libvtk6-dev 6.3.0+dfsg1-11build1 / usr / include / vtk-6.3 / vtkFieldData.h

/*=========================================================================

  Program:   Visualization Toolkit
  Module:    vtkFieldData.h

  Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
  All rights reserved.
  See Copyright.txt or http://www.kitware.com/Copyright.htm for details.

     This software is distributed WITHOUT ANY WARRANTY; without even
     the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
     PURPOSE.  See the above copyright notice for more information.

=========================================================================*/
// .NAME vtkFieldData - represent and manipulate fields of data
// .SECTION Description
// vtkFieldData represents and manipulates fields of data. The model of a field
// is a m x n matrix of data values, where m is the number of tuples, and n
// is the number of components. (A tuple is a row of n components in the
// matrix.) The field is assumed to be composed of a set of one or more data
// arrays, where the data in the arrays are of different types (e.g., int,
// double, char, etc.), and there may be variable numbers of components in
// each array. Note that each data array is assumed to be "m" in length
// (i.e., number of tuples), which typically corresponds to the number of
// points or cells in a dataset. Also, each data array must have a
// character-string name. (This is used to manipulate data.)
//
// There are two ways of manipulating and interfacing to fields. You can do
// it generically by manipulating components/tuples via a double-type data
// exchange, or you can do it by grabbing the arrays and manipulating them
// directly. The former is simpler but performs type conversion, which is bad
// if your data has non-castable types like (void) pointers, or you lose
// information as a result of the cast. The, more efficient method means
// managing each array in the field.  Using this method you can create
// faster, more efficient algorithms that do not lose information.

// .SECTION See Also
// vtkAbstractArray vtkDataSetAttributes vtkPointData vtkCellData

#ifndef vtkFieldData_h
#define vtkFieldData_h

#include "vtkCommonDataModelModule.h" // For export macro
#include "vtkObject.h"

#include "vtkAbstractArray.h" // Needed for inline methods.

class vtkIdList;

class VTKCOMMONDATAMODEL_EXPORT vtkFieldData : public vtkObject
{
public:
  static vtkFieldData *New();

  vtkTypeMacro(vtkFieldData,vtkObject);
  void PrintSelf(ostream& os, vtkIndent indent);

  // Description:
  // Release all data but do not delete object.
  // Also, clear the copy flags.
  virtual void Initialize();

  // Description:
  // Allocate data for each array.
  // Note that ext is no longer used.
  int Allocate(const vtkIdType sz, const vtkIdType ext=1000);

  // Description:
  // Copy data array structure from a given field.  The same arrays
  // will exist with the same types, but will contain nothing in the
  // copy.
  void CopyStructure(vtkFieldData*);

  // Description:
  // AllocateOfArrays actually sets the number of
  // vtkAbstractArray pointers in the vtkFieldData object, not the
  // number of used pointers (arrays). Adding more arrays will
  // cause the object to dynamically adjust the number of pointers
  // if it needs to extend. Although AllocateArrays can
  // be used if the number of arrays which will be added is
  // known, it can be omitted with a small computation cost.
  void AllocateArrays(int num);

  // Description:
  // Get the number of arrays of data available.
  // This does not include NULL array pointers therefore after
  // fd->AllocateArray(n); nArrays = GetNumberOfArrays()
  // nArrays is not necessarily equal to n.
  int GetNumberOfArrays()
    {
      return this->NumberOfActiveArrays;
    }

  // Description:
  // Add an array to the array list. If an array with the same name
  // already exists - then the added array will replace it.
  // Return the index of the added array.
  int AddArray(vtkAbstractArray *array);

  // Description:
  // Remove an array (with the given name) from the list of arrays.
  virtual void RemoveArray(const char *name)
    {
      int i;
      this->GetAbstractArray(name, i);
      this->RemoveArray(i);
    }

  // Description:
  // Return the ith array in the field. A NULL is returned if the
  // index i is out of range. A NULL is returned if the array at the given
  // index is not a vtkDataArray.
  vtkDataArray *GetArray(int i);

  // Description:
  // Return the array with the name given. Returns NULL is array not found.
  // A NULL is also returned if the array with the given name is not a
  // vtkDataArray. Also returns index of array if found, -1 otherwise.
  vtkDataArray *GetArray(const char *arrayName, int &index);

  // Description:
  // Return the array with the name given. Returns NULL is array not found.
  // A NULL is also returned if the array with the given name is not a
  // vtkDataArray.
  vtkDataArray *GetArray(const char *arrayName)
    {
      int i;
      return this->GetArray(arrayName, i);
    }

  // Description:
  // Returns the ith array in the field. Unlike GetArray(), this method returns
  // a vtkAbstractArray. A NULL is returned only if the index i is
  // out of range.
  vtkAbstractArray* GetAbstractArray(int i);

  // Description:
  // Return the array with the name given. Returns NULL is array not found.
  // Unlike GetArray(), this method returns a vtkAbstractArray.
  // Also returns index of array if found, -1 otherwise.
  vtkAbstractArray* GetAbstractArray(const char* arrayName, int &index);

  // Description:
  // Return the array with the name given. Returns NULL is array not found.
  // Unlike GetArray(), this method returns a vtkAbstractArray.
  vtkAbstractArray* GetAbstractArray(const char* arrayName)
    {
    int i;
    return this->GetAbstractArray(arrayName, i);
    }

  // Description:
  // Return 1 if an array with the given name could be found. 0 otherwise.
  int HasArray(const char *name)
    {
      int i;
      vtkAbstractArray *array = this->GetAbstractArray(name, i);
      // assert( i == -1);
      return array ? 1 : 0;
    }

  // Description:
  // Get the name of ith array.
  // Note that this is equivalent to:
  // GetAbstractArray(i)->GetName() if ith array pointer is not NULL
  const char* GetArrayName(int i)
    {
    vtkAbstractArray* da = this->GetAbstractArray(i);
    return da ? da->GetName() : 0;
    }

  // Description:
  // Pass entire arrays of input data through to output. Obey the "copy"
  // flags.
  virtual void PassData(vtkFieldData* fd);

  // Description:
  // Turn on/off the copying of the field specified by name.
  // During the copying/passing, the following rules are followed for each
  // array:
  // 1. If the copy flag for an array is set (on or off), it is applied
  //    This overrides rule 2.
  // 2. If CopyAllOn is set, copy the array.
  //    If CopyAllOff is set, do not copy the array
  void CopyFieldOn(const char* name) { this->CopyFieldOnOff(name, 1); }
  void CopyFieldOff(const char* name) { this->CopyFieldOnOff(name, 0); }

  // Description:
  // Turn on copying of all data.
  // During the copying/passing, the following rules are followed for each
  // array:
  // 1. If the copy flag for an array is set (on or off), it is applied
  //    This overrides rule 2.
  // 2. If CopyAllOn is set, copy the array.
  //    If CopyAllOff is set, do not copy the array
  virtual void CopyAllOn(int unused=0);

  // Description:
  // Turn off copying of all data.
  // During the copying/passing, the following rules are followed for each
  // array:
  // 1. If the copy flag for an array is set (on or off), it is applied
  //    This overrides rule 2.
  // 2. If CopyAllOn is set, copy the array.
  //    If CopyAllOff is set, do not copy the array
  virtual void CopyAllOff(int unused=0);

  // Description:
  // Copy a field by creating new data arrays (i.e., duplicate storage).
  virtual void DeepCopy(vtkFieldData *da);

  // Description:
  // Copy a field by reference counting the data arrays.
  virtual void ShallowCopy(vtkFieldData *da);

  // Description:
  // Squeezes each data array in the field (Squeeze() reclaims unused memory.)
  void Squeeze();

  // Description:
  // Resets each data array in the field (Reset() does not release memory but
  // it makes the arrays look like they are empty.)
  void Reset();

  // Description:
  // Return the memory in kibibytes (1024 bytes) consumed by this field data. Used to
  // support streaming and reading/writing data. The value returned is
  // guaranteed to be greater than or equal to the memory required to
  // actually represent the data represented by this object.
  virtual unsigned long GetActualMemorySize();

  // Description:
  // Check object's components for modified times.
  unsigned long int GetMTime();

  // Description:
  // Get a field from a list of ids. Supplied field f should have same
  // types and number of data arrays as this one (i.e., like
  // CopyStructure() creates).  This method should not be used if the
  // instance is from a subclass of vtkFieldData (vtkPointData or
  // vtkCellData).  This is because in those cases, the attribute data
  // is stored with the other fields and will cause the method to
  // behave in an unexpected way.
  void GetField(vtkIdList *ptId, vtkFieldData *f);

  // Description:
  // Return the array containing the ith component of the field. The
  // return value is an integer number n 0<=n<this->NumberOfArrays. Also,
  // an integer value is returned indicating the component in the array
  // is returned. Method returns -1 if specified component is not
  // in the field.
  int GetArrayContainingComponent(int i, int& arrayComp);

  // Description:
  // Get the number of components in the field. This is determined by adding
  // up the components in each non-NULL array.
  // This method should not be used if the instance is from a
  // subclass of vtkFieldData (vtkPointData or vtkCellData).
  // This is because in those cases, the attribute data is
  // stored with the other fields and will cause the method
  // to behave in an unexpected way.
  int GetNumberOfComponents();

  // Description:
  // Get the number of tuples in the field. Note: some fields have arrays with
  // different numbers of tuples; this method returns the number of tuples in
  // the first array. Mixed-length arrays may have to be treated specially.
  // This method should not be used if the instance is from a
  // subclass of vtkFieldData (vtkPointData or vtkCellData).
  // This is because in those cases, the attribute data is
  // stored with the other fields and will cause the method
  // to behave in an unexpected way.
  vtkIdType GetNumberOfTuples();

  // Description:
  // Set the number of tuples for each data array in the field.
  // This method should not be used if the instance is from a
  // subclass of vtkFieldData (vtkPointData or vtkCellData).
  // This is because in those cases, the attribute data is
  // stored with the other fields and will cause the method
  // to behave in an unexpected way.
  void SetNumberOfTuples(const vtkIdType number);

  // Description:
  // Set the jth tuple in source field data at the ith location.
  // Set operations mean that no range checking is performed, so
  // they're faster.
  void SetTuple(const vtkIdType i, const vtkIdType j, vtkFieldData* source);

  // Description:
  // Insert the jth tuple in source field data at the ith location.
  // Range checking is performed and memory allocates as necessary.
  void InsertTuple(const vtkIdType i, const vtkIdType j, vtkFieldData* source);

  // Description:
  // Insert the jth tuple in source field data  at the end of the
  // tuple matrix. Range checking is performed and memory is allocated
  // as necessary.
  vtkIdType InsertNextTuple(const vtkIdType j, vtkFieldData* source);

protected:

  vtkFieldData();
  ~vtkFieldData();

  int NumberOfArrays;
  int NumberOfActiveArrays;
  vtkAbstractArray **Data;

  // Description:
  // Set an array to define the field.
  void SetArray(int i, vtkAbstractArray *array);

  virtual void RemoveArray(int index);

  // Description:
  // Release all data but do not delete object.
  virtual void InitializeFields();

//BTX

  struct CopyFieldFlag
  {
    char* ArrayName;
    int IsCopied;
  };

  CopyFieldFlag* CopyFieldFlags; //the names of fields not to be copied
  int NumberOfFieldFlags; //the number of fields not to be copied
  void CopyFieldOnOff(const char* name, int onOff);
  void ClearFieldFlags();
  int FindFlag(const char* field);
  int GetFlag(const char* field);
  void CopyFlags(const vtkFieldData* source);
  int DoCopyAllOn;
  int DoCopyAllOff;


private:
  vtkFieldData(const vtkFieldData&);  // Not implemented.
  void operator=(const vtkFieldData&);  // Not implemented.

public:

  class VTKCOMMONDATAMODEL_EXPORT BasicIterator
  {
  public:
    BasicIterator();
    BasicIterator(const BasicIterator& source);
    BasicIterator(const int* list, unsigned int listSize);
    BasicIterator& operator=(const BasicIterator& source);
    virtual ~BasicIterator();
    void PrintSelf(ostream &os, vtkIndent indent);

    int GetListSize() const
      {
        return this->ListSize;
      }
    int GetCurrentIndex()
      {
        return this->List[this->Position];
      }
    int BeginIndex()
      {
        this->Position = -1;
        return this->NextIndex();
      }
    int End() const
      {
        return (this->Position >= this->ListSize);
      }
    int NextIndex()
      {
        this->Position++;
        return (this->End() ? -1 : this->List[this->Position]);
      }

  protected:

    int* List;
    int ListSize;
    int Position;
  };

  class VTKCOMMONDATAMODEL_EXPORT Iterator : public BasicIterator
  {
  public:

    Iterator(const Iterator& source);
    Iterator& operator=(const Iterator& source);
    virtual ~Iterator();
    Iterator(vtkFieldData* dsa, const int* list=0,
             unsigned int listSize=0);

    vtkDataArray* Begin()
      {
        this->Position = -1;
        return this->Next();
      }

    vtkDataArray* Next()
      {
        this->Position++;
        if (this->End())
          {
          return 0;
          }

        // vtkFieldData::GetArray() can return null, which implies that
        // a the array at the given index in not a vtkDataArray subclass.
        // This iterator skips such arrays.
        vtkDataArray* cur =  Fields->GetArray(this->List[this->Position]);
        return (cur? cur : this->Next());
      }

    void DetachFieldData();

  protected:
    vtkFieldData* Fields;
    int Detached;
  };


//ETX

};


#endif