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brilck.ts
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brilck.ts
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import * as bril from './bril-ts/bril.ts';
import {Signature, PolySignature, FuncType, OP_SIGS, TVar, BaseSignature, PolyType} from './bril-ts/types.ts';
import {readStdin, unreachable} from './bril-ts/util.ts';
/**
* The JavaScript types of Bril constant values.
*/
const CONST_TYPES: {[key: string]: string} = {
'int': 'number',
'float': 'number',
'bool': 'boolean',
'char': 'string'
};
type VarEnv = Map<bril.Ident, bril.Type>;
type FuncEnv = Map<bril.Ident, FuncType>;
type TypeEnv = Map<string, bril.Type>;
/**
* A typing environment that we can use to check instructions within
* a single function.
*/
interface Env {
/**
* The types of all variables defined in the function.
*/
vars: VarEnv;
/**
* The names of all the labels in the function.
*/
labels: Set<bril.Ident>;
/**
* The defined functions in the program.
*/
funcs: FuncEnv;
/**
* The return type of the current function.
*/
ret: bril.Type | undefined;
}
/**
* An optional filename for error messages.
*/
let CHECK_FILE: string | undefined;
/**
* The total number of errors we encounter.
*/
let ERRORS: number = 0;
/**
* Print an error message, possibly with a source position.
*/
function err(msg: string, pos: bril.Position | undefined) {
ERRORS++;
if (pos) {
msg = `${pos.row}:${pos.col}: ${msg}`;
}
if (CHECK_FILE) {
msg = `${CHECK_FILE}:${msg}`;
}
console.error(msg);
}
/**
* Set the type of variable `id` to `type` in `env`, checking for conflicts
* with the old type for the variable.
*/
function addType(env: VarEnv, id: bril.Ident, type: bril.Type, pos: bril.Position | undefined) {
let oldType = env.get(id);
if (oldType) {
if (!typeEq(oldType, type)) {
err(
`new type ${type} for ${id} conflicts with old type ${oldType}`,
pos
);
}
} else {
env.set(id, type);
}
}
/**
* Look up type variables in TypeEnv, leaving non-variable types and undefined
* type variables unchanged.
*/
function typeLookup(type: PolyType, tenv: TypeEnv | undefined): PolyType {
if (!tenv) {
return type;
}
// Do we have a type variable to look up?
if (typeof type === 'object' && 'tv' in type) {
let res = tenv.get(type.tv);
if (res) {
return res;
} else {
return type;
}
}
// Do we need to recursively look up inside this type?
if (typeof type === 'object' && 'ptr' in type) {
return {ptr: typeLookup(type.ptr, tenv)};
}
return type;
}
/**
* Check for type equality.
*
* If a type environemnt is supplied, attempt to unify any unset type
* variables occuring in `b` to make the types match.
*/
function typeEq(a: bril.Type, b: PolyType, tenv?: TypeEnv): boolean {
// Shall we bind a type variable in b?
b = typeLookup(b, tenv);
if (typeof b === "object" && 'tv' in b) {
if (!tenv) {
throw `got type variable ${b.tv} but no type environment`;
}
tenv.set(b.tv, a);
return true;
}
// Normal type comparison.
if (typeof a === "string" && typeof b === "string") {
return a == b;
} else if (typeof a === "object" && typeof b === "object") {
return typeEq(a.ptr, b.ptr, tenv);
} else {
return false;
}
}
/**
* Format a type as a human-readable string.
*/
function typeFmt(t: PolyType): string {
if (typeof t === "string") {
return t;
} else if (typeof t === "object") {
if ('tv' in t) {
return t.tv;
} else {
return `ptr<${typeFmt(t.ptr)}>`;
}
}
unreachable(t);
}
/**
* Check an instruction's arguments and labels against a type signature.
*
* `sig` may be either a concrete signature or a polymorphic one, in which case
* we try unify the quantified type. `name` optionally gives a name for the
* operation to use in error messages; otherwise, we use `instr`'s opcode.
*/
function checkSig(env: Env, instr: bril.Operation, psig: Signature | PolySignature, name?: string) {
name = name ?? instr.op;
// Are we handling a polymorphic signature?
let sig: BaseSignature<PolyType>;
let tenv: TypeEnv = new Map();
if ('tvar' in psig) {
sig = psig.sig;
} else {
sig = psig;
}
// Check destination type.
if ('type' in instr) {
if (sig.dest) {
if (!typeEq(instr.type, sig.dest, tenv)) {
err(
`result type of ${name} should be ${typeFmt(typeLookup(sig.dest, tenv))}, ` +
`but found ${typeFmt(instr.type)}`,
instr.pos
);
}
} else {
err(`${name} should have no result type`, instr.pos);
}
} else {
if (sig.dest) {
err(
`missing result type ${typeFmt(typeLookup(sig.dest, tenv))} for ${name}`,
instr.pos
);
}
}
// Check arguments.
let args = instr.args ?? [];
if (args.length !== sig.args.length) {
err(
`${name} expects ${sig.args.length} args, not ${args.length}`,
instr.pos
);
} else {
for (let i = 0; i < args.length; ++i) {
let argType = env.vars.get(args[i]);
if (!argType) {
err(`${args[i]} (arg ${i}) undefined`, instr.pos);
continue;
}
if (!typeEq(argType, sig.args[i], tenv)) {
err(
`${args[i]} has type ${typeFmt(argType)}, but arg ${i} for ${name} ` +
`should have type ${typeFmt(typeLookup(sig.args[i], tenv))}`,
instr.pos
);
}
}
}
// Check labels.
let labs = instr.labels ?? [];
let labCount = sig.labels ?? 0;
if (labs.length !== labCount) {
err(`${instr.op} needs ${labCount} labels; found ${labs.length}`, instr.pos);
} else {
for (let lab of labs) {
if (!env.labels.has(lab)) {
err(`label .${lab} undefined`, instr.pos);
}
}
}
}
type CheckFunc = (env: Env, instr: bril.Operation) => void;
/**
* Special-case logic for checking some special functions.
*/
const INSTR_CHECKS: {[key: string]: CheckFunc} = {
print: (env, instr) => {
if ('type' in instr) {
err(`print should have no result type`, instr.pos);
}
},
call: (env, instr) => {
let funcs = instr.funcs ?? [];
if (funcs.length !== 1) {
err(`call should have one function, not ${funcs.length}`, instr.pos);
return;
}
let funcType = env.funcs.get(funcs[0]);
if (!funcType) {
err(`function @${funcs[0]} undefined`, instr.pos);
return;
}
checkSig(env, instr, {
args: funcType.args,
dest: funcType.ret,
}, `@${funcs[0]}`);
return;
},
ret: (env, instr) => {
let args = instr.args ?? [];
if (env.ret) {
if (args.length === 0) {
err(`missing return value in function with return type`, instr.pos);
} else if (args.length !== 1) {
err(`cannot return multiple values`, instr.pos);
} else {
checkSig(env, instr, {args: [env.ret]});
}
} else {
if (args.length !== 0) {
err(`returning value in function without a return type`, instr.pos);
}
}
return;
},
phi: (env, instr) => {
let args = instr.args ?? [];
if (!('type' in instr)) {
err(`phi needs a result type`, instr.pos);
return;
}
// Construct a signature with uniform argument types.
let argTypes: bril.Type[] = [];
for (let i = 0; i < args.length; ++i) {
argTypes.push(instr.type);
}
checkSig(env, instr, {args: argTypes, dest: instr.type, labels: args.length});
},
};
function checkOp(env: Env, instr: bril.Operation) {
let args = instr.args ?? [];
// Check for special cases.
let check_func = INSTR_CHECKS[instr.op];
if (check_func) {
check_func(env, instr);
return;
}
// General case: use the operation's signature.
let sig = OP_SIGS[instr.op];
if (!sig) {
err(`unknown opcode ${instr.op}`, instr.pos);
return;
}
checkSig(env, instr, sig);
}
function checkConst(instr: bril.Constant) {
if (!(instr as any)) {
err(`const missing type`, instr!.pos);
return;
}
if (typeof instr.type !== 'string') {
err(`const of non-primitive type ${typeFmt(instr.type)}`, instr.pos);
return;
}
let valType = CONST_TYPES[instr.type];
if (!valType) {
err(`unknown const type ${typeFmt(instr.type)}`, instr.pos);
return;
}
if (typeof instr.value !== valType) {
err(
`const value ${instr.value} does not match type ${typeFmt(instr.type)}`,
instr.pos
);
}
}
function checkFunc(funcs: FuncEnv, func: bril.Function) {
let vars: VarEnv = new Map();
let labels = new Set<bril.Ident>();
// Initilize the type environment with the arguments.
if (func.args) {
for (let arg of func.args) {
addType(vars, arg.name, arg.type, func.pos);
}
}
// Gather up all the types of the local variables and all the label names.
if (func.instrs){
for (let instr of func.instrs) {
if ('dest' in instr) {
addType(vars, instr.dest, instr.type, instr.pos);
} else if ('label' in instr) {
if (labels.has(instr.label)) {
err(`multiply defined label .${instr.label}`, instr.pos);
} else {
labels.add(instr.label);
}
}
}
// Check each instruction.
for (let instr of func.instrs) {
if ('op' in instr) {
if (instr.op === 'const') {
checkConst(instr);
} else {
checkOp({vars, labels, funcs, ret: func.type}, instr);
}
}
}
}
}
function checkProg(prog: bril.Program) {
// Gather up function types.
let funcEnv: FuncEnv = new Map();
for (let func of prog.functions) {
funcEnv.set(func.name, {
ret: func.type,
args: func.args?.map(a => a.type) ?? [],
});
}
// Check each function.
for (let func of prog.functions) {
checkFunc(funcEnv, func);
// The @main function must not return anything.
if (func.name === 'main') {
if (func.type) {
err(`@main must have no return type; found ${typeFmt(func.type)}`,
func.pos);
}
}
}
}
async function main() {
if (Deno.args[0]) {
CHECK_FILE = Deno.args[0];
}
let prog = JSON.parse(await readStdin()) as bril.Program;
checkProg(prog);
if (ERRORS) {
Deno.exit(1);
}
}
main();