vendor/souffle/profile/OutputProcessor.h

OILS / vendor / souffle / profile / OutputProcessor.h View on Github | oilshell.org

384 lines, 226 significant

1	/*
2	* Souffle - A Datalog Compiler
3	* Copyright (c) 2016, The Souffle Developers. All rights reserved
4	* Licensed under the Universal Permissive License v 1.0 as shown at:
5	* - https://opensource.org/licenses/UPL
6	* - <souffle root>/licenses/SOUFFLE-UPL.txt
7	*/
8
9	#pragma once
10
11	#include "souffle/profile/Cell.h"
12	#include "souffle/profile/CellInterface.h"
13	#include "souffle/profile/Iteration.h"
14	#include "souffle/profile/ProgramRun.h"
15	#include "souffle/profile/Relation.h"
16	#include "souffle/profile/Row.h"
17	#include "souffle/profile/Rule.h"
18	#include "souffle/profile/Table.h"
19	#include <chrono>
20	#include <memory>
21	#include <ratio>
22	#include <set>
23	#include <string>
24	#include <unordered_map>
25	#include <utility>
26	#include <vector>
27
28	namespace souffle {
29	namespace profile {
30
31	/*
32	* Class to format profiler data structures into tables
33	*/
34	class OutputProcessor {
35	private:
36	std::shared_ptr<ProgramRun> programRun;
37
38	public:
39	OutputProcessor() {
40	programRun = std::make_shared<ProgramRun>(ProgramRun());
41	}
42
43	const std::shared_ptr<ProgramRun>& getProgramRun() const {
44	return programRun;
45	}
46
47	Table getRelTable() const;
48
49	Table getRulTable() const;
50
51	Table getSubrulTable(std::string strRel, std::string strRul) const;
52
53	Table getAtomTable(std::string strRel, std::string strRul) const;
54
55	Table getVersions(std::string strRel, std::string strRul) const;
56
57	Table getVersionAtoms(std::string strRel, std::string strRul, int version) const;
58	};
59
60	/*
61	* rel table :
62	* ROW[0] = TOT_T
63	* ROW[1] = NREC_T
64	* ROW[2] = REC_T
65	* ROW[3] = COPY_T
66	* ROW[4] = TUPLES
67	* ROW[5] = REL NAME
68	* ROW[6] = ID
69	* ROW[7] = SRC
70	* ROW[8] = PERFOR
71	* ROW[9] = LOADTIME
72	* ROW[10] = SAVETIME
73	* ROW[11] = MAXRSSDIFF
74	* ROW[12] = READS
75	*
76	*/
77	Table inline OutputProcessor::getRelTable() const {
78	const std::unordered_map<std::string, std::shared_ptr<Relation>>& relationMap =
79	programRun->getRelationMap();
80	Table table;
81	for (auto& rel : relationMap) {
82	std::shared_ptr<Relation> r = rel.second;
83	Row row(13);
84	auto total_time = r->getNonRecTime() + r->getRecTime() + r->getCopyTime();
85	row[0] = std::make_shared<Cell<std::chrono::microseconds>>(total_time);
86	row[1] = std::make_shared<Cell<std::chrono::microseconds>>(r->getNonRecTime());
87	row[2] = std::make_shared<Cell<std::chrono::microseconds>>(r->getRecTime());
88	row[3] = std::make_shared<Cell<std::chrono::microseconds>>(r->getCopyTime());
89	row[4] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(r->size()));
90	row[5] = std::make_shared<Cell<std::string>>(r->getName());
91	row[6] = std::make_shared<Cell<std::string>>(r->getId());
92	row[7] = std::make_shared<Cell<std::string>>(r->getLocator());
93	if (total_time.count() != 0) {
94	row[8] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(
95	static_cast<double>(r->size()) / (static_cast<double>(total_time.count()) / 1000000.0)));
96	} else {
97	row[8] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(r->size()));
98	}
99	row[9] = std::make_shared<Cell<std::chrono::microseconds>>(r->getLoadtime());
100	row[10] = std::make_shared<Cell<std::chrono::microseconds>>(r->getSavetime());
101	row[11] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(r->getMaxRSSDiff()));
102	row[12] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(r->getReads()));
103
104	table.addRow(std::make_shared<Row>(row));
105	}
106	return table;
107	}
108	/*
109	* rul table :
110	* ROW[0] = TOT_T
111	* ROW[1] = NREC_T
112	* ROW[2] = REC_T
113	* ROW[3] = COPY_T
114	* ROW[4] = TUPLES
115	* ROW[5] = RUL NAME
116	* ROW[6] = ID
117	* ROW[7] = SRC
118	* ROW[8] = PERFOR
119	* ROW[9] = VER
120	* ROW[10]= REL_NAME
121	*/
122	Table inline OutputProcessor::getRulTable() const {
123	const std::unordered_map<std::string, std::shared_ptr<Relation>>& relationMap =
124	programRun->getRelationMap();
125	std::unordered_map<std::string, std::shared_ptr<Row>> ruleMap;
126
127	for (auto& rel : relationMap) {
128	for (auto& current : rel.second->getRuleMap()) {
129	Row row(11);
130	std::shared_ptr<Rule> rule = current.second;
131	row[0] = std::make_shared<Cell<std::chrono::microseconds>>(rule->getRuntime());
132	row[1] = std::make_shared<Cell<std::chrono::microseconds>>(rule->getRuntime());
133	row[2] = std::make_shared<Cell<std::chrono::microseconds>>(std::chrono::microseconds(0));
134	row[3] = std::make_shared<Cell<std::chrono::microseconds>>(std::chrono::microseconds(0));
135	row[4] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(rule->size()));
136	row[5] = std::make_shared<Cell<std::string>>(rule->getName());
137	row[6] = std::make_shared<Cell<std::string>>(rule->getId());
138	row[7] = std::make_shared<Cell<std::string>>(rel.second->getName());
139	row[8] = std::make_shared<Cell<int64_t>>(0);
140	row[10] = std::make_shared<Cell<std::string>>(rule->getLocator());
141	ruleMap.emplace(rule->getName(), std::make_shared<Row>(row));
142	}
143	for (auto& iter : rel.second->getIterations()) {
144	for (auto& current : iter->getRules()) {
145	std::shared_ptr<Rule> rule = current.second;
146	if (ruleMap.find(rule->getName()) != ruleMap.end()) {
147	Row row = *ruleMap[rule->getName()];
148	row[2] = std::make_shared<Cell<std::chrono::microseconds>>(
149	row[2]->getTimeVal() + rule->getRuntime());
150	row[4] = std::make_shared<Cell<int64_t>>(
151	row[4]->getLongVal() + static_cast<int64_t>(rule->size()));
152	row[0] = std::make_shared<Cell<std::chrono::microseconds>>(
153	row[0]->getTimeVal() + rule->getRuntime());
154	ruleMap[rule->getName()] = std::make_shared<Row>(row);
155	} else {
156	Row row(11);
157	row[0] = std::make_shared<Cell<std::chrono::microseconds>>(rule->getRuntime());
158	row[1] = std::make_shared<Cell<std::chrono::microseconds>>(std::chrono::microseconds(0));
159	row[2] = std::make_shared<Cell<std::chrono::microseconds>>(rule->getRuntime());
160	row[3] = std::make_shared<Cell<std::chrono::microseconds>>(std::chrono::microseconds(0));
161	row[4] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(rule->size()));
162	row[5] = std::make_shared<Cell<std::string>>(rule->getName());
163	row[6] = std::make_shared<Cell<std::string>>(rule->getId());
164	row[7] = std::make_shared<Cell<std::string>>(rel.second->getName());
165	row[8] = std::make_shared<Cell<int64_t>>(rule->getVersion());
166	row[10] = std::make_shared<Cell<std::string>>(rule->getLocator());
167	ruleMap[rule->getName()] = std::make_shared<Row>(row);
168	}
169	}
170	}
171	for (auto& current : ruleMap) {
172	std::shared_ptr<Row> row = current.second;
173	Row t = *row;
174	std::chrono::microseconds val = t[1]->getTimeVal() + t[2]->getTimeVal() + t[3]->getTimeVal();
175
176	t[0] = std::make_shared<Cell<std::chrono::microseconds>>(val);
177
178	if (t[0]->getTimeVal().count() != 0) {
179	t[9] = std::make_shared<Cell<double>>(t[4]->getLongVal() / (t[0]->getDoubleVal() * 1000));
180	} else {
181	t[9] = std::make_shared<Cell<double>>(t[4]->getLongVal() / 1.0);
182	}
183	current.second = std::make_shared<Row>(t);
184	}
185	}
186
187	Table table;
188	for (auto& current : ruleMap) {
189	table.addRow(current.second);
190	}
191	return table;
192	}
193
194	/*
195	* atom table :
196	* ROW[0] = clause
197	* ROW[1] = atom
198	* ROW[2] = level
199	* ROW[3] = frequency
200	*/
201	Table inline OutputProcessor::getAtomTable(std::string strRel, std::string strRul) const {
202	const std::unordered_map<std::string, std::shared_ptr<Relation>>& relationMap =
203	programRun->getRelationMap();
204
205	Table table;
206	for (auto& current : relationMap) {
207	std::shared_ptr<Relation> rel = current.second;
208
209	if (rel->getId() != strRel) {
210	continue;
211	}
212
213	for (auto& current : rel->getRuleMap()) {
214	std::shared_ptr<Rule> rule = current.second;
215	if (rule->getId() != strRul) {
216	continue;
217	}
218	for (auto& atom : rule->getAtoms()) {
219	Row row(4);
220	row[0] = std::make_shared<Cell<std::string>>(atom.rule);
221	row[1] = std::make_shared<Cell<std::string>>(atom.identifier);
222	row[2] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(atom.level));
223	row[3] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(atom.frequency));
224
225	table.addRow(std::make_shared<Row>(row));
226	}
227	}
228	}
229	return table;
230	}
231
232	/*
233	* subrule table :
234	* ROW[0] = subrule
235	*/
236	Table inline OutputProcessor::getSubrulTable(std::string strRel, std::string strRul) const {
237	const std::unordered_map<std::string, std::shared_ptr<Relation>>& relationMap =
238	programRun->getRelationMap();
239
240	Table table;
241	for (auto& current : relationMap) {
242	std::shared_ptr<Relation> rel = current.second;
243
244	if (rel->getId() != strRel) {
245	continue;
246	}
247
248	for (auto& current : rel->getRuleMap()) {
249	std::shared_ptr<Rule> rule = current.second;
250	if (rule->getId() != strRul) {
251	continue;
252	}
253	for (auto& atom : rule->getAtoms()) {
254	Row row(1);
255	row[0] = std::make_shared<Cell<std::string>>(atom.rule);
256
257	table.addRow(std::make_shared<Row>(row));
258	}
259	}
260	}
261	return table;
262	}
263
264	/*
265	* ver table :
266	* ROW[0] = TOT_T
267	* ROW[1] = NREC_T
268	* ROW[2] = REC_T
269	* ROW[3] = COPY_T
270	* ROW[4] = TUPLES
271	* ROW[5] = RUL NAME
272	* ROW[6] = ID
273	* ROW[7] = SRC
274	* ROW[8] = PERFOR
275	* ROW[9] = VER
276	* ROW[10]= REL_NAME
277	*/
278	Table inline OutputProcessor::getVersions(std::string strRel, std::string strRul) const {
279	const std::unordered_map<std::string, std::shared_ptr<Relation>>& relationMap =
280	programRun->getRelationMap();
281	Table table;
282
283	std::shared_ptr<Relation> rel;
284	for (auto& current : relationMap) {
285	if (current.second->getId() == strRel) {
286	rel = current.second;
287	break;
288	}
289	}
290	if (rel == nullptr) {
291	return table;
292	}
293
294	std::unordered_map<std::string, std::shared_ptr<Row>> ruleMap;
295	for (auto& iter : rel->getIterations()) {
296	for (auto& current : iter->getRules()) {
297	std::shared_ptr<Rule> rule = current.second;
298	if (rule->getId() == strRul) {
299	std::string strTemp =
300	rule->getName() + rule->getLocator() + std::to_string(rule->getVersion());
301
302	if (ruleMap.find(strTemp) != ruleMap.end()) {
303	Row row = *ruleMap[strTemp];
304	row[2] = std::make_shared<Cell<std::chrono::microseconds>>(
305	row[2]->getTimeVal() + rule->getRuntime());
306	row[4] = std::make_shared<Cell<int64_t>>(
307	row[4]->getLongVal() + static_cast<int64_t>(rule->size()));
308	row[0] = std::make_shared<Cell<std::chrono::microseconds>>(rule->getRuntime());
309	ruleMap[strTemp] = std::make_shared<Row>(row);
310	} else {
311	Row row(10);
312	row[1] = std::make_shared<Cell<std::chrono::microseconds>>(std::chrono::microseconds(0));
313	row[2] = std::make_shared<Cell<std::chrono::microseconds>>(rule->getRuntime());
314	row[3] = std::make_shared<Cell<std::chrono::microseconds>>(std::chrono::microseconds(0));
315	row[4] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(rule->size()));
316	row[5] = std::make_shared<Cell<std::string>>(rule->getName());
317	row[6] = std::make_shared<Cell<std::string>>(rule->getId());
318	row[7] = std::make_shared<Cell<std::string>>(rel->getName());
319	row[8] = std::make_shared<Cell<int64_t>>(rule->getVersion());
320	row[9] = std::make_shared<Cell<std::string>>(rule->getLocator());
321	row[0] = std::make_shared<Cell<std::chrono::microseconds>>(rule->getRuntime());
322	ruleMap[strTemp] = std::make_shared<Row>(row);
323	}
324	}
325	}
326	}
327
328	for (auto row : ruleMap) {
329	Row t = *row.second;
330	t[0] = std::make_shared<Cell<std::chrono::microseconds>>(
331	t[1]->getTimeVal() + t[2]->getTimeVal() + t[3]->getTimeVal());
332	ruleMap[row.first] = std::make_shared<Row>(t);
333	}
334
335	for (auto& current : ruleMap) {
336	table.addRow(current.second);
337	}
338	return table;
339	}
340
341	/*
342	* atom table :
343	* ROW[0] = rule
344	* ROW[1] = atom
345	* ROW[2] = level
346	* ROW[3] = frequency
347	*/
348	Table inline OutputProcessor::getVersionAtoms(std::string strRel, std::string srcLocator, int version) const {
349	const std::unordered_map<std::string, std::shared_ptr<Relation>>& relationMap =
350	programRun->getRelationMap();
351	Table table;
352	std::shared_ptr<Relation> rel;
353
354	for (auto& current : relationMap) {
355	if (current.second->getId() == strRel) {
356	rel = current.second;
357	break;
358	}
359	}
360	if (rel == nullptr) {
361	return table;
362	}
363
364	for (auto& iter : rel->getIterations()) {
365	for (auto& current : iter->getRules()) {
366	std::shared_ptr<Rule> rule = current.second;
367	if (rule->getLocator() == srcLocator && rule->getVersion() == version) {
368	for (auto& atom : rule->getAtoms()) {
369	Row row(4);
370	row[0] = std::make_shared<Cell<std::string>>(atom.rule);
371	row[1] = std::make_shared<Cell<std::string>>(atom.identifier);
372	row[2] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(atom.level));
373	row[3] = std::make_shared<Cell<int64_t>>(static_cast<int64_t>(atom.frequency));
374	table.addRow(std::make_shared<Row>(row));
375	}
376	}
377	}
378	}
379
380	return table;
381	}
382
383	} // namespace profile
384	} // namespace souffle