343 lines
14 KiB
TypeScript
343 lines
14 KiB
TypeScript
/**
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* PHP property-receiver resolution (#1108 family).
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*
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* `$this->prop->method()` reaches the resolver as `this->prop.method` (the
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* extractor records the receiver's raw text with the leading `$` stripped, and
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* — unlike a `foo()->bar()` chain — there are no `()` on the receiver). The
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* property's declaration lives OUTSIDE the calling method: a promoted
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* constructor parameter (`private readonly Greeter $greeter`), a classic typed
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* property assigned in `__construct`, or a property typed by an interface. The
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* resolver recovers the property's declared type from PROPERTY-shaped
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* declarations only — a modifier-prefixed typed declaration, the
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* `$this->prop = new X()` pseudoconstructor, or (for a classic untyped
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* property) the typed variable assigned to it inside its own function. Plain
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* `$prop` locals and parameters live in a different namespace than
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* `$this->prop` and can never shadow it, so they must never type it — the
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* interference tests below pin that. The inferred type is validated through
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* `resolveMethodOnType`, so a property whose type can't be recovered stays
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* UNLINKED rather than guessed — a wrong inference produces no edge instead
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* of a wrong one.
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*
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* Method lookup runs EXCLUSIVELY through declared-type inference: the
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* name-similarity fallbacks never see this shape, which is what makes the
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* same-name-collision and no-type cases below negative. Inherited methods
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* resolve only once `extends`/`implements` edges exist, so these refs defer to
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* the conformance pass; the full `indexAll()` path here exercises that.
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*/
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import { describe, it, expect, beforeEach, afterEach } from 'vitest';
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import * as fs from 'node:fs';
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import * as path from 'node:path';
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import * as os from 'node:os';
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import { CodeGraph } from '../src';
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import { Node } from '../src/types';
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import { ResolutionContext } from '../src/resolution';
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import { matchMethodCall } from '../src/resolution/name-matcher';
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import type { UnresolvedRef } from '../src/resolution/types';
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describe('PHP property-receiver resolution', () => {
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let dir: string;
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beforeEach(() => { dir = fs.mkdtempSync(path.join(os.tmpdir(), 'php-prop-recv-')); });
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afterEach(() => { fs.rmSync(dir, { recursive: true, force: true }); });
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const write = (rel: string, body: string) => {
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const p = path.join(dir, rel);
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fs.mkdirSync(path.dirname(p), { recursive: true });
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fs.writeFileSync(p, body);
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};
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const load = async () => {
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const cg = await CodeGraph.init(dir, { silent: true });
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await cg.indexAll();
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const db = (cg as any).db.db;
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const calls: { src: string; tgt: string; tgtQn: string }[] = db
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.prepare(
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`SELECT s.name src, t.name tgt, t.qualified_name tgtQn
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FROM edges e JOIN nodes s ON s.id = e.source JOIN nodes t ON t.id = e.target
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WHERE e.kind = 'calls' AND t.kind = 'method'`,
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)
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.all();
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cg.close?.();
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return calls;
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};
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const hasCall = (calls: any[], src: string, tgtQn: string) =>
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calls.some((e) => e.src === src && e.tgtQn === tgtQn);
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// Any resolved method call `src` makes to a method of the given bare name —
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// used by the negative cases to assert nothing was guessed.
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const callsMethodNamed = (calls: any[], src: string, tgt: string) =>
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calls.some((e) => e.src === src && e.tgt === tgt);
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const greeter = `<?php\nclass Greeter { public function greet() { return 1; } }\n`;
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it('resolves a promoted constructor property (`private readonly Greeter $greeter`)', async () => {
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write('Greeter.php', greeter);
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write('App.php', `<?php
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class App {
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public function __construct(private readonly Greeter $greeter) {}
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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});
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it('resolves a classic typed property assigned in the constructor', async () => {
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write('Greeter.php', greeter);
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write('App.php', `<?php
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class App {
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private Greeter $greeter;
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public function __construct(Greeter $greeter) { $this->greeter = $greeter; }
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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});
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it('resolves a property typed by an interface to the interface method', async () => {
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write('GreeterInterface.php', `<?php\ninterface GreeterInterface { public function hello(); }\n`);
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write('App.php', `<?php
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class App {
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public function __construct(private GreeterInterface $g) {}
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public function run() { return $this->g->hello(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'GreeterInterface::hello')).toBe(true);
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});
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it('resolves an inherited method through the conformance pass (property typed by the subclass)', async () => {
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// `baseMethod` is declared only on Base; the property is typed `Sub`.
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// The `Sub extends Base` edge is what lets the deferred conformance walk
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// find the method on the supertype — the whole point of deferring this ref.
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write('Base.php', `<?php\nclass Base { public function baseMethod() { return 1; } }\n`);
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write('Sub.php', `<?php\nclass Sub extends Base { public function other() { return 2; } }\n`);
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write('App.php', `<?php
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class App {
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public function __construct(private Sub $s) {}
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public function run() { return $this->s->baseMethod(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Base::baseMethod')).toBe(true);
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});
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it('disambiguates by declared type when two classes share a method name (negative)', async () => {
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// Both classes declare `greet`; the property is typed `Greeter`. A
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// name-similarity fallback would happily link either — this shape must
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// route to the RIGHT class and ONLY it.
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write('Greeter.php', greeter);
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write('OtherGreeter.php', `<?php\nclass OtherGreeter { public function greet() { return 2; } }\n`);
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write('App.php', `<?php
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class App {
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public function __construct(private Greeter $greeter) {}
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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expect(hasCall(calls, 'run', 'OtherGreeter::greet')).toBe(false);
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// Exactly one method edge from `run` — no double-linking.
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expect(calls.filter((e) => e.src === 'run')).toHaveLength(1);
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});
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it('creates no edge for an untyped property with only a docblock type (negative)', async () => {
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// `@var Greeter` is a comment, not a declared type. Guessing from a
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// docblock is out of scope — the property stays unlinked.
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write('Greeter.php', greeter);
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write('App.php', `<?php
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class App {
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/** @var Greeter */
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private $greeter;
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(callsMethodNamed(calls, 'run', 'greet')).toBe(false);
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});
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it('creates no edge for a deep property chain `$this->a->b->method()` (negative)', async () => {
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// The single-property pattern deliberately does not match a two-hop chain;
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// the intermediate type is unknown, so nothing is guessed.
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write('Greeter.php', greeter);
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write('App.php', `<?php
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class App {
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public function __construct(private Wrapper $a) {}
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public function run() { return $this->a->b->greet(); }
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}
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`);
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const calls = await load();
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expect(callsMethodNamed(calls, 'run', 'greet')).toBe(false);
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});
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it('a local variable shadowing a property routes to the local\'s type, not the property (#1108 regression)', async () => {
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// `$greeter->greet()` has receiver `greeter` (no `this->`), so it takes the
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// existing #1108 local-variable path, not the new property path. The local
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// `new OtherGreeter()` must win by nearest-declaration-backward even though
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// a property `$greeter` typed `Greeter` exists — the property change must
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// not hijack a plain-variable receiver.
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write('Greeter.php', greeter);
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write('OtherGreeter.php', `<?php\nclass OtherGreeter { public function greet() { return 2; } }\n`);
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write('App.php', `<?php
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class App {
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public function __construct(private Greeter $greeter) {}
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public function run() { $greeter = new OtherGreeter(); return $greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'OtherGreeter::greet')).toBe(true);
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(false);
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});
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it('a same-named local in ANOTHER method never types the property (interference)', async () => {
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// In PHP `$greeter` (a local) and `$this->greeter` (the property) are
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// different namespaces — unlike CFML's scopes, no shadowing is possible.
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// The nearest declaration walking backward from run()'s call is helper()'s
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// `$greeter = new OtherGreeter()`; the property's promoted type `Greeter`
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// must still win.
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write('Greeter.php', greeter);
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write('OtherGreeter.php', `<?php\nclass OtherGreeter { public function greet() { return 2; } }\n`);
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write('App.php', `<?php
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class App {
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public function __construct(private Greeter $greeter) {}
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public function helper() { $greeter = new OtherGreeter(); return $greeter->greet(); }
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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expect(hasCall(calls, 'run', 'OtherGreeter::greet')).toBe(false);
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// helper()'s own local-receiver call still routes to the local's type.
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expect(hasCall(calls, 'helper', 'OtherGreeter::greet')).toBe(true);
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});
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it('a same-named local in the SAME method never types the property (interference)', async () => {
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write('Greeter.php', greeter);
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write('OtherGreeter.php', `<?php\nclass OtherGreeter { public function greet() { return 2; } }\n`);
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write('App.php', `<?php
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class App {
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public function __construct(private Greeter $greeter) {}
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public function run() {
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$greeter = new OtherGreeter();
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$greeter->greet();
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return $this->greeter->greet();
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}
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}
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`);
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const calls = await load();
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// Both calls resolve, each to its own receiver's type.
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expect(hasCall(calls, 'run', 'OtherGreeter::greet')).toBe(true);
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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});
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it('a same-named parameter of an unrelated method never types the property (interference)', async () => {
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write('Greeter.php', greeter);
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write('OtherGreeter.php', `<?php\nclass OtherGreeter { public function greet() { return 2; } }\n`);
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write('App.php', `<?php
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class App {
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public function __construct(private Greeter $greeter) {}
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public function accept(OtherGreeter $greeter) { return $greeter->greet(); }
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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expect(hasCall(calls, 'run', 'OtherGreeter::greet')).toBe(false);
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expect(hasCall(calls, 'accept', 'OtherGreeter::greet')).toBe(true);
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});
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it('resolves a classic UNTYPED property through its constructor assignment (multi-line signature)', async () => {
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// Pre-7.4 style: the property declaration carries no type; the type lives
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// on the constructor parameter, here across a multi-line signature. The
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// resolver follows `$this->greeter = $greeter` to the parameter's type.
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write('Greeter.php', greeter);
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write('App.php', `<?php
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class App {
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private $greeter;
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public function __construct(
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Greeter $greeter,
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$other
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) {
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$this->greeter = $greeter;
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}
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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});
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it('resolves a setter-injected untyped property through the setter parameter', async () => {
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write('Greeter.php', greeter);
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write('App.php', `<?php
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class App {
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private $greeter;
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public function setGreeter(Greeter $greeter) { $this->greeter = $greeter; }
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(hasCall(calls, 'run', 'Greeter::greet')).toBe(true);
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});
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it('the assignment-following fallback stays inside the assigning function (interference)', async () => {
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// The untyped property is assigned from an UNTYPED constructor parameter,
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// and a same-named typed variable exists in the method directly above the
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// constructor. The backward scan from the assignment must stop at the
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// constructor's own `function` line — no type is recoverable, no edge.
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write('Greeter.php', greeter);
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write('OtherGreeter.php', `<?php\nclass OtherGreeter { public function greet() { return 2; } }\n`);
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write('App.php', `<?php
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class App {
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private $greeter;
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public function helper() { $greeter = new OtherGreeter(); return $greeter->greet(); }
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public function __construct($greeter) {
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$this->greeter = $greeter;
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}
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public function run() { return $this->greeter->greet(); }
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}
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`);
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const calls = await load();
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expect(callsMethodNamed(calls, 'run', 'greet')).toBe(false);
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});
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// Unit-level check of the confidence the integration DB does not expose:
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// the property-receiver shape resolves through resolveMethodOnType at 0.9.
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it('matchMethodCall resolves `this->prop.method` at confidence 0.9', () => {
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const node = (id: string, name: string, qn: string, kind: Node['kind'], file: string): Node => ({
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id, kind, name, qualifiedName: qn, filePath: file, language: 'php',
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startLine: 1, endLine: 1, startColumn: 0, endColumn: 0, updatedAt: 0,
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});
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const byName: Record<string, Node[]> = {
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Greeter: [node('c:greeter', 'Greeter', 'Greeter', 'class', 'Greeter.php')],
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greet: [node('m:greet', 'greet', 'Greeter::greet', 'method', 'Greeter.php')],
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};
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const lines = [
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'<?php',
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'class App {',
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' public function __construct(private readonly Greeter $greeter) {}',
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' public function run() { return $this->greeter->greet(); }',
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'}',
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];
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const ctx: ResolutionContext = {
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getNodesInFile: () => [],
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getNodesByName: (name) => byName[name] ?? [],
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getNodesByQualifiedName: () => [],
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getNodesByKind: () => [],
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fileExists: () => false,
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readFile: () => null,
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getFileLines: () => lines,
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getProjectRoot: () => '',
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getAllFiles: () => [],
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getImportMappings: () => [],
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};
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const ref: UnresolvedRef = {
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fromNodeId: 'caller', referenceName: 'this->greeter.greet', referenceKind: 'calls',
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line: 4, column: 0, filePath: 'App.php', language: 'php',
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};
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const res = matchMethodCall(ref, ctx);
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expect(res?.targetNodeId).toBe('m:greet');
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expect(res?.confidence).toBe(0.9);
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expect(res?.resolvedBy).toBe('instance-method');
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});
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});
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