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GTS_PSURFACE_CLASS()

#define     GTS_PSURFACE_CLASS(klass)

Casts klass to GtsPSurfaceClass.

klass : a descendant of GtsPSurfaceClass.

GTS_PSURFACE()

#define     GTS_PSURFACE(obj)

Casts obj to GtsPSurface.

obj : a descendant of GtsPSurface.

GTS_IS_PSURFACE()

#define     GTS_IS_PSURFACE(obj)

Evaluates to TRUE if obj is a GtsPSurface, FALSE otherwise.

obj : a pointer to test.

GTS_PSURFACE_IS_CLOSED()

#define GTS_PSURFACE_IS_CLOSED(ps)  (!(ps)->vertices)

Evaluates to TRUE if ps has not been created with gts_psurface_open() or if it has been closed using gts_psurface_close().

ps : a GtsPSurface.

struct GtsPSurfaceClass

struct GtsPSurfaceClass;

The progressive surface class derived from GtsObjectClass.

struct GtsPSurface

struct GtsPSurface {
  GtsObject object;

  GtsSurface * s;
  GPtrArray * split;
  GtsSplitClass * split_class;
  guint pos, min;

  GPtrArray * vertices;
  GPtrArray * faces;
};

The progressive surface object. derived from GtsObject. The field s is the GtsSurface being refined or coarsened by operations on the progressive surface. All the other fields must be considered private and accessed only through the following functions.

GtsObject `object`	The parent object.
GtsSurface *`s`	The GtsSurface being refined or coarsened by operations on the progressive surface.
GPtrArray *`split`
GtsSplitClass *`split_class`
guint `pos`
guint `min`
GPtrArray *`vertices`
GPtrArray *`faces`

gts_psurface_class ()

GtsPSurfaceClass* gts_psurface_class        (void);

Returns :

the GtsPSurfaceClass.

gts_psurface_new ()

GtsPSurface* gts_psurface_new               (GtsPSurfaceClass *klass,
                                             GtsSurface *surface,
                                             GtsSplitClass *split_class,
                                             GtsKeyFunc cost_func,
                                             gpointer cost_data,
                                             GtsCoarsenFunc coarsen_func,
                                             gpointer coarsen_data,
                                             GtsStopFunc stop_func,
                                             gpointer stop_data,
                                             gdouble minangle);

This function works in exactly the same way as the gts_surface_coarsen() function, except that the history of edge collapse is saved in an array of GtsSplit objects. This allows for dynamic continuous multiresolution control of the input surface.

`klass` :	a GtsPSurfaceClass.
`surface` :	a GtsSurface.
`split_class` :	a GtsSplitClass to use for the new progressive surface.
`cost_func` :	cost function for the edge collapse algorithm.
`cost_data` :	data to pass to `cost_func`.
`coarsen_func` :	the function returning the vertex replacement for the edge collapse.
`coarsen_data` :	data to pass to `coarsen_func`.
`stop_func` :	the function to call to decide whether to stop the coarsening process.
`stop_data` :	data to pass to `stop_func`.
`minangle` :	the minimum angle allowable between two neighboring triangles. This is used to avoid introducing folds in the mesh during simplification.
Returns :	a new progressive surface.

gts_psurface_add_vertex ()

GtsSplit*   gts_psurface_add_vertex         (GtsPSurface *ps);

Adds a vertex to the progressive surface ps by expanding the next available GtsSplit.

`ps` :	a GtsPSurface.
Returns :	the expanded GtsSplit or `NULL` if all the GtsSplit have already been expanded.

gts_psurface_remove_vertex ()

GtsSplit*   gts_psurface_remove_vertex      (GtsPSurface *ps);

Removes one vertex from the progressive surface ps by collapsing the first available GtsSplit.

`ps` :	a GtsPSurface.
Returns :	the collapsed GtsSplit or `NULL` if all the GtsSplit have already been collapsed.

gts_psurface_set_vertex_number ()

void        gts_psurface_set_vertex_number  (GtsPSurface *ps,
                                             guint n);

Performs the required number of collapses or expansions to set the number of vertices of ps to n.

`ps` :	a GtsPSurface.
`n` :	a number of vertices.

gts_psurface_get_vertex_number ()

guint       gts_psurface_get_vertex_number  (GtsPSurface *ps);

`ps` :	a GtsPSurface.
Returns :	the current number of vertices of `ps`.

gts_psurface_min_vertex_number ()

guint       gts_psurface_min_vertex_number  (GtsPSurface *ps);

`ps` :	a GtsPSurface.
Returns :	the minimum number of vertices of `ps` i.e. the number of vertices if all the GtsSplit were collapsed.

gts_psurface_max_vertex_number ()

guint       gts_psurface_max_vertex_number  (GtsPSurface *ps);

`ps` :	a GtsPSurface.
Returns :	the maximum number of vertices of `ps` i.e. the number of vertices if all the GtsSplit were expanded.

gts_psurface_foreach_vertex ()

void        gts_psurface_foreach_vertex     (GtsPSurface *ps,
                                             GtsFunc func,
                                             gpointer data);

Calls func for each (potential) vertex of ps, whether actually used or not. The vertices are called in the order they were created during the edge collapse operation.

`ps` :	a GtsPSurface.
`func` :	a function to call for each vertex of `ps`.
`data` :	data to be passed to `func`.

gts_psurface_open ()

GtsPSurface* gts_psurface_open              (GtsPSurfaceClass *klass,
                                             GtsSurface *s,
                                             GtsSplitClass *split_class,
                                             GtsFile *f);

Creates a new GtsPSurface prepared for input from the file f containing a valid GTS representation of a progressive surface. The initial shape of the progressive surface is loaded into s.

Before being usable as such this progressive surface must be closed using gts_psurface_close(). While open however, the functions gts_psurface_get_vertex_number(), gts_psurface_min_vertex_number() and gts_psurface_max_vertex_number() can still be used.

`klass` :	a GtsPSurfaceClass.
`s` :	a GtsSurface.
`split_class` :	a GtsSplitClass to use for the GtsSplit.
`f` :	a GtsFile.
Returns :	a new GtsPSurface or `NULL` if there was a format error while reading the file, in which case `f` contains information about the error.

gts_psurface_read_vertex ()

GtsSplit*   gts_psurface_read_vertex        (GtsPSurface *ps,
                                             GtsFile *fp);

Reads in one vertex split operation from fp and performs the expansion.

If an error occurs while reading the file, the error field of fp is set.

`ps` :	a GtsPSurface prealably created with gts_psurface_open().
`fp` :	a GtsFile.
Returns :	the newly created GtsSplit or `NULL` if no vertex split could be read from `fp`.

gts_psurface_close ()

void        gts_psurface_close              (GtsPSurface *ps);

Closes a progressive surface.

ps : a GtsPSurface prealably created with gts_psurface_open().

gts_psurface_write ()

void        gts_psurface_write              (GtsPSurface *ps,
                                             FILE *fptr);

Writes to fptr a GTS progressive surface description.

`ps` :	a GtsPSurface.
`fptr` :	a file pointer.

Progressive surfaces

Name

Synopsis

Description