Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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/*
File: Scrap.h
Contains: Scrap Manager Interfaces.
Version: QuickTime 7.3
Copyright: (c) 2007 (c) 1985-2001 by Apple Computer, Inc., all rights reserved
Bugs?: For bug reports, consult the following page on
the World Wide Web:
http://developer.apple.com/bugreporter/
*/
#ifndef __SCRAP__
#define __SCRAP__
#ifndef __MIXEDMODE__
#include <MixedMode.h>
#endif
#ifndef __MACERRORS__
#include <MacErrors.h>
#endif
#ifndef __CFSTRING__
#include <CFString.h>
#endif
#if PRAGMA_ONCE
#pragma once
#endif
#ifdef __cplusplus
extern "C" {
#endif
#if PRAGMA_IMPORT
#pragma import on
#endif
#if PRAGMA_STRUCT_ALIGN
#pragma options align=mac68k
#elif PRAGMA_STRUCT_PACKPUSH
#pragma pack(push, 2)
#elif PRAGMA_STRUCT_PACK
#pragma pack(2)
#endif
/*
________________________________________________________________
UNIVERSAL SCRAP MANAGER INTERFACES
________________________________________________________________
The following interfaces are available when compiling for BOTH
Carbon AND Mac OS 8.
________________________________________________________________
*/
/*
While we're in here mucking about, we defined a new type to
to put some confusion to rest. The old calls, as well as the
new calls, use the new type. Existing clients should be
blissfully ignorant.
*/
typedef FourCharCode ScrapFlavorType;
/*
Newsflash! After 15 years of arduous toil, it's finally possible
for specially trained typists wielding advanced text editing
technology to define symbolic names for commonly used scrap
flavor type constants! Apple triumphs again!
*/
enum {
kScrapFlavorTypePicture = FOUR_CHAR_CODE('PICT'), /* contents of a PicHandle*/
kScrapFlavorTypeText = FOUR_CHAR_CODE('TEXT'), /* stream of characters*/
kScrapFlavorTypeTextStyle = FOUR_CHAR_CODE('styl'), /* see TEGetStyleScrapHandle*/
kScrapFlavorTypeMovie = FOUR_CHAR_CODE('moov'), /* reference to a movie*/
kScrapFlavorTypeSound = FOUR_CHAR_CODE('snd '), /* see SndRecord and SndPlay*/
kScrapFlavorTypeUnicode = FOUR_CHAR_CODE('utxt'), /* stream of UTF16 characters*/
kScrapFlavorTypeUnicodeStyle = FOUR_CHAR_CODE('ustl') /* ATSUI defines; Textension uses*/
};
/*
If you are a Carbon client and you need to run on Mac OS 8,
you may still need to load and unload the scrap. Under Mac OS
X, the scrap is held by the pasteboard server instead of in a
handle in your app's heap, so LoadScrap and UnloadScrap do
nothing when called under Mac OS X.
*/
/*
* LoadScrap()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 7.1 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
LoadScrap(void) ONEWORDINLINE(0xA9FB);
/*
* UnloadScrap()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 7.1 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
UnloadScrap(void) ONEWORDINLINE(0xA9FA);
#if CALL_NOT_IN_CARBON
/*
________________________________________________________________
MAC OS 8 SCRAP MANAGER INTERFACES
________________________________________________________________
The following interfaces are available only when compiling for
plain vanilla Mac OS 8. We didn't add comments to them because
Inside Mac covers them in detail.
________________________________________________________________
*/
struct ScrapStuff {
SInt32 scrapSize;
Handle scrapHandle;
SInt16 scrapCount;
SInt16 scrapState;
StringPtr scrapName;
};
typedef struct ScrapStuff ScrapStuff;
typedef ScrapStuff * PScrapStuff;
typedef ScrapStuff * ScrapStuffPtr;
#endif /* CALL_NOT_IN_CARBON */
#if CALL_NOT_IN_CARBON
/*
* InfoScrap()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 7.1 and later
* CarbonLib: not available
* Mac OS X: not available
*/
EXTERN_API( ScrapStuffPtr )
InfoScrap(void) ONEWORDINLINE(0xA9F9);
/*
* GetScrap()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 7.1 and later
* CarbonLib: not available
* Mac OS X: not available
*/
EXTERN_API( long )
GetScrap(
Handle destination,
ScrapFlavorType flavorType,
SInt32 * offset) ONEWORDINLINE(0xA9FD);
/*
* ZeroScrap()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 7.1 and later
* CarbonLib: not available
* Mac OS X: not available
*/
EXTERN_API( OSStatus )
ZeroScrap(void) ONEWORDINLINE(0xA9FC);
/*
* PutScrap()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 7.1 and later
* CarbonLib: not available
* Mac OS X: not available
*/
EXTERN_API( OSStatus )
PutScrap(
SInt32 sourceBufferByteCount,
ScrapFlavorType flavorType,
const void * sourceBuffer) ONEWORDINLINE(0xA9FE);
/*
________________________________________________________________
CARBON SCRAP MANAGER INTERFACES
________________________________________________________________
The following interfaces are available only when compiling for
Carbon.
________________________________________________________________
*/
/*
When promising a scrap flavor, it's OK if you
don't yet know how big the flavor data will be.
In this case, just pass kScrapFlavorSizeUnknown
for the flavor data size.
*/
#endif /* CALL_NOT_IN_CARBON */
enum {
kScrapFlavorSizeUnknown = -1
};
/*
kScrapReservedFlavorType is a flavor type which is reserved
for use by Scrap Manager. If you pass it to Scrap Manager,
it will be rejected.
*/
enum {
kScrapReservedFlavorType = FOUR_CHAR_CODE('srft')
};
/*
We've added scrap flavor flags ala Drag Manager.
kScrapFlavorMaskNone means you want none of the flags.
kScrapFlavorSenderOnlyMask means only the process which
put the flavor on the scrap can see it. If some other
process put a flavor with this flag on the scrap,
your process will never see the flavor, so there's
no point in testing for this flag.
kScrapFlavorTranslated means the flavor was translated
from some other flavor in the scrap by Translation Manager.
Most callers should not care about this bit.
*/
enum {
kScrapFlavorMaskNone = 0x00000000,
kScrapFlavorMaskSenderOnly = 0x00000001,
kScrapFlavorMaskTranslated = 0x00000002
};
typedef UInt32 ScrapFlavorFlags;
/*
ScrapFlavorInfo describes a single flavor within
a scrap.
*/
struct ScrapFlavorInfo {
ScrapFlavorType flavorType;
ScrapFlavorFlags flavorFlags;
};
typedef struct ScrapFlavorInfo ScrapFlavorInfo;
typedef struct OpaqueScrapRef* ScrapRef;
/*
kScrapRefNone is guaranteed to be an invalid ScrapRef. This
is convenient when initializing application variables.
*/
#define kScrapRefNone ((ScrapRef)NULL)
/*
Defined Apple scrap names for GetScrapByName
kScrapClipboardScrap traditional clipboard scrap
kScrapFindScrap compatible with Cocoa's global find scrap
*/
#define kScrapClipboardScrap CFSTR("com.apple.scrap.clipboard")
#define kScrapFindScrap CFSTR("com.apple.scrap.find")
/* Enumerated options to be passed to GetScrapByName*/
enum {
kScrapGetNamedScrap = 0, /* get current named scrap without bumping*/
kScrapClearNamedScrap = (1L << 0) /* acquire the named scrap, bumping and clearing*/
};
/*
GetScrapByName allows access to an indefinite number of public or private
scraps. The constant kScrapClipboardScrap refers to the "current" scrap
we've all come to know and love. kScrapFindScrap allows Carbon apps to
interact seamlessly with Cocoa's global find scrap. Note that calling:
GetScrapByName( kScrapClipboardScrap, kScrapGetNamedScrap, &scrap );
is an exact match to the call:
GetCurrentScrap( &scrap );
Additionally, a call to:
GetScrapByName( kScrapClipboardScrap, kScrapClearNamedScrap, &scrap );
is a replacement for the sequence:
ClearCurrentScrap();
GetCurrentScrap( &scrap );
You can use this API to generate your own private scraps to use as a high
level interprocess communication between your main and helper apps. The Java
naming convention is suggested for your scraps ( ie. com.joeco.scrap.secret ).
CarbonLib does not support arbitrary named scraps; when calling this API on
CarbonLib, kScrapClipboardScrap is the only supported value for the name parameter.
*/
/*
* GetScrapByName()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.5 and later
* Mac OS X: in version 10.1 and later
*/
EXTERN_API( OSStatus )
GetScrapByName(
CFStringRef name,
OptionBits options,
ScrapRef * scrap);
/*
GetCurrentScrap obtains a reference to the current scrap.
The ScrapRef obtained via GetCurrentScrap will become
invalid and unusable after the scrap is cleared.
*/
/*
* GetCurrentScrap()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
GetCurrentScrap(ScrapRef * scrap);
/*
GetScrapFlavorFlags tells you [a] whether the scrap contains
data for a particular flavor and [b] some things about that
flavor if it exists. This call never blocks, and is useful
for deciding whether to enable the Paste item in your Edit
menu, among other things.
*/
/*
* GetScrapFlavorFlags()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
GetScrapFlavorFlags(
ScrapRef scrap,
ScrapFlavorType flavorType,
ScrapFlavorFlags * flavorFlags);
/*
GetScrapFlavorSize gets the size of the data of the specified
flavor. This function blocks until the specified flavor
data is available. GetScrapFlavorSize is intended as a prelude
to allocating memory and calling GetScrapFlavorData.
*/
/*
* GetScrapFlavorSize()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
GetScrapFlavorSize(
ScrapRef scrap,
ScrapFlavorType flavorType,
Size * byteCount);
/*
GetScrapFlavorData gets the data from the specified flavor in the
specified scrap. This function blocks until the specified flavor
data is available. Specify the maximum size your buffer can contain;
on output, this function produces the number of bytes that were
available (even if this is more than you requested).
*/
/*
* GetScrapFlavorData()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
GetScrapFlavorData(
ScrapRef scrap,
ScrapFlavorType flavorType,
Size * byteCount,
void * destination);
/*
ClearCurrentScrap clears the current scrap. Call this
first when the user requests a Copy or Cut operation --
even if you maintain a private scrap! You should not wait
until receiving a suspend event to call ClearCurrentScrap. Call
it immediately after the user requests a Copy or Cut operation.
You don't need to put any data on the scrap immediately (although
it's perfectly fine to do so). You DO need to call GetCurrentScrap
after ClearCurrentScrap so you'll have a valid ScrapRef to pass
to other functions.
*/
/*
* ClearCurrentScrap()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
ClearCurrentScrap(void);
/*
ClearScrap will clear the scrap passed in and return the bumped
ScrapRef value. ClearScrap behaves similarly to GetScrapByName
when called with the kScrapClearNamedScrap option with the
benefit of not requiring a name in the event one is not available.
CarbonLib does not support arbitrary named scraps; when calling this
API on CarbonLib, only clearing the current scrap is supported.
*/
/*
* ClearScrap()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.5 and later
* Mac OS X: in version 10.1 and later
*/
EXTERN_API( OSStatus )
ClearScrap(ScrapRef * inOutScrap);
/*
PutScrapFlavor is a lot like PutScrap, with two differences:
we added a ScrapRef parameter at the beginning and you can
"promise" various aspects of a flavor. If you pass a NIL
data pointer, this is a promise that in the future you
will provide data for this flavor. Provide the data
through a subsequent call to PutScrapFlavor, either later
in the same code flow or during a scrap promise keeper proc.
If you know how big the data is, you can pass the size as
well, and this may allow subsequent callers of GetScrapFlavorInfo
to avoid blocking. If you don't know the size, pass -1.
If you pass a 0 size, you are telling Scrap Manager not to
expect any data for this flavor. In this case, the flavor
data pointer is ignored. NOTE: the last time you can provide
scrap flavor data is when your scrap promise keeper gets
called. It is NOT possible to call PutScrapFlavor while
handling a suspend event; suspend events under Carbon
simply don't work the way they do under Mac OS 8.
The method for setting Scrap Manager promises differs from that for Drag Manger promises.
This chart describes the method for setting scrap promises via PutScrapFlavor().
dataPtr dataSize result
pointer value actual data size The data of size dataSize pointed to by dataPtr is added to the scrap.
0 actual data size A promise for data of size dataSize is placed on the scrap.
0 -1 A promise for data of an undetermined size is placed on the scrap.
ignored 0 A flavor with no data expected is placed on the scrap. This is not a promise.
*/
/*
* PutScrapFlavor()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
PutScrapFlavor(
ScrapRef scrap,
ScrapFlavorType flavorType,
ScrapFlavorFlags flavorFlags,
Size flavorSize,
const void * flavorData); /* can be NULL */
/*
ScrapPromiseKeeper is a function you write which is called by
Scrap Manager as needed to keep your earlier promise of a
particular scrap flavor. When your function is called, deliver
the requested data by calling PutScrapFlavor.
*/
typedef CALLBACK_API( OSStatus , ScrapPromiseKeeperProcPtr )(ScrapRef scrap, ScrapFlavorType flavorType, void *userData);
typedef STACK_UPP_TYPE(ScrapPromiseKeeperProcPtr) ScrapPromiseKeeperUPP;
/*
* NewScrapPromiseKeeperUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( ScrapPromiseKeeperUPP )
NewScrapPromiseKeeperUPP(ScrapPromiseKeeperProcPtr userRoutine);
#if !OPAQUE_UPP_TYPES
enum { uppScrapPromiseKeeperProcInfo = 0x00000FF0 }; /* pascal 4_bytes Func(4_bytes, 4_bytes, 4_bytes) */
#ifdef __cplusplus
inline DEFINE_API_C(ScrapPromiseKeeperUPP) NewScrapPromiseKeeperUPP(ScrapPromiseKeeperProcPtr userRoutine) { return (ScrapPromiseKeeperUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppScrapPromiseKeeperProcInfo, GetCurrentArchitecture()); }
#else
#define NewScrapPromiseKeeperUPP(userRoutine) (ScrapPromiseKeeperUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppScrapPromiseKeeperProcInfo, GetCurrentArchitecture())
#endif
#endif
/*
* DisposeScrapPromiseKeeperUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( void )
DisposeScrapPromiseKeeperUPP(ScrapPromiseKeeperUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(void) DisposeScrapPromiseKeeperUPP(ScrapPromiseKeeperUPP userUPP) { DisposeRoutineDescriptor((UniversalProcPtr)userUPP); }
#else
#define DisposeScrapPromiseKeeperUPP(userUPP) DisposeRoutineDescriptor(userUPP)
#endif
#endif
/*
* InvokeScrapPromiseKeeperUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( OSStatus )
InvokeScrapPromiseKeeperUPP(
ScrapRef scrap,
ScrapFlavorType flavorType,
void * userData,
ScrapPromiseKeeperUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(OSStatus) InvokeScrapPromiseKeeperUPP(ScrapRef scrap, ScrapFlavorType flavorType, void * userData, ScrapPromiseKeeperUPP userUPP) { return (OSStatus)CALL_THREE_PARAMETER_UPP(userUPP, uppScrapPromiseKeeperProcInfo, scrap, flavorType, userData); }
#else
#define InvokeScrapPromiseKeeperUPP(scrap, flavorType, userData, userUPP) (OSStatus)CALL_THREE_PARAMETER_UPP((userUPP), uppScrapPromiseKeeperProcInfo, (scrap), (flavorType), (userData))
#endif
#endif
#if CALL_NOT_IN_CARBON || OLDROUTINENAMES
/* support for pre-Carbon UPP routines: New...Proc and Call...Proc */
#define NewScrapPromiseKeeperProc(userRoutine) NewScrapPromiseKeeperUPP(userRoutine)
#define CallScrapPromiseKeeperProc(userRoutine, scrap, flavorType, userData) InvokeScrapPromiseKeeperUPP(scrap, flavorType, userData, userRoutine)
#endif /* CALL_NOT_IN_CARBON */
/*
SetScrapPromiseKeeper associates a ScrapPromiseKeeper with a
scrap. You can remove a ScrapPromiseKeeper from a scrap by
passing a NIL ScrapPromiseKeeper to SetScrapPromiseKeeper.
Pass whatever you like in the last parameter; its value will
be passed to your ScrapPromiseKeeper, which can do whatever
it likes with the value. You might choose to pass a pointer
or handle to some private scrap data which the
ScrapPromiseKeeper could use in fabricating one or more
promised flavors.
*/
/*
* SetScrapPromiseKeeper()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
SetScrapPromiseKeeper(
ScrapRef scrap,
ScrapPromiseKeeperUPP upp,
const void * userData);
/*
GetScrapFlavorCount produces the number of
items which can be obtained by GetScrapFlavorInfoList.
*/
/*
* GetScrapFlavorCount()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
GetScrapFlavorCount(
ScrapRef scrap,
UInt32 * infoCount);
/*
GetScrapFlavorInfoList fills a list (array)
of items which each describe the corresponding
flavor in the scrap. It fills no more array
elements as are specified. On exit, it produces
the count of elements it filled (which may be
smaller than the count requested). Yes, YOU
must provide the memory for the array.
*/
/*
* GetScrapFlavorInfoList()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
GetScrapFlavorInfoList(
ScrapRef scrap,
UInt32 * infoCount,
ScrapFlavorInfo info[]);
/*
CallInScrapPromises forces all promises to be kept.
If your application promises at least one flavor
AND it does NOT adopt the new event model, you
should call this function when your application
is about to quit. If your app promises no flavors,
there is no need to call this function, and if
your app adopts the new event model, this function
will be called automagically for you. It doesn't
hurt to call this function more than once, though
promise keepers may be asked to keep promises
they already tried and failed.
*/
/*
* CallInScrapPromises()
*
* Availability:
* Non-Carbon CFM: not available
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSStatus )
CallInScrapPromises(void);
#if PRAGMA_STRUCT_ALIGN
#pragma options align=reset
#elif PRAGMA_STRUCT_PACKPUSH
#pragma pack(pop)
#elif PRAGMA_STRUCT_PACK
#pragma pack()
#endif
#ifdef PRAGMA_IMPORT_OFF
#pragma import off
#elif PRAGMA_IMPORT
#pragma import reset
#endif
#ifdef __cplusplus
}
#endif
#endif /* __SCRAP__ */