diff options
Diffstat (limited to 'source')
88 files changed, 1359 insertions, 1359 deletions
diff --git a/source/blender/freestyle/intern/application/AppCanvas.h b/source/blender/freestyle/intern/application/AppCanvas.h index 1ff7e781ce6..8329192e6d6 100644 --- a/source/blender/freestyle/intern/application/AppCanvas.h +++ b/source/blender/freestyle/intern/application/AppCanvas.h @@ -32,21 +32,21 @@ class AppCanvas : public Canvas { AppCanvas(const AppCanvas &iBrother); virtual ~AppCanvas(); - /*! operations that need to be done before a draw */ + /** operations that need to be done before a draw */ virtual void preDraw(); - /*! operations that need to be done after a draw */ + /** operations that need to be done after a draw */ virtual void postDraw(); - /*! Erases the layers and clears the canvas */ + /** Erases the layers and clears the canvas */ virtual void Erase(); /* init the canvas */ virtual void init(); - /*! Reads a pixel area from the canvas */ + /** Reads a pixel area from the canvas */ virtual void readColorPixels(int x, int y, int w, int h, RGBImage &oImage) const; - /*! Reads a depth pixel area from the canvas */ + /** Reads a depth pixel area from the canvas */ virtual void readDepthPixels(int x, int y, int w, int h, GrayImage &oImage) const; virtual BBox<Vec3r> scene3DBBox() const; @@ -55,7 +55,7 @@ class AppCanvas : public Canvas { virtual void RenderStroke(Stroke *); virtual void update(); - /*! accessors */ + /** accessors */ virtual int width() const; virtual int height() const; virtual BBox<Vec2i> border() const; @@ -67,7 +67,7 @@ class AppCanvas : public Canvas { return _pViewer; } - /*! modifiers */ + /** modifiers */ void setViewer(AppView *iViewer); /* soc */ diff --git a/source/blender/freestyle/intern/application/AppView.h b/source/blender/freestyle/intern/application/AppView.h index 3f07d2794c4..ccb2c61fef5 100644 --- a/source/blender/freestyle/intern/application/AppView.h +++ b/source/blender/freestyle/intern/application/AppView.h @@ -83,7 +83,7 @@ class AppView { float _thickness; public: - /*! Sets the model to draw in the viewer + /** Sets the model to draw in the viewer * iModel * The Root Node of the model */ @@ -97,7 +97,7 @@ class AppView { AddModel(iModel); } - /*! Adds a model for displaying in the viewer */ + /** Adds a model for displaying in the viewer */ inline void AddModel(NodeGroup *iModel) { _ModelRootNode->AddChild(iModel); @@ -226,14 +226,14 @@ class AppView { real zfar(); public: - /*! Core scene drawing */ + /** Core scene drawing */ void DrawScene(SceneVisitor *iRenderer); - /*! 2D Scene Drawing */ + /** 2D Scene Drawing */ void Draw2DScene(SceneVisitor *iRenderer); protected: - /*! fabs or abs */ + /** fabs or abs */ inline int rabs(int x) { return abs(x); diff --git a/source/blender/freestyle/intern/blender_interface/BlenderFileLoader.h b/source/blender/freestyle/intern/blender_interface/BlenderFileLoader.h index 1be2fc3bc99..8fbda2b55f4 100644 --- a/source/blender/freestyle/intern/blender_interface/BlenderFileLoader.h +++ b/source/blender/freestyle/intern/blender_interface/BlenderFileLoader.h @@ -80,28 +80,28 @@ struct LoaderState { class BlenderFileLoader { public: - /*! Builds a MaxFileLoader */ + /** Builds a MaxFileLoader */ BlenderFileLoader(Render *re, ViewLayer *view_layer, Depsgraph *depsgraph); virtual ~BlenderFileLoader(); - /*! Loads the 3D scene and returns a pointer to the scene root node */ + /** Loads the 3D scene and returns a pointer to the scene root node */ NodeGroup *Load(); - /*! Gets the number of read faces */ + /** Gets the number of read faces */ inline unsigned int numFacesRead() { return _numFacesRead; } #if 0 - /*! Gets the smallest edge size read */ + /** Gets the smallest edge size read */ inline real minEdgeSize() { return _minEdgeSize; } #endif - /*! Modifiers */ + /** Modifiers */ inline void setRenderMonitor(RenderMonitor *iRenderMonitor) { _pRenderMonitor = iRenderMonitor; diff --git a/source/blender/freestyle/intern/blender_interface/BlenderStrokeRenderer.h b/source/blender/freestyle/intern/blender_interface/BlenderStrokeRenderer.h index 1b2e57529d6..beee7453b4c 100644 --- a/source/blender/freestyle/intern/blender_interface/BlenderStrokeRenderer.h +++ b/source/blender/freestyle/intern/blender_interface/BlenderStrokeRenderer.h @@ -44,7 +44,7 @@ class BlenderStrokeRenderer : public StrokeRenderer { BlenderStrokeRenderer(Render *re, int render_count); virtual ~BlenderStrokeRenderer(); - /*! Renders a stroke rep */ + /** Renders a stroke rep */ virtual void RenderStrokeRep(StrokeRep *iStrokeRep) const; virtual void RenderStrokeRepBasic(StrokeRep *iStrokeRep) const; diff --git a/source/blender/freestyle/intern/geometry/FastGrid.h b/source/blender/freestyle/intern/geometry/FastGrid.h index ec47f36d644..524725d5464 100644 --- a/source/blender/freestyle/intern/geometry/FastGrid.h +++ b/source/blender/freestyle/intern/geometry/FastGrid.h @@ -25,7 +25,7 @@ namespace Freestyle { -/*! Class to define a regular grid used for ray casting computations +/** Class to define a regular grid used for ray casting computations * We don't use a hashtable here. The grid is explicitly stored for faster computations. * However, this might result in significant increase in memory usage * (compared to the regular grid). @@ -43,13 +43,13 @@ class FastGrid : public Grid { clear(); } - /*! + /** * clears the grid * Deletes all the cells, clears the hashtable, resets size, size of cell, number of cells. */ virtual void clear(); - /*! Sets the different parameters of the grid + /** Sets the different parameters of the grid * orig * The grid origin * size @@ -59,10 +59,10 @@ class FastGrid : public Grid { */ virtual void configure(const Vec3r &orig, const Vec3r &size, unsigned nb); - /*! returns the cell whose coordinates are passed as argument */ + /** returns the cell whose coordinates are passed as argument */ Cell *getCell(const Vec3u &p); - /*! Fills the case p with the cell iCell */ + /** Fills the case p with the cell iCell */ virtual void fillCell(const Vec3u &p, Cell &cell); protected: diff --git a/source/blender/freestyle/intern/geometry/FitCurve.h b/source/blender/freestyle/intern/geometry/FitCurve.h index dc60d67b943..3e99893d66f 100644 --- a/source/blender/freestyle/intern/geometry/FitCurve.h +++ b/source/blender/freestyle/intern/geometry/FitCurve.h @@ -72,7 +72,7 @@ class FitCurveWrapper { public: ~FitCurveWrapper(); - /*! Fits a set of 2D data points to a set of Bezier Curve segments + /** Fits a set of 2D data points to a set of Bezier Curve segments * data * Input data points * oCurve @@ -90,7 +90,7 @@ class FitCurveWrapper { */ void FitCurve(Vector2 *d, int nPts, double error); - /*! Draws a Bezier curve segment + /** Draws a Bezier curve segment * n * degree of curve (=3) * curve diff --git a/source/blender/freestyle/intern/geometry/GeomCleaner.cpp b/source/blender/freestyle/intern/geometry/GeomCleaner.cpp index 7ec18fb2801..349347c1862 100644 --- a/source/blender/freestyle/intern/geometry/GeomCleaner.cpp +++ b/source/blender/freestyle/intern/geometry/GeomCleaner.cpp @@ -180,7 +180,7 @@ void GeomCleaner::SortAndCompressIndexedVertexArray(const float *iVertices, delete[] tmpIndices; } -/*! Defines a hash table used for searching the Cells */ +/** Defines a hash table used for searching the Cells */ struct GeomCleanerHasher { #define _MUL 950706376UL #define _MOD 2147483647UL diff --git a/source/blender/freestyle/intern/geometry/GeomCleaner.h b/source/blender/freestyle/intern/geometry/GeomCleaner.h index 7abbf881548..6ad1f040972 100644 --- a/source/blender/freestyle/intern/geometry/GeomCleaner.h +++ b/source/blender/freestyle/intern/geometry/GeomCleaner.h @@ -42,7 +42,7 @@ class GeomCleaner { { } - /*! Sorts an array of Indexed vertices + /** Sorts an array of Indexed vertices * iVertices * Array of vertices to sort. * It is organized as a float series of vertex coordinates: XYZXYZXYZ... @@ -70,7 +70,7 @@ class GeomCleaner { float **oVertices, unsigned **oIndices); - /*! Compress a SORTED indexed vertex array by eliminating multiple + /** Compress a SORTED indexed vertex array by eliminating multiple * appearing occurrences of a single vertex. * iVertices * The SORTED vertex array to compress. @@ -99,7 +99,7 @@ class GeomCleaner { unsigned *oVSize, unsigned **oIndices); - /*! Sorts and compress an array of indexed vertices. + /** Sorts and compress an array of indexed vertices. * iVertices * The vertex array to sort then compress. It is organized as a float series of * vertex coordinates: XYZXYZXYZ... @@ -127,7 +127,7 @@ class GeomCleaner { unsigned *oVSize, unsigned **oIndices); - /*! Cleans an indexed vertex array. + /** Cleans an indexed vertex array. * (Identical to SortAndCompress except that we use here a hash table to create the new array.) * iVertices * The vertex array to sort then compress. It is organized as a float series of @@ -161,10 +161,10 @@ class GeomCleaner { #endif }; -/*! Binary operators */ +/** Binary operators */ // inline bool operator<(const IndexedVertex& iv1, const IndexedVertex& iv2); -/*! Class Indexed Vertex. Used to represent an indexed vertex by storing the vertex coordinates as +/** Class Indexed Vertex. Used to represent an indexed vertex by storing the vertex coordinates as * well as its index */ class IndexedVertex { private: @@ -182,7 +182,7 @@ class IndexedVertex { _index = iIndex; } - /*! accessors */ + /** accessors */ inline const Vec3f &vector() const { return _Vector; @@ -208,7 +208,7 @@ class IndexedVertex { return _Vector[2]; } - /*! modifiers */ + /** modifiers */ inline void setVector(const Vec3f &iVector) { _Vector = iVector; @@ -219,7 +219,7 @@ class IndexedVertex { _index = iIndex; } - /*! operators */ + /** operators */ IndexedVertex &operator=(const IndexedVertex &iv) { _Vector = iv._Vector; diff --git a/source/blender/freestyle/intern/geometry/GeomUtils.h b/source/blender/freestyle/intern/geometry/GeomUtils.h index 62d57f01264..a3ef88115f2 100644 --- a/source/blender/freestyle/intern/geometry/GeomUtils.h +++ b/source/blender/freestyle/intern/geometry/GeomUtils.h @@ -40,7 +40,7 @@ namespace GeomUtils { // ///////////////////////////////////////////////////////////////////////////// -/*! Computes the distance from a point P to a segment AB */ +/** Computes the distance from a point P to a segment AB */ template<class T> real distPointSegment(const T &P, const T &A, const T &B) { T AB, AP, BP; @@ -97,16 +97,16 @@ intersection_test intersect2dSeg2dSegParametric(const Vec2r &p1, real &u, // I = P3 + u * P3P4 real epsilon = M_EPSILON); -/*! check whether a 2D segment intersect a 2D region or not */ +/** check whether a 2D segment intersect a 2D region or not */ bool intersect2dSeg2dArea(const Vec2r &min, const Vec2r &max, const Vec2r &A, const Vec2r &B); -/*! check whether a 2D segment is included in a 2D region or not */ +/** check whether a 2D segment is included in a 2D region or not */ bool include2dSeg2dArea(const Vec2r &min, const Vec2r &max, const Vec2r &A, const Vec2r &B); -/*! Box-triangle overlap test, adapted from Tomas Akenine-Möller code */ +/** Box-triangle overlap test, adapted from Tomas Akenine-Möller code */ bool overlapTriangleBox(Vec3r &boxcenter, Vec3r &boxhalfsize, Vec3r triverts[3]); -/*! Fast, Minimum Storage Ray-Triangle Intersection, adapted from Tomas Möller and Ben Trumbore +/** Fast, Minimum Storage Ray-Triangle Intersection, adapted from Tomas Möller and Ben Trumbore * code. */ bool intersectRayTriangle(const Vec3r &orig, const Vec3r &dir, @@ -118,7 +118,7 @@ bool intersectRayTriangle(const Vec3r &orig, real &v, // I = (1 - u - v) * v0 + u * v1 + v * v2 const real epsilon = M_EPSILON); // the epsilon to use -/*! Intersection between plane and ray adapted from Graphics Gems, Didier Badouel */ +/** Intersection between plane and ray adapted from Graphics Gems, Didier Badouel */ intersection_test intersectRayPlane(const Vec3r &orig, const Vec3r &dir, // ray origin and direction // plane's normal and offset (plane = { P / P.N + d = 0 }) @@ -127,7 +127,7 @@ intersection_test intersectRayPlane(const Vec3r &orig, real &t, // I = orig + t * dir const real epsilon = M_EPSILON); // the epsilon to use -/*! Intersection Ray-Bounding box (axis aligned). +/** Intersection Ray-Bounding box (axis aligned). * Adapted from Williams et al, "An Efficient Robust Ray-Box Intersection Algorithm", JGT 10:1 * (2005), pp. 49-54. */ @@ -142,7 +142,7 @@ bool intersectRayBBox(const Vec3r &orig, real &tmax, // Imax = orig + tmax * dir is the second intersection real epsilon = M_EPSILON); // the epsilon to use -/*! Checks whether 3D point P lies inside or outside of the triangle ABC */ +/** Checks whether 3D point P lies inside or outside of the triangle ABC */ bool includePointTriangle(const Vec3r &P, const Vec3r &A, const Vec3r &B, const Vec3r &C); void transformVertex(const Vec3r &vert, const Matrix44r &matrix, Vec3r &res); @@ -156,7 +156,7 @@ Vec3r rotateVector(const Matrix44r &mat, const Vec3r &v); // ///////////////////////////////////////////////////////////////////////////// -/*! From world to image +/** From world to image * p * point's coordinates expressed in world coordinates system * q @@ -176,7 +176,7 @@ void fromWorldToImage(const Vec3r &p, const real projection_matrix[4][4], const int viewport[4]); -/*! From world to image +/** From world to image * p * point's coordinates expressed in world coordinates system * q @@ -189,7 +189,7 @@ void fromWorldToImage(const Vec3r &p, */ void fromWorldToImage(const Vec3r &p, Vec3r &q, const real transform[4][4], const int viewport[4]); -/*! Projects from world coordinates to camera coordinates +/** Projects from world coordinates to camera coordinates * Returns the point's coordinates expressed in the camera's * coordinates system. * p @@ -202,7 +202,7 @@ void fromWorldToImage(const Vec3r &p, Vec3r &q, const real transform[4][4], cons */ void fromWorldToCamera(const Vec3r &p, Vec3r &q, const real model_view_matrix[4][4]); -/*! Projects from World Coordinates to retina coordinates +/** Projects from World Coordinates to retina coordinates * Returns the point's coordinates expressed in Retina system. * p * point's coordinates expressed in camera system @@ -214,7 +214,7 @@ void fromWorldToCamera(const Vec3r &p, Vec3r &q, const real model_view_matrix[4] */ void fromCameraToRetina(const Vec3r &p, Vec3r &q, const real projection_matrix[4][4]); -/*! From retina to image. +/** From retina to image. * Returns the coordinates expressed in Image coordinates system. * p * point's coordinates expressed in retina system @@ -225,7 +225,7 @@ void fromCameraToRetina(const Vec3r &p, Vec3r &q, const real projection_matrix[4 */ void fromRetinaToImage(const Vec3r &p, Vec3r &q, const int viewport[4]); -/*! From image to retina +/** From image to retina * p * point's coordinates expressed in image system * q @@ -235,7 +235,7 @@ void fromRetinaToImage(const Vec3r &p, Vec3r &q, const int viewport[4]); */ void fromImageToRetina(const Vec3r &p, Vec3r &q, const int viewport[4]); -/*! computes the coordinates of q in the camera coordinates system, +/** computes the coordinates of q in the camera coordinates system, * using the known z coordinates of the 3D point. * That means that this method does not inverse any matrices, * it only computes X and Y from x,y and Z) @@ -249,7 +249,7 @@ void fromImageToRetina(const Vec3r &p, Vec3r &q, const int viewport[4]); */ void fromRetinaToCamera(const Vec3r &p, Vec3r &q, real focal, const real projection_matrix[4][4]); -/*! Projects from camera coordinates to world coordinates +/** Projects from camera coordinates to world coordinates * Returns the point's coordinates expressed in the world's * coordinates system. * p diff --git a/source/blender/freestyle/intern/geometry/Grid.h b/source/blender/freestyle/intern/geometry/Grid.h index d0d92b62516..e6301063564 100644 --- a/source/blender/freestyle/intern/geometry/Grid.h +++ b/source/blender/freestyle/intern/geometry/Grid.h @@ -114,7 +114,7 @@ class GridVisitor { #endif }; -/*! Gathers all the occluders belonging to the cells traversed by the ray */ +/** Gathers all the occluders belonging to the cells traversed by the ray */ class allOccludersGridVisitor : public GridVisitor { public: allOccludersGridVisitor(OccludersSet &occluders) : GridVisitor(), occluders_(occluders) @@ -137,7 +137,7 @@ class allOccludersGridVisitor : public GridVisitor { OccludersSet &occluders_; }; -/*! Finds the first intersection and breaks. +/** Finds the first intersection and breaks. * The occluder and the intersection information are stored and accessible. */ class firstIntersectionGridVisitor : public GridVisitor { @@ -190,7 +190,7 @@ class firstIntersectionGridVisitor : public GridVisitor { class Grid { public: - /*! Builds a Grid. Must be followed by a call to configure() */ + /** Builds a Grid. Must be followed by a call to configure() */ Grid() { } @@ -200,12 +200,12 @@ class Grid { clear(); } - /*! clears the grid + /** clears the grid * Deletes all the cells, clears the hashtable, resets size, size of cell, number of cells. */ virtual void clear(); - /*! Sets the different parameters of the grid + /** Sets the different parameters of the grid * orig * The grid origin * size @@ -215,7 +215,7 @@ class Grid { */ virtual void configure(const Vec3r &orig, const Vec3r &size, unsigned nb); - /*! returns a vector of integer containing the coordinates of the cell containing the point + /** returns a vector of integer containing the coordinates of the cell containing the point * passed as argument * p * The point for which we're looking the cell @@ -237,13 +237,13 @@ class Grid { } } - /*! Fills the case corresponding to coord with the cell */ + /** Fills the case corresponding to coord with the cell */ virtual void fillCell(const Vec3u &coord, Cell &cell) = 0; - /*! returns the cell whose coordinates are passed as argument */ + /** returns the cell whose coordinates are passed as argument */ virtual Cell *getCell(const Vec3u &coord) = 0; - /*! returns the cell containing the point passed as argument. + /** returns the cell containing the point passed as argument. * If the cell is empty (contains no occluder), NULL is returned: * p * The point for which we're looking the cell @@ -255,7 +255,7 @@ class Grid { return getCell(coord); } - /*! Retrieves the x,y,z coordinates of the origin of the cell whose coordinates (i,j,k) + /** Retrieves the x,y,z coordinates of the origin of the cell whose coordinates (i,j,k) * is passed as argument: * cell_coord * i,j,k integer coordinates for the cell @@ -269,7 +269,7 @@ class Grid { } } - /*! Retrieves the box corresponding to the cell whose coordinates are passed as argument: + /** Retrieves the box corresponding to the cell whose coordinates are passed as argument: * cell_coord * i,j,k integer coordinates for the cell * min_out @@ -283,19 +283,19 @@ class Grid { max_out = min_out + _cell_size; } - /*! inserts a convex polygon occluder + /** inserts a convex polygon occluder * This method is quite coarse insofar as it adds all cells intersecting the polygon bounding * box convex_poly The list of 3D points constituting a convex polygon */ void insertOccluder(Polygon3r *occluder); - /*! Adds an occluder to the list of occluders */ + /** Adds an occluder to the list of occluders */ void addOccluder(Polygon3r *occluder) { _occluders.push_back(occluder); } - /*! Casts a ray between a starting point and an ending point + /** Casts a ray between a starting point and an ending point * Returns the list of occluders contained in the cells intersected by this ray * Starts with a call to InitRay. */ @@ -304,7 +304,7 @@ class Grid { // Prepares to cast ray without generating OccludersSet void initAcceleratedRay(const Vec3r &orig, const Vec3r &end, unsigned timestamp); - /*! Casts an infinite ray (still finishing at the end of the grid) from a starting point and in a + /** Casts an infinite ray (still finishing at the end of the grid) from a starting point and in a * given direction. Returns the list of occluders contained in the cells intersected by this ray * Starts with a call to InitRay. */ @@ -316,22 +316,22 @@ class Grid { // Prepares to cast ray without generating OccludersSet. bool initAcceleratedInfiniteRay(const Vec3r &orig, const Vec3r &dir, unsigned timestamp); - /*! Casts an infinite ray (still finishing at the end of the grid) from a starting point and in a + /** Casts an infinite ray (still finishing at the end of the grid) from a starting point and in a * given direction. Returns the first intersection (occluder,t,u,v) or null. Starts with a call * to InitRay. */ Polygon3r *castRayToFindFirstIntersection( const Vec3r &orig, const Vec3r &dir, double &t, double &u, double &v, unsigned timestamp); - /*! Init all structures and values for computing the cells intersected by this new ray */ + /** Init all structures and values for computing the cells intersected by this new ray */ void initRay(const Vec3r &orig, const Vec3r &end, unsigned timestamp); - /*! Init all structures and values for computing the cells intersected by this infinite ray. + /** Init all structures and values for computing the cells intersected by this infinite ray. * Returns false if the ray doesn't intersect the grid. */ bool initInfiniteRay(const Vec3r &orig, const Vec3r &dir, unsigned timestamp); - /*! Accessors */ + /** Accessors */ inline const Vec3r &getOrigin() const { return _orig; @@ -362,7 +362,7 @@ class Grid { } protected: - /*! Core of castRay and castInfiniteRay, find occluders along the given ray */ + /** Core of castRay and castInfiniteRay, find occluders along the given ray */ inline void castRayInternal(GridVisitor &visitor) { Cell *current_cell = NULL; @@ -383,7 +383,7 @@ class Grid { } while ((!visitor.stop()) && (nextRayCell(_current_cell, _current_cell))); } - /*! returns the cell next to the cell passed as argument. */ + /** returns the cell next to the cell passed as argument. */ bool nextRayCell(Vec3u ¤t_cell, Vec3u &next_cell); unsigned int _timestamp; diff --git a/source/blender/freestyle/intern/geometry/GridHelpers.h b/source/blender/freestyle/intern/geometry/GridHelpers.h index 077688164b4..1eab92be889 100644 --- a/source/blender/freestyle/intern/geometry/GridHelpers.h +++ b/source/blender/freestyle/intern/geometry/GridHelpers.h @@ -38,7 +38,7 @@ namespace Freestyle { namespace GridHelpers { -/*! Computes the distance from a point P to a segment AB */ +/** Computes the distance from a point P to a segment AB */ template<class T> T closestPointToSegment(const T &P, const T &A, const T &B, real &distance) { T AB, AP, BP; diff --git a/source/blender/freestyle/intern/geometry/HashGrid.h b/source/blender/freestyle/intern/geometry/HashGrid.h index 6fb7f2b9cbe..74df4a355d1 100644 --- a/source/blender/freestyle/intern/geometry/HashGrid.h +++ b/source/blender/freestyle/intern/geometry/HashGrid.h @@ -37,7 +37,7 @@ namespace Freestyle { -/*! Defines a hash table used for searching the Cells */ +/** Defines a hash table used for searching the Cells */ struct GridHasher { #define _MUL 950706376UL #define _MOD 2147483647UL @@ -51,7 +51,7 @@ struct GridHasher { #undef _MOD }; -/*! Class to define a regular grid used for ray casting computations */ +/** Class to define a regular grid used for ray casting computations */ class HashGrid : public Grid { public: typedef map<Vec3u, Cell *> GridHashTable; @@ -65,12 +65,12 @@ class HashGrid : public Grid { clear(); } - /*! clears the grid + /** clears the grid * Deletes all the cells, clears the hashtable, resets size, size of cell, number of cells. */ virtual void clear(); - /*! Sets the different parameters of the grid + /** Sets the different parameters of the grid * orig * The grid origin * size @@ -80,7 +80,7 @@ class HashGrid : public Grid { */ virtual void configure(const Vec3r &orig, const Vec3r &size, unsigned nb); - /*! returns the cell whose coordinates are passed as argument */ + /** returns the cell whose coordinates are passed as argument */ virtual Cell *getCell(const Vec3u &p) { Cell *found_cell = NULL; @@ -92,7 +92,7 @@ class HashGrid : public Grid { return found_cell; } - /*! Fills the case p with the cell iCell */ + /** Fills the case p with the cell iCell */ virtual void fillCell(const Vec3u &p, Cell &cell) { _cells[p] = &cell; diff --git a/source/blender/freestyle/intern/geometry/Noise.h b/source/blender/freestyle/intern/geometry/Noise.h index 27a91ded9e2..278444712df 100644 --- a/source/blender/freestyle/intern/geometry/Noise.h +++ b/source/blender/freestyle/intern/geometry/Noise.h @@ -37,33 +37,33 @@ namespace Freestyle { using namespace Geometry; -/*! Class to provide Perlin Noise functionalities */ +/** Class to provide Perlin Noise functionalities */ class Noise { public: - /*! Builds a Noise object */ + /** Builds a Noise object */ Noise(long seed = -1); - /*! Destructor */ + /** Destructor */ ~Noise() { } - /*! Returns a noise value for a 1D element */ + /** Returns a noise value for a 1D element */ float turbulence1(float arg, float freq, float amp, unsigned oct = 4); - /*! Returns a noise value for a 2D element */ + /** Returns a noise value for a 2D element */ float turbulence2(Vec2f &v, float freq, float amp, unsigned oct = 4); - /*! Returns a noise value for a 3D element */ + /** Returns a noise value for a 3D element */ float turbulence3(Vec3f &v, float freq, float amp, unsigned oct = 4); - /*! Returns a smooth noise value for a 1D element */ + /** Returns a smooth noise value for a 1D element */ float smoothNoise1(float arg); - /*! Returns a smooth noise value for a 2D element */ + /** Returns a smooth noise value for a 2D element */ float smoothNoise2(Vec2f &vec); - /*! Returns a smooth noise value for a 3D element */ + /** Returns a smooth noise value for a 3D element */ float smoothNoise3(Vec3f &vec); private: diff --git a/source/blender/freestyle/intern/geometry/Polygon.h b/source/blender/freestyle/intern/geometry/Polygon.h index f6f827fd0f2..34511bf4e34 100644 --- a/source/blender/freestyle/intern/geometry/Polygon.h +++ b/source/blender/freestyle/intern/geometry/Polygon.h @@ -205,7 +205,7 @@ class Polygon3r : public Polygon<Vec3r> { return _normal; } - /*! Check whether the Polygon intersects with the ray or not */ + /** Check whether the Polygon intersects with the ray or not */ inline bool rayIntersect(const Vec3r &orig, const Vec3r &dir, real &t, diff --git a/source/blender/freestyle/intern/geometry/SweepLine.h b/source/blender/freestyle/intern/geometry/SweepLine.h index d7d379d82f2..ac3417a1afe 100644 --- a/source/blender/freestyle/intern/geometry/SweepLine.h +++ b/source/blender/freestyle/intern/geometry/SweepLine.h @@ -30,7 +30,7 @@ namespace Freestyle { -/*! Class to define the intersection between two segments*/ +/** Class to define the intersection between two segments*/ template<class Edge> class Intersection { public: template<class EdgeClass> Intersection(EdgeClass *eA, real ta, EdgeClass *eB, real tb) @@ -51,7 +51,7 @@ template<class Edge> class Intersection { userdata = 0; } - /*! returns the parameter giving the intersection, for the edge iEdge */ + /** returns the parameter giving the intersection, for the edge iEdge */ real getParameter(Edge *iEdge) { if (iEdge == EdgeA) { @@ -144,7 +144,7 @@ template<class T, class Point> class Segment { _Intersections.push_back(i); } - /*! Checks for a common vertex with another edge */ + /** Checks for a common vertex with another edge */ inline bool CommonVertex(const Segment<T, Point> &S, Point &CP) { if ((A == S[0]) || (A == S[1])) { @@ -190,7 +190,7 @@ template<class T, class Point> class Segment { # pragma warning(pop) #endif -/*! defines a binary function that can be overload by the user to specify at each condition the +/** defines a binary function that can be overload by the user to specify at each condition the * intersection between 2 edges must be computed */ template<class T1, class T2> struct binary_rule { diff --git a/source/blender/freestyle/intern/image/GaussianFilter.h b/source/blender/freestyle/intern/image/GaussianFilter.h index ff765e619a8..2cb3e7d7ac5 100644 --- a/source/blender/freestyle/intern/image/GaussianFilter.h +++ b/source/blender/freestyle/intern/image/GaussianFilter.h @@ -54,7 +54,7 @@ class GaussianFilter { GaussianFilter &operator=(const GaussianFilter &); virtual ~GaussianFilter(); - /*! Returns the value for pixel x,y of image "map" after a gaussian blur, made using the sigma + /** Returns the value for pixel x,y of image "map" after a gaussian blur, made using the sigma * value. The sigma value determines the mask size (~ 2 x sigma). * \param map: The image we wish to work on. * The Map template must implement the following methods: @@ -70,12 +70,12 @@ class GaussianFilter { */ template<class Map> float getSmoothedPixel(Map *map, int x, int y); - /*! Compute the mask size and returns the REAL mask size ((2*_maskSize)-1) + /** Compute the mask size and returns the REAL mask size ((2*_maskSize)-1) * This method is provided for convenience. */ static int computeMaskSize(float sigma); - /*! accessors */ + /** accessors */ inline float sigma() const { return _sigma; @@ -91,7 +91,7 @@ class GaussianFilter { return _bound; } - /*! modifiers */ + /** modifiers */ void setSigma(float sigma); #if 0 void SetMaskSize(int size) diff --git a/source/blender/freestyle/intern/image/Image.h b/source/blender/freestyle/intern/image/Image.h index 385e243a1a2..21cb435b13a 100644 --- a/source/blender/freestyle/intern/image/Image.h +++ b/source/blender/freestyle/intern/image/Image.h @@ -34,14 +34,14 @@ namespace Freestyle { // /////////////////////////////////////////////////////////////////////////////// -/*! This class allows the storing of part of an image, while allowing a normal access to its pixel +/** This class allows the storing of part of an image, while allowing a normal access to its pixel * values. You can for example only a rectangle of sw*sh, whose lower-left corner is at (ox, oy), * of an image of size w*h, and access these pixels using x,y coordinates specified in the whole * image coordinate system. */ class FrsImage { public: - /*! Default constructor */ + /** Default constructor */ FrsImage() { _storedWidth = 0; @@ -52,7 +52,7 @@ class FrsImage { _Oy = 0; } - /*! Copy constructor */ + /** Copy constructor */ FrsImage(const FrsImage &brother) { _storedWidth = brother._storedWidth; @@ -63,7 +63,7 @@ class FrsImage { _Oy = brother._Oy; } - /*! Builds an FrsImage from its width and height. + /** Builds an FrsImage from its width and height. * The memory is allocated consequently. */ FrsImage(unsigned w, unsigned h) @@ -76,7 +76,7 @@ class FrsImage { _Oy = 0; } - /*! Builds a partial-storing image. + /** Builds a partial-storing image. * \param w: * The width of the complete image * \param h: @@ -100,7 +100,7 @@ class FrsImage { _Oy = oy; } - /*! Operator= */ + /** Operator= */ FrsImage &operator=(const FrsImage &brother) { _width = brother._width; @@ -112,27 +112,27 @@ class FrsImage { return *this; } - /*! Destructor */ + /** Destructor */ virtual ~FrsImage() { } - /*! Returns the width of the complete image */ + /** Returns the width of the complete image */ inline unsigned width() const { return _width; } - /*! Returns the height of the complete image */ + /** Returns the height of the complete image */ inline unsigned height() const { return _height; } - /*! Returns the gray value for pixel x,y */ + /** Returns the gray value for pixel x,y */ virtual float pixel(unsigned x, unsigned y) const = 0; - /*! Sets the array. + /** Sets the array. * \param array: * The array containing the values we wish to store. * Its size is sw*sh. @@ -160,7 +160,7 @@ class FrsImage { unsigned y, bool copy = true) = 0; - /*! Returns the array containing the pixels values. + /** Returns the array containing the pixels values. * Its size is sw*sh, i.e. potentially a smaller rectangular part of the complete image. */ virtual float *getArray() = 0; @@ -206,7 +206,7 @@ class RGBImage : public FrsImage { memcpy(_rgb, rgb, 3 * _width * _height * sizeof(float)); } - /*! Builds an RGB partial image from the useful part buffer. + /** Builds an RGB partial image from the useful part buffer. * \param rgb: * The array of size 3*sw*sh containing the RGB values of the sw*sh pixels we need to stored. * These sw*sh pixels constitute a rectangular part of a bigger @@ -279,7 +279,7 @@ class RGBImage : public FrsImage { return res / 32.0f; } - /*! Sets the RGB array. + /** Sets the RGB array. * copy * If true, the array is copied, otherwise the pointer is copied */ @@ -333,7 +333,7 @@ class GrayImage : public FrsImage { memcpy(_lvl, brother._lvl, _storedWidth * _storedHeight * sizeof(*_lvl)); } - /*! Builds an empty gray image */ + /** Builds an empty gray image */ GrayImage(unsigned w, unsigned h) : FrsImage(w, h) { _lvl = new float[_width * _height]; @@ -345,7 +345,7 @@ class GrayImage : public FrsImage { memcpy(_lvl, lvl, _width * _height * sizeof(*_lvl)); } - /*! Builds a partial image from the useful part buffer. + /** Builds a partial image from the useful part buffer. * \param lvl: * The array of size sw*sh containing the gray values of the sw*sh pixels we need to stored. * These sw*sh pixels constitute a rectangular part of a bigger @@ -391,7 +391,7 @@ class GrayImage : public FrsImage { return _lvl[(y - _Oy) * _storedWidth + (x - _Ox)]; } - /*! Sets the array. + /** Sets the array. * copy * If true, the array is copied, otherwise the pounsigneder is copied */ @@ -418,7 +418,7 @@ class GrayImage : public FrsImage { memcpy(_lvl, lvl, _storedWidth * _storedHeight * sizeof(float)); } - /*! Returns the array containing the gray values. */ + /** Returns the array containing the gray values. */ virtual float *getArray() { return _lvl; diff --git a/source/blender/freestyle/intern/image/ImagePyramid.h b/source/blender/freestyle/intern/image/ImagePyramid.h index 3b4e5eda52a..66df1ec728a 100644 --- a/source/blender/freestyle/intern/image/ImagePyramid.h +++ b/source/blender/freestyle/intern/image/ImagePyramid.h @@ -45,17 +45,17 @@ class ImagePyramid { // ImagePyramid(const GrayImage& level0, unsigned nbLevels); virtual ~ImagePyramid(); - /*! Builds the pyramid. + /** Builds the pyramid. * must be overloaded by inherited classes. * if nbLevels==0, the complete pyramid is built */ virtual void BuildPyramid(const GrayImage &level0, unsigned nbLevels) = 0; - /*! Builds a pyramid without copying the base level */ + /** Builds a pyramid without copying the base level */ virtual void BuildPyramid(GrayImage *level0, unsigned nbLevels) = 0; virtual GrayImage *getLevel(int l); - /*! Returns the pixel x,y using bilinear interpolation. + /** Returns the pixel x,y using bilinear interpolation. * \param x: * the abscissa specified in the finest level coordinate system * \param y: @@ -65,13 +65,13 @@ class ImagePyramid { */ virtual float pixel(int x, int y, int level = 0); - /*! Returns the width of the level-th level image */ + /** Returns the width of the level-th level image */ virtual int width(int level = 0); - /*! Returns the height of the level-th level image */ + /** Returns the height of the level-th level image */ virtual int height(int level = 0); - /*! Returns the number of levels in the pyramid */ + /** Returns the number of levels in the pyramid */ inline int getNumberOfLevels() const { return _levels.size(); diff --git a/source/blender/freestyle/intern/scene_graph/DrawingStyle.h b/source/blender/freestyle/intern/scene_graph/DrawingStyle.h index ca1e2351868..1d96812f3f7 100644 --- a/source/blender/freestyle/intern/scene_graph/DrawingStyle.h +++ b/source/blender/freestyle/intern/scene_graph/DrawingStyle.h @@ -50,7 +50,7 @@ class DrawingStyle { { } - /*! operators */ + /** operators */ inline DrawingStyle &operator=(const DrawingStyle &ds); inline void setStyle(const STYLE iStyle) diff --git a/source/blender/freestyle/intern/scene_graph/FrsMaterial.h b/source/blender/freestyle/intern/scene_graph/FrsMaterial.h index 18d3c8839dd..ecdba75b864 100644 --- a/source/blender/freestyle/intern/scene_graph/FrsMaterial.h +++ b/source/blender/freestyle/intern/scene_graph/FrsMaterial.h @@ -29,13 +29,13 @@ namespace Freestyle { -/*! Class defining a material */ +/** Class defining a material */ class FrsMaterial { public: - /*! Default constructor */ + /** Default constructor */ inline FrsMaterial(); - /*! Builds a Material from its line, diffuse, ambient, specular, emissive + /** Builds a Material from its line, diffuse, ambient, specular, emissive * colors, a shininess coefficient and line color priority. * \param iLine: * A 4 element float-array containing the line color. @@ -60,177 +60,177 @@ class FrsMaterial { const float iShininess, const int iPriority); - /*! Copy constructor */ + /** Copy constructor */ inline FrsMaterial(const FrsMaterial &m); - /*! Destructor */ + /** Destructor */ virtual ~FrsMaterial() { } - /*! Returns the line color as a 4 float array */ + /** Returns the line color as a 4 float array */ inline const float *line() const { return Line; } - /*! Returns the red component of the line color */ + /** Returns the red component of the line color */ inline const float lineR() const { return Line[0]; } - /*! Returns the green component of the line color */ + /** Returns the green component of the line color */ inline const float lineG() const { return Line[1]; } - /*! Returns the blue component of the line color */ + /** Returns the blue component of the line color */ inline const float lineB() const { return Line[2]; } - /*! Returns the alpha component of the line color */ + /** Returns the alpha component of the line color */ inline const float lineA() const { return Line[3]; } - /*! Returns the diffuse color as a 4 float array */ + /** Returns the diffuse color as a 4 float array */ inline const float *diffuse() const { return Diffuse; } - /*! Returns the red component of the diffuse color */ + /** Returns the red component of the diffuse color */ inline const float diffuseR() const { return Diffuse[0]; } - /*! Returns the green component of the diffuse color */ + /** Returns the green component of the diffuse color */ inline const float diffuseG() const { return Diffuse[1]; } - /*! Returns the blue component of the diffuse color */ + /** Returns the blue component of the diffuse color */ inline const float diffuseB() const { return Diffuse[2]; } - /*! Returns the alpha component of the diffuse color */ + /** Returns the alpha component of the diffuse color */ inline const float diffuseA() const { return Diffuse[3]; } - /*! Returns the specular color as a 4 float array */ + /** Returns the specular color as a 4 float array */ inline const float *specular() const { return Specular; } - /*! Returns the red component of the specular color */ + /** Returns the red component of the specular color */ inline const float specularR() const { return Specular[0]; } - /*! Returns the green component of the specular color */ + /** Returns the green component of the specular color */ inline const float specularG() const { return Specular[1]; } - /*! Returns the blue component of the specular color */ + /** Returns the blue component of the specular color */ inline const float specularB() const { return Specular[2]; } - /*! Returns the alpha component of the specular color */ + /** Returns the alpha component of the specular color */ inline const float specularA() const { return Specular[3]; } - /*! Returns the ambient color as a 4 float array */ + /** Returns the ambient color as a 4 float array */ inline const float *ambient() const { return Ambient; } - /*! Returns the red component of the ambient color */ + /** Returns the red component of the ambient color */ inline const float ambientR() const { return Ambient[0]; } - /*! Returns the green component of the ambient color */ + /** Returns the green component of the ambient color */ inline const float ambientG() const { return Ambient[1]; } - /*! Returns the blue component of the ambient color */ + /** Returns the blue component of the ambient color */ inline const float ambientB() const { return Ambient[2]; } - /*! Returns the alpha component of the ambient color */ + /** Returns the alpha component of the ambient color */ inline const float ambientA() const { return Ambient[3]; } - /*! Returns the emissive color as a 4 float array */ + /** Returns the emissive color as a 4 float array */ inline const float *emission() const { return Emission; } - /*! Returns the red component of the emissive color */ + /** Returns the red component of the emissive color */ inline const float emissionR() const { return Emission[0]; } - /*! Returns the green component of the emissive color */ + /** Returns the green component of the emissive color */ inline const float emissionG() const { return Emission[1]; } - /*! Returns the blue component of the emissive color */ + /** Returns the blue component of the emissive color */ inline const float emissionB() const { return Emission[2]; } - /*! Returns the alpha component of the emissive color */ + /** Returns the alpha component of the emissive color */ inline const float emissionA() const { return Emission[3]; } - /*! Returns the shininess coefficient */ + /** Returns the shininess coefficient */ inline const float shininess() const { return Shininess; } - /*! Returns the line color priority */ + /** Returns the line color priority */ inline const int priority() const { return Priority; } - /*! Sets the line color. + /** Sets the line color. * \param r: * Red component * \param g: @@ -242,7 +242,7 @@ class FrsMaterial { */ inline void setLine(const float r, const float g, const float b, const float a); - /*! Sets the diffuse color. + /** Sets the diffuse color. * \param r: * Red component * \param g: @@ -254,7 +254,7 @@ class FrsMaterial { */ inline void setDiffuse(const float r, const float g, const float b, const float a); - /*! Sets the specular color. + /** Sets the specular color. * \param r: * Red component * \param g: @@ -266,7 +266,7 @@ class FrsMaterial { */ inline void setSpecular(const float r, const float g, const float b, const float a); - /*! Sets the ambient color. + /** Sets the ambient color. * \param r: * Red component * \param g: @@ -278,7 +278,7 @@ class FrsMaterial { */ inline void setAmbient(const float r, const float g, const float b, const float a); - /*! Sets the emissive color. + /** Sets the emissive color. * \param r: * Red component * \param g: @@ -290,13 +290,13 @@ class FrsMaterial { */ inline void setEmission(const float r, const float g, const float b, const float a); - /*! Sets the shininess. + /** Sets the shininess. * \param s: * Shininess */ inline void setShininess(const float s); - /*! Sets the line color priority. + /** Sets the line color priority. * \param priority: * Priority */ @@ -308,7 +308,7 @@ class FrsMaterial { inline bool operator==(const FrsMaterial &m) const; private: - /*! Material properties */ + /** Material properties */ float Line[4]; float Diffuse[4]; float Specular[4]; diff --git a/source/blender/freestyle/intern/scene_graph/IndexedFaceSet.h b/source/blender/freestyle/intern/scene_graph/IndexedFaceSet.h index 4b2f26e9a6a..2b1adfc179c 100644 --- a/source/blender/freestyle/intern/scene_graph/IndexedFaceSet.h +++ b/source/blender/freestyle/intern/scene_graph/IndexedFaceSet.h @@ -33,14 +33,14 @@ namespace Freestyle { class IndexedFaceSet : public Rep { public: - /*! Triangles description style:*/ + /** Triangles description style:*/ enum TRIANGLES_STYLE { TRIANGLE_STRIP, TRIANGLE_FAN, TRIANGLES, }; - /*! User-specified face and edge marks for feature edge detection */ + /** User-specified face and edge marks for feature edge detection */ /* XXX Why in hell not use an enum here too? */ typedef unsigned char FaceEdgeMark; static const FaceEdgeMark FACE_MARK = 1 << 0; @@ -48,10 +48,10 @@ class IndexedFaceSet : public Rep { static const FaceEdgeMark EDGE_MARK_V2V3 = 1 << 2; static const FaceEdgeMark EDGE_MARK_V3V1 = 1 << 3; - /*! Builds an empty indexed face set. */ + /** Builds an empty indexed face set. */ IndexedFaceSet(); - /*! Builds an indexed face set + /** Builds an indexed face set * iVertices * The array of object vertices 3D coordinates (for all faces). * If iCopy != 0, the array is copied; you must deallocate iVertices. Else you must not. @@ -126,7 +126,7 @@ class IndexedFaceSet : public Rep { unsigned iTISize, unsigned iCopy = 1); - /*! Builds an indexed face set from an other indexed face set */ + /** Builds an indexed face set from an other indexed face set */ IndexedFaceSet(const IndexedFaceSet &iBrother); void swap(IndexedFaceSet &ioOther) @@ -166,18 +166,18 @@ class IndexedFaceSet : public Rep { return *this; } - /*! Destructor + /** Destructor * deallocates all the resources */ virtual ~IndexedFaceSet(); - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); - /*! Compute the Bounding Box */ + /** Compute the Bounding Box */ virtual void ComputeBBox(); - /*! Accessors */ + /** Accessors */ virtual const float *vertices() const { return _Vertices; diff --git a/source/blender/freestyle/intern/scene_graph/LineRep.h b/source/blender/freestyle/intern/scene_graph/LineRep.h index 43fd736570f..3a48f175bfd 100644 --- a/source/blender/freestyle/intern/scene_graph/LineRep.h +++ b/source/blender/freestyle/intern/scene_graph/LineRep.h @@ -32,10 +32,10 @@ using namespace std; namespace Freestyle { -/*! Base class for all lines objects */ +/** Base class for all lines objects */ class LineRep : public Rep { public: - /*! Line description style */ + /** Line description style */ enum LINES_STYLE { LINES, LINE_STRIP, @@ -47,7 +47,7 @@ class LineRep : public Rep { _width = 0.0f; } - /*! Builds a single line from 2 vertices + /** Builds a single line from 2 vertices * v1 * first vertex * v2 @@ -61,7 +61,7 @@ class LineRep : public Rep { _width = 0.0f; } - /*! Builds a line rep from a vertex chain */ + /** Builds a line rep from a vertex chain */ inline LineRep(const vector<Vec3r> &vertices) : Rep() { _vertices = vertices; @@ -69,7 +69,7 @@ class LineRep : public Rep { _width = 0.0f; } - /*! Builds a line rep from a vertex chain */ + /** Builds a line rep from a vertex chain */ inline LineRep(const list<Vec3r> &vertices) : Rep() { for (list<Vec3r>::const_iterator v = vertices.begin(), end = vertices.end(); v != end; ++v) { @@ -84,7 +84,7 @@ class LineRep : public Rep { _vertices.clear(); } - /*! accessors */ + /** accessors */ inline const LINES_STYLE style() const { return _Style; @@ -100,7 +100,7 @@ class LineRep : public Rep { return _width; } - /*! modifiers */ + /** modifiers */ inline void setStyle(const LINES_STYLE iStyle) { _Style = iStyle; @@ -127,14 +127,14 @@ class LineRep : public Rep { _width = iWidth; } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v) { Rep::accept(v); v.visitLineRep(*this); } - /*! Computes the line bounding box.*/ + /** Computes the line bounding box.*/ virtual void ComputeBBox(); private: diff --git a/source/blender/freestyle/intern/scene_graph/Node.h b/source/blender/freestyle/intern/scene_graph/Node.h index 07bf186ea39..2907580492d 100644 --- a/source/blender/freestyle/intern/scene_graph/Node.h +++ b/source/blender/freestyle/intern/scene_graph/Node.h @@ -52,7 +52,7 @@ class Node : public BaseObject { { } - /*! Accept the corresponding visitor + /** Accept the corresponding visitor * Each inherited node must overload this method */ virtual void accept(SceneVisitor &v) @@ -60,8 +60,8 @@ class Node : public BaseObject { v.visitNode(*this); } - /*! bounding box management */ - /*! Returns the node bounding box + /** bounding box management */ + /** Returns the node bounding box * If no bounding box exists, an empty bbox is returned */ virtual const BBox<Vec3r> &bbox() const @@ -69,13 +69,13 @@ class Node : public BaseObject { return _BBox; } - /*! Sets the Node bounding box */ + /** Sets the Node bounding box */ virtual void setBBox(const BBox<Vec3r> &iBox) { _BBox = iBox; } - /*! Makes the union of _BBox and iBox */ + /** Makes the union of _BBox and iBox */ virtual void AddBBox(const BBox<Vec3r> &iBox) { if (iBox.empty()) { @@ -90,13 +90,13 @@ class Node : public BaseObject { } } - /*! Updates the BBox */ + /** Updates the BBox */ virtual const BBox<Vec3r> &UpdateBBox() { return _BBox; } - /*! Clears the bounding box */ + /** Clears the bounding box */ virtual void clearBBox() { _BBox.clear(); diff --git a/source/blender/freestyle/intern/scene_graph/NodeCamera.h b/source/blender/freestyle/intern/scene_graph/NodeCamera.h index 9e3f9046e39..0135a30f97c 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeCamera.h +++ b/source/blender/freestyle/intern/scene_graph/NodeCamera.h @@ -43,7 +43,7 @@ class NodeCamera : public Node { GENERIC, } CameraType; - /*! Default matrices: Identity for both projection and modelview. */ + /** Default matrices: Identity for both projection and modelview. */ NodeCamera(CameraType camera_type = GENERIC); #if 0 /* UNUSED, gives warning in gcc */ NodeCamera(const NodeCamera &iBrother); @@ -53,13 +53,13 @@ class NodeCamera : public Node { { } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); - /*! Matrix is copied */ + /** Matrix is copied */ void setModelViewMatrix(double modelview_matrix[16]); - /*! Matrix is copied */ + /** Matrix is copied */ void setProjectionMatrix(double projection_matrix[16]); double *modelViewMatrix() @@ -89,7 +89,7 @@ class NodeOrthographicCamera : public NodeCamera { public: NodeOrthographicCamera(); - /*! Builds a parallel projection matrix a la glOrtho. + /** Builds a parallel projection matrix a la glOrtho. * A 0 0 tx * 0 B 0 ty * 0 0 C tz @@ -155,7 +155,7 @@ class NodePerspectiveCamera : public NodeCamera { public: NodePerspectiveCamera(); - /*! Builds a perspective projection matrix a la gluPerspective. + /** Builds a perspective projection matrix a la gluPerspective. * Given f defined as follows: * fovy * f = cotangent(____) @@ -177,7 +177,7 @@ class NodePerspectiveCamera : public NodeCamera { */ NodePerspectiveCamera(double fovy, double aspect, double zNear, double zFar); - /*! Builds a perspective projection matrix a la glFrustum. + /** Builds a perspective projection matrix a la glFrustum. * ( 2*zNear ) * | __________ 0 A 0 | * | right-left | diff --git a/source/blender/freestyle/intern/scene_graph/NodeDrawingStyle.h b/source/blender/freestyle/intern/scene_graph/NodeDrawingStyle.h index 8bbdaf30bad..38b84c7be3a 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeDrawingStyle.h +++ b/source/blender/freestyle/intern/scene_graph/NodeDrawingStyle.h @@ -48,34 +48,34 @@ class NodeDrawingStyle : public NodeGroup { _DrawingStyle = iDrawingStyle; } - /*! Sets the style. Must be one of FILLED, LINES, POINTS, INVISIBLE. */ + /** Sets the style. Must be one of FILLED, LINES, POINTS, INVISIBLE. */ inline void setStyle(const DrawingStyle::STYLE iStyle) { _DrawingStyle.setStyle(iStyle); } - /*! Sets the line width in the LINES style case */ + /** Sets the line width in the LINES style case */ inline void setLineWidth(const float iLineWidth) { _DrawingStyle.setLineWidth(iLineWidth); } - /*! Sets the Point size in the POINTS style case */ + /** Sets the Point size in the POINTS style case */ inline void setPointSize(const float iPointSize) { _DrawingStyle.setPointSize(iPointSize); } - /*! Enables or disables the lighting. true = enable */ + /** Enables or disables the lighting. true = enable */ inline void setLightingEnabled(const bool iEnableLighting) { _DrawingStyle.setLightingEnabled(iEnableLighting); } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); - /*! accessors */ + /** accessors */ inline DrawingStyle::STYLE style() const { return _DrawingStyle.style(); diff --git a/source/blender/freestyle/intern/scene_graph/NodeGroup.cpp b/source/blender/freestyle/intern/scene_graph/NodeGroup.cpp index 69c33ea02a1..12082ba69a8 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeGroup.cpp +++ b/source/blender/freestyle/intern/scene_graph/NodeGroup.cpp @@ -37,7 +37,7 @@ void NodeGroup::AddChild(Node *iChild) int NodeGroup::destroy() { - /*! Node::destroy makes a release on the object and then returns the reference counter. + /** Node::destroy makes a release on the object and then returns the reference counter. * If the reference counter is equal to 0, that means that nobody else is linking this node * group and that we can destroy the whole underlying tree. Else, one or several Node link this * node group, and we only returns the reference counter decremented by Node::destroy(); diff --git a/source/blender/freestyle/intern/scene_graph/NodeGroup.h b/source/blender/freestyle/intern/scene_graph/NodeGroup.h index 0558e22bed1..f33687d43a3 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeGroup.h +++ b/source/blender/freestyle/intern/scene_graph/NodeGroup.h @@ -42,33 +42,33 @@ class NodeGroup : public Node { { } - /*! Adds a child. Makes a addRef on the iChild reference counter */ + /** Adds a child. Makes a addRef on the iChild reference counter */ virtual void AddChild(Node *iChild); - /*! destroys all the underlying nodes + /** destroys all the underlying nodes * Returns the reference counter after having done a release() */ virtual int destroy(); - /*! Detaches all the children */ + /** Detaches all the children */ virtual void DetachChildren(); - /*! Detached the specified child */ + /** Detached the specified child */ virtual void DetachChild(Node *iChild); - /*! Retrieve children */ + /** Retrieve children */ virtual void RetrieveChildren(vector<Node *> &oNodes); - /*! Renders every children */ + /** Renders every children */ // virtual void Render(Renderer *iRenderer); - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); - /*! Updates the BBox */ + /** Updates the BBox */ virtual const BBox<Vec3r> &UpdateBBox(); - /*! Returns the number of children */ + /** Returns the number of children */ virtual int numberOfChildren() { return _Children.size(); diff --git a/source/blender/freestyle/intern/scene_graph/NodeLight.h b/source/blender/freestyle/intern/scene_graph/NodeLight.h index bf8389441b6..1d92a96100c 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeLight.h +++ b/source/blender/freestyle/intern/scene_graph/NodeLight.h @@ -40,10 +40,10 @@ class NodeLight : public Node { { } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); - /*! Accessors for the light properties */ + /** Accessors for the light properties */ inline const float *ambient() const { return Ambient; @@ -78,24 +78,24 @@ class NodeLight : public Node { // Data members // ============ - /*! on=true, the light is on */ + /** on=true, the light is on */ bool on; - /*! The color definition */ + /** The color definition */ float Ambient[4]; float Diffuse[4]; float Specular[4]; - /*! Light position. if w = 0, the light is placed at infinite. */ + /** Light position. if w = 0, the light is placed at infinite. */ float Position[4]; - /*! used to manage the number of lights */ - /*! numberOfLights + /** used to manage the number of lights */ + /** numberOfLights * the number of lights in the scene. * Initially, 0. */ static int numberOfLights; - /*! The current lignt number */ + /** The current lignt number */ int _number; }; diff --git a/source/blender/freestyle/intern/scene_graph/NodeShape.h b/source/blender/freestyle/intern/scene_graph/NodeShape.h index 5f7a24b85d5..59b759dbae0 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeShape.h +++ b/source/blender/freestyle/intern/scene_graph/NodeShape.h @@ -46,7 +46,7 @@ class NodeShape : public Node { virtual ~NodeShape(); - /*! Adds a Rep to the _Shapes list + /** Adds a Rep to the _Shapes list * The delete of the rep is done when it is not used any more by the Scene Manager. * So, it must not be deleted by the caller */ @@ -62,17 +62,17 @@ class NodeShape : public Node { AddBBox(iRep->bbox()); } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); - /*! Sets the shape material */ + /** Sets the shape material */ inline void setFrsMaterial(const FrsMaterial &iMaterial) { _FrsMaterial = iMaterial; } - /*! accessors */ - /*! returns the shape's material */ + /** accessors */ + /** returns the shape's material */ inline FrsMaterial &frs_material() { return _FrsMaterial; @@ -84,10 +84,10 @@ class NodeShape : public Node { } private: - /*! list of shapes */ + /** list of shapes */ vector<Rep *> _Shapes; - /*! Shape Material */ + /** Shape Material */ FrsMaterial _FrsMaterial; }; diff --git a/source/blender/freestyle/intern/scene_graph/NodeTransform.h b/source/blender/freestyle/intern/scene_graph/NodeTransform.h index 9d55046a515..3bb14ef842b 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeTransform.h +++ b/source/blender/freestyle/intern/scene_graph/NodeTransform.h @@ -44,10 +44,10 @@ class NodeTransform : public NodeGroup { { } - /*! multiplies the current matrix by the x, y, z translation matrix. */ + /** multiplies the current matrix by the x, y, z translation matrix. */ void Translate(real x, real y, real z); - /*! multiplies the current matrix by a rotation matrix + /** multiplies the current matrix by a rotation matrix * iAngle * The rotation angle * x, y, z @@ -55,32 +55,32 @@ class NodeTransform : public NodeGroup { */ void Rotate(real iAngle, real x, real y, real z); - /*! multiplies the current matrix by a scaling matrix. + /** multiplies the current matrix by a scaling matrix. * x, y, z * The scaling coefficients with respect to the x,y,z axis */ void Scale(real x, real y, real z); - /*! Multiplies the current matrix by iMatrix */ + /** Multiplies the current matrix by iMatrix */ void MultiplyMatrix(const Matrix44r &iMatrix); - /*! Sets the current matrix to iMatrix */ + /** Sets the current matrix to iMatrix */ void setMatrix(const Matrix44r &iMatrix); - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); - /*! Overloads the Node::AddBBox in order to take care about the transformation */ + /** Overloads the Node::AddBBox in order to take care about the transformation */ virtual void AddBBox(const BBox<Vec3r> &iBBox); - /*! Checks whether a matrix contains a scale factor or not. + /** Checks whether a matrix contains a scale factor or not. * Returns true if yes. * M * The matrix to check */ bool isScaled(const Matrix44r &M); - /*! accessors */ + /** accessors */ inline const Matrix44r &matrix() const { return _Matrix; diff --git a/source/blender/freestyle/intern/scene_graph/NodeViewLayer.h b/source/blender/freestyle/intern/scene_graph/NodeViewLayer.h index d52155eb216..75f35eea411 100644 --- a/source/blender/freestyle/intern/scene_graph/NodeViewLayer.h +++ b/source/blender/freestyle/intern/scene_graph/NodeViewLayer.h @@ -49,7 +49,7 @@ class NodeViewLayer : public Node { return _ViewLayer; } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); protected: diff --git a/source/blender/freestyle/intern/scene_graph/OrientedLineRep.h b/source/blender/freestyle/intern/scene_graph/OrientedLineRep.h index c33fd529c69..6aaba1d30d2 100644 --- a/source/blender/freestyle/intern/scene_graph/OrientedLineRep.h +++ b/source/blender/freestyle/intern/scene_graph/OrientedLineRep.h @@ -32,7 +32,7 @@ class OrientedLineRep : public LineRep { OrientedLineRep() : LineRep() { } - /*! Builds a single line from 2 vertices + /** Builds a single line from 2 vertices * v1 * first vertex * v2 @@ -42,12 +42,12 @@ class OrientedLineRep : public LineRep { { } - /*! Builds a line rep from a vertex chain */ + /** Builds a line rep from a vertex chain */ inline OrientedLineRep(const vector<Vec3r> &vertices) : LineRep(vertices) { } - /*! Builds a line rep from a vertex chain */ + /** Builds a line rep from a vertex chain */ inline OrientedLineRep(const list<Vec3r> &vertices) : LineRep(vertices) { } @@ -56,7 +56,7 @@ class OrientedLineRep : public LineRep { { } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v); }; diff --git a/source/blender/freestyle/intern/scene_graph/Rep.h b/source/blender/freestyle/intern/scene_graph/Rep.h index dae5272beed..1401e69886a 100644 --- a/source/blender/freestyle/intern/scene_graph/Rep.h +++ b/source/blender/freestyle/intern/scene_graph/Rep.h @@ -102,7 +102,7 @@ class Rep : public BaseObject { } } - /*! Accept the corresponding visitor + /** Accept the corresponding visitor * Must be overload by inherited classes */ virtual void accept(SceneVisitor &v) @@ -113,13 +113,13 @@ class Rep : public BaseObject { v.visitRep(*this); } - /*! Computes the rep bounding box. + /** Computes the rep bounding box. * Each Inherited rep must compute its bbox depending on the way the data are stored. So, each * inherited class must overload this method */ virtual void ComputeBBox() = 0; - /*! Returns the rep bounding box */ + /** Returns the rep bounding box */ virtual const BBox<Vec3f> &bbox() const { return _BBox; @@ -145,7 +145,7 @@ class Rep : public BaseObject { return _FrsMaterial; } - /*! Sets the Rep bounding box */ + /** Sets the Rep bounding box */ virtual void setBBox(const BBox<Vec3f> &iBox) { _BBox = iBox; diff --git a/source/blender/freestyle/intern/scene_graph/TriangleRep.h b/source/blender/freestyle/intern/scene_graph/TriangleRep.h index 4461b38d68b..a29ecbd4979 100644 --- a/source/blender/freestyle/intern/scene_graph/TriangleRep.h +++ b/source/blender/freestyle/intern/scene_graph/TriangleRep.h @@ -26,10 +26,10 @@ namespace Freestyle { -/*! Base class for all lines objects */ +/** Base class for all lines objects */ class TriangleRep : public Rep { public: - /*! Line description style */ + /** Line description style */ enum TRIANGLE_STYLE { FILL, LINES, @@ -46,7 +46,7 @@ class TriangleRep : public Rep { _Style = FILL; } - /*! Builds a triangle from 3 vertices + /** Builds a triangle from 3 vertices * v0 * first vertex * v1 @@ -83,7 +83,7 @@ class TriangleRep : public Rep { { } - /*! accessors */ + /** accessors */ inline const TRIANGLE_STYLE style() const { return _Style; @@ -99,7 +99,7 @@ class TriangleRep : public Rep { return _colors[index]; } - /*! modifiers */ + /** modifiers */ inline void setStyle(const TRIANGLE_STYLE iStyle) { _Style = iStyle; @@ -129,14 +129,14 @@ class TriangleRep : public Rep { _colors[2] = c2; } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v) { Rep::accept(v); v.visitTriangleRep(*this); } - /*! Computes the triangle bounding box.*/ + /** Computes the triangle bounding box.*/ virtual void ComputeBBox(); }; diff --git a/source/blender/freestyle/intern/scene_graph/VertexRep.h b/source/blender/freestyle/intern/scene_graph/VertexRep.h index 278cfa694f7..edcb3405e4e 100644 --- a/source/blender/freestyle/intern/scene_graph/VertexRep.h +++ b/source/blender/freestyle/intern/scene_graph/VertexRep.h @@ -47,17 +47,17 @@ class VertexRep : public Rep { { } - /*! Accept the corresponding visitor */ + /** Accept the corresponding visitor */ virtual void accept(SceneVisitor &v) { Rep::accept(v); v.visitVertexRep(*this); } - /*! Computes the rep bounding box. */ + /** Computes the rep bounding box. */ virtual void ComputeBBox(); - /*! accessors */ + /** accessors */ inline const int vid() const { return _vid; @@ -88,7 +88,7 @@ class VertexRep : public Rep { return _PointSize; } - /*! modifiers */ + /** modifiers */ inline void setVid(int id) { _vid = id; diff --git a/source/blender/freestyle/intern/stroke/AdvancedFunctions0D.h b/source/blender/freestyle/intern/stroke/AdvancedFunctions0D.h index 17e419bed54..212187e598c 100644 --- a/source/blender/freestyle/intern/stroke/AdvancedFunctions0D.h +++ b/source/blender/freestyle/intern/stroke/AdvancedFunctions0D.h @@ -36,13 +36,13 @@ namespace Freestyle { namespace Functions0D { // DensityF0D -/*! Returns the density of the (result) image evaluated at an Interface0D. +/** Returns the density of the (result) image evaluated at an Interface0D. * This density is evaluated using a pixels square window around the evaluation point and * integrating these values using a gaussian. */ class DensityF0D : public UnaryFunction0D<double> { public: - /*! Builds the functor from the gaussian sigma value. + /** Builds the functor from the gaussian sigma value. * \param sigma: * sigma indicates the x value for which the gaussian function is 0.5. * It leads to the window size value. (the larger, the smoother) @@ -52,13 +52,13 @@ class DensityF0D : public UnaryFunction0D<double> { _filter.setSigma((float)sigma); } - /*! Returns the string "DensityF0D" */ + /** Returns the string "DensityF0D" */ string getName() const { return "DensityF0D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface0DIterator &iter); private: @@ -66,7 +66,7 @@ class DensityF0D : public UnaryFunction0D<double> { }; // LocalAverageDepthF0D -/*! Returns the average depth around a point. +/** Returns the average depth around a point. * The result is obtained by querying the depth buffer on a window around that point. */ class LocalAverageDepthF0D : public UnaryFunction0D<double> { @@ -74,31 +74,31 @@ class LocalAverageDepthF0D : public UnaryFunction0D<double> { GaussianFilter _filter; public: - /*! Builds the functor from the size of the mask that will be used. */ + /** Builds the functor from the size of the mask that will be used. */ LocalAverageDepthF0D(real maskSize = 5.0f) : UnaryFunction0D<double>() { _filter.setSigma((float)maskSize / 2.0f); } - /*! Returns the string "LocalAverageDepthF0D" */ + /** Returns the string "LocalAverageDepthF0D" */ string getName() const { return "LocalAverageDepthF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // ReadMapPixel -/*! Reads a pixel in a map. */ +/** Reads a pixel in a map. */ class ReadMapPixelF0D : public UnaryFunction0D<float> { private: const char *_mapName; int _level; public: - /*! Builds the functor from name of the + /** Builds the functor from name of the * Map that must be read. * \param iMapName: * The name of the map. @@ -111,25 +111,25 @@ class ReadMapPixelF0D : public UnaryFunction0D<float> { _level = level; } - /*! Returns the string "ReadMapPixelF0D" */ + /** Returns the string "ReadMapPixelF0D" */ string getName() const { return "ReadMapPixelF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // ReadSteerableViewMapPixel -/*! Reads a pixel in one of the level of one of the steerable viewmaps. */ +/** Reads a pixel in one of the level of one of the steerable viewmaps. */ class ReadSteerableViewMapPixelF0D : public UnaryFunction0D<float> { private: unsigned _orientation; int _level; public: - /*! Builds the functor + /** Builds the functor * \param nOrientation: * The integer belonging to [0,4] indicating the orientation (E,NE,N,NW) we are interested in. * \param level: @@ -141,24 +141,24 @@ class ReadSteerableViewMapPixelF0D : public UnaryFunction0D<float> { _level = level; } - /*! Returns the string "ReadSteerableViewMapPixelF0D" */ + /** Returns the string "ReadSteerableViewMapPixelF0D" */ string getName() const { return "ReadSteerableViewMapPixelF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // ReadCompleteViewMapPixel -/*! Reads a pixel in one of the level of the complete viewmap. */ +/** Reads a pixel in one of the level of the complete viewmap. */ class ReadCompleteViewMapPixelF0D : public UnaryFunction0D<float> { private: int _level; public: - /*! Builds the functor + /** Builds the functor * \param level: * The level of the pyramid from which the pixel must be read. */ @@ -167,25 +167,25 @@ class ReadCompleteViewMapPixelF0D : public UnaryFunction0D<float> { _level = level; } - /*! Returns the string "ReadCompleteViewMapPixelF0D" */ + /** Returns the string "ReadCompleteViewMapPixelF0D" */ string getName() const { return "ReadCompleteViewMapPixelF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // GetViewMapGradientNormF0D -/*! Returns the norm of the gradient of the global viewmap density image. */ +/** Returns the norm of the gradient of the global viewmap density image. */ class GetViewMapGradientNormF0D : public UnaryFunction0D<float> { private: int _level; float _step; public: - /*! Builds the functor + /** Builds the functor * \param level: * The level of the pyramid from which the pixel must be read. */ @@ -195,13 +195,13 @@ class GetViewMapGradientNormF0D : public UnaryFunction0D<float> { _step = (float)pow(2.0, _level); } - /*! Returns the string "GetOccludeeF0D" */ + /** Returns the string "GetOccludeeF0D" */ string getName() const { return "GetViewMapGradientNormF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; diff --git a/source/blender/freestyle/intern/stroke/AdvancedFunctions1D.h b/source/blender/freestyle/intern/stroke/AdvancedFunctions1D.h index 349db393e17..07ef0a7039c 100644 --- a/source/blender/freestyle/intern/stroke/AdvancedFunctions1D.h +++ b/source/blender/freestyle/intern/stroke/AdvancedFunctions1D.h @@ -35,7 +35,7 @@ namespace Freestyle { namespace Functions1D { // DensityF1D -/*! Returns the density evaluated for an Interface1D. +/** Returns the density evaluated for an Interface1D. * The density is evaluated for a set of points along the Interface1D (using the DensityF0D * functor) with a user-defined sampling and then integrated into a single value using a * user-defined integration method. @@ -45,7 +45,7 @@ class DensityF1D : public UnaryFunction1D<double> { float _sampling; public: - /*! Builds the functor. + /** Builds the functor. * \param sigma: * Thesigma used in DensityF0D and determining the window size used in each density query. * \param iType: @@ -61,18 +61,18 @@ class DensityF1D : public UnaryFunction1D<double> { _sampling = sampling; } - /*! Destructor */ + /** Destructor */ virtual ~DensityF1D() { } - /*! Returns the string "DensityF1D"*/ + /** Returns the string "DensityF1D"*/ string getName() const { return "DensityF1D"; } - /*! the () operator.*/ + /** the () operator.*/ int operator()(Interface1D &inter) { result = integrate( @@ -85,14 +85,14 @@ class DensityF1D : public UnaryFunction1D<double> { }; // LocalAverageDepthF1D -/*! Returns the average depth evaluated for an Interface1D. +/** Returns the average depth evaluated for an Interface1D. * The average depth is evaluated for a set of points along the Interface1D (using the * LocalAverageDepthF0D functor) with a user-defined sampling and then integrated into a single * value using a user-defined integration method. */ class LocalAverageDepthF1D : public UnaryFunction1D<double> { public: - /*! Builds the functor. + /** Builds the functor. * \param sigma: * The sigma used in DensityF0D and determining the window size used in each density query. * \param iType: @@ -103,13 +103,13 @@ class LocalAverageDepthF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "LocalAverageDepthF1D" */ + /** Returns the string "LocalAverageDepthF1D" */ string getName() const { return "LocalAverageDepthF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter) { result = integrate(_fun, inter.verticesBegin(), inter.verticesEnd(), _integration); @@ -121,14 +121,14 @@ class LocalAverageDepthF1D : public UnaryFunction1D<double> { }; // GetCompleteViewMapDensity -/*! Returns the density evaluated for an Interface1D in the complete viewmap image. +/** Returns the density evaluated for an Interface1D in the complete viewmap image. * The density is evaluated for a set of points along the Interface1D (using the * ReadCompleteViewMapPixelF0D functor) and then integrated into a single value using a * user-defined integration method. */ class GetCompleteViewMapDensityF1D : public UnaryFunction1D<double> { public: - /*! Builds the functor. + /** Builds the functor. * \param level: * The level of the pyramid from which * the pixel must be read. @@ -147,13 +147,13 @@ class GetCompleteViewMapDensityF1D : public UnaryFunction1D<double> { _sampling = sampling; } - /*! Returns the string "GetCompleteViewMapDensityF1D" */ + /** Returns the string "GetCompleteViewMapDensityF1D" */ string getName() const { return "GetCompleteViewMapDensityF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); private: @@ -162,7 +162,7 @@ class GetCompleteViewMapDensityF1D : public UnaryFunction1D<double> { }; // GetDirectionalViewMapDensity -/*! Returns the density evaluated for an Interface1D in of the steerable viewmaps image. +/** Returns the density evaluated for an Interface1D in of the steerable viewmaps image. * The direction telling which Directional map to choose is explicitly specified by the user. * The density is evaluated for a set of points along the Interface1D * (using the ReadSteerableViewMapPixelF0D functor) @@ -170,7 +170,7 @@ class GetCompleteViewMapDensityF1D : public UnaryFunction1D<double> { */ class GetDirectionalViewMapDensityF1D : public UnaryFunction1D<double> { public: - /*! Builds the functor. + /** Builds the functor. * \param iOrientation: * The number of the directional map we must work with. * \param level: @@ -191,13 +191,13 @@ class GetDirectionalViewMapDensityF1D : public UnaryFunction1D<double> { _sampling = sampling; } - /*! Returns the string "GetDirectionalViewMapDensityF1D" */ + /** Returns the string "GetDirectionalViewMapDensityF1D" */ string getName() const { return "GetDirectionalViewMapDensityF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); private: @@ -206,7 +206,7 @@ class GetDirectionalViewMapDensityF1D : public UnaryFunction1D<double> { }; // GetSteerableViewMapDensityF1D -/*! Returns the density of the viewmap for a given Interface1D. The density of each FEdge is +/** Returns the density of the viewmap for a given Interface1D. The density of each FEdge is * evaluated in the proper steerable ViewMap depending on its orientation. */ class GetSteerableViewMapDensityF1D : public UnaryFunction1D<double> { @@ -215,7 +215,7 @@ class GetSteerableViewMapDensityF1D : public UnaryFunction1D<double> { float _sampling; public: - /*! Builds the functor from the level of the pyramid from which the pixel must be read. + /** Builds the functor from the level of the pyramid from which the pixel must be read. * \param level: * The level of the pyramid from which the pixel must be read. * \param iType: @@ -232,23 +232,23 @@ class GetSteerableViewMapDensityF1D : public UnaryFunction1D<double> { _sampling = sampling; } - /*! Destructor */ + /** Destructor */ virtual ~GetSteerableViewMapDensityF1D() { } - /*! Returns the string "GetSteerableViewMapDensityF1D" */ + /** Returns the string "GetSteerableViewMapDensityF1D" */ string getName() const { return "GetSteerableViewMapDensityF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetViewMapGradientNormF1D -/*! Returns the density of the viewmap for a given Interface1D. The density of each FEdge is +/** Returns the density of the viewmap for a given Interface1D. The density of each FEdge is * evaluated in the proper steerable ViewMap depending on its orientation. */ class GetViewMapGradientNormF1D : public UnaryFunction1D<double> { @@ -258,7 +258,7 @@ class GetViewMapGradientNormF1D : public UnaryFunction1D<double> { Functions0D::GetViewMapGradientNormF0D _func; public: - /*! Builds the functor from the level of the pyramid from which the pixel must be read. + /** Builds the functor from the level of the pyramid from which the pixel must be read. * \param level: * The level of the pyramid from which the pixel must be read. * \param iType: @@ -275,13 +275,13 @@ class GetViewMapGradientNormF1D : public UnaryFunction1D<double> { _sampling = sampling; } - /*! Returns the string "GetSteerableViewMapDensityF1D" */ + /** Returns the string "GetSteerableViewMapDensityF1D" */ string getName() const { return "GetViewMapGradientNormF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; diff --git a/source/blender/freestyle/intern/stroke/AdvancedPredicates1D.h b/source/blender/freestyle/intern/stroke/AdvancedPredicates1D.h index 25a5efcce34..d7c501e97ad 100644 --- a/source/blender/freestyle/intern/stroke/AdvancedPredicates1D.h +++ b/source/blender/freestyle/intern/stroke/AdvancedPredicates1D.h @@ -38,12 +38,12 @@ namespace Freestyle { namespace Predicates1D { // DensityLowerThanUP1D -/*! Returns true if the density evaluated for the +/** Returns true if the density evaluated for the * Interface1D is less than a user-defined density value. */ class DensityLowerThanUP1D : public UnaryPredicate1D { public: - /*! Builds the functor. + /** Builds the functor. * \param threshold: * The value of the threshold density. * Any Interface1D having a density lower than this threshold will match. @@ -56,13 +56,13 @@ class DensityLowerThanUP1D : public UnaryPredicate1D { _sigma = sigma; } - /*! Returns the string "DensityLowerThanUP1D" */ + /** Returns the string "DensityLowerThanUP1D" */ string getName() const { return "DensityLowerThanUP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &inter) { Functions1D::DensityF1D fun(_sigma); diff --git a/source/blender/freestyle/intern/stroke/AdvancedStrokeShaders.h b/source/blender/freestyle/intern/stroke/AdvancedStrokeShaders.h index 63c7d451599..52cd037a73a 100644 --- a/source/blender/freestyle/intern/stroke/AdvancedStrokeShaders.h +++ b/source/blender/freestyle/intern/stroke/AdvancedStrokeShaders.h @@ -25,14 +25,14 @@ namespace Freestyle { -/*! [ Thickness Shader ]. +/** [ Thickness Shader ]. * Assigns thicknesses to the stroke vertices so that the stroke looks like made with a * calligraphic tool. i.e. The stroke will be the thickest in a main direction, the thinnest in the * direction perpendicular to this one, and an interpolation in between. */ class CalligraphicShader : public StrokeShader { public: - /*! Builds the shader. + /** Builds the shader. * \param iMinThickness: * The minimum thickness in the direction perpendicular to the main direction. * \param iMaxThickness: @@ -47,12 +47,12 @@ class CalligraphicShader : public StrokeShader { const Vec2f &iOrientation, bool clamp); - /*! Destructor. */ + /** Destructor. */ virtual ~CalligraphicShader() { } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &ioStroke) const; protected: @@ -62,14 +62,14 @@ class CalligraphicShader : public StrokeShader { bool _clamp; }; -/*! [ Geometry Shader ]. +/** [ Geometry Shader ]. * Spatial Noise stroke shader. * Moves the vertices to make the stroke more noisy. * \see \htmlonly <a href=noise/noise.html>noise/noise.html</a> \endhtmlonly */ class SpatialNoiseShader : public StrokeShader { public: - /*! Builds the shader. + /** Builds the shader. * \param iAmount: * The amplitude of the noise. * \param ixScale: @@ -83,12 +83,12 @@ class SpatialNoiseShader : public StrokeShader { */ SpatialNoiseShader(float iAmount, float ixScale, int nbOctave, bool smooth, bool pureRandom); - /*! Destructor. */ + /** Destructor. */ virtual ~SpatialNoiseShader() { } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &ioStroke) const; protected: @@ -99,7 +99,7 @@ class SpatialNoiseShader : public StrokeShader { bool _pureRandom; }; -/*! [ Geometry Shader ]. +/** [ Geometry Shader ]. * Smooths the stroke. * (Moves the vertices to make the stroke smoother). * Uses curvature flow to converge towards a curve of constant curvature. The diffusion method we @@ -108,7 +108,7 @@ class SpatialNoiseShader : public StrokeShader { */ class SmoothingShader : public StrokeShader { public: - /*! Builds the shader. + /** Builds the shader. * \param iNbIteration: * The number of iterations. (400) * \param iFactorPoint: @@ -135,12 +135,12 @@ class SmoothingShader : public StrokeShader { real iAnisoCurvature, real icarricatureFactor); - /*! Destructor. */ + /** Destructor. */ virtual ~SmoothingShader() { } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &ioStroke) const; protected: @@ -213,7 +213,7 @@ class Omitter : public Smoother { real _lengthFlat; }; -/*! Omission shader */ +/** Omission shader */ class OmissionShader : public StrokeShader { public: OmissionShader(real sizeWindow, real thrVari, real thrFlat, real lFlat); diff --git a/source/blender/freestyle/intern/stroke/BasicStrokeShaders.h b/source/blender/freestyle/intern/stroke/BasicStrokeShaders.h index 0ac0aa09cf9..fcf661ea72f 100644 --- a/source/blender/freestyle/intern/stroke/BasicStrokeShaders.h +++ b/source/blender/freestyle/intern/stroke/BasicStrokeShaders.h @@ -47,12 +47,12 @@ namespace StrokeShaders { // ////////////////////////////////////////////////////// -/*! [ Thickness Shader ]. +/** [ Thickness Shader ]. * Assigns an absolute constant thickness to every vertices of the Stroke. */ class ConstantThicknessShader : public StrokeShader { public: - /*! Builds the shader. + /** Builds the shader. * \param thickness: * The thickness that must be assigned to the stroke. */ @@ -61,18 +61,18 @@ class ConstantThicknessShader : public StrokeShader { _thickness = thickness; } - /*! Destructor. */ + /** Destructor. */ virtual ~ConstantThicknessShader() { } - /*! Returns the string "ConstantThicknessShader".*/ + /** Returns the string "ConstantThicknessShader".*/ virtual string getName() const { return "ConstantThicknessShader"; } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &stroke) const; private: @@ -106,7 +106,7 @@ class ConstantExternThicknessShader : public StrokeShader { float _thickness; }; -/*! [ Thickness Shader ]. +/** [ Thickness Shader ]. * Assigns thicknesses values such as the thickness increases from a thickness value A to a * thickness value B between the first vertex to the midpoint vertex and then decreases from B to a * A between this midpoint vertex and the last vertex. The thickness is linearly interpolated from @@ -114,7 +114,7 @@ class ConstantExternThicknessShader : public StrokeShader { */ class IncreasingThicknessShader : public StrokeShader { public: - /*! Builds the shader. + /** Builds the shader. * \param iThicknessMin: * The first thickness value. * \param iThicknessMax: @@ -126,7 +126,7 @@ class IncreasingThicknessShader : public StrokeShader { _ThicknessMax = iThicknessMax; } - /*! Destructor.*/ + /** Destructor.*/ virtual ~IncreasingThicknessShader() { } @@ -136,7 +136,7 @@ class IncreasingThicknessShader : public StrokeShader { return "IncreasingThicknessShader"; } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &stroke) const; private: @@ -144,7 +144,7 @@ class IncreasingThicknessShader : public StrokeShader { float _ThicknessMax; }; -/*! [ Thickness shader ]. +/** [ Thickness shader ]. * Same as previous but here we allow the user to control the ratio thickness/length so that we * don't get fat short lines */ @@ -155,7 +155,7 @@ class ConstrainedIncreasingThicknessShader : public StrokeShader { float _ratio; public: - /*! Builds the shader. + /** Builds the shader. * \param iThicknessMin: * The first thickness value. * \param iThicknessMax: @@ -171,7 +171,7 @@ class ConstrainedIncreasingThicknessShader : public StrokeShader { _ratio = iRatio; } - /*! Destructor.*/ + /** Destructor.*/ virtual ~ConstrainedIncreasingThicknessShader() { } @@ -181,7 +181,7 @@ class ConstrainedIncreasingThicknessShader : public StrokeShader { return "ConstrainedIncreasingThicknessShader"; } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &stroke) const; }; @@ -217,7 +217,7 @@ class LengthDependingThicknessShader : public StrokeShader { virtual int shade(Stroke &stroke) const; }; -/*! [ Thickness Shader ]. +/** [ Thickness Shader ]. * Adds some noise to the stroke thickness. * \see \htmlonly <a href=noise/noise.html>noise/noise.html</a>\endhtmlonly */ @@ -229,7 +229,7 @@ class ThicknessNoiseShader : public StrokeShader { public: ThicknessNoiseShader(); - /*! Builds a Thickness Noise Shader + /** Builds a Thickness Noise Shader * \param iAmplitude: * The amplitude of the noise signal * \param iPeriod: @@ -242,7 +242,7 @@ class ThicknessNoiseShader : public StrokeShader { return "ThicknessNoiseShader"; } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &stroke) const; }; @@ -250,12 +250,12 @@ class ThicknessNoiseShader : public StrokeShader { // Color shaders // ///////////////////////////////////////////////////////// -/*! [ Color Shader ]. +/** [ Color Shader ]. * Assigns a constant color to every vertices of the Stroke. */ class ConstantColorShader : public StrokeShader { public: - /*! Builds the shader from a user-specified color. + /** Builds the shader from a user-specified color. * \param iR: * The red component * \param iG: @@ -278,14 +278,14 @@ class ConstantColorShader : public StrokeShader { return "ConstantColorShader"; } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &stroke) const; private: float _color[4]; }; -/*! [ Color Shader ]. +/** [ Color Shader ]. * Assigns a varying color to the stroke. * The user specifies 2 colors A and B. The stroke color will change linearly from A to B between * the first and the last vertex. @@ -296,7 +296,7 @@ class IncreasingColorShader : public StrokeShader { float _colorMax[4]; public: - /*! Builds the shader from 2 user-specified colors. + /** Builds the shader from 2 user-specified colors. * \param iRm: * The first color red component * \param iGm: @@ -340,7 +340,7 @@ class IncreasingColorShader : public StrokeShader { return "IncreasingColorShader"; } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &stroke) const; }; @@ -366,7 +366,7 @@ class MaterialColorShader : public StrokeShader { virtual int shade(Stroke &stroke) const; }; -/*! [ Color Shader ]. +/** [ Color Shader ]. * Shader to add noise to the stroke colors. */ class ColorNoiseShader : public StrokeShader { @@ -377,7 +377,7 @@ class ColorNoiseShader : public StrokeShader { public: ColorNoiseShader(); - /*! Builds a Color Noise Shader + /** Builds a Color Noise Shader * \param iAmplitude: * The amplitude of the noise signal * \param iPeriod: @@ -390,7 +390,7 @@ class ColorNoiseShader : public StrokeShader { return "ColorNoiseShader"; } - /*! The shading method. */ + /** The shading method. */ virtual int shade(Stroke &stroke) const; }; @@ -398,7 +398,7 @@ class ColorNoiseShader : public StrokeShader { // Geometry Shaders // /////////////////////////////////////////////////////////////////////////////// -/*! [ Geometry Shader ]. +/** [ Geometry Shader ]. * Stretches the stroke at its two extremities and following the respective directions: v(1)v(0) * and v(n-1)v(n). */ @@ -407,7 +407,7 @@ class BackboneStretcherShader : public StrokeShader { float _amount; public: - /*! Builds the shader. + /** Builds the shader. * \param iAmount: * The stretching amount value. */ @@ -421,11 +421,11 @@ class BackboneStretcherShader : public StrokeShader { return "BackboneStretcherShader"; } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &stroke) const; }; -/*! [ Geometry Shader. ] +/** [ Geometry Shader. ] * Resamples the stroke. * \see Stroke::Resample(float). */ @@ -434,7 +434,7 @@ class SamplingShader : public StrokeShader { float _sampling; public: - /*! Builds the shader. + /** Builds the shader. * \param sampling: * The sampling to use for the stroke resampling */ @@ -448,7 +448,7 @@ class SamplingShader : public StrokeShader { return "SamplingShader"; } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &stroke) const; }; @@ -471,7 +471,7 @@ class ExternalContourStretcherShader : public StrokeShader { }; // Bezier curve stroke shader -/*! [ Geometry Shader ]. +/** [ Geometry Shader ]. * Transforms the stroke backbone geometry so that it corresponds to a Bezier Curve approximation * of the original backbone geometry. \see \htmlonly <a * href=bezier/bezier.html>bezier/bezier.html</a> \endhtmlonly @@ -481,7 +481,7 @@ class BezierCurveShader : public StrokeShader { float _error; public: - /*! Builds the shader. + /** Builds the shader. * \param error: * The error we're allowing for the approximation. * This error is the max distance allowed between the new curve and the original geometry. @@ -496,11 +496,11 @@ class BezierCurveShader : public StrokeShader { return "BezierCurveShader"; } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &stroke) const; }; -/*! [ Geometry Shader ]. +/** [ Geometry Shader ]. * Shader to modify the Stroke geometry so that it looks more "polygonal". * The basic idea is to start from the minimal stroke approximation consisting in a line joining * the first vertex to the last one and to subdivide using the original stroke vertices until a @@ -511,7 +511,7 @@ class PolygonalizationShader : public StrokeShader { float _error; public: - /*! Builds the shader. + /** Builds the shader. * \param iError: * The error we want our polygonal approximation to have with respect to the original * geometry. The smaller, the closer the new stroke to the original one. @@ -527,11 +527,11 @@ class PolygonalizationShader : public StrokeShader { return "PolygonalizationShader"; } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &stroke) const; }; -/*! [ Geometry Shader ]. +/** [ Geometry Shader ]. * Shader to modify the Stroke geometry so that it corresponds to its main direction line. * This shader must be used together with the splitting operator using the curvature criterion. * Indeed, the precision of the approximation will depend on the size of the stroke's pieces. @@ -542,7 +542,7 @@ class GuidingLinesShader : public StrokeShader { float _offset; public: - /*! Builds a Guiding Lines shader + /** Builds a Guiding Lines shader * \param iOffset: * The line that replaces the stroke is initially in the middle of the initial stroke * "bbox". iOffset is the value of the displacement which is applied to this line along its @@ -558,27 +558,27 @@ class GuidingLinesShader : public StrokeShader { return "GuidingLinesShader"; } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &stroke) const; }; -/*! [ Geometry Shader ]. +/** [ Geometry Shader ]. * Removes the stroke's extremities. */ class TipRemoverShader : public StrokeShader { public: - /*! Builds the shader. + /** Builds the shader. * \param tipLength: * The length of the piece of stroke we want to remove at each extremity. */ TipRemoverShader(real tipLength); - /*! Destructor. */ + /** Destructor. */ virtual ~TipRemoverShader() { } - /*! The shading method */ + /** The shading method */ virtual string getName() const { return "TipRemoverShader"; @@ -590,7 +590,7 @@ class TipRemoverShader : public StrokeShader { real _tipLength; }; -/*! [ Texture Shader ]. +/** [ Texture Shader ]. * Shader to assign texture to the Stroke material. */ @@ -600,7 +600,7 @@ class BlenderTextureShader : public StrokeShader { bNodeTree *_nodeTree; public: - /*! Builds the shader. + /** Builds the shader. * \param mtex: * The blender texture to use. */ @@ -610,7 +610,7 @@ class BlenderTextureShader : public StrokeShader { _nodeTree = NULL; } - /*! Builds the shader. + /** Builds the shader. * \param nodetree: * A node tree (of new shading nodes) to define textures. */ @@ -625,11 +625,11 @@ class BlenderTextureShader : public StrokeShader { return "BlenderTextureShader"; } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &stroke) const; }; -/*! [ Texture Shader ]. +/** [ Texture Shader ]. * Shader to assign texture to the Stroke material. */ @@ -638,7 +638,7 @@ class StrokeTextureStepShader : public StrokeShader { float _step; public: - /*! Builds the shader. + /** Builds the shader. * \param id: * The number of the preset to use. */ @@ -652,7 +652,7 @@ class StrokeTextureStepShader : public StrokeShader { return "StrokeTextureStepShader"; } - /*! The shading method */ + /** The shading method */ virtual int shade(Stroke &stroke) const; }; diff --git a/source/blender/freestyle/intern/stroke/Canvas.h b/source/blender/freestyle/intern/stroke/Canvas.h index 91676946b5d..8d71cd534ec 100644 --- a/source/blender/freestyle/intern/stroke/Canvas.h +++ b/source/blender/freestyle/intern/stroke/Canvas.h @@ -60,12 +60,12 @@ class ImagePyramid; class SteerableViewMap; class StyleModule; -/*! Class to define the canvas on which strokes are drawn. +/** Class to define the canvas on which strokes are drawn. * It's used to store state information about the drawing. */ class Canvas { public: - /*! Returns a pointer on the Canvas instance */ + /** Returns a pointer on the Canvas instance */ static Canvas *getInstance() { return _pInstance; @@ -136,7 +136,7 @@ class Canvas { } /* Maps management */ - /*! Loads an image map. The map will be scaled + /** Loads an image map. The map will be scaled * (without preserving the ratio in order to fit the actual canvas size.). * The image must be a gray values image... * \param iFileName: @@ -152,7 +152,7 @@ class Canvas { unsigned iNbLevels = 4, float iSigma = 1.0f); - /*! Reads a pixel value in a map. + /** Reads a pixel value in a map. * Returns a value between 0 and 1. * \param iMapName: * The name of the map @@ -167,19 +167,19 @@ class Canvas { */ float readMapPixel(const char *iMapName, int level, int x, int y); - /*! Sets the steerable viewmap */ + /** Sets the steerable viewmap */ void loadSteerableViewMap(SteerableViewMap *iSVM) { _steerableViewMap = iSVM; } - /*! Returns the steerable VM */ + /** Returns the steerable VM */ SteerableViewMap *getSteerableViewMap() { return _steerableViewMap; } - /*! accessors */ + /** accessors */ inline const FEdge *selectedFEdge() const { return _SelectedFEdge; @@ -215,13 +215,13 @@ class Canvas { return stroke_count; } - /*! modifiers */ + /** modifiers */ inline void setSelectedFEdge(FEdge *iFEdge) { _SelectedFEdge = iFEdge; } - /*! inserts a shader at pos index+1 */ + /** inserts a shader at pos index+1 */ void PushBackStyleModule(StyleModule *iStyleModule); void InsertStyleModule(unsigned index, StyleModule *iStyleModule); void RemoveStyleModule(unsigned index); diff --git a/source/blender/freestyle/intern/stroke/Chain.h b/source/blender/freestyle/intern/stroke/Chain.h index d5dae5c35ba..bcc6957b714 100644 --- a/source/blender/freestyle/intern/stroke/Chain.h +++ b/source/blender/freestyle/intern/stroke/Chain.h @@ -27,7 +27,7 @@ namespace Freestyle { -/*! Class to represent a 1D elements issued from the chaining process. +/** Class to represent a 1D elements issued from the chaining process. * A Chain is the last step before the Stroke and is used in the Splitting and Creation processes. */ class Chain : public Curve { @@ -38,28 +38,28 @@ class Chain : public Curve { _fedgeB; // the last FEdge of the ViewEdge passed to the last call for push_viewedge_back(). public: - /*! Default constructor. */ + /** Default constructor. */ Chain() : Curve() { _splittingId = 0; _fedgeB = 0; } - /*! Builds a chain from its Id. */ + /** Builds a chain from its Id. */ Chain(const Id &id) : Curve(id) { _splittingId = 0; _fedgeB = 0; } - /*! Copy Constructor */ + /** Copy Constructor */ Chain(const Chain &iBrother) : Curve(iBrother) { _splittingId = iBrother._splittingId; _fedgeB = iBrother._fedgeB; } - /*! Destructor. */ + /** Destructor. */ virtual ~Chain() { // only the last splitted deletes this id @@ -70,13 +70,13 @@ class Chain : public Curve { } } - /*! Returns the string "Chain" */ + /** Returns the string "Chain" */ virtual string getExactTypeName() const { return "Chain"; } - /*! Adds a ViewEdge at the end of the chain + /** Adds a ViewEdge at the end of the chain * \param iViewEdge: * The ViewEdge that must be added. * \param orientation: @@ -84,7 +84,7 @@ class Chain : public Curve { */ void push_viewedge_back(ViewEdge *iViewEdge, bool orientation); - /*! Adds a ViewEdge at the beginning of the chain + /** Adds a ViewEdge at the beginning of the chain * \param iViewEdge: * The ViewEdge that must be added. * \param orientation: diff --git a/source/blender/freestyle/intern/stroke/ChainingIterators.h b/source/blender/freestyle/intern/stroke/ChainingIterators.h index 0a9e7114ecb..c0259471277 100644 --- a/source/blender/freestyle/intern/stroke/ChainingIterators.h +++ b/source/blender/freestyle/intern/stroke/ChainingIterators.h @@ -98,11 +98,11 @@ class AdjacencyIterator : public Iterator { return _internalIterator.isBegin(); } - /*! Returns true if the current ViewEdge is coming towards the iteration vertex. + /** Returns true if the current ViewEdge is coming towards the iteration vertex. * False otherwise. */ bool isIncoming() const; - /*! Returns a *pointer* to the pointed ViewEdge. */ + /** Returns a *pointer* to the pointed ViewEdge. */ virtual ViewEdge *operator*(); virtual ViewEdge *operator->() @@ -140,7 +140,7 @@ class AdjacencyIterator : public Iterator { // /////////////////////////////////////////////////////////// -/*! Base class for chaining iterators. +/** Base class for chaining iterators. * This class is designed to be overloaded in order to describe chaining rules. * It makes the works of chaining rules description easier. * The two main methods that need to overloaded are traverse() and init(). @@ -159,7 +159,7 @@ class ChainingIterator : public ViewEdgeInternal::ViewEdgeIterator { ViewEdge *result; void *py_c_it; - /*! Builds a Chaining Iterator from the first ViewEdge used for iteration and its orientation. + /** Builds a Chaining Iterator from the first ViewEdge used for iteration and its orientation. * \param iRestrictToSelection: * Indicates whether to force the chaining to stay within * the set of selected ViewEdges or not. @@ -183,7 +183,7 @@ class ChainingIterator : public ViewEdgeInternal::ViewEdgeIterator { py_c_it = NULL; } - /*! Copy constructor */ + /** Copy constructor */ ChainingIterator(const ChainingIterator &brother) : ViewEdgeIterator(brother) { _restrictToSelection = brother._restrictToSelection; @@ -192,19 +192,19 @@ class ChainingIterator : public ViewEdgeInternal::ViewEdgeIterator { py_c_it = brother.py_c_it; } - /*! Returns the string "ChainingIterator" */ + /** Returns the string "ChainingIterator" */ virtual string getExactTypeName() const { return "ChainingIterator"; } - /*! Inits the iterator context. + /** Inits the iterator context. * This method is called each time a new chain is started. * It can be used to reset some history information that you might want to keep. */ virtual int init(); - /*! This method iterates over the potential next ViewEdges and returns the one that will be + /** This method iterates over the potential next ViewEdges and returns the one that will be * followed next. returns the next ViewEdge to follow or 0 when the end of the chain is reached. * \param it: * The iterator over the ViewEdges adjacent to the end vertex of the current ViewEdge. @@ -214,11 +214,11 @@ class ChainingIterator : public ViewEdgeInternal::ViewEdgeIterator { virtual int traverse(const AdjacencyIterator &it); /* accessors */ - /*! Returns true if the orientation of the current ViewEdge corresponds to its natural + /** Returns true if the orientation of the current ViewEdge corresponds to its natural * orientation */ // inline bool getOrientation() const {} - /*! Returns the vertex which is the next crossing */ + /** Returns the vertex which is the next crossing */ inline ViewVertex *getVertex() { if (_increment) { @@ -239,7 +239,7 @@ class ChainingIterator : public ViewEdgeInternal::ViewEdgeIterator { } } - /*! Returns true if the current iteration is an incrementation */ + /** Returns true if the current iteration is an incrementation */ inline bool isIncrementing() const { return _increment; @@ -255,7 +255,7 @@ class ChainingIterator : public ViewEdgeInternal::ViewEdgeIterator { // /////////////////////////////////////////////////////////// -/*! A ViewEdge Iterator used to follow ViewEdges the most naturally. +/** A ViewEdge Iterator used to follow ViewEdges the most naturally. * For example, it will follow visible ViewEdges of same nature. * As soon, as the nature or the visibility changes, the iteration stops (by setting the pointed * ViewEdge to 0). In the case of an iteration over a set of ViewEdge that are both Silhouette @@ -263,7 +263,7 @@ class ChainingIterator : public ViewEdgeInternal::ViewEdgeIterator { */ class ChainSilhouetteIterator : public ChainingIterator { public: - /*! Builds a ChainSilhouetteIterator from the first ViewEdge used for iteration and its + /** Builds a ChainSilhouetteIterator from the first ViewEdge used for iteration and its * orientation. * \param iRestrictToSelection: * Indicates whether to force the chaining to stay within the set of selected ViewEdges or @@ -282,24 +282,24 @@ class ChainSilhouetteIterator : public ChainingIterator { { } - /*! Copy constructor */ + /** Copy constructor */ ChainSilhouetteIterator(const ChainSilhouetteIterator &brother) : ChainingIterator(brother) { } - /*! Returns the string "ChainSilhouetteIterator" */ + /** Returns the string "ChainSilhouetteIterator" */ virtual string getExactTypeName() const { return "ChainSilhouetteIterator"; } - /*! This method iterates over the potential next ViewEdges and returns the one that will be + /** This method iterates over the potential next ViewEdges and returns the one that will be * followed next. * When reaching the end of a chain, 0 is returned. */ virtual int traverse(const AdjacencyIterator &it); - /*! Inits the iterator context */ + /** Inits the iterator context */ virtual int init() { return 0; @@ -311,7 +311,7 @@ class ChainSilhouetteIterator : public ChainingIterator { // /////////////////////////////////////////////////////////// -/*! A "generic" user-controlled ViewEdge iterator. This iterator is in particular built from a +/** A "generic" user-controlled ViewEdge iterator. This iterator is in particular built from a * unary predicate and a binary predicate. * First, the unary predicate is evaluated for all potential next ViewEdges in order to only * keep the ones respecting a certain constraint. @@ -327,7 +327,7 @@ class ChainPredicateIterator : public ChainingIterator { UnaryPredicate1D *_unary_predicate; // the caller is responsible for the deletion of this object public: - /*! Builds a ChainPredicateIterator from a starting ViewEdge and its orientation. + /** Builds a ChainPredicateIterator from a starting ViewEdge and its orientation. * \param iRestrictToSelection: * Indicates whether to force the chaining to stay * within the set of selected ViewEdges or not. @@ -350,7 +350,7 @@ class ChainPredicateIterator : public ChainingIterator { _unary_predicate = 0; } - /*! Builds a ChainPredicateIterator from a unary predicate, a binary predicate, a starting + /** Builds a ChainPredicateIterator from a unary predicate, a binary predicate, a starting * ViewEdge and its orientation. * \param iRestrictToSelection: * Indicates whether to force the chaining to stay @@ -381,32 +381,32 @@ class ChainPredicateIterator : public ChainingIterator { _binary_predicate = &bpred; } - /*! Copy constructor */ + /** Copy constructor */ ChainPredicateIterator(const ChainPredicateIterator &brother) : ChainingIterator(brother) { _unary_predicate = brother._unary_predicate; _binary_predicate = brother._binary_predicate; } - /*! Destructor. */ + /** Destructor. */ virtual ~ChainPredicateIterator() { _unary_predicate = 0; _binary_predicate = 0; } - /*! Returns the string "ChainPredicateIterator" */ + /** Returns the string "ChainPredicateIterator" */ virtual string getExactTypeName() const { return "ChainPredicateIterator"; } - /*! This method iterates over the potential next ViewEdges and returns the one that will be + /** This method iterates over the potential next ViewEdges and returns the one that will be * followed next. When reaching the end of a chain, 0 is returned. */ virtual int traverse(const AdjacencyIterator &it); - /*! Inits the iterator context */ + /** Inits the iterator context */ virtual int init() { return 0; diff --git a/source/blender/freestyle/intern/stroke/ContextFunctions.h b/source/blender/freestyle/intern/stroke/ContextFunctions.h index 334bdd657c1..4878d2a6c54 100644 --- a/source/blender/freestyle/intern/stroke/ContextFunctions.h +++ b/source/blender/freestyle/intern/stroke/ContextFunctions.h @@ -33,34 +33,34 @@ namespace Freestyle { // Context Functions definitions // /////////////////////////////////////////////////////////// -/*! namespace containing all the Context related functions */ +/** namespace containing all the Context related functions */ namespace ContextFunctions { // GetTimeStamp -/*! Returns the system time stamp */ +/** Returns the system time stamp */ unsigned GetTimeStampCF(); // GetCanvasWidth -/*! Returns the canvas width */ +/** Returns the canvas width */ unsigned GetCanvasWidthCF(); // GetCanvasHeight -/*! Returns the canvas height */ +/** Returns the canvas height */ unsigned GetCanvasHeightCF(); // GetBorder -/*! Returns the border */ +/** Returns the border */ BBox<Vec2i> GetBorderCF(); // Load map -/*! Loads an image map for further reading */ +/** Loads an image map for further reading */ void LoadMapCF(const char *iFileName, const char *iMapName, unsigned iNbLevels = 4, float iSigma = 1.0f); // ReadMapPixel -/*! Reads a pixel in a user-defined map +/** Reads a pixel in a user-defined map * \return the floating value stored for that pixel * \param iMapName: * The name of the map @@ -74,7 +74,7 @@ void LoadMapCF(const char *iFileName, float ReadMapPixelCF(const char *iMapName, int level, unsigned x, unsigned y); // ReadCompleteViewMapPixel -/*! Reads a pixel in the complete view map +/** Reads a pixel in the complete view map * \return the floating value stored for that pixel * \param level: * The level of the pyramid in which we wish to read the pixel @@ -86,7 +86,7 @@ float ReadMapPixelCF(const char *iMapName, int level, unsigned x, unsigned y); float ReadCompleteViewMapPixelCF(int level, unsigned x, unsigned y); // ReadOrientedViewMapPixel -/*! Reads a pixel in one of the oriented view map images +/** Reads a pixel in one of the oriented view map images * \return the floating value stored for that pixel * \param iOrientation: * The number telling which orientation we want to check diff --git a/source/blender/freestyle/intern/stroke/Curve.cpp b/source/blender/freestyle/intern/stroke/Curve.cpp index 768e9efa15d..08d7a0b792a 100644 --- a/source/blender/freestyle/intern/stroke/Curve.cpp +++ b/source/blender/freestyle/intern/stroke/Curve.cpp @@ -573,7 +573,7 @@ Curve::~Curve() } } -/*! iterators access */ +/** iterators access */ Curve::point_iterator Curve::points_begin(float step) { vertex_container::iterator second = _Vertices.begin(); diff --git a/source/blender/freestyle/intern/stroke/Curve.h b/source/blender/freestyle/intern/stroke/Curve.h index f0db45150a9..cce5353a5c7 100644 --- a/source/blender/freestyle/intern/stroke/Curve.h +++ b/source/blender/freestyle/intern/stroke/Curve.h @@ -52,7 +52,7 @@ using namespace Geometry; /* */ /**********************************/ -/*! Class to represent a point of a curve. +/** Class to represent a point of a curve. * A CurvePoint can be any point of a 1D curve (it doesn't have to be a vertex of the curve). * Any Interface1D is built upon ViewEdges, themselves built upon FEdges. Therefore, a curve is * basically a polyline made of a list SVertex. Thus, a CurvePoint is built by linearly @@ -61,56 +61,56 @@ using namespace Geometry; */ class CurvePoint : public Interface0D { public: // Implementation of Interface0D - /*! Returns the string "CurvePoint"*/ + /** Returns the string "CurvePoint"*/ virtual string getExactTypeName() const { return "CurvePoint"; } // Data access methods - /*! Returns the 3D X coordinate of the point */ + /** Returns the 3D X coordinate of the point */ virtual real getX() const { return _Point3d.x(); } - /*! Returns the 3D Y coordinate of the point */ + /** Returns the 3D Y coordinate of the point */ virtual real getY() const { return _Point3d.y(); } - /*! Returns the 3D Z coordinate of the point */ + /** Returns the 3D Z coordinate of the point */ virtual real getZ() const { return _Point3d.z(); } - /*! Returns the 3D point. */ + /** Returns the 3D point. */ virtual Vec3r getPoint3D() const { return _Point3d; } - /*! Returns the projected 3D X coordinate of the point */ + /** Returns the projected 3D X coordinate of the point */ virtual real getProjectedX() const { return _Point2d.x(); } - /*! Returns the projected 3D Y coordinate of the point */ + /** Returns the projected 3D Y coordinate of the point */ virtual real getProjectedY() const { return _Point2d.y(); } - /*! Returns the projected 3D Z coordinate of the point */ + /** Returns the projected 3D Z coordinate of the point */ virtual real getProjectedZ() const { return _Point2d.z(); } - /*! Returns the 2D point. */ + /** Returns the 2D point. */ virtual Vec2r getPoint2D() const { return Vec2r(_Point2d.x(), _Point2d.y()); @@ -118,7 +118,7 @@ class CurvePoint : public Interface0D { virtual FEdge *getFEdge(Interface0D &inter); - /*! Returns the CurvePoint's Id */ + /** Returns the CurvePoint's Id */ virtual Id getId() const { Id id; @@ -131,7 +131,7 @@ class CurvePoint : public Interface0D { return id; } - /*! Returns the CurvePoint's Nature */ + /** Returns the CurvePoint's Nature */ virtual Nature::VertexNature getNature() const { Nature::VertexNature nature = Nature::POINT; @@ -144,7 +144,7 @@ class CurvePoint : public Interface0D { return nature; } - /*! Cast the Interface0D in SVertex if it can be. */ + /** Cast the Interface0D in SVertex if it can be. */ virtual SVertex *castToSVertex() { if (_t2d == 0) { @@ -156,7 +156,7 @@ class CurvePoint : public Interface0D { return Interface0D::castToSVertex(); } - /*! Cast the Interface0D in ViewVertex if it can be. */ + /** Cast the Interface0D in ViewVertex if it can be. */ virtual ViewVertex *castToViewVertex() { if (_t2d == 0) { @@ -168,7 +168,7 @@ class CurvePoint : public Interface0D { return Interface0D::castToViewVertex(); } - /*! Cast the Interface0D in NonTVertex if it can be. */ + /** Cast the Interface0D in NonTVertex if it can be. */ virtual NonTVertex *castToNonTVertex() { if (_t2d == 0) { @@ -180,7 +180,7 @@ class CurvePoint : public Interface0D { return Interface0D::castToNonTVertex(); } - /*! Cast the Interface0D in TVertex if it can be. */ + /** Cast the Interface0D in TVertex if it can be. */ virtual TVertex *castToTVertex() { if (_t2d == 0) { @@ -204,10 +204,10 @@ class CurvePoint : public Interface0D { Vec3r _Point3d; public: - /*! Default Constructor. */ + /** Default Constructor. */ CurvePoint(); - /*! Builds a CurvePoint from two SVertex and an interpolation parameter. + /** Builds a CurvePoint from two SVertex and an interpolation parameter. * \param iA: * The first SVertex * \param iB: @@ -217,7 +217,7 @@ class CurvePoint : public Interface0D { */ CurvePoint(SVertex *iA, SVertex *iB, float t); - /*! Builds a CurvePoint from two CurvePoint and an interpolation parameter. + /** Builds a CurvePoint from two CurvePoint and an interpolation parameter. * \param iA: * The first CurvePoint * \param iB: @@ -229,35 +229,35 @@ class CurvePoint : public Interface0D { // CurvePoint(SVertex *iA, SVertex *iB, float t2d, float t3d); - /*! Copy Constructor. */ + /** Copy Constructor. */ CurvePoint(const CurvePoint &iBrother); - /*! Operator = */ + /** Operator = */ CurvePoint &operator=(const CurvePoint &iBrother); - /*! Destructor */ + /** Destructor */ virtual ~CurvePoint() = default; - /*! Operator == */ + /** Operator == */ bool operator==(const CurvePoint &b) { return ((__A == b.__A) && (__B == b.__B) && (_t2d == b._t2d)); } /* accessors */ - /*! Returns the first SVertex upon which the CurvePoint is built. */ + /** Returns the first SVertex upon which the CurvePoint is built. */ inline SVertex *A() { return __A; } - /*! Returns the second SVertex upon which the CurvePoint is built. */ + /** Returns the second SVertex upon which the CurvePoint is built. */ inline SVertex *B() { return __B; } - /*! Returns the interpolation parameter. */ + /** Returns the interpolation parameter. */ inline float t2d() const { return _t2d; @@ -271,19 +271,19 @@ class CurvePoint : public Interface0D { #endif /* modifiers */ - /*! Sets the first SVertex upon which to build the CurvePoint. */ + /** Sets the first SVertex upon which to build the CurvePoint. */ inline void setA(SVertex *iA) { __A = iA; } - /*! Sets the second SVertex upon which to build the CurvePoint. */ + /** Sets the second SVertex upon which to build the CurvePoint. */ inline void setB(SVertex *iB) { __B = iB; } - /*! Sets the 2D interpolation parameter to use. */ + /** Sets the 2D interpolation parameter to use. */ inline void setT2d(float t) { _t2d = t; @@ -339,7 +339,7 @@ class CurvePoint : public Interface0D { } Vec3r curvature2d_as_vector() const; - /*! angle in radians */ + /** angle in radians */ real curvature2d_as_angle() const; real curvatureFredo() const; @@ -368,7 +368,7 @@ class CurvePointIterator; } // end of namespace CurveInternal -/*! Base class for curves made of CurvePoints. +/** Base class for curves made of CurvePoints. * SVertex is the type of the initial curve vertices. * A Chain is a specialization of a Curve. */ @@ -396,7 +396,7 @@ class Curve : public Interface1D { unsigned _nSegments; // number of segments public: - /*! Default Constructor. */ + /** Default Constructor. */ Curve() { _Length = 0; @@ -404,7 +404,7 @@ class Curve : public Interface1D { _nSegments = 0; } - /*! Builds a Curve from its id */ + /** Builds a Curve from its id */ Curve(const Id &id) { _Length = 0; @@ -412,7 +412,7 @@ class Curve : public Interface1D { _nSegments = 0; } - /*! Copy Constructor. */ + /** Copy Constructor. */ Curve(const Curve &iBrother) { _Length = iBrother._Length; @@ -421,10 +421,10 @@ class Curve : public Interface1D { _nSegments = 0; } - /*! Destructor. */ + /** Destructor. */ virtual ~Curve(); - /*! Returns the string "Curve" */ + /** Returns the string "Curve" */ virtual string getExactTypeName() const { return "Curve"; @@ -435,7 +435,7 @@ class Curve : public Interface1D { void computeCurvatureAndOrientation(); #endif - /*! Adds a single vertex (CurvePoint) at the end of the Curve */ + /** Adds a single vertex (CurvePoint) at the end of the Curve */ inline void push_vertex_back(Vertex *iVertex) { if (!_Vertices.empty()) { @@ -447,7 +447,7 @@ class Curve : public Interface1D { _Vertices.push_back(new_vertex); } - /*! Adds a single vertex (SVertex) at the end of the Curve */ + /** Adds a single vertex (SVertex) at the end of the Curve */ inline void push_vertex_back(SVertex *iVertex) { if (!_Vertices.empty()) { @@ -459,7 +459,7 @@ class Curve : public Interface1D { _Vertices.push_back(new_vertex); } - /*! Adds a single vertex (CurvePoint) at the front of the Curve */ + /** Adds a single vertex (CurvePoint) at the front of the Curve */ inline void push_vertex_front(Vertex *iVertex) { if (!_Vertices.empty()) { @@ -471,7 +471,7 @@ class Curve : public Interface1D { _Vertices.push_front(new_vertex); } - /*! Adds a single vertex (SVertex) at the front of the Curve */ + /** Adds a single vertex (SVertex) at the front of the Curve */ inline void push_vertex_front(SVertex *iVertex) { if (!_Vertices.empty()) { @@ -483,25 +483,25 @@ class Curve : public Interface1D { _Vertices.push_front(new_vertex); } - /*! Returns true is the Curve doesn't have any Vertex yet. */ + /** Returns true is the Curve doesn't have any Vertex yet. */ inline bool empty() const { return _Vertices.empty(); } - /*! Returns the 2D length of the Curve. */ + /** Returns the 2D length of the Curve. */ inline real getLength2D() const { return _Length; } - /*! Returns the Id of the 1D element. */ + /** Returns the Id of the 1D element. */ virtual Id getId() const { return _Id; } - /*! Returns the number of segments in the polyline constituting the Curve. */ + /** Returns the number of segments in the polyline constituting the Curve. */ inline unsigned int nSegments() const { return _nSegments; @@ -549,7 +549,7 @@ class Curve : public Interface1D { float local_depth_variance(int iCombination = 0) const; real local_average_density(float sigma = 2.3f, int iCombination = 0) const; Vec3r curvature2d_as_vector(int iCombination = 0) const; - /*! angle in radians */ + /** angle in radians */ real curvature2d_as_angle(int iCombination = 0) const; #endif @@ -573,23 +573,23 @@ class Curve : public Interface1D { CurveInternal::CurvePointIterator curveVerticesEnd(); // Iterators access - /*! Returns an Interface0DIterator pointing onto the first vertex of the Curve and that can + /** Returns an Interface0DIterator pointing onto the first vertex of the Curve and that can * iterate over the \a vertices of the Curve. */ virtual Interface0DIterator verticesBegin(); - /*! Returns an Interface0DIterator pointing after the last vertex of the Curve and that can + /** Returns an Interface0DIterator pointing after the last vertex of the Curve and that can * iterate over the \a vertices of the Curve. */ virtual Interface0DIterator verticesEnd(); - /*! Returns an Interface0DIterator pointing onto the first point of the Curve and that can + /** Returns an Interface0DIterator pointing onto the first point of the Curve and that can * iterate over the \a points of the Curve at any resolution. At each iteration a virtual * temporary CurvePoint is created. */ virtual Interface0DIterator pointsBegin(float t = 0.0f); - /*! Returns an Interface0DIterator pointing after the last point of the Curve and that can + /** Returns an Interface0DIterator pointing after the last point of the Curve and that can * iterate over the \a points of the Curve at any resolution. At each iteration a virtual * temporary CurvePoint is created. */ diff --git a/source/blender/freestyle/intern/stroke/CurveAdvancedIterators.h b/source/blender/freestyle/intern/stroke/CurveAdvancedIterators.h index 1896a674477..5cb5ab69711 100644 --- a/source/blender/freestyle/intern/stroke/CurveAdvancedIterators.h +++ b/source/blender/freestyle/intern/stroke/CurveAdvancedIterators.h @@ -50,7 +50,7 @@ class CurvePoint_nonconst_traits : public Nonconst_traits<CurvePoint *> { /* */ /**********************************/ -/*! iterator on a curve. Allows an iterating outside initial vertices. A CurvePoint is +/** iterator on a curve. Allows an iterating outside initial vertices. A CurvePoint is * instantiated and returned when the iterator is dereferenced. */ template<class Traits> diff --git a/source/blender/freestyle/intern/stroke/CurveIterators.h b/source/blender/freestyle/intern/stroke/CurveIterators.h index 9d1cf33ed80..abbde02979d 100644 --- a/source/blender/freestyle/intern/stroke/CurveIterators.h +++ b/source/blender/freestyle/intern/stroke/CurveIterators.h @@ -28,7 +28,7 @@ namespace Freestyle { namespace CurveInternal { -/*! iterator on a curve. Allows an iterating outside +/** iterator on a curve. Allows an iterating outside * initial vertices. A CurvePoint is instantiated an returned * when the iterator is dereferenced. */ diff --git a/source/blender/freestyle/intern/stroke/Modifiers.h b/source/blender/freestyle/intern/stroke/Modifiers.h index 0aac6f58658..1952659dab7 100644 --- a/source/blender/freestyle/intern/stroke/Modifiers.h +++ b/source/blender/freestyle/intern/stroke/Modifiers.h @@ -35,16 +35,16 @@ namespace Freestyle { * * * ----------------------------------------- */ -/*! Base class for modifiers. +/** Base class for modifiers. * Modifiers are used in the Operators in order to "mark" the processed Interface1D. */ template<class Edge> struct EdgeModifier : public unary_function<Edge, void> { - /*! Default construction */ + /** Default construction */ EdgeModifier() : unary_function<Edge, void>() { } - /*! the () operator */ + /** the () operator */ virtual void operator()(Edge &iEdge) { } @@ -54,14 +54,14 @@ template<class Edge> struct EdgeModifier : public unary_function<Edge, void> { #endif }; -/*! Modifier that sets the time stamp of an Interface1D to the time stamp of the system. */ +/** Modifier that sets the time stamp of an Interface1D to the time stamp of the system. */ template<class Edge> struct TimestampModifier : public EdgeModifier<Edge> { - /*! Default constructor */ + /** Default constructor */ TimestampModifier() : EdgeModifier<Edge>() { } - /*! The () operator. */ + /** The () operator. */ virtual void operator()(Edge &iEdge) { TimeStamp *timestamp = TimeStamp::instance(); diff --git a/source/blender/freestyle/intern/stroke/Operators.h b/source/blender/freestyle/intern/stroke/Operators.h index e721e9fb837..4de331993f7 100644 --- a/source/blender/freestyle/intern/stroke/Operators.h +++ b/source/blender/freestyle/intern/stroke/Operators.h @@ -41,7 +41,7 @@ namespace Freestyle { -/*! Class defining the operators used in a style module. +/** Class defining the operators used in a style module. * There are 4 classes of operators: Selection, Chaining, Splitting and Creating. * All these operators are user controlled in the scripting language through Functors, Predicates * and Shaders that are taken as arguments. @@ -57,12 +57,12 @@ class Operators { // //////////////////////////////////////////////// - /*! Selects the ViewEdges of the ViewMap verifying a specified condition. + /** Selects the ViewEdges of the ViewMap verifying a specified condition. * \param pred: The predicate expressing this condition */ static int select(UnaryPredicate1D &pred); - /*! Builds a set of chains from the current set of ViewEdges. + /** Builds a set of chains from the current set of ViewEdges. * Each ViewEdge of the current list starts a new chain. * The chaining operator then iterates over the ViewEdges * of the ViewMap using the user specified iterator. @@ -80,7 +80,7 @@ class Operators { UnaryPredicate1D &pred, UnaryFunction1D_void &modifier); - /*! Builds a set of chains from the current set of ViewEdges. + /** Builds a set of chains from the current set of ViewEdges. * Each ViewEdge of the current list starts a new chain. The chaining operator then iterates * over the ViewEdges * of the ViewMap using the user specified iterator. @@ -95,7 +95,7 @@ class Operators { */ static int chain(ViewEdgeInternal::ViewEdgeIterator &it, UnaryPredicate1D &pred); - /*! Builds a set of chains from the current set of ViewEdges. + /** Builds a set of chains from the current set of ViewEdges. * Each ViewEdge of the current list potentially starts a new chain. The chaining operator then * iterates over the ViewEdges of the ViewMap using the user specified iterator. * This operator iterates both using the increment and decrement operators and is therefore @@ -111,7 +111,7 @@ class Operators { */ static int bidirectionalChain(ChainingIterator &it, UnaryPredicate1D &pred); - /*! The only difference with the above bidirectional chaining algorithm is that we don't need to + /** The only difference with the above bidirectional chaining algorithm is that we don't need to * pass a stopping criterion. This might be desirable when the stopping criterion is already * contained in the iterator definition. Builds a set of chains from the current set of * ViewEdges. Each ViewEdge of the current list potentially starts a new chain. The chaining @@ -127,7 +127,7 @@ class Operators { */ static int bidirectionalChain(ChainingIterator &it); - /*! Splits each chain of the current set of chains in a sequential way. + /** Splits each chain of the current set of chains in a sequential way. * The points of each chain are processed (with a specified sampling) sequentially. * Each time a user specified starting condition is verified, a new chain begins and ends as * soon as a user-defined stopping predicate is verified. @@ -147,7 +147,7 @@ class Operators { UnaryPredicate0D &stoppingPred, float sampling = 0.0f); - /*! Splits each chain of the current set of chains in a sequential way. + /** Splits each chain of the current set of chains in a sequential way. * The points of each chain are processed (with a specified sampling) sequentially and each time * a user specified condition is verified, the chain is split into two chains. * The resulting set of chains is a partition of the initial chain @@ -160,7 +160,7 @@ class Operators { */ static int sequentialSplit(UnaryPredicate0D &pred, float sampling = 0.0f); - /*! Splits the current set of chains in a recursive way. + /** Splits the current set of chains in a recursive way. * We process the points of each chain (with a specified sampling) to find the point * minimizing a specified function. The chain is split in two at this point and the two new * chains are processed in the same way. The recursivity level is controlled through a @@ -181,7 +181,7 @@ class Operators { UnaryPredicate1D &pred, float sampling = 0); - /*! Splits the current set of chains in a recursive way. + /** Splits the current set of chains in a recursive way. * We process the points of each chain (with a specified sampling) to find the point minimizing * a specified function. The chain is split in two at this point and the two new chains are * processed in the same way. The user can specify a 0D predicate to make a first selection on @@ -210,14 +210,14 @@ class Operators { UnaryPredicate1D &pred, float sampling = 0.0f); - /*! Sorts the current set of chains (or viewedges) + /** Sorts the current set of chains (or viewedges) * according to the comparison predicate given as argument. * \param pred: * The binary predicate used for the comparison */ static int sort(BinaryPredicate1D &pred); - /*! Creates and shades the strokes from the current set of chains. + /** Creates and shades the strokes from the current set of chains. * A predicate can be specified to make a selection pass on the chains. * \param pred: * The predicate that a chain must verify in order to be transform as a stroke diff --git a/source/blender/freestyle/intern/stroke/PSStrokeRenderer.h b/source/blender/freestyle/intern/stroke/PSStrokeRenderer.h index 46bb46ad8b2..349392a4c0e 100644 --- a/source/blender/freestyle/intern/stroke/PSStrokeRenderer.h +++ b/source/blender/freestyle/intern/stroke/PSStrokeRenderer.h @@ -41,7 +41,7 @@ class PSStrokeRenderer : public StrokeRenderer { public: PSStrokeRenderer(const char *iFileName = NULL); - /*! Renders a stroke rep */ + /** Renders a stroke rep */ virtual void RenderStrokeRep(StrokeRep *iStrokeRep) const; virtual void RenderStrokeRepBasic(StrokeRep *iStrokeRep) const; diff --git a/source/blender/freestyle/intern/stroke/Predicates0D.h b/source/blender/freestyle/intern/stroke/Predicates0D.h index 89dbaeb339d..cd00d582b30 100644 --- a/source/blender/freestyle/intern/stroke/Predicates0D.h +++ b/source/blender/freestyle/intern/stroke/Predicates0D.h @@ -34,7 +34,7 @@ namespace Freestyle { // /////////////////////////////////////////////////////////// -/*! Base class for Unary Predicates that work on Interface0DIterator. +/** Base class for Unary Predicates that work on Interface0DIterator. * A UnaryPredicate0D is a functor that evaluates a condition on a Interface0DIterator and returns * true or false depending on whether this condition is satisfied or not. * The UnaryPredicate0D is used by calling its () operator. @@ -45,24 +45,24 @@ class UnaryPredicate0D { bool result; void *py_up0D; - /*! Default constructor. */ + /** Default constructor. */ UnaryPredicate0D() { py_up0D = 0; } - /*! Destructor. */ + /** Destructor. */ virtual ~UnaryPredicate0D() { } - /*! Returns the string of the name of the UnaryPredicate0D. */ + /** Returns the string of the name of the UnaryPredicate0D. */ virtual string getName() const { return "UnaryPredicate0D"; } - /*! The () operator. Must be overload by inherited classes. + /** The () operator. Must be overload by inherited classes. * \param it: * The Interface0DIterator pointing onto the Interface0D at which we wish to evaluate the * predicate. \return true if the condition is satisfied, false otherwise. @@ -79,7 +79,7 @@ class UnaryPredicate0D { // /////////////////////////////////////////////////////////// -/*! Base class for Binary Predicates working on Interface0D. +/** Base class for Binary Predicates working on Interface0D. * A BinaryPredicate0D is typically an ordering relation between two Interface0D. * It evaluates a relation between 2 Interface0D and returns true or false. * It is used by calling the () operator. @@ -89,24 +89,24 @@ class BinaryPredicate0D { bool result; void *py_bp0D; - /*! Default constructor. */ + /** Default constructor. */ BinaryPredicate0D() { py_bp0D = 0; } - /*! Destructor. */ + /** Destructor. */ virtual ~BinaryPredicate0D() { } - /*! Returns the string of the name of the binary predicate. */ + /** Returns the string of the name of the binary predicate. */ virtual string getName() const { return "BinaryPredicate0D"; } - /*! The () operator. Must be overload by inherited classes. + /** The () operator. Must be overload by inherited classes. * It evaluates a relation between 2 Interface0D. * \param inter1: * The first Interface0D. @@ -129,21 +129,21 @@ class BinaryPredicate0D { namespace Predicates0D { // TrueUP0D -/*! Returns true any time */ +/** Returns true any time */ class TrueUP0D : public UnaryPredicate0D { public: - /*! Default constructor. */ + /** Default constructor. */ TrueUP0D() { } - /*! Returns the string "TrueUP0D"*/ + /** Returns the string "TrueUP0D"*/ string getName() const { return "TrueUP0D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface0DIterator &) { result = true; @@ -152,21 +152,21 @@ class TrueUP0D : public UnaryPredicate0D { }; // FalseUP0D -/*! Returns false any time */ +/** Returns false any time */ class FalseUP0D : public UnaryPredicate0D { public: - /*! Default constructor. */ + /** Default constructor. */ FalseUP0D() { } - /*! Returns the string "FalseUP0D"*/ + /** Returns the string "FalseUP0D"*/ string getName() const { return "FalseUP0D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface0DIterator &) { result = false; diff --git a/source/blender/freestyle/intern/stroke/Predicates1D.h b/source/blender/freestyle/intern/stroke/Predicates1D.h index c174162b214..ceb2e7fcc17 100644 --- a/source/blender/freestyle/intern/stroke/Predicates1D.h +++ b/source/blender/freestyle/intern/stroke/Predicates1D.h @@ -41,7 +41,7 @@ namespace Freestyle { // /////////////////////////////////////////////////////////// -/*! Base class for Unary Predicates that work on Interface1D. +/** Base class for Unary Predicates that work on Interface1D. * A UnaryPredicate1D is a functor that evaluates a condition on a Interface1D and returns * true or false depending on whether this condition is satisfied or not. * The UnaryPredicate1D is used by calling its () operator. @@ -52,24 +52,24 @@ class UnaryPredicate1D { bool result; void *py_up1D; - /*! Default constructor. */ + /** Default constructor. */ UnaryPredicate1D() { py_up1D = NULL; } - /*! Destructor. */ + /** Destructor. */ virtual ~UnaryPredicate1D() { } - /*! Returns the string of the name of the UnaryPredicate1D. */ + /** Returns the string of the name of the UnaryPredicate1D. */ virtual string getName() const { return "UnaryPredicate1D"; } - /*! The () operator. Must be overload by inherited classes. + /** The () operator. Must be overload by inherited classes. * \param inter: * The Interface1D on which we wish to evaluate the predicate. * \return true if the condition is satisfied, false otherwise. @@ -86,7 +86,7 @@ class UnaryPredicate1D { // /////////////////////////////////////////////////////////// -/*! Base class for Binary Predicates working on Interface1D. +/** Base class for Binary Predicates working on Interface1D. * A BinaryPredicate1D is typically an ordering relation between two Interface1D. * It evaluates a relation between 2 Interface1D and returns true or false. * It is used by calling the () operator. @@ -96,24 +96,24 @@ class BinaryPredicate1D { bool result; void *py_bp1D; - /*! Default constructor. */ + /** Default constructor. */ BinaryPredicate1D() { py_bp1D = NULL; } - /*! Destructor. */ + /** Destructor. */ virtual ~BinaryPredicate1D() { } - /*! Returns the string of the name of the binary predicate. */ + /** Returns the string of the name of the binary predicate. */ virtual string getName() const { return "BinaryPredicate1D"; } - /*! The () operator. Must be overload by inherited classes. + /** The () operator. Must be overload by inherited classes. * It evaluates a relation between 2 Interface1D. * \param inter1: * The first Interface1D. @@ -136,21 +136,21 @@ class BinaryPredicate1D { namespace Predicates1D { // TrueUP1D -/*! Returns true */ +/** Returns true */ class TrueUP1D : public UnaryPredicate1D { public: - /*! Constructor */ + /** Constructor */ TrueUP1D() { } - /*! Returns the string "TrueUP1D"*/ + /** Returns the string "TrueUP1D"*/ string getName() const { return "TrueUP1D"; } - /*! the () operator */ + /** the () operator */ int operator()(Interface1D &) { result = true; @@ -159,21 +159,21 @@ class TrueUP1D : public UnaryPredicate1D { }; // FalseUP1D -/*! Returns false */ +/** Returns false */ class FalseUP1D : public UnaryPredicate1D { public: - /*! Constructor */ + /** Constructor */ FalseUP1D() { } - /*! Returns the string "FalseUP1D"*/ + /** Returns the string "FalseUP1D"*/ string getName() const { return "FalseUP1D"; } - /*! the () operator */ + /** the () operator */ int operator()(Interface1D &) { result = false; @@ -182,12 +182,12 @@ class FalseUP1D : public UnaryPredicate1D { }; // QuantitativeInvisibilityUP1D -/*! Returns true if the Quantitative Invisibility evaluated at an Interface1D, using the +/** Returns true if the Quantitative Invisibility evaluated at an Interface1D, using the * QuantitativeInvisibilityF1D functor, equals a certain user-defined value. */ class QuantitativeInvisibilityUP1D : public UnaryPredicate1D { public: - /*! Builds the Predicate. + /** Builds the Predicate. * \param qi: * The Quantitative Invisibility you want the Interface1D to have */ @@ -195,13 +195,13 @@ class QuantitativeInvisibilityUP1D : public UnaryPredicate1D { { } - /*! Returns the string "QuantitativeInvisibilityUP1D" */ + /** Returns the string "QuantitativeInvisibilityUP1D" */ string getName() const { return "QuantitativeInvisibilityUP1D"; } - /*! the () operator */ + /** the () operator */ int operator()(Interface1D &inter) { Functions1D::QuantitativeInvisibilityF1D func; @@ -217,7 +217,7 @@ class QuantitativeInvisibilityUP1D : public UnaryPredicate1D { }; // ContourUP1D -/*! Returns true if the Interface1D is a contour. +/** Returns true if the Interface1D is a contour. * An Interface1D is a contour if it is bordered by a different shape on each of its sides. */ class ContourUP1D : public UnaryPredicate1D { @@ -225,13 +225,13 @@ class ContourUP1D : public UnaryPredicate1D { Functions1D::CurveNatureF1D _getNature; public: - /*! Returns the string "ContourUP1D"*/ + /** Returns the string "ContourUP1D"*/ string getName() const { return "ContourUP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &inter) { if (_getNature(inter) < 0) { @@ -252,7 +252,7 @@ class ContourUP1D : public UnaryPredicate1D { }; // ExternalContourUP1D -/*! Returns true if the Interface1D is an external contour. +/** Returns true if the Interface1D is an external contour. * An Interface1D is an external contour if it is bordered by no shape on one of its sides. */ class ExternalContourUP1D : public UnaryPredicate1D { @@ -260,13 +260,13 @@ class ExternalContourUP1D : public UnaryPredicate1D { Functions1D::CurveNatureF1D _getNature; public: - /*! Returns the string "ExternalContourUP1D" */ + /** Returns the string "ExternalContourUP1D" */ string getName() const { return "ExternalContourUP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &inter) { if (_getNature(inter) < 0) { @@ -289,7 +289,7 @@ class ExternalContourUP1D : public UnaryPredicate1D { }; // EqualToTimeStampUP1D -/*! Returns true if the Interface1D's time stamp is equal to a certain user-defined value. */ +/** Returns true if the Interface1D's time stamp is equal to a certain user-defined value. */ class EqualToTimeStampUP1D : public UnaryPredicate1D { protected: unsigned _timeStamp; @@ -300,13 +300,13 @@ class EqualToTimeStampUP1D : public UnaryPredicate1D { _timeStamp = ts; } - /*! Returns the string "EqualToTimeStampUP1D"*/ + /** Returns the string "EqualToTimeStampUP1D"*/ string getName() const { return "EqualToTimeStampUP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &inter) { result = (inter.getTimeStamp() == _timeStamp); @@ -315,7 +315,7 @@ class EqualToTimeStampUP1D : public UnaryPredicate1D { }; // EqualToChainingTimeStampUP1D -/*! Returns true if the Interface1D's time stamp is equal to a certain user-defined value. */ +/** Returns true if the Interface1D's time stamp is equal to a certain user-defined value. */ class EqualToChainingTimeStampUP1D : public UnaryPredicate1D { protected: unsigned _timeStamp; @@ -326,13 +326,13 @@ class EqualToChainingTimeStampUP1D : public UnaryPredicate1D { _timeStamp = ts; } - /*! Returns the string "EqualToChainingTimeStampUP1D"*/ + /** Returns the string "EqualToChainingTimeStampUP1D"*/ string getName() const { return "EqualToChainingTimeStampUP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &inter) { ViewEdge *edge = dynamic_cast<ViewEdge *>(&inter); @@ -346,14 +346,14 @@ class EqualToChainingTimeStampUP1D : public UnaryPredicate1D { }; // ShapeUP1D -/*! Returns true if the shape to which the Interface1D belongs to has the same Id as the one +/** Returns true if the shape to which the Interface1D belongs to has the same Id as the one * specified by the user. */ class ShapeUP1D : public UnaryPredicate1D { private: Id _id; public: - /*! Builds the Predicate. + /** Builds the Predicate. * \param idFirst: * The first Id component. * \param idSecond: @@ -364,13 +364,13 @@ class ShapeUP1D : public UnaryPredicate1D { _id = Id(idFirst, idSecond); } - /*! Returns the string "ShapeUP1D"*/ + /** Returns the string "ShapeUP1D"*/ string getName() const { return "ShapeUP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &inter) { set<ViewShape *> shapes; @@ -387,13 +387,13 @@ class ShapeUP1D : public UnaryPredicate1D { }; // WithinImageBoundaryUP1D -/*! Returns true if the Interface1D is (partly) within the image boundary. */ +/** Returns true if the Interface1D is (partly) within the image boundary. */ class WithinImageBoundaryUP1D : public UnaryPredicate1D { private: real _xmin, _ymin, _xmax, _ymax; public: - /*! Builds the Predicate. + /** Builds the Predicate. * \param xmin: * The X lower bound of the image boundary. * \param ymin: @@ -408,13 +408,13 @@ class WithinImageBoundaryUP1D : public UnaryPredicate1D { { } - /*! Returns the string "WithinImageBoundaryUP1D" */ + /** Returns the string "WithinImageBoundaryUP1D" */ string getName() const { return "WithinImageBoundaryUP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &inter) { // 1st pass: check if a point is within the image boundary. @@ -454,16 +454,16 @@ class WithinImageBoundaryUP1D : public UnaryPredicate1D { /////////////////////////////////////////////////////////// // TrueBP1D -/*! Returns true. */ +/** Returns true. */ class TrueBP1D : public BinaryPredicate1D { public: - /*! Returns the string "TrueBP1D" */ + /** Returns the string "TrueBP1D" */ string getName() const { return "TrueBP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D & /*i1*/, Interface1D & /*i2*/) { result = true; @@ -472,16 +472,16 @@ class TrueBP1D : public BinaryPredicate1D { }; // FalseBP1D -/*! Returns false. */ +/** Returns false. */ class FalseBP1D : public BinaryPredicate1D { public: - /*! Returns the string "FalseBP1D" */ + /** Returns the string "FalseBP1D" */ string getName() const { return "FalseBP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D & /*i1*/, Interface1D & /*i2*/) { result = false; @@ -490,17 +490,17 @@ class FalseBP1D : public BinaryPredicate1D { }; // Length2DBP1D -/*! Returns true if the 2D length of the Interface1D i1 is less than the 2D length of the +/** Returns true if the 2D length of the Interface1D i1 is less than the 2D length of the * Interface1D i2. */ class Length2DBP1D : public BinaryPredicate1D { public: - /*! Returns the string "Length2DBP1D" */ + /** Returns the string "Length2DBP1D" */ string getName() const { return "Length2DBP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &i1, Interface1D &i2) { result = (i1.getLength2D() > i2.getLength2D()); @@ -509,16 +509,16 @@ class Length2DBP1D : public BinaryPredicate1D { }; // SameShapeIdBP1D -/*! Returns true if the Interface1D i1 and i2 belong to the same shape. */ +/** Returns true if the Interface1D i1 and i2 belong to the same shape. */ class SameShapeIdBP1D : public BinaryPredicate1D { public: - /*! Returns the string "SameShapeIdBP1D" */ + /** Returns the string "SameShapeIdBP1D" */ string getName() const { return "SameShapeIdBP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &i1, Interface1D &i2) { set<ViewShape *> shapes1; @@ -542,7 +542,7 @@ class SameShapeIdBP1D : public BinaryPredicate1D { }; // ViewMapGradientNormBP1D -/*! Returns true if the evaluation of the Gradient norm Function is higher for Interface1D i1 than +/** Returns true if the evaluation of the Gradient norm Function is higher for Interface1D i1 than * for i2. */ class ViewMapGradientNormBP1D : public BinaryPredicate1D { private: @@ -554,13 +554,13 @@ class ViewMapGradientNormBP1D : public BinaryPredicate1D { { } - /*! Returns the string "ViewMapGradientNormBP1D" */ + /** Returns the string "ViewMapGradientNormBP1D" */ string getName() const { return "ViewMapGradientNormBP1D"; } - /*! The () operator. */ + /** The () operator. */ int operator()(Interface1D &i1, Interface1D &i2) { if (_func(i1) < 0) { diff --git a/source/blender/freestyle/intern/stroke/Stroke.h b/source/blender/freestyle/intern/stroke/Stroke.h index 4a9ed7288c5..96a4d2d61ea 100644 --- a/source/blender/freestyle/intern/stroke/Stroke.h +++ b/source/blender/freestyle/intern/stroke/Stroke.h @@ -52,18 +52,18 @@ namespace Freestyle { // //////////////////////////////////////////////////////// -/*! Class to define an attribute associated to a Stroke Vertex. +/** Class to define an attribute associated to a Stroke Vertex. * This attribute stores the color, alpha and thickness values for a Stroke Vertex. */ class StrokeAttribute { public: - /*! default constructor */ + /** default constructor */ StrokeAttribute(); - /*! Copy constructor */ + /** Copy constructor */ StrokeAttribute(const StrokeAttribute &iBrother); - /*! Builds a stroke vertex attribute from a set of parameters. + /** Builds a stroke vertex attribute from a set of parameters. * \param iRColor: * The Red Component value. * \param iGColor: @@ -84,7 +84,7 @@ class StrokeAttribute { float iRThickness, float iLThickness); - /*! Interpolation constructor. + /** Interpolation constructor. * Builds a StrokeAttribute from two StrokeAttributes and an interpolation parameter. * \param a1: * The first Attribute. @@ -95,15 +95,15 @@ class StrokeAttribute { */ StrokeAttribute(const StrokeAttribute &a1, const StrokeAttribute &a2, float t); - /*! destructor */ + /** destructor */ virtual ~StrokeAttribute(); /* operators */ - /*! operator = */ + /** operator = */ StrokeAttribute &operator=(const StrokeAttribute &iBrother); /* accessors */ - /*! Returns the attribute's color. + /** Returns the attribute's color. * \return The array of 3 floats containing the R,G,B values of the attribute's color. */ inline const float *getColor() const @@ -111,37 +111,37 @@ class StrokeAttribute { return _color; } - /*! Returns the R color component. */ + /** Returns the R color component. */ inline const float getColorR() const { return _color[0]; } - /*! Returns the G color component. */ + /** Returns the G color component. */ inline const float getColorG() const { return _color[1]; } - /*! Returns the B color component. */ + /** Returns the B color component. */ inline const float getColorB() const { return _color[2]; } - /*! Returns the RGB color components. */ + /** Returns the RGB color components. */ inline Vec3f getColorRGB() const { return Vec3f(_color[0], _color[1], _color[2]); } - /*! Returns the alpha color component. */ + /** Returns the alpha color component. */ inline float getAlpha() const { return _alpha; } - /*! Returns the attribute's thickness. + /** Returns the attribute's thickness. * \return an array of 2 floats. the first value is the thickness on the right of the vertex * when following the stroke, the second one is the thickness on the left. */ @@ -150,60 +150,60 @@ class StrokeAttribute { return _thickness; } - /*! Returns the thickness on the right of the vertex when following the stroke. */ + /** Returns the thickness on the right of the vertex when following the stroke. */ inline const float getThicknessR() const { return _thickness[0]; } - /*! Returns the thickness on the left of the vertex when following the stroke. */ + /** Returns the thickness on the left of the vertex when following the stroke. */ inline const float getThicknessL() const { return _thickness[1]; } - /*! Returns the thickness on the right and on the left of the vertex when following the stroke. + /** Returns the thickness on the right and on the left of the vertex when following the stroke. */ inline Vec2f getThicknessRL() const { return Vec2f(_thickness[0], _thickness[1]); } - /*! Returns true if the strokevertex is visible, false otherwise */ + /** Returns true if the strokevertex is visible, false otherwise */ inline bool isVisible() const { return _visible; } - /*! Returns an attribute of type real + /** Returns an attribute of type real * \param iName: * The name of the attribute */ float getAttributeReal(const char *iName) const; - /*! Returns an attribute of type Vec2f + /** Returns an attribute of type Vec2f * \param iName: * The name of the attribute */ Vec2f getAttributeVec2f(const char *iName) const; - /*! Returns an attribute of type Vec3f + /** Returns an attribute of type Vec3f * \param iName: * The name of the attribute */ Vec3f getAttributeVec3f(const char *iName) const; - /*! Checks whether the attribute iName is available */ + /** Checks whether the attribute iName is available */ bool isAttributeAvailableReal(const char *iName) const; - /*! Checks whether the attribute iName is available */ + /** Checks whether the attribute iName is available */ bool isAttributeAvailableVec2f(const char *iName) const; - /*! Checks whether the attribute iName is available */ + /** Checks whether the attribute iName is available */ bool isAttributeAvailableVec3f(const char *iName) const; /* modifiers */ - /*! sets the attribute's color. + /** sets the attribute's color. * \param r: * The new R value. * \param g: @@ -218,7 +218,7 @@ class StrokeAttribute { _color[2] = b; } - /*! sets the attribute's color. + /** sets the attribute's color. * \param iRGB: * The new RGB values. */ @@ -229,7 +229,7 @@ class StrokeAttribute { _color[2] = iRGB[2]; } - /*! sets the attribute's alpha value. + /** sets the attribute's alpha value. * \param alpha: * The new alpha value. */ @@ -238,7 +238,7 @@ class StrokeAttribute { _alpha = alpha; } - /*! sets the attribute's thickness. + /** sets the attribute's thickness. * \param tr: * The thickness on the right of the vertex when following the stroke. * \param tl: @@ -250,7 +250,7 @@ class StrokeAttribute { _thickness[1] = tl; } - /*! sets the attribute's thickness. + /** sets the attribute's thickness. * \param tRL: * The thickness on the right and on the left of the vertex when following the stroke. */ @@ -260,13 +260,13 @@ class StrokeAttribute { _thickness[1] = tRL[1]; } - /*! sets the visible flag. True means visible. */ + /** sets the visible flag. True means visible. */ inline void setVisible(bool iVisible) { _visible = iVisible; } - /*! Adds a user defined attribute of type real + /** Adds a user defined attribute of type real * If there is no attribute of name iName, it is added. * Otherwise, the new value replaces the old one. * \param iName: @@ -276,7 +276,7 @@ class StrokeAttribute { */ void setAttributeReal(const char *iName, float att); - /*! Adds a user defined attribute of type Vec2f + /** Adds a user defined attribute of type Vec2f * If there is no attribute of name iName, it is added. * Otherwise, the new value replaces the old one. * \param iName: @@ -286,7 +286,7 @@ class StrokeAttribute { */ void setAttributeVec2f(const char *iName, const Vec2f &att); - /*! Adds a user defined attribute of type Vec3f + /** Adds a user defined attribute of type Vec3f * If there is no attribute of name iName, it is added. * Otherwise, the new value replaces the old one. * \param iName: @@ -322,10 +322,10 @@ class StrokeAttribute { // //////////////////////////////////////////////////////// -/*! Class to define a stroke vertex. */ +/** Class to define a stroke vertex. */ class StrokeVertex : public CurvePoint { public: // Implementation of Interface0D - /*! Returns the string "StrokeVertex" */ + /** Returns the string "StrokeVertex" */ virtual string getExactTypeName() const { return "StrokeVertex"; @@ -337,129 +337,129 @@ class StrokeVertex : public CurvePoint { float _StrokeLength; // stroke length public: - /*! default constructor */ + /** default constructor */ StrokeVertex(); - /*! Copy constructor */ + /** Copy constructor */ StrokeVertex(const StrokeVertex &iBrother); - /*! Builds a stroke vertex from a SVertex */ + /** Builds a stroke vertex from a SVertex */ StrokeVertex(SVertex *iSVertex); - /*! Builds a stroke vertex from a CurvePoint */ + /** Builds a stroke vertex from a CurvePoint */ StrokeVertex(CurvePoint *iPoint); - /*! Builds Stroke Vertex from 2 stroke vertices and an interpolation parameter*/ + /** Builds Stroke Vertex from 2 stroke vertices and an interpolation parameter*/ StrokeVertex(StrokeVertex *iA, StrokeVertex *iB, float t3); - /*! Builds a stroke from a view vertex and an attribute */ + /** Builds a stroke from a view vertex and an attribute */ StrokeVertex(SVertex *iSVertex, const StrokeAttribute &iAttribute); /* operators */ - /*! operator = */ + /** operator = */ StrokeVertex &operator=(const StrokeVertex &iBrother); /* accessors */ - /*! Returns the 2D point x coordinate */ + /** Returns the 2D point x coordinate */ inline real x() const { return _Point2d[0]; } - /*! Returns the 2D point y coordinate */ + /** Returns the 2D point y coordinate */ inline real y() const { return _Point2d[1]; } - /*! Returns the 2D point coordinates as a Vec2r */ + /** Returns the 2D point coordinates as a Vec2r */ inline Vec2r getPoint() const { return getPoint2D(); } - /*! Returns the ith 2D point coordinate (i=0 or 1)*/ + /** Returns the ith 2D point coordinate (i=0 or 1)*/ inline real operator[](const int i) const { return _Point2d[i]; } - /*! Returns the StrokeAttribute for this StrokeVertex */ + /** Returns the StrokeAttribute for this StrokeVertex */ inline const StrokeAttribute &attribute() const { return _Attribute; } - /*! Returns a non-const reference to the StrokeAttribute of this StrokeVertex */ + /** Returns a non-const reference to the StrokeAttribute of this StrokeVertex */ inline StrokeAttribute &attribute() { return _Attribute; } - /*! Returns the curvilinear abscissa */ + /** Returns the curvilinear abscissa */ inline float curvilinearAbscissa() const { return _CurvilignAbscissa; } - /*! Returns the length of the Stroke to which this StrokeVertex belongs */ + /** Returns the length of the Stroke to which this StrokeVertex belongs */ inline float strokeLength() const { return _StrokeLength; } - /*! Returns the curvilinear abscissa of this StrokeVertex in the Stroke */ + /** Returns the curvilinear abscissa of this StrokeVertex in the Stroke */ inline float u() const { return _CurvilignAbscissa / _StrokeLength; } /* modifiers */ - /*! sets the 2D x value */ + /** sets the 2D x value */ inline void setX(real x) { _Point2d[0] = x; } - /*! sets the 2D y value */ + /** sets the 2D y value */ inline void setY(real y) { _Point2d[1] = y; } - /*! sets the 2D x and y values */ + /** sets the 2D x and y values */ inline void setPoint(real x, real y) { _Point2d[0] = x; _Point2d[1] = y; } - /*! sets the 2D x and y values */ + /** sets the 2D x and y values */ inline void setPoint(const Vec2r &p) { _Point2d[0] = p[0]; _Point2d[1] = p[1]; } - /*! Returns a reference to the ith 2D point coordinate (i=0 or 1) */ + /** Returns a reference to the ith 2D point coordinate (i=0 or 1) */ inline real &operator[](const int i) { return _Point2d[i]; } - /*! sets the attribute. */ + /** sets the attribute. */ inline void setAttribute(const StrokeAttribute &iAttribute) { _Attribute = iAttribute; } - /*! sets the curvilinear abscissa of this StrokeVertex in the Stroke */ + /** sets the curvilinear abscissa of this StrokeVertex in the Stroke */ inline void setCurvilinearAbscissa(float iAbscissa) { _CurvilignAbscissa = iAbscissa; } - /*! sets the Stroke's length (it's only a value stored by the Stroke Vertex, it won't change the + /** sets the Stroke's length (it's only a value stored by the Stroke Vertex, it won't change the * real Stroke's length.) */ inline void setStrokeLength(float iLength) @@ -492,7 +492,7 @@ class StrokeVertexIterator; } // end of namespace StrokeInternal -/*! Class to define a stroke. +/** Class to define a stroke. * A stroke is made of a set of 2D vertices (StrokeVertex), regularly spaced out. * This set of vertices defines the stroke's backbone geometry. * Each of these stroke vertices defines the stroke's shape and appearance at this vertex @@ -500,7 +500,7 @@ class StrokeVertexIterator; */ class Stroke : public Interface1D { public: // Implementation of Interface1D - /*! Returns the string "Stroke" */ + /** Returns the string "Stroke" */ virtual string getExactTypeName() const { return "Stroke"; @@ -508,17 +508,17 @@ class Stroke : public Interface1D { // Data access methods - /*! Returns the Id of the Stroke */ + /** Returns the Id of the Stroke */ virtual Id getId() const { return _id; } - /*! The different blending modes available to similate the interaction media-medium. */ + /** The different blending modes available to similate the interaction media-medium. */ typedef enum { - DRY_MEDIUM, /*!< To simulate a dry medium such as Pencil or Charcoal.*/ - HUMID_MEDIUM, /*!< To simulate ink painting (color subtraction blending).*/ - OPAQUE_MEDIUM, /*!< To simulate an opaque medium (oil, spray...).*/ + DRY_MEDIUM, /**< To simulate a dry medium such as Pencil or Charcoal.*/ + HUMID_MEDIUM, /**< To simulate ink painting (color subtraction blending).*/ + OPAQUE_MEDIUM, /**< To simulate an opaque medium (oil, spray...).*/ } MediumType; public: @@ -549,13 +549,13 @@ class Stroke : public Interface1D { Vec2r _extremityOrientations[2]; // the orientations of the first and last extermity public: - /*! default constructor */ + /** default constructor */ Stroke(); - /*! copy constructor */ + /** copy constructor */ Stroke(const Stroke &iBrother); - /*! Builds a stroke from a set of StrokeVertex. + /** Builds a stroke from a set of StrokeVertex. * This constructor is templated by an iterator type. * This iterator type must allow the vertices parsing using the ++ operator. * \param iBegin: @@ -565,14 +565,14 @@ class Stroke : public Interface1D { */ template<class InputVertexIterator> Stroke(InputVertexIterator iBegin, InputVertexIterator iEnd); - /*! Destructor */ + /** Destructor */ virtual ~Stroke(); /* operators */ - /*! operator = */ + /** operator = */ Stroke &operator=(const Stroke &iBrother); - /*! Compute the sampling needed to get iNVertices vertices. + /** Compute the sampling needed to get iNVertices vertices. * If the specified number of vertices is less than the actual number of vertices, the actual * sampling value is returned. (To remove Vertices, use the RemoveVertex() method of this class). * \param iNVertices: @@ -583,7 +583,7 @@ class Stroke : public Interface1D { */ float ComputeSampling(int iNVertices); - /*! Resampling method. + /** Resampling method. * Resamples the curve so that it eventually has iNPoints. That means it is going to add * iNPoints-vertices_size, if vertices_size is the number of points we already have. If * vertices_size >= iNPoints, no resampling is done. @@ -592,7 +592,7 @@ class Stroke : public Interface1D { */ int Resample(int iNPoints); - /*! Resampling method. + /** Resampling method. * Resamples the curve with a given sampling. * If this sampling is < to the actual sampling value, no resampling is done. * \param iSampling: @@ -600,18 +600,18 @@ class Stroke : public Interface1D { */ int Resample(float iSampling); - /*! Removes all vertices from the Stroke. + /** Removes all vertices from the Stroke. */ void RemoveAllVertices(); - /*! Removes the stroke vertex iVertex + /** Removes the stroke vertex iVertex * from the stroke. * The length and curvilinear abscissa are updated * consequently. */ void RemoveVertex(StrokeVertex *iVertex); - /*! Inserts the stroke vertex iVertex in the stroke before next. + /** Inserts the stroke vertex iVertex in the stroke before next. * The length, curvilinear abscissa are updated consequently. * \param iVertex: * The StrokeVertex to insert in the Stroke. @@ -620,7 +620,7 @@ class Stroke : public Interface1D { */ void InsertVertex(StrokeVertex *iVertex, StrokeInternal::StrokeVertexIterator next); - /*! Updates the 2D length of the Stroke */ + /** Updates the 2D length of the Stroke */ void UpdateLength(); /* Render method */ @@ -631,50 +631,50 @@ class Stroke : public Interface1D { /* Iterator definition */ /* accessors */ - /*! Returns the 2D length of the Stroke */ + /** Returns the 2D length of the Stroke */ inline real getLength2D() const { return _Length; } - /*! Returns a reference to the time stamp value of the stroke. */ - /*! Returns the MediumType used for this Stroke. */ + /** Returns a reference to the time stamp value of the stroke. */ + /** Returns the MediumType used for this Stroke. */ inline MediumType getMediumType() const { return _mediumType; } - /*! Returns the id of the texture used to simulate th marks system for this Stroke */ + /** Returns the id of the texture used to simulate th marks system for this Stroke */ inline unsigned int getTextureId() { return _textureId; } - /*! Returns the spacing of texture coordinates along the stroke length */ + /** Returns the spacing of texture coordinates along the stroke length */ inline float getTextureStep() { return _textureStep; } - /*! Returns the texture used at given index to simulate the marks system for this Stroke */ + /** Returns the texture used at given index to simulate the marks system for this Stroke */ inline MTex *getMTex(int idx) { return _mtex[idx]; } - /*! Return the shader node tree to define textures. */ + /** Return the shader node tree to define textures. */ inline bNodeTree *getNodeTree() { return _nodeTree; } - /*! Returns true if this Stroke has textures assigned, false otherwise. */ + /** Returns true if this Stroke has textures assigned, false otherwise. */ inline bool hasTex() const { return (_mtex[0] != NULL) || _nodeTree; } - /*! Returns true if this Stroke uses a texture with tips, false otherwise. */ + /** Returns true if this Stroke uses a texture with tips, false otherwise. */ inline bool hasTips() const { return _tips; @@ -742,34 +742,34 @@ class Stroke : public Interface1D { } /* modifiers */ - /*! sets the Id of the Stroke. */ + /** sets the Id of the Stroke. */ inline void setId(const Id &id) { _id = id; } - /*! sets the 2D length of the Stroke. */ + /** sets the 2D length of the Stroke. */ void setLength(float iLength); - /*! sets the medium type that must be used for this Stroke. */ + /** sets the medium type that must be used for this Stroke. */ inline void setMediumType(MediumType iType) { _mediumType = iType; } - /*! sets the texture id to be used to simulate the marks system for this Stroke. */ + /** sets the texture id to be used to simulate the marks system for this Stroke. */ inline void setTextureId(unsigned int id) { _textureId = id; } - /*! sets the spacing of texture coordinates along the stroke length. */ + /** sets the spacing of texture coordinates along the stroke length. */ inline void setTextureStep(float step) { _textureStep = step; } - /*! assigns a blender texture to the first available slot. */ + /** assigns a blender texture to the first available slot. */ inline int setMTex(MTex *mtex) { for (int a = 0; a < MAX_MTEX; a++) { @@ -781,13 +781,13 @@ class Stroke : public Interface1D { return -1; /* no free slots */ } - /*! assigns a node tree (of new shading nodes) to define textures. */ + /** assigns a node tree (of new shading nodes) to define textures. */ inline void setNodeTree(bNodeTree *iNodeTree) { _nodeTree = iNodeTree; } - /*! sets the flag telling whether this stroke is using a texture with tips or not. */ + /** sets the flag telling whether this stroke is using a texture with tips or not. */ inline void setTips(bool iTips) { _tips = iTips; @@ -836,7 +836,7 @@ class Stroke : public Interface1D { const_vertex_iterator vertices_end() const; vertex_iterator vertices_end(); - /*! Returns a StrokeVertexIterator pointing on the first StrokeVertex of the Stroke. One can + /** Returns a StrokeVertexIterator pointing on the first StrokeVertex of the Stroke. One can * specify a sampling value to re-sample the Stroke on the fly if needed. * * \param t: The resampling value with which we want our Stroke to be resampled. @@ -844,26 +844,26 @@ class Stroke : public Interface1D { */ StrokeInternal::StrokeVertexIterator strokeVerticesBegin(float t = 0.0f); - /*! Returns a StrokeVertexIterator pointing after the last StrokeVertex of the Stroke. */ + /** Returns a StrokeVertexIterator pointing after the last StrokeVertex of the Stroke. */ StrokeInternal::StrokeVertexIterator strokeVerticesEnd(); - /*! Returns the number of StrokeVertex constituting the Stroke. */ + /** Returns the number of StrokeVertex constituting the Stroke. */ inline unsigned int strokeVerticesSize() const { return _Vertices.size(); } - /*! Returns the i-th StrokeVertex constituting the Stroke. */ + /** Returns the i-th StrokeVertex constituting the Stroke. */ inline StrokeVertex &strokeVerticeAt(unsigned int i) { return *(_Vertices.at(i)); } // Iterator access (Interface1D) - /*! Returns an Interface0DIterator pointing on the first StrokeVertex of the Stroke. */ + /** Returns an Interface0DIterator pointing on the first StrokeVertex of the Stroke. */ virtual Interface0DIterator verticesBegin(); - /*! Returns an Interface0DIterator pointing after the last StrokeVertex of the Stroke. */ + /** Returns an Interface0DIterator pointing after the last StrokeVertex of the Stroke. */ virtual Interface0DIterator verticesEnd(); virtual Interface0DIterator pointsBegin(float t = 0.0f); diff --git a/source/blender/freestyle/intern/stroke/StrokeAdvancedIterators.h b/source/blender/freestyle/intern/stroke/StrokeAdvancedIterators.h index 4256cdebe86..0fbf94f609e 100644 --- a/source/blender/freestyle/intern/stroke/StrokeAdvancedIterators.h +++ b/source/blender/freestyle/intern/stroke/StrokeAdvancedIterators.h @@ -158,7 +158,7 @@ class vertex_iterator_base : public IteratorBase<Traits, BidirectionalIteratorTa return &(operator*()); } - /*! accessors */ + /** accessors */ inline vertex_container_iterator it() const { return _it; diff --git a/source/blender/freestyle/intern/stroke/StrokeIterators.h b/source/blender/freestyle/intern/stroke/StrokeIterators.h index d4cbffd535e..20c29b21c22 100644 --- a/source/blender/freestyle/intern/stroke/StrokeIterators.h +++ b/source/blender/freestyle/intern/stroke/StrokeIterators.h @@ -32,7 +32,7 @@ namespace StrokeInternal { // ///////////////////////////////////////////////// -/*! Class defining an iterator designed to iterate over the StrokeVertex of a Stroke. +/** Class defining an iterator designed to iterate over the StrokeVertex of a Stroke. * An instance of a StrokeVertexIterator can only be obtained from a Stroke by calling * strokeVerticesBegin() or strokeVerticesEnd(). It is iterating over the same vertices as an * Interface0DIterator. The difference resides in the object access. Indeed, an Interface0DIterator @@ -46,12 +46,12 @@ namespace StrokeInternal { */ class StrokeVertexIterator : public Interface0DIteratorNested { public: - /*! Default constructor. */ + /** Default constructor. */ StrokeVertexIterator() { } - /*! Copy constructor. */ + /** Copy constructor. */ StrokeVertexIterator(const StrokeVertexIterator &vi) { _it = vi._it; @@ -72,7 +72,7 @@ class StrokeVertexIterator : public Interface0DIteratorNested { { } - /*! Casts this StrokeVertexIterator into an Interface0DIterator. + /** Casts this StrokeVertexIterator into an Interface0DIterator. * Useful for any call to a function of the type UnaryFunction0D. */ inline Interface0DIterator castToInterface0DIterator() const @@ -81,7 +81,7 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return ret; } - /*! operator= + /** operator= * \attention In the scripting language, you must call \code it2 = StrokeVertexIterator(it1) * \endcode instead of \code it2 = it1 \endcode where \a it1 and \a it2 are 2 * StrokeVertexIterator. Otherwise, incrementing \a it1 will also increment \a it2. @@ -94,13 +94,13 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return *this; } - /*! Returns the string "StrokeVertexIterator". */ + /** Returns the string "StrokeVertexIterator". */ virtual string getExactTypeName() const { return "StrokeVertexIterator"; } - /*! Returns a reference to the pointed StrokeVertex. + /** Returns a reference to the pointed StrokeVertex. * In the scripting language, you must call "getObject()"instead. */ virtual StrokeVertex &operator*() @@ -108,7 +108,7 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return **_it; } - /*! Returns a pointer to the pointed StrokeVertex. + /** Returns a pointer to the pointed StrokeVertex. * Can't be called in the scripting language. */ virtual StrokeVertex *operator->() @@ -116,14 +116,14 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return &(operator*()); } - /*! Increments. In the scripting language, call "increment()". */ + /** Increments. In the scripting language, call "increment()". */ virtual StrokeVertexIterator &operator++() { increment(); return *this; } - /*! Increments. In the scripting language, call "increment()". */ + /** Increments. In the scripting language, call "increment()". */ virtual StrokeVertexIterator operator++(int) { StrokeVertexIterator ret(*this); @@ -131,14 +131,14 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return ret; } - /*! Decrements. In the scripting language, call "decrement()". */ + /** Decrements. In the scripting language, call "decrement()". */ virtual StrokeVertexIterator &operator--() { decrement(); return *this; } - /*! Decrements. In the scripting language, call "decrement()". */ + /** Decrements. In the scripting language, call "decrement()". */ virtual StrokeVertexIterator operator--(int) { StrokeVertexIterator ret(*this); @@ -146,27 +146,27 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return ret; } - /*! Increments. */ + /** Increments. */ virtual int increment() { ++_it; return 0; } - /*! Decrements. */ + /** Decrements. */ virtual int decrement() { --_it; return 0; } - /*! Returns true if the pointed StrokeVertex is the first of the Stroke. */ + /** Returns true if the pointed StrokeVertex is the first of the Stroke. */ bool isBegin() const { return _it == _begin; } - /*! Returns true if the pointed StrokeVertex is the final valid StrokeVertex of the Stroke. */ + /** Returns true if the pointed StrokeVertex is the final valid StrokeVertex of the Stroke. */ bool atLast() { if (_it == _end) { @@ -179,13 +179,13 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return result; } - /*! Returns true if the pointed StrokeVertex is after the last StrokeVertex of the Stroke. */ + /** Returns true if the pointed StrokeVertex is after the last StrokeVertex of the Stroke. */ bool isEnd() const { return _it == _end; } - /*! operator == */ + /** operator == */ virtual bool operator==(const Interface0DIteratorNested &it) const { const StrokeVertexIterator *it_exact = dynamic_cast<const StrokeVertexIterator *>(&it); @@ -195,19 +195,19 @@ class StrokeVertexIterator : public Interface0DIteratorNested { return (_it == it_exact->_it); } - /*! Returns the curvilinear abscissa of the current point */ + /** Returns the curvilinear abscissa of the current point */ virtual float t() const { return (*_it)->curvilinearAbscissa(); } - /*! Returns the point's parameter in the stroke */ + /** Returns the point's parameter in the stroke */ virtual float u() const { return (*_it)->u(); } - /*! Cloning method */ + /** Cloning method */ virtual StrokeVertexIterator *copy() const { return new StrokeVertexIterator(*this); diff --git a/source/blender/freestyle/intern/stroke/StrokeLayer.h b/source/blender/freestyle/intern/stroke/StrokeLayer.h index 2101e7732ce..3bcd675d295 100644 --- a/source/blender/freestyle/intern/stroke/StrokeLayer.h +++ b/source/blender/freestyle/intern/stroke/StrokeLayer.h @@ -55,15 +55,15 @@ class StrokeLayer { virtual ~StrokeLayer(); - /*! Render method */ + /** Render method */ void ScaleThickness(float iFactor); void Render(const StrokeRenderer *iRenderer); void RenderBasic(const StrokeRenderer *iRenderer); - /*! clears the layer */ + /** clears the layer */ void clear(); - /*! accessors */ + /** accessors */ inline stroke_container::iterator strokes_begin() { return _strokes.begin(); @@ -84,7 +84,7 @@ class StrokeLayer { return _strokes.empty(); } - /*! modifiers */ + /** modifiers */ inline void setStrokes(stroke_container &iStrokes) { _strokes = iStrokes; diff --git a/source/blender/freestyle/intern/stroke/StrokeRenderer.h b/source/blender/freestyle/intern/stroke/StrokeRenderer.h index d3ed8bde8a3..61b530b9643 100644 --- a/source/blender/freestyle/intern/stroke/StrokeRenderer.h +++ b/source/blender/freestyle/intern/stroke/StrokeRenderer.h @@ -46,7 +46,7 @@ namespace Freestyle { /* */ /**********************************/ -/*! Class to load textures */ +/** Class to load textures */ class TextureManager { public: TextureManager(); @@ -117,13 +117,13 @@ class TextureManager { /* */ /**********************************/ -/*! Class to render a stroke. Creates a triangle strip and stores it strip is lazily created at the +/** Class to render a stroke. Creates a triangle strip and stores it strip is lazily created at the * first rendering */ class StrokeRenderer { public: virtual ~StrokeRenderer(); - /*! Renders a stroke rep */ + /** Renders a stroke rep */ virtual void RenderStrokeRep(StrokeRep *iStrokeRep) const = 0; virtual void RenderStrokeRepBasic(StrokeRep *iStrokeRep) const = 0; diff --git a/source/blender/freestyle/intern/stroke/StrokeRep.h b/source/blender/freestyle/intern/stroke/StrokeRep.h index 09048b8e147..cc889aac364 100644 --- a/source/blender/freestyle/intern/stroke/StrokeRep.h +++ b/source/blender/freestyle/intern/stroke/StrokeRep.h @@ -197,13 +197,13 @@ class StrokeRep { StrokeRep(Stroke *iStroke); virtual ~StrokeRep(); - /*! Creates the strips */ + /** Creates the strips */ virtual void create(); - /*! Renders the stroke using a Renderer */ + /** Renders the stroke using a Renderer */ virtual void Render(const StrokeRenderer *iRenderer); - /*! accessors */ + /** accessors */ inline Stroke::MediumType getMediumType() const { return _strokeType; @@ -249,7 +249,7 @@ class StrokeRep { return _stroke; } - /*! modifiers */ + /** modifiers */ inline void setMediumType(Stroke::MediumType itype) { _strokeType = itype; diff --git a/source/blender/freestyle/intern/stroke/StrokeShader.h b/source/blender/freestyle/intern/stroke/StrokeShader.h index f4984136747..e4a8412d52a 100644 --- a/source/blender/freestyle/intern/stroke/StrokeShader.h +++ b/source/blender/freestyle/intern/stroke/StrokeShader.h @@ -39,7 +39,7 @@ namespace Freestyle { class Stroke; -/*! Base class for Stroke Shaders. +/** Base class for Stroke Shaders. * Any Stroke Shader must inherit from this class and overload the shade() method. * A StrokeShader is designed to modify any Stroke's attribute such as Thickness, Color, * Geometry, Texture, Blending mode... @@ -65,24 +65,24 @@ class StrokeShader { public: void *py_ss; - /*! Default constructor. */ + /** Default constructor. */ StrokeShader() { py_ss = 0; } - /*! Destructor. */ + /** Destructor. */ virtual ~StrokeShader() { } - /*! Returns the string corresponding to the shader's name. */ + /** Returns the string corresponding to the shader's name. */ virtual string getName() const { return "StrokeShader"; } - /*! The shading method. This method must be overloaded by inherited classes. + /** The shading method. This method must be overloaded by inherited classes. * \param ioStroke: * The stroke we wish to shade. this Stroke is modified by the Shader (which typically * modifies the Stroke's attribute's values such as Color, Thickness, Geometry...) diff --git a/source/blender/freestyle/intern/stroke/StrokeTesselator.h b/source/blender/freestyle/intern/stroke/StrokeTesselator.h index 0c1efb873bc..b03db823d18 100644 --- a/source/blender/freestyle/intern/stroke/StrokeTesselator.h +++ b/source/blender/freestyle/intern/stroke/StrokeTesselator.h @@ -43,10 +43,10 @@ class StrokeTesselator { { } - /*! Builds a line rep contained from a Stroke */ + /** Builds a line rep contained from a Stroke */ LineRep *Tesselate(Stroke *iStroke); - /*! Builds a set of lines rep contained under a a NodeShape, itself contained under a NodeGroup + /** Builds a set of lines rep contained under a a NodeShape, itself contained under a NodeGroup * from a set of strokes. */ template<class StrokeIterator> NodeGroup *Tesselate(StrokeIterator begin, StrokeIterator end); diff --git a/source/blender/freestyle/intern/stroke/TextStrokeRenderer.h b/source/blender/freestyle/intern/stroke/TextStrokeRenderer.h index bbc3b5058a3..09c597791a2 100644 --- a/source/blender/freestyle/intern/stroke/TextStrokeRenderer.h +++ b/source/blender/freestyle/intern/stroke/TextStrokeRenderer.h @@ -54,7 +54,7 @@ class TextStrokeRenderer : public StrokeRenderer { public: TextStrokeRenderer(const char *iFileName = NULL); - /*! Renders a stroke rep */ + /** Renders a stroke rep */ virtual void RenderStrokeRep(StrokeRep *iStrokeRep) const; virtual void RenderStrokeRepBasic(StrokeRep *iStrokeRep) const; diff --git a/source/blender/freestyle/intern/system/BaseObject.h b/source/blender/freestyle/intern/system/BaseObject.h index 76d30aa74e2..8a19100a5c6 100644 --- a/source/blender/freestyle/intern/system/BaseObject.h +++ b/source/blender/freestyle/intern/system/BaseObject.h @@ -39,7 +39,7 @@ class BaseObject { { } - /*! At least makes a release on this. + /** At least makes a release on this. * The BaseObject::destroy method must be explicitly called at the end of any overloaded destroy */ virtual int destroy() @@ -47,13 +47,13 @@ class BaseObject { return release(); } - /*! Increments the reference counter */ + /** Increments the reference counter */ inline int addRef() { return ++_ref_counter; } - /*! Decrements the reference counter */ + /** Decrements the reference counter */ inline int release() { if (_ref_counter) { diff --git a/source/blender/freestyle/intern/system/Id.h b/source/blender/freestyle/intern/system/Id.h index f94e044de29..92ce5f28fb1 100644 --- a/source/blender/freestyle/intern/system/Id.h +++ b/source/blender/freestyle/intern/system/Id.h @@ -27,21 +27,21 @@ namespace Freestyle { -/*! Class used to tag any object by an id. +/** Class used to tag any object by an id. * It is made of two unsigned integers. */ class Id { public: typedef unsigned id_type; - /*! Default constructor */ + /** Default constructor */ Id() { _first = 0; _second = 0; } - /*! Builds an Id from an integer. + /** Builds an Id from an integer. * The second number is set to 0. */ Id(id_type id) @@ -50,21 +50,21 @@ class Id { _second = 0; } - /*! Builds the Id from the two numbers */ + /** Builds the Id from the two numbers */ Id(id_type ifirst, id_type isecond) { _first = ifirst; _second = isecond; } - /*! Copy constructor */ + /** Copy constructor */ Id(const Id &iBrother) { _first = iBrother._first; _second = iBrother._second; } - /*! Operator= */ + /** Operator= */ Id &operator=(const Id &iBrother) { _first = iBrother._first; @@ -72,43 +72,43 @@ class Id { return *this; } - /*! Returns the first Id number */ + /** Returns the first Id number */ id_type getFirst() const { return _first; } - /*! Returns the second Id number */ + /** Returns the second Id number */ id_type getSecond() const { return _second; } - /*! Sets the first number constituting the Id */ + /** Sets the first number constituting the Id */ void setFirst(id_type first) { _first = first; } - /*! Sets the second number constituting the Id */ + /** Sets the second number constituting the Id */ void setSecond(id_type second) { _second = second; } - /*! Operator== */ + /** Operator== */ bool operator==(const Id &id) const { return ((_first == id._first) && (_second == id._second)); } - /*! Operator!= */ + /** Operator!= */ bool operator!=(const Id &id) const { return !((*this) == id); } - /*! Operator< */ + /** Operator< */ bool operator<(const Id &id) const { if (_first < id._first) { diff --git a/source/blender/freestyle/intern/system/ProgressBar.h b/source/blender/freestyle/intern/system/ProgressBar.h index d7b02c48359..6919c624545 100644 --- a/source/blender/freestyle/intern/system/ProgressBar.h +++ b/source/blender/freestyle/intern/system/ProgressBar.h @@ -64,7 +64,7 @@ class ProgressBar { _label = s; } - /*! accessors */ + /** accessors */ inline unsigned int getTotalSteps() const { return _numtotalsteps; diff --git a/source/blender/freestyle/intern/view_map/FEdgeXDetector.h b/source/blender/freestyle/intern/view_map/FEdgeXDetector.h index 2373451f47c..1a96cf3deea 100644 --- a/source/blender/freestyle/intern/view_map/FEdgeXDetector.h +++ b/source/blender/freestyle/intern/view_map/FEdgeXDetector.h @@ -42,7 +42,7 @@ namespace Freestyle { using namespace Geometry; -/*! This class takes as input a WXEdge structure and fills it */ +/** This class takes as input a WXEdge structure and fills it */ class FEdgeXDetector { public: FEdgeXDetector() @@ -69,7 +69,7 @@ class FEdgeXDetector { { } - /*! Process shapes from a WingedEdge containing a list of WShapes */ + /** Process shapes from a WingedEdge containing a list of WShapes */ virtual void processShapes(WingedEdge &); // GENERAL STUFF @@ -86,7 +86,7 @@ class FEdgeXDetector { virtual void processCreaseShape(WXShape *iWShape); virtual void ProcessCreaseEdge(WXEdge *iEdge); - /*! Sets the minimum angle for detecting crease edges + /** Sets the minimum angle for detecting crease edges * \param angle: * The angular threshold in degrees (between 0 and 180) for detecting crease edges. An edge is * considered a crease edge if the angle between two faces sharing the edge is smaller than the @@ -121,7 +121,7 @@ class FEdgeXDetector { virtual void ProcessSuggestiveContourFace(WXFace *iFace); virtual void postProcessSuggestiveContourShape(WXShape *iShape); virtual void postProcessSuggestiveContourFace(WXFace *iFace); - /*! Sets the minimal derivative of the radial curvature for suggestive contours + /** Sets the minimal derivative of the radial curvature for suggestive contours * \param dkr: * The minimal derivative of the radial curvature */ @@ -144,7 +144,7 @@ class FEdgeXDetector { // EVERYBODY virtual void buildSmoothEdges(WXShape *iShape); - /*! Sets the current viewpoint */ + /** Sets the current viewpoint */ inline void setViewpoint(const Vec3f &ivp) { _Viewpoint = ivp; @@ -186,7 +186,7 @@ class FEdgeXDetector { } } - /*! Sets the radius of the geodesic sphere around each vertex (for the curvature computation) + /** Sets the radius of the geodesic sphere around each vertex (for the curvature computation) * \param r: * The radius of the sphere expressed as a ratio of the mean edge size */ diff --git a/source/blender/freestyle/intern/view_map/Functions0D.h b/source/blender/freestyle/intern/view_map/Functions0D.h index 0364069b631..7409e1737a4 100644 --- a/source/blender/freestyle/intern/view_map/Functions0D.h +++ b/source/blender/freestyle/intern/view_map/Functions0D.h @@ -52,7 +52,7 @@ using namespace Geometry; // /////////////////////////////////////////////////////////// -/*! Base class for Unary Functions (functors) working on Interface0DIterator. +/** Base class for Unary Functions (functors) working on Interface0DIterator. * A unary function will be used by calling its operator() on an Interface0DIterator. * \attention In the scripting language, there exists several prototypes depending on the returned * value type. For example, you would inherit from a UnaryFunction0DDouble if you wish to define a @@ -74,27 +74,27 @@ template<class T> class UnaryFunction0D { T result; void *py_uf0D; - /*! The type of the value returned by the functor. */ + /** The type of the value returned by the functor. */ typedef T ReturnedValueType; - /*! Default constructor. */ + /** Default constructor. */ UnaryFunction0D() { py_uf0D = NULL; } - /*! Destructor; */ + /** Destructor; */ virtual ~UnaryFunction0D() { } - /*! Returns the string "UnaryFunction0D" */ + /** Returns the string "UnaryFunction0D" */ virtual string getName() const { return "UnaryFunction0D"; } - /*! The operator (). + /** The operator (). * \param iter: * An Interface0DIterator pointing onto the point at which we wish to evaluate the function. * \return the result of the function of type T. @@ -139,16 +139,16 @@ class ViewShape; namespace Functions0D { // GetXF0D -/*! Returns the X 3D coordinate of an Interface0D. */ +/** Returns the X 3D coordinate of an Interface0D. */ class GetXF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "GetXF0D" */ + /** Returns the string "GetXF0D" */ string getName() const { return "GetXF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter->getX(); @@ -157,16 +157,16 @@ class GetXF0D : public UnaryFunction0D<double> { }; // GetYF0D -/*! Returns the Y 3D coordinate of an Interface0D. */ +/** Returns the Y 3D coordinate of an Interface0D. */ class GetYF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "GetYF0D" */ + /** Returns the string "GetYF0D" */ string getName() const { return "GetYF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter->getY(); @@ -175,16 +175,16 @@ class GetYF0D : public UnaryFunction0D<double> { }; // GetZF0D -/*! Returns the Z 3D coordinate of an Interface0D. */ +/** Returns the Z 3D coordinate of an Interface0D. */ class GetZF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "GetZF0D" */ + /** Returns the string "GetZF0D" */ string getName() const { return "GetZF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter->getZ(); @@ -193,16 +193,16 @@ class GetZF0D : public UnaryFunction0D<double> { }; // GetProjectedXF0D -/*! Returns the X 3D projected coordinate of an Interface0D. */ +/** Returns the X 3D projected coordinate of an Interface0D. */ class GetProjectedXF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "GetProjectedXF0D" */ + /** Returns the string "GetProjectedXF0D" */ string getName() const { return "GetProjectedXF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter->getProjectedX(); @@ -211,16 +211,16 @@ class GetProjectedXF0D : public UnaryFunction0D<double> { }; // GetProjectedYF0D -/*! Returns the Y projected 3D coordinate of an Interface0D. */ +/** Returns the Y projected 3D coordinate of an Interface0D. */ class GetProjectedYF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "GetProjectedYF0D" */ + /** Returns the string "GetProjectedYF0D" */ string getName() const { return "GetProjectedYF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter->getProjectedY(); @@ -229,16 +229,16 @@ class GetProjectedYF0D : public UnaryFunction0D<double> { }; // GetProjectedZF0D -/*! Returns the Z projected 3D coordinate of an Interface0D. */ +/** Returns the Z projected 3D coordinate of an Interface0D. */ class GetProjectedZF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "GetProjectedZF0D" */ + /** Returns the string "GetProjectedZF0D" */ string getName() const { return "GetProjectedZF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter->getProjectedZ(); @@ -247,16 +247,16 @@ class GetProjectedZF0D : public UnaryFunction0D<double> { }; // GetCurvilinearAbscissaF0D -/*! Returns the curvilinear abscissa of an Interface0D in the context of its 1D element. */ +/** Returns the curvilinear abscissa of an Interface0D in the context of its 1D element. */ class GetCurvilinearAbscissaF0D : public UnaryFunction0D<float> { public: - /*! Returns the string "GetCurvilinearAbscissaF0D" */ + /** Returns the string "GetCurvilinearAbscissaF0D" */ string getName() const { return "GetCurvilinearAbscissaF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter.t(); @@ -265,16 +265,16 @@ class GetCurvilinearAbscissaF0D : public UnaryFunction0D<float> { }; // GetParameterF0D -/*! Returns the parameter of an Interface0D in the context of its 1D element. */ +/** Returns the parameter of an Interface0D in the context of its 1D element. */ class GetParameterF0D : public UnaryFunction0D<float> { public: - /*! Returns the string "GetCurvilinearAbscissaF0D" */ + /** Returns the string "GetCurvilinearAbscissaF0D" */ string getName() const { return "GetParameterF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter) { result = iter.u(); @@ -283,93 +283,93 @@ class GetParameterF0D : public UnaryFunction0D<float> { }; // VertexOrientation2DF0D -/*! Returns a Vec2r giving the 2D oriented tangent to the 1D element to which the +/** Returns a Vec2r giving the 2D oriented tangent to the 1D element to which the * Interface0DIterator& belongs to and evaluated at the Interface0D pointed by this * Interface0DIterator&. */ class VertexOrientation2DF0D : public UnaryFunction0D<Vec2f> { public: - /*! Returns the string "VertexOrientation2DF0D" */ + /** Returns the string "VertexOrientation2DF0D" */ string getName() const { return "VertexOrientation2DF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // VertexOrientation3DF0D -/*! Returns a Vec3r giving the 3D oriented tangent to the 1D element to which the +/** Returns a Vec3r giving the 3D oriented tangent to the 1D element to which the * Interface0DIterator& belongs to and evaluated at the Interface0D pointed by this * Interface0DIterator&. */ class VertexOrientation3DF0D : public UnaryFunction0D<Vec3f> { public: - /*! Returns the string "VertexOrientation3DF0D" */ + /** Returns the string "VertexOrientation3DF0D" */ string getName() const { return "VertexOrientation3DF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // Curvature2DAngleF0D -/*! Returns a real giving the 2D curvature (as an angle) of the 1D element to which the +/** Returns a real giving the 2D curvature (as an angle) of the 1D element to which the * Interface0DIterator& belongs to and evaluated at the Interface0D pointed by this * Interface0DIterator&. */ class Curvature2DAngleF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "Curvature2DAngleF0D" */ + /** Returns the string "Curvature2DAngleF0D" */ string getName() const { return "Curvature2DAngleF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // ZDiscontinuity -/*! Returns a real giving the distance between and Interface0D and the shape that lies behind +/** Returns a real giving the distance between and Interface0D and the shape that lies behind * (occludee). This distance is evaluated in the camera space and normalized between 0 and 1. * Therefore, if no object is occluded by the shape to which the Interface0D belongs to, 1 is * returned. */ class ZDiscontinuityF0D : public UnaryFunction0D<double> { public: - /*! Returns the string "ZDiscontinuityF0D" */ + /** Returns the string "ZDiscontinuityF0D" */ string getName() const { return "ZDiscontinuityF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // Normal2DF0D -/*! Returns a Vec2f giving the normalized 2D normal to the 1D element to which the +/** Returns a Vec2f giving the normalized 2D normal to the 1D element to which the * Interface0DIterator& belongs to and evaluated at the Interface0D pointed by this * Interface0DIterator&. */ class Normal2DF0D : public UnaryFunction0D<Vec2f> { public: - /*! Returns the string "Normal2DF0D" */ + /** Returns the string "Normal2DF0D" */ string getName() const { return "Normal2DF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // MaterialF0D -/*! Returns the material of the object evaluated at the Interface0D. +/** Returns the material of the object evaluated at the Interface0D. * This evaluation can be ambiguous (in the case of a TVertex for example. * This functor tries to remove this ambiguity using the context offered by the 1D element to * which the Interface0DIterator& belongs to and by arbitrary choosing the material of the face @@ -379,18 +379,18 @@ class Normal2DF0D : public UnaryFunction0D<Vec2f> { */ class MaterialF0D : public UnaryFunction0D<FrsMaterial> { public: - /*! Returns the string "MaterialF0D" */ + /** Returns the string "MaterialF0D" */ string getName() const { return "MaterialF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // ShapeIdF0D -/*! Returns the Id of the Shape the Interface0D belongs to. +/** Returns the Id of the Shape the Interface0D belongs to. * This evaluation can be ambiguous (in the case of a TVertex for example). * This functor tries to remove this ambiguity using the context offered by the 1D element to * which the Interface0DIterator& belongs to. However, there still can be problematic cases, and @@ -399,18 +399,18 @@ class MaterialF0D : public UnaryFunction0D<FrsMaterial> { */ class ShapeIdF0D : public UnaryFunction0D<Id> { public: - /*! Returns the string "ShapeIdF0D" */ + /** Returns the string "ShapeIdF0D" */ string getName() const { return "ShapeIdF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // QiF0D -/*! Returns the quantitative invisibility of this Interface0D. +/** Returns the quantitative invisibility of this Interface0D. * This evaluation can be ambiguous (in the case of a TVertex for example). * This functor tries to remove this ambiguity using the context offered by the 1D element to * which the Interface0DIterator& belongs to. However, there still can be problematic cases, and @@ -419,69 +419,69 @@ class ShapeIdF0D : public UnaryFunction0D<Id> { */ class QuantitativeInvisibilityF0D : public UnaryFunction0D<unsigned int> { public: - /*! Returns the string "QuantitativeInvisibilityF0D" */ + /** Returns the string "QuantitativeInvisibilityF0D" */ string getName() const { return "QuantitativeInvisibilityF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // CurveNatureF0D -/*! Returns the Nature::EdgeNature of the 1D element the Interface0DIterator& belongs to. */ +/** Returns the Nature::EdgeNature of the 1D element the Interface0DIterator& belongs to. */ class CurveNatureF0D : public UnaryFunction0D<Nature::EdgeNature> { public: - /*! Returns the string "QuantitativeInvisibilityF0D" */ + /** Returns the string "QuantitativeInvisibilityF0D" */ string getName() const { return "CurveNatureF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // GetShapeF0D -/*! Returns the ViewShape* containing the Interface0D */ +/** Returns the ViewShape* containing the Interface0D */ class GetShapeF0D : public UnaryFunction0D<ViewShape *> { public: - /*! Returns the string "GetShapeF0D" */ + /** Returns the string "GetShapeF0D" */ string getName() const { return "GetShapeF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // GetOccludersF0D -/*! Returns a vector containing the ViewShape* occluding the Interface0D */ +/** Returns a vector containing the ViewShape* occluding the Interface0D */ class GetOccludersF0D : public UnaryFunction0D<std::vector<ViewShape *>> { public: - /*! Returns the string "GetOccludersF0D" */ + /** Returns the string "GetOccludersF0D" */ string getName() const { return "GetOccludersF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; // GetOccludeeF0D -/*! Returns the ViewShape* "occluded" by the Interface0D */ +/** Returns the ViewShape* "occluded" by the Interface0D */ class GetOccludeeF0D : public UnaryFunction0D<ViewShape *> { public: - /*! Returns the string "GetOccludeeF0D" */ + /** Returns the string "GetOccludeeF0D" */ string getName() const { return "GetOccludeeF0D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface0DIterator &iter); }; diff --git a/source/blender/freestyle/intern/view_map/Functions1D.h b/source/blender/freestyle/intern/view_map/Functions1D.h index 9cf5527ee19..532e89261ce 100644 --- a/source/blender/freestyle/intern/view_map/Functions1D.h +++ b/source/blender/freestyle/intern/view_map/Functions1D.h @@ -42,7 +42,7 @@ namespace Freestyle { // /////////////////////////////////////////////////////////// -/*! Base class for Unary Functions (functors) working on Interface1D. +/** Base class for Unary Functions (functors) working on Interface1D. * A unary function will be used by calling its operator() on an Interface1D. * \attention In the scripting language, there exists several prototypes depending on the returned * value type. For example, you would inherit from a UnaryFunction1DDouble if you wish to define a @@ -61,16 +61,16 @@ template<class T> class UnaryFunction1D { T result; void *py_uf1D; - /*! The type of the value returned by the functor. */ + /** The type of the value returned by the functor. */ typedef T ReturnedValueType; - /*! Default constructor */ + /** Default constructor */ UnaryFunction1D() { _integration = MEAN; } - /*! Builds a UnaryFunction1D from an integration type. + /** Builds a UnaryFunction1D from an integration type. * \param iType: * In case the result for the Interface1D would be obtained by evaluating a 0D function over * the different Interface0D of the Interface1D, \a iType tells which integration method to use. @@ -81,18 +81,18 @@ template<class T> class UnaryFunction1D { _integration = iType; } - /*! destructor. */ + /** destructor. */ virtual ~UnaryFunction1D() { } - /*! returns the string "UnaryFunction1D". */ + /** returns the string "UnaryFunction1D". */ virtual string getName() const { return "UnaryFunction1D"; } - /*! The operator (). + /** The operator (). * \param inter: * The Interface1D on which we wish to evaluate the function. * \return the result of the function of type T. @@ -103,13 +103,13 @@ template<class T> class UnaryFunction1D { return Director_BPy_UnaryFunction1D___call__(this, py_uf1D, inter); } - /*! Sets the integration method */ + /** Sets the integration method */ void setIntegrationType(IntegrationType integration) { _integration = integration; } - /*! Returns the integration method. */ + /** Returns the integration method. */ IntegrationType getIntegrationType() const { return _integration; @@ -178,13 +178,13 @@ class UnaryFunction1D_void { namespace Functions1D { // GetXF1D -/*! Returns the X 3D coordinate of an Interface1D. */ +/** Returns the X 3D coordinate of an Interface1D. */ class GetXF1D : public UnaryFunction1D<double> { private: Functions0D::GetXF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -192,24 +192,24 @@ class GetXF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "GetXF1D" */ + /** Returns the string "GetXF1D" */ string getName() const { return "GetXF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetYF1D -/*! Returns the Y 3D coordinate of an Interface1D. */ +/** Returns the Y 3D coordinate of an Interface1D. */ class GetYF1D : public UnaryFunction1D<double> { private: Functions0D::GetYF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -217,24 +217,24 @@ class GetYF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "GetYF1D" */ + /** Returns the string "GetYF1D" */ string getName() const { return "GetYF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetZF1D -/*! Returns the Z 3D coordinate of an Interface1D. */ +/** Returns the Z 3D coordinate of an Interface1D. */ class GetZF1D : public UnaryFunction1D<double> { private: Functions0D::GetZF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -242,24 +242,24 @@ class GetZF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "GetZF1D" */ + /** Returns the string "GetZF1D" */ string getName() const { return "GetZF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetProjectedXF1D -/*! Returns the projected X 3D coordinate of an Interface1D. */ +/** Returns the projected X 3D coordinate of an Interface1D. */ class GetProjectedXF1D : public UnaryFunction1D<double> { private: Functions0D::GetProjectedXF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -267,24 +267,24 @@ class GetProjectedXF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "GetProjectedXF1D" */ + /** Returns the string "GetProjectedXF1D" */ string getName() const { return "GetProjectedXF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetProjectedYF1D -/*! Returns the projected Y 3D coordinate of an Interface1D. */ +/** Returns the projected Y 3D coordinate of an Interface1D. */ class GetProjectedYF1D : public UnaryFunction1D<double> { private: Functions0D::GetProjectedYF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -292,24 +292,24 @@ class GetProjectedYF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "GetProjectedYF1D" */ + /** Returns the string "GetProjectedYF1D" */ string getName() const { return "GetProjectedYF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetProjectedZF1D -/*! Returns the projected Z 3D coordinate of an Interface1D. */ +/** Returns the projected Z 3D coordinate of an Interface1D. */ class GetProjectedZF1D : public UnaryFunction1D<double> { private: Functions0D::GetProjectedZF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -317,24 +317,24 @@ class GetProjectedZF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "GetProjectedZF1D" */ + /** Returns the string "GetProjectedZF1D" */ string getName() const { return "GetProjectedZF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // Orientation2DF1D -/*! Returns the 2D orientation as a Vec2f*/ +/** Returns the 2D orientation as a Vec2f*/ class Orientation2DF1D : public UnaryFunction1D<Vec2f> { private: Functions0D::VertexOrientation2DF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -342,24 +342,24 @@ class Orientation2DF1D : public UnaryFunction1D<Vec2f> { { } - /*! Returns the string "Orientation2DF1D" */ + /** Returns the string "Orientation2DF1D" */ string getName() const { return "Orientation2DF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // Orientation3DF1D -/*! Returns the 3D orientation as a Vec3f. */ +/** Returns the 3D orientation as a Vec3f. */ class Orientation3DF1D : public UnaryFunction1D<Vec3f> { private: Functions0D::VertexOrientation3DF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -367,18 +367,18 @@ class Orientation3DF1D : public UnaryFunction1D<Vec3f> { { } - /*! Returns the string "Orientation3DF1D" */ + /** Returns the string "Orientation3DF1D" */ string getName() const { return "Orientation3DF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // ZDiscontinuityF1D -/*! Returns a real giving the distance between and Interface1D and the shape that lies behind +/** Returns a real giving the distance between and Interface1D and the shape that lies behind * (occludee). This distance is evaluated in the camera space and normalized between 0 and 1. * Therefore, if no object is occluded by the shape to which the Interface1D belongs to, 1 is * returned. @@ -388,7 +388,7 @@ class ZDiscontinuityF1D : public UnaryFunction1D<double> { Functions0D::ZDiscontinuityF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -396,18 +396,18 @@ class ZDiscontinuityF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "ZDiscontinuityF1D" */ + /** Returns the string "ZDiscontinuityF1D" */ string getName() const { return "ZDiscontinuityF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // QuantitativeInvisibilityF1D -/*! Returns the Quantitative Invisibility of an Interface1D element. +/** Returns the Quantitative Invisibility of an Interface1D element. * If the Interface1D is a ViewEdge, then there is no ambiguity concerning the result. But, if the * Interface1D results of a chaining (chain, stroke), then it might be made of several 1D elements * of different Quantitative Invisibilities. @@ -417,7 +417,7 @@ class QuantitativeInvisibilityF1D : public UnaryFunction1D<unsigned> { Functions0D::QuantitativeInvisibilityF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -425,18 +425,18 @@ class QuantitativeInvisibilityF1D : public UnaryFunction1D<unsigned> { { } - /*! Returns the string "QuantitativeInvisibilityF1D" */ + /** Returns the string "QuantitativeInvisibilityF1D" */ string getName() const { return "QuantitativeInvisibilityF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // CurveNatureF1D -/*! Returns the nature of the Interface1D (silhouette, ridge, crease...). +/** Returns the nature of the Interface1D (silhouette, ridge, crease...). * Except if the Interface1D is a ViewEdge, this result might be ambiguous. * Indeed, the Interface1D might result from the gathering of several 1D elements, each one being * of a different nature. An integration method, such as the MEAN, might give, in this case, @@ -447,7 +447,7 @@ class CurveNatureF1D : public UnaryFunction1D<Nature::EdgeNature> { Functions0D::CurveNatureF0D _func; public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -455,63 +455,63 @@ class CurveNatureF1D : public UnaryFunction1D<Nature::EdgeNature> { { } - /*! Returns the string "CurveNatureF1D" */ + /** Returns the string "CurveNatureF1D" */ string getName() const { return "CurveNatureF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // TimeStampF1D -/*! Returns the time stamp of the Interface1D. */ +/** Returns the time stamp of the Interface1D. */ class TimeStampF1D : public UnaryFunction1D_void { public: - /*! Returns the string "TimeStampF1D" */ + /** Returns the string "TimeStampF1D" */ string getName() const { return "TimeStampF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // IncrementChainingTimeStampF1D -/*! Increments the chaining time stamp of the Interface1D. */ +/** Increments the chaining time stamp of the Interface1D. */ class IncrementChainingTimeStampF1D : public UnaryFunction1D_void { public: - /*! Returns the string "IncrementChainingTimeStampF1D" */ + /** Returns the string "IncrementChainingTimeStampF1D" */ string getName() const { return "IncrementChainingTimeStampF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // ChainingTimeStampF1D -/*! Sets the chaining time stamp of the Interface1D. */ +/** Sets the chaining time stamp of the Interface1D. */ class ChainingTimeStampF1D : public UnaryFunction1D_void { public: - /*! Returns the string "ChainingTimeStampF1D" */ + /** Returns the string "ChainingTimeStampF1D" */ string getName() const { return "ChainingTimeStampF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // Curvature2DAngleF1D -/*! Returns the 2D curvature as an angle for an Interface1D. */ +/** Returns the 2D curvature as an angle for an Interface1D. */ class Curvature2DAngleF1D : public UnaryFunction1D<double> { public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -519,13 +519,13 @@ class Curvature2DAngleF1D : public UnaryFunction1D<double> { { } - /*! Returns the string "Curvature2DAngleF1D" */ + /** Returns the string "Curvature2DAngleF1D" */ string getName() const { return "Curvature2DAngleF1D"; } - /*! the () operator.*/ + /** the () operator.*/ int operator()(Interface1D &inter) { result = integrate(_fun, inter.verticesBegin(), inter.verticesEnd(), _integration); @@ -537,10 +537,10 @@ class Curvature2DAngleF1D : public UnaryFunction1D<double> { }; // Normal2DF1D -/*! Returns the 2D normal for an interface 1D. */ +/** Returns the 2D normal for an interface 1D. */ class Normal2DF1D : public UnaryFunction1D<Vec2f> { public: - /*! Builds the functor. + /** Builds the functor. * \param iType: * The integration method used to compute a single value from a set of values. */ @@ -548,13 +548,13 @@ class Normal2DF1D : public UnaryFunction1D<Vec2f> { { } - /*! Returns the string "Normal2DF1D" */ + /** Returns the string "Normal2DF1D" */ string getName() const { return "Normal2DF1D"; } - /*! the () operator.*/ + /** the () operator.*/ int operator()(Interface1D &inter) { result = integrate(_fun, inter.verticesBegin(), inter.verticesEnd(), _integration); @@ -566,59 +566,59 @@ class Normal2DF1D : public UnaryFunction1D<Vec2f> { }; // GetShapeF1D -/*! Returns list of shapes covered by this Interface1D. */ +/** Returns list of shapes covered by this Interface1D. */ class GetShapeF1D : public UnaryFunction1D<std::vector<ViewShape *>> { public: - /*! Builds the functor. */ + /** Builds the functor. */ GetShapeF1D() : UnaryFunction1D<std::vector<ViewShape *>>() { } - /*! Returns the string "GetShapeF1D" */ + /** Returns the string "GetShapeF1D" */ string getName() const { return "GetShapeF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetOccludersF1D -/*! Returns list of occluding shapes covered by this Interface1D. */ +/** Returns list of occluding shapes covered by this Interface1D. */ class GetOccludersF1D : public UnaryFunction1D<std::vector<ViewShape *>> { public: - /*! Builds the functor. */ + /** Builds the functor. */ GetOccludersF1D() : UnaryFunction1D<std::vector<ViewShape *>>() { } - /*! Returns the string "GetOccludersF1D" */ + /** Returns the string "GetOccludersF1D" */ string getName() const { return "GetOccludersF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; // GetOccludeeF1D -/*! Returns list of occluded shapes covered by this Interface1D. */ +/** Returns list of occluded shapes covered by this Interface1D. */ class GetOccludeeF1D : public UnaryFunction1D<std::vector<ViewShape *>> { public: - /*! Builds the functor. */ + /** Builds the functor. */ GetOccludeeF1D() : UnaryFunction1D<std::vector<ViewShape *>>() { } - /*! Returns the string "GetOccludeeF1D" */ + /** Returns the string "GetOccludeeF1D" */ string getName() const { return "GetOccludeeF1D"; } - /*! the () operator. */ + /** the () operator. */ int operator()(Interface1D &inter); }; diff --git a/source/blender/freestyle/intern/view_map/Interface0D.h b/source/blender/freestyle/intern/view_map/Interface0D.h index 6b4682cc862..065319578e5 100644 --- a/source/blender/freestyle/intern/view_map/Interface0D.h +++ b/source/blender/freestyle/intern/view_map/Interface0D.h @@ -51,18 +51,18 @@ class ViewVertex; class NonTVertex; class TVertex; -/*! Base class for any 0D element. */ +/** Base class for any 0D element. */ class Interface0D { public: - /*! Default constructor */ + /** Default constructor */ Interface0D() { } - /*! Destructor */ + /** Destructor */ virtual ~Interface0D(){}; - /*! Returns the string "Interface0D". */ + /** Returns the string "Interface0D". */ virtual string getExactTypeName() const { return "Interface0D"; @@ -70,50 +70,50 @@ class Interface0D { // Data access methods - /*! Returns the 3D x coordinate of the point. */ + /** Returns the 3D x coordinate of the point. */ virtual real getX() const; - /*! Returns the 3D y coordinate of the point. */ + /** Returns the 3D y coordinate of the point. */ virtual real getY() const; - /*! Returns the 3D z coordinate of the point. */ + /** Returns the 3D z coordinate of the point. */ virtual real getZ() const; - /*! Returns the 3D point. */ + /** Returns the 3D point. */ virtual Geometry::Vec3r getPoint3D() const; - /*! Returns the 2D x coordinate of the point. */ + /** Returns the 2D x coordinate of the point. */ virtual real getProjectedX() const; - /*! Returns the 2D y coordinate of the point. */ + /** Returns the 2D y coordinate of the point. */ virtual real getProjectedY() const; - /*! Returns the 2D z coordinate of the point. */ + /** Returns the 2D z coordinate of the point. */ virtual real getProjectedZ() const; - /*! Returns the 2D point. */ + /** Returns the 2D point. */ virtual Geometry::Vec2r getPoint2D() const; - /*! Returns the FEdge that lies between this Interface0D and the Interface0D given as argument. + /** Returns the FEdge that lies between this Interface0D and the Interface0D given as argument. */ virtual FEdge *getFEdge(Interface0D &); - /*! Returns the Id of the point. */ + /** Returns the Id of the point. */ virtual Id getId() const; - /*! Returns the nature of the point. */ + /** Returns the nature of the point. */ virtual Nature::VertexNature getNature() const; - /*! Cast the Interface0D in SVertex if it can be. */ + /** Cast the Interface0D in SVertex if it can be. */ virtual SVertex *castToSVertex(); - /*! Cast the Interface0D in ViewVertex if it can be. */ + /** Cast the Interface0D in ViewVertex if it can be. */ virtual ViewVertex *castToViewVertex(); - /*! Cast the Interface0D in NonTVertex if it can be. */ + /** Cast the Interface0D in NonTVertex if it can be. */ virtual NonTVertex *castToNonTVertex(); - /*! Cast the Interface0D in TVertex if it can be. */ + /** Cast the Interface0D in TVertex if it can be. */ virtual TVertex *castToTVertex(); #ifdef WITH_CXX_GUARDEDALLOC @@ -159,10 +159,10 @@ class Interface0DIteratorNested : public Iterator { return !(*this == it); } - /*! Returns the curvilinear abscissa */ + /** Returns the curvilinear abscissa */ virtual float t() const = 0; - /*! Returns the point parameter 0<u<1 */ + /** Returns the point parameter 0<u<1 */ virtual float u() const = 0; virtual Interface0DIteratorNested *copy() const = 0; @@ -173,7 +173,7 @@ class Interface0DIteratorNested : public Iterator { // ////////////////////////////////////////////////// -/*! Class defining an iterator over Interface0D elements. +/** Class defining an iterator over Interface0D elements. * An instance of this iterator is always obtained from a 1D element. * \attention In the scripting language, you must call \code it2 = Interface0DIterator(it1) * \endcode instead of \code it2 = it1 \endcode where \a it1 and \a it2 are 2 Interface0DIterator. @@ -186,13 +186,13 @@ class Interface0DIterator : public Iterator { _iterator = it; } - /*! Copy constructor */ + /** Copy constructor */ Interface0DIterator(const Interface0DIterator &it) { _iterator = it._iterator->copy(); } - /*! Destructor */ + /** Destructor */ virtual ~Interface0DIterator() { if (_iterator) { @@ -200,7 +200,7 @@ class Interface0DIterator : public Iterator { } } - /*! Operator = + /** Operator = * \attention In the scripting language, you must call \code it2 = Interface0DIterator(it1) * \endcode instead of \code it2 = it1 \endcode where \a it1 and \a it2 are 2 * Interface0DIterator. Otherwise, incrementing \a it1 will also increment \a it2. @@ -214,7 +214,7 @@ class Interface0DIterator : public Iterator { return *this; } - /*! Returns the string "Interface0DIterator". */ + /** Returns the string "Interface0DIterator". */ virtual string getExactTypeName() const { if (!_iterator) { @@ -225,7 +225,7 @@ class Interface0DIterator : public Iterator { // FIXME test it != 0 (exceptions ?) - /*! Returns a reference to the pointed Interface0D. + /** Returns a reference to the pointed Interface0D. * In the scripting language, you must call "getObject()" instead using this operator. */ Interface0D &operator*() @@ -233,7 +233,7 @@ class Interface0DIterator : public Iterator { return _iterator->operator*(); } - /*! Returns a pointer to the pointed Interface0D. + /** Returns a pointer to the pointed Interface0D. * Can't be called in the scripting language. */ Interface0D *operator->() @@ -241,14 +241,14 @@ class Interface0DIterator : public Iterator { return &(operator*()); } - /*! Increments. In the scripting language, call "increment()". */ + /** Increments. In the scripting language, call "increment()". */ Interface0DIterator &operator++() { _iterator->increment(); return *this; } - /*! Increments. In the scripting language, call "increment()". */ + /** Increments. In the scripting language, call "increment()". */ Interface0DIterator operator++(int) { Interface0DIterator ret(*this); @@ -256,14 +256,14 @@ class Interface0DIterator : public Iterator { return ret; } - /*! Decrements. In the scripting language, call "decrement()". */ + /** Decrements. In the scripting language, call "decrement()". */ Interface0DIterator &operator--() { _iterator->decrement(); return *this; } - /*! Decrements. In the scripting language, call "decrement()". */ + /** Decrements. In the scripting language, call "decrement()". */ Interface0DIterator operator--(int) { Interface0DIterator ret(*this); @@ -271,19 +271,19 @@ class Interface0DIterator : public Iterator { return ret; } - /*! Increments. */ + /** Increments. */ virtual int increment() { return _iterator->increment(); } - /*! Decrements. */ + /** Decrements. */ virtual int decrement() { return _iterator->decrement(); } - /*! Returns true if the pointed Interface0D is the first of the 1D element containing the points + /** Returns true if the pointed Interface0D is the first of the 1D element containing the points * over which we're iterating. */ virtual bool isBegin() const @@ -291,14 +291,14 @@ class Interface0DIterator : public Iterator { return _iterator->isBegin(); } - /*! Returns true if the pointed Interface0D is after the after the last point of the 1D element + /** Returns true if the pointed Interface0D is after the after the last point of the 1D element * we're iterating from. */ virtual bool isEnd() const { return _iterator->isEnd(); } - /*! Returns true when the iterator is pointing to the final valid element. */ + /** Returns true when the iterator is pointing to the final valid element. */ virtual bool atLast() const { if (_iterator->isEnd()) { @@ -311,25 +311,25 @@ class Interface0DIterator : public Iterator { return result; } - /*! operator == . */ + /** operator == . */ bool operator==(const Interface0DIterator &it) const { return _iterator->operator==(*(it._iterator)); } - /*! operator != . */ + /** operator != . */ bool operator!=(const Interface0DIterator &it) const { return !(*this == it); } - /*! Returns the curvilinear abscissa. */ + /** Returns the curvilinear abscissa. */ inline float t() const { return _iterator->t(); } - /*! Returns the point parameter in the curve 0<=u<=1. */ + /** Returns the point parameter in the curve 0<=u<=1. */ inline float u() const { return _iterator->u(); diff --git a/source/blender/freestyle/intern/view_map/Interface1D.h b/source/blender/freestyle/intern/view_map/Interface1D.h index 778deb20a60..8d1879af31b 100644 --- a/source/blender/freestyle/intern/view_map/Interface1D.h +++ b/source/blender/freestyle/intern/view_map/Interface1D.h @@ -41,23 +41,23 @@ using namespace std; namespace Freestyle { // Integration method -/*! The different integration methods that can be invoked to integrate into a single value the set +/** The different integration methods that can be invoked to integrate into a single value the set * of values obtained from each 0D element of a 1D element. */ typedef enum { - MEAN, /*!< The value computed for the 1D element is the mean of the values obtained for the 0D + MEAN, /**< The value computed for the 1D element is the mean of the values obtained for the 0D elements.*/ - MIN, /*!< The value computed for the 1D element is the minimum of the values obtained for the 0D + MIN, /**< The value computed for the 1D element is the minimum of the values obtained for the 0D elements.*/ - MAX, /*!< The value computed for the 1D element is the maximum of the values obtained for the 0D + MAX, /**< The value computed for the 1D element is the maximum of the values obtained for the 0D elements.*/ - FIRST, /*!< The value computed for the 1D element is the first of the values obtained for the 0D + FIRST, /**< The value computed for the 1D element is the first of the values obtained for the 0D elements.*/ - LAST, /*!< The value computed for the 1D element is the last of the values obtained for the 0D + LAST, /**< The value computed for the 1D element is the last of the values obtained for the 0D elements.*/ } IntegrationType; -/*! Returns a single value from a set of values evaluated at each 0D element of this 1D element. +/** Returns a single value from a set of values evaluated at each 0D element of this 1D element. * \param fun: * The UnaryFunction0D used to compute a value at each Interface0D. * \param it: @@ -127,19 +127,19 @@ T integrate(UnaryFunction0D<T> &fun, // ////////////////////////////////////////////////// -/*! Base class for any 1D element. */ +/** Base class for any 1D element. */ class Interface1D { public: - /*! Default constructor */ + /** Default constructor */ Interface1D() { _timeStamp = 0; } - /*! Destructor */ + /** Destructor */ virtual ~Interface1D(){}; - /*! Returns the string "Interface1D". */ + /** Returns the string "Interface1D". */ virtual string getExactTypeName() const { return "Interface1D"; @@ -147,13 +147,13 @@ class Interface1D { // Iterator access - /*! Returns an iterator over the Interface1D vertices, pointing to the first vertex. */ + /** Returns an iterator over the Interface1D vertices, pointing to the first vertex. */ virtual Interface0DIterator verticesBegin(); - /*! Returns an iterator over the Interface1D vertices, pointing after the last vertex. */ + /** Returns an iterator over the Interface1D vertices, pointing after the last vertex. */ virtual Interface0DIterator verticesEnd(); - /*! Returns an iterator over the Interface1D points, pointing to the first point. The difference + /** Returns an iterator over the Interface1D points, pointing to the first point. The difference * with verticesBegin() is that here we can iterate over points of the 1D element at a any given * sampling. Indeed, for each iteration, a virtual point is created. * @@ -161,7 +161,7 @@ class Interface1D { */ virtual Interface0DIterator pointsBegin(float t = 0.0f); - /*! Returns an iterator over the Interface1D points, pointing after the last point. The + /** Returns an iterator over the Interface1D points, pointing after the last point. The * difference with verticesEnd() is that here we can iterate over points of the 1D element at a * any given sampling. Indeed, for each iteration, a virtual point is created. * @@ -171,23 +171,23 @@ class Interface1D { // Data access methods - /*! Returns the 2D length of the 1D element. */ + /** Returns the 2D length of the 1D element. */ virtual real getLength2D() const; - /*! Returns the Id of the 1D element. */ + /** Returns the Id of the 1D element. */ virtual Id getId() const; // FIXME: ce truc n'a rien a faire la...(c une requete complexe qui doit etre ds les Function1D) - /*! Returns the nature of the 1D element. */ + /** Returns the nature of the 1D element. */ virtual Nature::EdgeNature getNature() const; - /*! Returns the time stamp of the 1D element. Mainly used for selection. */ + /** Returns the time stamp of the 1D element. Mainly used for selection. */ virtual unsigned getTimeStamp() const { return _timeStamp; } - /*! Sets the time stamp for the 1D element. */ + /** Sets the time stamp for the 1D element. */ inline void setTimeStamp(unsigned iTimeStamp) { _timeStamp = iTimeStamp; diff --git a/source/blender/freestyle/intern/view_map/Silhouette.h b/source/blender/freestyle/intern/view_map/Silhouette.h index 28cd140185c..10544f5e883 100644 --- a/source/blender/freestyle/intern/view_map/Silhouette.h +++ b/source/blender/freestyle/intern/view_map/Silhouette.h @@ -66,86 +66,86 @@ class FEdge; class ViewVertex; class SShape; -/*! Class to define a vertex of the embedding. */ +/** Class to define a vertex of the embedding. */ class SVertex : public Interface0D { public: // Implementation of Interface0D - /*! Returns the string "SVertex". */ + /** Returns the string "SVertex". */ virtual string getExactTypeName() const { return "SVertex"; } // Data access methods - /*! Returns the 3D x coordinate of the vertex. */ + /** Returns the 3D x coordinate of the vertex. */ virtual real getX() const { return _Point3D.x(); } - /*! Returns the 3D y coordinate of the vertex. */ + /** Returns the 3D y coordinate of the vertex. */ virtual real getY() const { return _Point3D.y(); } - /*! Returns the 3D z coordinate of the vertex. */ + /** Returns the 3D z coordinate of the vertex. */ virtual real getZ() const { return _Point3D.z(); } - /*! Returns the 3D point. */ + /** Returns the 3D point. */ virtual Vec3r getPoint3D() const { return _Point3D; } - /*! Returns the projected 3D x coordinate of the vertex. */ + /** Returns the projected 3D x coordinate of the vertex. */ virtual real getProjectedX() const { return _Point2D.x(); } - /*! Returns the projected 3D y coordinate of the vertex. */ + /** Returns the projected 3D y coordinate of the vertex. */ virtual real getProjectedY() const { return _Point2D.y(); } - /*! Returns the projected 3D z coordinate of the vertex. */ + /** Returns the projected 3D z coordinate of the vertex. */ virtual real getProjectedZ() const { return _Point2D.z(); } - /*! Returns the 2D point. */ + /** Returns the 2D point. */ virtual Vec2r getPoint2D() const { return Vec2r(_Point2D.x(), _Point2D.y()); } - /*! Returns the FEdge that lies between this Svertex and the Interface0D given as argument. */ + /** Returns the FEdge that lies between this Svertex and the Interface0D given as argument. */ virtual FEdge *getFEdge(Interface0D &); - /*! Returns the Id of the vertex. */ + /** Returns the Id of the vertex. */ virtual Id getId() const { return _Id; } - /*! Returns the nature of the vertex. */ + /** Returns the nature of the vertex. */ virtual Nature::VertexNature getNature() const; - /*! Cast the Interface0D in SVertex if it can be. */ + /** Cast the Interface0D in SVertex if it can be. */ virtual SVertex *castToSVertex(); - /*! Cast the Interface0D in ViewVertex if it can be. */ + /** Cast the Interface0D in ViewVertex if it can be. */ virtual ViewVertex *castToViewVertex(); - /*! Cast the Interface0D in NonTVertex if it can be. */ + /** Cast the Interface0D in NonTVertex if it can be. */ virtual NonTVertex *castToNonTVertex(); - /*! Cast the Interface0D in TVertex if it can be. */ + /** Cast the Interface0D in TVertex if it can be. */ virtual TVertex *castToTVertex(); public: @@ -166,12 +166,12 @@ class SVertex : public Interface0D { CurvatureInfo *_curvature_info; public: - /*! A field that can be used by the user to store any data. + /** A field that can be used by the user to store any data. * This field must be reset afterwards using ResetUserData(). */ void *userdata; - /*! Default constructor.*/ + /** Default constructor.*/ inline SVertex() { _Id = 0; @@ -181,7 +181,7 @@ class SVertex : public Interface0D { _curvature_info = 0; } - /*! Builds a SVertex from 3D coordinates and an Id. */ + /** Builds a SVertex from 3D coordinates and an Id. */ inline SVertex(const Vec3r &iPoint3D, const Id &id) { _Point3D = iPoint3D; @@ -192,7 +192,7 @@ class SVertex : public Interface0D { _curvature_info = 0; } - /*! Copy constructor. */ + /** Copy constructor. */ inline SVertex(SVertex &iBrother) { _Id = iBrother._Id; @@ -212,7 +212,7 @@ class SVertex : public Interface0D { userdata = 0; } - /*! Destructor. */ + /** Destructor. */ virtual ~SVertex() { if (_curvature_info) { @@ -220,14 +220,14 @@ class SVertex : public Interface0D { } } - /*! Cloning method. */ + /** Cloning method. */ virtual SVertex *duplicate() { SVertex *clone = new SVertex(*this); return clone; } - /*! operator == */ + /** operator == */ virtual bool operator==(const SVertex &iBrother) { return ((_Point2D == iBrother._Point2D) && (_Point3D == iBrother._Point3D)); @@ -244,7 +244,7 @@ class SVertex : public Interface0D { return _Point2D; } - /*! Returns the set of normals for this Vertex. + /** Returns the set of normals for this Vertex. * In a smooth surface, a vertex has exactly one normal. * In a sharp surface, a vertex can have any number of normals. */ @@ -253,7 +253,7 @@ class SVertex : public Interface0D { return _Normals; } - /*! Returns the number of different normals for this vertex. */ + /** Returns the number of different normals for this vertex. */ inline unsigned normalsSize() const { return _Normals.size(); @@ -284,7 +284,7 @@ class SVertex : public Interface0D { return _Point2D[2]; } - /*! If this SVertex is also a ViewVertex, this method returns a pointer onto this ViewVertex. + /** If this SVertex is also a ViewVertex, this method returns a pointer onto this ViewVertex. * 0 is returned otherwise. */ inline ViewVertex *viewvertex() @@ -292,20 +292,20 @@ class SVertex : public Interface0D { return _pViewVertex; } - /*! modifiers */ - /*! Sets the 3D coordinates of the SVertex. */ + /** modifiers */ + /** Sets the 3D coordinates of the SVertex. */ inline void setPoint3D(const Vec3r &iPoint3D) { _Point3D = iPoint3D; } - /*! Sets the 3D projected coordinates of the SVertex. */ + /** Sets the 3D projected coordinates of the SVertex. */ inline void setPoint2D(const Vec3r &iPoint2D) { _Point2D = iPoint2D; } - /*! Adds a normal to the Svertex's set of normals. If the same normal is already in the set, + /** Adds a normal to the Svertex's set of normals. If the same normal is already in the set, * nothing changes. */ inline void AddNormal(const Vec3r &iNormal) { @@ -348,7 +348,7 @@ class SVertex : public Interface0D { } #endif - /*! Sets the Id */ + /** Sets the Id */ inline void setId(const Id &id) { _Id = id; @@ -369,13 +369,13 @@ class SVertex : public Interface0D { _pViewVertex = iViewVertex; } - /*! Add an FEdge to the list of edges emanating from this SVertex. */ + /** Add an FEdge to the list of edges emanating from this SVertex. */ inline void AddFEdge(FEdge *iFEdge) { _FEdges.push_back(iFEdge); } - /*! Remove an FEdge from the list of edges emanating from this SVertex. */ + /** Remove an FEdge from the list of edges emanating from this SVertex. */ inline void RemoveFEdge(FEdge *iFEdge) { for (vector<FEdge *>::iterator fe = _FEdges.begin(), fend = _FEdges.end(); fe != fend; fe++) { @@ -447,7 +447,7 @@ class SVertex : public Interface0D { inline Vec3r orientation2d() const; inline Vec3r orientation3d() const; inline Vec3r curvature2d_as_vector() const; - /*! angle in radians */ + /** angle in radians */ inline real curvature2d_as_angle() const; #endif @@ -466,7 +466,7 @@ class SVertex : public Interface0D { class ViewEdge; -/*! Base Class for feature edges. +/** Base Class for feature edges. * This FEdge can represent a silhouette, a crease, a ridge/valley, a border or a suggestive * contour. For silhouettes, the FEdge is oriented such as, the visible face lies on the left of * the edge. For borders, the FEdge is oriented such as, the face lies on the left of the edge. An @@ -476,7 +476,7 @@ class ViewEdge; */ class FEdge : public Interface1D { public: // Implementation of Interface0D - /*! Returns the string "FEdge". */ + /** Returns the string "FEdge". */ virtual string getExactTypeName() const { return "FEdge"; @@ -484,7 +484,7 @@ class FEdge : public Interface1D { // Data access methods - /*! Returns the 2D length of the FEdge. */ + /** Returns the 2D length of the FEdge. */ virtual real getLength2D() const { if (!_VertexA || !_VertexB) { @@ -493,7 +493,7 @@ class FEdge : public Interface1D { return (_VertexB->getPoint2D() - _VertexA->getPoint2D()).norm(); } - /*! Returns the Id of the FEdge. */ + /** Returns the Id of the FEdge. */ virtual Id getId() const { return _Id; @@ -533,12 +533,12 @@ class FEdge : public Interface1D { bool _isTemporary; public: - /*! A field that can be used by the user to store any data. + /** A field that can be used by the user to store any data. * This field must be reset afterwards using ResetUserData(). */ void *userdata; - /*! Default constructor */ + /** Default constructor */ inline FEdge() { userdata = NULL; @@ -555,7 +555,7 @@ class FEdge : public Interface1D { _isTemporary = false; } - /*! Builds an FEdge going from vA to vB. */ + /** Builds an FEdge going from vA to vB. */ inline FEdge(SVertex *vA, SVertex *vB) { userdata = NULL; @@ -572,7 +572,7 @@ class FEdge : public Interface1D { _isTemporary = false; } - /*! Copy constructor */ + /** Copy constructor */ inline FEdge(FEdge &iBrother) { _VertexA = iBrother.vertexA(); @@ -594,12 +594,12 @@ class FEdge : public Interface1D { userdata = 0; } - /*! Destructor */ + /** Destructor */ virtual ~FEdge() { } - /*! Cloning method. */ + /** Cloning method. */ virtual FEdge *duplicate() { FEdge *clone = new FEdge(*this); @@ -607,31 +607,31 @@ class FEdge : public Interface1D { } /* accessors */ - /*! Returns the first SVertex. */ + /** Returns the first SVertex. */ inline SVertex *vertexA() { return _VertexA; } - /*! Returns the second SVertex. */ + /** Returns the second SVertex. */ inline SVertex *vertexB() { return _VertexB; } - /*! Returns the first SVertex if i=0, the second SVertex if i=1. */ + /** Returns the first SVertex if i=0, the second SVertex if i=1. */ inline SVertex *operator[](const unsigned short int &i) const { return (i % 2 == 0) ? _VertexA : _VertexB; } - /*! Returns the nature of the FEdge. */ + /** Returns the nature of the FEdge. */ inline Nature::EdgeNature getNature() const { return _Nature; } - /*! Returns the FEdge following this one in the ViewEdge. + /** Returns the FEdge following this one in the ViewEdge. * If this FEdge is the last of the ViewEdge, 0 is returned. */ inline FEdge *nextEdge() @@ -639,7 +639,7 @@ class FEdge : public Interface1D { return _NextEdge; } - /*! Returns the Edge preceding this one in the ViewEdge. + /** Returns the Edge preceding this one in the ViewEdge. * If this FEdge is the first one of the ViewEdge, 0 is returned. */ inline FEdge *previousEdge() @@ -668,7 +668,7 @@ class FEdge : public Interface1D { } #endif - /*! Returns a pointer to the ViewEdge to which this FEdge belongs to. */ + /** Returns a pointer to the ViewEdge to which this FEdge belongs to. */ inline ViewEdge *viewedge() const { return _ViewEdge; @@ -716,7 +716,7 @@ class FEdge : public Interface1D { return _occludeeEmpty; } - /*! Returns true if this FEdge is a smooth FEdge. */ + /** Returns true if this FEdge is a smooth FEdge. */ inline bool isSmooth() const { return _isSmooth; @@ -733,37 +733,37 @@ class FEdge : public Interface1D { } /* modifiers */ - /*! Sets the first SVertex. */ + /** Sets the first SVertex. */ inline void setVertexA(SVertex *vA) { _VertexA = vA; } - /*! Sets the second SVertex. */ + /** Sets the second SVertex. */ inline void setVertexB(SVertex *vB) { _VertexB = vB; } - /*! Sets the FEdge Id . */ + /** Sets the FEdge Id . */ inline void setId(const Id &id) { _Id = id; } - /*! Sets the pointer to the next FEdge. */ + /** Sets the pointer to the next FEdge. */ inline void setNextEdge(FEdge *iEdge) { _NextEdge = iEdge; } - /*! Sets the pointer to the previous FEdge. */ + /** Sets the pointer to the previous FEdge. */ inline void setPreviousEdge(FEdge *iEdge) { _PreviousEdge = iEdge; } - /*! Sets the nature of this FEdge. */ + /** Sets the nature of this FEdge. */ inline void setNature(Nature::EdgeNature iNature) { _Nature = iNature; @@ -776,7 +776,7 @@ class FEdge : public Interface1D { } #endif - /*! Sets the ViewEdge to which this FEdge belongs to. */ + /** Sets the ViewEdge to which this FEdge belongs to. */ inline void setViewEdge(ViewEdge *iViewEdge) { _ViewEdge = iViewEdge; @@ -814,7 +814,7 @@ class FEdge : public Interface1D { _occludeeEmpty = iempty; } - /*! Sets the flag telling whether this FEdge is smooth or sharp. + /** Sets the flag telling whether this FEdge is smooth or sharp. * true for Smooth, false for Sharp. */ inline void setSmooth(bool iFlag) @@ -946,13 +946,13 @@ class FEdge : public Interface1D { #endif // Iterator access (Interface1D) - /*! Returns an iterator over the 2 (!) SVertex pointing to the first SVertex. */ + /** Returns an iterator over the 2 (!) SVertex pointing to the first SVertex. */ virtual inline Interface0DIterator verticesBegin(); - /*! Returns an iterator over the 2 (!) SVertex pointing after the last SVertex. */ + /** Returns an iterator over the 2 (!) SVertex pointing after the last SVertex. */ virtual inline Interface0DIterator verticesEnd(); - /*! Returns an iterator over the FEdge points, pointing to the first point. The difference with + /** Returns an iterator over the FEdge points, pointing to the first point. The difference with * verticesBegin() is that here we can iterate over points of the FEdge at a any given sampling. * Indeed, for each iteration, a virtual point is created. * \param t: @@ -960,7 +960,7 @@ class FEdge : public Interface1D { */ virtual inline Interface0DIterator pointsBegin(float t = 0.0f); - /*! Returns an iterator over the FEdge points, pointing after the last point. The difference with + /** Returns an iterator over the FEdge points, pointing after the last point. The difference with * verticesEnd() is that here we can iterate over points of the FEdge at a any given sampling. * Indeed, for each iteration, a virtual point is created. * \param t: @@ -1138,7 +1138,7 @@ Interface0DIterator FEdge::pointsEnd(float /*t*/) return verticesEnd(); } -/*! Class defining a sharp FEdge. A Sharp FEdge corresponds to an initial edge of the input mesh. +/** Class defining a sharp FEdge. A Sharp FEdge corresponds to an initial edge of the input mesh. * It can be a silhouette, a crease or a border. If it is a crease edge, then it is bordered * by two faces of the mesh. Face a lies on its right whereas Face b lies on its left. * If it is a border edge, then it doesn't have any face on its right, and thus Face a = 0. @@ -1153,27 +1153,27 @@ class FEdgeSharp : public FEdge { bool _bFaceMark; public: - /*! Returns the string "FEdgeSharp" . */ + /** Returns the string "FEdgeSharp" . */ virtual string getExactTypeName() const { return "FEdgeSharp"; } - /*! Default constructor. */ + /** Default constructor. */ inline FEdgeSharp() : FEdge() { _aFrsMaterialIndex = _bFrsMaterialIndex = 0; _aFaceMark = _bFaceMark = false; } - /*! Builds an FEdgeSharp going from vA to vB. */ + /** Builds an FEdgeSharp going from vA to vB. */ inline FEdgeSharp(SVertex *vA, SVertex *vB) : FEdge(vA, vB) { _aFrsMaterialIndex = _bFrsMaterialIndex = 0; _aFaceMark = _bFaceMark = false; } - /*! Copy constructor. */ + /** Copy constructor. */ inline FEdgeSharp(FEdgeSharp &iBrother) : FEdge(iBrother) { _aNormal = iBrother._aNormal; @@ -1184,19 +1184,19 @@ class FEdgeSharp : public FEdge { _bFaceMark = iBrother._bFaceMark; } - /*! Destructor. */ + /** Destructor. */ virtual ~FEdgeSharp() { } - /*! Cloning method. */ + /** Cloning method. */ virtual FEdge *duplicate() { FEdge *clone = new FEdgeSharp(*this); return clone; } - /*! Returns the normal to the face lying on the right of the FEdge. If this FEdge is a border, + /** Returns the normal to the face lying on the right of the FEdge. If this FEdge is a border, * it has no Face on its right and therefore, no normal. */ inline const Vec3r &normalA() @@ -1204,13 +1204,13 @@ class FEdgeSharp : public FEdge { return _aNormal; } - /*! Returns the normal to the face lying on the left of the FEdge. */ + /** Returns the normal to the face lying on the left of the FEdge. */ inline const Vec3r &normalB() { return _bNormal; } - /*! Returns the index of the material of the face lying on the + /** Returns the index of the material of the face lying on the * right of the FEdge. If this FEdge is a border, * it has no Face on its right and therefore, no material. */ @@ -1219,21 +1219,21 @@ class FEdgeSharp : public FEdge { return _aFrsMaterialIndex; } - /*! Returns the material of the face lying on the right of the FEdge. If this FEdge is a border, + /** Returns the material of the face lying on the right of the FEdge. If this FEdge is a border, * it has no Face on its right and therefore, no material. */ const FrsMaterial &aFrsMaterial() const; - /*! Returns the index of the material of the face lying on the left of the FEdge. */ + /** Returns the index of the material of the face lying on the left of the FEdge. */ inline unsigned bFrsMaterialIndex() const { return _bFrsMaterialIndex; } - /*! Returns the material of the face lying on the left of the FEdge. */ + /** Returns the material of the face lying on the left of the FEdge. */ const FrsMaterial &bFrsMaterial() const; - /*! Returns the face mark of the face lying on the right of the FEdge. + /** Returns the face mark of the face lying on the right of the FEdge. * If this FEdge is a border, it has no Face on its right and thus false is returned. */ inline bool aFaceMark() const @@ -1241,43 +1241,43 @@ class FEdgeSharp : public FEdge { return _aFaceMark; } - /*! Returns the face mark of the face lying on the left of the FEdge. */ + /** Returns the face mark of the face lying on the left of the FEdge. */ inline bool bFaceMark() const { return _bFaceMark; } - /*! Sets the normal to the face lying on the right of the FEdge. */ + /** Sets the normal to the face lying on the right of the FEdge. */ inline void setNormalA(const Vec3r &iNormal) { _aNormal = iNormal; } - /*! Sets the normal to the face lying on the left of the FEdge. */ + /** Sets the normal to the face lying on the left of the FEdge. */ inline void setNormalB(const Vec3r &iNormal) { _bNormal = iNormal; } - /*! Sets the index of the material lying on the right of the FEdge.*/ + /** Sets the index of the material lying on the right of the FEdge.*/ inline void setaFrsMaterialIndex(unsigned i) { _aFrsMaterialIndex = i; } - /*! Sets the index of the material lying on the left of the FEdge.*/ + /** Sets the index of the material lying on the left of the FEdge.*/ inline void setbFrsMaterialIndex(unsigned i) { _bFrsMaterialIndex = i; } - /*! Sets the face mark of the face lying on the right of the FEdge. */ + /** Sets the face mark of the face lying on the right of the FEdge. */ inline void setaFaceMark(bool iFaceMark) { _aFaceMark = iFaceMark; } - /*! Sets the face mark of the face lying on the left of the FEdge. */ + /** Sets the face mark of the face lying on the left of the FEdge. */ inline void setbFaceMark(bool iFaceMark) { _bFaceMark = iFaceMark; @@ -1288,7 +1288,7 @@ class FEdgeSharp : public FEdge { #endif }; -/*! Class defining a smooth edge. This kind of edge typically runs across a face of the input mesh. +/** Class defining a smooth edge. This kind of edge typically runs across a face of the input mesh. * It can be a silhouette, a ridge or valley, a suggestive contour. */ class FEdgeSmooth : public FEdge { @@ -1305,13 +1305,13 @@ class FEdgeSmooth : public FEdge { bool _FaceMark; public: - /*! Returns the string "FEdgeSmooth" . */ + /** Returns the string "FEdgeSmooth" . */ virtual string getExactTypeName() const { return "FEdgeSmooth"; } - /*! Default constructor. */ + /** Default constructor. */ inline FEdgeSmooth() : FEdge() { _Face = NULL; @@ -1320,7 +1320,7 @@ class FEdgeSmooth : public FEdge { _isSmooth = true; } - /*! Builds an FEdgeSmooth going from vA to vB. */ + /** Builds an FEdgeSmooth going from vA to vB. */ inline FEdgeSmooth(SVertex *vA, SVertex *vB) : FEdge(vA, vB) { _Face = NULL; @@ -1329,7 +1329,7 @@ class FEdgeSmooth : public FEdge { _isSmooth = true; } - /*! Copy constructor. */ + /** Copy constructor. */ inline FEdgeSmooth(FEdgeSmooth &iBrother) : FEdge(iBrother) { _Normal = iBrother._Normal; @@ -1339,12 +1339,12 @@ class FEdgeSmooth : public FEdge { _isSmooth = true; } - /*! Destructor. */ + /** Destructor. */ virtual ~FEdgeSmooth() { } - /*! Cloning method. */ + /** Cloning method. */ virtual FEdge *duplicate() { FEdge *clone = new FEdgeSmooth(*this); @@ -1356,25 +1356,25 @@ class FEdgeSmooth : public FEdge { return _Face; } - /*! Returns the face mark of the face it is running across. */ + /** Returns the face mark of the face it is running across. */ inline bool faceMark() const { return _FaceMark; } - /*! Returns the normal to the Face it is running across. */ + /** Returns the normal to the Face it is running across. */ inline const Vec3r &normal() { return _Normal; } - /*! Returns the index of the material of the face it is running across. */ + /** Returns the index of the material of the face it is running across. */ inline unsigned frs_materialIndex() const { return _FrsMaterialIndex; } - /*! Returns the material of the face it is running across. */ + /** Returns the material of the face it is running across. */ const FrsMaterial &frs_material() const; inline void setFace(void *iFace) @@ -1382,19 +1382,19 @@ class FEdgeSmooth : public FEdge { _Face = iFace; } - /*! Sets the face mark of the face it is running across. */ + /** Sets the face mark of the face it is running across. */ inline void setFaceMark(bool iFaceMark) { _FaceMark = iFaceMark; } - /*! Sets the normal to the Face it is running across. */ + /** Sets the normal to the Face it is running across. */ inline void setNormal(const Vec3r &iNormal) { _Normal = iNormal; } - /*! Sets the index of the material of the face it is running across. */ + /** Sets the index of the material of the face it is running across. */ inline void setFrsMaterialIndex(unsigned i) { _FrsMaterialIndex = i; @@ -1413,7 +1413,7 @@ class FEdgeSmooth : public FEdge { /* */ /**********************************/ -/*! Class to define a feature shape. It is the gathering of feature elements from an identified +/** Class to define a feature shape. It is the gathering of feature elements from an identified * input shape */ class SShape { private: @@ -1431,12 +1431,12 @@ class SShape { ViewShape *_ViewShape; public: - /*! A field that can be used by the user to store any data. + /** A field that can be used by the user to store any data. * This field must be reset afterwards using ResetUserData(). */ void *userdata; // added by E.T. - /*! Default constructor */ + /** Default constructor */ inline SShape() { userdata = NULL; @@ -1444,7 +1444,7 @@ class SShape { _ViewShape = NULL; } - /*! Copy constructor */ + /** Copy constructor */ inline SShape(SShape &iBrother) { userdata = NULL; @@ -1528,14 +1528,14 @@ class SShape { } } - /*! Cloning method. */ + /** Cloning method. */ virtual SShape *duplicate() { SShape *clone = new SShape(*this); return clone; } - /*! Destructor. */ + /** Destructor. */ virtual inline ~SShape() { vector<SVertex *>::iterator sv, svend; @@ -1561,13 +1561,13 @@ class SShape { } } - /*! Adds a FEdge to the list of FEdges. */ + /** Adds a FEdge to the list of FEdges. */ inline void AddEdge(FEdge *iEdge) { _edgesList.push_back(iEdge); } - /*! Adds a SVertex to the list of SVertex of this Shape. + /** Adds a SVertex to the list of SVertex of this Shape. * The SShape attribute of the SVertex is also set to 'this'. */ inline void AddNewVertex(SVertex *iv) @@ -1589,7 +1589,7 @@ class SShape { return Ia; } - /*! Splits an edge into several edges. + /** Splits an edge into several edges. * The edge's vertices are passed rather than the edge itself. This way, all feature edges * (SILHOUETTE, CREASE, BORDER) are split in the same time. The processed edges are flagged as * done (using the user-data flag).One single new vertex is created whereas several split edges @@ -1773,13 +1773,13 @@ class SShape { return newEdge; } - /*! Sets the Bounding Box of the Shape */ + /** Sets the Bounding Box of the Shape */ inline void setBBox(const BBox<Vec3r> &iBBox) { _BBox = iBBox; } - /*! Compute the bbox of the sshape */ + /** Compute the bbox of the sshape */ inline void ComputeBBox() { if (0 == _verticesList.size()) { @@ -1853,13 +1853,13 @@ class SShape { } /* accessors */ - /*! Returns the list of SVertex of the Shape. */ + /** Returns the list of SVertex of the Shape. */ inline vector<SVertex *> &getVertexList() { return _verticesList; } - /*! Returns the list of FEdges of the Shape. */ + /** Returns the list of FEdges of the Shape. */ inline vector<FEdge *> &getEdgeList() { return _edgesList; @@ -1870,19 +1870,19 @@ class SShape { return _chains; } - /*! Returns the bounding box of the shape. */ + /** Returns the bounding box of the shape. */ inline const BBox<Vec3r> &bbox() { return _BBox; } - /*! Returns the ith material of the shape. */ + /** Returns the ith material of the shape. */ inline const FrsMaterial &frs_material(unsigned i) const { return _FrsMaterials[i]; } - /*! Returns the list of materials of the Shape. */ + /** Returns the list of materials of the Shape. */ inline const vector<FrsMaterial> &frs_materials() const { return _FrsMaterials; @@ -1898,44 +1898,44 @@ class SShape { return _importance; } - /*! Returns the Id of the Shape. */ + /** Returns the Id of the Shape. */ inline Id getId() const { return _Id; } - /*! Returns the name of the Shape. */ + /** Returns the name of the Shape. */ inline const string &getName() const { return _Name; } - /*! Returns the library path of the Shape. */ + /** Returns the library path of the Shape. */ inline const string &getLibraryPath() const { return _LibraryPath; } /* Modififers */ - /*! Sets the Id of the shape.*/ + /** Sets the Id of the shape.*/ inline void setId(Id id) { _Id = id; } - /*! Sets the name of the shape.*/ + /** Sets the name of the shape.*/ inline void setName(const string &name) { _Name = name; } - /*! Sets the library path of the shape.*/ + /** Sets the library path of the shape.*/ inline void setLibraryPath(const string &path) { _LibraryPath = path; } - /*! Sets the list of materials for the shape */ + /** Sets the list of materials for the shape */ inline void setFrsMaterials(const vector<FrsMaterial> &iMaterials) { _FrsMaterials = iMaterials; diff --git a/source/blender/freestyle/intern/view_map/SilhouetteGeomEngine.h b/source/blender/freestyle/intern/view_map/SilhouetteGeomEngine.h index 124ef35e5b9..25b2eacd507 100644 --- a/source/blender/freestyle/intern/view_map/SilhouetteGeomEngine.h +++ b/source/blender/freestyle/intern/view_map/SilhouetteGeomEngine.h @@ -68,7 +68,7 @@ class SilhouetteGeomEngine { static SilhouetteGeomEngine *_pInstance; public: - /*! retrieves an instance on the singleton */ + /** retrieves an instance on the singleton */ static SilhouetteGeomEngine *getInstance() { if (_pInstance == NULL) { @@ -77,13 +77,13 @@ class SilhouetteGeomEngine { return _pInstance; } - /*! Sets the current viewpoint */ + /** Sets the current viewpoint */ static inline void setViewpoint(const Vec3r &ivp) { _Viewpoint = ivp; } - /*! Sets the current transformation + /** Sets the current transformation * iModelViewMatrix * The 4x4 model view matrix, in column major order (openGL like). * iProjection matrix @@ -98,13 +98,13 @@ class SilhouetteGeomEngine { const int iViewport[4], real iFocal); - /*! Sets the current znear and zfar */ + /** Sets the current znear and zfar */ static void setFrustum(real iZNear, real iZFar); /* accessors */ static void retrieveViewport(int viewport[4]); - /*! Projects the silhouette in camera coordinates + /** Projects the silhouette in camera coordinates * This method modifies the ioEdges passed as argument. * ioVertices * The vertices to project. It is modified during the operation. @@ -112,7 +112,7 @@ class SilhouetteGeomEngine { static void ProjectSilhouette(std::vector<SVertex *> &ioVertices); static void ProjectSilhouette(SVertex *ioVertex); - /*! transforms the parameter t defining a 2D intersection for edge fe in order to obtain + /** transforms the parameter t defining a 2D intersection for edge fe in order to obtain * the parameter giving the corresponding 3D intersection. * Returns the 3D parameter * fe @@ -122,10 +122,10 @@ class SilhouetteGeomEngine { */ static real ImageToWorldParameter(FEdge *fe, real t); - /*! From world to image */ + /** From world to image */ static Vec3r WorldToImage(const Vec3r &M); - /*! From camera to image */ + /** From camera to image */ static Vec3r CameraToImage(const Vec3r &M); #ifdef WITH_CXX_GUARDEDALLOC diff --git a/source/blender/freestyle/intern/view_map/SphericalGrid.h b/source/blender/freestyle/intern/view_map/SphericalGrid.h index efa3530cb2a..ae052ff3e12 100644 --- a/source/blender/freestyle/intern/view_map/SphericalGrid.h +++ b/source/blender/freestyle/intern/view_map/SphericalGrid.h @@ -87,7 +87,7 @@ class SphericalGrid { }; public: - /*! Iterator needs to allow the user to avoid full 3D comparison in two cases: + /** Iterator needs to allow the user to avoid full 3D comparison in two cases: * * (1) Where (*current)->deepest < target[2], where the occluder is unambiguously in front of * the target point. diff --git a/source/blender/freestyle/intern/view_map/SteerableViewMap.h b/source/blender/freestyle/intern/view_map/SteerableViewMap.h index e03400dbbc0..d007a08c3fd 100644 --- a/source/blender/freestyle/intern/view_map/SteerableViewMap.h +++ b/source/blender/freestyle/intern/view_map/SteerableViewMap.h @@ -42,7 +42,7 @@ class FEdge; class ImagePyramid; class GrayImage; -/*! This class checks for every FEdge in which steerable it belongs and stores the mapping +/** This class checks for every FEdge in which steerable it belongs and stores the mapping * allowing to retrieve this information from the FEdge Id. */ class SteerableViewMap { @@ -62,31 +62,31 @@ class SteerableViewMap { SteerableViewMap(const SteerableViewMap &iBrother); virtual ~SteerableViewMap(); - /*! Resets everything */ + /** Resets everything */ virtual void Reset(); - /*! Adds a FEdge to steerable VM. + /** Adds a FEdge to steerable VM. * Returns the nbOrientations weights corresponding to the FEdge contributions to the * nbOrientations directional maps. */ double *AddFEdge(FEdge *iFEdge); - /*! Compute the weight of direction dir for orientation iNOrientation */ + /** Compute the weight of direction dir for orientation iNOrientation */ double ComputeWeight(const Vec2d &dir, unsigned iNOrientation); - /*! Returns the number of the SVM to which a direction belongs to. + /** Returns the number of the SVM to which a direction belongs to. * \param dir: * The direction */ unsigned getSVMNumber(Vec2f dir); - /*! Returns the number of the SVM to which a FEdge belongs most. + /** Returns the number of the SVM to which a FEdge belongs most. * \param id: * The First element of the Id struct of the FEdge we're interested in. */ unsigned getSVMNumber(unsigned id); - /*! Builds _nbOrientations+1 pyramids of images from the _nbOrientations+1 base images of the + /** Builds _nbOrientations+1 pyramids of images from the _nbOrientations+1 base images of the * steerable viewmap. * \param steerableBases: * The _nbOrientations+1 images constituting the basis for the steerable pyramid. @@ -105,7 +105,7 @@ class SteerableViewMap { unsigned iNbLevels = 4, float iSigma = 1.0f); - /*! Reads a pixel value in one of the VewMap density steerable pyramids. + /** Reads a pixel value in one of the VewMap density steerable pyramids. * Returns a value between 0 and 1. * \param iOrientation: * the number telling which orientation we need to check. @@ -126,23 +126,23 @@ class SteerableViewMap { */ float readSteerableViewMapPixel(unsigned iOrientation, int iLevel, int x, int y); - /*! Reads a pixel in the one of the level of the pyramid containing the images + /** Reads a pixel in the one of the level of the pyramid containing the images * of the complete ViewMap. * Returns a value between 0 and 1. * Equivalent to : readSteerableViewMapPixel(nbOrientations, x, y) */ float readCompleteViewMapPixel(int iLevel, int x, int y); - /*! Returns the number of levels in the pyramids */ + /** Returns the number of levels in the pyramids */ unsigned int getNumberOfPyramidLevels() const; - /*! Returns the number of orientations */ + /** Returns the number of orientations */ unsigned int getNumberOfOrientations() const { return _nbOrientations; } - /*! for debug purposes */ + /** for debug purposes */ void saveSteerableViewMap() const; protected: diff --git a/source/blender/freestyle/intern/view_map/ViewEdgeXBuilder.h b/source/blender/freestyle/intern/view_map/ViewEdgeXBuilder.h index 6bc9cd2da59..d181348b3da 100644 --- a/source/blender/freestyle/intern/view_map/ViewEdgeXBuilder.h +++ b/source/blender/freestyle/intern/view_map/ViewEdgeXBuilder.h @@ -53,7 +53,7 @@ using namespace Geometry; class SVertex; -/*! Defines a hash table used for searching the SVertex */ +/** Defines a hash table used for searching the SVertex */ struct SVertexHasher { #define _MUL 950706376UL #define _MOD 2147483647UL @@ -81,7 +81,7 @@ typedef map<Vec3r, SVertex *> SVertexMap; class WXFaceLayer; -/*! class to describe an oriented smooth edge */ +/** class to describe an oriented smooth edge */ class OWXFaceLayer { public: WXFaceLayer *fl; @@ -123,7 +123,7 @@ class OWXFaceLayer { class WXEdge; -/*! class to describe an oriented sharp edge */ +/** class to describe an oriented sharp edge */ class OWXEdge { public: WXEdge *e; @@ -190,7 +190,7 @@ class ViewEdgeXBuilder { { } - /*! Builds a view shape from a WXShape in which the feature edges are flagged + /** Builds a view shape from a WXShape in which the feature edges are flagged * Builds chains of feature edges (so ViewEdges) from a WXShape * iWShape * The Winged Edge structure in which all silhouette edges and vertices are flagged. @@ -212,14 +212,14 @@ class ViewEdgeXBuilder { std::vector<FEdge *> &ioFEdges, std::vector<SVertex *> &ioSVertices); - /*! Builds a smooth view edge, starting the face iFace. */ + /** Builds a smooth view edge, starting the face iFace. */ ViewEdge *BuildSmoothViewEdge(const OWXFaceLayer &iFaceLayer); - /*! Makes a sharp viewedge. */ + /** Makes a sharp viewedge. */ ViewEdge *BuildSharpViewEdge(const OWXEdge &iWEdge); public: - /*! accessors */ + /** accessors */ inline int currentViewId() const { return _currentViewId; @@ -235,7 +235,7 @@ class ViewEdgeXBuilder { return _currentSVertexId; } - /*! modifiers */ + /** modifiers */ inline void setCurrentViewId(int id) { _currentViewId = id; @@ -252,18 +252,18 @@ class ViewEdgeXBuilder { } protected: - /*! Init the view edges building */ + /** Init the view edges building */ virtual void Init(ViewShape *oVShape); // SMOOTH // - /*! checks whether a face has already been processed or not */ + /** checks whether a face has already been processed or not */ bool stopSmoothViewEdge(WXFaceLayer *iFaceLayer); OWXFaceLayer FindNextFaceLayer(const OWXFaceLayer &iFaceLayer); OWXFaceLayer FindPreviousFaceLayer(const OWXFaceLayer &iFaceLayer); FEdge *BuildSmoothFEdge(FEdge *feprevious, const OWXFaceLayer &ifl); // SHARP // - /*! checks whether a WEdge has already been processed or not */ + /** checks whether a WEdge has already been processed or not */ bool stopSharpViewEdge(WXEdge *iEdge); int retrieveFaceMarks(WXEdge *iEdge); OWXEdge FindNextWEdge(const OWXEdge &iEdge); @@ -271,11 +271,11 @@ class ViewEdgeXBuilder { FEdge *BuildSharpFEdge(FEdge *feprevious, const OWXEdge &iwe); // GENERAL // - /*! Instantiate a SVertex */ + /** Instantiate a SVertex */ SVertex *MakeSVertex(Vec3r &iPoint); - /*! Instantiate a SVertex if it hasn't been already created */ + /** Instantiate a SVertex if it hasn't been already created */ SVertex *MakeSVertex(Vec3r &iPoint, bool shared); - /*! instantiate a ViewVertex from a SVertex, if it doesn't exist yet */ + /** instantiate a ViewVertex from a SVertex, if it doesn't exist yet */ ViewVertex *MakeViewVertex(SVertex *iSVertex); // oldtmp values diff --git a/source/blender/freestyle/intern/view_map/ViewMap.cpp b/source/blender/freestyle/intern/view_map/ViewMap.cpp index 13ee2851c6c..f1b00724793 100644 --- a/source/blender/freestyle/intern/view_map/ViewMap.cpp +++ b/source/blender/freestyle/intern/view_map/ViewMap.cpp @@ -432,7 +432,7 @@ void TVertex::Replace(ViewEdge *iOld, ViewEdge *iNew) } } -/*! iterators access */ +/** iterators access */ ViewVertex::edge_iterator TVertex::edges_begin() { // return edge_iterator(_FrontEdgeA, _FrontEdgeB, _BackEdgeA, _BackEdgeB, _FrontEdgeA); @@ -584,7 +584,7 @@ void NonTVertex::AddIncomingViewEdge(ViewEdge *iVEdge) } } -/*! iterators access */ +/** iterators access */ ViewVertex::edge_iterator NonTVertex::edges_begin() { return edge_iterator(_ViewEdges.begin(), _ViewEdges.end(), _ViewEdges.begin()); diff --git a/source/blender/freestyle/intern/view_map/ViewMap.h b/source/blender/freestyle/intern/view_map/ViewMap.h index a6427f42b85..a3ef5eed6d8 100644 --- a/source/blender/freestyle/intern/view_map/ViewMap.h +++ b/source/blender/freestyle/intern/view_map/ViewMap.h @@ -56,7 +56,7 @@ class ViewEdge; class ViewShape; class TVertex; -/*! Class defining the ViewMap.*/ +/** Class defining the ViewMap.*/ class ViewMap { public: typedef vector<ViewEdge *> viewedges_container; @@ -79,29 +79,29 @@ class ViewMap { id_to_index_map _shapeIdToIndex; public: - /*! A field that can be used by the user to store any data. + /** A field that can be used by the user to store any data. * This field must be reset afterwards using ResetUserData(). */ void *userdata; - /*! Default constructor. */ + /** Default constructor. */ ViewMap() { _pInstance = this; userdata = NULL; } - /*! Destructor. */ + /** Destructor. */ virtual ~ViewMap(); - /*! Gets the viewedge the nearest to the 2D position specified as argument */ + /** Gets the viewedge the nearest to the 2D position specified as argument */ const ViewEdge *getClosestViewEdge(real x, real y) const; - /*! Gets the Fedge the nearest to the 2D position specified as argument */ + /** Gets the Fedge the nearest to the 2D position specified as argument */ const FEdge *getClosestFEdge(real x, real y) const; /* accessors */ - /*! The ViewMap is a singleton class. This static method returns the instance of the ViewMap. */ + /** The ViewMap is a singleton class. This static method returns the instance of the ViewMap. */ static inline ViewMap *getInstance() { return _pInstance; @@ -160,7 +160,7 @@ class ViewMap { return _shapeIdToIndex; } - /*! Returns the scene 3D bounding box. */ + /** Returns the scene 3D bounding box. */ inline BBox<Vec3r> getScene3dBBox() const { return _scene3DBBox; @@ -189,7 +189,7 @@ class ViewMap { _SVertices.push_back(iSVertex); } - /*! Sets the scene 3D bounding box. */ + /** Sets the scene 3D bounding box. */ inline void setScene3dBBox(const BBox<Vec3r> &bbox) { _scene3DBBox = bbox; @@ -259,7 +259,7 @@ class orientedViewEdgeIterator; } // namespace ViewVertexInternal -/*! Class to define a view vertex. +/** Class to define a view vertex. * A view vertex is a feature vertex corresponding to a point of the image graph, where the * characteristics of an edge might change (nature, visibility, ...). A ViewVertex can be of two * kinds: a TVertex when it corresponds to the intersection between two ViewEdges or a NonTVertex @@ -269,7 +269,7 @@ class orientedViewEdgeIterator; */ class ViewVertex : public Interface0D { public: // Implementation of Interface0D - /*! Returns the string "ViewVertex". */ + /** Returns the string "ViewVertex". */ virtual string getExactTypeName() const { return "ViewVertex"; @@ -290,12 +290,12 @@ class ViewVertex : public Interface0D { Nature::VertexNature _Nature; public: - /*! A field that can be used by the user to store any data. + /** A field that can be used by the user to store any data. * This field must be reset afterwards using ResetUserData(). */ void *userdata; - /*! Default constructor.*/ + /** Default constructor.*/ inline ViewVertex() { userdata = NULL; @@ -309,7 +309,7 @@ class ViewVertex : public Interface0D { } protected: - /*! Copy constructor. */ + /** Copy constructor. */ inline ViewVertex(ViewVertex &iBrother) { _Nature = iBrother._Nature; @@ -317,24 +317,24 @@ class ViewVertex : public Interface0D { userdata = NULL; } - /*! Cloning method. */ + /** Cloning method. */ virtual ViewVertex *duplicate() = 0; public: - /*! Destructor. */ + /** Destructor. */ virtual ~ViewVertex() { } /* accessors */ - /*! Returns the nature of the vertex. */ + /** Returns the nature of the vertex. */ virtual Nature::VertexNature getNature() const { return _Nature; } /* modifiers */ - /*! Sets the nature of the vertex. */ + /** Sets the nature of the vertex. */ inline void setNature(Nature::VertexNature iNature) { _Nature = iNature; @@ -357,18 +357,18 @@ class ViewVertex : public Interface0D { virtual const_edge_iterator edges_iterator(ViewEdge *iEdge) const = 0; // Iterator access - /*! Returns an iterator over the ViewEdges that goes to or comes from this ViewVertex pointing to + /** Returns an iterator over the ViewEdges that goes to or comes from this ViewVertex pointing to * the first ViewEdge of the list. The orientedViewEdgeIterator allows to iterate in CCW order * over these ViewEdges and to get the orientation for each ViewEdge (incoming/outgoing). */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesBegin() = 0; - /*! Returns an orientedViewEdgeIterator over the ViewEdges around this ViewVertex, pointing after + /** Returns an orientedViewEdgeIterator over the ViewEdges around this ViewVertex, pointing after * the last ViewEdge. */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesEnd() = 0; - /*! Returns an orientedViewEdgeIterator pointing to the ViewEdge given as argument. */ + /** Returns an orientedViewEdgeIterator pointing to the ViewEdge given as argument. */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesIterator(ViewEdge *iEdge) = 0; #ifdef WITH_CXX_GUARDEDALLOC @@ -384,7 +384,7 @@ class ViewVertex : public Interface0D { /* */ /**********************************/ -/*! class to define a T vertex, i.e. an intersection between two edges. +/** class to define a T vertex, i.e. an intersection between two edges. * It points towards 2 SVertex and 4 View edges. * Among these ViewEdges, 2 are front and 2 are back. * Basically the front edge hides part of the back edge. @@ -395,7 +395,7 @@ class TVertex : public ViewVertex { typedef vector<directedViewEdge *> edge_pointers_container; public: // Implementation of Interface0D - /*! Returns the string "TVertex". */ + /** Returns the string "TVertex". */ virtual string getExactTypeName() const { return "TVertex"; @@ -421,20 +421,20 @@ class TVertex : public ViewVertex { return _FrontSVertex->point3D().z(); } - /*! Returns the 3D point. */ + /** Returns the 3D point. */ virtual Vec3r getPoint3D() const { cerr << "Warning: getPoint3D() undefined for this point" << endl; return _FrontSVertex->getPoint3D(); } - /*! Returns the projected 3D x coordinate of the vertex. */ + /** Returns the projected 3D x coordinate of the vertex. */ virtual real getProjectedX() const { return _FrontSVertex->point2D().x(); } - /*! Returns the projected 3D y coordinate of the vertex. */ + /** Returns the projected 3D y coordinate of the vertex. */ virtual real getProjectedY() const { return _FrontSVertex->point2D().y(); @@ -445,26 +445,26 @@ class TVertex : public ViewVertex { return _FrontSVertex->point2D().z(); } - /*! Returns the 2D point. */ + /** Returns the 2D point. */ virtual Vec2r getPoint2D() const { return _FrontSVertex->getPoint2D(); } - /*! Returns the Id of the TVertex. */ + /** Returns the Id of the TVertex. */ virtual Id getId() const { return _Id; } - /*! Cast the Interface0D in SVertex if it can be. */ + /** Cast the Interface0D in SVertex if it can be. */ // it can't virtual ViewVertex *castToViewVertex() { return this; } - /*! Cast the Interface0D in TVertex if it can be. */ + /** Cast the Interface0D in TVertex if it can be. */ virtual TVertex *castToTVertex() { return this; @@ -483,7 +483,7 @@ class TVertex : public ViewVertex { _sortedEdges; // the list of the four ViewEdges, ordered in CCW order (in the image plan) public: - /*! Default constructor.*/ + /** Default constructor.*/ inline TVertex() : ViewVertex(Nature::T_VERTEX) { _FrontSVertex = NULL; @@ -507,7 +507,7 @@ class TVertex : public ViewVertex { } protected: - /*! Copy constructor. */ + /** Copy constructor. */ inline TVertex(TVertex &iBrother) : ViewVertex(iBrother) { _FrontSVertex = iBrother._FrontSVertex; @@ -519,7 +519,7 @@ class TVertex : public ViewVertex { _sortedEdges = iBrother._sortedEdges; } - /*! Cloning method. */ + /** Cloning method. */ virtual ViewVertex *duplicate() { TVertex *clone = new TVertex(*this); @@ -528,13 +528,13 @@ class TVertex : public ViewVertex { public: /* accessors */ - /*! Returns the SVertex that is closer to the viewpoint. */ + /** Returns the SVertex that is closer to the viewpoint. */ inline SVertex *frontSVertex() { return _FrontSVertex; } - /*! Returns the SVertex that is further away from the viewpoint. */ + /** Returns the SVertex that is further away from the viewpoint. */ inline SVertex *backSVertex() { return _BackSVertex; @@ -561,14 +561,14 @@ class TVertex : public ViewVertex { } /* modifiers */ - /*! Sets the SVertex that is closer to the viewpoint. */ + /** Sets the SVertex that is closer to the viewpoint. */ inline void setFrontSVertex(SVertex *iFrontSVertex) { _FrontSVertex = iFrontSVertex; _FrontSVertex->setViewVertex(this); } - /*! Sets the SVertex that is further away from the viewpoint. */ + /** Sets the SVertex that is further away from the viewpoint. */ inline void setBackSVertex(SVertex *iBackSVertex) { _BackSVertex = iBackSVertex; @@ -580,13 +580,13 @@ class TVertex : public ViewVertex { void setBackEdgeA(ViewEdge *iBackEdgeA, bool incoming = true); void setBackEdgeB(ViewEdge *iBackEdgeB, bool incoming = true); - /*! Sets the Id. */ + /** Sets the Id. */ inline void setId(const Id &iId) { _Id = iId; } - /*! Returns the SVertex (among the 2) belonging to the FEdge iFEdge */ + /** Returns the SVertex (among the 2) belonging to the FEdge iFEdge */ inline SVertex *getSVertex(FEdge *iFEdge) { const vector<FEdge *> &vfEdges = _FrontSVertex->fedges(); @@ -608,7 +608,7 @@ class TVertex : public ViewVertex { virtual void Replace(ViewEdge *iOld, ViewEdge *iNew); - /*! returns the mate edge of iEdgeA. + /** returns the mate edge of iEdgeA. * For example, if iEdgeA is frontEdgeA, then frontEdgeB is returned. If iEdgeA is frontEdgeB * then frontEdgeA is returned. Same for back edges */ @@ -637,18 +637,18 @@ class TVertex : public ViewVertex { virtual edge_iterator edges_iterator(ViewEdge *iEdge); virtual const_edge_iterator edges_iterator(ViewEdge *iEdge) const; - /*! Returns an iterator over the ViewEdges that goes to or comes from this ViewVertex pointing to + /** Returns an iterator over the ViewEdges that goes to or comes from this ViewVertex pointing to * the first ViewEdge of the list. The orientedViewEdgeIterator allows to iterate in CCW order * over these ViewEdges and to get the orientation for each ViewEdge (incoming/outgoing). */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesBegin(); - /*! Returns an orientedViewEdgeIterator over the ViewEdges around this ViewVertex, pointing after + /** Returns an orientedViewEdgeIterator over the ViewEdges around this ViewVertex, pointing after * the last ViewEdge. */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesEnd(); - /*! Returns an orientedViewEdgeIterator pointing to the ViewEdge given as argument. */ + /** Returns an orientedViewEdgeIterator pointing to the ViewEdge given as argument. */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesIterator(ViewEdge *iEdge); #ifdef WITH_CXX_GUARDEDALLOC @@ -665,7 +665,7 @@ class TVertex : public ViewVertex { /**********************************/ // (non T vertex) -/*! View vertex for corners, cusps, etc... +/** View vertex for corners, cusps, etc... * Associated to a single SVertex. * Can be associated to 2 or several view edges */ @@ -674,80 +674,80 @@ class NonTVertex : public ViewVertex { typedef vector<directedViewEdge> edges_container; public: // Implementation of Interface0D - /*! Returns the string "ViewVertex". */ + /** Returns the string "ViewVertex". */ virtual string getExactTypeName() const { return "NonTVertex"; } // Data access methods - /*! Returns the 3D x coordinate of the vertex. */ + /** Returns the 3D x coordinate of the vertex. */ virtual real getX() const { return _SVertex->point3D().x(); } - /*! Returns the 3D y coordinate of the vertex. */ + /** Returns the 3D y coordinate of the vertex. */ virtual real getY() const { return _SVertex->point3D().y(); } - /*! Returns the 3D z coordinate of the vertex. */ + /** Returns the 3D z coordinate of the vertex. */ virtual real getZ() const { return _SVertex->point3D().z(); } - /*! Returns the 3D point. */ + /** Returns the 3D point. */ virtual Vec3r getPoint3D() const { return _SVertex->getPoint3D(); } - /*! Returns the projected 3D x coordinate of the vertex. */ + /** Returns the projected 3D x coordinate of the vertex. */ virtual real getProjectedX() const { return _SVertex->point2D().x(); } - /*! Returns the projected 3D y coordinate of the vertex. */ + /** Returns the projected 3D y coordinate of the vertex. */ virtual real getProjectedY() const { return _SVertex->point2D().y(); } - /*! Returns the projected 3D z coordinate of the vertex. */ + /** Returns the projected 3D z coordinate of the vertex. */ virtual real getProjectedZ() const { return _SVertex->point2D().z(); } - /*! Returns the 2D point. */ + /** Returns the 2D point. */ virtual Vec2r getPoint2D() const { return _SVertex->getPoint2D(); } - /*! Returns the Id of the vertex. */ + /** Returns the Id of the vertex. */ virtual Id getId() const { return _SVertex->getId(); } - /*! Cast the Interface0D in SVertex if it can be. */ + /** Cast the Interface0D in SVertex if it can be. */ virtual SVertex *castToSVertex() { return _SVertex; } - /*! Cast the Interface0D in ViewVertex if it can be. */ + /** Cast the Interface0D in ViewVertex if it can be. */ virtual ViewVertex *castToViewVertex() { return this; } - /*! Cast the Interface0D in NonTVertex if it can be. */ + /** Cast the Interface0D in NonTVertex if it can be. */ virtual NonTVertex *castToNonTVertex() { return this; @@ -758,13 +758,13 @@ class NonTVertex : public ViewVertex { edges_container _ViewEdges; public: - /*! Default constructor.*/ + /** Default constructor.*/ inline NonTVertex() : ViewVertex(Nature::NON_T_VERTEX) { _SVertex = NULL; } - /*! Builds a NonTVertex from a SVertex. */ + /** Builds a NonTVertex from a SVertex. */ inline NonTVertex(SVertex *iSVertex) : ViewVertex(Nature::NON_T_VERTEX) { _SVertex = iSVertex; @@ -772,7 +772,7 @@ class NonTVertex : public ViewVertex { } protected: - /*! Copy constructor. */ + /** Copy constructor. */ inline NonTVertex(NonTVertex &iBrother) : ViewVertex(iBrother) { _SVertex = iBrother._SVertex; @@ -780,7 +780,7 @@ class NonTVertex : public ViewVertex { _ViewEdges = iBrother._ViewEdges; } - /*! Cloning method. */ + /** Cloning method. */ virtual ViewVertex *duplicate() { NonTVertex *clone = new NonTVertex(*this); @@ -788,13 +788,13 @@ class NonTVertex : public ViewVertex { } public: - /*! destructor. */ + /** destructor. */ virtual ~NonTVertex() { } /* accessors */ - /*! Returns the SVertex on top of which this NonTVertex is built. */ + /** Returns the SVertex on top of which this NonTVertex is built. */ inline SVertex *svertex() { return _SVertex; @@ -806,7 +806,7 @@ class NonTVertex : public ViewVertex { } /* modifiers */ - /*! Sets the SVertex on top of which this NonTVertex is built. */ + /** Sets the SVertex on top of which this NonTVertex is built. */ inline void setSVertex(SVertex *iSVertex) { _SVertex = iSVertex; @@ -857,18 +857,18 @@ class NonTVertex : public ViewVertex { virtual edge_iterator edges_iterator(ViewEdge *iEdge); virtual const_edge_iterator edges_iterator(ViewEdge *iEdge) const; - /*! Returns an iterator over the ViewEdges that goes to or comes from this ViewVertex pointing to + /** Returns an iterator over the ViewEdges that goes to or comes from this ViewVertex pointing to * the first ViewEdge of the list. The orientedViewEdgeIterator allows to iterate in CCW order * over these ViewEdges and to get the orientation for each ViewEdge (incoming/outgoing). */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesBegin(); - /*! Returns an orientedViewEdgeIterator over the ViewEdges around this ViewVertex, pointing after + /** Returns an orientedViewEdgeIterator over the ViewEdges around this ViewVertex, pointing after * the last ViewEdge. */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesEnd(); - /*! Returns an orientedViewEdgeIterator pointing to the ViewEdge given as argument. */ + /** Returns an orientedViewEdgeIterator pointing to the ViewEdge given as argument. */ virtual ViewVertexInternal::orientedViewEdgeIterator edgesIterator(ViewEdge *iEdge); #ifdef WITH_CXX_GUARDEDALLOC @@ -902,25 +902,25 @@ template<class Traits> class vertex_iterator_base; } // end of namespace ViewEdgeInternal -/*! Class defining a ViewEdge. A ViewEdge in an edge of the image graph. it connects two +/** Class defining a ViewEdge. A ViewEdge in an edge of the image graph. it connects two * ViewVertex. It is made by connecting a set of FEdges. */ class ViewEdge : public Interface1D { public: // Implementation of Interface0D - /*! Returns the string "ViewEdge". */ + /** Returns the string "ViewEdge". */ virtual string getExactTypeName() const { return "ViewEdge"; } // Data access methods - /*! Returns the Id of the vertex. */ + /** Returns the Id of the vertex. */ virtual Id getId() const { return _Id; } - /*! Returns the nature of the ViewEdge. */ + /** Returns the nature of the ViewEdge. */ virtual Nature::EdgeNature getNature() const { return _Nature; @@ -960,12 +960,12 @@ class ViewEdge : public Interface1D { Id *_splittingId; public: - /*! A field that can be used by the user to store any data. + /** A field that can be used by the user to store any data. * This field must be reset afterwards using ResetUserData(). */ void *userdata; - /*! Default constructor. */ + /** Default constructor. */ inline ViewEdge() { __A = NULL; @@ -1028,7 +1028,7 @@ class ViewEdge : public Interface1D { } // soc protected: - /*! Copy constructor. */ + /** Copy constructor. */ inline ViewEdge(ViewEdge &iBrother) { __A = iBrother.__A; @@ -1047,7 +1047,7 @@ class ViewEdge : public Interface1D { userdata = NULL; } - /*! Cloning method. */ + /** Cloning method. */ virtual ViewEdge *duplicate() { ViewEdge *clone = new ViewEdge(*this); @@ -1055,7 +1055,7 @@ class ViewEdge : public Interface1D { } public: - /*! Destructor. */ + /** Destructor. */ virtual ~ViewEdge() { #if 0 @@ -1073,37 +1073,37 @@ class ViewEdge : public Interface1D { } /* accessors */ - /*! Returns the first ViewVertex. */ + /** Returns the first ViewVertex. */ inline ViewVertex *A() { return __A; } - /*! Returns the second ViewVertex. */ + /** Returns the second ViewVertex. */ inline ViewVertex *B() { return __B; } - /*! Returns the first FEdge that constitutes this ViewEdge. */ + /** Returns the first FEdge that constitutes this ViewEdge. */ inline FEdge *fedgeA() { return _FEdgeA; } - /*! Returns the last FEdge that constitutes this ViewEdge. */ + /** Returns the last FEdge that constitutes this ViewEdge. */ inline FEdge *fedgeB() { return _FEdgeB; } - /*! Returns the ViewShape to which this ViewEdge belongs to. */ + /** Returns the ViewShape to which this ViewEdge belongs to. */ inline ViewShape *viewShape() { return _Shape; } - /*! Returns the shape that is occluded by the ViewShape to which this ViewEdge belongs to. If no + /** Returns the shape that is occluded by the ViewShape to which this ViewEdge belongs to. If no * object is occluded, NULL is returned. \return The occluded ViewShape. */ inline ViewShape *aShape() @@ -1111,7 +1111,7 @@ class ViewEdge : public Interface1D { return _aShape; } - /*! Tells whether this ViewEdge forms a closed loop or not. */ + /** Tells whether this ViewEdge forms a closed loop or not. */ inline bool isClosed() { if (!__B) { @@ -1120,7 +1120,7 @@ class ViewEdge : public Interface1D { return false; } - /*! Returns the time stamp of this ViewEdge. */ + /** Returns the time stamp of this ViewEdge. */ inline unsigned getChainingTimeStamp() { return _ChainingTimeStamp; @@ -1152,64 +1152,64 @@ class ViewEdge : public Interface1D { } /* modifiers */ - /*! Sets the first ViewVertex of the ViewEdge. */ + /** Sets the first ViewVertex of the ViewEdge. */ inline void setA(ViewVertex *iA) { __A = iA; } - /*! Sets the last ViewVertex of the ViewEdge. */ + /** Sets the last ViewVertex of the ViewEdge. */ inline void setB(ViewVertex *iB) { __B = iB; } - /*! Sets the nature of the ViewEdge. */ + /** Sets the nature of the ViewEdge. */ inline void setNature(Nature::EdgeNature iNature) { _Nature = iNature; } - /*! Sets the first FEdge of the ViewEdge. */ + /** Sets the first FEdge of the ViewEdge. */ inline void setFEdgeA(FEdge *iFEdge) { _FEdgeA = iFEdge; } - /*! Sets the last FEdge of the ViewEdge. */ + /** Sets the last FEdge of the ViewEdge. */ inline void setFEdgeB(FEdge *iFEdge) { _FEdgeB = iFEdge; } - /*! Sets the ViewShape to which this ViewEdge belongs to.*/ + /** Sets the ViewShape to which this ViewEdge belongs to.*/ inline void setShape(ViewShape *iVShape) { _Shape = iVShape; } - /*! Sets the ViewEdge id. */ + /** Sets the ViewEdge id. */ inline void setId(const Id &id) { _Id = id; } - /*! Sets Viewedge to this for all embedded fedges */ + /** Sets Viewedge to this for all embedded fedges */ void UpdateFEdges(); - /*! Sets the occluded ViewShape */ + /** Sets the occluded ViewShape */ inline void setaShape(ViewShape *iShape) { _aShape = iShape; } - /*! Sets the quantitative invisibility value. */ + /** Sets the quantitative invisibility value. */ inline void setQI(int qi) { _qi = qi; } - /*! Sets the time stamp value. */ + /** Sets the time stamp value. */ inline void setChainingTimeStamp(unsigned ts) { _ChainingTimeStamp = ts; @@ -1279,7 +1279,7 @@ class ViewEdge : public Interface1D { float viewedge_length() const; #endif - /*! Returns the 2D length of the Viewedge. */ + /** Returns the 2D length of the Viewedge. */ real getLength2D() const; #if 0 @@ -1366,24 +1366,24 @@ class ViewEdge : public Interface1D { vertex_iterator vertices_end(); // Iterator access (Interface1D) - /*! Returns an Interface0DIterator to iterate over the SVertex constituting the embedding of this + /** Returns an Interface0DIterator to iterate over the SVertex constituting the embedding of this * ViewEdge. The returned Interface0DIterator points to the first SVertex of the ViewEdge. */ virtual Interface0DIterator verticesBegin(); - /*! Returns an Interface0DIterator to iterate over the SVertex constituting the embedding of this + /** Returns an Interface0DIterator to iterate over the SVertex constituting the embedding of this * ViewEdge. The returned Interface0DIterator points after the last SVertex of the ViewEdge. */ virtual Interface0DIterator verticesEnd(); - /*! Returns an Interface0DIterator to iterate over the points of this ViewEdge at a given + /** Returns an Interface0DIterator to iterate over the points of this ViewEdge at a given * resolution. The returned Interface0DIterator points on the first Point of the ViewEdge. * \param t: * the sampling value. */ virtual Interface0DIterator pointsBegin(float t = 0.0f); - /*! Returns an Interface0DIterator to iterate over the points of this ViewEdge at a given + /** Returns an Interface0DIterator to iterate over the points of this ViewEdge at a given * resolution. The returned Interface0DIterator points after the last Point of the ViewEdge. * \param t: * the sampling value. @@ -1403,7 +1403,7 @@ class ViewEdge : public Interface1D { /* */ /**********************************/ -/*! Class gathering the elements of the ViewMap (ViewVertex, ViewEdge) that are issued from the +/** Class gathering the elements of the ViewMap (ViewVertex, ViewEdge) that are issued from the * same input shape. */ class ViewShape { private: @@ -1412,19 +1412,19 @@ class ViewShape { SShape *_SShape; public: - /*! A field that can be used by the user to store any data. + /** A field that can be used by the user to store any data. * This field must be reset afterwards using ResetUserData(). */ void *userdata; - /*! Default constructor.*/ + /** Default constructor.*/ inline ViewShape() { userdata = NULL; _SShape = NULL; } - /*! Builds a ViewShape from a SShape. */ + /** Builds a ViewShape from a SShape. */ inline ViewShape(SShape *iSShape) { userdata = NULL; @@ -1432,7 +1432,7 @@ class ViewShape { //_SShape->setViewShape(this); } - /*! Copy constructor. */ + /** Copy constructor. */ inline ViewShape(ViewShape &iBrother) { userdata = NULL; @@ -1519,14 +1519,14 @@ class ViewShape { } } - /*! Cloning method. */ + /** Cloning method. */ virtual ViewShape *duplicate() { ViewShape *clone = new ViewShape(*this); return clone; } - /*! Destructor. */ + /** Destructor. */ virtual ~ViewShape(); /* splits a view edge into several view edges. @@ -1545,75 +1545,75 @@ class ViewShape { vector<ViewEdge *> &ioNewViewEdges); /* accessors */ - /*! Returns the SShape on top of which this ViewShape is built. */ + /** Returns the SShape on top of which this ViewShape is built. */ inline SShape *sshape() { return _SShape; } - /*! Returns the SShape on top of which this ViewShape is built. */ + /** Returns the SShape on top of which this ViewShape is built. */ inline const SShape *sshape() const { return _SShape; } - /*! Returns the list of ViewVertex contained in this ViewShape. */ + /** Returns the list of ViewVertex contained in this ViewShape. */ inline vector<ViewVertex *> &vertices() { return _Vertices; } - /*! Returns the list of ViewEdge contained in this ViewShape. */ + /** Returns the list of ViewEdge contained in this ViewShape. */ inline vector<ViewEdge *> &edges() { return _Edges; } - /*! Returns the ViewShape id. */ + /** Returns the ViewShape id. */ inline Id getId() const { return _SShape->getId(); } - /*! Returns the ViewShape name. */ + /** Returns the ViewShape name. */ inline const string &getName() const { return _SShape->getName(); } - /*! Returns the ViewShape library path. */ + /** Returns the ViewShape library path. */ inline const string &getLibraryPath() const { return _SShape->getLibraryPath(); } /* modifiers */ - /*! Sets the SShape on top of which the ViewShape is built. */ + /** Sets the SShape on top of which the ViewShape is built. */ inline void setSShape(SShape *iSShape) { _SShape = iSShape; } - /*! Sets the list of ViewVertex contained in this ViewShape. */ + /** Sets the list of ViewVertex contained in this ViewShape. */ inline void setVertices(const vector<ViewVertex *> &iVertices) { _Vertices = iVertices; } - /*! Sets the list of ViewEdge contained in this ViewShape. */ + /** Sets the list of ViewEdge contained in this ViewShape. */ inline void setEdges(const vector<ViewEdge *> &iEdges) { _Edges = iEdges; } - /*! Adds a ViewVertex to the list. */ + /** Adds a ViewVertex to the list. */ inline void AddVertex(ViewVertex *iVertex) { _Vertices.push_back(iVertex); //_SShape->AddNewVertex(iVertex->svertex()); } - /*! Adds a ViewEdge to the list */ + /** Adds a ViewEdge to the list */ inline void AddEdge(ViewEdge *iEdge) { _Edges.push_back(iEdge); diff --git a/source/blender/freestyle/intern/view_map/ViewMapAdvancedIterators.h b/source/blender/freestyle/intern/view_map/ViewMapAdvancedIterators.h index 5cb52b6a0f3..b33bc4f281f 100644 --- a/source/blender/freestyle/intern/view_map/ViewMapAdvancedIterators.h +++ b/source/blender/freestyle/intern/view_map/ViewMapAdvancedIterators.h @@ -363,9 +363,9 @@ class edge_iterator_base : public IteratorBase<Traits, InputIteratorTag_Traits> namespace ViewEdgeInternal { -/*!----------------------*/ -/*! Iterators definition */ -/*!----------------------*/ +/**----------------------*/ +/** Iterators definition */ +/**----------------------*/ template<class Traits> class edge_iterator_base : public IteratorBase<Traits, BidirectionalIteratorTag_Traits> { public: diff --git a/source/blender/freestyle/intern/view_map/ViewMapBuilder.h b/source/blender/freestyle/intern/view_map/ViewMapBuilder.h index 6d919f5561a..4f26ec82eb6 100644 --- a/source/blender/freestyle/intern/view_map/ViewMapBuilder.h +++ b/source/blender/freestyle/intern/view_map/ViewMapBuilder.h @@ -107,28 +107,28 @@ class ViewMapBuilder { } /* Build Grid for ray casting */ - /*! Build non-culled Grid in camera space for ray casting */ + /** Build non-culled Grid in camera space for ray casting */ void BuildGrid(WingedEdge &we, const BBox<Vec3r> &bbox, unsigned int sceneNumFaces); - /*! Compute Shapes from a WingedEdge containing a list of WShapes */ + /** Compute Shapes from a WingedEdge containing a list of WShapes */ void computeInitialViewEdges(WingedEdge &); - /*! Compute Cusps */ + /** Compute Cusps */ void computeCusps(ViewMap *ioViewMap); - /*! Detects cusps (for a single ViewEdge) among SVertices and builds a ViewVertex on top of each + /** Detects cusps (for a single ViewEdge) among SVertices and builds a ViewVertex on top of each * cusp SVertex We use a hysteresis approach to avoid noise. */ void DetectCusps(ViewEdge *ioEdge); - /*! Sets the current viewpoint */ + /** Sets the current viewpoint */ inline void setViewpoint(const Vec3r &ivp) { _viewpoint = ivp; SilhouetteGeomEngine::setViewpoint(ivp); } - /*! Sets the current transformation + /** Sets the current transformation * iModelViewMatrix * The 4x4 model view matrix, in column major order (openGL like). * iProjection matrix @@ -153,7 +153,7 @@ class ViewMapBuilder { SilhouetteGeomEngine::setFrustum(iZnear, iZfar); } - /*! Builds the scene view map returns the list the view map + /** Builds the scene view map returns the list the view map * it is up to the caller to delete this ViewMap * iWRoot * The root group node containing the WEdge structured scene @@ -169,7 +169,7 @@ class ViewMapBuilder { real occluderProscenium[4], bool extensiveFEdgeSearch = true); - /*! computes the intersection between all 2D feature edges of the scene. + /** computes the intersection between all 2D feature edges of the scene. * ioViewMap * The view map. It is modified by the method. * The list of all features edges of the scene. @@ -181,7 +181,7 @@ class ViewMapBuilder { intersection_algo iAlgo = sweep_line, real epsilon = 1.0e-06); - /*! Computes the 2D scene silhouette edges visibility + /** Computes the 2D scene silhouette edges visibility * iGrid * For the Ray Casting algorithm. */ @@ -197,9 +197,9 @@ class ViewMapBuilder { _Grid = iGrid; } - /*! accessors */ + /** accessors */ - /*! Modifiers */ + /** Modifiers */ inline void setProgressBar(ProgressBar *iProgressBar) { _pProgressBar = iProgressBar; @@ -216,10 +216,10 @@ class ViewMapBuilder { } protected: - /*! Computes intersections on all edges of the scene using a sweep line algorithm */ + /** Computes intersections on all edges of the scene using a sweep line algorithm */ void ComputeSweepLineIntersections(ViewMap *ioViewMap, real epsilon = 1.0e-6); - /*! Computes the 2D scene silhouette edges visibility using a ray casting. On each edge, a ray is + /** Computes the 2D scene silhouette edges visibility using a ray casting. On each edge, a ray is * cast to check its quantitative invisibility. The list of occluders are each time stored in the * tested edge. ioViewMap The view map. The 2D scene silhouette edges as FEdges. These edges have * already been splitted at their intersections points. Thus, these edges do not intersect @@ -242,7 +242,7 @@ class ViewMapBuilder { bool cull, GridDensityProviderFactory &factory); - /*! Compute the visibility for the FEdge fe. + /** Compute the visibility for the FEdge fe. * The occluders are added to fe occluders list. * fe * The FEdge diff --git a/source/blender/freestyle/intern/view_map/ViewMapIterators.h b/source/blender/freestyle/intern/view_map/ViewMapIterators.h index 9956d47469d..7f98c2745f4 100644 --- a/source/blender/freestyle/intern/view_map/ViewMapIterators.h +++ b/source/blender/freestyle/intern/view_map/ViewMapIterators.h @@ -45,7 +45,7 @@ namespace Freestyle { namespace ViewVertexInternal { -/*! Class representing an iterator over oriented ViewEdges around a ViewVertex. This iterator +/** Class representing an iterator over oriented ViewEdges around a ViewVertex. This iterator * allows a CCW iteration (in the image plane). An instance of an orientedViewEdgeIterator can only * be obtained from a ViewVertex by calling edgesBegin() or edgesEnd(). */ @@ -73,7 +73,7 @@ class orientedViewEdgeIterator : public Iterator { edges_container::iterator _nontvertex_iter; public: - /*! Default constructor */ + /** Default constructor */ inline orientedViewEdgeIterator() { } @@ -83,7 +83,7 @@ class orientedViewEdgeIterator : public Iterator { _Nature = iNature; } - /*! Copy constructor */ + /** Copy constructor */ orientedViewEdgeIterator(const orientedViewEdgeIterator &iBrother) { _Nature = iBrother._Nature; @@ -125,7 +125,7 @@ class orientedViewEdgeIterator : public Iterator { } public: - /*! Tells whether the ViewEdge pointed by this iterator is the first one of the iteration list or + /** Tells whether the ViewEdge pointed by this iterator is the first one of the iteration list or * not. */ virtual bool isBegin() const { @@ -137,7 +137,7 @@ class orientedViewEdgeIterator : public Iterator { } } - /*! Tells whether the ViewEdge pointed by this iterator is after the last one of the iteration + /** Tells whether the ViewEdge pointed by this iterator is after the last one of the iteration * list or not. */ virtual bool isEnd() const { @@ -150,7 +150,7 @@ class orientedViewEdgeIterator : public Iterator { } // operators - /*! Increments. In the scripting language, call "increment()". */ + /** Increments. In the scripting language, call "increment()". */ // operator corresponding to ++i virtual orientedViewEdgeIterator &operator++() { @@ -168,7 +168,7 @@ class orientedViewEdgeIterator : public Iterator { } // comparibility - /*! operator != */ + /** operator != */ virtual bool operator!=(const orientedViewEdgeIterator &b) const { if (_Nature & Nature::T_VERTEX) { @@ -179,14 +179,14 @@ class orientedViewEdgeIterator : public Iterator { } } - /*! operator == */ + /** operator == */ virtual bool operator==(const orientedViewEdgeIterator &b) const { return !(*this != b); } // dereferencing - /*! Returns a reference to the pointed orientedViewEdge. + /** Returns a reference to the pointed orientedViewEdge. * In the scripting language, you must call "getObject()" instead. */ virtual ViewVertex::directedViewEdge &operator*() const @@ -199,7 +199,7 @@ class orientedViewEdgeIterator : public Iterator { return (*_nontvertex_iter); } } - /*! Returns a pointer to the pointed orientedViewEdge. + /** Returns a pointer to the pointed orientedViewEdge. * Can't be called in the scripting language. */ virtual ViewVertex::directedViewEdge *operator->() const @@ -208,7 +208,7 @@ class orientedViewEdgeIterator : public Iterator { } public: - /*! increments.*/ + /** increments.*/ virtual inline int increment() { if (_Nature & Nature::T_VERTEX) { @@ -415,14 +415,14 @@ class SVertexIterator : public Interface0DIteratorNested { // /////////////////////////////////////////////////////////// -/*! Base class for iterators over ViewEdges of the ViewMap Graph. +/** Base class for iterators over ViewEdges of the ViewMap Graph. * Basically the "increment()" operator of this class should be able to take the decision of * "where" (on which ViewEdge) to go when pointing on a given ViewEdge. * ::Caution::: the dereferencing operator returns a *pointer* to the pointed ViewEdge. */ class ViewEdgeIterator : public Iterator { public: - /*! Builds a ViewEdgeIterator from a starting ViewEdge and its orientation. + /** Builds a ViewEdgeIterator from a starting ViewEdge and its orientation. * \param begin: * The ViewEdge from where to start the iteration. * \param orientation: @@ -437,7 +437,7 @@ class ViewEdgeIterator : public Iterator { _begin = begin; } - /*! Copy constructor */ + /** Copy constructor */ ViewEdgeIterator(const ViewEdgeIterator &it) { _orientation = it._orientation; @@ -449,55 +449,55 @@ class ViewEdgeIterator : public Iterator { { } - /*! Returns the string "ViewEdgeIterator" */ + /** Returns the string "ViewEdgeIterator" */ virtual string getExactTypeName() const { return "ViewEdgeIterator"; } - /*! Returns the current pointed ViewEdge. */ + /** Returns the current pointed ViewEdge. */ ViewEdge *getCurrentEdge() { return _edge; } - /*! Sets the current pointed ViewEdge. */ + /** Sets the current pointed ViewEdge. */ void setCurrentEdge(ViewEdge *edge) { _edge = edge; } - /*! Returns the first ViewEdge used for the iteration. */ + /** Returns the first ViewEdge used for the iteration. */ ViewEdge *getBegin() { return _begin; } - /*! Sets the first ViewEdge used for the iteration. */ + /** Sets the first ViewEdge used for the iteration. */ void setBegin(ViewEdge *begin) { _begin = begin; } - /*! Gets the orientation of the pointed ViewEdge in the iteration. */ + /** Gets the orientation of the pointed ViewEdge in the iteration. */ bool getOrientation() const { return _orientation; } - /*! Sets the orientation of the pointed ViewEdge in the iteration. */ + /** Sets the orientation of the pointed ViewEdge in the iteration. */ void setOrientation(bool orientation) { _orientation = orientation; } - /*! Changes the current orientation. */ + /** Changes the current orientation. */ void changeOrientation() { _orientation = !_orientation; } - /*! Returns a *pointer* to the pointed ViewEdge. */ + /** Returns a *pointer* to the pointed ViewEdge. */ virtual ViewEdge *operator*() { return _edge; @@ -508,14 +508,14 @@ class ViewEdgeIterator : public Iterator { return operator*(); } - /*! Increments. In the scripting language, call "increment()". */ + /** Increments. In the scripting language, call "increment()". */ virtual ViewEdgeIterator &operator++() { increment(); return *this; } - /*! Increments. In the scripting language, call "increment()". */ + /** Increments. In the scripting language, call "increment()". */ virtual ViewEdgeIterator operator++(int) { ViewEdgeIterator tmp(*this); @@ -523,21 +523,21 @@ class ViewEdgeIterator : public Iterator { return tmp; } - /*! increments. */ + /** increments. */ virtual int increment() { cerr << "Warning: method increment() not implemented" << endl; return 0; } - /*! Decrements. In the scripting language, call "decrement()". */ + /** Decrements. In the scripting language, call "decrement()". */ virtual ViewEdgeIterator &operator--() { decrement(); return *this; } - /*! Decrements. In the scripting language, call "decrement()". */ + /** Decrements. In the scripting language, call "decrement()". */ virtual ViewEdgeIterator operator--(int) { ViewEdgeIterator tmp(*this); @@ -545,32 +545,32 @@ class ViewEdgeIterator : public Iterator { return tmp; } - /*! decrements. */ + /** decrements. */ virtual int decrement() { cerr << "Warning: method decrement() not implemented" << endl; return 0; } - /*! Returns true if the pointed ViewEdge is the first one used for the iteration. */ + /** Returns true if the pointed ViewEdge is the first one used for the iteration. */ virtual bool isBegin() const { return _edge == _begin; } - /*! Returns true if the pointed ViewEdge* equals 0. */ + /** Returns true if the pointed ViewEdge* equals 0. */ virtual bool isEnd() const { return !_edge; } - /*! operator == */ + /** operator == */ virtual bool operator==(ViewEdgeIterator &it) const { return _edge == it._edge; } - /*! operator != */ + /** operator != */ virtual bool operator!=(ViewEdgeIterator &it) const { return !(*this == it); diff --git a/source/blender/freestyle/intern/view_map/ViewMapTesselator.h b/source/blender/freestyle/intern/view_map/ViewMapTesselator.h index c6690b1d9dc..ff709879e74 100644 --- a/source/blender/freestyle/intern/view_map/ViewMapTesselator.h +++ b/source/blender/freestyle/intern/view_map/ViewMapTesselator.h @@ -56,17 +56,17 @@ class ViewMapTesselator { { } - /*! Builds a set of lines rep contained under a a NodeShape, itself contained under a NodeGroup + /** Builds a set of lines rep contained under a a NodeShape, itself contained under a NodeGroup * from a ViewMap */ NodeGroup *Tesselate(ViewMap *iViewMap); - /*! Builds a set of lines rep contained under a a NodeShape, itself contained under a NodeGroup + /** Builds a set of lines rep contained under a a NodeShape, itself contained under a NodeGroup * from a set of view edges */ template<class ViewEdgesIterator> NodeGroup *Tesselate(ViewEdgesIterator begin, ViewEdgesIterator end); - /*! Builds a set of lines rep contained among a NodeShape, from a WShape */ + /** Builds a set of lines rep contained among a NodeShape, from a WShape */ NodeGroup *Tesselate(WShape *iWShape); inline void setNature(Nature::EdgeNature iNature) @@ -103,7 +103,7 @@ class ViewMapTesselator { #endif }; -/*! Class to tesselate the 2D projected silhouette */ +/** Class to tesselate the 2D projected silhouette */ class ViewMapTesselator2D : public ViewMapTesselator { public: inline ViewMapTesselator2D() : ViewMapTesselator() @@ -124,7 +124,7 @@ class ViewMapTesselator2D : public ViewMapTesselator { #endif }; -/*! Class to tesselate the 3D silhouette */ +/** Class to tesselate the 3D silhouette */ class ViewMapTesselator3D : public ViewMapTesselator { public: inline ViewMapTesselator3D() : ViewMapTesselator() diff --git a/source/blender/freestyle/intern/winged_edge/Curvature.cpp b/source/blender/freestyle/intern/winged_edge/Curvature.cpp index 1984aceb51c..62d767fd2a1 100644 --- a/source/blender/freestyle/intern/winged_edge/Curvature.cpp +++ b/source/blender/freestyle/intern/winged_edge/Curvature.cpp @@ -104,7 +104,7 @@ static real angle_from_cotan(WVertex *vo, WVertex *v1, WVertex *v2) return (fabs(atan2(denom, udotv))); } -/*! gts_vertex_mean_curvature_normal: +/** gts_vertex_mean_curvature_normal: * \param v: a #WVertex. * \param s: a #GtsSurface. * \param Kh: the Mean Curvature Normal at \a v. @@ -175,7 +175,7 @@ bool gts_vertex_mean_curvature_normal(WVertex *v, Vec3r &Kh) return true; } -/*! gts_vertex_gaussian_curvature: +/** gts_vertex_gaussian_curvature: * \param v: a #WVertex. * \param s: a #GtsSurface. * \param Kg: the Discrete Gaussian Curvature approximation at \a v. @@ -226,7 +226,7 @@ bool gts_vertex_gaussian_curvature(WVertex *v, real *Kg) return true; } -/*! gts_vertex_principal_curvatures: +/** gts_vertex_principal_curvatures: * @Kh: mean curvature. * @Kg: Gaussian curvature. * @K1: first principal curvature. @@ -279,7 +279,7 @@ static void eigenvector(real a, real b, real c, Vec3r e) e[2] = 0.0; } -/*! gts_vertex_principal_directions: +/** gts_vertex_principal_directions: * \param v: a #WVertex. * \param s: a #GtsSurface. * \param Kh: mean curvature normal (a #Vec3r). diff --git a/source/blender/freestyle/intern/winged_edge/Nature.h b/source/blender/freestyle/intern/winged_edge/Nature.h index 68323d7122c..996161abee2 100644 --- a/source/blender/freestyle/intern/winged_edge/Nature.h +++ b/source/blender/freestyle/intern/winged_edge/Nature.h @@ -23,44 +23,44 @@ namespace Freestyle { -/*! Namespace gathering the different possible natures of 0D and 1D elements of the ViewMap */ +/** Namespace gathering the different possible natures of 0D and 1D elements of the ViewMap */ namespace Nature { /* XXX Why not using enums??? */ /* In order to optimize for space (enum is int) - T.K. */ typedef unsigned short VertexNature; -/*! true for any 0D element */ +/** true for any 0D element */ static const VertexNature POINT = 0; // 0 -/*! true for SVertex */ +/** true for SVertex */ static const VertexNature S_VERTEX = (1 << 0); // 1 -/*! true for ViewVertex */ +/** true for ViewVertex */ static const VertexNature VIEW_VERTEX = (1 << 1); // 2 -/*! true for NonTVertex */ +/** true for NonTVertex */ static const VertexNature NON_T_VERTEX = (1 << 2); // 4 -/*! true for TVertex */ +/** true for TVertex */ static const VertexNature T_VERTEX = (1 << 3); // 8 -/*! true for CUSP */ +/** true for CUSP */ static const VertexNature CUSP = (1 << 4); // 16 typedef unsigned short EdgeNature; -/*! true for non feature edges (always false for 1D elements of the ViewMap) */ +/** true for non feature edges (always false for 1D elements of the ViewMap) */ static const EdgeNature NO_FEATURE = 0; // 0 -/*! true for silhouettes */ +/** true for silhouettes */ static const EdgeNature SILHOUETTE = (1 << 0); // 1 -/*! true for borders */ +/** true for borders */ static const EdgeNature BORDER = (1 << 1); // 2 -/*! true for creases */ +/** true for creases */ static const EdgeNature CREASE = (1 << 2); // 4 -/*! true for ridges */ +/** true for ridges */ static const EdgeNature RIDGE = (1 << 3); // 8 -/*! true for valleys */ +/** true for valleys */ static const EdgeNature VALLEY = (1 << 4); // 16 -/*! true for suggestive contours */ +/** true for suggestive contours */ static const EdgeNature SUGGESTIVE_CONTOUR = (1 << 5); // 32 -/*! true for material boundaries */ +/** true for material boundaries */ static const EdgeNature MATERIAL_BOUNDARY = (1 << 6); // 64 -/*! true for user-defined edge marks */ +/** true for user-defined edge marks */ static const EdgeNature EDGE_MARK = (1 << 7); // 128 } // end of namespace Nature diff --git a/source/blender/freestyle/intern/winged_edge/WEdge.cpp b/source/blender/freestyle/intern/winged_edge/WEdge.cpp index 0811fe336b7..356b641a254 100644 --- a/source/blender/freestyle/intern/winged_edge/WEdge.cpp +++ b/source/blender/freestyle/intern/winged_edge/WEdge.cpp @@ -25,7 +25,7 @@ namespace Freestyle { -/*! Temporary structures */ +/** Temporary structures */ class vertexdata { public: WVertex *_copy; diff --git a/source/blender/freestyle/intern/winged_edge/WEdge.h b/source/blender/freestyle/intern/winged_edge/WEdge.h index 42a8e62990f..125dec27b8a 100644 --- a/source/blender/freestyle/intern/winged_edge/WEdge.h +++ b/source/blender/freestyle/intern/winged_edge/WEdge.h @@ -76,14 +76,14 @@ class WVertex { _Border = -1; } - /*! Copy constructor */ + /** Copy constructor */ WVertex(WVertex &iBrother); virtual WVertex *duplicate(); virtual ~WVertex() { } - /*! accessors */ + /** accessors */ inline Vec3f &GetVertex() { return _Vertex; @@ -111,7 +111,7 @@ class WVertex { bool isBoundary(); - /*! modifiers */ + /** modifiers */ inline void setVertex(const Vec3f &v) { _Vertex = v; @@ -147,7 +147,7 @@ class WVertex { } } - /*! Adds an edge to the edges list */ + /** Adds an edge to the edges list */ void AddEdge(WEdge *iEdge); virtual void ResetUserData() @@ -156,7 +156,7 @@ class WVertex { } public: - /*! Iterator to iterate over a vertex incoming edges in the CCW order*/ + /** Iterator to iterate over a vertex incoming edges in the CCW order*/ #if defined(__GNUC__) && (__GNUC__ < 3) class incoming_edge_iterator : public input_iterator<WOEdge *, ptrdiff_t> #else @@ -247,7 +247,7 @@ class WVertex { #endif }; - /*! Iterator to iterate over a vertex faces in the CCW order */ + /** Iterator to iterate over a vertex faces in the CCW order */ #if defined(__GNUC__) && (__GNUC__ < 3) class face_iterator : public input_iterator<WFace *, ptrdiff_t> #else @@ -336,7 +336,7 @@ class WVertex { }; public: - /*! iterators access */ + /** iterators access */ virtual incoming_edge_iterator incoming_edges_begin(); virtual incoming_edge_iterator incoming_edges_end(); @@ -404,11 +404,11 @@ class WOEdge { virtual ~WOEdge(){}; // soc - /*! copy constructor */ + /** copy constructor */ WOEdge(WOEdge &iBrother); virtual WOEdge *duplicate(); - /*! accessors */ + /** accessors */ #if 0 inline WOEdge *GetaCWEdge() { @@ -466,7 +466,7 @@ class WOEdge { return _angle; } - /*! modifiers */ + /** modifiers */ #if 0 inline void SetaCWEdge(WOEdge *pe) { @@ -520,7 +520,7 @@ class WOEdge { _pOwner = pe; } - /*! Retrieves the list of edges in CW order */ + /** Retrieves the list of edges in CW order */ inline void RetrieveCWOrderedEdges(vector<WEdge *> &oEdges); WOEdge *twin(); @@ -579,7 +579,7 @@ class WEdge { userdata = NULL; } - /*! Copy constructor */ + /** Copy constructor */ WEdge(WEdge &iBrother); virtual WEdge *duplicate(); @@ -596,7 +596,7 @@ class WEdge { } } - /*! checks whether two WEdge have a common vertex. + /** checks whether two WEdge have a common vertex. * Returns a pointer on the common vertex if it exists, NULL otherwise. */ static inline WVertex *CommonVertex(WEdge *iEdge1, WEdge *iEdge2) @@ -619,7 +619,7 @@ class WEdge { return NULL; } - /*! accessors */ + /** accessors */ inline WOEdge *GetaOEdge() { return _paOEdge; @@ -675,7 +675,7 @@ class WEdge { } } - /*! modifiers */ + /** modifiers */ inline void setaOEdge(WOEdge *iEdge) { _paOEdge = iEdge; @@ -754,14 +754,14 @@ class WFace { _FrsMaterialIndex = 0; } - /*! copy constructor */ + /** copy constructor */ WFace(WFace &iBrother); virtual WFace *duplicate(); virtual ~WFace() { } - /*! accessors */ + /** accessors */ inline const vector<WOEdge *> &getEdgeList() { return _OEdgeList; @@ -794,7 +794,7 @@ class WFace { const FrsMaterial &frs_material(); - /*! The vertex of index i corresponds to the a vertex of the edge of index i */ + /** The vertex of index i corresponds to the a vertex of the edge of index i */ inline WVertex *GetVertex(unsigned int index) { #if 0 @@ -805,7 +805,7 @@ class WFace { return _OEdgeList[index]->GetaVertex(); } - /*! returns the index at which iVertex is stored in the array. + /** returns the index at which iVertex is stored in the array. * returns -1 if iVertex doesn't belong to the face. */ inline int GetIndex(WVertex *iVertex) @@ -868,19 +868,19 @@ class WFace { return _VerticesTexCoords; } - /*! Returns the normal of the vertex of index index */ + /** Returns the normal of the vertex of index index */ inline Vec3f &GetVertexNormal(int index) { return _VerticesNormals[index]; } - /*! Returns the tex coords of the vertex of index index */ + /** Returns the tex coords of the vertex of index index */ inline Vec2f &GetVertexTexCoords(int index) { return _VerticesTexCoords[index]; } - /*! Returns the normal of the vertex iVertex for that face */ + /** Returns the normal of the vertex iVertex for that face */ inline Vec3f &GetVertexNormal(WVertex *iVertex) { int i = 0; @@ -933,7 +933,7 @@ class WFace { return _OEdgeList.size(); } - /*! Returns true if the face has one ot its edge which is a border edge */ + /** Returns true if the face has one ot its edge which is a border edge */ inline bool isBorder() const { for (vector<WOEdge *>::const_iterator woe = _OEdgeList.begin(), woeend = _OEdgeList.end(); @@ -946,7 +946,7 @@ class WFace { return false; } - /*! modifiers */ + /** modifiers */ inline void setEdgeList(const vector<WOEdge *> &iEdgeList) { _OEdgeList = iEdgeList; @@ -982,13 +982,13 @@ class WFace { _Mark = iMark; } - /*! designed to build a specialized WEdge for use in MakeEdge */ + /** designed to build a specialized WEdge for use in MakeEdge */ virtual WEdge *instanciateEdge() const { return new WEdge; } - /*! Builds an oriented edge + /** Builds an oriented edge * Returns the built edge. * v1, v2 * Vertices at the edge's extremities @@ -996,18 +996,18 @@ class WFace { */ virtual WOEdge *MakeEdge(WVertex *v1, WVertex *v2); - /*! Adds an edge to the edges list */ + /** Adds an edge to the edges list */ inline void AddEdge(WOEdge *iEdge) { _OEdgeList.push_back(iEdge); } - /*! For triangles, returns the edge opposite to the vertex in e. + /** For triangles, returns the edge opposite to the vertex in e. * returns false if the face is not a triangle or if the vertex is not found */ bool getOppositeEdge(const WVertex *v, WOEdge *&e); - /*! compute the area of the face */ + /** compute the area of the face */ float getArea(); WShape *getShape(); @@ -1057,7 +1057,7 @@ class WShape { _SceneCurrentId++; } - /*! copy constructor */ + /** copy constructor */ WShape(WShape &iBrother); virtual WShape *duplicate(); @@ -1088,7 +1088,7 @@ class WShape { } } - /*! accessors */ + /** accessors */ inline vector<WEdge *> &getEdgeList() { return _EdgeList; @@ -1144,7 +1144,7 @@ class WShape { return _LibraryPath; } - /*! modifiers */ + /** modifiers */ static inline void setCurrentId(const unsigned id) { _SceneCurrentId = id; @@ -1198,13 +1198,13 @@ class WShape { _LibraryPath = path; } - /*! designed to build a specialized WFace for use in MakeFace */ + /** designed to build a specialized WFace for use in MakeFace */ virtual WFace *instanciateFace() const { return new WFace; } - /*! adds a new face to the shape + /** adds a new face to the shape * returns the built face. * iVertexList * List of face's vertices. These vertices are not added to the WShape vertex list; they are @@ -1217,7 +1217,7 @@ class WShape { vector<bool> &iFaceEdgeMarksList, unsigned iMaterialIndex); - /*! adds a new face to the shape. The difference with the previous method is that this one is + /** adds a new face to the shape. The difference with the previous method is that this one is * designed to build a WingedEdge structure for which there are per vertex normals, opposed to * per face normals. returns the built face. iVertexList List of face's vertices. These vertices * are not added to the WShape vertex list; they are supposed to be already stored when calling @@ -1309,7 +1309,7 @@ class WShape { #endif protected: - /*! + /** * Builds the face passed as argument (which as already been allocated) * - iVertexList * List of face's vertices. These vertices are not added to the WShape vertex list; diff --git a/source/blender/freestyle/intern/winged_edge/WFillGrid.h b/source/blender/freestyle/intern/winged_edge/WFillGrid.h index 095a58675c0..9398a63333f 100644 --- a/source/blender/freestyle/intern/winged_edge/WFillGrid.h +++ b/source/blender/freestyle/intern/winged_edge/WFillGrid.h @@ -47,7 +47,7 @@ class WFillGrid { void fillGrid(); - /*! Accessors */ + /** Accessors */ WingedEdge *getWingedEdge() { return _winged_edge; @@ -58,7 +58,7 @@ class WFillGrid { return _grid; } - /*! Modifiers */ + /** Modifiers */ void setWingedEdge(WingedEdge *winged_edge) { if (winged_edge) { diff --git a/source/blender/freestyle/intern/winged_edge/WSFillGrid.h b/source/blender/freestyle/intern/winged_edge/WSFillGrid.h index 5393f57d2cd..d4e7f3ca76b 100644 --- a/source/blender/freestyle/intern/winged_edge/WSFillGrid.h +++ b/source/blender/freestyle/intern/winged_edge/WSFillGrid.h @@ -43,7 +43,7 @@ class WSFillGrid { void fillGrid(); - /*! Accessors */ + /** Accessors */ WingedEdge *getWingedEdge() { return _winged_edge; @@ -54,7 +54,7 @@ class WSFillGrid { return _grid; } - /*! Modifiers */ + /** Modifiers */ void setWingedEdge(WingedEdge *winged_edge) { if (winged_edge) { diff --git a/source/blender/freestyle/intern/winged_edge/WXEdge.h b/source/blender/freestyle/intern/winged_edge/WXEdge.h index 8fe99f9bb93..f95913c23f3 100644 --- a/source/blender/freestyle/intern/winged_edge/WXEdge.h +++ b/source/blender/freestyle/intern/winged_edge/WXEdge.h @@ -52,7 +52,7 @@ class WXVertex : public WVertex { _curvatures = NULL; } - /*! Copy constructor */ + /** Copy constructor */ WXVertex(WXVertex &iBrother) : WVertex(iBrother) { _curvatures = new CurvatureInfo(*iBrother._curvatures); @@ -135,7 +135,7 @@ class WXEdge : public WEdge { _order = 0; } - /*! Copy constructor */ + /** Copy constructor */ inline WXEdge(WXEdge &iBrother) : WEdge(iBrother) { _nature = iBrother.nature(); @@ -159,7 +159,7 @@ class WXEdge : public WEdge { _nature = _nature & ~Nature::SUGGESTIVE_CONTOUR; } - /*! accessors */ + /** accessors */ inline WXNature nature() { return _nature; @@ -175,7 +175,7 @@ class WXEdge : public WEdge { return _order; } - /*! modifiers */ + /** modifiers */ inline void setFront(bool iFront) { _front = iFront; @@ -209,7 +209,7 @@ class WXEdge : public WEdge { * * **********************************/ -/*! Class to store a smooth edge (i.e Hertzman & Zorin smooth silhouette edges) */ +/** Class to store a smooth edge (i.e Hertzman & Zorin smooth silhouette edges) */ class WXSmoothEdge { public: typedef unsigned short Configuration; @@ -278,7 +278,7 @@ class WXSmoothEdge { return _config; } - /*! modifiers */ + /** modifiers */ inline void setWOeA(WOEdge *iwoea) { _woea = iwoea; @@ -439,15 +439,15 @@ class WXFaceLayer { } } - /*! If one of the face layer vertex has a DotP equal to 0, this method returns the vertex where + /** If one of the face layer vertex has a DotP equal to 0, this method returns the vertex where * it happens */ unsigned int Get0VertexIndex() const; - /*! In case one of the edge of the triangle is a smooth edge, this method allows to retrieve the + /** In case one of the edge of the triangle is a smooth edge, this method allows to retrieve the * concerned edge */ unsigned int GetSmoothEdgeIndex() const; - /*! retrieves the edges of the triangle for which the signs are different (a null value is not + /** retrieves the edges of the triangle for which the signs are different (a null value is not * considered) for the dotp values at each edge extremity */ void RetrieveCuspEdgesIndices(vector<int> &oCuspEdges); @@ -512,7 +512,7 @@ class WXFace : public WFace { _front = false; } - /*! Copy constructor */ + /** Copy constructor */ WXFace(WXFace &iBrother) : WFace(iBrother) { _center = iBrother.center(); @@ -545,13 +545,13 @@ class WXFace : public WFace { } } - /*! designed to build a specialized WEdge for use in MakeEdge */ + /** designed to build a specialized WEdge for use in MakeEdge */ virtual WEdge *instanciateEdge() const { return new WXEdge; } - /*! accessors */ + /** accessors */ inline Vec3f ¢er() { return _center; @@ -590,7 +590,7 @@ class WXFace : public WFace { return _SmoothLayers; } - /*! retrieve the smooth edges that match the Nature given as argument */ + /** retrieve the smooth edges that match the Nature given as argument */ void retrieveSmoothEdges(WXNature iNature, vector<WXSmoothEdge *> &oSmoothEdges) { for (vector<WXFaceLayer *>::iterator wxf = _SmoothLayers.begin(), wxfend = _SmoothLayers.end(); @@ -624,7 +624,7 @@ class WXFace : public WFace { } } - /*! modifiers */ + /** modifiers */ inline void setCenter(const Vec3f &iCenter) { _center = iCenter; @@ -674,7 +674,7 @@ class WXFace : public WFace { _SmoothLayers = layersToKeep; } - /*! Clears everything */ + /** Clears everything */ inline void Clear() { for (vector<WXFaceLayer *>::iterator wxf = _SmoothLayers.begin(), wxfend = _SmoothLayers.end(); @@ -724,7 +724,7 @@ class WXShape : public WShape { _computeViewIndependent = true; } - /*! copy constructor */ + /** copy constructor */ inline WXShape(WXShape &iBrother) : WShape(iBrother) { _computeViewIndependent = iBrother._computeViewIndependent; @@ -750,13 +750,13 @@ class WXShape : public WShape { _computeViewIndependent = iFlag; } - /*! designed to build a specialized WFace for use in MakeFace */ + /** designed to build a specialized WFace for use in MakeFace */ virtual WFace *instanciateFace() const { return new WXFace; } - /*! + /** * Adds a new face to the shape returns the built face. * - iVertexList * List of face's vertices. @@ -768,7 +768,7 @@ class WXShape : public WShape { vector<bool> &iFaceEdgeMarksList, unsigned iMaterialIndex); - /*! + /** * Adds a new face to the shape. * The difference with the previous method is that this one is designed to build a WingedEdge * structure for which there are per vertex normals, opposed to per face normals. @@ -792,7 +792,7 @@ class WXShape : public WShape { vector<bool> &iFaceEdgeMarksList, unsigned iMaterialIndex); - /*! Reset all edges and vertices flags (which might have been set up on a previous pass) */ + /** Reset all edges and vertices flags (which might have been set up on a previous pass) */ virtual void Reset() { // Reset Edges @@ -807,7 +807,7 @@ class WXShape : public WShape { ((WXFace *)(*wf))->Reset(); } } - /*! accessors */ + /** accessors */ #ifdef WITH_CXX_GUARDEDALLOC MEM_CXX_CLASS_ALLOC_FUNCS("Freestyle:WXShape") |