Panda3D
pStatClient.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 pStatClient.h
10 * @author drose
11 * @date 2000-07-09
12 */
13
14#ifndef PSTATCLIENT_H
15#define PSTATCLIENT_H
16
17#include "pandabase.h"
18
19#include "pStatFrameData.h"
20#include "pStatCollectorDef.h"
21#include "reMutex.h"
22#include "lightMutex.h"
23#include "reMutexHolder.h"
24#include "lightMutexHolder.h"
25#include "pmap.h"
26#include "thread.h"
27#include "weakPointerTo.h"
28#include "vector_int.h"
29#include "atomicAdjust.h"
30#include "numeric_types.h"
31#include "bitArray.h"
32
33class PStatClientImpl;
34class PStatCollector;
36class PStatThread;
38
39/**
40 * Manages the communications to report statistics via a network connection to
41 * a remote PStatServer.
42 *
43 * Normally, there is only one PStatClient in the world, although it is
44 * possible to have multiple PStatClients if extraordinary circumstances
45 * require in. Since each PStatCollector registers itself with the
46 * PStatClient when it is created, having multiple PStatClients requires
47 * special care when constructing the various PStatCollectors.
48 *
49 * If DO_PSTATS is not defined, we don't want to use stats at all. This class
50 * is therefore defined as a stub class.
51 */
52#ifdef DO_PSTATS
53class EXPCL_PANDA_PSTATCLIENT PStatClient : public Thread::PStatsCallback {
54public:
57
58PUBLISHED:
59 void set_client_name(const std::string &name);
60 std::string get_client_name() const;
61 void set_max_rate(double rate);
62 double get_max_rate() const;
63
64 INLINE int get_num_collectors() const;
65 PStatCollector get_collector(int index) const;
66 MAKE_SEQ(get_collectors, get_num_collectors, get_collector);
67 INLINE PStatCollectorDef *get_collector_def(int index) const;
68 std::string get_collector_name(int index) const;
69 std::string get_collector_fullname(int index) const;
70
71 INLINE int get_num_threads() const;
72 PStatThread get_thread(int index) const;
73 MAKE_SEQ(get_threads, get_num_threads, get_thread);
74 INLINE std::string get_thread_name(int index) const;
75 INLINE std::string get_thread_sync_name(int index) const;
76 INLINE PT(Thread) get_thread_object(int index) const;
77
80
81 double get_real_time() const;
82
83 MAKE_PROPERTY(client_name, get_client_name, set_client_name);
84 MAKE_PROPERTY(max_rate, get_max_rate, set_max_rate);
85 MAKE_SEQ_PROPERTY(collectors, get_num_collectors, get_collector);
86 MAKE_SEQ_PROPERTY(threads, get_num_threads, get_thread);
87 MAKE_PROPERTY(main_thread, get_main_thread);
88 MAKE_PROPERTY(current_thread, get_current_thread);
89 MAKE_PROPERTY(real_time, get_real_time);
90
91 INLINE static bool connect(const std::string &hostname = std::string(), int port = -1);
92 INLINE static void disconnect();
93 INLINE static bool is_connected();
94
95 INLINE static void resume_after_pause();
96
97 static void main_tick();
98 static void thread_tick(const std::string &sync_name);
99
100 void client_main_tick();
101 void client_thread_tick(const std::string &sync_name);
102 bool client_connect(std::string hostname, int port);
103 void client_disconnect();
104 bool client_is_connected() const;
105
106 void client_resume_after_pause();
107
108 static PStatClient *get_global_pstats();
109
110private:
111 INLINE bool has_impl() const;
112 INLINE PStatClientImpl *get_impl();
113 INLINE const PStatClientImpl *get_impl() const;
114 void make_impl() const;
115
116 PStatCollector make_collector_with_relname(int parent_index, std::string relname);
117 PStatCollector make_collector_with_name(int parent_index, const std::string &name);
118 PStatThread do_get_current_thread() const;
119 PStatThread make_thread(Thread *thread);
120 PStatThread do_make_thread(Thread *thread);
121 PStatThread make_gpu_thread(const std::string &name);
122
123 bool is_active(int collector_index, int thread_index) const;
124 bool is_started(int collector_index, int thread_index) const;
125
126 void start(int collector_index, int thread_index);
127 void start(int collector_index, int thread_index, double as_of);
128 void stop(int collector_index, int thread_index);
129 void stop(int collector_index, int thread_index, double as_of);
130
131 void clear_level(int collector_index, int thread_index);
132 void set_level(int collector_index, int thread_index, double level);
133 void add_level(int collector_index, int thread_index, double increment);
134 double get_level(int collector_index, int thread_index) const;
135
136 static void start_clock_wait();
137 static void start_clock_busy_wait();
138 static void stop_clock_wait();
139
140 class Collector;
141 class InternalThread;
142 void add_collector(Collector *collector);
143 void add_thread(InternalThread *thread);
144
145 INLINE Collector *get_collector_ptr(int collector_index) const;
146 INLINE InternalThread *get_thread_ptr(int thread_index) const;
147
148 virtual void deactivate_hook(Thread *thread);
149 virtual void activate_hook(Thread *thread);
150
151private:
152 // This mutex protects everything in this class.
153 ReMutex _lock;
154
155 typedef pmap<std::string, int> ThingsByName;
156 typedef pmap<std::string, vector_int> MultiThingsByName;
157 MultiThingsByName _threads_by_name, _threads_by_sync_name;
158
159 // This is for the data that is per-collector, per-thread. A vector of
160 // these is stored in each Collector object, below, indexed by thread index.
161 class PerThreadData {
162 public:
163 PerThreadData();
164 bool _has_level;
165 double _level;
166 int _nested_count;
167 };
168 typedef pvector<PerThreadData> PerThread;
169
170 // This is where the meat of the Collector data is stored. (All the stuff
171 // in PStatCollector and PStatCollectorDef is just fluff.)
172 class EXPCL_PANDA_PSTATCLIENT Collector {
173 public:
174 INLINE Collector(int parent_index, const std::string &name);
175 INLINE int get_parent_index() const;
176 INLINE const std::string &get_name() const;
177 INLINE bool is_active() const;
178 INLINE PStatCollectorDef *get_def(const PStatClient *client, int this_index) const;
179
180 private:
181 void make_def(const PStatClient *client, int this_index);
182
183 private:
184 // This pointer is initially NULL, and will be filled in when it is first
185 // needed.
186 PStatCollectorDef *_def;
187
188 // This data is used to create the PStatCollectorDef when it is needed.
189 int _parent_index;
190 std::string _name;
191
192 public:
193 // Relations to other collectors.
194 ThingsByName _children;
195 PerThread _per_thread;
196 };
197 typedef Collector *CollectorPointer;
198 AtomicAdjust::Pointer _collectors; // CollectorPointer *_collectors;
199 AtomicAdjust::Integer _collectors_size; // size of the allocated array
200 AtomicAdjust::Integer _num_collectors; // number of in-use elements within the array
201
202 // This defines a single thread, i.e. a separate chain of execution,
203 // independent of all other threads. Timing and level data are maintained
204 // separately for each thread.
205 class InternalThread {
206 public:
207 InternalThread(Thread *thread);
208 InternalThread(const std::string &name, const std::string &sync_name = "Main");
209
210 WPT(Thread) _thread;
211 std::string _name;
212 std::string _sync_name;
213 PStatFrameData _frame_data;
214 bool _is_active;
215 int _frame_number;
216 double _next_packet;
217
218 bool _thread_active;
219 BitArray _active_collectors; // no longer used.
220
221 // This mutex is used to protect writes to _frame_data for this particular
222 // thread, as well as writes to the _per_thread data for this particular
223 // thread in the Collector class, above.
224 LightMutex _thread_lock;
225 };
226 typedef InternalThread *ThreadPointer;
227 AtomicAdjust::Pointer _threads; // ThreadPointer *_threads;
228 AtomicAdjust::Integer _threads_size; // size of the allocated array
229 AtomicAdjust::Integer _num_threads; // number of in-use elements within the array
230
231 mutable PStatClientImpl *_impl;
232
233 static PStatCollector _heap_total_size_pcollector;
234 static PStatCollector _heap_overhead_size_pcollector;
235 static PStatCollector _heap_single_size_pcollector;
236 static PStatCollector _heap_single_other_size_pcollector;
237 static PStatCollector _heap_array_size_pcollector;
238 static PStatCollector _heap_array_other_size_pcollector;
239 static PStatCollector _heap_external_size_pcollector;
240 static PStatCollector _mmap_size_pcollector;
241
242 static PStatCollector _mmap_nf_unused_size_pcollector;
243 static PStatCollector _mmap_dc_active_other_size_pcollector;
244 static PStatCollector _mmap_dc_inactive_other_size_pcollector;
245 static PStatCollector _pstats_pcollector;
246 static PStatCollector _clock_wait_pcollector;
247 static PStatCollector _clock_busy_wait_pcollector;
248 static PStatCollector _thread_block_pcollector;
249
250 static PStatClient *_global_pstats;
251
252 friend class Collector;
253 friend class PStatCollector;
254 friend class PStatThread;
255 friend class PStatClientImpl;
256 friend class GraphicsStateGuardian;
257};
258
259#include "pStatClient.I"
260
261#else // DO_PSTATS
262
263class EXPCL_PANDA_PSTATCLIENT PStatClient {
264public:
265 PStatClient() { }
266 ~PStatClient() { }
267
268 void set_client_name(const std::string &name);
269 std::string get_client_name() const;
270 void set_max_rate(double rate);
271 double get_max_rate() const;
272
273 PStatCollector get_collector(int index) const;
274 std::string get_collector_name(int index) const;
275 std::string get_collector_fullname(int index) const;
276
277 INLINE int get_num_threads() const { return 0; }
278 PStatThread get_thread(int index) const;
279 INLINE std::string get_thread_name(int index) const { return ""; }
280 INLINE std::string get_thread_sync_name(int index) const { return ""; }
281 INLINE PT(Thread) get_thread_object(int index) const { return nullptr; }
282
285
286 double get_real_time() const;
287
288PUBLISHED:
289 INLINE static bool connect(const std::string & = std::string(), int = -1) { return false; }
290 INLINE static void disconnect() { }
291 INLINE static bool is_connected() { return false; }
292 INLINE static void resume_after_pause() { }
293
294 static void main_tick();
295 static void thread_tick(const std::string &);
296
297public:
298 void client_main_tick();
299 void client_thread_tick(const std::string &sync_name);
300 bool client_connect(std::string hostname, int port);
301 void client_disconnect();
302 bool client_is_connected() const;
303
304 void client_resume_after_pause();
305
306 static PStatClient *get_global_pstats();
307
308private:
309 // These are used by inline PStatCollector methods, so they need to be
310 // stubbed out for ABI compatibility.
311 PStatCollector make_collector_with_relname(int parent_index, std::string relname);
312 PStatThread make_thread(Thread *thread);
313
314 bool is_active(int collector_index, int thread_index) const;
315 bool is_started(int collector_index, int thread_index) const;
316
317 void start(int collector_index, int thread_index);
318 void start(int collector_index, int thread_index, double as_of);
319 void stop(int collector_index, int thread_index);
320 void stop(int collector_index, int thread_index, double as_of);
321
322 void clear_level(int collector_index, int thread_index);
323 void set_level(int collector_index, int thread_index, double level);
324 void add_level(int collector_index, int thread_index, double increment);
325 double get_level(int collector_index, int thread_index) const;
326};
327
328#endif // DO_PSTATS
329
330#endif
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University.
A dynamic array with an unlimited number of bits.
Definition: bitArray.h:40
Encapsulates all the communication with a particular instance of a given rendering backend.
This is a standard, non-reentrant mutex, similar to the Mutex class.
Definition: lightMutex.h:41
Manages the communications to report statistics via a network connection to a remote PStatServer.
Definition: pStatClient.h:263
Defines the details about the Collectors: the name, the suggested color, etc.
A lightweight class that represents a single element that may be timed and/or counted via stats.
Contains the raw timing and level data for a single frame.
A lightweight class that represents a single thread of execution to PStats.
Definition: pStatThread.h:28
A reentrant mutex.
Definition: reMutex.h:34
virtual void deactivate_hook(Thread *thread)
Called when the thread is deactivated (swapped for another running thread).
Definition: thread.cxx:247
virtual void activate_hook(Thread *thread)
Called when the thread is activated (resumes execution).
Definition: thread.cxx:256
A thread; that is, a lightweight process.
Definition: thread.h:46
get_main_thread
Returns a pointer to the "main" Thread object–this is the Thread that started the whole process.
Definition: thread.h:107
bool start(ThreadPriority priority, bool joinable)
Starts the thread executing.
Definition: thread.cxx:184
get_current_thread
Returns a pointer to the currently-executing Thread object.
Definition: thread.h:109
is_started
Returns true if the thread has been started, false if it has not, or if join() has already been calle...
Definition: thread.h:116
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.
bool is_connected(MObject &node, const string &attribute_name)
Returns true if the named connection exists on the node and is connected to anything,...
Definition: maya_funcs.cxx:72
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.