kicad/utils/idftools/vrml_layer.h

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/*
* file: vrml_layer.h
*
* This program source code file is part of KiCad, a free EDA CAD application.
*
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* Copyright (C) 2013-2017 Cirilo Bernardo
* Copyright (C) 2021 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
/**
* @file vrml_layer.h
*/
/*
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* Classes and structures to support the tesselation of a PCB for VRML output.
*/
#ifndef VRML_LAYER_H
#define VRML_LAYER_H
// Apple, in their infinite wisdom, has decided to mark OpenGL as deprecated.
// Luckily we can silence warnings about its deprecation.
#ifdef __APPLE__
#define GL_SILENCE_DEPRECATION 1
#endif
#include <wx/glcanvas.h> // CALLBACK definition, needed on Windows
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// also needed on OSX to define __DARWIN__
#ifdef __WXMAC__
# ifdef __DARWIN__
# include <OpenGL/glu.h>
# else
# include <glu.h>
# endif
#else
# include <GL/glu.h>
#endif
#include <iostream>
#include <vector>
#include <list>
#include <utility>
#ifndef M_PI2
#define M_PI2 ( M_PI / 2.0 )
#endif
#ifndef M_PI4
#define M_PI4 ( M_PI / 4.0 )
#endif
struct VERTEX_3D
{
double x;
double y;
int i; // vertex index
int o; // vertex order
bool pth; // true for plate-through hole
};
struct TRIPLET_3D
{
int i1, i2, i3;
TRIPLET_3D( int p1, int p2, int p3 )
{
i1 = p1;
i2 = p2;
i3 = p3;
}
};
class VRML_LAYER
{
public:
VRML_LAYER();
virtual ~VRML_LAYER();
/**
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* Retrieve the parameters used in calculating the number of vertices in an arc.
*
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* @param aMaxSeg is the maximum number of segments for an arc with cords of length aMinLength.
* @param aMinLength is the minimum length of cords in an arc.
* @param aMaxLength is the maximum length of cords in an arc.
*/
void GetArcParams( int& aMaxSeg, double& aMinLength, double& aMaxLength );
/**
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* Set the parameters used in calculating the number of vertices in an arc.
*
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* The default settings are reasonable for rendering for unit lengths of 1mm.
*
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* @param aMaxSeg is the maximum number of segments for an arc with cords of length aMinLength.
* @param aMinLength is the minimum length of cords in an arc.
* @param aMaxLength is the maximum length of cords in an arc.
* @return true if the parameters were accepted.
*/
bool SetArcParams( int aMaxSeg, double aMinLength, double aMaxLength );
/**
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* Reset the parameters used in calculating the number of vertices in an arc to default values.
*/
void ResetArcParams();
/**
* Erase all data except for arc parameters.
*/
void Clear( void );
/**
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* @return the total number of vertices indexed.
*/
int GetSize( void );
/**
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* @return the number of stored contours.
*/
int GetNContours( void )
{
return contours.size();
}
/**
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* Create a new list of vertices and returns an index to the list.
*
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* @param aPlatedHole is true if the new contour will represent a plated hole.
* @return index to the list or -1 if the operation failed.
*/
int NewContour( bool aPlatedHole = false );
/**
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* Add a point to the requested contour.
*
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* @param aContour is an index previously returned by a call to NewContour().
* @param aXpos is the X coordinate of the vertex.
* @param aYpos is the Y coordinate of the vertex.
* @return true if the vertex was added.
*/
bool AddVertex( int aContourID, double aXpos, double aYpos );
/**
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* Check the winding of a contour and ensures that it is a hole or a solid depending on the
* value of @param hole.
*
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* @param aContour is an index to a contour as returned by NewContour().
* @param aHoleFlag determines if the contour must be a hole.
* @return true if the operation succeeded.
*/
bool EnsureWinding( int aContourID, bool aHoleFlag );
/**
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* Add a circular contour to the specified (empty) contour.
*
* @param aXpos is the X coordinate of the hole center.
* @param aYpos is the Y coordinate of the hole center.
* @param aRadius is the radius of the hole.
* @param aContourID is the contour index.
* @param aHoleFlag determines if the contour to be created is a cutout.
* @return true if the new contour was successfully created.
*/
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bool AppendCircle( double aXpos, double aYpos, double aRadius, int aContourID,
bool aHoleFlag = false );
/**
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* Create a circular contour and adds it to the internal list.
*
* @param aXpos is the X coordinate of the hole center.
* @param aYpos is the Y coordinate of the hole center.
* @param aRadius is the radius of the hole.
* @param aHoleFlag determines if the contour to be created is a cutout.
* @param aPlatedHole is true if this is a plated hole.
* @return true if the new contour was successfully created.
*/
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bool AddCircle( double aXpos, double aYpos, double aRadius, bool aHoleFlag = false,
bool aPlatedHole = false );
/**
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* Create and add a slot feature to the list of contours.
*
* @param aCenterX is the X coordinate of the slot's center.
* @param aCenterY is the Y coordinate of the slot's center.
* @param aSlotLength is the length of the slot along the major axis.
* @param aSlotWidth is the width of the slot along the minor axis.
* @param aAngle (degrees) is the orientation of the slot.
* @param aHoleFlag determines whether the slot is a hole or a solid.
* @param aPlatedHole is true if this is a plated slot.
* @return true if the slot was successfully created.
*/
bool AddSlot( double aCenterX, double aCenterY, double aSlotLength, double aSlotWidth,
double aAngle, bool aHoleFlag = false, bool aPlatedHole = false );
/**
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* Add an arc to the specified contour.
*
* @param aCenterX is the X coordinate of the arc's center.
* @param aCenterY is the Y coordinate of the arc's center.
* @param aRadius is the radius of the arc.
* @param aStartAngle (degrees) is the starting angle of the arc.
* @param aAngle (degrees) is the measure of the arc.
* @param aContourID is the contour's index.
* @return true if the slot was successfully created.
*/
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bool AppendArc( double aCenterX, double aCenterY, double aRadius, double aStartAngle,
double aAngle, int aContourID );
/**
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* Create a slotted arc and adds it to the internal list of contours.
*
* @param aCenterX is the X coordinate of the arc's center.
* @param aCenterY is the Y coordinate of the arc's center.
* @param aStartX is the X coordinate of the starting point.
* @param aStartY is the Y coordinate of the starting point.
* @param aArcWidth is the width of the arc.
* @param aAngle is the included angle (degrees).
* @param aHoleFlag determines whether the arc is to be a hole or a solid.
* @param aPlatedHole is true if this is a plated slotted arc.
* @return true if the feature was successfully created.
*/
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bool AddArc( double aCenterX, double aCenterY, double aStartX, double aStartY,
double aArcWidth, double aAngle, bool aHoleFlag = false,
bool aPlatedHole = false );
/**
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* Create an arbitrary polygon and adds it to the list of contours.
*
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* @param aPolySet is the set of polygon points.
* @param aCenterX is the X coordinate of the polygon's center.
* @param aCenterY is the Y coordinate of the polygon's center.
* @param aAngle is the rotation angle (degrees) of the pad.
*/
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bool AddPolygon( const std::vector< wxRealPoint >& aPolySet, double aCenterX, double aCenterY,
double aAngle );
/**
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* Create a list of outline vertices as well as the vertex sets required to render the surface.
*
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* @param holes is an optional pointer to cutouts to be imposed on the surface.
* @param aHolesOnly is true if the outline contains only holes.
* @return true if the operation succeeded.
*/
bool Tesselate( VRML_LAYER* holes = NULL, bool aHolesOnly = false );
/**
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* Write out the list of vertices required to render a planar surface.
*
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* @param aZcoord is the Z coordinate of the plane.
* @param aOutFile is the file to write to.
* @param aPrecision is the precision of the output coordinates.
* @return true if the operation succeeded.
*/
bool WriteVertices( double aZcoord, std::ostream& aOutFile, int aPrecision );
/**
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* Write out the list of vertices required to render an extruded solid.
*
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* @param aTopZ is the Z coordinate of the top plane.
* @param aBottomZ is the Z coordinate of the bottom plane.
* @param aOutFile is the file to write to.
* @param aPrecision is the precision of the output coordinates.
* @return true if the operation succeeded.
*/
bool Write3DVertices( double aTopZ, double aBottomZ, std::ostream& aOutFile, int aPrecision );
/**
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* Write out the vertex sets required to render a planar surface.
*
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* @param aTopFlag is true if the surface is to be visible from above; if false the surface
* will be visible from below.
* @param aOutFile is the file to write to.
* @return true if the operation succeeded.
*/
bool WriteIndices( bool aTopFlag, std::ostream& aOutFile );
/**
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* Write out the vertex sets required to render an extruded solid.
*
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* @param aOutFile is the file to write to.
* @param aIncludePlatedHoles is true if holes marked as plated should be rendered. Default
* is false since the user will usually render these holes in a
* different color.
* @return true if the operation succeeded.
*/
bool Write3DIndices( std::ostream& aOutFile, bool aIncludePlatedHoles = false );
/**
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* Add an extra vertex as required by the GLU tesselator.
*
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* @param aXpos is the X coordinate of the newly created point.
* @param aYpos is the Y coordinate of the newly created point.
* @param aPlatedHole is true if this point is part of a plated hole.
* @return is the new vertex or NULL if a vertex could not be created.
*/
VERTEX_3D* AddExtraVertex( double aXpos, double aYpos, bool aPlatedHole );
/**
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* Invoked by the GLU tesselator callback to notify this object of the type of GL command
* which is applicable to the upcoming vertex list.
*
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* @param cmd is the GL command.
*/
void glStart( GLenum cmd );
/**
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* Invoked by the GLU tesselator callback; the supplied vertex is added to the internal list
* of vertices awaiting processing upon execution of glEnd()
*
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* @param vertex is a vertex forming part of the GL command as previously set by glStart.
*/
void glPushVertex( VERTEX_3D* vertex );
/**
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* Invoked by the GLU tesselator callback to notify this object that the vertex list is
* complete and ready for processing.
*/
void glEnd( void );
/**
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* Set the error message according to the specified OpenGL error.
*/
void SetGLError( GLenum error_id );
/**
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* Inserts all contours into the given tesselator.
*
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* This results in the renumbering of all vertices from \a start. Take care when using
* this call since tesselators cannot work on the internal data concurrently.
*
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* @param start is the starting number for vertex indices.
* @param tess is a pointer to a GLU Tesselator object.
* @return the number of vertices exported.
*/
int Import( int start, GLUtesselator* aTesselator );
/**
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* Return a pointer to the requested vertex or NULL if no such vertex exists.
*
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* @param aPointIndex is a vertex index.
* @return the requested vertex or NULL
*/
VERTEX_3D* GetVertexByIndex( int aPointIndex );
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/**
* @return the error message related to the last failed operation.
*/
const std::string& GetError( void );
void SetVertexOffsets( double aXoffset, double aYoffset );
/**
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* Allocate and populate the 3D vertex and index lists with triangular vertices which may
* be used for rendering a volume.
*
* @param aVertexList will store the vertices.
* @param aIndexPlane will store the indices for the top + bottom planes.
* @param aIndexSide will store the indices for the vertical wall.
* @param aTopZ is the top plane of the model.
* @param aBotZ is the bottom plane of the model.
*/
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bool Get3DTriangles( std::vector< double >& aVertexList, std::vector< int >& aIndexPlane,
std::vector< int >& aIndexSide, double aTopZ, double aBotZ );
/**
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* Allocate and populate the 3D vertex and index lists with triangular vertices which may
* be used for rendering a plane.
*
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* @param aVertexList will store the vertices.
* @param aIndexPlane will store the indices for the plane.
* @param aHeight is the plane of the model.
* @param aTopPlane is true if the plane is a top plane (false = reverse indices).
*/
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bool Get2DTriangles( std::vector< double >& aVertexList, std::vector< int > &aIndexPlane,
double aHeight, bool aTopPlane );
private:
void clearTmp( void ); // clear ephemeral data used by the tesselation routine
// add a triangular facet (triplet) to the output index list
bool addTriplet( VERTEX_3D* p0, VERTEX_3D* p1, VERTEX_3D* p2 );
// retrieve a vertex given its index; the vertex may be contained in the
// vertices vector, extra_verts vector, or foreign VRML_LAYER object
VERTEX_3D* getVertexByIndex( int aPointIndex, VRML_LAYER* holes );
void processFan( void ); // process a GL_TRIANGLE_FAN list
void processStrip( void ); // process a GL_TRIANGLE_STRIP list
void processTri( void ); // process a GL_TRIANGLES list
void pushVertices( bool holes ); // push the internal vertices
bool pushOutline( VRML_LAYER* holes ); // push the outline vertices
// calculate number of sides on an arc (angle is in radians)
int calcNSides( double aRadius, double aAngle );
// returns the number of solid or hole contours
int checkNContours( bool holes );
public:
/// set to true when a fault is encountered during tesselation
bool Fault;
private:
// Arc parameters
int maxArcSeg; // maximum number of arc segments in a small circle
double minSegLength; // min. segment length
double maxSegLength; // max. segment length
// Vertex offsets to work around a suspected GLU tesselator bug
double offsetX;
double offsetY;
bool fix; // when true, no more vertices may be added by the user
int idx; // vertex index (number of contained vertices)
int ord; // vertex order (number of ordered vertices)
std::vector<VERTEX_3D*> vertices; // vertices of all contours
std::vector<std::list<int>*> contours; // lists of vertices for each contour
std::vector<bool>pth; // indicates whether a 'contour' is a PTH or not
std::vector<bool>solid; // indicates whether a 'contour' is a solid or a hole
std::vector< double > areas; // area of the contours (positive if winding is CCW)
std::list<TRIPLET_3D> triplets; // output facet triplet list (triplet of ORDER values)
std::list<std::list<int>*> outline; // indices for outline outputs (index by ORDER values)
std::vector<int> ordmap; // mapping of ORDER to INDEX
std::string error; // error message
int hidx; // number of vertices in the holes
int eidx; // index for extra vertices
std::vector<VERTEX_3D*> extra_verts; // extra vertices added for outlines and facets
std::vector<VERTEX_3D*> vlist; // vertex list for the GL command in progress
VRML_LAYER* pholes; // pointer to another layer object used for tesselation;
// this object is normally expected to hold only holes
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GLUtesselator* tess; // local instance of the GLU tesselator
GLenum glcmd; // current GL command type ( fan, triangle, tri-strip, loop )
};
#endif // VRML_LAYER_H