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geomPrimitive.h
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1/**
2 * PANDA 3D SOFTWARE
3 * Copyright (c) Carnegie Mellon University. All rights reserved.
4 *
5 * All use of this software is subject to the terms of the revised BSD
6 * license. You should have received a copy of this license along
7 * with this source code in a file named "LICENSE."
8 *
9 * @file geomPrimitive.h
10 * @author drose
11 * @date 2005-03-06
12 */
13
14#ifndef GEOMPRIMITIVE_H
15#define GEOMPRIMITIVE_H
16
17#include "pandabase.h"
18#include "geomEnums.h"
19#include "geomVertexArrayData.h"
20#include "geomVertexData.h"
21#include "copyOnWriteObject.h"
22#include "luse.h"
23#include "updateSeq.h"
24#include "pointerTo.h"
25#include "pta_int.h"
26#include "pStatCollector.h"
27#include "cycleData.h"
28#include "cycleDataReader.h"
29#include "cycleDataWriter.h"
32#include "pipelineCycler.h"
33#include "deletedChain.h"
34
38class FactoryParams;
40
41/**
42 * This is an abstract base class for a family of classes that represent the
43 * fundamental geometry primitives that may be stored in a Geom.
44 *
45 * They all have in common the fact that they are defined by tables of vertex
46 * data stored in a GeomVertexData object. Each GeomPrimitive object contains
47 * an ordered list of integers, which index into the vertex array defined by
48 * the GeomVertexData and define the particular vertices of the GeomVertexData
49 * that are used for this primitive.
50 *
51 * The meaning of a given arrangement of vertices is defined by each
52 * individual primitive type; for instance, a GeomTriangle renders a triangle
53 * from each three consecutive vertices, while a GeomTriangleStrip renders a
54 * strip of (n - 2) connected triangles from each sequence of n vertices.
55 */
56class EXPCL_PANDA_GOBJ GeomPrimitive : public CopyOnWriteObject, public GeomEnums {
57protected:
59 virtual PT(CopyOnWriteObject) make_cow_copy();
60
61PUBLISHED:
62 explicit GeomPrimitive(UsageHint usage_hint);
63 GeomPrimitive(const GeomPrimitive &copy);
64 void operator = (const GeomPrimitive &copy);
65 virtual ~GeomPrimitive();
66 ALLOC_DELETED_CHAIN(GeomPrimitive);
67
68 virtual PT(GeomPrimitive) make_copy() const=0;
69
70 virtual PrimitiveType get_primitive_type() const=0;
71 virtual int get_geom_rendering() const;
72 MAKE_PROPERTY(primitive_type, get_primitive_type);
73 MAKE_PROPERTY(geom_rendering, get_geom_rendering);
74
75 INLINE ShadeModel get_shade_model() const;
76 INLINE void set_shade_model(ShadeModel shade_model);
77 MAKE_PROPERTY(shade_model, get_shade_model);
78
79 INLINE UsageHint get_usage_hint() const;
80 void set_usage_hint(UsageHint usage_hint);
81 MAKE_PROPERTY(usage_hint, get_usage_hint);
82
83 INLINE NumericType get_index_type() const;
84 void set_index_type(NumericType index_type);
85 MAKE_PROPERTY(index_type, get_index_type);
86
87 // The following published methods are provided for safe, high-level
88 // iteration through the vertices and sub-primitives within the
89 // GeomPrimitive class. These work correctly regardless of the primitive
90 // type and without depending on knowledge about the way primitives' lengths
91 // are encoded. You can also safely build up a composite primitive using
92 // these methods.
93
94 INLINE bool is_composite() const;
95 INLINE bool is_indexed() const;
96 INLINE int get_first_vertex() const;
97 INLINE int get_num_vertices() const;
98 INLINE int get_vertex(int i) const;
99 MAKE_SEQ(get_vertex_list, get_num_vertices, get_vertex);
100 void add_vertex(int vertex);
101 INLINE void add_vertices(int v1, int v2);
102 INLINE void add_vertices(int v1, int v2, int v3);
103 INLINE void add_vertices(int v1, int v2, int v3, int v4);
104 void add_consecutive_vertices(int start, int num_vertices);
105 void add_next_vertices(int num_vertices);
106 void reserve_num_vertices(int num_vertices);
107 bool close_primitive();
108 void clear_vertices();
109 void offset_vertices(int offset);
110 void offset_vertices(int offset, int begin_row, int end_row);
111 void make_nonindexed(GeomVertexData *dest, const GeomVertexData *source);
112 void pack_vertices(GeomVertexData *dest, const GeomVertexData *source);
113 void make_indexed();
114
115 INLINE int get_num_primitives() const;
116 int get_primitive_start(int n) const;
117 int get_primitive_end(int n) const;
118 int get_primitive_num_vertices(int n) const;
119 int get_num_used_vertices() const;
120
121 INLINE int get_num_faces() const;
122 INLINE int get_primitive_num_faces(int n) const;
123
124 INLINE int get_min_vertex() const;
125 int get_primitive_min_vertex(int n) const;
126 INLINE int get_max_vertex() const;
127 int get_primitive_max_vertex(int n) const;
128
129 CPT(GeomPrimitive) decompose() const;
130 CPT(GeomPrimitive) rotate() const;
131 CPT(GeomPrimitive) doubleside() const;
132 CPT(GeomPrimitive) reverse() const;
133 CPT(GeomPrimitive) match_shade_model(ShadeModel shade_model) const;
134 CPT(GeomPrimitive) make_points() const;
135 CPT(GeomPrimitive) make_lines() const;
136 CPT(GeomPrimitive) make_patches() const;
137 virtual CPT(GeomPrimitive) make_adjacency() const;
138
139 int get_num_bytes() const;
140 INLINE int get_data_size_bytes() const;
141 INLINE UpdateSeq get_modified() const;
142 MAKE_PROPERTY(num_bytes, get_num_bytes);
143 MAKE_PROPERTY(data_size_bytes, get_data_size_bytes);
144 MAKE_PROPERTY(modified, get_modified);
145
146 bool request_resident(Thread *current_thread = Thread::get_current_thread()) const;
147
148 INLINE bool check_valid(const GeomVertexData *vertex_data) const;
149 INLINE bool check_valid(const GeomVertexDataPipelineReader *data_reader) const;
150
151 virtual void output(std::ostream &out) const;
152 virtual void write(std::ostream &out, int indent_level) const;
153
154PUBLISHED:
155/*
156 * These public methods are not intended for high-level usage. They are
157 * public so that low-level code that absolutely needs fast access to the
158 * primitive data can get to it, but using them requires knowledge about how
159 * the component primitives are encoded within the GeomPrimitive class, and
160 * it's easy to screw something up. Also, if too many code samples depend on
161 * this internal knowledge, it may make it difficult to extend this class
162 * later. It is recommended that application-level code use the above
163 * interfaces instead.
164 */
165
166 INLINE CPT(GeomVertexArrayData) get_vertices() const;
167 INLINE CPT(GeomVertexArrayDataHandle) get_vertices_handle(Thread *current_thread) const;
168 PT(GeomVertexArrayData) modify_vertices(int num_vertices = -1);
169 INLINE PT(GeomVertexArrayDataHandle) modify_vertices_handle(Thread *current_thread);
170 void set_vertices(const GeomVertexArrayData *vertices, int num_vertices = -1);
171 void set_nonindexed_vertices(int first_vertex, int num_vertices);
172
173 INLINE int get_index_stride() const;
174 INLINE int get_strip_cut_index() const;
175 MAKE_PROPERTY(index_stride, get_index_stride);
176 MAKE_PROPERTY(strip_cut_index, get_strip_cut_index);
177
178 INLINE CPTA_int get_ends() const;
179 PTA_int modify_ends();
180 void set_ends(PTA_int ends);
181
182 INLINE CPT(GeomVertexArrayData) get_mins() const;
183 INLINE CPT(GeomVertexArrayData) get_maxs() const;
184 MAKE_PROPERTY(mins, get_mins);
185 MAKE_PROPERTY(maxs, get_maxs);
186
187 void set_minmax(int min_vertex, int max_vertex,
189 void clear_minmax();
190
191 virtual int get_num_vertices_per_primitive() const;
192 virtual int get_min_num_vertices_per_primitive() const;
193 virtual int get_num_unused_vertices_per_primitive() const;
194 MAKE_PROPERTY(num_vertices_per_primitive, get_num_vertices_per_primitive);
195 MAKE_PROPERTY(min_num_vertices_per_primitive, get_min_num_vertices_per_primitive);
196 MAKE_PROPERTY(num_unused_vertices_per_primitive, get_num_unused_vertices_per_primitive);
197
198public:
199 void prepare(PreparedGraphicsObjects *prepared_objects);
200 bool is_prepared(PreparedGraphicsObjects *prepared_objects) const;
201
202 IndexBufferContext *prepare_now(PreparedGraphicsObjects *prepared_objects,
204 bool release(PreparedGraphicsObjects *prepared_objects);
205 int release_all();
206
207 static const GeomVertexArrayFormat *get_index_format(NumericType index_type);
208 INLINE const GeomVertexArrayFormat *get_index_format() const;
209 INLINE PT(GeomVertexArrayData) make_index_data() const;
210
211private:
212 static CPT(GeomVertexArrayFormat) make_index_format(NumericType index_type);
213
214 void clear_prepared(PreparedGraphicsObjects *prepared_objects);
215 static int get_highest_index_value(NumericType index_type);
216 static int get_strip_cut_index(NumericType index_type);
217
218public:
219 virtual bool draw(GraphicsStateGuardianBase *gsg,
220 const GeomPrimitivePipelineReader *reader,
221 bool force) const=0;
222
223 void calc_tight_bounds(LPoint3 &min_point, LPoint3 &max_point,
224 PN_stdfloat &sq_center_dist, bool &found_any,
225 const GeomVertexData *vertex_data,
226 bool got_mat, const LMatrix4 &mat,
227 const InternalName *column_name,
228 Thread *current_thread) const;
229
230 void calc_sphere_radius(const LPoint3 &center,
231 PN_stdfloat &sq_radius, bool &found_any,
232 const GeomVertexData *vertex_data,
233 Thread *current_thread) const;
234
235protected:
236 virtual CPT(GeomPrimitive) decompose_impl() const;
237 virtual CPT(GeomVertexArrayData) rotate_impl() const;
238 virtual CPT(GeomPrimitive) doubleside_impl() const;
239 virtual CPT(GeomPrimitive) reverse_impl() const;
240 virtual bool requires_unused_vertices() const;
241 virtual void append_unused_vertices(GeomVertexArrayData *vertices,
242 int vertex);
243
244private:
245 class CData;
246
247 void recompute_minmax(CData *cdata);
248 void do_make_indexed(CData *cdata);
249 void consider_elevate_index_type(CData *cdata, int vertex);
250 void do_set_index_type(CData *cdata, NumericType index_type);
251 PT(GeomVertexArrayData) do_modify_vertices(CData *cdata);
252
253private:
254 // A GeomPrimitive keeps a list (actually, a map) of all the
255 // PreparedGraphicsObjects tables that it has been prepared into. Each PGO
256 // conversely keeps a list (a set) of all the Geoms that have been prepared
257 // there. When either destructs, it removes itself from the other's list.
259 Contexts _contexts;
260
261 // This is the data that must be cycled between pipeline stages.
262 class EXPCL_PANDA_GOBJ CData : public CycleData {
263 public:
264 INLINE CData();
265 INLINE CData(const CData &copy);
266 ALLOC_DELETED_CHAIN(CData);
267
268 virtual CycleData *make_copy() const;
269 virtual void write_datagram(BamWriter *manager, Datagram &dg) const;
270 virtual int complete_pointers(TypedWritable **plist, BamReader *manager);
271 virtual void fillin(DatagramIterator &scan, BamReader *manager);
272 virtual TypeHandle get_parent_type() const {
273 return GeomPrimitive::get_class_type();
274 }
275
276 ShadeModel _shade_model;
277 int _first_vertex;
278 int _num_vertices;
279 NumericType _index_type;
280 UsageHint _usage_hint;
281 COWPT(GeomVertexArrayData) _vertices;
282 PTA_int _ends;
283 COWPT(GeomVertexArrayData) _mins;
284 COWPT(GeomVertexArrayData) _maxs;
285 UpdateSeq _modified;
286
287 bool _got_minmax;
288 unsigned int _min_vertex;
289 unsigned int _max_vertex;
290
291 public:
292 static TypeHandle get_class_type() {
293 return _type_handle;
294 }
295 static void init_type() {
296 register_type(_type_handle, "GeomPrimitive::CData");
297 }
298
299 private:
300 static TypeHandle _type_handle;
301
302 friend class GeomPrimitive;
303 };
304
305 PipelineCycler<CData> _cycler;
306 typedef CycleDataReader<CData> CDReader;
307 typedef CycleDataWriter<CData> CDWriter;
308 typedef CycleDataStageReader<CData> CDStageReader;
309 typedef CycleDataStageWriter<CData> CDStageWriter;
310
311private:
312 static PStatCollector _decompose_pcollector;
313 static PStatCollector _doubleside_pcollector;
314 static PStatCollector _reverse_pcollector;
315 static PStatCollector _rotate_pcollector;
316
317public:
318 virtual void write_datagram(BamWriter *manager, Datagram &dg);
319
320 virtual void finalize(BamReader *manager);
321
322protected:
323 void fillin(DatagramIterator &scan, BamReader *manager);
324
325public:
326 static TypeHandle get_class_type() {
327 return _type_handle;
328 }
329 static void init_type() {
330 CopyOnWriteObject::init_type();
331 register_type(_type_handle, "GeomPrimitive",
332 CopyOnWriteObject::get_class_type());
333 CData::init_type();
334 }
335 virtual TypeHandle get_type() const {
336 return get_class_type();
337 }
338 virtual TypeHandle force_init_type() {init_type(); return get_class_type();}
339
340private:
341 static TypeHandle _type_handle;
342
343 friend class Geom;
344 friend class PreparedGraphicsObjects;
345 friend class GeomPrimitivePipelineReader;
346};
347
348/**
349 * Encapsulates the data from a GeomPrimitive, pre-fetched for one stage of
350 * the pipeline.
351 */
352class EXPCL_PANDA_GOBJ GeomPrimitivePipelineReader : public GeomEnums {
353public:
354 INLINE GeomPrimitivePipelineReader(CPT(GeomPrimitive) object, Thread *current_thread);
357
358 ALLOC_DELETED_CHAIN(GeomPrimitivePipelineReader);
359
360 GeomPrimitivePipelineReader &operator = (const GeomPrimitivePipelineReader &copy) = delete;
361
362 INLINE const GeomPrimitive *get_object() const;
363 INLINE Thread *get_current_thread() const;
364
365 void check_minmax() const;
366
367 INLINE ShadeModel get_shade_model() const;
368 INLINE UsageHint get_usage_hint() const;
369 INLINE NumericType get_index_type() const;
370 INLINE bool is_indexed() const;
371 int get_first_vertex() const;
372 INLINE int get_num_vertices() const;
373 int get_vertex(int i) const;
374 int get_num_primitives() const;
375 void get_referenced_vertices(BitArray &bits) const;
376 INLINE int get_min_vertex() const;
377 INLINE int get_max_vertex() const;
378 INLINE int get_data_size_bytes() const;
379 INLINE UpdateSeq get_modified() const;
380 bool check_valid(const GeomVertexDataPipelineReader *data_reader) const;
381 INLINE int get_index_stride() const;
382 INLINE const unsigned char *get_read_pointer(bool force) const;
383 INLINE int get_strip_cut_index() const;
384 INLINE CPTA_int get_ends() const;
385 INLINE CPT(GeomVertexArrayData) get_mins() const;
386 INLINE CPT(GeomVertexArrayData) get_maxs() const;
387
388 INLINE IndexBufferContext *prepare_now(PreparedGraphicsObjects *prepared_objects,
389 GraphicsStateGuardianBase *gsg) const;
390 INLINE bool draw(GraphicsStateGuardianBase *gsg, bool force) const;
391
392private:
393 CPT(GeomPrimitive) _object;
394 Thread *_current_thread;
395 const GeomPrimitive::CData *_cdata;
396
397 CPT(GeomVertexArrayData) _vertices;
398 const GeomVertexArrayData::CData *_vertices_cdata;
399
400public:
401 static TypeHandle get_class_type() {
402 return _type_handle;
403 }
404 static void init_type() {
405 register_type(_type_handle, "GeomPrimitivePipelineReader");
406 }
407
408private:
409 static TypeHandle _type_handle;
410};
411
412INLINE std::ostream &operator << (std::ostream &out, const GeomPrimitive &obj);
413
414#include "geomPrimitive.I"
415
416#endif
This is the fundamental interface for extracting binary objects from a Bam file, as generated by a Ba...
Definition bamReader.h:110
This is the fundamental interface for writing binary objects to a Bam file, to be extracted later by ...
Definition bamWriter.h:63
A dynamic array with an unlimited number of bits.
Definition bitArray.h:40
Similar to PointerToArray, except that its contents may not be modified.
This base class provides basic reference counting, but also can be used with a CopyOnWritePointer to ...
This template class calls PipelineCycler::read_unlocked(), and then provides a transparent read-only ...
This class is similar to CycleDataReader, except it allows reading from a particular stage of the pip...
This class is similar to CycleDataWriter, except it allows writing to a particular stage of the pipel...
This template class calls PipelineCycler::write() in the constructor and PipelineCycler::release_writ...
A single page of data maintained by a PipelineCycler.
Definition cycleData.h:50
A class to retrieve the individual data elements previously stored in a Datagram.
An ordered list of data elements, formatted in memory for transmission over a socket or writing to a ...
Definition datagram.h:38
An instance of this class is passed to the Factory when requesting it to do its business and construc...
This class exists just to provide scoping for the various enumerated types used by Geom,...
Definition geomEnums.h:24
Encapsulates the data from a GeomPrimitive, pre-fetched for one stage of the pipeline.
This is an abstract base class for a family of classes that represent the fundamental geometry primit...
This data object is returned by GeomVertexArrayData::get_handle() or modify_handle().
This is the data for one array of a GeomVertexData structure.
This describes the structure of a single array within a Geom data.
Encapsulates the data from a GeomVertexData, pre-fetched for one stage of the pipeline.
This defines the actual numeric vertex data stored in a Geom, in the structure defined by a particula...
A container for geometry primitives.
Definition geom.h:54
This is a base class for the GraphicsStateGuardian class, which is itself a base class for the variou...
This is a special class object that holds all the information returned by a particular GSG to indicat...
Encodes a string name in a hash table, mapping it to a pointer.
A lightweight class that represents a single element that may be timed and/or counted via stats.
A table of objects that are saved within the graphics context for reference by handle later.
A thread; that is, a lightweight process.
Definition thread.h:46
get_current_thread
Returns a pointer to the currently-executing Thread object.
Definition thread.h:109
TypeHandle is the identifier used to differentiate C++ class types.
Definition typeHandle.h:81
Base class for objects that can be written to and read from Bam files.
virtual void finalize(BamReader *manager)
Called by the BamReader to perform any final actions needed for setting up the object after all objec...
virtual void fillin(DatagramIterator &scan, BamReader *manager)
This internal function is intended to be called by each class's make_from_bam() method to read in all...
virtual void write_datagram(BamWriter *manager, Datagram &dg)
Writes the contents of this object to the datagram for shipping out to a Bam file.
virtual int complete_pointers(TypedWritable **p_list, BamReader *manager)
Receives an array of pointers, one for each time manager->read_pointer() was called in fillin().
This is a sequence number that increments monotonically.
Definition updateSeq.h:37
This is our own Panda specialization on the default STL list.
Definition plist.h:35
This is our own Panda specialization on the default STL map.
Definition pmap.h:49
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
void register_type(TypeHandle &type_handle, const std::string &name)
This inline function is just a convenient way to call TypeRegistry::register_type(),...
This class maintains different copies of a page of data between stages of the graphics pipeline (or a...
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.