import traverse from "../lib"; import assert from "assert"; import { parse } from "babylon"; import * as t from "babel-types"; function getPath(code) { const ast = parse(code, { plugins: ["flow", "asyncGenerators"] }); let path; traverse(ast, { Program: function (_path) { path = _path; _path.stop(); } }); return path; } describe("inference", function () { describe("baseTypeStrictlyMatches", function () { it("it should work with null", function () { const path = getPath("var x = null; x === null").get("body")[1].get("expression"); const left = path.get("left"); const right = path.get("right"); const strictMatch = left.baseTypeStrictlyMatches(right); assert.ok(strictMatch, "null should be equal to null"); }); it("it should work with numbers", function () { const path = getPath("var x = 1; x === 2").get("body")[1].get("expression"); const left = path.get("left"); const right = path.get("right"); const strictMatch = left.baseTypeStrictlyMatches(right); assert.ok(strictMatch, "number should be equal to number"); }); it("it should bail when type changes", function () { const path = getPath("var x = 1; if (foo) x = null;else x = 3; x === 2") .get("body")[2].get("expression"); const left = path.get("left"); const right = path.get("right"); const strictMatch = left.baseTypeStrictlyMatches(right); assert.ok(!strictMatch, "type might change in if statement"); }); it("it should differentiate between null and undefined", function () { const path = getPath("var x; x === null").get("body")[1].get("expression"); const left = path.get("left"); const right = path.get("right"); const strictMatch = left.baseTypeStrictlyMatches(right); assert.ok(!strictMatch, "null should not match undefined"); }); }); describe("getTypeAnnotation", function () { it("should infer from type cast", function () { const path = getPath("(x: number)").get("body")[0].get("expression"); assert.ok(t.isNumberTypeAnnotation(path.getTypeAnnotation()), "should be number"); }); it("should infer string from template literal", function () { const path = getPath("`hey`").get("body")[0].get("expression"); assert.ok(t.isStringTypeAnnotation(path.getTypeAnnotation()), "should be string"); }); it("should infer number from +x", function () { const path = getPath("+x").get("body")[0].get("expression"); assert.ok(t.isNumberTypeAnnotation(path.getTypeAnnotation()), "should be number"); }); it("should infer T from new T", function () { const path = getPath("new T").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "T", "should be T"); }); it("should infer number from ++x", function () { const path = getPath("++x").get("body")[0].get("expression"); assert.ok(t.isNumberTypeAnnotation(path.getTypeAnnotation()), "should be number"); }); it("should infer number from --x", function () { const path = getPath("--x").get("body")[0].get("expression"); assert.ok(t.isNumberTypeAnnotation(path.getTypeAnnotation()), "should be number"); }); it("should infer void from void x", function () { const path = getPath("void x").get("body")[0].get("expression"); assert.ok(t.isVoidTypeAnnotation(path.getTypeAnnotation()), "should be void"); }); it("should infer string from typeof x", function () { const path = getPath("typeof x").get("body")[0].get("expression"); assert.ok(t.isStringTypeAnnotation(path.getTypeAnnotation()), "should be string"); }); it("should infer boolean from !x", function () { const path = getPath("!x").get("body")[0].get("expression"); assert.ok(t.isBooleanTypeAnnotation(path.getTypeAnnotation()), "should be boolean"); }); it("should infer type of sequence expression", function () { const path = getPath("a,1").get("body")[0].get("expression"); assert.ok(t.isNumberTypeAnnotation(path.getTypeAnnotation()), "should be number"); }); it("should infer type of logical expression", function () { const path = getPath("'a' && 1").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isUnionTypeAnnotation(type), "should be a union"); assert.ok(t.isStringTypeAnnotation(type.types[0]), "first type in union should be string"); assert.ok(t.isNumberTypeAnnotation(type.types[1]), "second type in union should be number"); }); it("should infer type of conditional expression", function () { const path = getPath("q ? true : 0").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isUnionTypeAnnotation(type), "should be a union"); assert.ok(t.isBooleanTypeAnnotation(type.types[0]), "first type in union should be boolean"); assert.ok(t.isNumberTypeAnnotation(type.types[1]), "second type in union should be number"); }); it("should infer RegExp from RegExp literal", function () { const path = getPath("/.+/").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "RegExp", "should be RegExp"); }); it("should infer Object from object expression", function () { const path = getPath("({ a: 5 })").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "Object", "should be Object"); }); it("should infer Array from array expression", function () { const path = getPath("[ 5 ]").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "Array", "should be Array"); }); it("should infer Function from function", function () { const path = getPath("(function (): string {})").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "Function", "should be Function"); }); it("should infer call return type using function", function () { const path = getPath("(function (): string {})()").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isStringTypeAnnotation(type), "should be string"); }); it("should infer call return type using async function", function () { const path = getPath("(async function (): string {})()").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "Promise", "should be Promise"); }); it("should infer call return type using async generator function", function () { const path = getPath("(async function * (): string {})()").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "AsyncIterator", "should be AsyncIterator"); }); it("should infer number from x/y", function () { const path = getPath("x/y").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isNumberTypeAnnotation(type), "should be number"); }); it("should infer boolean from x instanceof y", function () { const path = getPath("x instanceof y").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isBooleanTypeAnnotation(type), "should be boolean"); }); it("should infer number from 1 + 2", function () { const path = getPath("1 + 2").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isNumberTypeAnnotation(type), "should be number"); }); it("should infer string|number from x + y", function () { const path = getPath("x + y").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isUnionTypeAnnotation(type), "should be a union"); assert.ok(t.isStringTypeAnnotation(type.types[0]), "first type in union should be string"); assert.ok(t.isNumberTypeAnnotation(type.types[1]), "second type in union should be number"); }); it("should infer type of tagged template literal", function () { const path = getPath("(function (): RegExp {}) `hey`").get("body")[0].get("expression"); const type = path.getTypeAnnotation(); assert.ok(t.isGenericTypeAnnotation(type) && type.id.name === "RegExp", "should be RegExp"); }); }); });