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BaseFab.H

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00001 /* _______              __
00002   / ___/ /  ___  __ _  / /  ___
00003  / /__/ _ \/ _ \/  ' \/ _ \/ _ \
00004  \___/_//_/\___/_/_/_/_.__/\___/ 
00005 */
00006 //
00007 // This software is copyright (C) by the Lawrence Berkeley
00008 // National Laboratory.  Permission is granted to reproduce
00009 // this software for non-commercial purposes provided that
00010 // this notice is left intact.
00011 // 
00012 // It is acknowledged that the U.S. Government has rights to
00013 // this software under Contract DE-AC03-765F00098 between
00014 // the U.S.  Department of Energy and the University of
00015 // California.
00016 //
00017 // This software is provided as a professional and academic
00018 // contribution for joint exchange. Thus it is experimental,
00019 // is provided ``as is'', with no warranties of any kind
00020 // whatsoever, no support, no promise of updates, or printed
00021 // documentation. By using this software, you acknowledge
00022 // that the Lawrence Berkeley National Laboratory and
00023 // Regents of the University of California shall have no
00024 // liability with respect to the infringement of other
00025 // copyrights by any part of this software.
00026 //
00027 
00028 //CH_COPYRIGHT_NOTICE
00029 
00030 #ifndef CH_BASEFAB_H
00031 #define CH_BASEFAB_H
00032 
00033 //
00034 // $Id: BaseFab.H,v 1.7 2002/01/26 01:11:05 dmartin Exp $
00035 //
00036 
00037 #include <cstdlib>
00038 #include <assert.h>
00039 #include <string>
00040 #include <typeinfo>
00041 #include "Box.H"
00042 #include "Arena.H"
00043 #include "Interval.H"
00044 
00045 
00046 //
00047 //@Man:
00048 //@Memo: A Fortran Array-like Container
00049 /*@Doc:
00050 
00051   BaseFab emulates the Fortran array concept.  
00052   Useful operations can be performed upon
00053   BaseFab's in C++, and they provide a convenient interface to
00054   Fortran when it is necessary to retreat into that language.
00055         
00056   `BaseFab' is a template class.  Through use of the
00057   template, a `BaseFab' may be based upon any class.  So far at least,
00058   most applications have been based upon simple types like `integer's,
00059   `real's, or `doubleprecision's.  Most applications do not use BaseFab's 
00060   directly, but utilize specialized classes derived from BaseFab.
00061         
00062   It will be easier to use a `BaseFab' if you understand the following
00063   concepts.  `BaseFab' objects depend on the dimensionality of space
00064   (indirectly through the DOMAIN `Box' member).  It is
00065   typical to define the macro `CH_SPACEDIM' to be 1, 2, or 3 to indicate
00066   the dimension of space.  See the discussion of class `Box' for more
00067   information.  A `BaseFab' contains a `Box' DOMAIN, which indicates the
00068   integer indexing space over which the array is defined.  A `BaseFab'
00069   also has NVAR components.  By components, we mean that for each
00070   point in the rectangular indexing space, there are NVAR values
00071   associated with that point.  A Fortran array corresponding to a
00072   `BaseFab' would have (CH_SPACEDIM+1) dimensions.
00073         
00074   By design, the array layout in a `BaseFab' mirrors that of a
00075   Fortran array.  The first index (x direction for example) varies
00076   most rapidly, the next index (y direction), if any, varies next
00077   fastest. The component index varies last, after all the spatial
00078   indices.
00079         
00080   It is sometimes convenient to be able to treat a sub-array within an
00081   existing `BaseFab' as a `BaseFab' in its own right.  This is often
00082   referred to as 'aliasing' the `BaseFab'.  Note that when aliasing is 
00083   used, the BaseFab's domain will not, in general, be the same as the 
00084   parent BaseFab's domain, nor will the number of components.
00085   BaseFab is a dimension dependent class, so CH_SPACEDIM must be 
00086   defined as either 1, 2, or 3 when compiling.
00087 
00088   This is NOT a polymorphic class.
00089 
00090   It does NOT provide a copy constructor or assignment operator.
00091 
00092   T MUST have a default constructor and an assignment operator.
00093 */
00094 
00095 template <class T>
00096 class BaseFab
00097 {
00098 public:
00099 
00101 
00102   /*@ManDoc: Constructs an invalid `BaseFab'.  The domain is invalid, the
00103     number of components is zero, and no actual array memory is
00104     allocated.  An invalid `BaseFab' must be resize()d
00105     (see `BaseFab::resize') before use.
00106   */
00107   BaseFab ();
00108 
00110 
00113   BaseFab (const Box& bx,
00114            int        n);
00115 
00117 
00120   virtual ~BaseFab ();
00121 
00122   /*@ManDoc: This function resizes a `BaseFab' so it covers the `Box' B
00123                with N components.  The default action
00124                is that under resize()ing, the memory allocated for the
00125                `BaseFab' only grows and never shrinks.  This function is
00126                particularly useful when a `BaseFab' is used as a temporary
00127                space which must be a different size whenever it is used.
00128                Resize()ing a temp will often be faster than re-allocating a
00129                `BaseFab' because memory allocation can often be avoided.
00130     */
00131   void resize (const Box& b,
00132                int        N = 1);
00133 
00134   /*@ManDoc: Make BaseFab with desired domain and number of components.
00135                existing data is lost.  Data is in uninialized state.
00136     */
00137   virtual void define(const Box& box, int comps) { resize(box, comps);}
00138 
00139   /*@ManDoc: The function returns the `BaseFab' to the invalid state.  (See
00140                comments for constructors above.)  The memory is freed.
00141     */
00142   void clear ();
00143 
00144 
00146 
00148 
00151   int nComp () const;
00152 
00154 
00157   const Box& box () const;
00158 
00159   /*@ManDoc: Returns a pointer to an array of SpaceDim integers
00160                giving the length of the domain in each direction.
00161     */
00162   const int* size () const;
00163 
00164   /*@ManDoc: Returns the lower corner of the domain.  See
00165                class `Box' for analogue.
00166     */
00167   const IntVect& smallEnd () const;
00168  
00169   /*@ManDoc:  Returns the upper corner of the domain.  See
00170                 class `Box' for analogue.
00171     */
00172   const IntVect& bigEnd () const;
00173 
00175 
00178   Interval interval() const
00179   { return Interval(0, nvar-1); }
00180 
00181   /*@ManDoc: Returns a modifiable lvalue reference to the Nth component value
00182                defined at position p in the domain.  This operator may be
00183                inefficient if the C++ compiler is unable to optimize the
00184                C++ code.
00185     */
00186   T& operator() (const IntVect& p,
00187                  int            N);
00188 
00189   T& operator() (const IntVect& p);
00190 
00191   /*@ManDoc: Returns a conatant reference to the Nth component value
00192     defined at position p in the domain.  This operator may be
00193     inefficient if the C++ compiler is unable to optimize the
00194     C++ code.
00195     */
00196   const T& operator() (const IntVect& p,
00197                        int            N) const;
00198 
00199   const T& operator() (const IntVect& p) const;
00200 
00201   /*@ManDoc: This function puts numcomp component values, starting at
00202                component N, from position pos in the domain into array data,
00203                that must be allocated by the user.
00204     */
00205   void getVal (T*             data,
00206                const IntVect& pos,
00207                int            N,
00208                int            numcomp) const;
00209 
00210   /*@ManDoc: This function puts all component values, starting at
00211                component 0, from position pos in the domain into array data,
00212                that must be allocated by the user.
00213     */
00214   void getVal (T*             data,
00215                const IntVect& pos) const;
00216 
00218 
00219   /*@ManDoc: Returns the lower corner of the domain.  Instead of
00220                returning them in the form of IntVects, as in smallEnd
00221                and bigEnd, it returns the values as a pointer to an
00222                array of constant integers.  This is useful when
00223                interfacing to Fortran subroutines.  It should not be
00224                used in any other context!!!
00225 
00226     */
00227   const int* loVect () const;
00228  
00229   /*@ManDoc: Returns the upper corner of the domain.  Instead of
00230                returning them in the form of IntVects, as in smallEnd
00231                and bigEnd, it returns the values as a pointer to an
00232                array of constant integers.  This is useful when
00233                interfacing to Fortran subroutines.  It should not be
00234                used in any other context!!!
00235 
00236     */
00237   const int* hiVect () const;
00238  
00239   /*@ManDoc: Returns a pointer to an integer that contains the 
00240                number of components in the BaseFab. This is useful when
00241                interfacing to Fortran subroutines.  It should not be
00242                used in any other context!!!
00243 
00244     */
00245   const int* nCompPtr () const;
00246  
00247   /*@ManDoc: Returns a pointer to an object of type T that is the
00248                value of the Nth component associated with the cell at
00249                the low end of the domain.  This is commonly used to
00250                get a pointer to data in the array which is then handed
00251                off to a Fortran subroutine. It should not be used in
00252                any other context!!!  Remember that data is stored in
00253                Fortran array order, with the component index coming
00254                last.  In other words, `dataPtr' returns a pointer to
00255                all the Nth components.  
00256 
00257 */
00258   T* dataPtr (int N = 0);
00259 
00260   /*@ManDoc: Returns a constant pointer to an object of type T that is
00261                the value of the Nth component associated with the cell
00262                at the low end of the domain.  This is commonly used to
00263                get a pointer to data in the array which is then handed
00264                off to a Fortran subroutine.  It should not be used in
00265                any other context!!! Remember that data is stored in
00266                Fortran array order, with the component index coming
00267                last.  In other words, `dataPtr' returns a pointer to
00268                all the Nth components.  
00269 
00270 */
00271   const T* dataPtr (int N = 0) const;
00272 
00274 
00275   /*@ManDoc: Returns true if the domain of fab is totally contained within
00276                the domain of this `BaseFab'.
00277     */
00278   bool contains (const BaseFab<T>& fab) const;
00279  
00280   /*@ManDoc: Returns true if bx is totally contained
00281                within the domain of this `BaseFab'.
00282     */
00283   bool contains (const Box& bx) const;
00284 
00286 
00287   /*@ManDoc: The setVal functions set subregions in the `BaseFab' to a
00288                constant value.  This most general form specifies the sub-box,
00289                the starting component number, and the number of components
00290                to be set.
00291     */
00292   void setVal (T          x,
00293                const Box& bx,
00294                int        nstart,
00295                int        ncomp);
00296 
00298 
00303   void setVal (T          x,
00304                const Box& bx,
00305                int        N);
00306 
00308 
00313   void setVal (T   x,
00314                int N);
00315 
00317 
00322   void setVal (T x);
00323 
00324 
00325   /*@ManDoc: Modifies this BaseFab by copying the contents of the
00326                argument BaseFab into it.  This, the most general form
00327                of copy, specifies the contents of any sub-box srcbox
00328                in `BaseFab' src may be copied into a (possibly
00329                different) destbox in the destination `BaseFab'.  Note
00330                that although the srcbox and the destbox may be
00331                disjoint, they must be the same size and shape.  If the
00332                sizes differ, the copy is undefined and a runtime error
00333                results.  This copy function is the only one of the
00334                copy functions to allow a copy between differing
00335                boxes. The user also specifies how many components are
00336                copied, starting at component srccomp in src and stored
00337                starting at component destcomp.  The results are
00338                UNDEFINED if the src and dest BaseFabs are the same and
00339                the srcbox and destbox overlap.
00340 
00341 */
00342   BaseFab<T>& copy (const BaseFab<T>& src,
00343                     const Box&        srcbox,
00344                     int               srccomp,
00345                     const Box&        destbox,
00346                     int               destcomp,
00347                     int               numcomp);
00348 
00349   /*@ManDoc: Modifies this BaseFab by coping the contents of the
00350              argument BaseFab into it.  A copy within the intersecting
00351              region of the domains of the two BaseFabs is performed.
00352              The user specifies how many components are copied,
00353              starting at component srccomp in src and stored starting
00354              at component destcomp.
00355 
00356 */
00357   BaseFab<T>& copy (const BaseFab<T>& src,
00358                     int               srccomp,
00359                     int               destcomp,
00360                     int               numcomp = 1);
00361 
00362   /*@ManDoc: Modifies this BaseFab by coping the contents of the
00363              argument BaseFab into it.  A copy within the intersecting
00364              region of the domains of the two BaseFabs and the
00365              specified Box destbox is performed.  All components are
00366              copied.
00367 
00368 */
00369   BaseFab<T>& copy (const BaseFab<T>& src,
00370                     const Box&        destbox);
00371 
00372   /*@ManDoc: Modifies this BaseFab by coping the contents of the
00373              argument BaseFab into it.  A copy within the intersecting
00374              region of the domains of the two BaseFabs is performed.
00375              All components are copied.
00376 
00377 */
00378   BaseFab<T>& copy (const BaseFab<T>& src);
00379 
00381 
00386   void copy(const Box& RegionFrom, 
00387             const Interval& Cdest, 
00388             const Box& RegionTo,
00389             const BaseFab<T>& src, 
00390             const Interval& Csrc);
00391 
00392 
00394 
00396 
00402   BaseFab<T>& shift (const IntVect& v);
00403 
00405 
00412   BaseFab<T>& shift (int idir,
00413                      int n_cell);
00414 
00416 
00428   BaseFab<T>& shiftHalf (int dir,
00429                          int num_halfs);
00430 
00432 
00438   BaseFab<T>& shiftHalf (const IntVect& num_halfs);
00439 
00441 
00443 
00449   virtual int size(const Box& b, const Interval& comps) const;
00450 
00452 
00457   virtual void linearOut(void* buf, const Box& R, const Interval& comps) const;
00458 
00460   virtual void linearIn(void* buf, const Box& R, const Interval& comps);
00461 
00463   static int preAllocatable(){ return 0;} // static preAllocatable
00464 
00465 protected:
00466   //
00467   // Allocates memory for the `BaseFab<T>'.
00468   //
00469   void define ();
00470   //
00471   // Deallocates memory for the `BaseFab<T>'.
00472   //
00473   void undefine ();
00474   //
00475   // template class static data member.  not sure if this will
00476   // work with all compilers.  It has been in the draft standard
00477   // for some time
00478   //
00479   static Arena* s_Arena;
00480   //
00481   //
00482   static std::string name();
00483   //
00484   // The function called by BaseFab copy operations.
00485   //
00486   virtual void performCopy (const BaseFab<T>& src,
00487                             const Box&        srcbox,
00488                             int               srccomp,
00489                             const Box&        destbox,
00490                             int               destcomp,
00491                             int               numcomp);
00492 
00493   //
00494   // This function is called by the `BaseFab' setVal operations.
00495   //
00496   void performSetVal (T          x,
00497                       const Box& bx,
00498                       int        nstart,
00499                       int        numcomp);
00500 
00501 
00502 private:
00503   //
00504   // These functions are made private to prevent use of the default 
00505   // functions provided by the C++ compiler.
00506   //
00507 
00508   BaseFab<T>& operator= (const BaseFab<T>&);
00509   BaseFab (const BaseFab<T>&);
00510 
00511 protected:
00512 
00513   Box  domain;   // My index space.
00514   int  nvar;     // Number components.
00515   long numpts;   // Cached number of points in FAB.
00516   long truesize; // nvar*numpts that was allocated on heap.
00517   T*   dptr;     // The data pointer.
00518 };
00519 
00520 #include "BaseFabImplem.H"
00521 
00522 #endif /*CH_BASEFAB_H*/
00523 

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