#ifndef cmPrefs_h #define cmPrefs_h #ifdef __cplusplus extern "C" { #endif typedef unsigned cmPrRC_t; typedef cmHandle_t cmPrH_t; enum { kOkPrRC = cmOkRC, kJsonFailPrRC, kLHeapFailPrRC, kCbNotFoundPrRC, kVarNotFoundPrRC, kBufTooSmallPrRC, kCvtErrPrRC, kInvalidIdPrRC, kInvalidIndexPrRC, kWriteFileFailPrRC, kNodeCreateFailPrRC, kDuplicateIdPrRC, kFileSysFailPrRC }; enum { kMaxVarPrId = 0x7fffffff // User assigned variable id's given to cmPrefsCreateXXX() // must be less than kMaxVarPrId }; typedef void (*cmPrefsOnChangeFunc_t)( cmPrH_t h, void* cbDataPtr, unsigned id ); extern cmPrH_t cmPrNullHandle; // cmPrefsInit() creates the preference directory if it does not exist // according to cmFsPrefsDir(). It then forms the prefs file name as // 'cmFsPrefsDir()/fnName.fnExt' and call cmPrefsInitialize(). // Set 'fnName' to NULL to use cmFsAppName() as the pref file name. // Set 'fnExt' to NULL to use '.js' as the pref file extension. // 'cbFunc' and 'cbDataPtr' are optional in both versions. cmPrRC_t cmPrefsInit( cmCtx_t* ctx, cmPrH_t* hp, const cmChar_t* fnName, const cmChar_t* fnExt, cmPrefsOnChangeFunc_t cbFunc, void* cbDataPtr ); cmPrRC_t cmPrefsInitialize( cmCtx_t* ctx, cmPrH_t* hp, const cmChar_t* fn, cmPrefsOnChangeFunc_t cbFunc, void* cbDataPtr); cmPrRC_t cmPrefsFinalize( cmPrH_t* hp ); bool cmPrefsIsValid( cmPrH_t h ); const cmChar_t* cmPrefsFileName( cmPrH_t h ); // Return last RC. cmPrRC_t cmPrefsRC( cmPrH_t h); // Return last RC and set new RC. cmPrRC_t cmPrefsSetRC( cmPrH_t h, cmPrRC_t rc ); cmPrRC_t cmPrefsInstallCallback( cmPrH_t h, cmPrefsOnChangeFunc_t cbFunc, void* cbDataPtr ); cmPrRC_t cmPrefsRemoveCallback( cmPrH_t h, cmPrefsOnChangeFunc_t cbFunc ); // Return cmInvalidId if the no variable is found with the requested path. unsigned cmPrefsId( cmPrH_t h, const cmChar_t* pathStr, bool reportNotFoundFl ); // Returns -1 (and generates an error msg) if no pref. variable // is associated with id. Returns 1 if the variable is a scalar. unsigned cmPrefsEleCount( cmPrH_t h, unsigned id ); // On input *'eleCntPtr' must contain the number of elements in the buffer pointed to by 'vp'. // On return *'eleCntPtr' contains the actuall number of elements returned by the function. // Set *eleCntPtr to 1 for scalar a values. cmPrRC_t cmPrefsGetBool( cmPrH_t h, unsigned id, bool* vp, unsigned* eleCntPtr ); cmPrRC_t cmPrefsGetInt( cmPrH_t h, unsigned id, int* vp, unsigned* eleCntPtr ); cmPrRC_t cmPrefsGetReal( cmPrH_t h, unsigned id, double* vp, unsigned* eleCntPtr ); cmPrRC_t cmPrefsGetString( cmPrH_t h, unsigned id, const cmChar_t** vp, unsigned* eleCntPtr ); // Simplified scalar interface - check cmPrefsRC() for errors. bool cmPrefsBool( cmPrH_t h, unsigned id ); unsigned cmPrefsUInt( cmPrH_t h, unsigned id ); int cmPrefsInt( cmPrH_t h, unsigned id ); float cmPrefsFloat( cmPrH_t h, unsigned id ); double cmPrefsReal( cmPrH_t h, unsigned id ); const cmChar_t* cmPrefsString( cmPrH_t h, unsigned id ); // Simplified scalar interface w/ default values - check cmPrefsRC() for errors. // Returns the stored preference variable unless 'pathStr' does not identify a variable // or if 'h' is not valid. In either of these cases 'dfltVal' is returned. bool cmPrefsBoolDef( cmPrH_t h, const cmChar_t* pathStr, bool dfltVal ); unsigned cmPrefsUIntDef( cmPrH_t h, const cmChar_t* pathStr, unsigned dfltVal ); int cmPrefsIntDef( cmPrH_t h, const cmChar_t* pathStr, int dfltVal ); float cmPrefsFloatDef( cmPrH_t h, const cmChar_t* pathStr, float dfltVal ); double cmPrefsRealDef( cmPrH_t h, const cmChar_t* pathStr, double dfltVal ); const cmChar_t* cmPrefsStringDef( cmPrH_t h, const cmChar_t* pathStr, const cmChar_t* dfltVal ); // Get a scalar value. cmPrRC_t cmPrefsBoolRc( cmPrH_t h, const cmChar_t* pathStr, bool* retValPtr ); cmPrRC_t cmPrefsUIntRc( cmPrH_t h, const cmChar_t* pathStr, unsigned* retValPtr ); cmPrRC_t cmPrefsIntRc( cmPrH_t h, const cmChar_t* pathStr, int* retValPtr ); cmPrRC_t cmPrefsFloatRc( cmPrH_t h, const cmChar_t* pathStr, float* retValPtr ); cmPrRC_t cmPrefsRealRc( cmPrH_t h, const cmChar_t* pathStr, double* retValPtr ); cmPrRC_t cmPrefsStringRc( cmPrH_t h, const cmChar_t* pathStr, const cmChar_t** retValPtr ); // Simplified array interface - check cmPrefsRC() for errors // Returns cmInvalidCnt if 'id' is invalid or 0 if the identified var. is a scalar. unsigned cmPrefsArrayElementCount( cmPrH_t h, unsigned id ); bool cmPrefsBoolEle( cmPrH_t h, unsigned id, unsigned idx ); unsigned cmPrefsUIntEle( cmPrH_t h, unsigned id, unsigned idx ); int cmPrefsIntEle( cmPrH_t h, unsigned id, unsigned idx ); float cmPrefsFloatEle( cmPrH_t h, unsigned id, unsigned idx ); double cmPrefsRealEle( cmPrH_t h, unsigned id, unsigned idx ); const cmChar_t* cmPrefsStringEle( cmPrH_t h, unsigned id, unsigned idx ); // Set a preference value. // The size of array variables is allowed to shrink or grow but the type (bool/int/real/string) // must match. // // Note that the following limitations apply: // 1) This interface allows setting the value of an existing preference variable. // New variables may not be added. // 2) The type (bool/int/real/string) of the variable must match the value. // (e.g. 'int' type variables can only be set via cmPrefsSetInt()). // 3) For scalar (non-array) variables *eleCntPtr must be set to 1. // cmPrRC_t cmPrefsSetBoolArray( cmPrH_t h, unsigned id, const bool* vp, const unsigned* eleCntPtr ); cmPrRC_t cmPrefsSetIntArray( cmPrH_t h, unsigned id, const int* vp, const unsigned* eleCntPtr ); cmPrRC_t cmPrefsSetRealArray( cmPrH_t h, unsigned id, const double* vp, const unsigned* eleCntPtr ); cmPrRC_t cmPrefsSetStringArray( cmPrH_t h, unsigned id, const cmChar_t** vp, const unsigned* eleCntPtr ); cmPrRC_t cmPrefsSetBool( cmPrH_t h, unsigned id, bool val ); cmPrRC_t cmPrefsSetUInt( cmPrH_t h, unsigned id, unsigned val ); cmPrRC_t cmPrefsSetInt( cmPrH_t h, unsigned id, int val ); cmPrRC_t cmPrefsSetFloat( cmPrH_t h, unsigned id, float val ); cmPrRC_t cmPrefsSetReal( cmPrH_t h, unsigned id, double val ); cmPrRC_t cmPrefsSetString( cmPrH_t h, unsigned id, const cmChar_t* val ); cmPrRC_t cmPrefsPathSetBool( cmPrH_t h, const cmChar_t* pathStr, bool val ); cmPrRC_t cmPrefsPathSetUInt( cmPrH_t h, const cmChar_t* pathStr, unsigned val ); cmPrRC_t cmPrefsPathSetInt( cmPrH_t h, const cmChar_t* pathStr, int val ); cmPrRC_t cmPrefsPathSetFloat( cmPrH_t h, const cmChar_t* pathStr, float val ); cmPrRC_t cmPrefsPathSetReal( cmPrH_t h, const cmChar_t* pathStr, double val ); cmPrRC_t cmPrefsPathSetString( cmPrH_t h, const cmChar_t* pathStr, const cmChar_t* val ); // Create a new preference variable and set it's value to 'val'. // If a variable with the same path and type already exists and kForceValuePrFl // is set then update it's value to 'val'. Note that in this case if // kForceValuePrFl is not set then the function returns quietly. // // If a variable with the same path but a different type exists then an error is returned. // // The 'id' argument is optional. If 'id' is set to cmInvalidId then the // variable will be automatically assigned an id. The value of the // automatically assigned id can be found from the path string // via cmPrefsId(). If 'id' is not set to cmInvalidId then it must be less than // kMaxVarId. // Set kForceValuePrFl enum { kForceValuePrFl=0x01 }; cmPrRC_t cmPrefsCreateBool( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, bool val ); cmPrRC_t cmPrefsCreateUInt( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, unsigned val ); cmPrRC_t cmPrefsCreateInt( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, int val ); cmPrRC_t cmPrefsCreateFloat( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, float val ); cmPrRC_t cmPrefsCreateReal( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, double val ); cmPrRC_t cmPrefsCreateString( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const cmChar_t* val ); cmPrRC_t cmPrefsCreateBoolArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const bool* val, unsigned eleCnt ); cmPrRC_t cmPrefsCreateUIntArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const unsigned* val, unsigned eleCnt ); cmPrRC_t cmPrefsCreateIntArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const int* val, unsigned eleCnt ); cmPrRC_t cmPrefsCreateFloatArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const float* val, unsigned eleCnt ); cmPrRC_t cmPrefsCreateRealArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const double* val, unsigned eleCnt ); cmPrRC_t cmPrefsCreateStringArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const cmChar_t** val, unsigned eleCnt ); bool cmPrefsIsDirty( cmPrH_t h ); // If 'fn' is NULL then the filename passed in cmPrefsInitialize() is used. cmPrRC_t cmPrefsWrite( cmPrH_t h, const cmChar_t* fn ); void cmPrefsReport( cmPrH_t h ); void cmPrefsTest( cmCtx_t* ctx, const char* ifn, const char* ofn ); #ifdef __cplusplus } #endif #endif