// -*- mode: c++; c-basic-offset: 4 -*- /* * Copyright (C) 2006 Apple Computer, Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "JavaScriptCore.h" #include #include #include #include static JSGlobalContextRef context = 0; static void assertEqualsAsBoolean(JSValueRef value, bool expectedValue) { if (JSValueToBoolean(context, value) != expectedValue) fprintf(stderr, "assertEqualsAsBoolean failed: %p, %d\n", value, expectedValue); } static void assertEqualsAsNumber(JSValueRef value, double expectedValue) { double number = JSValueToNumber(context, value, NULL); // FIXME - On i386 the isnan(double) macro tries to map to the isnan(float) function, // causing a build break with -Wshorten-64-to-32 enabled. The issue is known by the appropriate team. // After that's resolved, we can remove these casts if (number != expectedValue && !(isnan((float)number) && isnan((float)expectedValue))) fprintf(stderr, "assertEqualsAsNumber failed: %p, %lf\n", value, expectedValue); } static void assertEqualsAsUTF8String(JSValueRef value, const char* expectedValue) { JSStringRef valueAsString = JSValueToStringCopy(context, value, NULL); size_t jsSize = JSStringGetMaximumUTF8CStringSize(valueAsString); char jsBuffer[jsSize]; JSStringGetUTF8CString(valueAsString, jsBuffer, jsSize); unsigned i; for (i = 0; jsBuffer[i]; i++) if (jsBuffer[i] != expectedValue[i]) fprintf(stderr, "assertEqualsAsUTF8String failed at character %d: %c(%d) != %c(%d)\n", i, jsBuffer[i], jsBuffer[i], expectedValue[i], expectedValue[i]); if (jsSize < strlen(jsBuffer) + 1) fprintf(stderr, "assertEqualsAsUTF8String failed: jsSize was too small\n"); JSStringRelease(valueAsString); } static void assertEqualsAsCharactersPtr(JSValueRef value, const char* expectedValue) { JSStringRef valueAsString = JSValueToStringCopy(context, value, NULL); size_t jsLength = JSStringGetLength(valueAsString); const JSChar* jsBuffer = JSStringGetCharactersPtr(valueAsString); CFStringRef expectedValueAsCFString = CFStringCreateWithCString(kCFAllocatorDefault, expectedValue, kCFStringEncodingUTF8); CFIndex cfLength = CFStringGetLength(expectedValueAsCFString); UniChar cfBuffer[cfLength]; CFStringGetCharacters(expectedValueAsCFString, CFRangeMake(0, cfLength), cfBuffer); CFRelease(expectedValueAsCFString); if (memcmp(jsBuffer, cfBuffer, cfLength * sizeof(UniChar)) != 0) fprintf(stderr, "assertEqualsAsCharactersPtr failed: jsBuffer != cfBuffer\n"); if (jsLength != (size_t)cfLength) fprintf(stderr, "assertEqualsAsCharactersPtr failed: jsLength(%ld) != cfLength(%ld)\n", jsLength, cfLength); JSStringRelease(valueAsString); } static JSValueRef jsGlobalValue; // non-stack value for testing JSValueProtect() /* MyObject pseudo-class */ static bool MyObject_hasProperty(JSContextRef context, JSObjectRef object, JSStringRef propertyName) { UNUSED_PARAM(context); UNUSED_PARAM(object); if (JSStringIsEqualToUTF8CString(propertyName, "alwaysOne") || JSStringIsEqualToUTF8CString(propertyName, "cantFind") || JSStringIsEqualToUTF8CString(propertyName, "myPropertyName") || JSStringIsEqualToUTF8CString(propertyName, "hasPropertyLie") || JSStringIsEqualToUTF8CString(propertyName, "0")) { return true; } return false; } static JSValueRef MyObject_getProperty(JSContextRef context, JSObjectRef object, JSStringRef propertyName, JSValueRef* exception) { UNUSED_PARAM(context); UNUSED_PARAM(object); if (JSStringIsEqualToUTF8CString(propertyName, "alwaysOne")) { return JSValueMakeNumber(context, 1); } if (JSStringIsEqualToUTF8CString(propertyName, "myPropertyName")) { return JSValueMakeNumber(context, 1); } if (JSStringIsEqualToUTF8CString(propertyName, "cantFind")) { return JSValueMakeUndefined(context); } if (JSStringIsEqualToUTF8CString(propertyName, "0")) { *exception = JSValueMakeNumber(context, 1); return JSValueMakeNumber(context, 1); } return NULL; } static bool MyObject_setProperty(JSContextRef context, JSObjectRef object, JSStringRef propertyName, JSValueRef value, JSValueRef* exception) { UNUSED_PARAM(context); UNUSED_PARAM(object); UNUSED_PARAM(value); if (JSStringIsEqualToUTF8CString(propertyName, "cantSet")) return true; // pretend we set the property in order to swallow it return false; } static bool MyObject_deleteProperty(JSContextRef context, JSObjectRef object, JSStringRef propertyName, JSValueRef* exception) { UNUSED_PARAM(context); UNUSED_PARAM(object); if (JSStringIsEqualToUTF8CString(propertyName, "cantDelete")) return true; if (JSStringIsEqualToUTF8CString(propertyName, "throwOnDelete")) { *exception = JSValueMakeNumber(context, 2); return false; } return false; } static void MyObject_getPropertyNames(JSContextRef context, JSObjectRef object, JSPropertyNameAccumulatorRef propertyNames) { UNUSED_PARAM(context); JSStringRef propertyName; propertyName = JSStringCreateWithUTF8CString("alwaysOne"); JSPropertyNameAccumulatorAddName(propertyNames, propertyName); JSStringRelease(propertyName); propertyName = JSStringCreateWithUTF8CString("myPropertyName"); JSPropertyNameAccumulatorAddName(propertyNames, propertyName); JSStringRelease(propertyName); } static JSValueRef MyObject_callAsFunction(JSContextRef context, JSObjectRef object, JSObjectRef thisObject, size_t argumentCount, const JSValueRef arguments[], JSValueRef* exception) { UNUSED_PARAM(context); UNUSED_PARAM(object); UNUSED_PARAM(thisObject); if (argumentCount > 0 && JSValueIsStrictEqual(context, arguments[0], JSValueMakeNumber(context, 0))) return JSValueMakeNumber(context, 1); return JSValueMakeUndefined(context); } static JSObjectRef MyObject_callAsConstructor(JSContextRef context, JSObjectRef object, size_t argumentCount, const JSValueRef arguments[], JSValueRef* exception) { UNUSED_PARAM(context); UNUSED_PARAM(object); if (argumentCount > 0 && JSValueIsStrictEqual(context, arguments[0], JSValueMakeNumber(context, 0))) return JSValueToObject(context, JSValueMakeNumber(context, 1), NULL); return JSValueToObject(context, JSValueMakeNumber(context, 0), NULL); } static bool MyObject_hasInstance(JSContextRef context, JSObjectRef constructor, JSValueRef possibleValue, JSValueRef* exception) { UNUSED_PARAM(context); JSStringRef numberString = JSStringCreateWithUTF8CString("Number"); JSObjectRef numberConstructor = JSValueToObject(context, JSObjectGetProperty(context, JSContextGetGlobalObject(context), numberString, NULL), NULL); JSStringRelease(numberString); return JSValueIsInstanceOfConstructor(context, possibleValue, numberConstructor, NULL); } static JSValueRef MyObject_convertToType(JSContextRef context, JSObjectRef object, JSType type, JSValueRef* exception) { UNUSED_PARAM(context); UNUSED_PARAM(object); switch (type) { case kJSTypeNumber: return JSValueMakeNumber(context, 1); default: break; } // string conversion -- forward to default object class return NULL; } static JSStaticValue evilStaticValues[] = { { "nullGetSet", 0, 0, kJSPropertyAttributeNone }, { 0, 0, 0, 0 } }; static JSStaticFunction evilStaticFunctions[] = { { "nullCall", 0, kJSPropertyAttributeNone }, { 0, 0, 0 } }; JSClassDefinition MyObject_definition = { 0, kJSClassAttributeNone, "MyObject", NULL, evilStaticValues, evilStaticFunctions, NULL, NULL, MyObject_hasProperty, MyObject_getProperty, MyObject_setProperty, MyObject_deleteProperty, MyObject_getPropertyNames, MyObject_callAsFunction, MyObject_callAsConstructor, MyObject_hasInstance, MyObject_convertToType, }; static JSClassRef MyObject_class(JSContextRef context) { static JSClassRef jsClass; if (!jsClass) jsClass = JSClassCreate(&MyObject_definition); return jsClass; } static JSValueRef Base_get(JSContextRef ctx, JSObjectRef object, JSStringRef propertyName, JSValueRef* exception) { UNUSED_PARAM(ctx); UNUSED_PARAM(object); UNUSED_PARAM(propertyName); return JSValueMakeNumber(ctx, 1); // distinguish base get form derived get } static bool Base_set(JSContextRef ctx, JSObjectRef object, JSStringRef propertyName, JSValueRef value, JSValueRef* exception) { UNUSED_PARAM(ctx); UNUSED_PARAM(object); UNUSED_PARAM(propertyName); UNUSED_PARAM(value); *exception = JSValueMakeNumber(ctx, 1); // distinguish base set from derived set return true; } static JSValueRef Base_callAsFunction(JSContextRef ctx, JSObjectRef function, JSObjectRef thisObject, size_t argumentCount, const JSValueRef arguments[], JSValueRef* exception) { UNUSED_PARAM(ctx); UNUSED_PARAM(function); UNUSED_PARAM(thisObject); UNUSED_PARAM(argumentCount); UNUSED_PARAM(arguments); return JSValueMakeNumber(ctx, 1); // distinguish base call from derived call } static JSStaticFunction Base_staticFunctions[] = { { "baseProtoDup", NULL, kJSPropertyAttributeNone }, { "baseProto", Base_callAsFunction, kJSPropertyAttributeNone }, { 0, 0, 0 } }; static JSStaticValue Base_staticValues[] = { { "baseDup", Base_get, Base_set, kJSPropertyAttributeNone }, { "baseOnly", Base_get, Base_set, kJSPropertyAttributeNone }, { 0, 0, 0, 0 } }; static bool TestInitializeFinalize; static void Base_initialize(JSContextRef context, JSObjectRef object) { if (TestInitializeFinalize) { assert((void*)1 == JSObjectGetPrivate(object)); JSObjectSetPrivate(object, (void*)2); } } static unsigned Base_didFinalize; static void Base_finalize(JSObjectRef object) { if (TestInitializeFinalize) { assert((void*)4 == JSObjectGetPrivate(object)); Base_didFinalize = true; } } static JSClassRef Base_class(JSContextRef context) { static JSClassRef jsClass; if (!jsClass) { JSClassDefinition definition = kJSClassDefinitionEmpty; definition.staticValues = Base_staticValues; definition.staticFunctions = Base_staticFunctions; definition.initialize = Base_initialize; definition.finalize = Base_finalize; jsClass = JSClassCreate(&definition); } return jsClass; } static JSValueRef Derived_get(JSContextRef ctx, JSObjectRef object, JSStringRef propertyName, JSValueRef* exception) { UNUSED_PARAM(ctx); UNUSED_PARAM(object); UNUSED_PARAM(propertyName); return JSValueMakeNumber(ctx, 2); // distinguish base get form derived get } static bool Derived_set(JSContextRef ctx, JSObjectRef object, JSStringRef propertyName, JSValueRef value, JSValueRef* exception) { UNUSED_PARAM(ctx); UNUSED_PARAM(object); UNUSED_PARAM(propertyName); UNUSED_PARAM(value); *exception = JSValueMakeNumber(ctx, 2); // distinguish base set from derived set return true; } static JSValueRef Derived_callAsFunction(JSContextRef ctx, JSObjectRef function, JSObjectRef thisObject, size_t argumentCount, const JSValueRef arguments[], JSValueRef* exception) { UNUSED_PARAM(ctx); UNUSED_PARAM(function); UNUSED_PARAM(thisObject); UNUSED_PARAM(argumentCount); UNUSED_PARAM(arguments); return JSValueMakeNumber(ctx, 2); // distinguish base call from derived call } static JSStaticFunction Derived_staticFunctions[] = { { "protoOnly", Derived_callAsFunction, kJSPropertyAttributeNone }, { "protoDup", NULL, kJSPropertyAttributeNone }, { "baseProtoDup", Derived_callAsFunction, kJSPropertyAttributeNone }, { 0, 0, 0 } }; static JSStaticValue Derived_staticValues[] = { { "derivedOnly", Derived_get, Derived_set, kJSPropertyAttributeNone }, { "protoDup", Derived_get, Derived_set, kJSPropertyAttributeNone }, { "baseDup", Derived_get, Derived_set, kJSPropertyAttributeNone }, { 0, 0, 0, 0 } }; static void Derived_initialize(JSContextRef context, JSObjectRef object) { if (TestInitializeFinalize) { assert((void*)2 == JSObjectGetPrivate(object)); JSObjectSetPrivate(object, (void*)3); } } static void Derived_finalize(JSObjectRef object) { if (TestInitializeFinalize) { assert((void*)3 == JSObjectGetPrivate(object)); JSObjectSetPrivate(object, (void*)4); } } static JSClassRef Derived_class(JSContextRef context) { static JSClassRef jsClass; if (!jsClass) { JSClassDefinition definition = kJSClassDefinitionEmpty; definition.parentClass = Base_class(context); definition.staticValues = Derived_staticValues; definition.staticFunctions = Derived_staticFunctions; definition.initialize = Derived_initialize; definition.finalize = Derived_finalize; jsClass = JSClassCreate(&definition); } return jsClass; } static JSValueRef print_callAsFunction(JSContextRef context, JSObjectRef functionObject, JSObjectRef thisObject, size_t argumentCount, const JSValueRef arguments[], JSValueRef* exception) { UNUSED_PARAM(functionObject); UNUSED_PARAM(thisObject); if (argumentCount > 0) { JSStringRef string = JSValueToStringCopy(context, arguments[0], NULL); size_t sizeUTF8 = JSStringGetMaximumUTF8CStringSize(string); char stringUTF8[sizeUTF8]; JSStringGetUTF8CString(string, stringUTF8, sizeUTF8); printf("%s\n", stringUTF8); JSStringRelease(string); } return JSValueMakeUndefined(context); } static JSObjectRef myConstructor_callAsConstructor(JSContextRef context, JSObjectRef constructorObject, size_t argumentCount, const JSValueRef arguments[], JSValueRef* exception) { UNUSED_PARAM(constructorObject); JSObjectRef result = JSObjectMake(context, NULL, NULL); if (argumentCount > 0) { JSStringRef value = JSStringCreateWithUTF8CString("value"); JSObjectSetProperty(context, result, value, arguments[0], kJSPropertyAttributeNone, NULL); JSStringRelease(value); } return result; } static char* createStringWithContentsOfFile(const char* fileName); static void testInitializeFinalize() { JSObjectRef o = JSObjectMake(context, Derived_class(context), (void*)1); assert(JSObjectGetPrivate(o) == (void*)3); } int main(int argc, char* argv[]) { UNUSED_PARAM(argc); UNUSED_PARAM(argv); // Test garbage collection with a fresh context context = JSGlobalContextCreate(NULL); TestInitializeFinalize = true; testInitializeFinalize(); JSGlobalContextRelease(context); JSGarbageCollect(context); TestInitializeFinalize = false; assert(Base_didFinalize); context = JSGlobalContextCreate(NULL); JSObjectRef globalObject = JSContextGetGlobalObject(context); assert(JSValueIsObject(context, globalObject)); JSValueRef jsUndefined = JSValueMakeUndefined(context); JSValueRef jsNull = JSValueMakeNull(context); JSValueRef jsTrue = JSValueMakeBoolean(context, true); JSValueRef jsFalse = JSValueMakeBoolean(context, false); JSValueRef jsZero = JSValueMakeNumber(context, 0); JSValueRef jsOne = JSValueMakeNumber(context, 1); JSValueRef jsOneThird = JSValueMakeNumber(context, 1.0 / 3.0); JSObjectRef jsObjectNoProto = JSObjectMake(context, NULL, NULL); JSObjectSetPrototype(context, jsObjectNoProto, JSValueMakeNull(context)); // FIXME: test funny utf8 characters JSStringRef jsEmptyIString = JSStringCreateWithUTF8CString(""); JSValueRef jsEmptyString = JSValueMakeString(context, jsEmptyIString); JSStringRef jsOneIString = JSStringCreateWithUTF8CString("1"); JSValueRef jsOneString = JSValueMakeString(context, jsOneIString); UniChar singleUniChar = 65; // Capital A CFMutableStringRef cfString = CFStringCreateMutableWithExternalCharactersNoCopy(kCFAllocatorDefault, &singleUniChar, 1, 1, kCFAllocatorNull); JSStringRef jsCFIString = JSStringCreateWithCFString(cfString); JSValueRef jsCFString = JSValueMakeString(context, jsCFIString); CFStringRef cfEmptyString = CFStringCreateWithCString(kCFAllocatorDefault, "", kCFStringEncodingUTF8); JSStringRef jsCFEmptyIString = JSStringCreateWithCFString(cfEmptyString); JSValueRef jsCFEmptyString = JSValueMakeString(context, jsCFEmptyIString); CFIndex cfStringLength = CFStringGetLength(cfString); UniChar buffer[cfStringLength]; CFStringGetCharacters(cfString, CFRangeMake(0, cfStringLength), buffer); JSStringRef jsCFIStringWithCharacters = JSStringCreateWithCharacters(buffer, cfStringLength); JSValueRef jsCFStringWithCharacters = JSValueMakeString(context, jsCFIStringWithCharacters); JSStringRef jsCFEmptyIStringWithCharacters = JSStringCreateWithCharacters(buffer, CFStringGetLength(cfEmptyString)); JSValueRef jsCFEmptyStringWithCharacters = JSValueMakeString(context, jsCFEmptyIStringWithCharacters); assert(JSValueGetType(context, jsUndefined) == kJSTypeUndefined); assert(JSValueGetType(context, jsNull) == kJSTypeNull); assert(JSValueGetType(context, jsTrue) == kJSTypeBoolean); assert(JSValueGetType(context, jsFalse) == kJSTypeBoolean); assert(JSValueGetType(context, jsZero) == kJSTypeNumber); assert(JSValueGetType(context, jsOne) == kJSTypeNumber); assert(JSValueGetType(context, jsOneThird) == kJSTypeNumber); assert(JSValueGetType(context, jsEmptyString) == kJSTypeString); assert(JSValueGetType(context, jsOneString) == kJSTypeString); assert(JSValueGetType(context, jsCFString) == kJSTypeString); assert(JSValueGetType(context, jsCFStringWithCharacters) == kJSTypeString); assert(JSValueGetType(context, jsCFEmptyString) == kJSTypeString); assert(JSValueGetType(context, jsCFEmptyStringWithCharacters) == kJSTypeString); JSObjectRef myObject = JSObjectMake(context, MyObject_class(context), NULL); JSStringRef myObjectIString = JSStringCreateWithUTF8CString("MyObject"); JSObjectSetProperty(context, globalObject, myObjectIString, myObject, kJSPropertyAttributeNone, NULL); JSStringRelease(myObjectIString); JSValueRef exception; // Conversions that throw exceptions exception = NULL; assert(NULL == JSValueToObject(context, jsNull, &exception)); assert(exception); exception = NULL; // FIXME - On i386 the isnan(double) macro tries to map to the isnan(float) function, // causing a build break with -Wshorten-64-to-32 enabled. The issue is known by the appropriate team. // After that's resolved, we can remove these casts assert(isnan((float)JSValueToNumber(context, jsObjectNoProto, &exception))); assert(exception); exception = NULL; assert(!JSValueToStringCopy(context, jsObjectNoProto, &exception)); assert(exception); assert(JSValueToBoolean(context, myObject)); exception = NULL; assert(!JSValueIsEqual(context, jsObjectNoProto, JSValueMakeNumber(context, 1), &exception)); assert(exception); exception = NULL; JSObjectGetPropertyAtIndex(context, myObject, 0, &exception); assert(1 == JSValueToNumber(context, exception, NULL)); assertEqualsAsBoolean(jsUndefined, false); assertEqualsAsBoolean(jsNull, false); assertEqualsAsBoolean(jsTrue, true); assertEqualsAsBoolean(jsFalse, false); assertEqualsAsBoolean(jsZero, false); assertEqualsAsBoolean(jsOne, true); assertEqualsAsBoolean(jsOneThird, true); assertEqualsAsBoolean(jsEmptyString, false); assertEqualsAsBoolean(jsOneString, true); assertEqualsAsBoolean(jsCFString, true); assertEqualsAsBoolean(jsCFStringWithCharacters, true); assertEqualsAsBoolean(jsCFEmptyString, false); assertEqualsAsBoolean(jsCFEmptyStringWithCharacters, false); assertEqualsAsNumber(jsUndefined, nan("")); assertEqualsAsNumber(jsNull, 0); assertEqualsAsNumber(jsTrue, 1); assertEqualsAsNumber(jsFalse, 0); assertEqualsAsNumber(jsZero, 0); assertEqualsAsNumber(jsOne, 1); assertEqualsAsNumber(jsOneThird, 1.0 / 3.0); assertEqualsAsNumber(jsEmptyString, 0); assertEqualsAsNumber(jsOneString, 1); assertEqualsAsNumber(jsCFString, nan("")); assertEqualsAsNumber(jsCFStringWithCharacters, nan("")); assertEqualsAsNumber(jsCFEmptyString, 0); assertEqualsAsNumber(jsCFEmptyStringWithCharacters, 0); assert(sizeof(JSChar) == sizeof(UniChar)); assertEqualsAsCharactersPtr(jsUndefined, "undefined"); assertEqualsAsCharactersPtr(jsNull, "null"); assertEqualsAsCharactersPtr(jsTrue, "true"); assertEqualsAsCharactersPtr(jsFalse, "false"); assertEqualsAsCharactersPtr(jsZero, "0"); assertEqualsAsCharactersPtr(jsOne, "1"); assertEqualsAsCharactersPtr(jsOneThird, "0.3333333333333333"); assertEqualsAsCharactersPtr(jsEmptyString, ""); assertEqualsAsCharactersPtr(jsOneString, "1"); assertEqualsAsCharactersPtr(jsCFString, "A"); assertEqualsAsCharactersPtr(jsCFStringWithCharacters, "A"); assertEqualsAsCharactersPtr(jsCFEmptyString, ""); assertEqualsAsCharactersPtr(jsCFEmptyStringWithCharacters, ""); assertEqualsAsUTF8String(jsUndefined, "undefined"); assertEqualsAsUTF8String(jsNull, "null"); assertEqualsAsUTF8String(jsTrue, "true"); assertEqualsAsUTF8String(jsFalse, "false"); assertEqualsAsUTF8String(jsZero, "0"); assertEqualsAsUTF8String(jsOne, "1"); assertEqualsAsUTF8String(jsOneThird, "0.3333333333333333"); assertEqualsAsUTF8String(jsEmptyString, ""); assertEqualsAsUTF8String(jsOneString, "1"); assertEqualsAsUTF8String(jsCFString, "A"); assertEqualsAsUTF8String(jsCFStringWithCharacters, "A"); assertEqualsAsUTF8String(jsCFEmptyString, ""); assertEqualsAsUTF8String(jsCFEmptyStringWithCharacters, ""); assert(JSValueIsStrictEqual(context, jsTrue, jsTrue)); assert(!JSValueIsStrictEqual(context, jsOne, jsOneString)); assert(JSValueIsEqual(context, jsOne, jsOneString, NULL)); assert(!JSValueIsEqual(context, jsTrue, jsFalse, NULL)); CFStringRef cfJSString = JSStringCopyCFString(kCFAllocatorDefault, jsCFIString); CFStringRef cfJSEmptyString = JSStringCopyCFString(kCFAllocatorDefault, jsCFEmptyIString); assert(CFEqual(cfJSString, cfString)); assert(CFEqual(cfJSEmptyString, cfEmptyString)); CFRelease(cfJSString); CFRelease(cfJSEmptyString); CFRelease(cfString); CFRelease(cfEmptyString); jsGlobalValue = JSObjectMake(context, NULL, NULL); JSValueProtect(context, jsGlobalValue); JSGarbageCollect(context); assert(JSValueIsObject(context, jsGlobalValue)); JSValueUnprotect(context, jsGlobalValue); JSStringRef goodSyntax = JSStringCreateWithUTF8CString("x = 1;"); JSStringRef badSyntax = JSStringCreateWithUTF8CString("x := 1;"); assert(JSCheckScriptSyntax(context, goodSyntax, NULL, 0, NULL)); assert(!JSCheckScriptSyntax(context, badSyntax, NULL, 0, NULL)); JSValueRef result; JSValueRef v; JSObjectRef o; JSStringRef string; result = JSEvaluateScript(context, goodSyntax, NULL, NULL, 1, NULL); assert(result); assert(JSValueIsEqual(context, result, jsOne, NULL)); exception = NULL; result = JSEvaluateScript(context, badSyntax, NULL, NULL, 1, &exception); assert(!result); assert(JSValueIsObject(context, exception)); JSStringRef array = JSStringCreateWithUTF8CString("Array"); JSObjectRef arrayConstructor = JSValueToObject(context, JSObjectGetProperty(context, globalObject, array, NULL), NULL); JSStringRelease(array); result = JSObjectCallAsConstructor(context, arrayConstructor, 0, NULL, NULL); assert(result); assert(JSValueIsObject(context, result)); assert(JSValueIsInstanceOfConstructor(context, result, arrayConstructor, NULL)); assert(!JSValueIsInstanceOfConstructor(context, JSValueMakeNull(context), arrayConstructor, NULL)); o = JSValueToObject(context, result, NULL); exception = NULL; assert(JSValueIsUndefined(context, JSObjectGetPropertyAtIndex(context, o, 0, &exception))); assert(!exception); JSObjectSetPropertyAtIndex(context, o, 0, JSValueMakeNumber(context, 1), &exception); assert(!exception); exception = NULL; assert(1 == JSValueToNumber(context, JSObjectGetPropertyAtIndex(context, o, 0, &exception), &exception)); assert(!exception); JSStringRef functionBody; JSObjectRef function; exception = NULL; functionBody = JSStringCreateWithUTF8CString("rreturn Array;"); JSStringRef line = JSStringCreateWithUTF8CString("line"); assert(!JSObjectMakeFunction(context, NULL, 0, NULL, functionBody, NULL, 1, &exception)); assert(JSValueIsObject(context, exception)); v = JSObjectGetProperty(context, JSValueToObject(context, exception, NULL), line, NULL); assertEqualsAsNumber(v, 2); // FIXME: Lexer::setCode bumps startingLineNumber by 1 -- we need to change internal callers so that it doesn't have to (saying '0' to mean '1' in the API would be really confusing -- it's really confusing internally, in fact) JSStringRelease(functionBody); JSStringRelease(line); exception = NULL; functionBody = JSStringCreateWithUTF8CString("return Array;"); function = JSObjectMakeFunction(context, NULL, 0, NULL, functionBody, NULL, 1, &exception); JSStringRelease(functionBody); assert(!exception); assert(JSObjectIsFunction(context, function)); v = JSObjectCallAsFunction(context, function, NULL, 0, NULL, NULL); assert(v); assert(JSValueIsEqual(context, v, arrayConstructor, NULL)); exception = NULL; function = JSObjectMakeFunction(context, NULL, 0, NULL, jsEmptyIString, NULL, 0, &exception); assert(!exception); v = JSObjectCallAsFunction(context, function, NULL, 0, NULL, &exception); assert(v && !exception); assert(JSValueIsUndefined(context, v)); exception = NULL; v = NULL; JSStringRef foo = JSStringCreateWithUTF8CString("foo"); JSStringRef argumentNames[] = { foo }; functionBody = JSStringCreateWithUTF8CString("return foo;"); function = JSObjectMakeFunction(context, foo, 1, argumentNames, functionBody, NULL, 1, &exception); assert(function && !exception); JSValueRef arguments[] = { JSValueMakeNumber(context, 2) }; v = JSObjectCallAsFunction(context, function, NULL, 1, arguments, &exception); JSStringRelease(foo); JSStringRelease(functionBody); string = JSValueToStringCopy(context, function, NULL); assertEqualsAsUTF8String(JSValueMakeString(context, string), "function foo(foo) \n{\n return foo;\n}"); JSStringRelease(string); JSStringRef print = JSStringCreateWithUTF8CString("print"); JSObjectRef printFunction = JSObjectMakeFunctionWithCallback(context, print, print_callAsFunction); JSObjectSetProperty(context, globalObject, print, printFunction, kJSPropertyAttributeNone, NULL); JSStringRelease(print); assert(!JSObjectSetPrivate(printFunction, (void*)1)); assert(!JSObjectGetPrivate(printFunction)); JSStringRef myConstructorIString = JSStringCreateWithUTF8CString("MyConstructor"); JSObjectRef myConstructor = JSObjectMakeConstructor(context, NULL, myConstructor_callAsConstructor); JSObjectSetProperty(context, globalObject, myConstructorIString, myConstructor, kJSPropertyAttributeNone, NULL); JSStringRelease(myConstructorIString); assert(!JSObjectSetPrivate(myConstructor, (void*)1)); assert(!JSObjectGetPrivate(myConstructor)); string = JSStringCreateWithUTF8CString("Derived"); JSObjectRef derivedConstructor = JSObjectMakeConstructor(context, Derived_class(context), NULL); JSObjectSetProperty(context, globalObject, string, derivedConstructor, kJSPropertyAttributeNone, NULL); JSStringRelease(string); o = JSObjectMake(context, NULL, NULL); JSObjectSetProperty(context, o, jsOneIString, JSValueMakeNumber(context, 1), kJSPropertyAttributeNone, NULL); JSObjectSetProperty(context, o, jsCFIString, JSValueMakeNumber(context, 1), kJSPropertyAttributeDontEnum, NULL); JSPropertyNameArrayRef nameArray = JSObjectCopyPropertyNames(context, o); size_t expectedCount = JSPropertyNameArrayGetCount(nameArray); size_t count; for (count = 0; count < expectedCount; ++count) JSPropertyNameArrayGetNameAtIndex(nameArray, count); JSPropertyNameArrayRelease(nameArray); assert(count == 1); // jsCFString should not be enumerated JSClassDefinition nullDefinition = kJSClassDefinitionEmpty; nullDefinition.attributes = kJSClassAttributeNoAutomaticPrototype; JSClassRef nullClass = JSClassCreate(&nullDefinition); JSClassRelease(nullClass); nullDefinition = kJSClassDefinitionEmpty; nullClass = JSClassCreate(&nullDefinition); JSClassRelease(nullClass); functionBody = JSStringCreateWithUTF8CString("return this;"); function = JSObjectMakeFunction(context, NULL, 0, NULL, functionBody, NULL, 1, NULL); JSStringRelease(functionBody); v = JSObjectCallAsFunction(context, function, NULL, 0, NULL, NULL); assert(JSValueIsEqual(context, v, globalObject, NULL)); v = JSObjectCallAsFunction(context, function, o, 0, NULL, NULL); assert(JSValueIsEqual(context, v, o, NULL)); char* scriptUTF8 = createStringWithContentsOfFile("testapi.js"); JSStringRef script = JSStringCreateWithUTF8CString(scriptUTF8); result = JSEvaluateScript(context, script, NULL, NULL, 1, &exception); if (JSValueIsUndefined(context, result)) printf("PASS: Test script executed successfully.\n"); else { printf("FAIL: Test script returned unexcpected value:\n"); JSStringRef exceptionIString = JSValueToStringCopy(context, exception, NULL); CFStringRef exceptionCF = JSStringCopyCFString(kCFAllocatorDefault, exceptionIString); CFShow(exceptionCF); CFRelease(exceptionCF); JSStringRelease(exceptionIString); } JSStringRelease(script); free(scriptUTF8); JSStringRelease(jsEmptyIString); JSStringRelease(jsOneIString); JSStringRelease(jsCFIString); JSStringRelease(jsCFEmptyIString); JSStringRelease(jsCFIStringWithCharacters); JSStringRelease(jsCFEmptyIStringWithCharacters); JSStringRelease(goodSyntax); JSStringRelease(badSyntax); JSGlobalContextRelease(context); JSGarbageCollect(context); printf("PASS: Program exited normally.\n"); return 0; } static char* createStringWithContentsOfFile(const char* fileName) { char* buffer; size_t buffer_size = 0; size_t buffer_capacity = 1024; buffer = (char*)malloc(buffer_capacity); FILE* f = fopen(fileName, "r"); if (!f) { fprintf(stderr, "Could not open file: %s\n", fileName); return 0; } while (!feof(f) && !ferror(f)) { buffer_size += fread(buffer + buffer_size, 1, buffer_capacity - buffer_size, f); if (buffer_size == buffer_capacity) { // guarantees space for trailing '\0' buffer_capacity *= 2; buffer = (char*)realloc(buffer, buffer_capacity); assert(buffer); } assert(buffer_size < buffer_capacity); } fclose(f); buffer[buffer_size] = '\0'; return buffer; }