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author | William Joye <wjoye@cfa.harvard.edu> | 2019-05-10 15:55:01 (GMT) |
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committer | William Joye <wjoye@cfa.harvard.edu> | 2019-05-10 15:55:01 (GMT) |
commit | 9646e8d50bc1481de77459d59738826f9c256ad6 (patch) | |
tree | e47684c08ae346d96e3c6ea8780f3886fe74e6f6 /ast/ratemap.c | |
parent | 37e757832a7f2c690cea41df5bf9cfa9ee18f67f (diff) | |
download | blt-9646e8d50bc1481de77459d59738826f9c256ad6.zip blt-9646e8d50bc1481de77459d59738826f9c256ad6.tar.gz blt-9646e8d50bc1481de77459d59738826f9c256ad6.tar.bz2 |
upgrade ast 8.7.1
Diffstat (limited to 'ast/ratemap.c')
-rw-r--r-- | ast/ratemap.c | 2011 |
1 files changed, 0 insertions, 2011 deletions
diff --git a/ast/ratemap.c b/ast/ratemap.c deleted file mode 100644 index 1e343a6..0000000 --- a/ast/ratemap.c +++ /dev/null @@ -1,2011 +0,0 @@ -/* -*class++ -* Name: -* RateMap - -* Purpose: -* Mapping which represents differentiation. - -* Constructor Function: -c astRateMap -f AST_RATEMAP - -* Description: -* A RateMap is a Mapping which represents a single element of the -* Jacobian matrix of another Mapping. The Mapping for which the -* Jacobian is required is specified when the new RateMap is created, -* and is referred to as the "encapsulated Mapping" below. -* -* The number of inputs to a RateMap is the same as the number of inputs -* to its encapsulated Mapping. The number of outputs from a RateMap -* is always one. This one output equals the rate of change of a -* specified output of the encapsulated Mapping with respect to a -* specified input of the encapsulated Mapping (the input and output -* to use are specified when the RateMap is created). -* -* A RateMap which has not been inverted does not define an inverse -* transformation. If a RateMap has been inverted then it will define -* an inverse transformation but not a forward transformation. - -* Inheritance: -* The RateMap class inherits from the Mapping class. - -* Attributes: -* The RateMap class does not define any new attributes beyond those -* which are applicable to all Mappings. - -* Functions: -c The RateMap class does not define any new functions beyond those -f The RateMap class does not define any new routines beyond those -* which are applicable to all Mappings. - -* Copyright: -* Copyright (C) 1997-2006 Council for the Central Laboratory of the -* Research Councils - -* Licence: -* This program is free software: you can redistribute it and/or -* modify it under the terms of the GNU Lesser General Public -* License as published by the Free Software Foundation, either -* version 3 of the License, or (at your option) any later -* version. -* -* This program is distributed in the hope that it will be useful, -* but WITHOUT ANY WARRANTY; without even the implied warranty of -* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -* GNU Lesser General Public License for more details. -* -* You should have received a copy of the GNU Lesser General -* License along with this program. If not, see -* <http://www.gnu.org/licenses/>. - -* Authors: -* DSB: David S. Berry (Starlink) - -* History: -* 10-FEB-2004 (DSB): -* Original version. -* 14-FEB-2006 (DSB): -* Override astGetObjSize. -* 10-MAY-2006 (DSB): -* Override astEqual. -*class-- -*/ - -/* Module Macros. */ -/* ============== */ -/* Set the name of the class we are implementing. This indicates to - the header files that define class interfaces that they should make - "protected" symbols available. */ -#define astCLASS RateMap - -/* Include files. */ -/* ============== */ -/* Interface definitions. */ -/* ---------------------- */ - -#include "globals.h" /* Thread-safe global data access */ -#include "error.h" /* Error reporting facilities */ -#include "memory.h" /* Memory allocation facilities */ -#include "object.h" /* Base Object class */ -#include "pointset.h" /* Sets of points/coordinates */ -#include "mapping.h" /* Coordinate Mappings (parent class) */ -#include "channel.h" /* I/O channels */ -#include "ratemap.h" /* Interface definition for this class */ -#include "unitmap.h" /* Unit Mappings */ -#include "frame.h" /* Frames */ - -/* Error code definitions. */ -/* ----------------------- */ -#include "ast_err.h" /* AST error codes */ - -/* C header files. */ -/* --------------- */ -#include <stdarg.h> -#include <stddef.h> -#include <string.h> - -/* Module Variables. */ -/* ================= */ - -/* Address of this static variable is used as a unique identifier for - member of this class. */ -static int class_check; - -/* Pointers to parent class methods which are extended by this class. */ -static int (* parent_getobjsize)( AstObject *, int * ); -static AstPointSet *(* parent_transform)( AstMapping *, AstPointSet *, int, AstPointSet *, int * ); -static int *(* parent_mapsplit)( AstMapping *, int, const int *, AstMapping **, int * ); - -#if defined(THREAD_SAFE) -static int (* parent_managelock)( AstObject *, int, int, AstObject **, int * ); -#endif - - -#ifdef THREAD_SAFE -/* Define how to initialise thread-specific globals. */ -#define GLOBAL_inits \ - globals->Class_Init = 0; - -/* Create the function that initialises global data for this module. */ -astMAKE_INITGLOBALS(RateMap) - -/* Define macros for accessing each item of thread specific global data. */ -#define class_init astGLOBAL(RateMap,Class_Init) -#define class_vtab astGLOBAL(RateMap,Class_Vtab) - - -#include <pthread.h> - - -#else - - -/* Define the class virtual function table and its initialisation flag - as static variables. */ -static AstRateMapVtab class_vtab; /* Virtual function table */ -static int class_init = 0; /* Virtual function table initialised? */ - -#endif - -/* External Interface Function Prototypes. */ -/* ======================================= */ -/* The following functions have public prototypes only (i.e. no - protected prototypes), so we must provide local prototypes for use - within this module. */ -AstRateMap *astRateMapId_( void *, int, int, const char *, ... ); - -/* Prototypes for Private Member Functions. */ -/* ======================================== */ -static AstMapping *RemoveRegions( AstMapping *, int * ); -static AstPointSet *Transform( AstMapping *, AstPointSet *, int, AstPointSet *, int * ); -static int MapMerge( AstMapping *, int, int, int *, AstMapping ***, int **, int * ); -static void Copy( const AstObject *, AstObject *, int * ); -static void Delete( AstObject *, int * ); -static void Dump( AstObject *, AstChannel *, int * ); -static int *MapSplit( AstMapping *, int, const int *, AstMapping **, int * ); -static int Equal( AstObject *, AstObject *, int * ); -static int GetObjSize( AstObject *, int * ); - -#if defined(THREAD_SAFE) -static int ManageLock( AstObject *, int, int, AstObject **, int * ); -#endif - -/* Member functions. */ -/* ================= */ -static int Equal( AstObject *this_object, AstObject *that_object, int *status ) { -/* -* Name: -* Equal - -* Purpose: -* Test if two RateMaps are equivalent. - -* Type: -* Private function. - -* Synopsis: -* #include "ratemap.h" -* int Equal( AstObject *this, AstObject *that, int *status ) - -* Class Membership: -* RateMap member function (over-rides the astEqual protected -* method inherited from the astMapping class). - -* Description: -* This function returns a boolean result (0 or 1) to indicate whether -* two RateMaps are equivalent. - -* Parameters: -* this -* Pointer to the first Object (a RateMap). -* that -* Pointer to the second Object. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* One if the RateMaps are equivalent, zero otherwise. - -* Notes: -* - A value of zero will be returned if this function is invoked -* with the global status set, or if it should fail for any reason. -*/ - -/* Local Variables: */ - AstRateMap *that; - AstRateMap *this; - int nin; - int nout; - int result; - int that_inv; - int this_inv; - -/* Initialise. */ - result = 0; - -/* Check the global error status. */ - if ( !astOK ) return result; - -/* Obtain pointers to the two RateMap structures. */ - this = (AstRateMap *) this_object; - that = (AstRateMap *) that_object; - -/* Check the second object is a RateMap. We know the first is a - RateMap since we have arrived at this implementation of the virtual - function. */ - if( astIsARateMap( that ) ) { - -/* Get the number of inputs and outputs and check they are the same for both. */ - nin = astGetNin( this ); - nout = astGetNout( this ); - if( astGetNin( that ) == nin && astGetNout( that ) == nout ) { - -/* If the Invert flags for the two RateMaps differ, it may still be possible - for them to be equivalent. First compare the RateMaps if their Invert - flags are the same. In this case all the attributes of the two RateMaps - must be identical. */ - if( astGetInvert( this ) == astGetInvert( that ) ) { - -/* Temporarily re-instate the original Invert flag values. */ - this_inv = astGetInvert( this->map ); - that_inv = astGetInvert( that->map ); - astSetInvert( this->map, this->invert ); - astSetInvert( that->map, that->invert ); - - if( astEqual( this->map, that->map ) && - this->iin == that->iin && - this->iout == that->iout ){ - result = 1; - } - -/* Restore the original Invert flag values. */ - astSetInvert( this->map, this_inv ); - astSetInvert( that->map, that_inv ); - -/* If the Invert flags for the two RateMaps differ, the attributes of the two - RateMaps must be inversely related to each other. */ - } else { - -/* In the specific case of a RateMap, Invert flags must be equal. */ - result = 0; - - } - } - } - -/* If an error occurred, clear the result value. */ - if ( !astOK ) result = 0; - -/* Return the result, */ - return result; -} - -static int GetObjSize( AstObject *this_object, int *status ) { -/* -* Name: -* GetObjSize - -* Purpose: -* Return the in-memory size of an Object. - -* Type: -* Private function. - -* Synopsis: -* #include "ratemap.h" -* int GetObjSize( AstObject *this, int *status ) - -* Class Membership: -* RateMap member function (over-rides the astGetObjSize protected -* method inherited from the parent class). - -* Description: -* This function returns the in-memory size of the supplied RateMap, -* in bytes. - -* Parameters: -* this -* Pointer to the RateMap. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* The Object size, in bytes. - -* Notes: -* - A value of zero will be returned if this function is invoked -* with the global status set, or if it should fail for any reason. -*/ - -/* Local Variables: */ - AstRateMap *this; /* Pointer to RateMap structure */ - int result; /* Result value to return */ - -/* Initialise. */ - result = 0; - -/* Check the global error status. */ - if ( !astOK ) return result; - -/* Obtain a pointers to the RateMap structure. */ - this = (AstRateMap *) this_object; - -/* Invoke the GetObjSize method inherited from the parent class, and then - add on any components of the class structure defined by thsi class - which are stored in dynamically allocated memory. */ - result = (*parent_getobjsize)( this_object, status ); - result += astGetObjSize( this->map ); - -/* If an error occurred, clear the result value. */ - if ( !astOK ) result = 0; - -/* Return the result, */ - return result; -} - -void astInitRateMapVtab_( AstRateMapVtab *vtab, const char *name, int *status ) { -/* -*+ -* Name: -* astInitRateMapVtab - -* Purpose: -* Initialise a virtual function table for a RateMap. - -* Type: -* Protected function. - -* Synopsis: -* #include "ratemap.h" -* void astInitRateMapVtab( AstRateMapVtab *vtab, const char *name ) - -* Class Membership: -* RateMap vtab initialiser. - -* Description: -* This function initialises the component of a virtual function -* table which is used by the RateMap class. - -* Parameters: -* vtab -* Pointer to the virtual function table. The components used by -* all ancestral classes will be initialised if they have not already -* been initialised. -* name -* Pointer to a constant null-terminated character string which contains -* the name of the class to which the virtual function table belongs (it -* is this pointer value that will subsequently be returned by the Object -* astClass function). -*- -*/ - -/* Local Variables: */ - astDECLARE_GLOBALS /* Pointer to thread-specific global data */ - AstObjectVtab *object; /* Pointer to Object component of Vtab */ - AstMappingVtab *mapping; /* Pointer to Mapping component of Vtab */ - -/* Check the local error status. */ - if ( !astOK ) return; - -/* Get a pointer to the thread specific global data structure. */ - astGET_GLOBALS(NULL); - -/* Initialize the component of the virtual function table used by the - parent class. */ - astInitMappingVtab( (AstMappingVtab *) vtab, name ); - -/* Store a unique "magic" value in the virtual function table. This - will be used (by astIsARateMap) to determine if an object belongs to - this class. We can conveniently use the address of the (static) - class_check variable to generate this unique value. */ - vtab->id.check = &class_check; - vtab->id.parent = &(((AstMappingVtab *) vtab)->id); - -/* Initialise member function pointers. */ -/* ------------------------------------ */ -/* Store pointers to the member functions (implemented here) that - provide virtual methods for this class. */ - -/* None. */ - -/* Save the inherited pointers to methods that will be extended, and - replace them with pointers to the new member functions. */ - object = (AstObjectVtab *) vtab; - mapping = (AstMappingVtab *) vtab; - parent_getobjsize = object->GetObjSize; - object->GetObjSize = GetObjSize; - - mapping->RemoveRegions = RemoveRegions; - -#if defined(THREAD_SAFE) - parent_managelock = object->ManageLock; - object->ManageLock = ManageLock; -#endif - - parent_transform = mapping->Transform; - mapping->Transform = Transform; - - parent_mapsplit = mapping->MapSplit; - mapping->MapSplit = MapSplit; - -/* Store replacement pointers for methods which will be over-ridden by - new member functions implemented here. */ - object->Equal = Equal; - mapping->MapMerge = MapMerge; - -/* Declare the copy constructor, destructor and class dump function. */ - astSetCopy( vtab, Copy ); - astSetDelete( vtab, Delete ); - astSetDump( vtab, Dump, "RateMap", "Differential Mapping" ); - -/* If we have just initialised the vtab for the current class, indicate - that the vtab is now initialised, and store a pointer to the class - identifier in the base "object" level of the vtab. */ - if( vtab == &class_vtab ) { - class_init = 1; - astSetVtabClassIdentifier( vtab, &(vtab->id) ); - } -} - -#if defined(THREAD_SAFE) -static int ManageLock( AstObject *this_object, int mode, int extra, - AstObject **fail, int *status ) { -/* -* Name: -* ManageLock - -* Purpose: -* Manage the thread lock on an Object. - -* Type: -* Private function. - -* Synopsis: -* #include "object.h" -* AstObject *ManageLock( AstObject *this, int mode, int extra, -* AstObject **fail, int *status ) - -* Class Membership: -* RateMap member function (over-rides the astManageLock protected -* method inherited from the parent class). - -* Description: -* This function manages the thread lock on the supplied Object. The -* lock can be locked, unlocked or checked by this function as -* deteremined by parameter "mode". See astLock for details of the way -* these locks are used. - -* Parameters: -* this -* Pointer to the Object. -* mode -* An integer flag indicating what the function should do: -* -* AST__LOCK: Lock the Object for exclusive use by the calling -* thread. The "extra" value indicates what should be done if the -* Object is already locked (wait or report an error - see astLock). -* -* AST__UNLOCK: Unlock the Object for use by other threads. -* -* AST__CHECKLOCK: Check that the object is locked for use by the -* calling thread (report an error if not). -* extra -* Extra mode-specific information. -* fail -* If a non-zero function value is returned, a pointer to the -* Object that caused the failure is returned at "*fail". This may -* be "this" or it may be an Object contained within "this". Note, -* the Object's reference count is not incremented, and so the -* returned pointer should not be annulled. A NULL pointer is -* returned if this function returns a value of zero. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* A local status value: -* 0 - Success -* 1 - Could not lock or unlock the object because it was already -* locked by another thread. -* 2 - Failed to lock a POSIX mutex -* 3 - Failed to unlock a POSIX mutex -* 4 - Bad "mode" value supplied. - -* Notes: -* - This function attempts to execute even if an error has already -* occurred. -*/ - -/* Local Variables: */ - AstRateMap *this; /* Pointer to RateMap structure */ - int result; /* Returned status value */ - -/* Initialise */ - result = 0; - -/* Check the supplied pointer is not NULL. */ - if( !this_object ) return result; - -/* Obtain a pointers to the RateMap structure. */ - this = (AstRateMap *) this_object; - -/* Invoke the ManageLock method inherited from the parent class. */ - if( !result ) result = (*parent_managelock)( this_object, mode, extra, - fail, status ); - -/* Invoke the astManageLock method on any Objects contained within - the supplied Object. */ - if( !result ) result = astManageLock( this->map, mode, extra, fail ); - - return result; - -} -#endif - -static int MapMerge( AstMapping *this, int where, int series, int *nmap, - AstMapping ***map_list, int **invert_list, int *status ) { -/* -* Name: -* MapMerge - -* Purpose: -* Simplify a sequence of Mappings containing a RateMap. - -* Type: -* Private function. - -* Synopsis: -* #include "mapping.h" -* int MapMerge( AstMapping *this, int where, int series, int *nmap, -* AstMapping ***map_list, int **invert_list, int *status ) - -* Class Membership: -* RateMap method (over-rides the protected astMapMerge method -* inherited from the Mapping class). - -* Description: -* This function attempts to simplify a sequence of Mappings by -* merging a nominated RateMap in the sequence with its neighbours, -* so as to shorten the sequence if possible. -* -* In many cases, simplification will not be possible and the -* function will return -1 to indicate this, without further -* action. -* -* In most cases of interest, however, this function will either -* attempt to replace the nominated RateMap with one which it -* considers simpler, or to merge it with the Mappings which -* immediately precede it or follow it in the sequence (both will -* normally be considered). This is sufficient to ensure the -* eventual simplification of most Mapping sequences by repeated -* application of this function. -* -* In some cases, the function may attempt more elaborate -* simplification, involving any number of other Mappings in the -* sequence. It is not restricted in the type or scope of -* simplification it may perform, but will normally only attempt -* elaborate simplification in cases where a more straightforward -* approach is not adequate. - -* Parameters: -* this -* Pointer to the nominated RateMap which is to be merged with -* its neighbours. This should be a cloned copy of the RateMap -* pointer contained in the array element "(*map_list)[where]" -* (see below). This pointer will not be annulled, and the -* RateMap it identifies will not be modified by this function. -* where -* Index in the "*map_list" array (below) at which the pointer -* to the nominated RateMap resides. -* series -* A non-zero value indicates that the sequence of Mappings to -* be simplified will be applied in series (i.e. one after the -* other), whereas a zero value indicates that they will be -* applied in parallel (i.e. on successive sub-sets of the -* input/output coordinates). -* nmap -* Address of an int which counts the number of Mappings in the -* sequence. On entry this should be set to the initial number -* of Mappings. On exit it will be updated to record the number -* of Mappings remaining after simplification. -* map_list -* Address of a pointer to a dynamically allocated array of -* Mapping pointers (produced, for example, by the astMapList -* method) which identifies the sequence of Mappings. On entry, -* the initial sequence of Mappings to be simplified should be -* supplied. -* -* On exit, the contents of this array will be modified to -* reflect any simplification carried out. Any form of -* simplification may be performed. This may involve any of: (a) -* removing Mappings by annulling any of the pointers supplied, -* (b) replacing them with pointers to new Mappings, (c) -* inserting additional Mappings and (d) changing their order. -* -* The intention is to reduce the number of Mappings in the -* sequence, if possible, and any reduction will be reflected in -* the value of "*nmap" returned. However, simplifications which -* do not reduce the length of the sequence (but improve its -* execution time, for example) may also be performed, and the -* sequence might conceivably increase in length (but normally -* only in order to split up a Mapping into pieces that can be -* more easily merged with their neighbours on subsequent -* invocations of this function). -* -* If Mappings are removed from the sequence, any gaps that -* remain will be closed up, by moving subsequent Mapping -* pointers along in the array, so that vacated elements occur -* at the end. If the sequence increases in length, the array -* will be extended (and its pointer updated) if necessary to -* accommodate any new elements. -* -* Note that any (or all) of the Mapping pointers supplied in -* this array may be annulled by this function, but the Mappings -* to which they refer are not modified in any way (although -* they may, of course, be deleted if the annulled pointer is -* the final one). -* invert_list -* Address of a pointer to a dynamically allocated array which, -* on entry, should contain values to be assigned to the Invert -* attributes of the Mappings identified in the "*map_list" -* array before they are applied (this array might have been -* produced, for example, by the astMapList method). These -* values will be used by this function instead of the actual -* Invert attributes of the Mappings supplied, which are -* ignored. -* -* On exit, the contents of this array will be updated to -* correspond with the possibly modified contents of the -* "*map_list" array. If the Mapping sequence increases in -* length, the "*invert_list" array will be extended (and its -* pointer updated) if necessary to accommodate any new -* elements. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* If simplification was possible, the function returns the index -* in the "map_list" array of the first element which was -* modified. Otherwise, it returns -1 (and makes no changes to the -* arrays supplied). - -* Notes: -* - A value of -1 will be returned if this function is invoked -* with the global error status set, or if it should fail for any -* reason. -*/ - -/* Local Variables: */ - AstMapping *emap1; - AstMapping *emap2; - AstMapping *emap; - AstMapping *smap; - AstRateMap *map; - AstRateMap *rmap1; - AstRateMap *rmap2; - int cancel; - int map_inv; - int nax; - int old_inv2; - int old_inv; - int old_winv; - int result; - -/* Initialise. */ - result = -1; - -/* Check the inherited status. */ - if ( !astOK ) return result; - -/* Initialisation to avoid compiler warnings. */ - nax = 0; - -/* Get a pointer to this RateMap. */ - map = (AstRateMap *) this; - -/* Temporarily set its Invert flag to the requested value. */ - map_inv = astGetInvert( map ); - astSetInvert( map, ( *invert_list )[ where ] ); - -/* Get the encapsulated Mapping, and temporarily set its Invert attribute - back to the value it had when the RateMap was created, saving the current - Invert value so that it can be re-instated later. */ - emap = map->map; - old_inv = astGetInvert( emap ); - astSetInvert( emap, map->invert ); - -/* First try to simplify the RateMap by simplifying its encapsulated - Mapping. */ - smap = astSimplify( emap ); - -/* If any simplification took place, create a new RateMap with the - simplified mapping. */ - if( smap != emap ) { - (void) astAnnul( ( *map_list )[ where ] ); - ( *map_list )[ where ] = (AstMapping *) astRateMap( smap, map->iout, map->iin, "", status ); - result = where; - -/* The only other simplication which can be performed is to cancel a RateMap - with its own inverse in series. */ - } else if( series ) { - -/* Indicate we have nothing to cancel with as yet. */ - cancel = -1; - -/* First consider the lower neighbour. */ - if( where > 0 && astIsARateMap( ( *map_list )[ where - 1 ] ) ) { - -/* Check the Invert flags are opposite */ - if( ( *invert_list )[ where ] != ( *invert_list )[ where - 1 ] ) { - rmap1 = map; - rmap2 = (AstRateMap *) ( *map_list )[ where - 1 ]; - -/* Check the input and output indices are equal. */ - if( rmap1->iin == rmap2->iin && - rmap1->iout == rmap2->iout ) { - -/* Check the encapsulated Mappings are equal. */ - emap1 = emap; - emap2 = rmap2->map; - old_winv = astGetInvert( rmap2 ); - astSetInvert( rmap2, ( *invert_list )[ where - 1 ] ); - old_inv2 = astGetInvert( emap2 ); - astSetInvert( emap2, rmap2->invert ); - - if( astEqual( emap1, emap2 ) ) cancel = where - 1; - - astSetInvert( emap2, old_inv2 ); - astSetInvert( rmap2, old_winv ); - - nax = astGetNout( rmap1 ); - } - } - } - -/* Likewise consider the upper neighbour. */ - if( cancel == -1 && where + 1 < *nmap && - astIsARateMap( ( *map_list )[ where + 1 ] ) ) { - - if( ( *invert_list )[ where ] != ( *invert_list )[ where + 1 ] ) { - rmap1 = map; - rmap2 = (AstRateMap *) ( *map_list )[ where + 1 ]; - if( rmap1->iin == rmap2->iin && - rmap1->iout == rmap2->iout ) { - emap1 = emap; - emap2 = rmap2->map; - old_winv = astGetInvert( rmap2 ); - astSetInvert( rmap2, ( *invert_list )[ where + 1 ] ); - old_inv2 = astGetInvert( emap2 ); - astSetInvert( emap2, rmap2->invert ); - - if( astEqual( emap1, emap2 ) ) cancel = where + 1; - - astSetInvert( emap2, old_inv2 ); - astSetInvert( rmap2, old_winv ); - - nax = astGetNin( rmap1 ); - } - } - } - -/* If we can cancel with a neightbour, do so. */ - if( cancel != -1 ) { - (void) astAnnul( ( *map_list )[ where ] ); - (void) astAnnul( ( *map_list )[ cancel ] ); - ( *map_list )[ where ] = (AstMapping *) astUnitMap( nax, "", status ); - ( *invert_list )[ where ] = 0; - ( *map_list )[ cancel ] = (AstMapping *) astUnitMap( nax, "", status ); - ( *invert_list )[ cancel ] = 0; - result = ( cancel < where ) ? cancel : where; - } - } - -/* Free resources. */ - smap = astAnnul( smap ); - -/* Reset the original Invert attribute for the encapsulated Mapping. */ - astSetInvert( emap, old_inv ); - -/* Reset the original Invert attribute for the specified RateMap */ - astSetInvert( map, map_inv ); - -/* If an error occurred, clear the result value. */ - if ( !astOK ) result = -1; - -/* Return the result. */ - return result; -} - -static int *MapSplit( AstMapping *this_map, int nin, const int *in, AstMapping **map, int *status ){ -/* -* Name: -* MapSplit - -* Purpose: -* Create a Mapping representing a subset of the inputs of an existing -* RateMap. - -* Type: -* Private function. - -* Synopsis: -* #include "ratemap.h" -* int *MapSplit( AstMapping *this, int nin, const int *in, AstMapping **map, int *status ) - -* Class Membership: -* RateMap method (over-rides the protected astMapSplit method -* inherited from the Mapping class). - -* Description: -* This function creates a new Mapping by picking specified inputs from -* an existing RateMap. This is only possible if the specified inputs -* correspond to some subset of the RateMap outputs. That is, there -* must exist a subset of the RateMap outputs for which each output -* depends only on the selected RateMap inputs, and not on any of the -* inputs which have not been selected. If this condition is not met -* by the supplied RateMap, then a NULL Mapping is returned. - -* Parameters: -* this -* Pointer to the RateMap to be split (the RateMap is not actually -* modified by this function). -* nin -* The number of inputs to pick from "this". -* in -* Pointer to an array of indices (zero based) for the inputs which -* are to be picked. This array should have "nin" elements. If "Nin" -* is the number of inputs of the supplied RateMap, then each element -* should have a value in the range zero to Nin-1. -* map -* Address of a location at which to return a pointer to the new -* Mapping. This Mapping will have "nin" inputs (the number of -* outputs may be different to "nin"). A NULL pointer will be -* returned if the supplied RateMap has no subset of outputs which -* depend only on the selected inputs. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* A pointer to a dynamically allocated array of ints. The number of -* elements in this array will equal the number of outputs for the -* returned Mapping. Each element will hold the index of the -* corresponding output in the supplied RateMap. The array should be -* freed using astFree when no longer needed. A NULL pointer will -* be returned if no output Mapping can be created. - -* Notes: -* - If this function is invoked with the global error status set, -* or if it should fail for any reason, then NULL values will be -* returned as the function value and for the "map" pointer. -*/ - -/* Local Variables: */ - AstMapping *emap; /* Pointer to Mapping encapsulated by RateMap */ - AstMapping *remap; /* Split Mapping encapsulated by RateMap */ - AstRateMap *this; /* Pointer to RateMap structure */ - int *eres; /* Outputs used by split Mapping */ - int *result; /* Array holding returned output inedx */ - int ax1; /* New index of output being differentiated */ - int ax2; /* New index of output being varied */ - int i; /* Loop count */ - int nout; /* No. of outputs in the split Mapping */ - int old_inv; /* Original Invert flag for emap */ - -/* Initialise */ - result = NULL; - *map = NULL; - -/* Check the global error status. */ - if ( !astOK ) return result; - -/* Invoke the parent astMapSplit method to see if it can do the job. */ - result = (*parent_mapsplit)( this_map, nin, in, map, status ); - -/* If not, we provide a special implementation here. Note we cannot - produce the Mapping if the RaterMap has been inverted. */ - if( !result && !astGetInvert( this_map ) ) { - -/* Get a pointer to the RateMap structure. */ - this = (AstRateMap *) this_map; - -/* Temporarily reset the Invert attribute of the encapsulated Mapping - back to the value it had when the RateMap was created. */ - emap = this->map; - old_inv = astGetInvert( emap ); - astSetInvert( emap, this->invert ); - -/* Attempt to split the encapsulated Mapping */ - eres = astMapSplit( emap, nin, in, &remap ); - -/* We can only continue if this was succesful. */ - if( eres ) { - -/* Check that the input which the RateMap varies is one of the selected - inputs. */ - ax2 = -1; - for( i = 0; i < nin; i++ ) { - if( in[ i ] == this->iin ) { - ax2 = i; - break; - } - } - -/* Check that the output which the RateMap differentiates is one of the - outputs of the "remap" Mapping. */ - ax1 = -1; - nout = astGetNout( remap ); - for( i = 0; i < nout; i++ ) { - if( eres[ i ] == this->iout ) { - ax1 = i; - break; - } - } - -/* If possible create the required Mapping and returned array. */ - if( ax1 != -1 && ax2 != -1 ) { - *map = (AstMapping *) astRateMap( remap, ax1, ax2, "", status ); - result = astMalloc( sizeof( int ) ); - if( astOK ) *result= 0; - } - -/* Free resources */ - eres = astFree( eres ); - remap = astAnnul( remap ); - } - -/* Re-instate the original Invert flag in the Mapping encapsulated by the - supplied RateMap. */ - astSetInvert( emap, old_inv ); - } - -/* Free returned resources if an error has occurred. */ - if( !astOK ) { - result = astFree( result ); - *map = astAnnul( *map ); - } - -/* Return the list of output indices. */ - return result; -} - -static AstMapping *RemoveRegions( AstMapping *this_mapping, int *status ) { -/* -* Name: -* RemoveRegions - -* Purpose: -* Remove any Regions from a Mapping. - -* Type: -* Private function. - -* Synopsis: -* #include "ratemap.h" -* AstMapping *RemoveRegions( AstMapping *this, int *status ) - -* Class Membership: -* RateMap method (over-rides the astRemoveRegions method inherited -* from the Mapping class). - -* Description: -* This function searches the supplied Mapping (which may be a -* compound Mapping such as a CmpMap) for any component Mappings -* that are instances of the AST Region class. It then creates a new -* Mapping from which all Regions have been removed. If a Region -* cannot simply be removed (for instance, if it is a component of a -* parallel CmpMap), then it is replaced with an equivalent UnitMap -* in the returned Mapping. -* -* The implementation provided by the RateMap class invokes the -* astRemoveRegions method on the encapsulated Mapping, and returns a -* new RateMap containing the resulting Mapping. - -* Parameters: -* this -* Pointer to the original Region. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* A pointer to the modified mapping. - -* Notes: -* - A NULL pointer value will be returned if this function is -* invoked with the AST error status set, or if it should fail for -* any reason. -*/ - -/* Local Variables: */ - AstMapping *newmap; /* New component Mapping */ - AstMapping *result; /* Result pointer to return */ - AstRateMap *new; /* Pointer to new RateMap */ - AstRateMap *this; /* Pointer to RateMap structure */ - -/* Initialise. */ - result = NULL; - -/* Check the global error status. */ - if ( !astOK ) return result; - -/* Get a pointer to the RateMap. */ - this = (AstRateMap *) this_mapping; - -/* Invoke the astRemoveRegions method on the component Mapping. */ - newmap = astRemoveRegions( this->map ); - -/* If the Mapping was not modified, just return a clone of the supplied - pointer. */ - if( this->map == newmap ) { - result = astClone( this ); - -/* Otherwise, we need to create a new RateMap to return. */ - } else { - -/* If the new Mapping is a Frame (as will be the case if the original - Mapping was a Region), use a UnitMap instead. */ - if( astIsAFrame( newmap ) ) { - (void) astAnnul( newmap ); - newmap = (AstMapping *) astUnitMap( astGetNin( this ), " ", status ); - } - -/* Take a deep copy of the supplied RateMap and then modify the Mapping - so that we retain any extra information in the supplied RateMap. */ - new = astCopy( this ); - (void) astAnnul( new->map ); - new->map = astClone( newmap ); - result = (AstMapping *) new; - } - -/* Free resources. */ - newmap = astAnnul( newmap ); - -/* Annul the returned Mapping if an error has occurred. */ - if( !astOK ) result = astAnnul( result ); - -/* Return the result. */ - return result; -} - -static AstPointSet *Transform( AstMapping *this, AstPointSet *in, - int forward, AstPointSet *out, int *status ) { -/* -* Name: -* Transform - -* Purpose: -* Apply a RateMap to transform a set of points. - -* Type: -* Private function. - -* Synopsis: -* #include "ratemap.h" -* AstPointSet *Transform( AstMapping *this, AstPointSet *in, -* int forward, AstPointSet *out, int *status ) - -* Class Membership: -* RateMap member function (over-rides the astTransform method inherited -* from the Mapping class). - -* Description: -* This function takes a RateMap and a set of points encapsulated in a -* PointSet and transforms the points so as to apply the required Mapping. -* This implies applying each of the RateMap's component Mappings in turn, -* either in series or in parallel. - -* Parameters: -* this -* Pointer to the RateMap. -* in -* Pointer to the PointSet associated with the input coordinate values. -* forward -* A non-zero value indicates that the forward coordinate transformation -* should be applied, while a zero value requests the inverse -* transformation. -* out -* Pointer to a PointSet which will hold the transformed (output) -* coordinate values. A NULL value may also be given, in which case a -* new PointSet will be created by this function. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* Pointer to the output (possibly new) PointSet. - -* Notes: -* - A null pointer will be returned if this function is invoked with the -* global error status set, or if it should fail for any reason. -* - The number of coordinate values per point in the input PointSet must -* match the number of coordinates for the RateMap being applied. -* - If an output PointSet is supplied, it must have space for sufficient -* number of points and coordinate values per point to accommodate the -* result. Any excess space will be ignored. -*/ - -/* Local Variables: */ - AstMapping *emap; - AstPointSet *result; - AstRateMap *map; - double **ptr2; - double **ptr; - double *pout; - double *work; - int ic; - int iin; - int iout; - int ipoint; - int ncoord; - int npoint; - int old_inv; - -/* Check the global error status. */ - if ( !astOK ) return NULL; - -/* Obtain a pointer to the RateMap. */ - map = (AstRateMap *) this; - -/* Apply the parent Mapping using the stored pointer to the Transform member - function inherited from the parent Mapping class. This function validates - all arguments and generates an output PointSet if necessary, but does not - actually transform any coordinate values. */ - result = (*parent_transform)( this, in, forward, out, status ); - -/* We now extend the parent astTransform method by applying the component - Mappings of the RateMap to generate the output coordinate values. */ - -/* Determine whether to apply the forward or inverse Mapping, according to the - direction specified and whether the Mapping has been inverted. */ - if ( astGetInvert( map ) ) forward = !forward; - -/* The RateMap class does not have an inverse transformation. */ - if( !forward ) { - astError( AST__INTER, "astTransform(%s): The %s class does not have " - "an inverse transformation (AST internal programming error).", status, - astGetClass( this ), astGetClass( this ) ); - -/* Otherwise use the astRate method on the encapsulated Maping to - determine the required rate of change at each supplied input point. */ - } else { - -/* Temporarily reset the Invert attribute of the encapsulated Mapping - back to the value it had when the RateMap was created. */ - emap = map->map; - old_inv = astGetInvert( emap ); - astSetInvert( emap, map->invert ); - -/* Note the indices of the input and output to use. */ - iin = map->iin; - iout = map->iout; - -/* Get pointers to the axis values in the supplied PointSet. */ - ptr = astGetPoints( in ); - ncoord = astGetNcoord( in ); - npoint = astGetNpoint( in ); - -/* Work space to hold an input position. */ - work = astMalloc( sizeof( double )*(size_t) ncoord ); - -/* Get a pointer to the axis values in the results PointSet. */ - ptr2 = astGetPoints( result ); - pout = ptr2[ 0 ]; - if( astOK ) { - -/* Loop round each point in the supplied PointSet. */ - for( ipoint = 0; ipoint < npoint; ipoint++ ) { - -/* Copy this point into the work array. */ - for( ic = 0; ic < ncoord; ic++ ) work[ ic ] = ptr[ ic ][ ipoint ]; - -/* Find the rate of change of the specified output of the encapsulated - Mapping with respect to the specified input. */ - *(pout++) = astRate( emap, work, iout, iin ); - } - } - -/* Re-instate the original Invert flag. */ - astSetInvert( emap, old_inv ); - -/* Free resources */ - work = astFree( work ); - - } - -/* If an error occurred, clean up by deleting the output PointSet (if - allocated by this function) and setting a NULL result pointer. */ - if ( !astOK ) { - if ( !out ) result = astDelete( result ); - result = NULL; - } - -/* Return a pointer to the output PointSet. */ - return result; -} - -/* Copy constructor. */ -/* ----------------- */ -static void Copy( const AstObject *objin, AstObject *objout, int *status ) { -/* -* Name: -* Copy - -* Purpose: -* Copy constructor for RateMap objects. - -* Type: -* Private function. - -* Synopsis: -* void Copy( const AstObject *objin, AstObject *objout, int *status ) - -* Description: -* This function implements the copy constructor for RateMap objects. - -* Parameters: -* objin -* Pointer to the object to be copied. -* objout -* Pointer to the object being constructed. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* void - -* Notes: -* - This constructor makes a deep copy, including a copy of the component -* Mappings within the RateMap. -*/ - -/* Local Variables: */ - AstRateMap *in; /* Pointer to input RateMap */ - AstRateMap *out; /* Pointer to output RateMap */ - -/* Check the global error status. */ - if ( !astOK ) return; - -/* Obtain pointers to the input and output RateMaps. */ - in = (AstRateMap *) objin; - out = (AstRateMap *) objout; - -/* For safety, start by clearing any references to the input component - Mappings from the output RateMap. */ - out->map = NULL; - -/* Make copies of these Mappings and store pointers to them in the output - RateMap structure. */ - out->map = astCopy( in->map ); -} - -/* Destructor. */ -/* ----------- */ -static void Delete( AstObject *obj, int *status ) { -/* -* Name: -* Delete - -* Purpose: -* Destructor for RateMap objects. - -* Type: -* Private function. - -* Synopsis: -* void Delete( AstObject *obj, int *status ) - -* Description: -* This function implements the destructor for RateMap objects. - -* Parameters: -* obj -* Pointer to the object to be deleted. -* status -* Pointer to the inherited status variable. - -* Returned Value: -* void - -* Notes: -* This function attempts to execute even if the global error status is -* set. -*/ - -/* Local Variables: */ - AstRateMap *this; /* Pointer to RateMap */ - -/* Obtain a pointer to the RateMap structure. */ - this = (AstRateMap *) obj; - -/* Annul the pointers to the component Mappings. */ - this->map = astAnnul( this->map ); - -/* Clear the remaining RateMap variables. */ - this->invert = 0; - this->iin = 0; - this->iout = 0; -} - -/* Dump function. */ -/* -------------- */ -static void Dump( AstObject *this_object, AstChannel *channel, int *status ) { -/* -* Name: -* Dump - -* Purpose: -* Dump function for RateMap objects. - -* Type: -* Private function. - -* Synopsis: -* void Dump( AstObject *this, AstChannel *channel, int *status ) - -* Description: -* This function implements the Dump function which writes out data -* for the RateMap class to an output Channel. - -* Parameters: -* this -* Pointer to the RateMap whose data are being written. -* channel -* Pointer to the Channel to which the data are being written. -* status -* Pointer to the inherited status variable. -*/ - -/* Local Variables: */ - AstRateMap *this; /* Pointer to the RateMap structure */ - int ival; /* Integer value */ - int set; /* Attribute value set? */ - -/* Check the global error status. */ - if ( !astOK ) return; - -/* Obtain a pointer to the RateMap structure. */ - this = (AstRateMap *) this_object; - -/* Write out values representing the instance variables for the RateMap - class. Accompany these with appropriate comment strings, possibly - depending on the values being written.*/ - -/* In the case of attributes, we first use the appropriate (private) - Test... member function to see if they are set. If so, we then use - the (private) Get... function to obtain the value to be written - out. - - For attributes which are not set, we use the astGet... method to - obtain the value instead. This will supply a default value - (possibly provided by a derived class which over-rides this method) - which is more useful to a human reader as it corresponds to the - actual default attribute value. Since "set" will be zero, these - values are for information only and will not be read back. */ - -/* Input axis. */ -/* ------------ */ - ival = this->iin; - set = ( ival != 0 ); - astWriteInt( channel, "IIn", set, 0, ival, "Index of Mapping input" ); - -/* Output axis. */ -/* ------------ */ - ival = this->iout; - set = ( ival != 0 ); - astWriteInt( channel, "IOut", set, 0, ival, "Index of Mapping output" ); - -/* Invert flag. */ -/* ------------ */ - ival = this->invert; - set = ( ival != 0 ); - astWriteInt( channel, "Inv", set, 0, ival, - ival ? "Mapping used in inverse direction" : - "Mapping used in forward direction" ); - -/* Mapping. */ -/* -------- */ - astWriteObject( channel, "Map", 1, 1, this->map, - "Mapping to be differentiated" ); - -} - -/* Standard class functions. */ -/* ========================= */ -/* Implement the astIsARateMap and astCheckRateMap functions using the - macros defined for this purpose in the "object.h" header file. */ -astMAKE_ISA(RateMap,Mapping) -astMAKE_CHECK(RateMap) - -AstRateMap *astRateMap_( void *map_void, int ax1, int ax2, const char *options, int *status, ...) { -/* -*+ -* Name: -* astRateMap - -* Purpose: -* Create a RateMap. - -* Type: -* Protected function. - -* Synopsis: -* #include "ratemap.h" -* AstRateMap *astRateMap( AstMapping *map, int ax1, int ax2, const char *options, int *status, ... ) - -* Class Membership: -* RateMap constructor. - -* Description: -* This function creates a new RateMap and optionally initialises its -* attributes. - -* Parameters: -* map -* Pointer to the Mapping to differentiate. -* ax1 -* zero-based index of the "map" output which is to be differentiated. -* ax2 -* Zero-based index of the "map" input which is to be varied. -* options -* Pointer to a null terminated string containing an optional -* comma-separated list of attribute assignments to be used for -* initialising the new RateMap. The syntax used is the same as for the -* astSet method and may include "printf" format specifiers identified -* by "%" symbols in the normal way. -* status -* Pointer to the inherited status variable. -* ... -* If the "options" string contains "%" format specifiers, then an -* optional list of arguments may follow it in order to supply values to -* be substituted for these specifiers. The rules for supplying these -* are identical to those for the astSet method (and for the C "printf" -* function). - -* Returned Value: -* A pointer to the new RateMap. - -* Notes: -* - A null pointer will be returned if this function is invoked -* with the global error status set, or if it should fail for any -* reason. -*- - -* Implementation Notes: -* - This function implements the basic RateMap constructor which is -* available via the protected interface to the RateMap class. A -* public interface is provided by the astRateMapId_ function. -* - Because this function has a variable argument list, it is -* invoked by a macro that evaluates to a function pointer (not a -* function invocation) and no checking or casting of arguments is -* performed before the function is invoked. Because of this, the -* "map" parameter is of type (void *) and is converted and validated -* within the function itself. -*/ - -/* Local Variables: */ - astDECLARE_GLOBALS /* Pointer to thread-specific global data */ - AstRateMap *new; /* Pointer to new RateMap */ - AstMapping *map; /* Pointer to Mapping structure */ - va_list args; /* Variable argument list */ - -/* Initialise. */ - new = NULL; - -/* Get a pointer to the thread specific global data structure. */ - astGET_GLOBALS(NULL); - -/* Check the global status. */ - if ( !astOK ) return new; - -/* Obtain and validate pointers to the Mapping structures provided. */ - map = astCheckMapping( map_void ); - if ( astOK ) { - -/* Initialise the RateMap, allocating memory and initialising the - virtual function table as well if necessary. */ - new = astInitRateMap( NULL, sizeof( AstRateMap ), !class_init, &class_vtab, - "RateMap", map, ax1, ax2 ); - -/* If successful, note that the virtual function table has been - initialised. */ - if ( astOK ) { - class_init = 1; - -/* Obtain the variable argument list and pass it along with the - options string to the astVSet method to initialise the new RateMap's - attributes. */ - va_start( args, status ); - astVSet( new, options, NULL, args ); - va_end( args ); - -/* If an error occurred, clean up by deleting the new object. */ - if ( !astOK ) new = astDelete( new ); - } - } - -/* Return a pointer to the new RateMap. */ - return new; -} - -AstRateMap *astRateMapId_( void *map_void, int ax1, int ax2, - const char *options, ... ) { -/* -*++ -* Name: -c astRateMap -f AST_RATEMAP - -* Purpose: -* Create a RateMap. - -* Type: -* Public function. - -* Synopsis: -c #include "ratemap.h" -c AstRateMap *astRateMap( AstMapping *map, int ax1, int ax2, -c const char *options, ... ) -f RESULT = AST_RATEMAP( MAP, AX1, AX2, OPTIONS, STATUS ) - -* Class Membership: -* RateMap constructor. - -* Description: -* This function creates a new RateMap and optionally initialises -* its attributes. -* -* A RateMap is a Mapping which represents a single element of the -* Jacobian matrix of another Mapping. The Mapping for which the -* Jacobian is required is specified when the new RateMap is created, -* and is referred to as the "encapsulated Mapping" below. -* -* The number of inputs to a RateMap is the same as the number of inputs -* to its encapsulated Mapping. The number of outputs from a RateMap -* is always one. This one output equals the rate of change of a -* specified output of the encapsulated Mapping with respect to a -* specified input of the encapsulated Mapping (the input and output -* to use are specified when the RateMap is created). -* -* A RateMap which has not been inverted does not define an inverse -* transformation. If a RateMap has been inverted then it will define -* an inverse transformation but not a forward transformation. - -* Parameters: -c map -f MAP = INTEGER (Given) -* Pointer to the encapsulated Mapping. -c ax1 -f AX1 = INTEGER (Given) -* Index of the output from the encapsulated Mapping for which the -* rate of change is required. This corresponds to the delta -* quantity forming the numerator of the required element of the -* Jacobian matrix. The first axis has index 1. -c ax2 -f AX2 = INTEGER (Given) -* Index of the input to the encapsulated Mapping which is to be -* varied. This corresponds to the delta quantity forming the -* denominator of the required element of the Jacobian matrix. -* The first axis has index 1. -c options -f OPTIONS = CHARACTER * ( * ) (Given) -c Pointer to a null-terminated string containing an optional -c comma-separated list of attribute assignments to be used for -c initialising the new RateMap. The syntax used is identical to -c that for the astSet function and may include "printf" format -c specifiers identified by "%" symbols in the normal way. -f A character string containing an optional comma-separated -f list of attribute assignments to be used for initialising the -f new RateMap. The syntax used is identical to that for the -f AST_SET routine. -c ... -c If the "options" string contains "%" format specifiers, then -c an optional list of additional arguments may follow it in -c order to supply values to be substituted for these -c specifiers. The rules for supplying these are identical to -c those for the astSet function (and for the C "printf" -c function). -f STATUS = INTEGER (Given and Returned) -f The global status. - -* Returned Value: -c astRateMap() -f AST_RATEMAP = INTEGER -* A pointer to the new RateMap. - -* Notes: -* - The forward transformation of the encapsulated Mapping must be -* defined. -c - Note that the component Mappings supplied are not copied by -c astRateMap (the new RateMap simply retains a reference to -c them). They may continue to be used for other purposes, but -c should not be deleted. If a RateMap containing a copy of its -c component Mappings is required, then a copy of the RateMap should -c be made using astCopy. -f - Note that the component Mappings supplied are not copied by -f AST_RATEMAP (the new RateMap simply retains a reference to -f them). They may continue to be used for other purposes, but -f should not be deleted. If a RateMap containing a copy of its -f component Mappings is required, then a copy of the RateMap should -f be made using AST_COPY. -* - A null Object pointer (AST__NULL) will be returned if this -c function is invoked with the AST error status set, or if it -f function is invoked with STATUS set to an error value, or if it -* should fail for any reason. -*-- - -* Implementation Notes: -* - This function implements the external (public) interface to -* the astRateMap constructor function. It returns an ID value -* (instead of a true C pointer) to external users, and must be -* provided because astRateMap_ has a variable argument list which -* cannot be encapsulated in a macro (where this conversion would -* otherwise occur). -* - Because no checking or casting of arguments is performed -* before the function is invoked, the "map" parameter is of type -* (void *) and is converted from an ID value to a pointer and -* validated within the function itself. -* - The variable argument list also prevents this function from -* invoking astRateMap_ directly, so it must be a re-implementation -* of it in all respects, except for the conversions between IDs -* and pointers on input/output of Objects. -*/ - -/* Local Variables: */ - astDECLARE_GLOBALS /* Pointer to thread-specific global data */ - AstRateMap *new; /* Pointer to new RateMap */ - AstMapping *map; /* Pointer to Mapping structure */ - va_list args; /* Variable argument list */ - -/* Pointer to inherited status value */ - int *status; - -/* Get a pointer to the thread specific global data structure. */ - astGET_GLOBALS(NULL); - -/* Initialise. */ - new = NULL; - -/* Get a pointer to the inherited status value. */ - status = astGetStatusPtr; - -/* Check the global status. */ - if ( !astOK ) return new; - -/* Obtain the Mapping pointer from the ID supplied and validate the - pointer to ensure it identifies a valid Mapping. */ - map = astVerifyMapping( astMakePointer( map_void ) ); - if ( astOK ) { - -/* Initialise the RateMap, allocating memory and initialising the - virtual function table as well if necessary. */ - new = astInitRateMap( NULL, sizeof( AstRateMap ), !class_init, &class_vtab, - "RateMap", map, ax1 - 1, ax2 - 1 ); - -/* If successful, note that the virtual function table has been initialised. */ - if ( astOK ) { - class_init = 1; - -/* Obtain the variable argument list and pass it along with the - options string to the astVSet method to initialise the new RateMap's - attributes. */ - va_start( args, options ); - astVSet( new, options, NULL, args ); - va_end( args ); - -/* If an error occurred, clean up by deleting the new object. */ - if ( !astOK ) new = astDelete( new ); - } - } - -/* Return an ID value for the new RateMap. */ - return astMakeId( new ); -} - -AstRateMap *astInitRateMap_( void *mem, size_t size, int init, - AstRateMapVtab *vtab, const char *name, - AstMapping *map, int ax1, int ax2, int *status ) { -/* -*+ -* Name: -* astInitRateMap - -* Purpose: -* Initialise a RateMap. - -* Type: -* Protected function. - -* Synopsis: -* #include "ratemap.h" -* AstRateMap *astInitRateMap( void *mem, size_t size, int init, -* AstRateMapVtab *vtab, const char *name, -* AstMapping *map, int ax1, int ax2 ) - -* Class Membership: -* RateMap initialiser. - -* Description: -* This function is provided for use by class implementations to initialise -* a new RateMap object. It allocates memory (if necessary) to -* accommodate the RateMap plus any additional data associated with the -* derived class. It then initialises a RateMap structure at the start -* of this memory. If the "init" flag is set, it also initialises the -* contents of a virtual function table for a RateMap at the start of -* the memory passed via the "vtab" parameter. - -* Parameters: -* mem -* A pointer to the memory in which the RateMap is to be initialised. -* This must be of sufficient size to accommodate the RateMap data -* (sizeof(RateMap)) plus any data used by the derived class. If a -* value of NULL is given, this function will allocate the memory itself -* using the "size" parameter to determine its size. -* size -* The amount of memory used by the RateMap (plus derived class -* data). This will be used to allocate memory if a value of NULL is -* given for the "mem" parameter. This value is also stored in the -* RateMap structure, so a valid value must be supplied even if not -* required for allocating memory. -* init -* A logical flag indicating if the RateMap's virtual function table -* is to be initialised. If this value is non-zero, the virtual function -* table will be initialised by this function. -* vtab -* Pointer to the start of the virtual function table to be associated -* with the new RateMap. -* name -* Pointer to a constant null-terminated character string which contains -* the name of the class to which the new object belongs (it is this -* pointer value that will subsequently be returned by the Object -* astClass function). -* map -* Pointer to the Mapping. -* ax1 -* Zero-based index of output axis. -* ax2 -* Zero-based index of input axis. - -* Returned Value: -* A pointer to the new RateMap. - -* Notes: -* - A null pointer will be returned if this function is invoked with the -* global error status set, or if it should fail for any reason. -*- -*/ - -/* Local Variables: */ - AstRateMap *new; /* Pointer to new RateMap */ - int nin; /* No. input coordinates for RateMap */ - int nout; /* No. output coordinates for RateMap */ - -/* Check the global status. */ - if ( !astOK ) return NULL; - -/* If necessary, initialise the virtual function table. */ - if ( init ) astInitRateMapVtab( vtab, name ); - -/* Initialise. */ - new = NULL; - -/* Report an error if "map" has no forward transformation. */ - if( !astGetTranForward( map ) && astOK ) { - astError( AST__INTRD, "astInitRateMap(%s): The supplied Mapping " - "is not able to transform coordinates in the forward direction.", status, - name ); - } - -/* Check that the input and output axis indices are valid. */ - nin = astGetNin( map ); - nout = astGetNout( map ); - if( ( ax1 < 0 || ax1 >= nout ) && astOK ) { - astError( AST__INNCO, "astInitRateMap(%s): The output axis %d is out " - "of range - it should be in the range 1 to %d.", status, name, - ax1 + 1, nout ); - } - if( ( ax2 < 0 || ax2 >= nin ) && astOK ) { - astError( AST__INNCO, "astInitRateMap(%s): The input axis %d is out " - "of range - it should be in the range 1 to %d.", status, name, - ax2 + 1, nin ); - } - -/* Initialise a Mapping structure (the parent class) as the first component - within the RateMap structure, allocating memory if necessary. Specify - the number of input and output coordinates and in which directions the - Mapping should be defined. */ - if ( astOK ) { - new = (AstRateMap *) astInitMapping( mem, size, 0, - (AstMappingVtab *) vtab, name, - nin, 1, 1, 0 ); - - if ( astOK ) { - -/* Initialise the RateMap data. */ -/* --------------------------- */ -/* Store a pointer to the encapsulated Mapping. */ - new->map = astClone( map ); - -/* Save the initial values of the inversion flag for this Mapping. */ - new->invert = astGetInvert( map ); - -/* Save the input and output axis indices. */ - new->iout = ax1; - new->iin = ax2; - -/* If an error occurred, clean up by annulling the Mapping pointers and - deleting the new object. */ - if ( !astOK ) { - new->map = astAnnul( new->map ); - new = astDelete( new ); - } - } - } - -/* Return a pointer to the new object. */ - return new; -} - -AstRateMap *astLoadRateMap_( void *mem, size_t size, - AstRateMapVtab *vtab, const char *name, - AstChannel *channel, int *status ) { -/* -*+ -* Name: -* astLoadRateMap - -* Purpose: -* Load a RateMap. - -* Type: -* Protected function. - -* Synopsis: -* #include "ratemap.h" -* AstRateMap *astLoadRateMap( void *mem, size_t size, -* AstRateMapVtab *vtab, const char *name, -* AstChannel *channel ) - -* Class Membership: -* RateMap loader. - -* Description: -* This function is provided to load a new RateMap using data read -* from a Channel. It first loads the data used by the parent class -* (which allocates memory if necessary) and then initialises a -* RateMap structure in this memory, using data read from the input -* Channel. -* -* If the "init" flag is set, it also initialises the contents of a -* virtual function table for a RateMap at the start of the memory -* passed via the "vtab" parameter. - - -* Parameters: -* mem -* A pointer to the memory into which the RateMap is to be -* loaded. This must be of sufficient size to accommodate the -* RateMap data (sizeof(RateMap)) plus any data used by derived -* classes. If a value of NULL is given, this function will -* allocate the memory itself using the "size" parameter to -* determine its size. -* size -* The amount of memory used by the RateMap (plus derived class -* data). This will be used to allocate memory if a value of -* NULL is given for the "mem" parameter. This value is also -* stored in the RateMap structure, so a valid value must be -* supplied even if not required for allocating memory. -* -* If the "vtab" parameter is NULL, the "size" value is ignored -* and sizeof(AstRateMap) is used instead. -* vtab -* Pointer to the start of the virtual function table to be -* associated with the new RateMap. If this is NULL, a pointer to -* the (static) virtual function table for the RateMap class is -* used instead. -* name -* Pointer to a constant null-terminated character string which -* contains the name of the class to which the new object -* belongs (it is this pointer value that will subsequently be -* returned by the astGetClass method). -* -* If the "vtab" parameter is NULL, the "name" value is ignored -* and a pointer to the string "RateMap" is used instead. - -* Returned Value: -* A pointer to the new RateMap. - -* Notes: -* - A null pointer will be returned if this function is invoked -* with the global error status set, or if it should fail for any -* reason. -*- -*/ - -/* Local Variables: */ - astDECLARE_GLOBALS /* Pointer to thread-specific global data */ - AstRateMap *new; /* Pointer to the new RateMap */ - -/* Initialise. */ - new = NULL; - -/* Check the global error status. */ - if ( !astOK ) return new; - -/* Get a pointer to the thread specific global data structure. */ - astGET_GLOBALS(channel); - -/* If a NULL virtual function table has been supplied, then this is - the first loader to be invoked for this RateMap. In this case the - RateMap belongs to this class, so supply appropriate values to be - passed to the parent class loader (and its parent, etc.). */ - if ( !vtab ) { - size = sizeof( AstRateMap ); - vtab = &class_vtab; - name = "RateMap"; - -/* If required, initialise the virtual function table for this class. */ - if ( !class_init ) { - astInitRateMapVtab( vtab, name ); - class_init = 1; - } - } - -/* Invoke the parent class loader to load data for all the ancestral - classes of the current one, returning a pointer to the resulting - partly-built RateMap. */ - new = astLoadMapping( mem, size, (AstMappingVtab *) vtab, name, - channel ); - - if ( astOK ) { - -/* Read input data. */ -/* ================ */ -/* Request the input Channel to read all the input data appropriate to - this class into the internal "values list". */ - astReadClassData( channel, "RateMap" ); - -/* Now read each individual data item from this list and use it to - initialise the appropriate instance variable(s) for this class. */ - -/* In the case of attributes, we first read the "raw" input value, - supplying the "unset" value as the default. If a "set" value is - obtained, we then use the appropriate (private) Set... member - function to validate and set the value properly. */ - -/* Invert flag. */ -/* ------------ */ - new->invert = astReadInt( channel, "inv", 0 ); - new->invert = ( new->invert != 0 ); - -/* Input and output axes. */ -/* ---------------------- */ - new->iin = astReadInt( channel, "iin", 0 ); - new->iout = astReadInt( channel, "iout", 0 ); - -/* Mapping. */ -/* -------- */ - new->map = astReadObject( channel, "map", NULL ); - -/* If an error occurred, clean up by deleting the new RateMap. */ - if ( !astOK ) new = astDelete( new ); - } - -/* Return the new RateMap pointer. */ - return new; -} - -/* Virtual function interfaces. */ -/* ============================ */ -/* These provide the external interface to the virtual functions defined by - this class. Each simply checks the global error status and then locates and - executes the appropriate member function, using the function pointer stored - in the object's virtual function table (this pointer is located using the - astMEMBER macro defined in "object.h"). - - Note that the member function may not be the one defined here, as it may - have been over-ridden by a derived class. However, it should still have the - same interface. */ - -/* None. */ - - - - |