/** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ import {ASTWithSource, BindingPipe, Interpolation, ParserError, TemplateBinding, VariableBinding} from '@angular/compiler/src/expression_parser/ast'; import {Lexer} from '@angular/compiler/src/expression_parser/lexer'; import {IvyParser, Parser, SplitInterpolation} from '@angular/compiler/src/expression_parser/parser'; import {expect} from '@angular/platform-browser/testing/src/matchers'; import {unparse, unparseWithSpan} from './utils/unparser'; import {validate} from './utils/validator'; describe('parser', () => { describe('parseAction', () => { it('should parse numbers', () => { checkAction('1'); }); it('should parse strings', () => { checkAction('\'1\'', '"1"'); checkAction('"1"'); }); it('should parse null', () => { checkAction('null'); }); it('should parse undefined', () => { checkAction('undefined'); }); it('should parse unary - and + expressions', () => { checkAction('-1', '-1'); checkAction('+1', '+1'); checkAction(`-'1'`, `-"1"`); checkAction(`+'1'`, `+"1"`); }); it('should parse unary ! expressions', () => { checkAction('!true'); checkAction('!!true'); checkAction('!!!true'); }); it('should parse postfix ! expression', () => { checkAction('true!'); checkAction('a!.b'); checkAction('a!!!!.b'); }); it('should parse multiplicative expressions', () => { checkAction('3*4/2%5', '3 * 4 / 2 % 5'); }); it('should parse additive expressions', () => { checkAction('3 + 6 - 2'); }); it('should parse relational expressions', () => { checkAction('2 < 3'); checkAction('2 > 3'); checkAction('2 <= 2'); checkAction('2 >= 2'); }); it('should parse equality expressions', () => { checkAction('2 == 3'); checkAction('2 != 3'); }); it('should parse strict equality expressions', () => { checkAction('2 === 3'); checkAction('2 !== 3'); }); it('should parse expressions', () => { checkAction('true && true'); checkAction('true || false'); }); it('should parse grouped expressions', () => { checkAction('(1 + 2) * 3', '1 + 2 * 3'); }); it('should ignore comments in expressions', () => { checkAction('a //comment', 'a'); }); it('should retain // in string literals', () => { checkAction(`"http://www.google.com"`, `"http://www.google.com"`); }); it('should parse an empty string', () => { checkAction(''); }); describe('literals', () => { it('should parse array', () => { checkAction('[1][0]'); checkAction('[[1]][0][0]'); checkAction('[]'); checkAction('[].length'); checkAction('[1, 2].length'); }); it('should parse map', () => { checkAction('{}'); checkAction('{a: 1, "b": 2}[2]'); checkAction('{}["a"]'); }); it('should only allow identifier, string, or keyword as map key', () => { expectActionError('{(:0}', 'expected identifier, keyword, or string'); expectActionError('{1234:0}', 'expected identifier, keyword, or string'); }); }); describe('member access', () => { it('should parse field access', () => { checkAction('a'); checkAction('this.a', 'a'); checkAction('a.a'); }); it('should only allow identifier or keyword as member names', () => { checkActionWithError('x.', 'x.', 'identifier or keyword'); checkActionWithError('x.(', 'x.', 'identifier or keyword'); checkActionWithError('x. 1234', 'x.', 'identifier or keyword'); checkActionWithError('x."foo"', 'x.', 'identifier or keyword'); }); it('should parse safe field access', () => { checkAction('a?.a'); checkAction('a.a?.a'); }); it('should parse incomplete safe field accesses', () => { checkActionWithError('a?.a.', 'a?.a.', 'identifier or keyword'); checkActionWithError('a.a?.a.', 'a.a?.a.', 'identifier or keyword'); checkActionWithError('a.a?.a?. 1234', 'a.a?.a?.', 'identifier or keyword'); }); }); describe('property write', () => { it('should parse property writes', () => { checkAction('a.a = 1 + 2'); checkAction('this.a.a = 1 + 2', 'a.a = 1 + 2'); checkAction('a.a.a = 1 + 2'); }); describe('malformed property writes', () => { it('should recover on empty rvalues', () => { checkActionWithError('a.a = ', 'a.a = ', 'Unexpected end of expression'); }); it('should recover on incomplete rvalues', () => { checkActionWithError('a.a = 1 + ', 'a.a = 1 + ', 'Unexpected end of expression'); }); it('should recover on missing properties', () => { checkActionWithError( 'a. = 1', 'a. = 1', 'Expected identifier for property access at column 2'); }); it('should error on writes after a property write', () => { const ast = parseAction('a.a = 1 = 2'); expect(unparse(ast)).toEqual('a.a = 1'); validate(ast); expect(ast.errors.length).toBe(1); expect(ast.errors[0].message).toContain('Unexpected token \'=\''); }); }); }); describe('method calls', () => { it('should parse method calls', () => { checkAction('fn()'); checkAction('add(1, 2)'); checkAction('a.add(1, 2)'); checkAction('fn().add(1, 2)'); }); }); describe('functional calls', () => { it('should parse function calls', () => { checkAction('fn()(1, 2)'); }); }); describe('keyed read', () => { it('should parse keyed reads', () => { checkAction('a["a"]'); checkAction('this.a["a"]', 'a["a"]'); checkAction('a.a["a"]'); }); describe('malformed keyed reads', () => { it('should recover on missing keys', () => { checkActionWithError('a[]', 'a[]', 'Key access cannot be empty'); }); it('should recover on incomplete expression keys', () => { checkActionWithError('a[1 + ]', 'a[1 + ]', 'Unexpected token ]'); }); it('should recover on unterminated keys', () => { checkActionWithError( 'a[1 + 2', 'a[1 + 2]', 'Missing expected ] at the end of the expression'); }); it('should recover on incomplete and unterminated keys', () => { checkActionWithError( 'a[1 + ', 'a[1 + ]', 'Missing expected ] at the end of the expression'); }); }); }); describe('keyed write', () => { it('should parse keyed writes', () => { checkAction('a["a"] = 1 + 2'); checkAction('this.a["a"] = 1 + 2', 'a["a"] = 1 + 2'); checkAction('a.a["a"] = 1 + 2'); }); describe('malformed keyed writes', () => { it('should recover on empty rvalues', () => { checkActionWithError('a["a"] = ', 'a["a"] = ', 'Unexpected end of expression'); }); it('should recover on incomplete rvalues', () => { checkActionWithError('a["a"] = 1 + ', 'a["a"] = 1 + ', 'Unexpected end of expression'); }); it('should recover on missing keys', () => { checkActionWithError('a[] = 1', 'a[] = 1', 'Key access cannot be empty'); }); it('should recover on incomplete expression keys', () => { checkActionWithError('a[1 + ] = 1', 'a[1 + ] = 1', 'Unexpected token ]'); }); it('should recover on unterminated keys', () => { checkActionWithError('a[1 + 2 = 1', 'a[1 + 2] = 1', 'Missing expected ]'); }); it('should recover on incomplete and unterminated keys', () => { const ast = parseAction('a[1 + = 1'); expect(unparse(ast)).toEqual('a[1 + ] = 1'); validate(ast); const errors = ast.errors.map(e => e.message); expect(errors.length).toBe(2); expect(errors[0]).toContain('Unexpected token ='); expect(errors[1]).toContain('Missing expected ]'); }); it('should error on writes after a keyed write', () => { const ast = parseAction('a[1] = 1 = 2'); expect(unparse(ast)).toEqual('a[1] = 1'); validate(ast); expect(ast.errors.length).toBe(1); expect(ast.errors[0].message).toContain('Unexpected token \'=\''); }); }); }); describe('conditional', () => { it('should parse ternary/conditional expressions', () => { checkAction('7 == 3 + 4 ? 10 : 20'); checkAction('false ? 10 : 20'); }); it('should report incorrect ternary operator syntax', () => { expectActionError('true?1', 'Conditional expression true?1 requires all 3 expressions'); }); }); describe('assignment', () => { it('should support field assignments', () => { checkAction('a = 12'); checkAction('a.a.a = 123'); checkAction('a = 123; b = 234;'); }); it('should report on safe field assignments', () => { expectActionError('a?.a = 123', 'cannot be used in the assignment'); }); it('should support array updates', () => { checkAction('a[0] = 200'); }); }); it('should error when using pipes', () => { expectActionError('x|blah', 'Cannot have a pipe'); }); it('should store the source in the result', () => { expect(parseAction('someExpr', 'someExpr')); }); it('should store the passed-in location', () => { expect(parseAction('someExpr', 'location').location).toBe('location'); }); it('should report when encountering interpolation', () => { expectActionError('{{a()}}', 'Got interpolation ({{}}) where expression was expected'); }); }); describe('parse spans', () => { it('should record property read span', () => { const ast = parseAction('foo'); expect(unparseWithSpan(ast)).toContain(['foo', 'foo']); expect(unparseWithSpan(ast)).toContain(['foo', '[nameSpan] foo']); }); it('should record accessed property read span', () => { const ast = parseAction('foo.bar'); expect(unparseWithSpan(ast)).toContain(['foo.bar', 'foo.bar']); expect(unparseWithSpan(ast)).toContain(['foo.bar', '[nameSpan] bar']); }); it('should record safe property read span', () => { const ast = parseAction('foo?.bar'); expect(unparseWithSpan(ast)).toContain(['foo?.bar', 'foo?.bar']); expect(unparseWithSpan(ast)).toContain(['foo?.bar', '[nameSpan] bar']); }); it('should record method call span', () => { const ast = parseAction('foo()'); expect(unparseWithSpan(ast)).toContain(['foo()', 'foo()']); expect(unparseWithSpan(ast)).toContain(['foo()', '[nameSpan] foo']); }); it('should record accessed method call span', () => { const ast = parseAction('foo.bar()'); expect(unparseWithSpan(ast)).toContain(['foo.bar()', 'foo.bar()']); expect(unparseWithSpan(ast)).toContain(['foo.bar()', '[nameSpan] bar']); }); it('should record safe method call span', () => { const ast = parseAction('foo?.bar()'); expect(unparseWithSpan(ast)).toContain(['foo?.bar()', 'foo?.bar()']); expect(unparseWithSpan(ast)).toContain(['foo?.bar()', '[nameSpan] bar']); }); it('should record property write span', () => { const ast = parseAction('a = b'); expect(unparseWithSpan(ast)).toContain(['a = b', 'a = b']); expect(unparseWithSpan(ast)).toContain(['a = b', '[nameSpan] a']); }); it('should record accessed property write span', () => { const ast = parseAction('a.b = c'); expect(unparseWithSpan(ast)).toContain(['a.b = c', 'a.b = c']); expect(unparseWithSpan(ast)).toContain(['a.b = c', '[nameSpan] b']); }); }); describe('general error handling', () => { it('should report an unexpected token', () => { expectActionError('[1,2] trac', 'Unexpected token \'trac\''); }); it('should report reasonable error for unconsumed tokens', () => { expectActionError(')', 'Unexpected token ) at column 1 in [)]'); }); it('should report a missing expected token', () => { expectActionError('a(b', 'Missing expected ) at the end of the expression [a(b]'); }); }); describe('parseBinding', () => { describe('pipes', () => { it('should parse pipes', () => { checkBinding('a(b | c)', 'a((b | c))'); checkBinding('a.b(c.d(e) | f)', 'a.b((c.d(e) | f))'); checkBinding('[1, 2, 3] | a', '([1, 2, 3] | a)'); checkBinding('{a: 1, "b": 2} | c', '({a: 1, "b": 2} | c)'); checkBinding('a[b] | c', '(a[b] | c)'); checkBinding('a?.b | c', '(a?.b | c)'); checkBinding('true | a', '(true | a)'); checkBinding('a | b:c | d', '((a | b:c) | d)'); checkBinding('a | b:(c | d)', '(a | b:(c | d))'); }); describe('should parse incomplete pipes', () => { const cases: Array<[string, string, string, string]> = [ [ 'should parse missing pipe names: end', 'a | b | ', '((a | b) | )', 'Unexpected end of input, expected identifier or keyword', ], [ 'should parse missing pipe names: middle', 'a | | b', '((a | ) | b)', 'Unexpected token |, expected identifier or keyword', ], [ 'should parse missing pipe names: start', ' | a | b', '(( | a) | b)', 'Unexpected token |', ], [ 'should parse missing pipe args: end', 'a | b | c: ', '((a | b) | c:)', 'Unexpected end of expression', ], [ 'should parse missing pipe args: middle', 'a | b: | c', '((a | b:) | c)', 'Unexpected token |', ], [ 'should parse incomplete pipe args', 'a | b: (a | ) + | c', '((a | b:(a | ) + ) | c)', 'Unexpected token |', ], ]; for (const [name, input, output, err] of cases) { it(name, () => { checkBinding(input, output); expectBindingError(input, err); }); } }); it('should only allow identifier or keyword as formatter names', () => { expectBindingError('"Foo"|(', 'identifier or keyword'); expectBindingError('"Foo"|1234', 'identifier or keyword'); expectBindingError('"Foo"|"uppercase"', 'identifier or keyword'); }); it('should parse quoted expressions', () => { checkBinding('a:b', 'a:b'); }); it('should not crash when prefix part is not tokenizable', () => { checkBinding('"a:b"', '"a:b"'); }); it('should ignore whitespace around quote prefix', () => { checkBinding(' a :b', 'a:b'); }); it('should refuse prefixes that are not single identifiers', () => { expectBindingError('a + b:c', ''); expectBindingError('1:c', ''); }); }); it('should store the source in the result', () => { expect(parseBinding('someExpr').source).toBe('someExpr'); }); it('should store the passed-in location', () => { expect(parseBinding('someExpr', 'location').location).toBe('location'); }); it('should report chain expressions', () => { expectError(parseBinding('1;2'), 'contain chained expression'); }); it('should report assignment', () => { expectError(parseBinding('a=2'), 'contain assignments'); }); it('should report when encountering interpolation', () => { expectBindingError('{{a.b}}', 'Got interpolation ({{}}) where expression was expected'); }); it('should parse conditional expression', () => { checkBinding('a < b ? a : b'); }); it('should ignore comments in bindings', () => { checkBinding('a //comment', 'a'); }); it('should retain // in string literals', () => { checkBinding(`"http://www.google.com"`, `"http://www.google.com"`); }); it('should retain // in : microsyntax', () => { checkBinding('one:a//b', 'one:a//b'); }); }); describe('parseTemplateBindings', () => { function humanize(bindings: TemplateBinding[]): Array<[string, string | null, boolean]> { return bindings.map(binding => { const key = binding.key.source; const value = binding.value ? binding.value.source : null; const keyIsVar = binding instanceof VariableBinding; return [key, value, keyIsVar]; }); } function humanizeSpans( bindings: TemplateBinding[], attr: string): Array<[string, string, string | null]> { return bindings.map(binding => { const {sourceSpan, key, value} = binding; const sourceStr = attr.substring(sourceSpan.start, sourceSpan.end); const keyStr = attr.substring(key.span.start, key.span.end); let valueStr = null; if (value) { const {start, end} = value instanceof ASTWithSource ? value.ast.sourceSpan : value.span; valueStr = attr.substring(start, end); } return [sourceStr, keyStr, valueStr]; }); } it('should parse key and value', () => { const cases: Array<[string, string, string | null, boolean, string, string, string | null]> = [ // expression, key, value, VariableBinding, source span, key span, value span ['*a=""', 'a', null, false, 'a="', 'a', null], ['*a="b"', 'a', 'b', false, 'a="b', 'a', 'b'], ['*a-b="c"', 'a-b', 'c', false, 'a-b="c', 'a-b', 'c'], ['*a="1+1"', 'a', '1+1', false, 'a="1+1', 'a', '1+1'], ]; for (const [attr, key, value, keyIsVar, sourceSpan, keySpan, valueSpan] of cases) { const bindings = parseTemplateBindings(attr); expect(humanize(bindings)).toEqual([ [key, value, keyIsVar], ]); expect(humanizeSpans(bindings, attr)).toEqual([ [sourceSpan, keySpan, valueSpan], ]); } }); it('should variable declared via let', () => { const bindings = parseTemplateBindings('*a="let b"'); expect(humanize(bindings)).toEqual([ // key, value, VariableBinding ['a', null, false], ['b', null, true], ]); }); it('should allow multiple pairs', () => { const bindings = parseTemplateBindings('*a="1 b 2"'); expect(humanize(bindings)).toEqual([ // key, value, VariableBinding ['a', '1', false], ['aB', '2', false], ]); }); it('should allow space and colon as separators', () => { const bindings = parseTemplateBindings('*a="1,b 2"'); expect(humanize(bindings)).toEqual([ // key, value, VariableBinding ['a', '1', false], ['aB', '2', false], ]); }); it('should store the templateUrl', () => { const bindings = parseTemplateBindings('*a="1,b 2"', '/foo/bar.html'); expect(humanize(bindings)).toEqual([ // key, value, VariableBinding ['a', '1', false], ['aB', '2', false], ]); expect((bindings[0].value as ASTWithSource).location).toEqual('/foo/bar.html'); }); it('should support common usage of ngIf', () => { const bindings = parseTemplateBindings('*ngIf="cond | pipe as foo, let x; ngIf as y"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['ngIf', 'cond | pipe', false], ['foo', 'ngIf', true], ['x', null, true], ['y', 'ngIf', true], ]); }); it('should support common usage of ngFor', () => { let bindings: TemplateBinding[]; bindings = parseTemplateBindings('*ngFor="let person of people"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['ngFor', null, false], ['person', null, true], ['ngForOf', 'people', false], ]); bindings = parseTemplateBindings( '*ngFor="let item; of items | slice:0:1 as collection, trackBy: func; index as i"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['ngFor', null, false], ['item', null, true], ['ngForOf', 'items | slice:0:1', false], ['collection', 'ngForOf', true], ['ngForTrackBy', 'func', false], ['i', 'index', true], ]); bindings = parseTemplateBindings( '*ngFor="let item, of: [1,2,3] | pipe as items; let i=index, count as len"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['ngFor', null, false], ['item', null, true], ['ngForOf', '[1,2,3] | pipe', false], ['items', 'ngForOf', true], ['i', 'index', true], ['len', 'count', true], ]); }); it('should parse pipes', () => { const bindings = parseTemplateBindings('*key="value|pipe "'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['key', 'value|pipe', false], ]); const {value} = bindings[0]; expect(value).toBeAnInstanceOf(ASTWithSource); expect((value as ASTWithSource).ast).toBeAnInstanceOf(BindingPipe); }); describe('"let" binding', () => { it('should support single declaration', () => { const bindings = parseTemplateBindings('*key="let i"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['key', null, false], ['i', null, true], ]); }); it('should support multiple declarations', () => { const bindings = parseTemplateBindings('*key="let a; let b"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['key', null, false], ['a', null, true], ['b', null, true], ]); }); it('should support empty string assignment', () => { const bindings = parseTemplateBindings(`*key="let a=''; let b='';"`); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['key', null, false], ['a', '', true], ['b', '', true], ]); }); it('should support key and value names with dash', () => { const bindings = parseTemplateBindings('*key="let i-a = j-a,"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['key', null, false], ['i-a', 'j-a', true], ]); }); it('should support declarations with or without value assignment', () => { const bindings = parseTemplateBindings('*key="let item; let i = k"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['key', null, false], ['item', null, true], ['i', 'k', true], ]); }); it('should support declaration before an expression', () => { const bindings = parseTemplateBindings('*directive="let item in expr; let a = b"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['directive', null, false], ['item', null, true], ['directiveIn', 'expr', false], ['a', 'b', true], ]); }); }); describe('"as" binding', () => { it('should support single declaration', () => { const bindings = parseTemplateBindings('*ngIf="exp as local"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['ngIf', 'exp', false], ['local', 'ngIf', true], ]); }); it('should support declaration after an expression', () => { const bindings = parseTemplateBindings('*ngFor="let item of items as iter; index as i"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['ngFor', null, false], ['item', null, true], ['ngForOf', 'items', false], ['iter', 'ngForOf', true], ['i', 'index', true], ]); }); it('should support key and value names with dash', () => { const bindings = parseTemplateBindings('*key="foo, k-b as l-b;"'); expect(humanize(bindings)).toEqual([ // [ key, value, VariableBinding ] ['key', 'foo', false], ['l-b', 'k-b', true], ]); }); }); describe('source, key, value spans', () => { it('should map empty expression', () => { const attr = '*ngIf=""'; const bindings = parseTemplateBindings(attr); expect(humanizeSpans(bindings, attr)).toEqual([ // source span, key span, value span ['ngIf="', 'ngIf', null], ]); }); it('should map variable declaration via "let"', () => { const attr = '*key="let i"'; const bindings = parseTemplateBindings(attr); expect(humanizeSpans(bindings, attr)).toEqual([ // source span, key span, value span ['key="', 'key', null], // source span stretches till next binding ['let i', 'i', null], ]); }); it('shoud map multiple variable declarations via "let"', () => { const attr = '*key="let item; let i=index; let e=even;"'; const bindings = parseTemplateBindings(attr); expect(humanizeSpans(bindings, attr)).toEqual([ // source span, key span, value span ['key="', 'key', null], ['let item; ', 'item', null], ['let i=index; ', 'i', 'index'], ['let e=even;', 'e', 'even'], ]); }); it('shoud map expression with pipe', () => { const attr = '*ngIf="cond | pipe as foo, let x; ngIf as y"'; const bindings = parseTemplateBindings(attr); expect(humanizeSpans(bindings, attr)).toEqual([ // source span, key span, value span ['ngIf="cond | pipe ', 'ngIf', 'cond | pipe'], ['ngIf="cond | pipe as foo, ', 'foo', 'ngIf'], ['let x; ', 'x', null], ['ngIf as y', 'y', 'ngIf'], ]); }); it('should map variable declaration via "as"', () => { const attr = '*ngFor="let item; of items | slice:0:1 as collection, trackBy: func; index as i"'; const bindings = parseTemplateBindings(attr); expect(humanizeSpans(bindings, attr)).toEqual([ // source span, key span, value span ['ngFor="', 'ngFor', null], ['let item; ', 'item', null], ['of items | slice:0:1 ', 'of', 'items | slice:0:1'], ['of items | slice:0:1 as collection, ', 'collection', 'of'], ['trackBy: func; ', 'trackBy', 'func'], ['index as i', 'i', 'index'], ]); }); it('should map literal array', () => { const attr = '*ngFor="let item, of: [1,2,3] | pipe as items; let i=index, count as len, "'; const bindings = parseTemplateBindings(attr); expect(humanizeSpans(bindings, attr)).toEqual([ // source span, key span, value span ['ngFor="', 'ngFor', null], ['let item, ', 'item', null], ['of: [1,2,3] | pipe ', 'of', '[1,2,3] | pipe'], ['of: [1,2,3] | pipe as items; ', 'items', 'of'], ['let i=index, ', 'i', 'index'], ['count as len,', 'len', 'count'], ]); }); }); }); describe('parseInterpolation', () => { it('should return null if no interpolation', () => { expect(parseInterpolation('nothing')).toBe(null); }); it('should not parse malformed interpolations as strings', () => { const ast = parseInterpolation('{{a}} {{example}}')!.ast as Interpolation; expect(ast.strings).toEqual(['', ' {{example}}']); expect(ast.expressions.length).toEqual(1); expect(ast.expressions[0].name).toEqual('a'); }); it('should parse no prefix/suffix interpolation', () => { const ast = parseInterpolation('{{a}}')!.ast as Interpolation; expect(ast.strings).toEqual(['', '']); expect(ast.expressions.length).toEqual(1); expect(ast.expressions[0].name).toEqual('a'); }); it('should parse prefix/suffix with multiple interpolation', () => { const originalExp = 'before {{ a }} middle {{ b }} after'; const ast = parseInterpolation(originalExp)!.ast; expect(unparse(ast)).toEqual(originalExp); validate(ast); }); it('should report empty interpolation expressions', () => { expectError( parseInterpolation('{{}}')!, 'Blank expressions are not allowed in interpolated strings'); expectError( parseInterpolation('foo {{ }}')!, 'Parser Error: Blank expressions are not allowed in interpolated strings'); }); it('should parse conditional expression', () => { checkInterpolation('{{ a < b ? a : b }}'); }); it('should parse expression with newline characters', () => { checkInterpolation(`{{ 'foo' +\n 'bar' +\r 'baz' }}`, `{{ "foo" + "bar" + "baz" }}`); }); it('should support custom interpolation', () => { const parser = new Parser(new Lexer()); const ast = parser.parseInterpolation('{% a %}', null, 0, {start: '{%', end: '%}'})!.ast as any; expect(ast.strings).toEqual(['', '']); expect(ast.expressions.length).toEqual(1); expect(ast.expressions[0].name).toEqual('a'); }); describe('comments', () => { it('should ignore comments in interpolation expressions', () => { checkInterpolation('{{a //comment}}', '{{ a }}'); }); it('should retain // in single quote strings', () => { checkInterpolation(`{{ 'http://www.google.com' }}`, `{{ "http://www.google.com" }}`); }); it('should retain // in double quote strings', () => { checkInterpolation(`{{ "http://www.google.com" }}`, `{{ "http://www.google.com" }}`); }); it('should ignore comments after string literals', () => { checkInterpolation(`{{ "a//b" //comment }}`, `{{ "a//b" }}`); }); it('should retain // in complex strings', () => { checkInterpolation( `{{"//a\'//b\`//c\`//d\'//e" //comment}}`, `{{ "//a\'//b\`//c\`//d\'//e" }}`); }); it('should retain // in nested, unterminated strings', () => { checkInterpolation(`{{ "a\'b\`" //comment}}`, `{{ "a\'b\`" }}`); }); }); }); describe('parseSimpleBinding', () => { it('should parse a field access', () => { const p = parseSimpleBinding('name'); expect(unparse(p)).toEqual('name'); validate(p); }); it('should report when encountering pipes', () => { expectError( validate(parseSimpleBinding('a | somePipe')), 'Host binding expression cannot contain pipes'); }); it('should report when encountering interpolation', () => { expectError( validate(parseSimpleBinding('{{exp}}')), 'Got interpolation ({{}}) where expression was expected'); }); it('should report when encountering field write', () => { expectError(validate(parseSimpleBinding('a = b')), 'Bindings cannot contain assignments'); }); describe('Ivy-only validations', () => { it('should throw if a pipe is used inside a conditional', () => { expectError( validate(parseSimpleBindingIvy('(hasId | myPipe) ? "my-id" : ""')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a function call', () => { expectError( validate(parseSimpleBindingIvy('getId(true, id | myPipe)')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a method call', () => { expectError( validate(parseSimpleBindingIvy('idService.getId(true, id | myPipe)')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a safe method call', () => { expectError( validate(parseSimpleBindingIvy('idService?.getId(true, id | myPipe)')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a property access', () => { expectError( validate(parseSimpleBindingIvy('a[id | myPipe]')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a keyed read expression', () => { expectError( validate(parseSimpleBindingIvy('a[id | myPipe].b')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a safe property read', () => { expectError( validate(parseSimpleBindingIvy('(id | myPipe)?.id')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a non-null assertion', () => { expectError( validate(parseSimpleBindingIvy('[id | myPipe]!')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a prefix not expression', () => { expectError( validate(parseSimpleBindingIvy('!(id | myPipe)')), 'Host binding expression cannot contain pipes'); }); it('should throw if a pipe is used inside a binary expression', () => { expectError( validate(parseSimpleBindingIvy('(id | myPipe) === true')), 'Host binding expression cannot contain pipes'); }); }); }); describe('wrapLiteralPrimitive', () => { it('should wrap a literal primitive', () => { expect(unparse(validate(createParser().wrapLiteralPrimitive('foo', null, 0)))) .toEqual('"foo"'); }); }); describe('error recovery', () => { function recover(text: string, expected?: string) { const expr = validate(parseAction(text)); expect(unparse(expr)).toEqual(expected || text); } it('should be able to recover from an extra paren', () => recover('((a)))', 'a')); it('should be able to recover from an extra bracket', () => recover('[[a]]]', '[[a]]')); it('should be able to recover from a missing )', () => recover('(a;b', 'a; b;')); it('should be able to recover from a missing ]', () => recover('[a,b', '[a, b]')); it('should be able to recover from a missing selector', () => recover('a.')); it('should be able to recover from a missing selector in a array literal', () => recover('[[a.], b, c]')); }); describe('offsets', () => { it('should retain the offsets of an interpolation', () => { const interpolations = splitInterpolation('{{a}} {{b}} {{c}}')!; expect(interpolations.offsets).toEqual([2, 9, 16]); }); it('should retain the offsets into the expression AST of interpolations', () => { const source = parseInterpolation('{{a}} {{b}} {{c}}')!; const interpolation = source.ast as Interpolation; expect(interpolation.expressions.map(e => e.span.start)).toEqual([2, 9, 16]); }); }); }); function createParser() { return new Parser(new Lexer()); } function createIvyParser() { return new IvyParser(new Lexer()); } function parseAction(text: string, location: any = null, offset: number = 0): ASTWithSource { return createParser().parseAction(text, location, offset); } function parseBinding(text: string, location: any = null, offset: number = 0): ASTWithSource { return createParser().parseBinding(text, location, offset); } function parseTemplateBindings(attribute: string, templateUrl = 'foo.html'): TemplateBinding[] { const match = attribute.match(/^\*(.+)="(.*)"$/); expect(match).toBeTruthy(`failed to extract key and value from ${attribute}`); const [_, key, value] = match; const absKeyOffset = 1; // skip the * prefix const absValueOffset = attribute.indexOf('=') + '="'.length; const parser = createParser(); const result = parser.parseTemplateBindings(key, value, templateUrl, absKeyOffset, absValueOffset); expect(result.errors).toEqual([]); expect(result.warnings).toEqual([]); return result.templateBindings; } function parseInterpolation(text: string, location: any = null, offset: number = 0): ASTWithSource| null { return createParser().parseInterpolation(text, location, offset); } function splitInterpolation(text: string, location: any = null): SplitInterpolation|null { return createParser().splitInterpolation(text, location); } function parseSimpleBinding(text: string, location: any = null, offset: number = 0): ASTWithSource { return createParser().parseSimpleBinding(text, location, offset); } function parseSimpleBindingIvy( text: string, location: any = null, offset: number = 0): ASTWithSource { return createIvyParser().parseSimpleBinding(text, location, offset); } function checkInterpolation(exp: string, expected?: string) { const ast = parseInterpolation(exp)!; if (expected == null) expected = exp; expect(unparse(ast)).toEqual(expected); validate(ast); } function checkBinding(exp: string, expected?: string) { const ast = parseBinding(exp); if (expected == null) expected = exp; expect(unparse(ast)).toEqual(expected); validate(ast); } function checkAction(exp: string, expected?: string) { const ast = parseAction(exp); if (expected == null) expected = exp; expect(unparse(ast)).toEqual(expected); validate(ast); } function expectError(ast: {errors: ParserError[]}, message: string) { for (const error of ast.errors) { if (error.message.indexOf(message) >= 0) { return; } } const errMsgs = ast.errors.map(err => err.message).join('\n'); throw Error( `Expected an error containing "${message}" to be reported, but got the errors:\n` + errMsgs); } function expectActionError(text: string, message: string) { expectError(validate(parseAction(text)), message); } function expectBindingError(text: string, message: string) { expectError(validate(parseBinding(text)), message); } /** * Check that a malformed action parses to a recovered AST while emitting an error. */ function checkActionWithError(text: string, expected: string, error: string) { checkAction(text, expected); expectActionError(text, error); }