const kComponents = [ 'protocol', 'username', 'password', 'hostname', 'port', 'password', 'pathname', 'search', 'hash', ]; function runTests(data) { for (let entry of data) { test(function() { if (entry.expected_obj === 'error') { assert_throws_js(TypeError, _ => new URLPattern(...entry.pattern), 'URLPattern() constructor'); return; } const pattern = new URLPattern(...entry.pattern); // If the expected_obj property is not present we will automatically // fill it with the most likely expected values. entry.expected_obj = entry.expected_obj || {}; // The compiled URLPattern object should have a property for each // component exposing the compiled pattern string. for (let component of kComponents) { // If the test case explicitly provides an expected pattern string, // then use that. This is necessary in cases where the original // construction pattern gets canonicalized, etc. let expected = entry.expected_obj[component]; // If there is no explicit expected pattern string, then compute // the expected value based on the URLPattern constructor args. if (expected == undefined) { // First determine if there is a baseURL present in the pattern // input. A baseURL can be the source for many component patterns. let baseURL = null; if (entry.pattern.length > 0 && entry.pattern[0].baseURL) { baseURL = new URL(entry.pattern[0].baseURL); } else if (entry.pattern.length > 1 && typeof entry.pattern[1] === 'string') { baseURL = new URL(entry.pattern[1]); } // We automatically populate the expected pattern string using // the following options in priority order: // // 1. If the original input explicitly provided a pattern, then // echo that back as the expected value. // 2. If the baseURL exists and provides a component value then // use that for the expected pattern. // 3. Otherwise fall back on the default pattern of `*` for an // empty component pattern. if (entry.exactly_empty_components && entry.exactly_empty_components.includes(component)) { expected = ''; } else if (typeof entry.pattern[0] === 'object' && entry.pattern[0][component]) { expected = entry.pattern[0][component]; } else if (baseURL) { let base_value = baseURL[component]; // Unfortunately some URL() getters include separator chars; e.g. // the trailing `:` for the protocol. Strip those off if necessary. if (component === 'protocol') base_value = base_value.substring(0, base_value.length - 1); else if (component === 'search' || component === 'hash') base_value = base_value.substring(1, base_value.length); expected = base_value; } else { expected = '*'; } } // Finally, assert that the compiled object property matches the // expected property. assert_equals(pattern[component], expected, `compiled pattern property '${component}'`); } if (entry.expected_match === 'error') { assert_throws_js(TypeError, _ => pattern.test(...entry.inputs), 'test() result'); assert_throws_js(TypeError, _ => pattern.exec(...entry.inputs), 'exec() result'); return; } // First, validate the test() method by converting the expected result to // a truthy value. assert_equals(pattern.test(...entry.inputs), !!entry.expected_match, 'test() result'); // Next, start validating the exec() method. const exec_result = pattern.exec(...entry.inputs); // On a failed match exec() returns null. if (!entry.expected_match || typeof entry.expected_match !== "object") { assert_equals(exec_result, entry.expected_match, 'exec() failed match result'); return; } if (!entry.expected_match.inputs) entry.expected_match.inputs = entry.inputs; // Next verify the result.input is correct. This may be a structured // URLPatternInit dictionary object or a URL string. assert_equals(exec_result.inputs.length, entry.expected_match.inputs.length, 'exec() result.inputs.length'); for (let i = 0; i < exec_result.inputs.length; ++i) { const input = exec_result.inputs[i]; const expected_input = entry.expected_match.inputs[i]; if (typeof input === 'string') { assert_equals(input, expected_input, `exec() result.inputs[${i}]`); continue; } for (let component of kComponents) { assert_equals(input[component], expected_input[component], `exec() result.inputs[${i}][${component}]`); } } // Next we will compare the URLPatternComponentResult for each of these // expected components. for (let component of kComponents) { let expected_obj = entry.expected_match[component]; // If the test expectations don't include a component object, then // we auto-generate one. This is convenient for the many cases // where the pattern has a default wildcard or empty string pattern // for a component and the input is essentially empty. if (!expected_obj) { expected_obj = { input: '', groups: {} }; // Next, we must treat default wildcards differently than empty string // patterns. The wildcard results in a capture group, but the empty // string pattern does not. The expectation object must list which // components should be empty instead of wildcards in // |exactly_empty_components|. if (!entry.exactly_empty_components || !entry.exactly_empty_components.includes(component)) { expected_obj.groups['0'] = ''; } } // JSON does not allow us to use undefined directly, so the data file // contains null instead. Translate to the expected undefined value // here. for (const key in expected_obj.groups) { if (expected_obj.groups[key] === null) { expected_obj.groups[key] = undefined; } } assert_object_equals(exec_result[component], expected_obj, `exec() result for ${component}`); } }, `Pattern: ${JSON.stringify(entry.pattern)} ` + `Inputs: ${JSON.stringify(entry.inputs)}`); } } promise_test(async function() { const response = await fetch('resources/urlpatterntestdata.json'); const data = await response.json(); runTests(data); }, 'Loading data...');