/usr/include/vtk-5.10/vtkPainterDeviceAdapter.h is in libvtk5-dev 5.10.1+dfsg-2.1build1.
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Program: Visualization Toolkit
Module: vtkPainterDeviceAdapter.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.
=========================================================================*/
/*
* Copyright 2004 Sandia Corporation.
* Under the terms of Contract DE-AC04-94AL85000, there is a non-exclusive
* license for use of this work by or on behalf of the
* U.S. Government. Redistribution and use in source and binary forms, with
* or without modification, are permitted provided that this Notice and any
* statement of authorship are reproduced on all copies.
*/
// .NAME vtkPainterDeviceAdapter - An adapter between a vtkPainter and a rendering device.
//
// .SECTION Description
//
// This class is an adapter between a vtkPainter and a rendering device (such
// as an OpenGL machine). Having an abstract adapter allows vtkPainters
// to be re-used for any rendering system.
//
// Although VTK really only uses OpenGL right now, there are reasons to
// swap out the rendering functions. Sometimes MESA with mangled names
// is used. Also, different shader extensions use different functions.
// Furthermore, Cg also has its own interface.
//
// The interface for this class should be familier to anyone experienced
// with OpenGL.
//
// .SECTION See Also
// vtkPainter
//
#ifndef __vtkPainterDeviceAdapter_h
#define __vtkPainterDeviceAdapter_h
#include "vtkObject.h"
#include "vtkDataArray.h" // needed for inline functions.
class vtkRenderer;
class VTK_RENDERING_EXPORT vtkPainterDeviceAdapter : public vtkObject
{
public:
static vtkPainterDeviceAdapter* New();
vtkTypeMacro(vtkPainterDeviceAdapter, vtkObject);
virtual void PrintSelf(ostream &os, vtkIndent indent);
// Description:
// Signals the start of sending a primitive to the graphics card. The
// mode is one of VTK_VERTEX, VTK_POLY_VERTEX, VTK_LINE, VTK_POLY_LINE,
// VTK_TRIANGLE, VTK_TRIANGLE_STRIP, VTK_POLYGON, or VTK_QUAD. The
// primitive is defined by the attributes sent between the calls to
// BeginPrimitive and EndPrimitive. You do not need to call
// EndPrimitive/BeginPrimitive between primitives that have a constant
// number of points (i.e. VTK_VERTEX, VTK_LINE, VTK_TRIANGLE, and
// VTK_QUAD).
virtual void BeginPrimitive(int mode) = 0;
// Description:
// Signals the end of sending a primitive to the graphics card.
virtual void EndPrimitive() = 0;
// Description:
// Returns if the given attribute type is supported by the device.
// Returns 1 is supported, 0 otherwise.
virtual int IsAttributesSupported(int attribute)=0;
// Description:
// Calls glMultiTex
virtual void SendMultiTextureCoords(int numcomp, int type, const void *attribute,
int idx, vtkIdType offset) = 0;
// Description:
// Sends a single attribute to the graphics card. The index parameter
// identifies the attribute. Some indices have special meaning (see
// vtkPainter for details). The components parameter gives the number of
// components in the attribute. In general, components must be between
// 1-4, but a rendering system may impose even more constraints. The
// type parameter is a VTK type enumeration (VTK_FLOAT, VTK_INT, etc.).
// Again, a rendering system may not support all types for all
// attributes. The attribute parameter is the actual data for the
// attribute.
// If offset is specified, it is added to attribute pointer after
// it has been casted to the proper type.
virtual void SendAttribute(int index, int components, int type,
const void *attribute, vtkIdType offset=0) = 0;
// Description:
// Sets an array of attributes. This allows you to send all the data for
// a particular attribute with one call, thus greatly reducing function
// call overhead. Once set, the array is enabled with
// EnableAttributeArray, and the data is sent with a call to DrawArrays
// DrawElements.
void SetAttributePointer(int index, vtkDataArray *attributeArray);
// Description:
// Sets an array of attributes. This allows you to send all the data for
// a particular attribute with one call, thus greatly reducing function
// call overhead. Once set, the array is enabled with
// EnableAttributeArray, and the data is sent with a call to DrawArrays
// DrawElements.
//
// \arg \c index the index of the attribute.
// \arg \c numcomponents the number of components in each attribute entry.
// \arg \c type the data type (VTK_FLOAT, VTK_UNSIGNED_CHAR, etc.).
// \arg \c stride the byte offset between entries in the array (0 for
// tightly packed).
// \arg \c pointer the array holding the data.
virtual void SetAttributePointer(int index, int numcomponents, int type,
int stride, const void *pointer) = 0;
// Description:
// Enable/disable the attribute array set with SetAttributePointer.
virtual void EnableAttributeArray(int index) = 0;
virtual void DisableAttributeArray(int index) = 0;
// Description:
// Send a section of the enabled attribute pointers to the graphics card
// to define a primitive. The mode is one of VTK_VERTEX,
// VTK_POLY_VERTEX, VTK_LINE, VTK_POLY_LINE, VTK_TRIANGLE,
// VTK_TRIANGLE_STRIP, VTK_POLYGON, or VTK_QUAD. It identifies which
// type of primitive the attribute data is defining. The parameters
// first and count identify what part of the attribute arrays define the
// given primitive. If mode is a primitive that has a constant number of
// points (i.e. VTK_VERTEX, VTK_LINE, VTK_TRIANGLE, and VTK_QUAD), you
// may draw multiple primitives with one call to DrawArrays.
virtual void DrawArrays(int mode, vtkIdType first, vtkIdType count) = 0;
// Description:
// Send items in the attribute pointers to the graphics card to define a
// primitive. The mode is one of VTK_VERTEX, VTK_POLY_VERTEX, VTK_LINE,
// VTK_POLY_LINE, VTK_TRIANGLE, VTK_TRIANGLE_STRIP, VTK_POLYGON, or
// VTK_QUAD. It identifies which type of primitive the attribute data is
// defining. The indices array holds the list of attribute elements that
// define the primitive. The count and type parameters give the number
// and data type of the indices array. The type parameter is a VTK type
// enumeration (VTK_UNSIGNED_INT, ...). The type should be an integer
// type (for obvious reasons). If mode is a primitive that has a
// constant number of points (i.e. VTK_VERTEX, VTK_LINE, VTK_TRIANGLE,
// and VTK_QUAD), you may draw multiple primitives with one call to
// DrawArrays.
virtual void DrawElements(int mode, vtkIdType count, int type,
void *indices) = 0;
// Description:
// Returns true if this device adapter is compatible with the given
// vtkRenderer.
virtual int Compatible(vtkRenderer *renderer) = 0;
// Description:
// Turns lighting on and off.
virtual void MakeLighting(int mode) = 0;
// Description:
// Returns current lighting setting.
virtual int QueryLighting() = 0;
// Description:
// Turns antialiasing on and off.
virtual void MakeMultisampling(int mode) = 0;
// Description:
// Returns current antialiasing setting.
virtual int QueryMultisampling() = 0;
// Description:
// Turns blending on and off.
virtual void MakeBlending(int mode) = 0;
// Description:
// Returns current blending setting.
virtual int QueryBlending() = 0;
// Description:
// Turns emphasis of vertices on or off for vertex selection.
virtual void MakeVertexEmphasis(bool mode) = 0;
// Description:
// @deprecated
VTK_LEGACY(virtual void MakeVertexEmphasisWithStencilCheck(int vtkNotUsed(mode)));
// Description:
// Control use of the stencil buffer (for vertex selection).
virtual void Stencil(int on) = 0;
virtual void WriteStencil(vtkIdType value) = 0;
virtual void TestStencil(vtkIdType value) = 0;
protected:
vtkPainterDeviceAdapter();
~vtkPainterDeviceAdapter();
private:
vtkPainterDeviceAdapter(const vtkPainterDeviceAdapter &); // Not implemented.
void operator=(const vtkPainterDeviceAdapter &); // Not implemented.
};
inline void vtkPainterDeviceAdapter::SetAttributePointer(int index,
vtkDataArray *attributeArray)
{
this->SetAttributePointer(index, attributeArray->GetNumberOfComponents(),
attributeArray->GetDataType(), 0,
attributeArray->GetVoidPointer(0));
}
#endif //_vtkPainterDeviceAdapter_h
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