libvtk6-dev 6.3.0+dfsg1-5 / usr / include / vtk-6.3 / vtkContextDevice2D.h

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

  Program:   Visualization Toolkit
  Module:    vtkContextDevice2D.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 vtkContextDevice2D - Abstract class for drawing 2D primitives.
//
// .SECTION Description
// This defines the interface for a vtkContextDevice2D. In this sense a
// ContextDevice is a class used to paint 2D primitives onto a device, such as
// an OpenGL context or a QGraphicsView.

#ifndef vtkContextDevice2D_h
#define vtkContextDevice2D_h

#include "vtkRenderingContext2DModule.h" // For export macro
#include "vtkObject.h"
#include "vtkVector.h" // For vtkVector2i ivar
#include "vtkRect.h"   // For vtkRecti ivar
#include "vtkRenderingCoreEnums.h" // For marker enum

class vtkWindow;
class vtkViewport;
class vtkStdString;
class vtkUnicodeString;
class vtkTextProperty;
class vtkPoints2D;
class vtkImageData;
class vtkMatrix3x3;
class vtkAbstractContextBufferId;
class vtkPen;
class vtkBrush;
class vtkRectf;

class VTKRENDERINGCONTEXT2D_EXPORT vtkContextDevice2D : public vtkObject
{
public:
  vtkTypeMacro(vtkContextDevice2D, vtkObject);
  virtual void PrintSelf(ostream &os, vtkIndent indent);

  static vtkContextDevice2D * New();

  // Description:
  // Draw a poly line using the points - fastest code path due to memory
  // layout of the coordinates. The line will be colored by
  // the colors array, which must be have nc_comps components (defining a single
  // color).
  // \sa DrawLines()
  virtual void DrawPoly(float *points, int n,
                        unsigned char *colors = 0, int nc_comps = 0) = 0;

  // Description:
  // Draw lines using the points - memory layout is as follows:
  // l1p1,l1p2,l2p1,l2p2... The lines will be colored by colors array
  // which has nc_comps components (defining a single color).
  // \sa DrawPoly()
  virtual void DrawLines(float *f, int n, unsigned char *colors = 0,
                         int nc_comps = 0) = 0;

  // Description:
  // Draw a series of points - fastest code path due to memory layout of the
  // coordinates. The colors and nc_comps are optional - color array.
  virtual void DrawPoints(float *points, int n, unsigned char* colors = 0,
                          int nc_comps = 0) = 0;

  // Description:
  // Draw a series of point sprites, images centred at the points supplied.
  // The supplied vtkImageData is the sprite to be drawn, only squares will be
  // drawn and the size is set using SetPointSize.
  // \param colors is an optional array of colors.
  // \param nc_comps is the number of components for the color.
  virtual void DrawPointSprites(vtkImageData *sprite, float *points, int n,
                                unsigned char *colors = 0, int nc_comps = 0) = 0;

  // Description:
  // Draw a series of markers centered at the points supplied. The \a shape
  // argument controls the marker shape, and can be one of
  //   - VTK_MARKER_CROSS
  //   - VTK_MARKER_PLUS
  //   - VTK_MARKER_SQUARE
  //   - VTK_MARKER_CIRCLE
  //   - VTK_MARKER_DIAMOND
  // \param colors is an optional array of colors.
  // \param nc_comps is the number of components for the color.
  virtual void DrawMarkers(int shape, bool highlight, float *points, int n,
                           unsigned char *colors = 0, int nc_comps = 0);

  // Description:
  // Draw a quad using the specified number of points.
  virtual void DrawQuad(float *, int) { ; }

  // Description:
  // Draw a quad using the specified number of points.
  virtual void DrawQuadStrip(float *, int) { ; }

  // Description:
  // Draw a polygon using the specified number of points.
  virtual void DrawPolygon(float *, int) { ; }

  // Description:
  // Draw an elliptic wedge with center at x, y, outer radii outRx, outRy,
  // inner radii inRx, inRy between angles startAngle and stopAngle
  // (expressed in degrees).
  // \pre positive_outRx: outRx>=0
  // \pre positive_outRy: outRy>=0
  // \pre positive_inRx: inRx>=0
  // \pre positive_inRy: inRy>=0
  // \pre ordered_rx: inRx<=outRx
  // \pre ordered_ry: inRy<=outRy
  virtual void DrawEllipseWedge(float x, float y, float outRx, float outRy,
                                float inRx, float inRy, float startAngle,
                                float stopAngle)=0;

  // Description:
  // Draw an elliptic arc with center at x,y with radii rX and rY between
  // angles startAngle and stopAngle (expressed in degrees).
  // \pre positive_rX: rX>=0
  // \pre positive_rY: rY>=0
  virtual void DrawEllipticArc(float x, float y, float rX, float rY,
                               float startAngle, float stopAngle)=0;

  // Description:
  // Draw some text to the screen.
  virtual void DrawString(float *point, const vtkStdString &string) = 0;

  // Description:
  // Compute the bounds of the supplied string. The bounds will be copied to the
  // supplied bounds variable, the first two elements are the bottom corner of
  // the string, and the second two elements are the width and height of the
  // bounding box.
  // NOTE: This function does not take account of the text rotation.
  virtual void ComputeStringBounds(const vtkStdString &string,
                                   float bounds[4]) = 0;

  // Description:
  // Draw some text to the screen.
  virtual void DrawString(float *point, const vtkUnicodeString &string) = 0;

  // Description:
  // Compute the bounds of the supplied string. The bounds will be copied to the
  // supplied bounds variable, the first two elements are the bottom corner of
  // the string, and the second two elements are the width and height of the
  // bounding box.
  // NOTE: This function does not take account of the text rotation.
  virtual void ComputeStringBounds(const vtkUnicodeString &string,
                                   float bounds[4]) = 0;

  // Description:
  // Draw text using MathText markup for mathematical equations. See
  // http://matplotlib.sourceforge.net/users/mathtext.html for more information.
  virtual void DrawMathTextString(float *point, const vtkStdString &string) = 0;

  // Description:
  // Return true if MathText rendering available on this device.
  virtual bool MathTextIsSupported();

  // Description:
  // Draw the supplied image at the given x, y (p[0], p[1]) (bottom corner),
  // scaled by scale (1.0 would match the image).
  virtual void DrawImage(float p[2], float scale, vtkImageData *image) = 0;

  // Description:
  // Draw the supplied image at the given position. The origin, width, and
  // height are specified by the supplied vtkRectf variable pos. The image
  // will be drawn scaled to that size.
  virtual void DrawImage(const vtkRectf& pos, vtkImageData *image) = 0;

  // Description:
  // Apply the supplied pen which controls the outlines of shapes, as well as
  // lines, points and related primitives. This makes a deep copy of the vtkPen
  // object in the vtkContext2D, it does not hold a pointer to the supplied object.
  void ApplyPen(vtkPen *pen);

  // Description:
  // Get the pen which controls the outlines of shapes, as well as lines,
  // points and related primitives. This object can be modified and the changes
  // will be reflected in subsequent drawing operations.
  vtkGetObjectMacro(Pen, vtkPen);

  // Description:
  // Apply the supplied brush which controls the outlines of shapes, as well as
  // lines, points and related primitives. This makes a deep copy of the vtkBrush
  // object in the vtkContext2D, it does not hold a pointer to the supplied object.
  void ApplyBrush(vtkBrush *brush);

  // Description:
  // Get the pen which controls the outlines of shapes as well as lines, points
  // and related primitives.
  vtkGetObjectMacro(Brush, vtkBrush);

  // Description:
  // Apply the supplied text property which controls how text is rendered.
  // This makes a deep copy of the vtkTextProperty object in the vtkContext2D,
  // it does not hold a pointer to the supplied object.
  void ApplyTextProp(vtkTextProperty *prop);

  // Description:
  // Get the text properties object for the vtkContext2D.
  vtkGetObjectMacro(TextProp, vtkTextProperty);

  // Description:
  // Set the color for the device using unsigned char of length 4, RGBA.
  virtual void SetColor4(unsigned char color[4]) = 0;

  enum TextureProperty {
    Nearest = 0x01,
    Linear  = 0x02,
    Stretch = 0x04,
    Repeat  = 0x08
  };
  // Description:
  // Set the texture for the device, it is used to fill the polygons
  virtual void SetTexture(vtkImageData* image, int properties) = 0;

  // Description:
  // Set the point size for glyphs/sprites.
  virtual void SetPointSize(float size) = 0;

  // Description:
  // Set the line width.
  virtual void SetLineWidth(float width) = 0;

  // Description:
  // Set the line type type (using anonymous enum in vtkPen).
  virtual void SetLineType(int type) = 0;

  // Description:
  // Get the width of the device in pixels.
  virtual int GetWidth() { return this->Geometry[0]; }

  // Description:
  // Get the width of the device in pixels.
  virtual int GetHeight() { return this->Geometry[1]; }

  // Description:
  // Set the model view matrix for the display
  virtual void SetMatrix(vtkMatrix3x3 *m) = 0;

  // Description:
  // Set the model view matrix for the display
  virtual void GetMatrix(vtkMatrix3x3 *m) = 0;

  // Description:
  // Multiply the current model view matrix by the supplied one
  virtual void MultiplyMatrix(vtkMatrix3x3 *m) = 0;

  // Description:
  // Push the current matrix onto the stack.
  virtual void PushMatrix() = 0;

  // Description:
  // Pop the current matrix off of the stack.
  virtual void PopMatrix() = 0;

  // Description:
  // Supply a float array of length 4 with x1, y1, width, height specifying
  // clipping region for the device in pixels.
  virtual void SetClipping(int *x) = 0;

  // Description:
  // Disable clipping of the display.
  // Remove in a future release - retained for API compatibility.
  virtual void DisableClipping() { this->EnableClipping(false); }

  // Description:
  // Enable or disable the clipping of the scene.
  virtual void EnableClipping(bool enable) = 0;

  // Description:
  // Begin drawing, pass in the viewport to set up the view.
  virtual void Begin(vtkViewport*) { }

  // Description:
  // End drawing, clean up the view.
  virtual void End() { }

  // Description:
  // Tell if the device context is in BufferId creation mode.
  // Initial value is false.
  virtual bool GetBufferIdMode() const;

//BTX
  // Description:
  // Start BufferId creation Mode.
  // The default implementation is empty.
  // \pre not_yet: !GetBufferIdMode()
  // \pre bufferId_exists: bufferId!=0
  // \post started: GetBufferIdMode()
  virtual void BufferIdModeBegin(vtkAbstractContextBufferId *bufferId);
//ETX
  // Description:
  // Finalize BufferId creation Mode. It makes sure that the content of the
  // bufferId passed in argument of BufferIdModeBegin() is correctly set.
  // The default implementation is empty.
  // \pre started: GetBufferIdMode()
  // \post done: !GetBufferIdMode()
  virtual void BufferIdModeEnd();

  virtual void SetViewportSize(const vtkVector2i &size)
  {
    this->ViewportSize = size;
  }

  virtual void SetViewportRect(const vtkRecti &rect)
  {
    this->ViewportRect = rect;
  }

//BTX
protected:
  vtkContextDevice2D();
  ~vtkContextDevice2D();

  // Description:
  // Store the width and height of the device in pixels.
  int Geometry[2];

  // Description:
  // Store the size of the total viewport.
  vtkVector2i ViewportSize;

  // Description:
  // Store our origin and size in the total viewport.
  vtkRecti ViewportRect;

  vtkAbstractContextBufferId *BufferId;

  vtkPen *Pen;                // Outlining
  vtkBrush *Brush;            // Fills
  vtkTextProperty *TextProp;  // Text property

private:
  vtkContextDevice2D(const vtkContextDevice2D &); // Not implemented.
  void operator=(const vtkContextDevice2D &);   // Not implemented.

//ETX
};

#endif //vtkContextDevice2D_h