value.expr) {
(ast::UnaryOp::Negate, ast::Expr::I32Const(value)) => { (ast::UnaryOp::Negate, ast::Expr::I32Const(value)) => {
Some(ast::Expr::I32Const(-*value)) Some(ast::Expr::I32Const(-*value))
@@ -72,6 +140,20 @@ fn fold_expr(expr: &mut ast::Expression) {
(ast::UnaryOp::Negate, ast::Expr::F64Const(value)) => { (ast::UnaryOp::Negate, ast::Expr::F64Const(value)) => {
Some(ast::Expr::F64Const(-*value)) Some(ast::Expr::F64Const(-*value))
} }
(ast::UnaryOp::Negate, ast::Expr::Cast { value, type_ }) => {
if let ast::Expr::I32Const(v) = value.expr {
Some(ast::Expr::Cast {
value: Box::new(ast::Expression {
expr: ast::Expr::I32Const(-v),
span: value.span.clone(),
type_: value.type_,
}),
type_: *type_,
})
} else {
None
}
}
(ast::UnaryOp::Not, ast::Expr::I32Const(value)) => { (ast::UnaryOp::Not, ast::Expr::I32Const(value)) => {
Some(ast::Expr::I32Const((*value == 0) as i32)) Some(ast::Expr::I32Const((*value == 0) as i32))
} }
@@ -90,8 +172,8 @@ fn fold_expr(expr: &mut ast::Expression) {
ref mut right, ref mut right,
.. ..
} => { } => {
fold_expr(left); fold_expr(context, left);
fold_expr(right); fold_expr(context, right);
match (&left.expr, &right.expr) { match (&left.expr, &right.expr) {
(&ast::Expr::I32Const(left), &ast::Expr::I32Const(right)) => { (&ast::Expr::I32Const(left), &ast::Expr::I32Const(right)) => {
let result = match op { let result = match op {
@@ -237,24 +319,28 @@ fn fold_expr(expr: &mut ast::Expression) {
ast::Expr::I32Const(_) ast::Expr::I32Const(_)
| ast::Expr::I64Const(_) | ast::Expr::I64Const(_)
| ast::Expr::F32Const(_) | ast::Expr::F32Const(_)
| ast::Expr::F64Const(_) | ast::Expr::F64Const(_) => (),
| ast::Expr::Variable { .. } => (), ast::Expr::Variable { ref name, .. } => {
ast::Expr::Assign { ref mut value, .. } => fold_expr(value), if let Some(value) = context.consts.get(name) {
ast::Expr::LocalTee { ref mut value, .. } => fold_expr(value), expr.expr = value.clone();
ast::Expr::Loop { ref mut block, .. } => fold_expr(block), }
ast::Expr::LabelBlock { ref mut block, .. } => fold_expr(block), }
ast::Expr::Assign { ref mut value, .. } => fold_expr(context, value),
ast::Expr::LocalTee { ref mut value, .. } => fold_expr(context, value),
ast::Expr::Loop { ref mut block, .. } => fold_expr(context, block),
ast::Expr::LabelBlock { ref mut block, .. } => fold_expr(context, block),
ast::Expr::Branch(_) => (), ast::Expr::Branch(_) => (),
ast::Expr::BranchIf { ast::Expr::BranchIf {
ref mut condition, .. ref mut condition, ..
} => fold_expr(condition), } => fold_expr(context, condition),
ast::Expr::Cast { ref mut value, .. } => fold_expr(value), ast::Expr::Cast { ref mut value, .. } => fold_expr(context, value),
ast::Expr::FuncCall { ast::Expr::FuncCall {
ref name, ref name,
ref mut params, ref mut params,
.. ..
} => { } => {
for param in params.iter_mut() { for param in params.iter_mut() {
fold_expr(param); fold_expr(context, param);
} }
use ast::Expr::*; use ast::Expr::*;
let params: Vec<_> = params.iter().map(|e| &e.expr).collect(); let params: Vec<_> = params.iter().map(|e| &e.expr).collect();
@@ -269,31 +355,31 @@ fn fold_expr(expr: &mut ast::Expression) {
ref mut if_false, ref mut if_false,
.. ..
} => { } => {
fold_expr(condition); fold_expr(context, condition);
fold_expr(if_true); fold_expr(context, if_true);
fold_expr(if_false); fold_expr(context, if_false);
} }
ast::Expr::If { ast::Expr::If {
ref mut condition, ref mut condition,
ref mut if_true, ref mut if_true,
ref mut if_false, ref mut if_false,
} => { } => {
fold_expr(condition); fold_expr(context, condition);
fold_expr(if_true); fold_expr(context, if_true);
if let Some(ref mut if_false) = if_false { if let Some(ref mut if_false) = if_false {
fold_expr(if_false); fold_expr(context, if_false);
} }
} }
ast::Expr::Return { ast::Expr::Return {
value: Some(ref mut value), value: Some(ref mut value),
} => fold_expr(value), } => fold_expr(context, value),
ast::Expr::Return { value: None } => (), ast::Expr::Return { value: None } => (),
ast::Expr::First { ast::Expr::First {
ref mut value, ref mut value,
ref mut drop, ref mut drop,
} => { } => {
fold_expr(value); fold_expr(context, value);
fold_expr(drop); fold_expr(context, drop);
} }
ast::Expr::Error => unreachable!(), ast::Expr::Error => unreachable!(),
} }

13
src/emit.rs
View File

@@ -289,7 +289,7 @@ struct FunctionContext<'a> {
functions: &'a HashMap<String, u32>, functions: &'a HashMap<String, u32>,
locals: &'a ast::Locals, locals: &'a ast::Locals,
labels: Vec<String>, labels: Vec<String>,
let_values: HashMap<u32, (&'a ast::Expression, ast::LetType)>, let_values: HashMap<u32, Vec<(&'a ast::Expression, ast::LetType)>>,
intrinsics: &'a Intrinsics, intrinsics: &'a Intrinsics,
} }
@@ -385,7 +385,10 @@ fn emit_expression<'a>(ctx: &mut FunctionContext<'a>, expr: &'a ast::Expression)
.instruction(&Instruction::LocalSet(local.index.unwrap())); .instruction(&Instruction::LocalSet(local.index.unwrap()));
} }
ast::LetType::Lazy | ast::LetType::Inline => { ast::LetType::Lazy | ast::LetType::Inline => {
ctx.let_values.insert(local_id.unwrap(), (value, *let_type)); ctx.let_values
.entry(local_id.unwrap())
.or_default()
.push((value, *let_type));
} }
} }
} }
@@ -612,17 +615,17 @@ fn emit_expression<'a>(ctx: &mut FunctionContext<'a>, expr: &'a ast::Expression)
} }
ast::Expr::Variable { name, local_id } => { ast::Expr::Variable { name, local_id } => {
if let &Some(id) = local_id { if let &Some(id) = local_id {
if let Some((expr, let_type)) = ctx.let_values.get(&id) { if let Some((expr, let_type)) = ctx.let_values.get_mut(&id).and_then(|s| s.pop()) {
match let_type { match let_type {
ast::LetType::Lazy => { ast::LetType::Lazy => {
let expr = ctx.let_values.remove(&id).unwrap().0;
emit_expression(ctx, expr); emit_expression(ctx, expr);
ctx.let_values.get_mut(&id).unwrap().clear();
ctx.function ctx.function
.instruction(&Instruction::LocalTee(ctx.locals[id].index.unwrap())); .instruction(&Instruction::LocalTee(ctx.locals[id].index.unwrap()));
} }
ast::LetType::Inline => { ast::LetType::Inline => {
let expr = *expr;
emit_expression(ctx, expr); emit_expression(ctx, expr);
ctx.let_values.get_mut(&id).unwrap().push((expr, let_type));
} }
_ => unreachable!(), _ => unreachable!(),
} }

11
src/includes.rs
View File

@@ -1,11 +1,15 @@
use std::fs::File;
use std::io::prelude::*; use std::io::prelude::*;
use std::path::Path; use std::path::{Path, PathBuf};
use std::{collections::HashSet, fs::File};
use crate::ast; use crate::ast;
use anyhow::{anyhow, Result}; use anyhow::{anyhow, Result};
pub fn resolve_includes(script: &mut ast::Script, path: &Path) -> Result<()> { pub fn resolve_includes(
script: &mut ast::Script,
dependencies: &mut HashSet<PathBuf>,
path: &Path,
) -> Result<()> {
let script_dir = path.parent().expect("Script path has no parent"); let script_dir = path.parent().expect("Script path has no parent");
for data in &mut script.data { for data in &mut script.data {
for values in &mut data.data { for values in &mut data.data {
@@ -21,6 +25,7 @@ pub fn resolve_includes(script: &mut ast::Script, path: &Path) -> Result<()> {
anyhow!("Failed to load data from {}: {}", full_path.display(), e) anyhow!("Failed to load data from {}: {}", full_path.display(), e)
})? })?
.read_to_end(data)?; .read_to_end(data)?;
dependencies.insert(full_path);
} }
} }
} }

199
src/intrinsics.rs
View File

@@ -1,9 +1,11 @@
use crate::ast::Type; use crate::ast::Type;
use std::collections::HashMap;
use enc::MemArg; use enc::MemArg;
use std::collections::HashMap;
use wasm_encoder as enc; use wasm_encoder as enc;
pub struct Intrinsics(HashMap<String, HashMap<Vec<Type>, (Type, enc::Instruction<'static>)>>); pub struct Intrinsics(
HashMap<String, HashMap<Vec<Type>, (Option<Type>, enc::Instruction<'static>)>>,
);
impl Intrinsics { impl Intrinsics {
pub fn new() -> Intrinsics { pub fn new() -> Intrinsics {
@@ -12,14 +14,11 @@ impl Intrinsics {
i i
} }
pub fn find_types( pub fn find_types(&self, name: &str) -> Option<HashMap<Vec<Type>, Option<Type>>> {
&self,
name: &str,
) -> Option<HashMap<Vec<Type>, Option<Type>>> {
self.0.get(name).map(|types| { self.0.get(name).map(|types| {
types types
.iter() .iter()
.map(|(params, (ret, _))| (params.clone(), Some(*ret))) .map(|(params, (ret, _))| (params.clone(), *ret))
.collect() .collect()
}) })
} }
@@ -34,87 +33,121 @@ impl Intrinsics {
fn add_instructions(&mut self) { fn add_instructions(&mut self) {
use enc::Instruction as I; use enc::Instruction as I;
use Type::*; use Type::*;
self.inst("i32.rotl", &[I32, I32], I32, I::I32Rotl); self.inst("i32.rotl", &[I32, I32], Some(I32), I::I32Rotl);
self.inst("i32.rotr", &[I32, I32], I32, I::I32Rotr); self.inst("i32.rotr", &[I32, I32], Some(I32), I::I32Rotr);
self.inst("i32.clz", &[I32], I32, I::I32Clz); self.inst("i32.clz", &[I32], Some(I32), I::I32Clz);
self.inst("i32.ctz", &[I32], I32, I::I32Ctz); self.inst("i32.ctz", &[I32], Some(I32), I::I32Ctz);
self.inst("i32.popcnt", &[I32], I32, I::I32Popcnt); self.inst("i32.popcnt", &[I32], Some(I32), I::I32Popcnt);
self.inst("i64.rotl", &[I64, I64], I64, I::I64Rotl); self.inst("i64.rotl", &[I64, I64], Some(I64), I::I64Rotl);
self.inst("i64.rotr", &[I64, I64], I64, I::I64Rotr); self.inst("i64.rotr", &[I64, I64], Some(I64), I::I64Rotr);
self.inst("i64.clz", &[I64], I64, I::I64Clz); self.inst("i64.clz", &[I64], Some(I64), I::I64Clz);
self.inst("i64.ctz", &[I64], I64, I::I64Ctz); self.inst("i64.ctz", &[I64], Some(I64), I::I64Ctz);
self.inst("i64.popcnt", &[I64], I64, I::I64Popcnt); self.inst("i64.popcnt", &[I64], Some(I64), I::I64Popcnt);
self.inst("f32/sqrt", &[F32], F32, I::F32Sqrt); self.inst("f32/sqrt", &[F32], Some(F32), I::F32Sqrt);
self.inst("f32/min", &[F32, F32], F32, I::F32Min); self.inst("f32/min", &[F32, F32], Some(F32), I::F32Min);
self.inst("f32/max", &[F32, F32], F32, I::F32Max); self.inst("f32/max", &[F32, F32], Some(F32), I::F32Max);
self.inst("f32/ceil", &[F32], F32, I::F32Ceil); self.inst("f32/ceil", &[F32], Some(F32), I::F32Ceil);
self.inst("f32/floor", &[F32], F32, I::F32Floor); self.inst("f32/floor", &[F32], Some(F32), I::F32Floor);
self.inst("f32/trunc", &[F32], F32, I::F32Trunc); self.inst("f32/trunc", &[F32], Some(F32), I::F32Trunc);
self.inst("f32/nearest", &[F32], F32, I::F32Nearest); self.inst("f32/nearest", &[F32], Some(F32), I::F32Nearest);
self.inst("f32/abs", &[F32], F32, I::F32Abs); self.inst("f32/abs", &[F32], Some(F32), I::F32Abs);
self.inst("f32.copysign", &[F32, F32], F32, I::F32Copysign); self.inst("f32.copysign", &[F32, F32], Some(F32), I::F32Copysign);
self.inst("f64/sqrt", &[F64], F64, I::F64Sqrt); self.inst("f64/sqrt", &[F64], Some(F64), I::F64Sqrt);
self.inst("f64/min", &[F64, F64], F64, I::F64Min); self.inst("f64/min", &[F64, F64], Some(F64), I::F64Min);
self.inst("f64/max", &[F64, F64], F64, I::F64Max); self.inst("f64/max", &[F64, F64], Some(F64), I::F64Max);
self.inst("f64/ceil", &[F64], F64, I::F64Ceil); self.inst("f64/ceil", &[F64], Some(F64), I::F64Ceil);
self.inst("f64/floor", &[F64], F64, I::F64Floor); self.inst("f64/floor", &[F64], Some(F64), I::F64Floor);
self.inst("f64/trunc", &[F64], F64, I::F64Trunc); self.inst("f64/trunc", &[F64], Some(F64), I::F64Trunc);
self.inst("f64/nearest", &[F64], F64, I::F64Nearest); self.inst("f64/nearest", &[F64], Some(F64), I::F64Nearest);
self.inst("f64/abs", &[F64], F64, I::F64Abs); self.inst("f64/abs", &[F64], Some(F64), I::F64Abs);
self.inst("f64.copysign", &[F64, F64], F64, I::F64Copysign); self.inst("f64.copysign", &[F64, F64], Some(F64), I::F64Copysign);
self.inst("i32.wrap_i64", &[I64], I32, I::I32WrapI64); self.inst("i32.wrap_i64", &[I64], Some(I32), I::I32WrapI64);
self.inst("i64.extend_i32_s", &[I32], I64, I::I64ExtendI32S); self.inst("i64.extend_i32_s", &[I32], Some(I64), I::I64ExtendI32S);
self.inst("i64.extend_i32_u", &[I32], I64, I::I64ExtendI32U); self.inst("i64.extend_i32_u", &[I32], Some(I64), I::I64ExtendI32U);
self.inst("i32.trunc_f32_s", &[F32], I32, I::I32TruncF32S); self.inst("i32.trunc_f32_s", &[F32], Some(I32), I::I32TruncF32S);
self.inst("i32.trunc_f64_s", &[F64], I32, I::I32TruncF64S); self.inst("i32.trunc_f64_s", &[F64], Some(I32), I::I32TruncF64S);
self.inst("i64.trunc_f32_s", &[F32], I64, I::I64TruncF32S); self.inst("i64.trunc_f32_s", &[F32], Some(I64), I::I64TruncF32S);
self.inst("i64.trunc_f64_s", &[F64], I64, I::I64TruncF64S); self.inst("i64.trunc_f64_s", &[F64], Some(I64), I::I64TruncF64S);
self.inst("i32.trunc_f32_u", &[F32], I32, I::I32TruncF32U); self.inst("i32.trunc_f32_u", &[F32], Some(I32), I::I32TruncF32U);
self.inst("i32.trunc_f64_u", &[F64], I32, I::I32TruncF64U); self.inst("i32.trunc_f64_u", &[F64], Some(I32), I::I32TruncF64U);
self.inst("i64.trunc_f32_u", &[F32], I64, I::I64TruncF32U); self.inst("i64.trunc_f32_u", &[F32], Some(I64), I::I64TruncF32U);
self.inst("i64.trunc_f64_u", &[F64], I64, I::I64TruncF64U); self.inst("i64.trunc_f64_u", &[F64], Some(I64), I::I64TruncF64U);
self.inst("f32.demote_f64", &[F64], F32, I::F32DemoteF64); self.inst("f32.demote_f64", &[F64], Some(F32), I::F32DemoteF64);
self.inst("f64.promote_f32", &[F32], F64, I::F64PromoteF32); self.inst("f64.promote_f32", &[F32], Some(F64), I::F64PromoteF32);
self.inst("f32.convert_i32_s", &[I32], F32, I::F32ConvertI32S); self.inst("f32.convert_i32_s", &[I32], Some(F32), I::F32ConvertI32S);
self.inst("f32.convert_i64_s", &[I64], F32, I::F32ConvertI32S); self.inst("f32.convert_i64_s", &[I64], Some(F32), I::F32ConvertI32S);
self.inst("f64.convert_i32_s", &[I32], F64, I::F32ConvertI32S); self.inst("f64.convert_i32_s", &[I32], Some(F64), I::F32ConvertI32S);
self.inst("f64.convert_i64_s", &[I64], F64, I::F32ConvertI32S); self.inst("f64.convert_i64_s", &[I64], Some(F64), I::F32ConvertI32S);
self.inst("f32.convert_i32_u", &[I32], F32, I::F32ConvertI32U); self.inst("f32.convert_i32_u", &[I32], Some(F32), I::F32ConvertI32U);
self.inst("f32.convert_i64_u", &[I64], F32, I::F32ConvertI32U); self.inst("f32.convert_i64_u", &[I64], Some(F32), I::F32ConvertI32U);
self.inst("f64.convert_i32_u", &[I32], F64, I::F32ConvertI32U); self.inst("f64.convert_i32_u", &[I32], Some(F64), I::F32ConvertI32U);
self.inst("f64.convert_i64_u", &[I64], F64, I::F32ConvertI32U); self.inst("f64.convert_i64_u", &[I64], Some(F64), I::F32ConvertI32U);
self.inst("i32.reinterpret_f32", &[F32], I32, I::I32ReinterpretF32); self.inst(
self.inst("i64.reinterpret_f64", &[F64], I64, I::I64ReinterpretF64); "i32.reinterpret_f32",
self.inst("f32.reinterpret_i32", &[I32], F32, I::F32ReinterpretI32); &[F32],
self.inst("f64.reinterpret_i64", &[I64], F64, I::F64ReinterpretI64); Some(I32),
I::I32ReinterpretF32,
);
self.inst(
"i64.reinterpret_f64",
&[F64],
Some(I64),
I::I64ReinterpretF64,
);
self.inst(
"f32.reinterpret_i32",
&[I32],
Some(F32),
I::F32ReinterpretI32,
);
self.inst(
"f64.reinterpret_i64",
&[I64],
Some(F64),
I::F64ReinterpretI64,
);
self.inst("i32.extend8_s", &[I32], I32, I::I32Extend8S); self.inst("i32.extend8_s", &[I32], Some(I32), I::I32Extend8S);
self.inst("i32.extend16_s", &[I32], I32, I::I32Extend16S); self.inst("i32.extend16_s", &[I32], Some(I32), I::I32Extend16S);
self.inst("i64.extend8_s", &[I64], I64, I::I64Extend8S); self.inst("i64.extend8_s", &[I64], Some(I64), I::I64Extend8S);
self.inst("i64.extend16_s", &[I64], I64, I::I64Extend16S); self.inst("i64.extend16_s", &[I64], Some(I64), I::I64Extend16S);
self.inst("i64.extend32_s", &[I64], I64, I::I64Extend32S); self.inst("i64.extend32_s", &[I64], Some(I64), I::I64Extend32S);
self.inst("i32.trunc_sat_f32_s", &[F32], I32, I::I32TruncSatF32S); self.inst("i32.trunc_sat_f32_s", &[F32], Some(I32), I::I32TruncSatF32S);
self.inst("i32.trunc_sat_f32_u", &[F32], I32, I::I32TruncSatF32U); self.inst("i32.trunc_sat_f32_u", &[F32], Some(I32), I::I32TruncSatF32U);
self.inst("i32.trunc_sat_f64_s", &[F64], I32, I::I32TruncSatF64S); self.inst("i32.trunc_sat_f64_s", &[F64], Some(I32), I::I32TruncSatF64S);
self.inst("i32.trunc_sat_f64_u", &[F64], I32, I::I32TruncSatF64U); self.inst("i32.trunc_sat_f64_u", &[F64], Some(I32), I::I32TruncSatF64U);
self.inst("i64.trunc_sat_f32_s", &[F32], I64, I::I64TruncSatF32S); self.inst("i64.trunc_sat_f32_s", &[F32], Some(I64), I::I64TruncSatF32S);
self.inst("i64.trunc_sat_f32_u", &[F32], I64, I::I64TruncSatF32U); self.inst("i64.trunc_sat_f32_u", &[F32], Some(I64), I::I64TruncSatF32U);
self.inst("i64.trunc_sat_f64_s", &[F64], I64, I::I64TruncSatF64S); self.inst("i64.trunc_sat_f64_s", &[F64], Some(I64), I::I64TruncSatF64S);
self.inst("i64.trunc_sat_f64_u", &[F64], I64, I::I64TruncSatF64U); self.inst("i64.trunc_sat_f64_u", &[F64], Some(I64), I::I64TruncSatF64U);
self.inst(
"memory.copy",
&[I32, I32, I32],
None,
I::MemoryCopy { src: 0, dst: 0 },
);
self.inst("memory.fill", &[I32, I32, I32], None, I::MemoryFill(0));
} }
fn inst(&mut self, name: &str, params: &[Type], ret: Type, ins: enc::Instruction<'static>) { fn inst(
&mut self,
name: &str,
params: &[Type],
ret: Option<Type>,
ins: enc::Instruction<'static>,
) {
if let Some(slash_idx) = name.find('/') { if let Some(slash_idx) = name.find('/') {
self.insert(name[(slash_idx + 1)..].to_string(), params, ret, &ins); self.insert(name[(slash_idx + 1)..].to_string(), params, ret, &ins);
let mut full_name = name[..slash_idx].to_string(); let mut full_name = name[..slash_idx].to_string();
@@ -130,7 +163,7 @@ impl Intrinsics {
&mut self, &mut self,
name: String, name: String,
params: &[Type], params: &[Type],
ret: Type, ret: Option<Type>,
ins: &enc::Instruction<'static>, ins: &enc::Instruction<'static>,
) { ) {
self.0 self.0
@@ -157,7 +190,7 @@ impl Intrinsics {
"i64.load32_u" => MemInstruction::new(I64, I::I64Load32_U, 2), "i64.load32_u" => MemInstruction::new(I64, I::I64Load32_U, 2),
"f32.load" => MemInstruction::new(F32, I::F32Load, 2), "f32.load" => MemInstruction::new(F32, I::F32Load, 2),
"f64.load" => MemInstruction::new(F64, I::F64Load, 3), "f64.load" => MemInstruction::new(F64, I::F64Load, 3),
_ => return None _ => return None,
}; };
return Some(ins); return Some(ins);
} }
@@ -175,7 +208,7 @@ impl Intrinsics {
"i64.store32" => MemInstruction::new(I64, I::I64Store32, 2), "i64.store32" => MemInstruction::new(I64, I::I64Store32, 2),
"f32.store" => MemInstruction::new(F32, I::F32Store, 2), "f32.store" => MemInstruction::new(F32, I::F32Store, 2),
"f64.store" => MemInstruction::new(F64, I::F64Store, 3), "f64.store" => MemInstruction::new(F64, I::F64Store, 3),
_ => return None _ => return None,
}; };
return Some(ins); return Some(ins);
} }
@@ -184,13 +217,19 @@ impl Intrinsics {
pub struct MemInstruction { pub struct MemInstruction {
pub type_: Type, pub type_: Type,
pub instruction: fn(MemArg) -> enc::Instruction<'static>, pub instruction: fn(MemArg) -> enc::Instruction<'static>,
pub natural_alignment: u32 pub natural_alignment: u32,
} }
impl MemInstruction { impl MemInstruction {
fn new(type_: Type, instruction: fn(MemArg) -> enc::Instruction<'static>, natural_alignment: u32) -> MemInstruction { fn new(
type_: Type,
instruction: fn(MemArg) -> enc::Instruction<'static>,
natural_alignment: u32,
) -> MemInstruction {
MemInstruction { MemInstruction {
type_, instruction, natural_alignment type_,
instruction,
natural_alignment,
} }
} }
} }

38
src/lib.rs
View File

@@ -1,7 +1,8 @@
use anyhow::{bail, Result}; use anyhow::{bail, Result};
use std::ffi::OsStr;
use std::path::Path;
use parser::Sources; use parser::Sources;
use std::collections::HashSet;
use std::ffi::OsStr;
use std::path::{Path, PathBuf};
mod ast; mod ast;
mod constfold; mod constfold;
@@ -22,8 +23,17 @@ impl Options {
} }
} }
pub fn compile_file<P: AsRef<Path>>(path: P, options: Options) -> Result<Vec<u8>> { pub struct CompiledModule {
let path = path.as_ref(); pub wasm: Vec<u8>,
pub dependencies: Vec<PathBuf>,
}
pub fn compile_file<P: AsRef<Path>>(path: P, options: Options) -> (Result<Vec<u8>>, Vec<PathBuf>) {
fn compile_file_inner(
path: &Path,
options: Options,
dependencies: &mut HashSet<PathBuf>,
) -> Result<Vec<u8>> {
let mut script = ast::Script::default(); let mut script = ast::Script::default();
let mut sources = Sources::new(); let mut sources = Sources::new();
@@ -32,15 +42,19 @@ pub fn compile_file<P: AsRef<Path>>(path: P, options: Options) -> Result<Vec<u8>
while let Some((path, span)) = pending_files.pop() { while let Some((path, span)) = pending_files.pop() {
match sources.add(&path) { match sources.add(&path) {
Ok((id, true)) => { Ok((id, true)) => {
dependencies.insert(path.clone());
let mut new_script = match parser::parse(&sources, id) { let mut new_script = match parser::parse(&sources, id) {
Ok(script) => script, Ok(script) => script,
Err(_) => bail!("Parse failed"), Err(_) => bail!("Parse failed"),
}; };
includes::resolve_includes(&mut new_script, &path)?; includes::resolve_includes(&mut new_script, dependencies, &path)?;
for include in std::mem::take(&mut new_script.includes) { for include in std::mem::take(&mut new_script.includes) {
let mut path = path.parent().expect("Script path has no parent").to_path_buf(); let mut path = path
.parent()
.expect("Script path has no parent")
.to_path_buf();
path.push(include.path); path.push(include.path);
pending_files.push((path, Some(include.span))); pending_files.push((path, Some(include.span)));
} }
@@ -59,8 +73,9 @@ pub fn compile_file<P: AsRef<Path>>(path: P, options: Options) -> Result<Vec<u8>
} }
} }
if constfold::fold_script(&mut script, &sources).is_err() {
constfold::fold_script(&mut script); bail!("Constant folding failed");
}
if typecheck::tc_script(&mut script, &sources).is_err() { if typecheck::tc_script(&mut script, &sources).is_err() {
bail!("Type check failed"); bail!("Type check failed");
} }
@@ -73,4 +88,11 @@ pub fn compile_file<P: AsRef<Path>>(path: P, options: Options) -> Result<Vec<u8>
&options, &options,
); );
Ok(wasm) Ok(wasm)
}
let mut dependencies = HashSet::new();
let result = compile_file_inner(path.as_ref(), options, &mut dependencies);
(result, dependencies.into_iter().collect())
} }

2
src/main.rs
View File

@@ -15,7 +15,7 @@ fn main() -> Result<()> {
let mut filename = args.free_from_os_str::<PathBuf, bool>(|s| Ok(s.into()))?; let mut filename = args.free_from_os_str::<PathBuf, bool>(|s| Ok(s.into()))?;
let wasm = compile_file(&filename, options)?; let wasm = compile_file(&filename, options).0?;
wasmparser::validate(&wasm)?; wasmparser::validate(&wasm)?;

346
src/parser.rs
View File

@@ -79,6 +79,7 @@ enum Token {
Str(String), Str(String),
Int(i32), Int(i32),
Int64(i64), Int64(i64),
IntFloat(i32),
Float(String), Float(String),
Float64(String), Float64(String),
Op(String), Op(String),
@@ -107,6 +108,7 @@ impl fmt::Display for Token {
Token::Str(s) => write!(f, "{:?}", s), Token::Str(s) => write!(f, "{:?}", s),
Token::Int(v) => write!(f, "{}", v), Token::Int(v) => write!(f, "{}", v),
Token::Int64(v) => write!(f, "{}", v), Token::Int64(v) => write!(f, "{}", v),
Token::IntFloat(v) => write!(f, "{}_f", v),
Token::Float(v) => write!(f, "{}", v), Token::Float(v) => write!(f, "{}", v),
Token::Float64(v) => write!(f, "{}", v), Token::Float64(v) => write!(f, "{}", v),
Token::Op(s) => write!(f, "{}", s), Token::Op(s) => write!(f, "{}", s),
@@ -248,23 +250,23 @@ fn report_errors(errors: Vec<Simple<String, Span>>, sources: &Sources) {
type LexerError = Simple<char, Span>; type LexerError = Simple<char, Span>;
fn lexer() -> impl Parser<char, Vec<(Token, Span)>, Error = LexerError> { fn lexer() -> impl Parser<char, Vec<(Token, Span)>, Error = LexerError> {
let float64 = text::int(10) let float64 = text::digits(10)
.chain::<char, _, _>(just('.').chain(text::digits(10))) .chain::<char, _, _>(just('.').chain(text::digits(10)))
.then_ignore(just("f64")) .then_ignore(just("f64"))
.collect::<String>() .collect::<String>()
.map(Token::Float64); .map(Token::Float64);
let float = text::int(10) let float = text::digits(10)
.chain::<char, _, _>(just('.').chain(text::digits(10))) .chain::<char, _, _>(just('.').chain(text::digits(10)))
.collect::<String>() .collect::<String>()
.map(Token::Float); .map(Token::Float);
let integer = just::<_, _, LexerError>("0x") let integer = just::<_, _, LexerError>("0x")
.ignore_then(text::int(16)) .ignore_then(text::digits(16))
.try_map(|n, span| { .try_map(|n, span| {
u64::from_str_radix(&n, 16).map_err(|err| LexerError::custom(span, err.to_string())) u64::from_str_radix(&n, 16).map_err(|err| LexerError::custom(span, err.to_string()))
}) })
.or(text::int(10).try_map(|n: String, span: Span| { .or(text::digits(10).try_map(|n: String, span: Span| {
n.parse::<u64>() n.parse::<u64>()
.map_err(|err| LexerError::custom(span, err.to_string())) .map_err(|err| LexerError::custom(span, err.to_string()))
})) }))
@@ -275,24 +277,69 @@ fn lexer() -> impl Parser<char, Vec<(Token, Span)>, Error = LexerError> {
.then_ignore(just("i64")) .then_ignore(just("i64"))
.map(|n| Token::Int64(n as i64)); .map(|n| Token::Int64(n as i64));
let int_float = integer
.clone()
.then_ignore(just("_f"))
.map(|n| Token::IntFloat(n as i32));
let int = integer.try_map(|n, span| { let int = integer.try_map(|n, span| {
u32::try_from(n) u32::try_from(n)
.map(|n| Token::Int(n as i32)) .map(|n| Token::Int(n as i32))
.map_err(|err| LexerError::custom(span, err.to_string())) .map_err(|err| LexerError::custom(span, err.to_string()))
}); });
let str_ = just('"') let str_ = just('\\')
.ignore_then(filter(|c| *c != '"').repeated()) .then(any())
.then_ignore(just('"')) .map(|t| vec![t.0, t.1])
.collect::<String>() .or(none_of("\"").map(|c| vec![c]))
.map(Token::Str);
let op = one_of("+-*/%&^|<=>#")
.repeated() .repeated()
.at_least(1) .flatten()
.or(just(':').chain(just('='))) .delimited_by(just('"'), just('"'))
.collect::<String>() .collect::<String>()
.map(Token::Op); .map(|s| Token::Str(parse_string_escapes(s)));
let char_ = just('\\')
.then(any())
.map(|t| vec![t.0, t.1])
.or(none_of("\'").map(|c| vec![c]))
.repeated()
.flatten()
.delimited_by(just('\''), just('\''))
.collect::<String>()
.map(|s| {
let s = parse_string_escapes(s);
let mut value = 0;
for (i, c) in s.chars().enumerate() {
// TODO: generate error on overflow
if i < 4 {
value |= (c as u32) << (i * 8);
}
}
Token::Int(value as i32)
});
let op = choice((
just("#/"),
just("#%"),
just("<<"),
just(">>"),
just("#>>"),
just(">="),
just("<="),
just("=="),
just("!="),
just("#>="),
just("#<="),
just("#<"),
just("#>"),
just("->"),
just(":="),
just("<|"),
))
.map(|s| s.to_string())
.or(one_of("+-*/%&^|<=>").map(|s: char| s.to_string()))
.map(Token::Op)
.boxed();
let ctrl = one_of("(){};,:?!$").map(Token::Ctrl); let ctrl = one_of("(){};,:?!$").map(Token::Ctrl);
@@ -330,14 +377,9 @@ fn lexer() -> impl Parser<char, Vec<(Token, Span)>, Error = LexerError> {
let comment = single_line.or(multi_line); let comment = single_line.or(multi_line);
let token = float let token = choice((
.or(float64) float, float64, int64, int_float, int, str_, char_, op, ctrl, ident,
.or(int64) ))
.or(int)
.or(str_)
.or(op)
.or(ctrl)
.or(ident)
.recover_with(skip_then_retry_until([])); .recover_with(skip_then_retry_until([]));
token token
@@ -345,13 +387,14 @@ fn lexer() -> impl Parser<char, Vec<(Token, Span)>, Error = LexerError> {
.padded() .padded()
.padded_by(comment.padded().repeated()) .padded_by(comment.padded().repeated())
.repeated() .repeated()
.boxed()
} }
fn map_token<O>( fn map_token<O>(
f: impl Fn(&Token) -> Option<O> + 'static + Clone, f: impl Fn(&Token, &Span) -> Option<O> + 'static + Clone,
) -> impl Parser<Token, O, Error = ScriptError> + Clone { ) -> impl Parser<Token, O, Error = ScriptError> + Clone {
filter_map(move |span, tok: Token| { filter_map(move |span, tok: Token| {
if let Some(output) = f(&tok) { if let Some(output) = f(&tok, &span) {
Ok(output) Ok(output)
} else { } else {
Err(ScriptError::expected_input_found( Err(ScriptError::expected_input_found(
@@ -363,6 +406,33 @@ fn map_token<O>(
}) })
} }
fn parse_string_escapes(s: String) -> String {
let mut result = String::new();
let mut chars = s.chars().peekable();
while let Some(c) = chars.next() {
if c != '\\' {
result.push(c);
} else if let Some(c) = chars.next() {
match c {
'0'..='9' | 'a'..='f' | 'A'..='F' => {
let mut number = c.to_string();
if let Some('0'..='9' | 'a'..='f' | 'A'..='F') = chars.peek() {
number.push(chars.next().unwrap());
}
result.push(u8::from_str_radix(&number, 16).unwrap() as char);
}
'n' => result.push('\n'),
'r' => result.push('\r'),
't' => result.push('\t'),
other => result.push(other),
}
} else {
result.push('\\');
}
}
result
}
type ScriptError = Simple<Token, Span>; type ScriptError = Simple<Token, Span>;
fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clone { fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clone {
let identifier = filter_map(|span, tok| match tok { let identifier = filter_map(|span, tok| match tok {
@@ -375,23 +445,49 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
}) })
.labelled("identifier"); .labelled("identifier");
let integer = map_token(|tok| match tok { let integer = map_token(|tok, _| match tok {
Token::Int(v) => Some(*v), Token::Int(v) => Some(*v),
_ => None, _ => None,
}); });
let string = map_token(|tok| match tok { let string = map_token(|tok, _| match tok {
Token::Str(s) => Some(s.clone()), Token::Str(s) => Some(s.clone()),
_ => None, _ => None,
}); });
let product_op = just(Token::Op("*".to_string()))
.to(ast::BinOp::Mul)
.or(just(Token::Op("/".to_string())).to(ast::BinOp::Div))
.or(just(Token::Op("#/".to_string())).to(ast::BinOp::DivU))
.or(just(Token::Op("%".to_string())).to(ast::BinOp::Rem))
.or(just(Token::Op("#%".to_string())).to(ast::BinOp::RemU))
.boxed();
let sum_op = just(Token::Op("+".to_string()))
.to(ast::BinOp::Add)
.or(just(Token::Op("-".to_string())).to(ast::BinOp::Sub))
.boxed();
let shift_op = just(Token::Op("<<".to_string()))
.to(ast::BinOp::Shl)
.or(just(Token::Op("#>>".to_string())).to(ast::BinOp::ShrU))
.or(just(Token::Op(">>".to_string())).to(ast::BinOp::ShrS))
.boxed();
let bit_op = just(Token::Op("&".to_string()))
.to(ast::BinOp::And)
.or(just(Token::Op("|".to_string())).to(ast::BinOp::Or))
.or(just(Token::Op("^".to_string())).to(ast::BinOp::Xor))
.boxed();
let mut expression_out = None; let mut expression_out = None;
let block = recursive(|block| { let block = recursive(|block| {
let mut block_expression = None; let mut block_expression = None;
let expression = recursive(|expression| { let expression = recursive(|expression| {
let val = map_token(|tok| match tok { let val = map_token(|tok, span| match tok {
Token::Int(v) => Some(ast::Expr::I32Const(*v)), Token::Int(v) => Some(ast::Expr::I32Const(*v)),
Token::Int64(v) => Some(ast::Expr::I64Const(*v)), Token::Int64(v) => Some(ast::Expr::I64Const(*v)),
Token::IntFloat(v) => Some(ast::Expr::Cast {
value: Box::new(ast::Expr::I32Const(*v).with_span(span.clone())),
type_: ast::Type::F32,
}),
Token::Float(v) => Some(ast::Expr::F32Const(v.parse().unwrap())), Token::Float(v) => Some(ast::Expr::F32Const(v.parse().unwrap())),
Token::Float64(v) => Some(ast::Expr::F64Const(v.parse().unwrap())), Token::Float64(v) => Some(ast::Expr::F64Const(v.parse().unwrap())),
_ => None, _ => None,
@@ -420,6 +516,36 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
}) })
.boxed(); .boxed();
let local_tee_op = identifier
.then(
product_op
.clone()
.or(sum_op.clone())
.or(shift_op.clone())
.or(bit_op.clone()),
)
.then_ignore(just(Token::Op(":=".to_string())))
.then(expression.clone())
.map_with_span(|((name, op), expr), span| ast::Expr::LocalTee {
name: name.clone(),
value: Box::new(
ast::Expr::BinOp {
left: Box::new(
ast::Expr::Variable {
name,
local_id: None,
}
.with_span(span.clone()),
),
right: Box::new(expr),
op,
}
.with_span(span),
),
local_id: None,
})
.boxed();
let loop_expr = just(Token::Loop) let loop_expr = just(Token::Loop)
.ignore_then(identifier) .ignore_then(identifier)
.then(block.clone()) .then(block.clone())
@@ -436,14 +562,24 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
block: Box::new(block), block: Box::new(block),
}); });
let if_expr = just(Token::If) let if_expr = recursive::<_, ast::Expr, _, _, _>(|if_expr| {
just(Token::If)
.ignore_then(expression.clone()) .ignore_then(expression.clone())
.then(block.clone()) .then(block.clone())
.then(just(Token::Else).ignore_then(block.clone()).or_not()) .then(
just(Token::Else)
.ignore_then(
block
.clone()
.or(if_expr.map_with_span(|expr, span| expr.with_span(span))),
)
.or_not(),
)
.map(|((condition, if_true), if_false)| ast::Expr::If { .map(|((condition, if_true), if_false)| ast::Expr::If {
condition: Box::new(condition), condition: Box::new(condition),
if_true: Box::new(if_true), if_true: Box::new(if_true),
if_false: if_false.map(Box::new), if_false: if_false.map(Box::new),
})
}); });
let block_expr = loop_expr.or(label_block_expr).or(if_expr).boxed(); let block_expr = loop_expr.or(label_block_expr).or(if_expr).boxed();
@@ -487,16 +623,6 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
}) })
.boxed(); .boxed();
let assign = identifier
.then_ignore(just(Token::Op("=".to_string())))
.then(expression.clone())
.map(|(name, value)| ast::Expr::Assign {
name,
value: Box::new(value),
local_id: None,
})
.boxed();
let select = just(Token::Select) let select = just(Token::Select)
.ignore_then( .ignore_then(
expression expression
@@ -530,17 +656,19 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
value: value.map(Box::new), value: value.map(Box::new),
}); });
let atom = val let atom = choice((
.or(function_call) val,
.or(assign) function_call,
.or(local_tee) local_tee,
.or(variable) local_tee_op,
.or(block_expr) variable,
.or(branch) block_expr,
.or(branch_if) branch,
.or(let_) branch_if,
.or(select) let_,
.or(return_) select,
return_,
))
.map_with_span(|expr, span| expr.with_span(span)) .map_with_span(|expr, span| expr.with_span(span))
.or(expression .or(expression
.clone() .clone()
@@ -658,16 +786,7 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
let op_product = memory_op let op_product = memory_op
.clone() .clone()
.then( .then(product_op.clone().then(memory_op.clone()).repeated())
just(Token::Op("*".to_string()))
.to(ast::BinOp::Mul)
.or(just(Token::Op("/".to_string())).to(ast::BinOp::Div))
.or(just(Token::Op("#/".to_string())).to(ast::BinOp::DivU))
.or(just(Token::Op("%".to_string())).to(ast::BinOp::Rem))
.or(just(Token::Op("#%".to_string())).to(ast::BinOp::RemU))
.then(memory_op.clone())
.repeated(),
)
.foldl(|left, (op, right)| { .foldl(|left, (op, right)| {
let span = (left.span.0, left.span.1.start..right.span.1.end); let span = (left.span.0, left.span.1.start..right.span.1.end);
ast::Expr::BinOp { ast::Expr::BinOp {
@@ -681,13 +800,7 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
let op_sum = op_product let op_sum = op_product
.clone() .clone()
.then( .then(sum_op.clone().then(op_product.clone()).repeated())
just(Token::Op("+".to_string()))
.to(ast::BinOp::Add)
.or(just(Token::Op("-".to_string())).to(ast::BinOp::Sub))
.then(op_product.clone())
.repeated(),
)
.foldl(|left, (op, right)| { .foldl(|left, (op, right)| {
let span = (left.span.0, left.span.1.start..right.span.1.end); let span = (left.span.0, left.span.1.start..right.span.1.end);
ast::Expr::BinOp { ast::Expr::BinOp {
@@ -701,14 +814,7 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
let op_shift = op_sum let op_shift = op_sum
.clone() .clone()
.then( .then(shift_op.clone().then(op_sum.clone()).repeated())
just(Token::Op("<<".to_string()))
.to(ast::BinOp::Shl)
.or(just(Token::Op("#>>".to_string())).to(ast::BinOp::ShrU))
.or(just(Token::Op(">>".to_string())).to(ast::BinOp::ShrS))
.then(op_sum.clone())
.repeated(),
)
.foldl(|left, (op, right)| { .foldl(|left, (op, right)| {
let span = (left.span.0, left.span.1.start..right.span.1.end); let span = (left.span.0, left.span.1.start..right.span.1.end);
ast::Expr::BinOp { ast::Expr::BinOp {
@@ -750,14 +856,7 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
let op_bit = op_cmp let op_bit = op_cmp
.clone() .clone()
.then( .then(bit_op.clone().then(op_cmp.clone()).repeated())
just(Token::Op("&".to_string()))
.to(ast::BinOp::And)
.or(just(Token::Op("|".to_string())).to(ast::BinOp::Or))
.or(just(Token::Op("^".to_string())).to(ast::BinOp::Xor))
.then(op_cmp.clone())
.repeated(),
)
.foldl(|left, (op, right)| { .foldl(|left, (op, right)| {
let span = (left.span.0, left.span.1.start..right.span.1.end); let span = (left.span.0, left.span.1.start..right.span.1.end);
ast::Expr::BinOp { ast::Expr::BinOp {
@@ -791,11 +890,58 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
let block_expression = block_expression.unwrap(); let block_expression = block_expression.unwrap();
let assign = identifier
.then_ignore(just(Token::Op("=".to_string())))
.then(expression.clone())
.map(|(name, value)| ast::Expr::Assign {
name,
value: Box::new(value),
local_id: None,
})
.map_with_span(|expr, span| expr.with_span(span))
.boxed();
let assign_op = identifier
.then(
product_op
.clone()
.or(sum_op.clone())
.or(shift_op.clone())
.or(bit_op.clone()),
)
.then_ignore(just(Token::Op("=".to_string())))
.then(expression.clone())
.map_with_span(|((name, op), value), span| {
ast::Expr::Assign {
name: name.clone(),
value: Box::new(
ast::Expr::BinOp {
left: Box::new(
ast::Expr::Variable {
name,
local_id: None,
}
.with_span(span.clone()),
),
right: Box::new(value),
op,
}
.with_span(span.clone()),
),
local_id: None,
}
.with_span(span)
})
.boxed();
block_expression block_expression
.clone() .clone()
.then(just(Token::Ctrl(';')).or_not()) .then(just(Token::Ctrl(';')).or_not())
.map_with_span(|(expr, semi), span| (expr.with_span(span), semi.is_none())) .map_with_span(|(expr, semi), span| (expr.with_span(span), semi.is_none()))
.or(expression.clone().then(just(Token::Ctrl(';')).to(false))) .or(assign
.or(assign_op)
.or(expression.clone())
.then(just(Token::Ctrl(';')).to(false)))
.repeated() .repeated()
.then(expression.clone().or_not()) .then(expression.clone().or_not())
.map_with_span(|(mut statements, mut final_expression), span| { .map_with_span(|(mut statements, mut final_expression), span| {
@@ -925,6 +1071,21 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
}) })
.boxed(); .boxed();
let global_const = just(Token::Ident("const".to_string()))
.ignore_then(identifier)
.then(just(Token::Ctrl(':')).ignore_then(type_parser()).or_not())
.then(just(Token::Op("=".to_string())).ignore_then(expression.clone()))
.then_ignore(just(Token::Ctrl(';')))
.map_with_span(|((name, type_), value), span| {
ast::TopLevelItem::Const(ast::GlobalConst {
name,
type_,
value,
span,
})
})
.boxed();
let data_i8 = just(Token::Ident("i8".to_string())) let data_i8 = just(Token::Ident("i8".to_string()))
.to(ast::DataType::I8) .to(ast::DataType::I8)
.or(just(Token::Ident("i16".to_string())).to(ast::DataType::I16)) .or(just(Token::Ident("i16".to_string())).to(ast::DataType::I16))
@@ -975,17 +1136,17 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
|path, span| ast::TopLevelItem::Include(ast::Include { span, path }), |path, span| ast::TopLevelItem::Include(ast::Include { span, path }),
)); ));
import.or(function).or(global).or(data).or(include).boxed() import
.or(function)
.or(global)
.or(data)
.or(include)
.or(global_const)
.boxed()
}; };
top_level_item.repeated().then_ignore(end()).map(|items| { top_level_item.repeated().then_ignore(end()).map(|items| {
let mut script = ast::Script { let mut script = ast::Script::default();
imports: Vec::new(),
global_vars: Vec::new(),
functions: Vec::new(),
data: Vec::new(),
includes: Vec::new(),
};
for item in items { for item in items {
match item { match item {
ast::TopLevelItem::Import(i) => script.imports.push(i), ast::TopLevelItem::Import(i) => script.imports.push(i),
@@ -993,6 +1154,7 @@ fn script_parser() -> impl Parser<Token, ast::Script, Error = ScriptError> + Clo
ast::TopLevelItem::Function(f) => script.functions.push(f), ast::TopLevelItem::Function(f) => script.functions.push(f),
ast::TopLevelItem::Data(d) => script.data.push(d), ast::TopLevelItem::Data(d) => script.data.push(d),
ast::TopLevelItem::Include(i) => script.includes.push(i), ast::TopLevelItem::Include(i) => script.includes.push(i),
ast::TopLevelItem::Const(c) => script.consts.push(c),
} }
} }
script script

13
src/typecheck.rs
View File

@@ -104,6 +104,17 @@ pub fn tc_script(script: &mut ast::Script, sources: &Sources) -> Result<()> {
} }
} }
for c in &mut script.consts {
tc_const(&mut c.value, sources)?;
if c.value.type_ != c.type_ {
if c.type_.is_some() {
result = type_mismatch(c.type_, &c.span, c.value.type_, &c.value.span, sources);
} else {
c.type_ = c.value.type_;
}
}
}
for f in &script.functions { for f in &script.functions {
let params = f.params.iter().map(|(_, t)| *t).collect(); let params = f.params.iter().map(|(_, t)| *t).collect();
if let Some(fnc) = context.functions.get(&f.name) { if let Some(fnc) = context.functions.get(&f.name) {
@@ -298,7 +309,7 @@ impl LocalVars {
} }
} }
fn report_duplicate_definition( pub fn report_duplicate_definition(
msg: &str, msg: &str,
span: &Span, span: &Span,
prev_span: &Span, prev_span: &Span,

15
test/xorshift.cwa Normal file
View File

@@ -0,0 +1,15 @@
// simple test to see whether lazy/inline chains with the same variable compile correctly
fn xorshift(x: i32) -> i32 {
let lazy x = x ^ (x << 13);
let lazy x = x ^ (x #>> 17);
let inline x = x ^ (x << 5);
x
}
fn xorshift2(x: i32) -> i32 {
x ^= x << 13;
x ^= x #>> 17;
x ^= x << 5;
x
}