gecko-dev/lib/libpics/cslutils.h

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C

/* W3 Copyright statement
Copyright 1995 by: Massachusetts Institute of Technology (MIT), INRIA</H2>
This W3C software is being provided by the copyright holders under the
following license. By obtaining, using and/or copying this software,
you agree that you have read, understood, and will comply with the
following terms and conditions:
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee or royalty is hereby
granted, provided that the full text of this NOTICE appears on
<EM>ALL</EM> copies of the software and documentation or portions
thereof, including modifications, that you make.
<B>THIS SOFTWARE IS PROVIDED "AS IS," AND COPYRIGHT HOLDERS MAKE NO
REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED. BY WAY OF EXAMPLE,
BUT NOT LIMITATION, COPYRIGHT HOLDERS MAKE NO REPRESENTATIONS OR
WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE OR
THAT THE USE OF THE SOFTWARE OR DOCUMENTATION WILL NOT INFRINGE ANY
THIRD PARTY PATENTS, COPYRIGHTS, TRADEMARKS OR OTHER RIGHTS.
COPYRIGHT HOLDERS WILL BEAR NO LIABILITY FOR ANY USE OF THIS SOFTWARE
OR DOCUMENTATION.
The name and trademarks of copyright holders may NOT be used
in advertising or publicity pertaining to the software without
specific, written prior permission. Title to copyright in this
software and any associated documentation will at all times remain
with copyright holders.
*/
/* PICS library utilities
PICS LIBRARY UTILITIES
*/
/*
** (c) COPYRIGHT MIT 1996.
** Please first read the full copyright statement in the file COPYRIGH.
*/
/*
This module defines the PICS library interface.
*/
#ifndef CSLUTILS_H
#define CSLUTILS_H
/*
*/
#include "htutils.h"
#include "htlist.h"
/*
PRIMITAVE DATA STRUCTURES
BVal_t, FVal_t, SVal_t, DVal_t - hold a boolean, float (not double), string, or date
value (respectively). These data structures are designed so that they may be
initialized to all 0s (and hence included directly within larger structures, rather
than allocated and initialized individually). You must, however, call their clear
method to deallocate any additional memory used to store the actual value once they
have been initialized. The following methods are defined on all four data types ("X"
should be either "B" "F" "S" or "D", XType is "BOOL" "float" "char *" or "char *",
respectively):
BOOL XVal_readVal(XVal_t, char *), etc. - convert the string to a value of the
specified type. Returns TRUE on success, FALSE on failure. If successful, may
allocate additional storage.
BOOL XVal_initialized(XVal_t) - Returns TRUE if the value has been initialized
(hence contains a legitimate value and may have additional storage allocated
internally), FALSE otherwise.
XType XVal_value(XVal_t) -- Returns the value stored in the object.
void XVal_clear(XVal_t) -- Mark the object as uninitialized and release any memory
associated with the value currently stored in the object.
BVAL
- Boolean value.
definition
*/
typedef struct {
enum {BVal_UNINITIALIZED = 0,BVal_YES = 1, BVal_INITIALIZED = 2} state;
} BVal_t;
extern BOOL BVal_readVal(BVal_t * pBVal, const char * valueStr);
extern BOOL BVal_initialized(const BVal_t * pBVal);
extern BOOL BVal_value(const BVal_t * pBVal);
extern void BVal_clear(BVal_t * pBVal);
/*
additional methods
void set - assign value
*/
extern void BVal_set(BVal_t * pBVal, BOOL value);
/*
FVAL
- Float value with negative and positive infinity values
definition
*/
typedef struct {
float value;
enum {FVal_UNINITIALIZED = 0, FVal_VALUE = 1, FVal_NEGATIVE_INF = 2,
FVal_POSITIVE_INF = 3} stat;
} FVal_t;
extern BOOL FVal_readVal(FVal_t * pFVal, const char * valueStr);
extern BOOL FVal_initialized(const FVal_t * pFVal);
extern float FVal_value(const FVal_t * pFVal);
extern void FVal_clear(FVal_t * pFVal);
/*
additional methods
void set - assign a float value
void setInfinite - set to negative or positive infinity
BOOL isZero - see if value is zero
int isInfinite - -1 or 1 for negative or positive infinity
BOOL nearerZero - see if check is nearer zero than check
FVal_t FVal_minus - subtract small from big
char * FVal_toStr - convert to allocated CString, caller must free
*/
extern void FVal_set(FVal_t * pFVal, float value);
extern void FVal_setInfinite(FVal_t * pFVal, BOOL negative);
extern BOOL FVal_isZero(const FVal_t * pFVal);
extern int FVal_isInfinite(const FVal_t * pFVal);
extern BOOL FVal_nearerZero(const FVal_t * pRef, const FVal_t * pCheck);
extern FVal_t FVal_minus(const FVal_t * pBig, const FVal_t * pSmall);
extern char * FVal_toStr(FVal_t * pFVal);
/*
initializers
FVal intializers may be used when creating an FVal
eg. FVal_t localFVal = FVal_NEGATIVE_INF;
*/
#define FVal_NEW_UNINITIALIZED {(float) 0.0, FVal_UNINITIALIZED}
#define FVal_NEW_NEGATIVE_INF {(float) 0.0, FVal_NEGATIVE_INF}
#define FVal_NEW_POSITIVE_INF {(float) 0.0, FVal_POSITIVE_INF}
#define FVal_NEW_ZERO {(float) 0.0, FVal_VALUE}
/*
SVAL
- String value.
definition
*/
typedef struct {
char * value;
BOOL initialized;
} SVal_t;
extern BOOL SVal_readVal(SVal_t * pSVal, const char * valueStr);
extern BOOL SVal_initialized(const SVal_t * pSVal);
extern char * SVal_value(const SVal_t * pSVal);
extern void SVal_clear(SVal_t * pSVal);
/*
DVAL
- Date value.
definition
*/
typedef struct {
char * value; /* keep the string around for debugging and output */
BOOL initialized;
int year;
int month;
int day;
int hour;
int minute;
int timeZoneHours;
int timeZoneMinutes;
} DVal_t;
extern BOOL DVal_readVal(DVal_t * pDVal, const char * valueStr);
extern BOOL DVal_initialized(const DVal_t * pDVal);
extern char * DVal_value(const DVal_t * pDVal);
extern void DVal_clear(DVal_t * pDVal);
/*
additional methods
int compare - -1 or 1 for a before or after b, 0 for equivilence
*/
extern int DVal_compare(const DVal_t * a, const DVal_t * b);
/*
RANGE
- Range of FVals.
definition
*/
typedef struct {
FVal_t min;
FVal_t max;
} Range_t;
/*
methods
rangeToStr - print range to malloced string. This string must be freed by caller
gap - find the difference between a and b
*/
extern char * Range_toStr(Range_t * pRange);
extern FVal_t Range_gap(Range_t * a, Range_t * b);
/*
initializers
*/
#define Range_NEW_UNINITIALIZED {FVal_NEW_UNINITIALIZED, \
FVal_NEW_UNINITIALIZED}
/*
PARSER
CSPARSE_PARSECHUNK
CSParse_t - ephemeral parser data, the CSParse structure is defined in CSParse.html.
CSDoMore_t - tells caller whether parseChunk expects more or encountered an error
*/
typedef struct CSParse_s CSParse_t;
typedef enum {CSDoMore_more, CSDoMore_done, CSDoMore_error} CSDoMore_t;
extern CSDoMore_t CSParse_parseChunk (CSParse_t * pCSParse, const char * ptr,
int len, void * pVoid);
/*
PARSE CALLBACKS
During parsing, the parser makes callbacks to tell the caller that an error has been
encountered or that the parser is reading into a new data structure.
CSPARSETC
The TC, or TargetChange, type is a way of itemizing the different targets in a parsable
object. It is used in the TargetChangeCallback
*/
typedef unsigned int CSParseTC_t;
/*
STATERET
*/
typedef enum {StateRet_OK = 0, StateRet_DONE = 1, StateRet_WARN = 0x10,
StateRet_WARN_NO_MATCH = 0x11, StateRet_WARN_BAD_PUNCT = 0x12,
StateRet_ERROR = 0x100, StateRet_ERROR_BAD_CHAR = 0x101
} StateRet_t;
/*
TARGETCHANGECALLBACK
These callbacks keep the caller abreast of what type of object the parser is currently
reading. TargetChangeCallbacks are made whenever the parser starts or finishes reading
one of these objects. The actual values of targetChange, and what objects they
correlate to, can be found in the modules for the object being parsed.
CSLL.html for PICS labels.
CSMR.html for machine-readable service descriptions.
CSUser.html for PICS user profiles.
Example: When reading a CSLabel, the callback will be called with pTargetObject =
CSLLTC_SERVICE when reading a service, CSLLTC_LABEL when reading a label, etc.
*/
typedef struct TargetObject_s TargetObject_t;
typedef StateRet_t TargetChangeCallback_t(CSParse_t * pCSParse,
TargetObject_t * pTargetObject,
CSParseTC_t targetChange, BOOL closed,
void * pVoid);
/*
PARSEERRORHANDLER
*/
typedef StateRet_t ParseErrorHandler_t(CSParse_t * pCSParse,
const char * token,
char demark, StateRet_t errorCode);
/*
CSLIST_ACCEPTLABELS
get a malloced HTTP Protocol-Request string requesting PICS labels for all services in
pServiceList
*/
typedef enum {CSCompleteness_minimal, CSCompleteness_short,
CSCompleteness_full, CSCompleteness_signed} CSCompleteness_t;
extern char * CSList_acceptLabels(HTList * pServiceList,
CSCompleteness_t completeness);
/*
CSLIST_GETLABELS
get a malloced HTTP GET string requesting PICS labels for all services in pServiceList
*/
typedef enum {CSOption_generic, CSOption_normal, CSOption_tree,
CSOption_genericTree} CSOption_t;
extern char * CSList_getLabels(HTList * pServiceList, CSOption_t option,
CSCompleteness_t completeness);
/*
CSLIST_POSTLABELS
get a malloced HTTP GET string requesting PICS labels for all services in pServiceList
*/
extern char * CSList_postLabels(HTList * pServiceList, char * url,
CSOption_t option,
CSCompleteness_t completeness);
/*
INDIVIDUAL PARSERS
CSLABEL
PICS label list
*/
typedef struct CSLabel_s CSLabel_t;
/*
CSUSER
PICS user profile
*/
typedef struct CSUser_s CSUser_t;
/*
CSMACHREAD
PICS machine readable system description
*/
typedef struct CSMachRead_s CSMachRead_t;
/*
for reading label error codes
*/
typedef enum {
labelError_NA = 0,
labelError_NO_RATINGS,
labelError_UNAVAILABLE,
labelError_DENIED,
labelError_NOT_LABELED,
labelError_UNKNOWN
} LabelErrorCode_t;
/*
State_Parms - obsolete parameter exchange for iterators
*/
typedef struct State_Parms_s State_Parms_t;
typedef enum {
CSError_OK = 0,
CSError_YES = 0,
CSError_NO = 1,
CSError_BUREAU_NONE,
CSError_RATING_VALUE,
CSError_RATING_RANGE,
CSError_RATING_MISSING,
CSError_SINGLELABEL_MISSING,
CSError_LABEL_MISSING,
CSError_SERVICE_MISSING,
CSError_CATEGORY_MISSING,
CSError_ENUM_MISSING,
CSError_BAD_PARAM,
CSError_BAD_DATE,
CSError_SERVICE_NONE,
CSError_RATING_NONE,
CSError_APP
} CSError_t;
/*
*/
#endif /* CSLUTILS_H */
/*
End of Declaration */