/* HTFormat: The format manager in the WWW Library MANAGE DIFFERENT DOCUMENT FORMATS Here we describe the functions of the HTFormat module which handles conversion between different data representations. (In MIME parlance, a representation is known as a content-type. In WWW the term "format" is often used as it is shorter). This module is implemented by HTFormat.c . This hypertext document is used to generate the HTFormat.h inlude file. Part of the WWW library. Preamble */ #ifndef HTFORMAT_H #define HTFORMAT_H #include "HTUtils.h" #include "HTStream.h" #include "HTAtom.h" #include "HTList.h" #ifdef SHORT_NAMES #define HTOutputSource HTOuSour #define HTOutputBinary HTOuBina #endif /* The HTFormat type We use the HTAtom object for holding representations. This allows faster manipulation (comparison and copying) that if we stayed with strings. */ typedef HTAtom * HTFormat; /* These macros (which used to be constants) define some basic internally referenced representations. The www/xxx ones are of course not MIME standard. www/source is an output format which leaves the input untouched. It is useful for diagnostics, and for users who want to see the original, whatever it is. */ /* Internal ones */ #define WWW_SOURCE HTAtom_for("www/source") /* Whatever it was originally*/ /* www/present represents the user's perception of the document. If you convert to www/present, you present the material to the user. */ #define WWW_PRESENT HTAtom_for("www/present") /* The user's perception */ /* The message/rfc822 format means a MIME message or a plain text message with no MIME header. This is what is returned by an HTTP server. */ #define WWW_MIME HTAtom_for("www/mime") /* A MIME message */ /* www/print is like www/present except it represents a printed copy. */ #define WWW_PRINT HTAtom_for("www/print") /* A printed copy */ #define WWW_PLAINTEXT HTAtom_for("text/plain") #define WWW_POSTSCRIPT HTAtom_for("application/postscript") #define WWW_RICHTEXT HTAtom_for("application/x-rtf") #define WWW_HTML HTAtom_for("text/html") #define WWW_BINARY HTAtom_for("application/octet-stream") /* We must include the following file after defining HTFormat, to which it makes reference. The HTEncoding type typedef HTAtom* HTEncoding; The following are values for the MIME types: #define WWW_ENC_7BIT #define WWW_ENC_8BIT #define WWW_ENC_BINARY We also add */ #include "HTAnchor.h" /* The HTPresentation and HTConverter types This HTPresentation structure represents a possible conversion algorithm from one format to annother. It includes a pointer to a conversion routine. The conversion routine returns a stream to which data should be fed. See also HTStreamStack which scans the list of registered converters and calls one. See the initialisation module for a list of conversion routines. */ typedef struct _HTPresentation HTPresentation; typedef HTStream * HTConverter PARAMS(( HTPresentation * pres, HTParentAnchor * anchor, HTStream * sink, HTFormat format_in, int compressed)); struct _HTPresentation { HTAtom* rep; /* representation name atmoized */ HTAtom* rep_out; /* resulting representation */ HTConverter *converter; /* The routine to gen the stream stack */ char * command; /* MIME-format string */ float quality; /* Between 0 (bad) and 1 (good) */ float secs; float secs_per_byte; }; /* The list of presentations is kept by this module. It is also scanned by modules which want to know the set of formats supported. for example. */ extern HTList * HTPresentations; /* HTSetPresentation: Register a system command to present a format ON ENTRY, rep is the MIME - style format name command is the MAILCAP - style command template quality A degradation faction 0..1 maxbytes A limit on the length acceptable as input (0 infinite) maxsecs A limit on the time user will wait (0 for infinity) */ extern void HTSetPresentation PARAMS(( WWW_CONST char * representation, WWW_CONST char * command, float quality, float secs, float secs_per_byte )); /* HTSetConversion: Register a converstion routine ON ENTRY, rep_in is the content-type input rep_out is the resulting content-type converter is the routine to make the stream to do it */ extern void HTSetConversion PARAMS(( WWW_CONST char * rep_in, WWW_CONST char * rep_out, HTConverter * converter, float quality, float secs, float secs_per_byte )); /* HTStreamStack: Create a stack of streams This is the routine which actually sets up the conversion. It currently checks only for direct conversions, but multi-stage conversions are forseen. It takes a stream into which the output should be sent in the final format, builds the conversion stack, and returns a stream into which the data in the input format should be fed. The anchor is passed because hypertxet objects load information into the anchor object which represents them. */ extern HTStream * HTStreamStack PARAMS(( HTFormat format_in, HTFormat format_out, int compressed, HTStream* stream_out, HTParentAnchor* anchor)); /* HTStackValue: Find the cost of a filter stack Must return the cost of the same stack which HTStreamStack would set up. ON ENTRY, format_in The fomat of the data to be converted format_out The format required initial_value The intrinsic "value" of the data before conversion on a scale from 0 to 1 length The number of bytes expected in the input format */ extern float HTStackValue PARAMS(( HTFormat format_in, HTFormat rep_out, float initial_value, long int length)); #define NO_VALUE_FOUND -1e20 /* returned if none found */ /* HTCopy: Copy a socket to a stream This is used by the protocol engines to send data down a stream, typically one which has been generated by HTStreamStack. */ extern int HTCopy PARAMS(( int file_number, HTStream* sink, int bytes_already_read)); /* HTFileCopy: Copy a file to a stream This is used by the protocol engines to send data down a stream, typically one which has been generated by HTStreamStack. It is currently called by HTParseFile */ extern void HTFileCopy PARAMS(( FILE* fp, HTStream* sink)); #if 0 extern void HTFileCopyToText PARAMS(( FILE* fp, HText* text)); #endif /* Clear input buffer and set file number This routine and the one below provide simple character input from sockets. (They are left over from the older architecure and may not be used very much.) The existence of a common routine and buffer saves memory space in small implementations. */ extern void HTInitInput PARAMS((int file_number)); /* Get next character from buffer */ extern char HTGetCharacter NOPARAMS; /* HTParseSocket: Parse a socket given its format This routine is called by protocol modules to load an object. uses HTStreamStack and the copy routines above. Returns HT_LOADED if succesful, <0 if not. */ extern int HTParseSocket PARAMS(( HTFormat format_in, HTFormat format_out, HTParentAnchor *anchor, int file_number, HTStream* sink, int compressed)); /* HTParseFile: Parse a File through a file pointer This routine is called by protocols modules to load an object. uses HTStreamStack and HTFileCopy . Returns HT_LOADED if succesful, <0 if not. */ extern int HTParseFile PARAMS(( HTFormat format_in, HTFormat format_out, HTParentAnchor *anchor, FILE *fp, HTStream* sink, int compressed)); /* HTFormatInit: Set up default presentations and conversions These are defined in HTInit.c or HTSInit.c if these have been replaced. If you don't call this routine, and you don't define any presentations, then this routine will automatically be called the first time a conversion is needed. However, if you explicitly add some conversions (eg using HTLoadRules) then you may want also to explicitly call this to get the defaults as well. */ extern void HTFormatInit NOPARAMS; /* Epilogue */ extern BOOL HTOutputSource; /* Flag: shortcut parser */ #endif /* end */