src/third_party/mini_chromium/base/mac/foundation_util.h - cobalt - Git at Google

 // Copyright 2008 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef MINI_CHROMIUM_BASE_MAC_FOUNDATION_UTIL_H_
 #define MINI_CHROMIUM_BASE_MAC_FOUNDATION_UTIL_H_

 #include "base/logging.h"
 #include "build/build_config.h"

 #if defined(OS_IOS)
 #include <CoreText/CoreText.h>
 #else
 #include <ApplicationServices/ApplicationServices.h>
 #endif

 #if defined(__OBJC__)
 #import <Foundation/Foundation.h>
 #else  // defined(__OBJC__)
 #include <CoreFoundation/CoreFoundation.h>
 #endif  // defined(__OBJC__)

 #if !defined(__OBJC__)
 #define OBJC_CPP_CLASS_DECL(x) class x;
 #else  // defined(__OBJC__)
 #define OBJC_CPP_CLASS_DECL(x)
 #endif  // defined(__OBJC__)

 // Convert toll-free bridged CFTypes to NSTypes and vice-versa. This does not
 // autorelease |cf_val|. This is useful for the case where there is a CFType in
 // a call that expects an NSType and the compiler is complaining about const
 // casting problems.
 // The calls are used like this:
 // NSString *foo = CFToNSCast(CFSTR("Hello"));
 // CFStringRef foo2 = NSToCFCast(@"Hello");
 // The macro magic below is to enforce safe casting. It could possibly have
 // been done using template function specialization, but template function
 // specialization doesn't always work intuitively,
 // (http://www.gotw.ca/publications/mill17.htm) so the trusty combination
 // of macros and function overloading is used instead.

 #define CF_TO_NS_CAST_DECL(TypeCF, TypeNS) \
 OBJC_CPP_CLASS_DECL(TypeNS) \
 \
 namespace base { \
 namespace mac { \
 TypeNS* CFToNSCast(TypeCF##Ref cf_val); \
 TypeCF##Ref NSToCFCast(TypeNS* ns_val); \
 } \
 }
 #define CF_TO_NS_MUTABLE_CAST_DECL(name) \
 CF_TO_NS_CAST_DECL(CF##name, NS##name) \
 OBJC_CPP_CLASS_DECL(NSMutable##name) \
 \
 namespace base { \
 namespace mac { \
 NSMutable##name* CFToNSCast(CFMutable##name##Ref cf_val); \
 CFMutable##name##Ref NSToCFCast(NSMutable##name* ns_val); \
 } \
 }

 // List of toll-free bridged types taken from:
 // http://www.cocoadev.com/index.pl?TollFreeBridged

 CF_TO_NS_MUTABLE_CAST_DECL(Array)
 CF_TO_NS_MUTABLE_CAST_DECL(AttributedString)
 CF_TO_NS_CAST_DECL(CFCalendar, NSCalendar)
 CF_TO_NS_MUTABLE_CAST_DECL(CharacterSet)
 CF_TO_NS_MUTABLE_CAST_DECL(Data)
 CF_TO_NS_CAST_DECL(CFDate, NSDate)
 CF_TO_NS_MUTABLE_CAST_DECL(Dictionary)
 CF_TO_NS_CAST_DECL(CFError, NSError)
 CF_TO_NS_CAST_DECL(CFLocale, NSLocale)
 CF_TO_NS_CAST_DECL(CFNumber, NSNumber)
 CF_TO_NS_CAST_DECL(CFRunLoopTimer, NSTimer)
 CF_TO_NS_CAST_DECL(CFTimeZone, NSTimeZone)
 CF_TO_NS_MUTABLE_CAST_DECL(Set)
 CF_TO_NS_CAST_DECL(CFReadStream, NSInputStream)
 CF_TO_NS_CAST_DECL(CFWriteStream, NSOutputStream)
 CF_TO_NS_MUTABLE_CAST_DECL(String)
 CF_TO_NS_CAST_DECL(CFURL, NSURL)

 #undef CF_TO_NS_CAST_DECL
 #undef CF_TO_NS_MUTABLE_CAST_DECL
 #undef OBJC_CPP_CLASS_DECL

 namespace base {
 namespace mac {

 // CFCast<>() and CFCastStrict<>() cast a basic CFTypeRef to a more
 // specific CoreFoundation type. The compatibility of the passed
 // object is found by comparing its opaque type against the
 // requested type identifier. If the supplied object is not
 // compatible with the requested return type, CFCast<>() returns
 // NULL and CFCastStrict<>() will DCHECK. Providing a NULL pointer
 // to either variant results in NULL being returned without
 // triggering any DCHECK.
 //
 // Example usage:
 // CFNumberRef some_number = base::mac::CFCast<CFNumberRef>(
 //     CFArrayGetValueAtIndex(array, index));
 //
 // CFTypeRef hello = CFSTR("hello world");
 // CFStringRef some_string = base::mac::CFCastStrict<CFStringRef>(hello);

 template<typename T>
 T CFCast(const CFTypeRef& cf_val);

 template<typename T>
 T CFCastStrict(const CFTypeRef& cf_val);

 #define CF_CAST_DECL(TypeCF)                  \
 template<> TypeCF##Ref                        \
 CFCast<TypeCF##Ref>(const CFTypeRef& cf_val); \
                                               \
 template<> TypeCF##Ref                        \
 CFCastStrict<TypeCF##Ref>(const CFTypeRef& cf_val)

 CF_CAST_DECL(CFArray);
 CF_CAST_DECL(CFBag);
 CF_CAST_DECL(CFBoolean);
 CF_CAST_DECL(CFData);
 CF_CAST_DECL(CFDate);
 CF_CAST_DECL(CFDictionary);
 CF_CAST_DECL(CFNull);
 CF_CAST_DECL(CFNumber);
 CF_CAST_DECL(CFSet);
 CF_CAST_DECL(CFString);
 CF_CAST_DECL(CFURL);
 CF_CAST_DECL(CFUUID);

 CF_CAST_DECL(CGColor);

 CF_CAST_DECL(CTFont);
 CF_CAST_DECL(CTRun);

 #if !defined(OS_IOS)
 CF_CAST_DECL(SecACL);
 CF_CAST_DECL(SecTrustedApplication);
 #endif

 #undef CF_CAST_DECL

 #if defined(__OBJC__)

 // ObjCCast<>() and ObjCCastStrict<>() cast a basic id to a more
 // specific (NSObject-derived) type. The compatibility of the passed
 // object is found by checking if it's a kind of the requested type
 // identifier. If the supplied object is not compatible with the
 // requested return type, ObjCCast<>() returns nil and
 // ObjCCastStrict<>() will DCHECK. Providing a nil pointer to either
 // variant results in nil being returned without triggering any DCHECK.
 //
 // The strict variant is useful when retrieving a value from a
 // collection which only has values of a specific type, e.g. an
 // NSArray of NSStrings. The non-strict variant is useful when
 // retrieving values from data that you can't fully control. For
 // example, a plist read from disk may be beyond your exclusive
 // control, so you'd only want to check that the values you retrieve
 // from it are of the expected types, but not crash if they're not.
 //
 // Example usage:
 // NSString* version = base::mac::ObjCCast<NSString>(
 //     [bundle objectForInfoDictionaryKey:@"CFBundleShortVersionString"]);
 //
 // NSString* str = base::mac::ObjCCastStrict<NSString>(
 //     [ns_arr_of_ns_strs objectAtIndex:0]);
 template<typename T>
 T* ObjCCast(id objc_val) {
   if ([objc_val isKindOfClass:[T class]]) {
     return reinterpret_cast<T*>(objc_val);
   }
   return nil;
 }

 template<typename T>
 T* ObjCCastStrict(id objc_val) {
   T* rv = ObjCCast<T>(objc_val);
   DCHECK(objc_val == nil || rv);
   return rv;
 }

 #endif  // defined(__OBJC__)

 }  // namespace mac
 }  // namespace base

 #endif  // MINI_CHROMIUM_BASE_MAC_FOUNDATION_UTIL_H_
	// Copyright 2008 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef MINI_CHROMIUM_BASE_MAC_FOUNDATION_UTIL_H_
	#define MINI_CHROMIUM_BASE_MAC_FOUNDATION_UTIL_H_

	#include "base/logging.h"
	#include "build/build_config.h"

	#if defined(OS_IOS)
	#include <CoreText/CoreText.h>
	#else
	#include <ApplicationServices/ApplicationServices.h>
	#endif

	#if defined(__OBJC__)
	#import <Foundation/Foundation.h>
	#else // defined(__OBJC__)
	#include <CoreFoundation/CoreFoundation.h>
	#endif // defined(__OBJC__)

	#if !defined(__OBJC__)
	#define OBJC_CPP_CLASS_DECL(x) class x;
	#else // defined(__OBJC__)
	#define OBJC_CPP_CLASS_DECL(x)
	#endif // defined(__OBJC__)

	// Convert toll-free bridged CFTypes to NSTypes and vice-versa. This does not
	// autorelease \|cf_val\|. This is useful for the case where there is a CFType in
	// a call that expects an NSType and the compiler is complaining about const
	// casting problems.
	// The calls are used like this:
	// NSString *foo = CFToNSCast(CFSTR("Hello"));
	// CFStringRef foo2 = NSToCFCast(@"Hello");
	// The macro magic below is to enforce safe casting. It could possibly have
	// been done using template function specialization, but template function
	// specialization doesn't always work intuitively,
	// (http://www.gotw.ca/publications/mill17.htm) so the trusty combination
	// of macros and function overloading is used instead.

	#define CF_TO_NS_CAST_DECL(TypeCF, TypeNS) \
	OBJC_CPP_CLASS_DECL(TypeNS) \
	\
	namespace base { \
	namespace mac { \
	TypeNS* CFToNSCast(TypeCF##Ref cf_val); \
	TypeCF##Ref NSToCFCast(TypeNS* ns_val); \
	} \
	}
	#define CF_TO_NS_MUTABLE_CAST_DECL(name) \
	CF_TO_NS_CAST_DECL(CF##name, NS##name) \
	OBJC_CPP_CLASS_DECL(NSMutable##name) \
	\
	namespace base { \
	namespace mac { \
	NSMutable##name* CFToNSCast(CFMutable##name##Ref cf_val); \
	CFMutable##name##Ref NSToCFCast(NSMutable##name* ns_val); \
	} \
	}

	// List of toll-free bridged types taken from:
	// http://www.cocoadev.com/index.pl?TollFreeBridged

	CF_TO_NS_MUTABLE_CAST_DECL(Array)
	CF_TO_NS_MUTABLE_CAST_DECL(AttributedString)
	CF_TO_NS_CAST_DECL(CFCalendar, NSCalendar)
	CF_TO_NS_MUTABLE_CAST_DECL(CharacterSet)
	CF_TO_NS_MUTABLE_CAST_DECL(Data)
	CF_TO_NS_CAST_DECL(CFDate, NSDate)
	CF_TO_NS_MUTABLE_CAST_DECL(Dictionary)
	CF_TO_NS_CAST_DECL(CFError, NSError)
	CF_TO_NS_CAST_DECL(CFLocale, NSLocale)
	CF_TO_NS_CAST_DECL(CFNumber, NSNumber)
	CF_TO_NS_CAST_DECL(CFRunLoopTimer, NSTimer)
	CF_TO_NS_CAST_DECL(CFTimeZone, NSTimeZone)
	CF_TO_NS_MUTABLE_CAST_DECL(Set)
	CF_TO_NS_CAST_DECL(CFReadStream, NSInputStream)
	CF_TO_NS_CAST_DECL(CFWriteStream, NSOutputStream)
	CF_TO_NS_MUTABLE_CAST_DECL(String)
	CF_TO_NS_CAST_DECL(CFURL, NSURL)

	#undef CF_TO_NS_CAST_DECL
	#undef CF_TO_NS_MUTABLE_CAST_DECL
	#undef OBJC_CPP_CLASS_DECL

	namespace base {
	namespace mac {

	// CFCast<>() and CFCastStrict<>() cast a basic CFTypeRef to a more
	// specific CoreFoundation type. The compatibility of the passed
	// object is found by comparing its opaque type against the
	// requested type identifier. If the supplied object is not
	// compatible with the requested return type, CFCast<>() returns
	// NULL and CFCastStrict<>() will DCHECK. Providing a NULL pointer
	// to either variant results in NULL being returned without
	// triggering any DCHECK.
	//
	// Example usage:
	// CFNumberRef some_number = base::mac::CFCast<CFNumberRef>(
	// CFArrayGetValueAtIndex(array, index));
	//
	// CFTypeRef hello = CFSTR("hello world");
	// CFStringRef some_string = base::mac::CFCastStrict<CFStringRef>(hello);

	template<typename T>
	T CFCast(const CFTypeRef& cf_val);

	template<typename T>
	T CFCastStrict(const CFTypeRef& cf_val);

	#define CF_CAST_DECL(TypeCF) \
	template<> TypeCF##Ref \
	CFCast<TypeCF##Ref>(const CFTypeRef& cf_val); \
	\
	template<> TypeCF##Ref \
	CFCastStrict<TypeCF##Ref>(const CFTypeRef& cf_val)

	CF_CAST_DECL(CFArray);
	CF_CAST_DECL(CFBag);
	CF_CAST_DECL(CFBoolean);
	CF_CAST_DECL(CFData);
	CF_CAST_DECL(CFDate);
	CF_CAST_DECL(CFDictionary);
	CF_CAST_DECL(CFNull);
	CF_CAST_DECL(CFNumber);
	CF_CAST_DECL(CFSet);
	CF_CAST_DECL(CFString);
	CF_CAST_DECL(CFURL);
	CF_CAST_DECL(CFUUID);

	CF_CAST_DECL(CGColor);

	CF_CAST_DECL(CTFont);
	CF_CAST_DECL(CTRun);

	#if !defined(OS_IOS)
	CF_CAST_DECL(SecACL);
	CF_CAST_DECL(SecTrustedApplication);
	#endif

	#undef CF_CAST_DECL

	#if defined(__OBJC__)

	// ObjCCast<>() and ObjCCastStrict<>() cast a basic id to a more
	// specific (NSObject-derived) type. The compatibility of the passed
	// object is found by checking if it's a kind of the requested type
	// identifier. If the supplied object is not compatible with the
	// requested return type, ObjCCast<>() returns nil and
	// ObjCCastStrict<>() will DCHECK. Providing a nil pointer to either
	// variant results in nil being returned without triggering any DCHECK.
	//
	// The strict variant is useful when retrieving a value from a
	// collection which only has values of a specific type, e.g. an
	// NSArray of NSStrings. The non-strict variant is useful when
	// retrieving values from data that you can't fully control. For
	// example, a plist read from disk may be beyond your exclusive
	// control, so you'd only want to check that the values you retrieve
	// from it are of the expected types, but not crash if they're not.
	//
	// Example usage:
	// NSString* version = base::mac::ObjCCast<NSString>(
	// [bundle objectForInfoDictionaryKey:@"CFBundleShortVersionString"]);
	//
	// NSString* str = base::mac::ObjCCastStrict<NSString>(
	// [ns_arr_of_ns_strs objectAtIndex:0]);
	template<typename T>
	T* ObjCCast(id objc_val) {
	if ([objc_val isKindOfClass:[T class]]) {
	return reinterpret_cast<T*>(objc_val);
	}
	return nil;
	}

	template<typename T>
	T* ObjCCastStrict(id objc_val) {
	T* rv = ObjCCast<T>(objc_val);
	DCHECK(objc_val == nil \|\| rv);
	return rv;
	}

	#endif // defined(__OBJC__)

	} // namespace mac
	} // namespace base

	#endif // MINI_CHROMIUM_BASE_MAC_FOUNDATION_UTIL_H_