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preparedGraphicsObjects.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 preparedGraphicsObjects.h
10 * @author drose
11 * @date 2004-02-19
12 */
13
14#ifndef PREPAREDGRAPHICSOBJECTS_H
15#define PREPAREDGRAPHICSOBJECTS_H
16
17#include "pandabase.h"
18#include "referenceCount.h"
19#include "texture.h"
20#include "samplerState.h"
21#include "geom.h"
22#include "geomVertexArrayData.h"
23#include "geomPrimitive.h"
24#include "shader.h"
25#include "shaderBuffer.h"
26#include "pointerTo.h"
27#include "pStatCollector.h"
28#include "pset.h"
29#include "reMutex.h"
31#include "adaptiveLru.h"
32#include "asyncFuture.h"
33
34class TextureContext;
35class SamplerContext;
36class GeomContext;
37class ShaderContext;
40class BufferContext;
42class SavedContext;
43
44/**
45 * A table of objects that are saved within the graphics context for reference
46 * by handle later. Generally, this represents things like OpenGL texture
47 * objects or display lists (or their equivalent on other platforms).
48 *
49 * This object simply records the pointers to the context objects created by
50 * the individual GSG's; these context objects will contain enough information
51 * to reference or release the actual object stored within the graphics
52 * context.
53 *
54 * These tables may potentially be shared between related graphics contexts,
55 * hence their storage here in a separate object rather than as a part of the
56 * GraphicsStateGuardian.
57 */
58class EXPCL_PANDA_GOBJ PreparedGraphicsObjects : public ReferenceCount {
59public:
62
63PUBLISHED:
64 INLINE const std::string &get_name() const;
65
66 void set_graphics_memory_limit(size_t limit);
67 INLINE size_t get_graphics_memory_limit() const;
68 void show_graphics_memory_lru(std::ostream &out) const;
69 void show_residency_trackers(std::ostream &out) const;
70
71 INLINE void release_all();
72 INLINE int get_num_queued() const;
73 INLINE int get_num_prepared() const;
74
75 void enqueue_texture(Texture *tex);
76 bool is_texture_queued(const Texture *tex) const;
77 bool dequeue_texture(Texture *tex);
78 bool is_texture_prepared(const Texture *tex) const;
79 void release_texture(TextureContext *tc);
80 void release_texture(Texture *tex);
81 int release_all_textures();
82 int get_num_queued_textures() const;
83 int get_num_prepared_textures() const;
84
85 TextureContext *prepare_texture_now(Texture *tex, int view,
87
88 void enqueue_sampler(const SamplerState &sampler);
89 bool is_sampler_queued(const SamplerState &sampler) const;
90 bool dequeue_sampler(const SamplerState &sampler);
91 bool is_sampler_prepared(const SamplerState &sampler) const;
92 void release_sampler(SamplerContext *sc);
93 void release_sampler(const SamplerState &sampler);
94 int release_all_samplers();
95 int get_num_queued_samplers() const;
96 int get_num_prepared_samplers() const;
97
98 SamplerContext *prepare_sampler_now(const SamplerState &sampler,
100
101 void enqueue_geom(Geom *geom);
102 bool is_geom_queued(const Geom *geom) const;
103 bool dequeue_geom(Geom *geom);
104 bool is_geom_prepared(const Geom *geom) const;
105 void release_geom(GeomContext *gc);
106 int release_all_geoms();
107 int get_num_queued_geoms() const;
108 int get_num_prepared_geoms() const;
109
110 GeomContext *prepare_geom_now(Geom *geom, GraphicsStateGuardianBase *gsg);
111
112 void enqueue_shader(Shader *shader);
113 bool is_shader_queued(const Shader *shader) const;
114 bool dequeue_shader(Shader *shader);
115 bool is_shader_prepared(const Shader *shader) const;
116 void release_shader(ShaderContext *sc);
117 int release_all_shaders();
118 int get_num_queued_shaders() const;
119 int get_num_prepared_shaders() const;
120
121 ShaderContext *prepare_shader_now(Shader *shader, GraphicsStateGuardianBase *gsg);
122
123 void enqueue_vertex_buffer(GeomVertexArrayData *data);
124 bool is_vertex_buffer_queued(const GeomVertexArrayData *data) const;
125 bool dequeue_vertex_buffer(GeomVertexArrayData *data);
126 bool is_vertex_buffer_prepared(const GeomVertexArrayData *data) const;
127 void release_vertex_buffer(VertexBufferContext *vbc);
128 int release_all_vertex_buffers();
129 int get_num_queued_vertex_buffers() const;
130 int get_num_prepared_vertex_buffers() const;
131
133 prepare_vertex_buffer_now(GeomVertexArrayData *data,
135
136 void enqueue_index_buffer(GeomPrimitive *data);
137 bool is_index_buffer_queued(const GeomPrimitive *data) const;
138 bool dequeue_index_buffer(GeomPrimitive *data);
139 bool is_index_buffer_prepared(const GeomPrimitive *data) const;
140 void release_index_buffer(IndexBufferContext *ibc);
141 int release_all_index_buffers();
142 int get_num_queued_index_buffers() const;
143 int get_num_prepared_index_buffers() const;
144
146 prepare_index_buffer_now(GeomPrimitive *data,
148
149 void enqueue_shader_buffer(ShaderBuffer *data);
150 bool is_shader_buffer_queued(const ShaderBuffer *data) const;
151 bool dequeue_shader_buffer(ShaderBuffer *data);
152 bool is_shader_buffer_prepared(const ShaderBuffer *data) const;
153 void release_shader_buffer(BufferContext *bc);
154 int release_all_shader_buffers();
155 int get_num_queued_shader_buffers() const;
156 int get_num_prepared_shader_buffers() const;
157
159 prepare_shader_buffer_now(ShaderBuffer *data,
161
162public:
163 /**
164 * This is a handle to an enqueued object, from which the result can be
165 * obtained upon completion.
166 */
167 class EXPCL_PANDA_GOBJ EnqueuedObject final : public AsyncFuture {
168 public:
170
171 TypedWritableReferenceCount *get_object() { return _object.p(); }
172 SavedContext *get_result() { return (SavedContext *)AsyncFuture::get_result(); }
173 void set_result(SavedContext *result);
174
175 void notify_removed();
176 virtual bool cancel() final;
177
178 PUBLISHED:
179 MAKE_PROPERTY(object, get_object);
180
181 private:
183 PT(TypedWritableReferenceCount) const _object;
184
185 public:
186 static TypeHandle get_class_type() {
187 return _type_handle;
188 }
189 static void init_type() {
190 AsyncFuture::init_type();
191 register_type(_type_handle, "EnqueuedObject",
192 AsyncFuture::get_class_type());
193 }
194 virtual TypeHandle get_type() const {
195 return get_class_type();
196 }
197 virtual TypeHandle force_init_type() {init_type(); return get_class_type();}
198
199 private:
200 static TypeHandle _type_handle;
201 };
202
203 // These are variations of enqueue_xxx that also return a future. They are
204 // used to implement texture->prepare(), etc. They are only marked public
205 // so we don't have to define a whole bunch of friend classes.
206 PT(EnqueuedObject) enqueue_texture_future(Texture *tex);
207 //PT(EnqueuedObject) enqueue_geom_future(Geom *geom);
208 PT(EnqueuedObject) enqueue_shader_future(Shader *shader);
209 //PT(EnqueuedObject) enqueue_vertex_buffer_future(GeomVertexArrayData *data);
210 //PT(EnqueuedObject) enqueue_index_buffer_future(GeomPrimitive *data);
211 //PT(EnqueuedObject) enqueue_shader_buffer_future(ShaderBuffer *data);
212
213 void begin_frame(GraphicsStateGuardianBase *gsg,
214 Thread *current_thread);
215 void end_frame(Thread *current_thread);
216
217private:
218 static std::string init_name();
219
220private:
221 typedef phash_set<TextureContext *, pointer_hash> Textures;
222 typedef phash_map< PT(Texture), PT(EnqueuedObject) > EnqueuedTextures;
223 typedef phash_set<GeomContext *, pointer_hash> Geoms;
224 typedef phash_set< PT(Geom) > EnqueuedGeoms;
225 typedef phash_set<ShaderContext *, pointer_hash> Shaders;
226 typedef phash_map< PT(Shader), PT(EnqueuedObject) > EnqueuedShaders;
227 typedef phash_set<BufferContext *, pointer_hash> Buffers;
228 typedef phash_set< PT(GeomVertexArrayData) > EnqueuedVertexBuffers;
229 typedef phash_set< PT(GeomPrimitive) > EnqueuedIndexBuffers;
230 typedef phash_set< PT(ShaderBuffer) > EnqueuedShaderBuffers;
231
232 // Sampler states are stored a little bit differently, as they are mapped by
233 // value and can't store the list of prepared samplers.
237
238 class BufferCacheKey {
239 public:
240 INLINE bool operator < (const BufferCacheKey &other) const;
241 INLINE bool operator == (const BufferCacheKey &other) const;
242 INLINE bool operator != (const BufferCacheKey &other) const;
243 size_t _data_size_bytes;
244 GeomEnums::UsageHint _usage_hint;
245 };
246 typedef pvector<BufferContext *> BufferList;
247 typedef pmap<BufferCacheKey, BufferList> BufferCache;
248 typedef plist<BufferCacheKey> BufferCacheLRU;
249
250 void cache_unprepared_buffer(BufferContext *buffer, size_t data_size_bytes,
251 GeomEnums::UsageHint usage_hint,
252 BufferCache &buffer_cache,
253 BufferCacheLRU &buffer_cache_lru,
254 size_t &buffer_cache_size,
255 int released_buffer_cache_size,
256 Buffers &released_buffers);
257 BufferContext *get_cached_buffer(size_t data_size_bytes,
258 GeomEnums::UsageHint usage_hint,
259 BufferCache &buffer_cache,
260 BufferCacheLRU &buffer_cache_lru,
261 size_t &buffer_cache_size);
262
263 ReMutex _lock;
264 std::string _name;
265 Textures _prepared_textures, _released_textures;
266 EnqueuedTextures _enqueued_textures;
267 PreparedSamplers _prepared_samplers;
268 ReleasedSamplers _released_samplers;
269 EnqueuedSamplers _enqueued_samplers;
270 Geoms _prepared_geoms, _released_geoms;
271 EnqueuedGeoms _enqueued_geoms;
272 Shaders _prepared_shaders, _released_shaders;
273 EnqueuedShaders _enqueued_shaders;
274 Buffers _prepared_vertex_buffers, _released_vertex_buffers;
275 EnqueuedVertexBuffers _enqueued_vertex_buffers;
276 Buffers _prepared_index_buffers, _released_index_buffers;
277 EnqueuedIndexBuffers _enqueued_index_buffers;
278 Buffers _prepared_shader_buffers, _released_shader_buffers;
279 EnqueuedShaderBuffers _enqueued_shader_buffers;
280
281 BufferCache _vertex_buffer_cache;
282 BufferCacheLRU _vertex_buffer_cache_lru;
283 size_t _vertex_buffer_cache_size;
284
285 BufferCache _index_buffer_cache;
286 BufferCacheLRU _index_buffer_cache_lru;
287 size_t _index_buffer_cache_size;
288
289public:
290 BufferResidencyTracker _texture_residency;
291 BufferResidencyTracker _vbuffer_residency;
292 BufferResidencyTracker _ibuffer_residency;
293 BufferResidencyTracker _sbuffer_residency;
294
295 AdaptiveLru _graphics_memory_lru;
296 SimpleLru _sampler_object_lru;
297
298public:
299 // This is only public as a temporary hack. Don't mess with it unless you
300 // know what you're doing.
301 bool _support_released_buffer_cache;
302
303private:
304 static int _name_index;
305
306 friend class GraphicsStateGuardian;
307};
308
310
311#endif
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
A basic LRU-type algorithm, except that it is adaptive and attempts to avoid evicting pages that have...
Definition adaptiveLru.h:45
This class represents a thread-safe handle to a promised future result of an asynchronous operation,...
Definition asyncFuture.h:61
TypedObject * get_result() const
Returns this future's result.
Definition asyncFuture.I:65
This is a base class for those kinds of SavedContexts that occupy an easily-measured (and substantial...
This class is used to keep track of the current state of all the BufferContexts for a particular grap...
This is a special class object that holds all the information returned by a particular GSG to indicat...
Definition geomContext.h:34
This is an abstract base class for a family of classes that represent the fundamental geometry primit...
This is the data for one array of a GeomVertexData structure.
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...
Encapsulates all the communication with a particular instance of a given rendering backend.
This is a special class object that holds all the information returned by a particular GSG to indicat...
This is a handle to an enqueued object, from which the result can be obtained upon completion.
A table of objects that are saved within the graphics context for reference by handle later.
A reentrant mutex.
Definition reMutex.h:34
A base class for all things that want to be reference-counted.
This is a special class object that holds a handle to the sampler state object given by the graphics ...
Represents a set of settings that indicate how a texture is sampled.
This is the base class for all GSG-specific context objects, such as TextureContext and GeomContext.
This is a generic buffer object that lives in graphics memory.
The ShaderContext is meant to contain the compiled version of a shader string.
An implementation of a very simple LRU algorithm.
Definition simpleLru.h:28
This is a special class object that holds all the information returned by a particular GSG to indicat...
Represents a texture object, which is typically a single 2-d image but may also represent a 1-d or 3-...
Definition texture.h:72
A thread; that is, a lightweight process.
Definition thread.h:46
TypeHandle is the identifier used to differentiate C++ class types.
Definition typeHandle.h:81
A base class for things which need to inherit from both TypedWritable and from ReferenceCount.
This is a special class object that holds all the information returned by a particular GSG to indicat...
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
This is our own Panda specialization on the default STL set.
Definition pset.h:49
This is our own Panda specialization on the default STL vector.
Definition pvector.h:42
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(),...
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.