From 5f8de423f190bbb79a62f804151bc24824fa32d8 Mon Sep 17 00:00:00 2001 From: "Matt A. Tobin" Date: Fri, 2 Feb 2018 04:16:08 -0500 Subject: Add m-esr52 at 52.6.0 --- testing/web-platform/tests/html/dom/reflection.js | 824 ++++++++++++++++++++++ 1 file changed, 824 insertions(+) create mode 100644 testing/web-platform/tests/html/dom/reflection.js (limited to 'testing/web-platform/tests/html/dom/reflection.js') diff --git a/testing/web-platform/tests/html/dom/reflection.js b/testing/web-platform/tests/html/dom/reflection.js new file mode 100644 index 000000000..72ed01ef7 --- /dev/null +++ b/testing/web-platform/tests/html/dom/reflection.js @@ -0,0 +1,824 @@ +ReflectionTests = {}; + +ReflectionTests.start = new Date().getTime(); + +/** + * Resolve the given URL to an absolute URL, relative to the current document's + * address. There's no API that I know of that exposes this directly, so we + * actually just create an element, set its href, and stitch together the + * various properties. Seems to work. We don't try to reimplement the + * algorithm here, because we're not concerned with its correctness -- we're + * only testing HTML reflection, not Web Addresses. + * + * Return the input if the URL couldn't be resolved, per the spec for + * reflected URL attributes. + * + * It seems like IE9 doesn't implement URL decomposition attributes correctly + * for , which causes all these tests to fail. Ideally I'd do this in some + * other way, but the failure does stem from an incorrect implementation of + * HTML, so I'll leave it alone for now. + * + * TODO: This relies on reflection to test reflection, so it could mask bugs. + * Either get a JS implementation of the "resolve a URL" algorithm, or just + * specify expected values manually here. It shouldn't be too hard to write + * special cases for all the values we test. + */ +ReflectionTests.resolveUrl = function(url) { + url = String(url); + var el = document.createElement("a"); + el.href = url; + var ret = el.protocol + "//" + el.host + el.pathname + el.search + el.hash; + if (ret == "//") { + return url; + } else { + return ret; + } +}; + +/** + * The "rules for parsing non-negative integers" from the HTML spec. They're + * mostly used for reflection, so here seems like as good a place to test them + * as any. Returns false on error. + */ +ReflectionTests.parseNonneg = function(input) { + var value = this.parseInt(input); + if (value === false || value < 0) { + return false; + } + return value; +}; + +/** + * The "rules for parsing integers" from the HTML spec. Returns false on + * error. + */ +ReflectionTests.parseInt = function(input) { + var position = 0; + var sign = 1; + // Skip whitespace + while (input.length > position && /^[ \t\n\f\r]$/.test(input[position])) { + position++; + } + if (position >= input.length) { + return false; + } + if (input[position] == "-") { + sign = -1; + position++; + } else if (input[position] == "+") { + position++; + } + if (position >= input.length) { + return false; + } + if (!/^[0-9]$/.test(input[position])) { + return false; + } + var value = 0; + while (input.length > position && /^[0-9]$/.test(input[position])) { + value *= 10; + // Don't use parseInt even for single-digit strings . . . + value += input.charCodeAt(position) - "0".charCodeAt(0); + position++; + } + if (value === 0) { + return 0; + } + return sign * value; +}; + +// Used in initializing typeMap +var binaryString = "\x00\x01\x02\x03\x04\x05\x06\x07 " + + "\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f " + + "\x10\x11\x12\x13\x14\x15\x16\x17 " + + "\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f "; +var maxInt = 2147483647; +var minInt = -2147483648; +var maxUnsigned = 4294967295; + +/** + * Array containing the tests and other information for each type of reflected + * attribute. Meaning of keys: + * + * "jsType": What typeof idlObj[idlName] is supposed to be. + * "defaultVal": The default value to be returned if the attribute is not + * present and no default is specifically set for this attribute. + * "domTests": What values to test with setAttribute(). + * "domExpected": What values to expect with IDL get after setAttribute(). + * Defaults to the same as domTests. + * "idlTests": What values to test with IDL set. Defaults to domTests. + * "idlDomExpected": What to expect from getAttribute() after IDL set. + * Defaults to idlTests. + * "idlIdlExpected": What to expect from IDL get after IDL set. Defaults to + * idlDomExpected. + * + * Note that all tests/expected values are only baselines, and can be expanded + * with additional tests hardcoded into the function for particular types if + * necessary. For example, a special codepath is used for enums, and for + * IDL setters which throw an exception. null means "defaultVal" is the + * expected value. Expected DOM values are cast to strings by adding "". + * + * TODO: Test strings that aren't valid UTF-16. Desired behavior is not clear + * here at the time of writing, see + * http://www.w3.org/Bugs/Public/show_bug.cgi?id=12100 + * + * TODO: Test deleting an IDL attribute, and maybe doing other fun stuff to it. + * + * TODO: Test IDL sets of integer types to out-of-range or other weird values. + * WebIDL says to wrap, but I'm not sure offhand if that's what we want. + * + * TODO: tokenlist, settable tokenlist, limited + */ + + +ReflectionTests.typeMap = { + /** + * "If a reflecting IDL attribute is a DOMString but doesn't fall into any + * of the above categories, then the getting and setting must be done in a + * transparent, case-preserving manner." + * + * The data object passed to reflects() can contain an optional key + * treatNullAsEmptyString, whose value is ignored. If it does contain the + * key, null will be cast to "" instead of "null", per WebIDL + * [TreatNullAs=EmptyString]. + */ + "string": { + "jsType": "string", + "defaultVal": "", + "domTests": ["", " " + binaryString + " foo ", undefined, 7, 1.5, true, + false, {"test": 6}, NaN, +Infinity, -Infinity, "\0", null, + {"toString":function(){return "test-toString";}}, + {"valueOf":function(){return "test-valueOf";}, toString:null} + ] + }, + /** + * "If a reflecting IDL attribute is a USVString attribute whose content + * attribute is defined to contain a URL, then on getting, if the content + * attribute is absent, the IDL attribute must return the empty string. + * Otherwise, the IDL attribute must parse the value of the content + * attribute relative to the element's node document and if that is + * successful, return the resulting URL string. If parsing fails, then the + * value of the content attribute must be returned instead, converted to a + * USVString. On setting, the content attribute must be set to the specified + * new value." + * + * Also HTMLHyperLinkElementUtils href, used by a.href and area.href + */ + "url": { + "jsType": "string", + "defaultVal": "", + "domTests": ["", " foo ", "http://site.example/", + "//site.example/path???@#l", binaryString, undefined, 7, 1.5, true, + false, {"test": 6}, NaN, +Infinity, -Infinity, "\0", null, + {"toString":function(){return "test-toString";}}, + {"valueOf":function(){return "test-valueOf";}, toString:null}], + "domExpected": ReflectionTests.resolveUrl, + "idlIdlExpected": ReflectionTests.resolveUrl + }, + /** + * "If a reflecting IDL attribute is a DOMString whose content attribute is + * an enumerated attribute, and the IDL attribute is limited to only known + * values, then, on getting, the IDL attribute must return the conforming + * value associated with the state the attribute is in (in its canonical + * case), or the empty string if the attribute is in a state that has no + * associated keyword value; and on setting, if the new value is an ASCII + * case-insensitive match for one of the keywords given for that attribute, + * then the content attribute must be set to the conforming value + * associated with the state that the attribute would be in if set to the + * given new value, otherwise, if the new value is the empty string, then + * the content attribute must be removed, otherwise, the content attribute + * must be set to the given new value." + * + * "Some attributes are defined as taking one of a finite set of keywords. + * Such attributes are called enumerated attributes. The keywords are each + * defined to map to a particular state (several keywords might map to the + * same state, in which case some of the keywords are synonyms of each + * other; additionally, some of the keywords can be said to be + * non-conforming, and are only in the specification for historical + * reasons). In addition, two default states can be given. The first is the + * invalid value default, the second is the missing value default. + * + * . . . + * + * When the attribute is specified, if its value is an ASCII + * case-insensitive match for one of the given keywords then that keyword's + * state is the state that the attribute represents. If the attribute value + * matches none of the given keywords, but the attribute has an invalid + * value default, then the attribute represents that state. Otherwise, if + * the attribute value matches none of the keywords but there is a missing + * value default state defined, then that is the state represented by the + * attribute. Otherwise, there is no default, and invalid values must be + * ignored. + * + * When the attribute is not specified, if there is a missing value default + * state defined, then that is the state represented by the (missing) + * attribute. Otherwise, the absence of the attribute means that there is + * no state represented." + * + * This is only used for enums that are limited to known values, not other + * enums (those are treated as generic strings by the spec). The data + * object passed to reflects() can contain these keys: + * + * "defaultVal": missing value default (defaults to "") + * "invalidVal": invalid value default (defaults to defaultVal) + * "keywords": array of keywords as given by the spec (required) + * "nonCanon": dictionary mapping non-canonical values to their + * canonical equivalents (defaults to {}) + * "isNullable": Indicates if attribute is nullable (defaults to false) + * + * Tests are mostly hardcoded into reflects(), since they depend on the + * keywords. All expected values are computed in reflects() using a helper + * function. + */ + "enum": { + "jsType": "string", + "defaultVal": "", + "domTests": ["", " " + binaryString + " foo ", undefined, 7, 1.5, true, + false, {"test": 6}, NaN, +Infinity, -Infinity, "\0", null, + {"toString":function(){return "test-toString";}}, + {"valueOf":function(){return "test-valueOf";}, toString:null}] + }, + /** + * "If a reflecting IDL attribute is a boolean attribute, then on getting + * the IDL attribute must return true if the content attribute is set, and + * false if it is absent. On setting, the content attribute must be removed + * if the IDL attribute is set to false, and must be set to the empty + * string if the IDL attribute is set to true. (This corresponds to the + * rules for boolean content attributes.)" + */ + "boolean": { + "jsType": "boolean", + "defaultVal": false, + "domTests": ["", " foo ", undefined, null, 7, 1.5, true, false, + {"test": 6}, NaN, +Infinity, -Infinity, "\0", + {"toString":function(){return "test-toString";}}, + {"valueOf":function(){return "test-valueOf";}, toString:null}], + "domExpected": function(val) { + return true; + } + }, + /** + * "If a reflecting IDL attribute is a signed integer type (long) then, on + * getting, the content attribute must be parsed according to the rules for + * parsing signed integers, and if that is successful, and the value is in + * the range of the IDL attribute's type, the resulting value must be + * returned. If, on the other hand, it fails or returns an out of range + * value, or if the attribute is absent, then the default value must be + * returned instead, or 0 if there is no default value. On setting, the + * given value must be converted to the shortest possible string + * representing the number as a valid integer and then that string must be + * used as the new content attribute value." + */ + "long": { + "jsType": "number", + "defaultVal": 0, + "domTests": [-36, -1, 0, 1, maxInt, minInt, maxInt + 1, minInt - 1, + maxUnsigned, maxUnsigned + 1, "", "-1", "-0", "0", "1", + " " + binaryString + " foo ", + // Test various different whitespace. Only 20, 9, A, C, + // and D are whitespace. + "\u00097", "\u000B7", "\u000C7", "\u00207", "\u00A07", "\uFEFF7", + "\u000A7", "\u000D7", "\u20287", "\u20297", "\u16807", "\u180E7", + "\u20007", "\u20017", "\u20027", "\u20037", "\u20047", "\u20057", + "\u20067", "\u20077", "\u20087", "\u20097", "\u200A7", "\u202F7", + "\u30007", + undefined, 1.5, true, false, {"test": 6}, NaN, +Infinity, + -Infinity, "\0", + {toString:function() {return 2;}, valueOf: null}, + {valueOf:function() {return 3;}}], + "domExpected": function(val) { + var parsed = ReflectionTests.parseInt(String(val)); + if (parsed === false || parsed > maxInt || parsed < minInt) { + return null; + } + return parsed; + }, + "idlTests": [-36, -1, 0, 1, 2147483647, -2147483648], + "idlDomExpected": [-36, -1, 0, 1, 2147483647, -2147483648] + }, + /** + * "If a reflecting IDL attribute is a signed integer type (long) that is + * limited to only non-negative numbers then, on getting, the content + * attribute must be parsed according to the rules for parsing non-negative + * integers, and if that is successful, and the value is in the range of + * the IDL attribute's type, the resulting value must be returned. If, on + * the other hand, it fails or returns an out of range value, or if the + * attribute is absent, the default value must be returned instead, or −1 + * if there is no default value. On setting, if the value is negative, the + * user agent must fire an INDEX_SIZE_ERR exception. Otherwise, the given + * value must be converted to the shortest possible string representing the + * number as a valid non-negative integer and then that string must be used + * as the new content attribute value." + */ + "limited long": { + "jsType": "number", + "defaultVal": -1, + "domTests": [minInt - 1, minInt, -36, -1, -0, 0, 1, maxInt, maxInt + 1, + maxUnsigned, maxUnsigned + 1, "", "-1", "-0", "0", "1", + " " + binaryString + " foo ", + "\u00097", "\u000B7", "\u000C7", "\u00207", "\u00A07", "\uFEFF7", + "\u000A7", "\u000D7", "\u20287", "\u20297", "\u16807", "\u180E7", + "\u20007", "\u20017", "\u20027", "\u20037", "\u20047", "\u20057", + "\u20067", "\u20077", "\u20087", "\u20097", "\u200A7", "\u202F7", + "\u30007", + undefined, 1.5, true, false, {"test": 6}, NaN, +Infinity, + -Infinity, "\0", + {toString:function() {return 2;}, valueOf: null}, + {valueOf:function() {return 3;}}], + "domExpected": function(val) { + var parsed = ReflectionTests.parseNonneg(String(val)); + if (parsed === false || parsed > maxInt || parsed < minInt) { + return null; + } + return parsed; + }, + "idlTests": [minInt, -36, -1, 0, 1, maxInt], + "idlDomExpected": [null/*exception*/, null/*exception*/, null/*exception*/, 0, 1, maxInt] + }, + /** + * "If a reflecting IDL attribute is an unsigned integer type (unsigned + * long) then, on getting, the content attribute must be parsed according + * to the rules for parsing non-negative integers, and if that is + * successful, and the value is in the range 0 to 2147483647 inclusive, the + * resulting value must be returned. If, on the other hand, it fails or + * returns an out of range value, or if the attribute is absent, the + * default value must be returned instead, or 0 if there is no default + * value. On setting, the given value must be converted to the shortest + * possible string representing the number as a valid non-negative integer + * and then that string must be used as the new content attribute value." + */ + "unsigned long": { + "jsType": "number", + "defaultVal": 0, + "domTests": [minInt - 1, minInt, -36, -1, 0, 1, 257, maxInt, + maxInt + 1, maxUnsigned, maxUnsigned + 1, "", "-1", "-0", "0", "1", + "\u00097", "\u000B7", "\u000C7", "\u00207", "\u00A07", "\uFEFF7", + "\u000A7", "\u000D7", "\u20287", "\u20297", "\u16807", "\u180E7", + "\u20007", "\u20017", "\u20027", "\u20037", "\u20047", "\u20057", + "\u20067", "\u20077", "\u20087", "\u20097", "\u200A7", "\u202F7", + "\u30007", + " " + binaryString + " foo ", undefined, 1.5, true, false, + {"test": 6}, NaN, +Infinity, -Infinity, "\0", + {toString:function() {return 2;}, valueOf: null}, + {valueOf:function() {return 3;}}], + "domExpected": function(val) { + var parsed = ReflectionTests.parseNonneg(String(val)); + // Note maxInt, not maxUnsigned. + if (parsed === false || parsed < 0 || parsed > maxInt) { + return null; + } + return parsed; + }, + "idlTests": [0, 1, 257, maxInt, "-0", maxInt + 1, maxUnsigned], + "idlIdlExpected": [0, 1, 257, maxInt, 0, null, null], + "idlDomExpected": [0, 1, 257, maxInt, 0, null, null], + }, + /** + * "If a reflecting IDL attribute is an unsigned integer type (unsigned + * long) that is limited to only non-negative numbers greater than zero, + * then the behavior is similar to the previous case, but zero is not + * allowed. On getting, the content attribute must first be parsed + * according to the rules for parsing non-negative integers, and if that is + * successful, and the value is in the range 1 to 2147483647 inclusive, the + * resulting value must be returned. If, on the other hand, it fails or + * returns an out of range value, or if the attribute is absent, the + * default value must be returned instead, or 1 if there is no default + * value. On setting, if the value is zero, the user agent must fire an + * INDEX_SIZE_ERR exception. Otherwise, the given value must be converted + * to the shortest possible string representing the number as a valid + * non-negative integer and then that string must be used as the new + * content attribute value." + */ + "limited unsigned long": { + "jsType": "number", + "defaultVal": 1, + "domTests": [minInt - 1, minInt, -36, -1, 0, 1, maxInt, + maxInt + 1, maxUnsigned, maxUnsigned + 1, "", "-1", "-0", "0", "1", + "\u00097", "\u000B7", "\u000C7", "\u00207", "\u00A07", "\uFEFF7", + "\u000A7", "\u000D7", "\u20287", "\u20297", "\u16807", "\u180E7", + "\u20007", "\u20017", "\u20027", "\u20037", "\u20047", "\u20057", + "\u20067", "\u20077", "\u20087", "\u20097", "\u200A7", "\u202F7", + "\u30007", + " " + binaryString + " foo ", undefined, 1.5, true, false, + {"test": 6}, NaN, +Infinity, -Infinity, "\0", + {toString:function() {return 2;}, valueOf: null}, + {valueOf:function() {return 3;}}], + "domExpected": function(val) { + var parsed = ReflectionTests.parseNonneg(String(val)); + // Note maxInt, not maxUnsigned. + if (parsed === false || parsed < 1 || parsed > maxInt) { + return null; + } + return parsed; + }, + "idlTests": [0, 1, maxInt, maxInt + 1, maxUnsigned], + "idlDomExpected": [null/*exception*/, 1, maxInt, null, null] + }, + /** + * "If a reflecting IDL attribute has an unsigned integer type (unsigned + * long) that is limited to only non-negative numbers greater than zero + * with fallback, then the behaviour is similar to the previous case, but + * disallowed values are converted to the default value. On getting, the + * content attribute must first be parsed according to the rules for + * parsing non-negative integers, and if that is successful, and the value + * is in the range 1 to 2147483647 inclusive, the resulting value must be + * returned. If, on the other hand, it fails or returns an out of range + * value, or if the attribute is absent, the default value must be returned + * instead. On setting, first, if the new value is in the range 1 to + * 2147483647, then let n be the new value, otherwise let n be the default + * value; then, n must be converted to the shortest possible string + * representing the number as a valid non-negative integer and that string + * must be used as the new content attribute value." + */ + "limited unsigned long with fallback": { + "jsType": "number", + "domTests": [minInt - 1, minInt, -36, -1, 0, 1, maxInt, + maxInt + 1, maxUnsigned, maxUnsigned + 1, "", "-1", "-0", "0", "1", + "\u00097", "\u000B7", "\u000C7", "\u00207", "\u00A07", "\uFEFF7", + "\u000A7", "\u000D7", "\u20287", "\u20297", "\u16807", "\u180E7", + "\u20007", "\u20017", "\u20027", "\u20037", "\u20047", "\u20057", + "\u20067", "\u20077", "\u20087", "\u20097", "\u200A7", "\u202F7", + "\u30007", + " " + binaryString + " foo ", undefined, 1.5, true, false, + {"test": 6}, NaN, +Infinity, -Infinity, "\0", + {toString:function() {return 2;}, valueOf: null}, + {valueOf:function() {return 3;}}], + "domExpected": function(val) { + var parsed = ReflectionTests.parseNonneg(String(val)); + // Note maxInt, not maxUnsigned. + if (parsed === false || parsed < 1 || parsed > maxInt) { + return null; + } + return parsed; + }, + "idlTests": [0, 1, maxInt, maxInt + 1, maxUnsigned], + "idlDomExpected": [null, 1, maxInt, null, null] + }, + /** + * "If a reflecting IDL attribute is a floating point number type (double), + * then, on getting, the content attribute must be parsed according to the + * rules for parsing floating point number values, and if that is + * successful, the resulting value must be returned. If, on the other hand, + * it fails, or if the attribute is absent, the default value must be + * returned instead, or 0.0 if there is no default value. On setting, the + * given value must be converted to the best representation of the number + * as a floating point number and then that string must be used as the new + * content attribute value." + * + * TODO: Check this: + * + * "Except where otherwise specified, if an IDL attribute that is a + * floating point number type (double) is assigned an Infinity or + * Not-a-Number (NaN) value, a NOT_SUPPORTED_ERR exception must be raised." + * + * TODO: Implement the actual algorithm so we can run lots more tests. For + * now we're stuck with manually setting up expected values. Of course, + * a lot of care has to be taken in checking equality for floats . . . + * maybe we should have some tolerance for comparing them. I'm not even + * sure whether setting the content attribute to 0 should return 0.0 or + * -0.0 (the former, I hope). + */ + "double": { + "jsType": "number", + "defaultVal": 0.0, + "domTests": [minInt - 1, minInt, -36, -1, 0, 1, maxInt, + maxInt + 1, maxUnsigned, maxUnsigned + 1, "", + "\u00097", "\u000B7", "\u000C7", "\u00207", "\u00A07", "\uFEFF7", + "\u000A7", "\u000D7", "\u20287", "\u20297", "\u16807", "\u180E7", + "\u20007", "\u20017", "\u20027", "\u20037", "\u20047", "\u20057", + "\u20067", "\u20077", "\u20087", "\u20097", "\u200A7", "\u202F7", + "\u30007", + " " + binaryString + " foo ", undefined, 1.5, true, false, + {"test": 6}, NaN, +Infinity, -Infinity, "\0", + {toString:function() {return 2;}, valueOf: null}, + {valueOf:function() {return 3;}}], + "domExpected": [minInt - 1, minInt, -36, -1, 0, 1, maxInt, + maxInt + 1, maxUnsigned, maxUnsigned + 1, null, + // Leading whitespace tests + 7, null, 7, 7, null, null, + 7, 7, null, null, null, null, + null, null, null, null, null, null, + null, null, null, null, null, null, + null, + // End leading whitespace tests + null, null, 1.5, null, null, + null, null, null, null, null, + 2, 3], + // I checked that ES ToString is well-defined for all of these (I + // think). Yes, String(-0) == "0". + "idlTests": [ -10000000000, -1, -0, 0, 1, 10000000000], + "idlDomExpected": ["-10000000000", "-1", "0", "0", "1", "10000000000"], + "idlIdlExpected": [ -10000000000, -1, -0, 0, 1, 10000000000] + } +}; + +for (var type in ReflectionTests.typeMap) { + var props = ReflectionTests.typeMap[type]; + var cast = window[props.jsType[0].toUpperCase() + props.jsType.slice(1)]; + if (props.domExpected === undefined) { + props.domExpected = props.domTests.map(cast); + } else if (typeof props.domExpected == "function") { + props.domExpected = props.domTests.map(props.domExpected); + } + if (props.idlTests === undefined) { + props.idlTests = props.domTests; + } + if (props.idlDomExpected === undefined) { + props.idlDomExpected = props.idlTests.map(cast); + } else if (typeof props.idlDomExpected == "function") { + props.idlDomExpected = props.idlTests.map(props.idlDomExpected); + } + if (props.idlIdlExpected === undefined) { + props.idlIdlExpected = props.idlDomExpected; + } else if (typeof props.idlIdlExpected == "function") { + props.idlIdlExpected = props.idlTests.map(props.idlIdlExpected); + } +} + +/** + * Tests that the JavaScript attribute named idlName on the object idlObj + * reflects the DOM attribute named domName on domObj. The data argument is an + * object that must contain at least one key, "type", which contains the + * expected type of the IDL attribute ("string", "enum", etc.). The "comment" + * key will add a parenthesized comment in the type info if there's a test + * failure, to indicate that there's something special about the element you're + * testing (like it has an attribute set to some value). Other keys in the + * data object are type-specific, e.g., "defaultVal" for numeric types. If the + * data object is a string, it's converted to {"type": data}. If idlObj is a + * string, we set idlObj = domObj = document.createElement(idlObj). + */ +ReflectionTests.reflects = function(data, idlName, idlObj, domName, domObj) { + // Do some setup first so that getTypeDescription() works in testWrapper() + if (typeof data == "string") { + data = {type: data}; + } + if (domName === undefined) { + domName = idlName; + } + if (typeof idlObj == "string") { + idlObj = document.createElement(idlObj); + } + if (domObj === undefined) { + domObj = idlObj; + } + + // Note: probably a hack? This kind of assumes that the variables here + // won't change over the course of the tests, which is wrong, but it's + // probably safe enough. Just don't read stuff that will change. + ReflectionHarness.currentTestInfo = {data: data, idlName: idlName, idlObj: idlObj, domName: domName, domObj: domObj}; + + ReflectionHarness.testWrapper(function() { + ReflectionTests.doReflects(data, idlName, idlObj, domName, domObj); + }); +}; + +/** + * Actual implementation of the above. + */ +ReflectionTests.doReflects = function(data, idlName, idlObj, domName, domObj) { + // If we don't recognize the type, testing is impossible. + if (this.typeMap[data.type] === undefined) { + if (unimplemented.indexOf(data.type) == -1) { + unimplemented.push(data.type); + } + return; + } + + var typeInfo = this.typeMap[data.type]; + + if (typeof data.isNullable == "undefined") { + data.isNullable = false; + } + + // Test that typeof idlObj[idlName] is correct. If not, further tests are + // probably pointless, so bail out. + var isDefaultValueNull = data.isNullable && data.defaultVal === null; + if (!ReflectionHarness.test(typeof idlObj[idlName], isDefaultValueNull ? "object" : typeInfo.jsType, "typeof IDL attribute")) { + return; + } + + // Test default + var defaultVal = data.defaultVal; + if (defaultVal === undefined) { + defaultVal = typeInfo.defaultVal; + } + if (defaultVal !== null || data.isNullable) { + ReflectionHarness.test(idlObj[idlName], defaultVal, "IDL get with DOM attribute unset"); + } + + var domTests = typeInfo.domTests.slice(0); + var domExpected = typeInfo.domExpected.map(function(val) { return val === null ? defaultVal : val; }); + var idlTests = typeInfo.idlTests.slice(0); + var idlDomExpected = typeInfo.idlDomExpected.map(function(val) { return val === null ? defaultVal : val; }); + var idlIdlExpected = typeInfo.idlIdlExpected.map(function(val) { return val === null ? defaultVal : val; }); + switch (data.type) { + // Extra tests and other special-casing + case "boolean": + domTests.push(domName); + domExpected.push(true); + break; + + case "enum": + // Whee, enum is complicated. + if (typeof data.invalidVal == "undefined") { + data.invalidVal = defaultVal; + } + if (typeof data.nonCanon == "undefined") { + data.nonCanon = {}; + } + for (var i = 0; i < data.keywords.length; i++) { + if (data.keywords[i] != "") { + domTests.push(data.keywords[i], "x" + data.keywords[i], data.keywords[i] + "\0"); + idlTests.push(data.keywords[i], "x" + data.keywords[i], data.keywords[i] + "\0"); + } + + if (data.keywords[i].length > 1) { + domTests.push(data.keywords[i].slice(1)); + idlTests.push(data.keywords[i].slice(1)); + } + + if (data.keywords[i] != data.keywords[i].toLowerCase()) { + domTests.push(data.keywords[i].toLowerCase()); + idlTests.push(data.keywords[i].toLowerCase()); + } + if (data.keywords[i] != data.keywords[i].toUpperCase()) { + domTests.push(data.keywords[i].toUpperCase()); + idlTests.push(data.keywords[i].toUpperCase()); + } + } + + // Per spec, the expected DOM values are the same as the value we set + // it to. + if (!data.isNullable) { + idlDomExpected = idlTests.slice(0); + } else { + idlDomExpected = []; + for (var i = 0; i < idlTests.length; i++) { + idlDomExpected.push((idlTests[i] === null || idlTests[i] === undefined) ? null : idlTests[i]); + } + } + + // Now we have the fun of calculating what the expected IDL values are. + domExpected = []; + idlIdlExpected = []; + for (var i = 0; i < domTests.length; i++) { + domExpected.push(this.enumExpected(data.keywords, data.nonCanon, data.invalidVal, domTests[i])); + } + for (var i = 0; i < idlTests.length; i++) { + if (data.isNullable && (idlTests[i] === null || idlTests[i] === undefined)) { + idlIdlExpected.push(null); + } else { + idlIdlExpected.push(this.enumExpected(data.keywords, data.nonCanon, data.invalidVal, idlTests[i])); + } + } + break; + + case "string": + if ("treatNullAsEmptyString" in data) { + for (var i = 0; i < idlTests.length; i++) { + if (idlTests[i] === null) { + idlDomExpected[i] = idlIdlExpected[i] = ""; + } + } + } + break; + } + if (domObj.tagName.toLowerCase() == "canvas" && (domName == "width" || domName == "height")) { + // Opera tries to allocate a canvas with the given width and height, so + // it OOMs when given excessive sizes. This is permissible under the + // hardware-limitations clause, so cut out those checks. TODO: Must be + // a way to make this more succinct. + domTests = domTests.filter(function(element, index, array) { return domExpected[index] < 1000; }); + domExpected = domExpected.filter(function(element, index, array) { return element < 1000; }); + idlTests = idlTests.filter(function(element, index, array) { return idlIdlExpected[index] < 1000; }); + idlDomExpected = idlDomExpected.filter(function(element, index, array) { return idlIdlExpected[index] < 1000; }); + idlIdlExpected = idlIdlExpected.filter(function(element, index, array) { return idlIdlExpected[index] < 1000; }); + } + + if (!data.customGetter) { + for (var i = 0; i < domTests.length; i++) { + if (domExpected[i] === null && !data.isNullable) { + // If you follow all the complicated logic here, you'll find that + // this will only happen if there's no expected value at all (like + // for tabIndex, where the default is too complicated). So skip + // the test. + continue; + } + try { + domObj.setAttribute(domName, domTests[i]); + ReflectionHarness.test(domObj.getAttribute(domName), String(domTests[i]), "setAttribute() to " + ReflectionHarness.stringRep(domTests[i]) + " followed by getAttribute()"); + ReflectionHarness.test(idlObj[idlName], domExpected[i], "setAttribute() to " + ReflectionHarness.stringRep(domTests[i]) + " followed by IDL get"); + if (ReflectionHarness.catchUnexpectedExceptions) { + ReflectionHarness.success(); + } + } catch (err) { + if (ReflectionHarness.catchUnexpectedExceptions) { + ReflectionHarness.failure("Exception thrown during tests with setAttribute() to " + ReflectionHarness.stringRep(domTests[i])); + } else { + throw err; + } + } + } + } + + for (var i = 0; i < idlTests.length; i++) { + if ((data.type == "limited long" && idlTests[i] < 0) || + (data.type == "limited unsigned long" && idlTests[i] == 0)) { + ReflectionHarness.testException("INDEX_SIZE_ERR", function() { + idlObj[idlName] = idlTests[i]; + }, "IDL set to " + ReflectionHarness.stringRep(idlTests[i]) + " must throw INDEX_SIZE_ERR"); + } else { + ReflectionHarness.run(function() { + idlObj[idlName] = idlTests[i]; + if (data.type == "boolean") { + // Special case yay + ReflectionHarness.test(domObj.hasAttribute(domName), Boolean(idlTests[i]), "IDL set to " + ReflectionHarness.stringRep(idlTests[i]) + " followed by hasAttribute()"); + } else if (idlDomExpected[i] !== null || data.isNullable) { + var expected = idlDomExpected[i] + ""; + if (data.isNullable && idlDomExpected[i] === null) { + expected = null; + } + ReflectionHarness.test(domObj.getAttribute(domName), expected, "IDL set to " + ReflectionHarness.stringRep(idlTests[i]) + " followed by getAttribute()"); + } + if (idlIdlExpected[i] !== null || data.isNullable) { + ReflectionHarness.test(idlObj[idlName], idlIdlExpected[i], "IDL set to " + ReflectionHarness.stringRep(idlTests[i]) + " followed by IDL get"); + } + if (ReflectionHarness.catchUnexpectedExceptions) { + ReflectionHarness.success(); + } + }, "IDL set to " + ReflectionHarness.stringRep(idlTests[i]) + " should not throw"); + } + } +}; + +/** + * If we have an enumerated attribute limited to the array of values in + * keywords, with nonCanon being a map of non-canonical values to their + * canonical equivalents, and invalidVal being the invalid value default (or "" + * for none), then what would we expect from an IDL get if the content + * attribute is equal to contentVal? + */ +ReflectionTests.enumExpected = function(keywords, nonCanon, invalidVal, contentVal) { + var ret = invalidVal; + for (var i = 0; i < keywords.length; i++) { + if (String(contentVal).toLowerCase() == keywords[i].toLowerCase()) { + ret = keywords[i]; + break; + } + } + if (typeof nonCanon[ret] != "undefined") { + return nonCanon[ret]; + } + return ret; +}; + +/** + * Now we have the data structures that tell us which elements have which + * attributes. + * + * The elements object (which must have been defined in earlier files) is a map + * from element name to an object whose keys are IDL attribute names and whose + * values are types. A type is of the same format as + * ReflectionTests.reflects() accepts, except that there's an extra optional + * domAttrName key that gets passed as the fourth argument to reflects() if + * it's provided. (TODO: drop the fourth and fifth reflects() arguments and + * make it take them from the dictionary instead?) + */ + +// Now we actually run all the tests. +var unimplemented = []; +for (var element in elements) { + ReflectionTests.reflects("string", "title", element); + ReflectionTests.reflects("string", "lang", element); + ReflectionTests.reflects({type: "enum", keywords: ["ltr", "rtl", "auto"]}, "dir", element); + ReflectionTests.reflects("string", "className", element, "class"); + ReflectionTests.reflects("tokenlist", "classList", element, "class"); + ReflectionTests.reflects("boolean", "hidden", element); + ReflectionTests.reflects("string", "accessKey", element); + // Don't try to test the defaultVal -- it should be either 0 or -1, but the + // rules are complicated, and a lot of them are SHOULDs. + ReflectionTests.reflects({type: "long", defaultVal: null}, "tabIndex", element); + // TODO: classList, contextMenu, itemProp, itemRef, dropzone (require + // tokenlist support) + + for (var idlAttrName in elements[element]) { + var type = elements[element][idlAttrName]; + ReflectionTests.reflects(type, idlAttrName, element, + typeof type == "object" && "domAttrName" in type ? type.domAttrName : idlAttrName); + } +} + +for (var i = 0; i < extraTests.length; i++) { + extraTests[i](); +} + +var time = document.getElementById("time"); +if (time) { + time.innerHTML = (new Date().getTime() - ReflectionTests.start)/1000; +} + +if (unimplemented.length) { + var p = document.createElement("p"); + p.textContent = "(Note: missing tests for types " + unimplemented.join(", ") + ".)"; + document.body.appendChild(p); +} -- cgit v1.2.3