TABLE OF CONTENTS iffparse.library/AllocIFF iffparse.library/AllocLocalItem iffparse.library/CloseClipboard iffparse.library/CloseIFF iffparse.library/CollectionChunk iffparse.library/CollectionChunks iffparse.library/CurrentChunk iffparse.library/EntryHandler iffparse.library/ExitHandler iffparse.library/FindCollection iffparse.library/FindLocalItem iffparse.library/FindProp iffparse.library/FindPropContext iffparse.library/FreeIFF iffparse.library/FreeLocalItem iffparse.library/GoodID iffparse.library/GoodType iffparse.library/IDtoStr iffparse.library/InitIFF iffparse.library/InitIFFasClip iffparse.library/InitIFFasDOS iffparse.library/LocalItemData iffparse.library/OpenClipboard iffparse.library/OpenIFF iffparse.library/ParentChunk iffparse.library/ParseIFF iffparse.library/PopChunk iffparse.library/PropChunk iffparse.library/PropChunks iffparse.library/PushChunk iffparse.library/ReadChunkBytes iffparse.library/ReadChunkRecords iffparse.library/SetLocalItemPurge iffparse.library/StopChunk iffparse.library/StopChunks iffparse.library/StopOnExit iffparse.library/StoreItemInContext iffparse.library/StoreLocalItem iffparse.library/WriteChunkBytes iffparse.library/WriteChunkRecords iffparse.library/AllocIFF iffparse.library/AllocIFF NAME AllocIFF -- create a new IFFHandle structure. (V36) SYNOPSIS iff = AllocIFF() D0 struct IFFHandle *AllocIFF(VOID); FUNCTION Allocates and initializes a new IFFHandle structure. This function is the only supported way to create an IFFHandle structure since there are private fields that need to be initialized. RESULT iff - pointer to IFFHandle structure or NULL if the allocation failed. SEE ALSO FreeIFF(), iffparse.library/AllocLocalItem iffparse.library/AllocLocalItem NAME AllocLocalItem -- create a local context item structure. (V36) SYNOPSIS item = AllocLocalItem(type, id, ident, dataSize); D0 D0 D1 D2 D3 struct LocalContextItem *AllocLocalItem(LONG, LONG, LONG, LONG); FUNCTION Allocates and initializes a LocalContextItem structure with "dataSize" bytes of associated user data. This is the only supported way to create such an item. The user data can be accessed with the LocalItemData() function. An item created with this function automatically has its purge vectors set up correctly to dispose of itself and its associated user data area. Any additional cleanup should be done with a user-supplied purge vector. INPUTS type,id - additional longword identification values ident - longword identifier for class of context item dataSize - number of bytes of user data to allocate for this item RESULT item - pointer to initialized LocalContextItem or NULL if the allocation failed. SEE ALSO FreeLocalItem(), LocalItemData(), StoreLocalItem(), StoreItemInContext(), SetLocalItemPurge(), iffparse.library/CloseClipboard iffparse.library/CloseClipboard NAME CloseClipboard -- close and free an open ClipboardHandle. (V36) SYNOPSIS CloseClipboard(clipHandle); A0 VOID CloseClipboard(struct ClipboardHandle *); FUNCTION Closes the clipboard.device and frees the ClipboardHandle structure. INPUTS clipHandle - pointer to ClipboardHandle struct created with OpenClipboard(). Starting with V39, this may be NULL. SEE ALSO OpenClipboard(), InitIFFasClip(), iffparse.library/CloseIFF iffparse.library/CloseIFF NAME CloseIFF -- close an IFF context. (V36) SYNOPSIS CloseIFF(iff); A0 VOID CloseIFF(struct IFFHandle *); FUNCTION Completes an IFF read or write operation by closing the IFF context established for this IFFHandle structure. The IFFHandle structure itself is left ready for re-use and a new context can be opened with OpenIFF(). This function can be used for cleanup if a read or write fails partway through. As part of its cleanup operation, CloseIFF() calls the client- supplied stream hook vector. The IFFStreamCmd packet will be set as follows: sc_Command: IFFCMD_CLEANUP sc_Buf: (Not applicable) sc_NBytes: (Not applicable) This operation is NOT permitted to fail; any error code returned will be ignored (best to return 0, though). DO NOT write to this structure. INPUTS iff - pointer to IFFHandle structure previously opened with OpenIFF(). Starting with V39, this may be NULL. SEE ALSO OpenIFF(), InitIFF(), iffparse.library/CollectionChunk iffparse.library/CollectionChunk NAME CollectionChunk -- declare a chunk type for collection. (V36) SYNOPSIS error = CollectionChunk(iff, type, id); D0 A0 D0 D1 LONG CollectionChunk(struct IFFHandle *, LONG, LONG); FUNCTION Installs an entry handler for chunks with the given type and id so that the contents of those chunks will be stored as they are encountered. This is like PropChunk() except that more than one chunk of this type can be stored in lists which can be returned by FindCollection(). The storage of these chunks still follows the property chunk scoping rules for IFF files so that at any given point, stored collection chunks will be valid in the current context. INPUTS iff - pointer to IFFHandle structure (does not need to be open) type - type code for the chunk to declare (ex. "ILBM") id - identifier for the chunk to declare (ex. "CRNG") RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO CollectionChunks(), FindCollection(), PropChunk(), iffparse.library/CollectionChunks iffparse.library/CollectionChunks NAME CollectionChunks -- declare many collection chunks at once. (V36) SYNOPSIS error = CollectionChunks(iff, propArray, numPairs); D0 A0 A1 D0 LONG CollectionChunks(struct IFFHandle *, LONG *, LONG); FUNCTION Declares multiple collection chunks from a list. The propArray argument is a pointer to an array of longwords arranged in pairs. The format for the list is as follows: TYPE1, ID1, TYPE2, ID2, ..., TYPEn, IDn The argument numPairs is the number of pairs. CollectionChunks() just calls CollectionChunk() numPairs times. INPUTS iff - pointer to IFFHandle structure (does not need to be open) propArray - pointer to array of longword chunk types and identifiers numPairs - number of pairs in array. RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful SEE ALSO CollectionChunk(), iffparse.library/CurrentChunk iffparse.library/CurrentChunk NAME CurrentChunk -- get context node for current chunk. (V36) SYNOPSIS top = CurrentChunk(iff); D0 A0 struct ContextNode *CurrentChunk(struct IFFHandle *); FUNCTION Returns the top context node for the given IFFHandle structure. The top context node corresponds to the chunk most recently pushed on the stack, which is the chunk where the stream is currently positioned. The ContextNode structure contains information on the type of chunk currently being parsed (or written), its size and the current position within the chunk. INPUTS iff - pointer to IFFHandle structure RESULT top - pointer to top context node or NULL if none SEE ALSO PushChunk(), PopChunk(), ParseIFF(), ParentChunk(), iffparse.library/EntryHandler iffparse.library/EntryHandler NAME EntryHandler -- add an entry handler to the IFFHandle context. (V36) SYNOPSIS error = EntryHandler(iff, type, id, position, handler, object); D0 A0 D0 D1 D2 A1 A2 LONG EntryHandler(struct IFFHandle *, LONG, LONG, LONG, struct Hook *, APTR); FUNCTION Installs an entry handler vector for a specific type of chunk into the context for the given IFFHandle structure. Type and id are the longword identifiers for the chunk to handle. The handler is a client- supplied standard Hook structure, properly initialized. position tells where to put the handler in the context. The handler will be called whenever the parser enters a chunk of the given type, so the IFF stream will be positioned to read the first data byte in the chunk. The handler will execute in the same context as whoever called ParseIFF(). The handler will be called (through the hook) with the following arguments: A0: the Hook pointer you passed. A2: the 'object' pointer you passed. A1: pointer to a LONG containing the value IFFCMD_ENTRY. The error code your call-back routine returns will affect the parser in three different ways: Return value Result ------------ ------ 0: Normal success; ParseIFF() will continue through the file. IFF_RETURN2CLIENT: ParseIFF() will stop and return the value 0. (StopChunk() is internally implemented using this return value.) Any other value: ParseIFF() will stop and return the value you supplied. This is how errors should be returned. INPUTS iff - pointer to IFFHandle structure. type - type code for chunk to handle (ex. "ILBM"). id - ID code for chunk to handle (ex. "CMAP"). position- local context item position. One of the IFFSLI_#? codes. handler - pointer to Hook structure. object - a client-defined pointer which is passed in A2 during call- back. RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. BUGS Returning the values IFFERR_EOF or IFFERR_EOC from the call-back routine *may* confuse the parser. There is no way to explicitly remove a handler once installed. However, by installing a do-nothing handler using IFFSLI_TOP, previous handlers will be overridden until the context expires. SEE ALSO ExitHandler(), StoreLocalItem(), StoreItemInContext(), , iffparse.library/ExitHandler iffparse.library/ExitHandler NAME ExitHandler -- add an exit handler to the IFFHandle context. (V36) SYNOPSIS error = ExitHandler(iff, type, id, position, handler, object); D0 A0 D0 D1 D2 A1 A2 LONG ExitHandler(struct IFFHandle *, LONG, LONG, LONG, struct Hook *, APTR object(; FUNCTION Installs an exit handler vector for a specific type of chunk into the context for the given IFFHandle structure. Type and id are the longword identifiers for the chunk to handle. The handler is a client-supplied standard Hook structure, properly initialized. Position tells where to put the handler in the context. The handler will be called just before the parser exits the given chunk in the "pause" parse state. The IFF stream may not be positioned predictably within the chunk. The handler will execute in the same context as whoever called ParseIFF(). The handler will be called (through the hook) with the following arguments: A0: the Hook pointer you passed. A2: the 'object' pointer you passed. A1: pointer to a LONG containing the value IFFCMD_EXIT. The error code your call-back routine returns will affect the parser in three different ways: Return value Result ------------ ------ 0: Normal success; ParseIFF() will continue through the file. IFF_RETURN2CLIENT: ParseIFF() will stop and return the value 0. (StopChunk() is internally implemented using this return value.) Any other value: ParseIFF() will stop and return the value you supplied. This is how errors should be returned. INPUTS iff - pointer to IFFHandle structure. type - type code for chunk to handle (ex. "ILBM"). id - identifier code for chunk to handle (ex. "CMAP"). position - local context item position. One of the IFFSLI_#? codes. handler - pointer to Hook structure. object - a client-defined pointer which is passed in A2 during call- back. RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. BUGS Returning the values IFFERR_EOF or IFFERR_EOC from the call-back routine *may* confuse the parser. There is no way to explicitly remove a handler once installed. However, by installing a do-nothing handler using IFFSLI_TOP, previous handlers will be overridden until the context expires. SEE ALSO EntryHandler(), StoreLocalItem(), StoreItemInContext(), , iffparse.library/FindCollection iffparse.library/FindCollection NAME FindCollection -- get a pointer to the current list of collection items. (V36) SYNOPSIS ci = FindCollection(iff, type, id); D0 A0 D0 D1 struct CollectionItem *FindCollection(struct IFFHandle *, LONG, LONG); FUNCTION Returns a pointer to a list of CollectionItem structures for each of the collection chunks of the given type encountered so far in the course of parsing this IFF file. The items appearing first in the list will be the ones encountered most recently. INPUTS iff - pointer to IFFHandle structure. type - type code to search for. id - identifier code to search for. RESULT ci - pointer to last collection chunk encountered with links to previous ones. SEE ALSO CollectionChunk(), CollectionChunks(), iffparse.library/FindLocalItem iffparse.library/FindLocalItem NAME FindLocalItem -- return a local context item from the context stack. (V36) SYNOPSIS lci = FindLocalItem(iff, type, id, ident); D0 A0 D0 D1 D2 struct LocalContextItem *FindLocalItem(struct IFFHandle *, LONG, LONG, LONG); FUNCTION Searches the context stack of the given IFFHandle structure for a local context item which matches the given ident, type and id. This function searches the context stack from the most current context backwards, so that the item found (if any) will be the one with greatest precedence in the context stack. INPUTS iff - pointer to IFFHandle structure. type - type code to search for. id - ID code to search for. ident - ident code for the class of context item to search for (ex. "exhd" -- exit handler). RESULT lci - pointer to local context item, or NULL if nothing matched. SEE ALSO StoreLocalItem(), iffparse.library/FindProp iffparse.library/FindProp NAME FindProp -- search for a stored property chunk. (V36) SYNOPSIS sp = FindProp(iff, type, id); D0 A0 D0 D1 struct StoredProperty *FindProp(struct IFFHandle *, LONG, LONG); FUNCTION Searches for the stored property which is valid in the given context. Property chunks are automatically stored by ParseIFF() when pre-declared by PropChunk() or PropChunks(). The StoredProperty struct, if found, contains a pointer to a data buffer containing the contents of the stored property. INPUTS iff - pointer to IFFHandle structure. type - type code for chunk to search for (ex. "ILBM"). id - identifier code for chunk to search for (ex. "CMAP"). RESULT sp - pointer to stored property, or NULL if none found. SEE ALSO PropChunk(), PropChunks(), iffparse.library/FindPropContext iffparse.library/FindPropContext NAME FindPropContext -- get the property context for the current state. (V36) SYNOPSIS cn = FindPropContext(iff); D0 A0 struct ContextNode *FindPropContext(struct IFFHandle *); FUNCTION Locates the context node which would be the scoping chunk for properties in the current parsing state. (Huh?) This is used for locating the proper scoping context for property chunks i.e. the scope from which a property would apply. This is usually the FORM or LIST with the highest precedence in the context stack. If you don't understand this, read the IFF spec a couple more times. INPUTS iff - pointer to IFFHandle structure. RESULT cn - ContextNode of property scoping chunk. SEE ALSO CurrentChunk(), ParentChunk(), StoreItemInContext(), iffparse.library/FreeIFF iffparse.library/FreeIFF NAME FreeIFF -- deallocate an IFFHandle structure. (V36) SYNOPSIS FreeIFF(iff); A0 VOID FreeIFF(struct IFFHandle *); FUNCTION Deallocates all resources associated with this IFFHandle structure. The structure MUST have already been closed with CloseIFF(). INPUTS iff - pointer to IFFHandle structure to free. Starting with V39, this may be NULL. SEE ALSO AllocIFF(), CloseIFF(), iffparse.library/FreeLocalItem iffparse.library/FreeLocalItem NAME FreeLocalItem -- deallocate a local context item structure. (V36) SYNOPSIS FreeLocalItem(localItem); A0 VOID FreeLocalItem(struct LocalContextItem *); FUNCTION Frees the memory for the local context item and any associated user memory as allocated with AllocLocalItem(). User purge vectors should call this function after they have freed any other resources associated with this item. Note that FreeLocalItem() does NOT call the custom purge vector set up through SetLocalItemPurge(); all it does is free the local context item. (This implies that your custom purge vector would want to call this to ultimately free the LocalContextItem.) INPUTS localItem - pointer to LocalContextItem created with AllocLocalItem. Starting with V39, this may be NULL. SEE ALSO AllocLocalItem(), iffparse.library/GoodID iffparse.library/GoodID NAME GoodID -- test if an identifier follows the IFF 85 specification. (V36) SYNOPSIS isok = GoodID(id); D0 D0 LONG GoodID(LONG); FUNCTION Tests the given longword identifier to see if it meets all the EA IFF 85 specifications for a chunk ID. If so, it returns non-zero, otherwise 0. INPUTS id - potential 32 bit identifier. RESULT isok - non-zero if this is a valid ID, 0 otherwise. SEE ALSO GoodType() iffparse.library/GoodType iffparse.library/GoodType NAME GoodType -- test if a type follows the IFF 85 specification. (V36) SYNOPSIS isok = GoodType(type) D0 D0 LONG GoodType(LONG); FUNCTION Tests the given longword type identifier to see if it meets all the EA IFF 85 specifications for a FORM type (requirements for a FORM type are more stringent than those for a simple chunk ID). If it complies, GoodType() returns non-zero, otherwise 0. INPUTS type - potential 32 bit format type identifier. RESULT isok - non-zero if this is a valid type id, 0 otherwise. SEE ALSO GoodID() iffparse.library/IDtoStr iffparse.library/IDtoStr NAME IDtoStr -- convert a longword identifier to a null-terminated string. (V36) SYNOPSIS str = IDtoStr(id, buf); D0 D0 A0 STRPTR IDtoStr(LONG, STRPTR); FUNCTION Writes the ASCII equivalent of the given longword ID into buf as a null-terminated string. INPUTS id - longword ID. buf - character buffer to accept string (at least 5 chars). RESULT str - the value of 'buf'. iffparse.library/InitIFF iffparse.library/InitIFF NAME InitIFF -- initialize an IFFHandle structure as a user stream. (V36) SYNOPSIS InitIFF(iff, flags, streamHook); A0 D0 A1 VOID InitIFF(struct IFFHandle *, LONG, struct Hook *); FUNCTION Initializes an IFFHandle as a general user-defined stream by allowing the user to declare a hook that the library will call to accomplish the low-level reading, writing, and seeking of the stream. Flags are the stream I/O flags for the specified stream; typically a combination of the IFFF_?SEEK flags. The stream vector is called with the following arguments: A0: pointer to streamhook. A2: pointer to IFFHandle structure. A1: pointer to IFFStreamCmd structure. The IFFStreamCmd packet appears as follows: sc_Command: Contains an IFFCMD_#? value sc_Buf: Pointer to memory buffer sc_NBytes: Number of bytes involved in operation The values taken on by sc_Command, and their meaning, are as follows: IFFCMD_INIT: Prepare your stream for reading. This is used for certain streams that can't be read immediately upon opening, and need further preparation. (The clipboard.device is an example of such a stream.) This operation is allowed to fail; any error code will be returned directly to the client. sc_Buf and sc_NBytes have no meaning here. IFFCMD_CLEANUP: Terminate the transaction with the associated stream. This is used with streams that can't simply be closed. (Again, the clipboard is an example of such a stream.) This operation is not permitted to fail; any error returned will be ignored (best to return 0, though). sc_Buf and sc_NBytes have no meaning here. IFFCMD_READ: Read from the stream. You are to read sc_NBytes from the stream and place them in the buffer pointed to by sc_Buf. Any (non-zero) error returned will be remapped by the parser into IFFERR_READ. IFFCMD_WRITE: Write to the stream. You are to write sc_NBytes to the stream from the buffer pointed to by sc_Buf. Any (non-zero) error returned will be remapped by the parser into IFFERR_WRITE. IFFCMD_SEEK: Seek on the stream. You are to perform a seek on the stream relative to the current position. sc_NBytes is signed; negative values mean seek backward, positive values mean seek forward. sc_Buf has no meaning here. Any (non-zero) error returned will be remapped by the parser into IFFERR_SEEK. All errors are returned in D0. A return of 0 indicates success. UNDER NO CIRCUMSTANCES are you permitted to write to the IFFStreamCmd structure. INPUTS iff - pointer to IFFHandle structure to initialize. flags - stream I/O flags for the IFFHandle. streamHook - pointer to Hook structure. SEE ALSO , iffparse.library/InitIFFasClip iffparse.library/InitIFFasClip NAME InitIFFasClip -- initialize an IFFHandle as a clipboard stream. (V36) SYNOPSIS InitIFFasClip(iff); A0 VOID InitIFFasClip(struct IFFHandle *); FUNCTION Initializes the given IFFHandle to be a clipboard stream. The function initializes the stream processing vectors to operate on streams of the ClipboardHandle type. The iff_Stream field will still need to be initialized to point to a ClipboardHandle as returned from OpenClipboard(). INPUTS iff - pointer to IFFHandle structure. SEE ALSO InitIFF(), OpenClipboard(), iffparse.library/InitIFFasDOS iffparse.library/InitIFFasDOS NAME InitIFFasDOS -- initialize an IFFHandle as a DOS stream. (V36) SYNOPSIS InitIFFasDOS(iff) A0 InitIFFasDOS(struct IFFHandle *); FUNCTION The function initializes the given IFFHandle to operate on DOS streams. The iff_Stream field will need to be initialized as a BPTR returned from the DOS function Open(). INPUTS iff - pointer to IFFHandle structure. SEE ALSO InitIFF() iffparse.library/LocalItemData iffparse.library/LocalItemData NAME LocalItemData -- get pointer to user data for local context item. (V36) SYNOPSIS data = LocalItemData(localItem); D0 A0 APTR LocalItemData(struct LocalContextItem *); FUNCTION Returns pointer to the user data associated with the given local context item. The size of the data area depends on the "dataSize" argument used when allocating this item. If the pointer to the item given (localItem) is NULL, this function returns NULL. INPUTS localItem - pointer to local context item or NULL. RESULT data - pointer to user data area or NULL if localItem is NULL. BUGS Currently, there is no way to determine the size of the user data area; you have to 'know'. SEE ALSO AllocLocalItem(), FreeLocalItem(), iffparse.library/OpenClipboard iffparse.library/OpenClipboard NAME OpenClipboard -- create a handle on a clipboard unit. (V36) SYNOPSIS ch = OpenClipboard(unitNumber) D0 D0 struct ClipboardHandle *OpenClipboard(LONG); FUNCTION Opens the clipboard.device and opens a stream for the specified unit (usually PRIMARY_CLIP). This handle structure will be used as the clipboard stream for IFFHandles initialized as clipboard streams by InitIFFasClip(). INPUTS unitNumber - clipboard unit number (usually PRIMARY_CLIP). RESULT ch - pointer to ClipboardHandle structure or NULL if unsuccessful. BUGS This function had several bugs prior to V39. First bug was that if the clipboard.device couldn't open, two calls to FreeSignal() were made with uninitialized values as parameters. The result of this was a corrupt signal mask in the Task field. Second bug was that OpenDevice() was called with an IO request that didn't have a valid MsgPort pointer in it. Third bug was that the two message ports allocated by the function (ClipboardHandle->cbh_CBport and ClipboardHandle->cbh_SatisfyPort) were not being initialized correctly and would cause a system crash if a message ever got to either of them. SEE ALSO InitIFFasClip(), CloseClipboard(), iffparse.library/OpenIFF iffparse.library/OpenIFF NAME OpenIFF -- prepare an IFFHandle to read or write a new IFF stream. (V36) SYNOPSIS error = OpenIFF(iff, rwMode); D0 A0 D0 LONG OpenIFF(struct IFFHandle *, LONG); FUNCTION Initializes an IFFHandle structure for a new read or write. The direction of the I/O is given by the value of rwMode, which can be either IFFF_READ or IFFF_WRITE. As part of its initialization procedure, OpenIFF() calls the client- supplied stream hook vector. The IFFStreamCmd packet will contain the following: sc_Command: IFFCMD_INIT sc_Buf: (Not applicable) sc_NBytes: (Not applicable) This operation is permitted to fail. DO NOT write to this structure. INPUTS iff - pointer to IFFHandle structure. Starting with V39, this may be NULL, in which case IFFERR_NOMEM is returned. rwMode - IFFF_READ or IFFF_WRITE RESULT error - contains an error code or 0 if successful SEE ALSO CloseIFF(), InitIFF(), iffparse.library/ParentChunk iffparse.library/ParentChunk NAME ParentChunk -- get the nesting context node for the given chunk. (V36) SYNOPSIS parent = ParentChunk(contextNode); D0 A0 struct ContextNode *ParentChunk(struct ContextNode *); FUNCTION Returns a context node for the chunk containing the chunk for the given context node. This function effectively moves down the context stack into previously pushed contexts. For example, to get a ContextNode pointer for the enclosing FORM chunk while reading a data chunk, use: ParentChunk(CurrentChunk(iff)) to find this pointer. The ContextNode structure contains information on the type of chunk and its size. INPUTS contextNode - pointer to a context node. RESULT parent - pointer to the enclosing context node or NULL if none. SEE ALSO CurrentChunk(), iffparse.library/ParseIFF iffparse.library/ParseIFF NAME ParseIFF -- parse an IFF file from an IFFHandle structure stream. (V36) SYNOPSIS error = ParseIFF(iff, control); D0 A0 D0 LONG ParseIFF(struct IFFHandle *, LONG); FUNCTION This is the biggie. Traverses a file opened for read by pushing chunks onto the context stack and popping them off directed by the generic syntax of IFF files. As it pushes each new chunk, it searches the context stack for handlers to apply to chunks of that type. If it finds an entry handler it will invoke it just after entering the chunk. If it finds an exit handler it will invoke it just before leaving the chunk. Standard handlers include entry handlers for pre-declared property chunks and collection chunks and entry and exit handlers for for stop chunks - that is, chunks which will cause the ParseIFF() function to return control to the client. Client programs can also provide their own custom handlers. The control flag can have three values: IFFPARSE_SCAN: In this normal mode, ParseIFF() will only return control to the caller when either: 1) an error is encountered, 2) a stop chunk is encountered, or a user handler returns the special IFF_RETURN2CLIENT code, or 3) the end of the logical file is reached, in which case IFFERR_EOF is returned. ParseIFF() will continue pushing and popping chunks until one of these conditions occurs. If ParseIFF() is called again after returning, it will continue to parse the file where it left off. IFFPARSE_STEP and _RAWSTEP: In these two modes, ParseIFF() will return control to the caller after every step in the parse, specifically, after each push of a context node and just before each pop. If returning just before a pop, ParseIFF() will return IFFERR_EOC, which is not an error, per se, but is just an indication that the most recent context is ending. In STEP mode, ParseIFF() will invoke the handlers for chunks, if any, before returning. In RAWSTEP mode, ParseIFF() will not invoke any handlers and will return right away. In both cases the function can be called multiple times to step through the parsing of the IFF file. INPUTS iff - pointer to IFFHandle structure. control - control code (IFFPARSE_SCAN, _STEP or _RAWSTEP). RESULT error - 0 or IFFERR_#? value or return value from user handler. SEE ALSO PushChunk(), PopChunk(), EntryHandler(), ExitHandler(), PropChunk(), CollectionChunk(), StopChunk(), StopOnExit(), iffparse.library/PopChunk iffparse.library/PopChunk NAME PopChunk -- pop top context node off context stack. (V36) SYNOPSIS error = PopChunk(iff); D0 A0 LONG PopChunk(struct IFFHandle *); FUNCTION Pops top context chunk and frees all associated local context items. The function is normally called only for writing files and signals the end of a chunk. INPUTS iff - pointer to IFFHandle structure. RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO PushChunk(), iffparse.library/PropChunk iffparse.library/PropChunk NAME PropChunk -- specify a property chunk to store. (V36) SYNOPSIS error = PropChunk(iff, type, id); D0 A0 D0 D1 LONG PropChunk(struct IFFHandle *, LONG, LONG); FUNCTION Installs an entry handler for chunks with the given type and ID so that the contents of those chunks will be stored as they are encountered. The storage of these chunks follows the property chunk scoping rules for IFF files so that at any given point, a stored property chunk returned by FindProp() will be the valid property for the current context. INPUTS iff - pointer to IFFHandle structure (does not need to be open). type - type code for the chunk to declare (ex. "ILBM"). id - identifier for the chunk to declare (ex. "CMAP"). RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO PropChunks(), FindProp(), CollectionChunk(), iffparse.library/PropChunks iffparse.library/PropChunks NAME PropChunks -- declare many property chunks at once. (V36) SYNOPSIS error = PropChunks(iff, propArray, numPairs); D0 A0 A1 D0 LONG PropChunks(struct IFFHandle *, LONG *, LONG); FUNCTION Declares multiple property chunks from a list. The propArray argument if a pointer to an array of longwords arranged in pairs, and has the following format: TYPE1, ID1, TYPE2, ID2, ..., TYPEn, IDn The argument numPairs is the number of pairs. PropChunks() just calls PropChunk() numPairs times. INPUTS iff - pointer to IFFHandle structure. propArray - pointer to array of longword chunk types and identifiers. numPairs - number of pairs in the array. RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO PropChunk(), iffparse.library/PushChunk iffparse.library/PushChunk NAME PushChunk -- push a new context node on the context stack. (V36) SYNOPSIS error = PushChunk(iff, type, id, size); D0 A0 D0 D1 D2 LONG PushChunk(struct IFFHandle *, LONG, LONG, LONG); FUNCTION Pushes a new context node on the context stack by reading it from the stream if this is a read file, or by creating it from the passed parameters if this is a write file. Normally this function is only called in write mode, where the type and id codes specify the new chunk to create. If this is a leaf chunk, i.e. a local chunk inside a FORM or PROP chunk, then the type argument is ignored. If the size is specified then the chunk writing functions will enforce this size. If the size is given as IFFSIZE_UNKNOWN, the chunk will expand to accommodate whatever is written into it. INPUTS iff - pointer to IFFHandle structure. type - chunk type specifier (ex. ILBM) (ignored for read mode or leaf chunks). id - chunk id specifier (ex. CMAP) (ignored for read mode). size - size of the chunk to create or IFFSIZE_UNKNOWN (ignored for read mode). RESULT error - 0 if successful or an IFFERR_#? error code if not unsuccessful. SEE ALSO PopChunk(), WriteChunkRecords(), WriteChunkBytes(), iffparse.library/ReadChunkBytes iffparse.library/ReadChunkBytes NAME ReadChunkBytes -- read bytes from the current chunk into a buffer. (V36) SYNOPSIS actual = ReadChunkBytes(iff, buf, numBytes); D0 A0 A1 D0 LONG ReadChunkBytes(struct IFFHandle *, APTR buf, LONG); FUNCTION Reads the IFFHandle stream into the buffer for the specified number of bytes. Reads are limited to the size of the current chunk and attempts to read past the end of the chunk will truncate. This function returns positive number of bytes read or a negative error code. INPUTS iff - pointer to IFFHandle structure. buf - pointer to buffer area to receive data. numBytes - number of bytes to read. RESULT actual - (positive) number of bytes read if successful or a (negative) IFFERR_#? error code if unsuccessful. SEE ALSO ReadChunkRecords(), ParseIFF(), WriteChunkBytes(), iffparse.library/ReadChunkRecords iffparse.library/ReadChunkRecords NAME ReadChunkRecords -- read record elements from the current chunk into a buffer. (V36) SYNOPSIS actual = ReadChunkRecords(iff, buf, bytesPerRecord, numRecords); D0 A0 A1 D0 D1 LONG ReadChunkRecords(struct IFFHandle *, APTR, LONG, LONG); FUNCTION Reads records from the current chunk into buffer. Truncates attempts to read past end of chunk (only whole records are read; remaining bytes that are not of a whole record size are left unread and available for ReadChunkBytes()). INPUTS iff - pointer to IFFHandle structure. buf - pointer to buffer area to receive data. bytesPerRecord - size of data records to read. numRecords - number of data records to read. RESULT actual - (positive) number of whole records read if successful or a (negative) IFFERR_#? error code if unsuccessful. SEE ALSO ReadChunkBytes(), ParseIFF(), WriteChunkRecords(), iffparse.library/SetLocalItemPurge iffparse.library/SetLocalItemPurge NAME SetLocalItemPurge -- set purge vector for a local context item. (V36) SYNOPSIS SetLocalItemPurge(localItem, purgeHook); A0 A1 VOID SetLocalItemPurge(struct LocalContextItem *, struct Hook *); FUNCTION Sets a local context item to use a client-supplied cleanup (purge) vector for disposal when its context is popped. The purge vector will be called when the ContextNode containing this local item is popped off the context stack and is about to be deleted itself. If the purge vector has not been set, the parser will use FreeLocalItem() to delete the item, but if this function is used to set the purge vector, the supplied vector will be called with the following arguments: A0: pointer to purgeHook. A2: pointer to LocalContextItem to be freed. A1: pointer to a LONG containing the value IFFCMD_PURGELCI. The user purge vector is then responsible for calling FreeLocalItem() as part of its own cleanup. Although the purge vector can return a value, it will be ignored -- purge vectors must always work (best to return 0, though). INPUTS localItem - pointer to a local context item. purgeHook - pointer to a Hook structure. SEE ALSO AllocLocalItem(), FreeLocalItem(), iffparse.library/StopChunk iffparse.library/StopChunk NAME StopChunk -- declare a chunk which should cause ParseIFF to return. (V36) SYNOPSIS error = StopChunk(iff, type, id); D0 A0 D0 D1 LONG StopChunk(struct IFFHandle *, LONG, LONG); type; FUNCTION Installs an entry handler for the specified chunk which will cause the ParseIFF() function to return control to the caller when this chunk is encountered. This is only of value when ParseIFF() is called with the IFFPARSE_SCAN control code. INPUTS iff - pointer to IFFHandle structure (need not be open). type - type code for chunk to declare (ex. "ILBM"). id - identifier for chunk to declare (ex. "BODY"). RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO StopChunks(), ParseIFF(), iffparse.library/StopChunks iffparse.library/StopChunks NAME StopChunks -- declare many stop chunks at once. (V36) SYNOPSIS error = StopChunks(iff, propArray, numPairs); D0 A0 A1 D0 LONG StopChunks(struct IFFHandle *, LONG *, LONG); FUNCTION (is to StopChunk() as PropChunks() is to PropChunk().) INPUTS iff - pointer to IFFHandle structure. propArray - pointer to array of longword chunk types and identifiers. numPairs - number of pairs in the array. RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO StopChunk(), iffparse.library/StopOnExit iffparse.library/StopOnExit NAME StopOnExit -- declare a stop condition for exiting a chunk. (V36) SYNOPSIS error = StopOnExit(iff, type, id); D0 A0 D0 D1 LONG StopOnExit(struct IFFHandle *, LONG, LONG); FUNCTION Installs an exit handler for the specified chunk which will cause the ParseIFF() function to return control to the caller when this chunk is exhausted. ParseIFF() will return IFFERR_EOC when the declared chunk is about to be popped. This is only of value when ParseIFF() is called with the IFFPARSE_SCAN control code. INPUTS iff - pointer to IFFHandle structure (need not be open). type - type code for chunk to declare (ex. "ILBM"). id - identifier for chunk to declare (ex. "BODY"). RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO ParseIFF(), iffparse.library/StoreItemInContext iffparse.library/StoreItemInContext NAME StoreItemInContext -- store local context item in given context node. (V36) SYNOPSIS StoreItemInContext(iff, localItem, contextNode); A0 A1 A2 VOID StoreItemInContext(struct IFFHandle *, struct LocalContextItem *, struct ContextNode *); FUNCTION Adds the LocalContextItem to the list of items for the given context node. If an LCI with the same Type, ID, and Ident is already present in the ContextNode, it will be purged and replaced with the new one. This is a raw form of StoreLocalItem(). INPUTS iff - pointer to IFFHandle structure for this context. localItem - pointer to a LocalContextItem to be stored. contextNode - pointer to context node in which to store item. SEE ALSO StoreLocalItem(), iffparse.library/StoreLocalItem iffparse.library/StoreLocalItem NAME StoreLocalItem -- insert a local context item into the context stack. (V36) SYNOPSIS error = StoreLocalItem(iff, localItem, position); D0 A0 A1 D0 LONG StoreLocalItem(struct IFFHandle *, struct LocalContextItem *, LONG); FUNCTION Adds the local context item to the list of items for one of the context nodes on the context stack and purges any other item in the same context with the same ident, type and id. The position argument determines where in the stack to add the item: IFFSLI_ROOT: Add item to list at root (default) stack position. IFFSLI_TOP: Add item to the top (current) context node. IFFSLI_PROP: Add element in top property context. Top property context is either the top FORM chunk, or the top LIST chunk, whichever is closer to the top of the stack. Items added to the root context, or added to the top context before the IFFHandle has been opened or after it has been closed, are put in the default context. That is, they will be the local items found only after all other context nodes have been searched. Items in the default context are also immune to being purged until the IFFHandle structure itself is deleted with FreeIFF(). This means that handlers installed in the root context will still be there after an IFFHandle structure has been opened and closed. (Note that this implies that items stored in a higher context will be deleted when that context ends.) INPUTS iff - pointer to IFFHandle structure. localItem - pointer to LocalContextItem struct to insert. position - where to store the item (IFFSLI_ROOT, _TOP or _PROP). RESULT error - 0 if successful or an IFFERR_#? error code if unsuccessful. SEE ALSO FindLocalItem(), StoreItemInContext(), EntryHandler(), ExitHandler(), iffparse.library/WriteChunkBytes iffparse.library/WriteChunkBytes NAME WriteChunkBytes -- write data from a buffer into the current chunk. (V36) SYNOPSIS error = WriteChunkBytes(iff, buf, numBytes); D0 A0 A1 D0 LONG WriteChunkBytes(struct IFFHandle *, APTR, LONG); FUNCTION Writes "numBytes" bytes from the specified buffer into the current chunk. If the current chunk was pushed with IFFSIZE_UNKNOWN, the size of the chunk gets increased by the size of the buffer written. If the size was specified for this chunk, attempts to write past the end of the chunk will be truncated. INPUTS iff - pointer to IFFHandle structure. buf - pointer to buffer area with bytes to be written. numBytes - number of bytes to write. RESULT error - (positive) number of bytes written if successful or a (negative) IFFERR_#? error code if unsuccessful. SEE ALSO PushChunk(), PopChunk(), WriteChunkRecords(), iffparse.library/WriteChunkRecords iffparse.library/WriteChunkRecords NAME WriteChunkRecords -- write records from a buffer to the current chunk. (V36) SYNOPSIS error = WriteChunkRecords(iff, buf, recsize, numrec); D0 A0 A1 D0 D1 LONG WriteChunkRecords(struct IFFHandle *, APTR, LONG, LONG); FUNCTION Writes record elements from the buffer into the top chunk. This function operates much like ReadChunkBytes(). INPUTS iff - pointer to IFFHandle structure. buf - pointer to buffer area containing data. recsize - size of data records to write. numrec - number of data records to write. RESULT error - (positive) number of whole records written if successful or a (negative) IFFERR_#? error code if unsuccessful. SEE ALSO WriteChunkBytes(), .