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gerrit-public.fairphone.software / toolchain / llvm-project / 9a67b0739801e886b3a22a3dbbf2fe4f5e7f6e20 / . / llvm / unittests / Analysis / LazyCallGraphTest.cpp
blob: 8c251cf043b8f15674b7dea01f8ddecbd52fa090 [file] [log] [blame]
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]1//===- LazyCallGraphTest.cpp - Unit tests for the lazy CG analysis --------===//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9
10#include "llvm/Analysis/LazyCallGraph.h"
11#include "llvm/AsmParser/Parser.h"
12#include "llvm/IR/Function.h"
Chandler Carruth9a67b072017-06-06 11:06:56 +0000[diff] [blame^]13#include "llvm/IR/Instructions.h"
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]14#include "llvm/IR/LLVMContext.h"
15#include "llvm/IR/Module.h"
16#include "llvm/Support/ErrorHandling.h"
17#include "llvm/Support/SourceMgr.h"
18#include "gtest/gtest.h"
19#include <memory>
20
21using namespace llvm;
22
23namespace {
24
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]25std::unique_ptr<Module> parseAssembly(LLVMContext &Context,
26 const char *Assembly) {
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]27 SMDiagnostic Error;
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]28 std::unique_ptr<Module> M = parseAssemblyString(Assembly, Error, Context);
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]29
30 std::string ErrMsg;
31 raw_string_ostream OS(ErrMsg);
32 Error.print("", OS);
33
34 // A failure here means that the test itself is buggy.
Rafael Espindola11c07d72014-08-19 16:58:54 +0000[diff] [blame]35 if (!M)
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]36 report_fatal_error(OS.str().c_str());
37
38 return M;
39}
40
Filipe Cabecinhas39545662014-10-22 02:16:06 +0000[diff] [blame]41/*
42 IR forming a call graph with a diamond of triangle-shaped SCCs:
43
44 d1
45 / \
46 d3--d2
47 / \
48 b1 c1
49 / \ / \
50 b3--b2 c3--c2
51 \ /
52 a1
53 / \
54 a3--a2
55
56 All call edges go up between SCCs, and clockwise around the SCC.
57 */
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]58static const char DiamondOfTriangles[] =
59 "define void @a1() {\n"
60 "entry:\n"
61 " call void @a2()\n"
62 " call void @b2()\n"
63 " call void @c3()\n"
64 " ret void\n"
65 "}\n"
66 "define void @a2() {\n"
67 "entry:\n"
68 " call void @a3()\n"
69 " ret void\n"
70 "}\n"
71 "define void @a3() {\n"
72 "entry:\n"
73 " call void @a1()\n"
74 " ret void\n"
75 "}\n"
76 "define void @b1() {\n"
77 "entry:\n"
78 " call void @b2()\n"
79 " call void @d3()\n"
80 " ret void\n"
81 "}\n"
82 "define void @b2() {\n"
83 "entry:\n"
84 " call void @b3()\n"
85 " ret void\n"
86 "}\n"
87 "define void @b3() {\n"
88 "entry:\n"
89 " call void @b1()\n"
90 " ret void\n"
91 "}\n"
92 "define void @c1() {\n"
93 "entry:\n"
94 " call void @c2()\n"
95 " call void @d2()\n"
96 " ret void\n"
97 "}\n"
98 "define void @c2() {\n"
99 "entry:\n"
100 " call void @c3()\n"
101 " ret void\n"
102 "}\n"
103 "define void @c3() {\n"
104 "entry:\n"
105 " call void @c1()\n"
106 " ret void\n"
107 "}\n"
108 "define void @d1() {\n"
109 "entry:\n"
110 " call void @d2()\n"
111 " ret void\n"
112 "}\n"
113 "define void @d2() {\n"
114 "entry:\n"
115 " call void @d3()\n"
116 " ret void\n"
117 "}\n"
118 "define void @d3() {\n"
119 "entry:\n"
120 " call void @d1()\n"
121 " ret void\n"
122 "}\n";
123
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]124/*
125 IR forming a reference graph with a diamond of triangle-shaped RefSCCs
126
127 d1
128 / \
129 d3--d2
130 / \
131 b1 c1
132 / \ / \
133 b3--b2 c3--c2
134 \ /
135 a1
136 / \
137 a3--a2
138
139 All call edges go up between RefSCCs, and clockwise around the RefSCC.
140 */
141static const char DiamondOfTrianglesRefGraph[] =
142 "define void @a1() {\n"
143 "entry:\n"
144 " %a = alloca void ()*\n"
145 " store void ()* @a2, void ()** %a\n"
146 " store void ()* @b2, void ()** %a\n"
147 " store void ()* @c3, void ()** %a\n"
148 " ret void\n"
149 "}\n"
150 "define void @a2() {\n"
151 "entry:\n"
152 " %a = alloca void ()*\n"
153 " store void ()* @a3, void ()** %a\n"
154 " ret void\n"
155 "}\n"
156 "define void @a3() {\n"
157 "entry:\n"
158 " %a = alloca void ()*\n"
159 " store void ()* @a1, void ()** %a\n"
160 " ret void\n"
161 "}\n"
162 "define void @b1() {\n"
163 "entry:\n"
164 " %a = alloca void ()*\n"
165 " store void ()* @b2, void ()** %a\n"
166 " store void ()* @d3, void ()** %a\n"
167 " ret void\n"
168 "}\n"
169 "define void @b2() {\n"
170 "entry:\n"
171 " %a = alloca void ()*\n"
172 " store void ()* @b3, void ()** %a\n"
173 " ret void\n"
174 "}\n"
175 "define void @b3() {\n"
176 "entry:\n"
177 " %a = alloca void ()*\n"
178 " store void ()* @b1, void ()** %a\n"
179 " ret void\n"
180 "}\n"
181 "define void @c1() {\n"
182 "entry:\n"
183 " %a = alloca void ()*\n"
184 " store void ()* @c2, void ()** %a\n"
185 " store void ()* @d2, void ()** %a\n"
186 " ret void\n"
187 "}\n"
188 "define void @c2() {\n"
189 "entry:\n"
190 " %a = alloca void ()*\n"
191 " store void ()* @c3, void ()** %a\n"
192 " ret void\n"
193 "}\n"
194 "define void @c3() {\n"
195 "entry:\n"
196 " %a = alloca void ()*\n"
197 " store void ()* @c1, void ()** %a\n"
198 " ret void\n"
199 "}\n"
200 "define void @d1() {\n"
201 "entry:\n"
202 " %a = alloca void ()*\n"
203 " store void ()* @d2, void ()** %a\n"
204 " ret void\n"
205 "}\n"
206 "define void @d2() {\n"
207 "entry:\n"
208 " %a = alloca void ()*\n"
209 " store void ()* @d3, void ()** %a\n"
210 " ret void\n"
211 "}\n"
212 "define void @d3() {\n"
213 "entry:\n"
214 " %a = alloca void ()*\n"
215 " store void ()* @d1, void ()** %a\n"
216 " ret void\n"
217 "}\n";
218
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]219TEST(LazyCallGraphTest, BasicGraphFormation) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]220 LLVMContext Context;
221 std::unique_ptr<Module> M = parseAssembly(Context, DiamondOfTriangles);
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]222 LazyCallGraph CG(*M);
223
224 // The order of the entry nodes should be stable w.r.t. the source order of
225 // the IR, and everything in our module is an entry node, so just directly
226 // build variables for each node.
227 auto I = CG.begin();
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]228 LazyCallGraph::Node &A1 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]229 EXPECT_EQ("a1", A1.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]230 LazyCallGraph::Node &A2 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]231 EXPECT_EQ("a2", A2.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]232 LazyCallGraph::Node &A3 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]233 EXPECT_EQ("a3", A3.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]234 LazyCallGraph::Node &B1 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]235 EXPECT_EQ("b1", B1.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]236 LazyCallGraph::Node &B2 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]237 EXPECT_EQ("b2", B2.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]238 LazyCallGraph::Node &B3 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]239 EXPECT_EQ("b3", B3.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]240 LazyCallGraph::Node &C1 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]241 EXPECT_EQ("c1", C1.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]242 LazyCallGraph::Node &C2 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]243 EXPECT_EQ("c2", C2.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]244 LazyCallGraph::Node &C3 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]245 EXPECT_EQ("c3", C3.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]246 LazyCallGraph::Node &D1 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]247 EXPECT_EQ("d1", D1.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]248 LazyCallGraph::Node &D2 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]249 EXPECT_EQ("d2", D2.getFunction().getName());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]250 LazyCallGraph::Node &D3 = (I++)->getNode();
Chandler Carruthbd5d3082014-04-23 23:34:48 +0000[diff] [blame]251 EXPECT_EQ("d3", D3.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]252 EXPECT_EQ(CG.end(), I);
253
254 // Build vectors and sort them for the rest of the assertions to make them
255 // independent of order.
256 std::vector<std::string> Nodes;
257
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]258 for (LazyCallGraph::Edge &E : A1.populate())
Chandler Carrutha4499e92016-02-02 03:57:13 +0000[diff] [blame]259 Nodes.push_back(E.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]260 std::sort(Nodes.begin(), Nodes.end());
261 EXPECT_EQ("a2", Nodes[0]);
262 EXPECT_EQ("b2", Nodes[1]);
263 EXPECT_EQ("c3", Nodes[2]);
264 Nodes.clear();
265
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]266 A2.populate();
267 EXPECT_EQ(A2->end(), std::next(A2->begin()));
268 EXPECT_EQ("a3", A2->begin()->getFunction().getName());
269 A3.populate();
270 EXPECT_EQ(A3->end(), std::next(A3->begin()));
271 EXPECT_EQ("a1", A3->begin()->getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]272
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]273 for (LazyCallGraph::Edge &E : B1.populate())
Chandler Carrutha4499e92016-02-02 03:57:13 +0000[diff] [blame]274 Nodes.push_back(E.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]275 std::sort(Nodes.begin(), Nodes.end());
276 EXPECT_EQ("b2", Nodes[0]);
277 EXPECT_EQ("d3", Nodes[1]);
278 Nodes.clear();
279
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]280 B2.populate();
281 EXPECT_EQ(B2->end(), std::next(B2->begin()));
282 EXPECT_EQ("b3", B2->begin()->getFunction().getName());
283 B3.populate();
284 EXPECT_EQ(B3->end(), std::next(B3->begin()));
285 EXPECT_EQ("b1", B3->begin()->getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]286
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]287 for (LazyCallGraph::Edge &E : C1.populate())
Chandler Carrutha4499e92016-02-02 03:57:13 +0000[diff] [blame]288 Nodes.push_back(E.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]289 std::sort(Nodes.begin(), Nodes.end());
290 EXPECT_EQ("c2", Nodes[0]);
291 EXPECT_EQ("d2", Nodes[1]);
292 Nodes.clear();
293
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]294 C2.populate();
295 EXPECT_EQ(C2->end(), std::next(C2->begin()));
296 EXPECT_EQ("c3", C2->begin()->getFunction().getName());
297 C3.populate();
298 EXPECT_EQ(C3->end(), std::next(C3->begin()));
299 EXPECT_EQ("c1", C3->begin()->getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]300
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]301 D1.populate();
302 EXPECT_EQ(D1->end(), std::next(D1->begin()));
303 EXPECT_EQ("d2", D1->begin()->getFunction().getName());
304 D2.populate();
305 EXPECT_EQ(D2->end(), std::next(D2->begin()));
306 EXPECT_EQ("d3", D2->begin()->getFunction().getName());
307 D3.populate();
308 EXPECT_EQ(D3->end(), std::next(D3->begin()));
309 EXPECT_EQ("d1", D3->begin()->getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]310
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]311 // Now lets look at the RefSCCs and SCCs.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]312 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]313 auto J = CG.postorder_ref_scc_begin();
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]314
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]315 LazyCallGraph::RefSCC &D = *J++;
316 ASSERT_EQ(1, D.size());
317 for (LazyCallGraph::Node &N : *D.begin())
318 Nodes.push_back(N.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]319 std::sort(Nodes.begin(), Nodes.end());
Chandler Carruthead50d32014-04-24 09:59:56 +0000[diff] [blame]320 EXPECT_EQ(3u, Nodes.size());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]321 EXPECT_EQ("d1", Nodes[0]);
322 EXPECT_EQ("d2", Nodes[1]);
323 EXPECT_EQ("d3", Nodes[2]);
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]324 Nodes.clear();
Chandler Carruth4b096742014-05-01 12:12:42 +0000[diff] [blame]325 EXPECT_FALSE(D.isParentOf(D));
326 EXPECT_FALSE(D.isChildOf(D));
327 EXPECT_FALSE(D.isAncestorOf(D));
328 EXPECT_FALSE(D.isDescendantOf(D));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]329 EXPECT_EQ(&D, &*CG.postorder_ref_scc_begin());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]330
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]331 LazyCallGraph::RefSCC &C = *J++;
332 ASSERT_EQ(1, C.size());
333 for (LazyCallGraph::Node &N : *C.begin())
334 Nodes.push_back(N.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]335 std::sort(Nodes.begin(), Nodes.end());
Chandler Carruthead50d32014-04-24 09:59:56 +0000[diff] [blame]336 EXPECT_EQ(3u, Nodes.size());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]337 EXPECT_EQ("c1", Nodes[0]);
338 EXPECT_EQ("c2", Nodes[1]);
339 EXPECT_EQ("c3", Nodes[2]);
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]340 Nodes.clear();
Chandler Carruth4b096742014-05-01 12:12:42 +0000[diff] [blame]341 EXPECT_TRUE(C.isParentOf(D));
342 EXPECT_FALSE(C.isChildOf(D));
343 EXPECT_TRUE(C.isAncestorOf(D));
344 EXPECT_FALSE(C.isDescendantOf(D));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]345 EXPECT_EQ(&C, &*std::next(CG.postorder_ref_scc_begin()));
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]346
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]347 LazyCallGraph::RefSCC &B = *J++;
348 ASSERT_EQ(1, B.size());
349 for (LazyCallGraph::Node &N : *B.begin())
350 Nodes.push_back(N.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]351 std::sort(Nodes.begin(), Nodes.end());
Chandler Carruthead50d32014-04-24 09:59:56 +0000[diff] [blame]352 EXPECT_EQ(3u, Nodes.size());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]353 EXPECT_EQ("b1", Nodes[0]);
354 EXPECT_EQ("b2", Nodes[1]);
355 EXPECT_EQ("b3", Nodes[2]);
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]356 Nodes.clear();
Chandler Carruth4b096742014-05-01 12:12:42 +0000[diff] [blame]357 EXPECT_TRUE(B.isParentOf(D));
358 EXPECT_FALSE(B.isChildOf(D));
359 EXPECT_TRUE(B.isAncestorOf(D));
360 EXPECT_FALSE(B.isDescendantOf(D));
361 EXPECT_FALSE(B.isAncestorOf(C));
362 EXPECT_FALSE(C.isAncestorOf(B));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]363 EXPECT_EQ(&B, &*std::next(CG.postorder_ref_scc_begin(), 2));
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]364
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]365 LazyCallGraph::RefSCC &A = *J++;
366 ASSERT_EQ(1, A.size());
367 for (LazyCallGraph::Node &N : *A.begin())
368 Nodes.push_back(N.getFunction().getName());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]369 std::sort(Nodes.begin(), Nodes.end());
Chandler Carruthead50d32014-04-24 09:59:56 +0000[diff] [blame]370 EXPECT_EQ(3u, Nodes.size());
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]371 EXPECT_EQ("a1", Nodes[0]);
372 EXPECT_EQ("a2", Nodes[1]);
373 EXPECT_EQ("a3", Nodes[2]);
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]374 Nodes.clear();
Chandler Carruth4b096742014-05-01 12:12:42 +0000[diff] [blame]375 EXPECT_TRUE(A.isParentOf(B));
376 EXPECT_TRUE(A.isParentOf(C));
377 EXPECT_FALSE(A.isParentOf(D));
378 EXPECT_TRUE(A.isAncestorOf(B));
379 EXPECT_TRUE(A.isAncestorOf(C));
380 EXPECT_TRUE(A.isAncestorOf(D));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]381 EXPECT_EQ(&A, &*std::next(CG.postorder_ref_scc_begin(), 3));
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]382
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]383 EXPECT_EQ(CG.postorder_ref_scc_end(), J);
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]384 EXPECT_EQ(J, std::next(CG.postorder_ref_scc_begin(), 4));
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]385}
386
Chandler Carruthcace6622014-04-23 10:31:17 +0000[diff] [blame]387static Function &lookupFunction(Module &M, StringRef Name) {
388 for (Function &F : M)
389 if (F.getName() == Name)
390 return F;
391 report_fatal_error("Couldn't find function!");
392}
393
Chandler Carruthc00a7ff2014-04-28 11:10:23 +0000[diff] [blame]394TEST(LazyCallGraphTest, BasicGraphMutation) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]395 LLVMContext Context;
396 std::unique_ptr<Module> M = parseAssembly(Context, "define void @a() {\n"
397 "entry:\n"
398 " call void @b()\n"
399 " call void @c()\n"
400 " ret void\n"
401 "}\n"
402 "define void @b() {\n"
403 "entry:\n"
404 " ret void\n"
405 "}\n"
406 "define void @c() {\n"
407 "entry:\n"
408 " ret void\n"
409 "}\n");
Chandler Carruthc00a7ff2014-04-28 11:10:23 +0000[diff] [blame]410 LazyCallGraph CG(*M);
411
412 LazyCallGraph::Node &A = CG.get(lookupFunction(*M, "a"));
413 LazyCallGraph::Node &B = CG.get(lookupFunction(*M, "b"));
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]414 A.populate();
415 EXPECT_EQ(2, std::distance(A->begin(), A->end()));
416 B.populate();
417 EXPECT_EQ(0, std::distance(B->begin(), B->end()));
Chandler Carruthc00a7ff2014-04-28 11:10:23 +0000[diff] [blame]418
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]419 LazyCallGraph::Node &C = CG.get(lookupFunction(*M, "c"));
420 C.populate();
421 CG.insertEdge(B, C, LazyCallGraph::Edge::Call);
422 EXPECT_EQ(1, std::distance(B->begin(), B->end()));
423 EXPECT_EQ(0, std::distance(C->begin(), C->end()));
Chandler Carruthc00a7ff2014-04-28 11:10:23 +0000[diff] [blame]424
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]425 CG.insertEdge(C, B, LazyCallGraph::Edge::Call);
426 EXPECT_EQ(1, std::distance(C->begin(), C->end()));
427 EXPECT_EQ(&B, &C->begin()->getNode());
Chandler Carruthc00a7ff2014-04-28 11:10:23 +0000[diff] [blame]428
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]429 CG.insertEdge(C, C, LazyCallGraph::Edge::Call);
430 EXPECT_EQ(2, std::distance(C->begin(), C->end()));
431 EXPECT_EQ(&B, &C->begin()->getNode());
432 EXPECT_EQ(&C, &std::next(C->begin())->getNode());
Chandler Carruthc5026b62014-04-30 07:45:27 +0000[diff] [blame]433
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]434 CG.removeEdge(C, B);
435 EXPECT_EQ(1, std::distance(C->begin(), C->end()));
436 EXPECT_EQ(&C, &C->begin()->getNode());
Chandler Carruthc5026b62014-04-30 07:45:27 +0000[diff] [blame]437
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]438 CG.removeEdge(C, C);
439 EXPECT_EQ(0, std::distance(C->begin(), C->end()));
Chandler Carruthc5026b62014-04-30 07:45:27 +0000[diff] [blame]440
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]441 CG.removeEdge(B, C);
442 EXPECT_EQ(0, std::distance(B->begin(), B->end()));
Chandler Carruthc00a7ff2014-04-28 11:10:23 +0000[diff] [blame]443}
444
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]445TEST(LazyCallGraphTest, InnerSCCFormation) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]446 LLVMContext Context;
447 std::unique_ptr<Module> M = parseAssembly(Context, DiamondOfTriangles);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]448 LazyCallGraph CG(*M);
449
450 // Now mutate the graph to connect every node into a single RefSCC to ensure
451 // that our inner SCC formation handles the rest.
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]452 LazyCallGraph::Node &D1 = CG.get(lookupFunction(*M, "d1"));
453 LazyCallGraph::Node &A1 = CG.get(lookupFunction(*M, "a1"));
454 A1.populate();
455 D1.populate();
456 CG.insertEdge(D1, A1, LazyCallGraph::Edge::Ref);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]457
458 // Build vectors and sort them for the rest of the assertions to make them
459 // independent of order.
460 std::vector<std::string> Nodes;
461
462 // We should build a single RefSCC for the entire graph.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]463 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]464 auto I = CG.postorder_ref_scc_begin();
465 LazyCallGraph::RefSCC &RC = *I++;
466 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
467
468 // Now walk the four SCCs which should be in post-order.
469 auto J = RC.begin();
470 LazyCallGraph::SCC &D = *J++;
471 for (LazyCallGraph::Node &N : D)
472 Nodes.push_back(N.getFunction().getName());
473 std::sort(Nodes.begin(), Nodes.end());
474 EXPECT_EQ(3u, Nodes.size());
475 EXPECT_EQ("d1", Nodes[0]);
476 EXPECT_EQ("d2", Nodes[1]);
477 EXPECT_EQ("d3", Nodes[2]);
478 Nodes.clear();
479
480 LazyCallGraph::SCC &B = *J++;
481 for (LazyCallGraph::Node &N : B)
482 Nodes.push_back(N.getFunction().getName());
483 std::sort(Nodes.begin(), Nodes.end());
484 EXPECT_EQ(3u, Nodes.size());
485 EXPECT_EQ("b1", Nodes[0]);
486 EXPECT_EQ("b2", Nodes[1]);
487 EXPECT_EQ("b3", Nodes[2]);
488 Nodes.clear();
489
490 LazyCallGraph::SCC &C = *J++;
491 for (LazyCallGraph::Node &N : C)
492 Nodes.push_back(N.getFunction().getName());
493 std::sort(Nodes.begin(), Nodes.end());
494 EXPECT_EQ(3u, Nodes.size());
495 EXPECT_EQ("c1", Nodes[0]);
496 EXPECT_EQ("c2", Nodes[1]);
497 EXPECT_EQ("c3", Nodes[2]);
498 Nodes.clear();
499
500 LazyCallGraph::SCC &A = *J++;
501 for (LazyCallGraph::Node &N : A)
502 Nodes.push_back(N.getFunction().getName());
503 std::sort(Nodes.begin(), Nodes.end());
504 EXPECT_EQ(3u, Nodes.size());
505 EXPECT_EQ("a1", Nodes[0]);
506 EXPECT_EQ("a2", Nodes[1]);
507 EXPECT_EQ("a3", Nodes[2]);
508 Nodes.clear();
509
510 EXPECT_EQ(RC.end(), J);
511}
512
Chandler Carruthcace6622014-04-23 10:31:17 +0000[diff] [blame]513TEST(LazyCallGraphTest, MultiArmSCC) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]514 LLVMContext Context;
Chandler Carruthcace6622014-04-23 10:31:17 +0000[diff] [blame]515 // Two interlocking cycles. The really useful thing about this SCC is that it
516 // will require Tarjan's DFS to backtrack and finish processing all of the
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]517 // children of each node in the SCC. Since this involves call edges, both
518 // Tarjan implementations will have to successfully navigate the structure.
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]519 std::unique_ptr<Module> M = parseAssembly(Context, "define void @f1() {\n"
520 "entry:\n"
521 " call void @f2()\n"
522 " call void @f4()\n"
523 " ret void\n"
524 "}\n"
525 "define void @f2() {\n"
526 "entry:\n"
527 " call void @f3()\n"
528 " ret void\n"
529 "}\n"
530 "define void @f3() {\n"
531 "entry:\n"
532 " call void @f1()\n"
533 " ret void\n"
534 "}\n"
535 "define void @f4() {\n"
536 "entry:\n"
537 " call void @f5()\n"
538 " ret void\n"
539 "}\n"
540 "define void @f5() {\n"
541 "entry:\n"
542 " call void @f1()\n"
543 " ret void\n"
544 "}\n");
Chandler Carruthcace6622014-04-23 10:31:17 +0000[diff] [blame]545 LazyCallGraph CG(*M);
546
547 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]548 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]549 auto I = CG.postorder_ref_scc_begin();
550 LazyCallGraph::RefSCC &RC = *I++;
551 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
Chandler Carruthcace6622014-04-23 10:31:17 +0000[diff] [blame]552
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]553 LazyCallGraph::Node &N1 = *CG.lookup(lookupFunction(*M, "f1"));
554 LazyCallGraph::Node &N2 = *CG.lookup(lookupFunction(*M, "f2"));
555 LazyCallGraph::Node &N3 = *CG.lookup(lookupFunction(*M, "f3"));
556 LazyCallGraph::Node &N4 = *CG.lookup(lookupFunction(*M, "f4"));
557 LazyCallGraph::Node &N5 = *CG.lookup(lookupFunction(*M, "f4"));
558 EXPECT_EQ(&RC, CG.lookupRefSCC(N1));
559 EXPECT_EQ(&RC, CG.lookupRefSCC(N2));
560 EXPECT_EQ(&RC, CG.lookupRefSCC(N3));
561 EXPECT_EQ(&RC, CG.lookupRefSCC(N4));
562 EXPECT_EQ(&RC, CG.lookupRefSCC(N5));
563
564 ASSERT_EQ(1, RC.size());
565
566 LazyCallGraph::SCC &C = *RC.begin();
567 EXPECT_EQ(&C, CG.lookupSCC(N1));
568 EXPECT_EQ(&C, CG.lookupSCC(N2));
569 EXPECT_EQ(&C, CG.lookupSCC(N3));
570 EXPECT_EQ(&C, CG.lookupSCC(N4));
571 EXPECT_EQ(&C, CG.lookupSCC(N5));
Chandler Carruthcace6622014-04-23 10:31:17 +0000[diff] [blame]572}
573
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]574TEST(LazyCallGraphTest, OutgoingEdgeMutation) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]575 LLVMContext Context;
576 std::unique_ptr<Module> M = parseAssembly(Context, "define void @a() {\n"
577 "entry:\n"
578 " call void @b()\n"
579 " call void @c()\n"
580 " ret void\n"
581 "}\n"
582 "define void @b() {\n"
583 "entry:\n"
584 " call void @d()\n"
585 " ret void\n"
586 "}\n"
587 "define void @c() {\n"
588 "entry:\n"
589 " call void @d()\n"
590 " ret void\n"
591 "}\n"
592 "define void @d() {\n"
593 "entry:\n"
594 " ret void\n"
595 "}\n");
Chandler Carruthcc6e1872014-05-04 09:38:23 +0000[diff] [blame]596 LazyCallGraph CG(*M);
597
598 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]599 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]600 for (LazyCallGraph::RefSCC &RC : CG.postorder_ref_sccs())
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]601 dbgs() << "Formed RefSCC: " << RC << "\n";
Chandler Carruthcc6e1872014-05-04 09:38:23 +0000[diff] [blame]602
603 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
604 LazyCallGraph::Node &B = *CG.lookup(lookupFunction(*M, "b"));
605 LazyCallGraph::Node &C = *CG.lookup(lookupFunction(*M, "c"));
606 LazyCallGraph::Node &D = *CG.lookup(lookupFunction(*M, "d"));
607 LazyCallGraph::SCC &AC = *CG.lookupSCC(A);
608 LazyCallGraph::SCC &BC = *CG.lookupSCC(B);
609 LazyCallGraph::SCC &CC = *CG.lookupSCC(C);
610 LazyCallGraph::SCC &DC = *CG.lookupSCC(D);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]611 LazyCallGraph::RefSCC &ARC = *CG.lookupRefSCC(A);
612 LazyCallGraph::RefSCC &BRC = *CG.lookupRefSCC(B);
613 LazyCallGraph::RefSCC &CRC = *CG.lookupRefSCC(C);
614 LazyCallGraph::RefSCC &DRC = *CG.lookupRefSCC(D);
615 EXPECT_TRUE(ARC.isParentOf(BRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]616 EXPECT_TRUE(AC.isParentOf(BC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]617 EXPECT_TRUE(ARC.isParentOf(CRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]618 EXPECT_TRUE(AC.isParentOf(CC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]619 EXPECT_FALSE(ARC.isParentOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]620 EXPECT_FALSE(AC.isParentOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]621 EXPECT_TRUE(ARC.isAncestorOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]622 EXPECT_TRUE(AC.isAncestorOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]623 EXPECT_FALSE(DRC.isChildOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]624 EXPECT_FALSE(DC.isChildOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]625 EXPECT_TRUE(DRC.isDescendantOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]626 EXPECT_TRUE(DC.isDescendantOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]627 EXPECT_TRUE(DRC.isChildOf(BRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]628 EXPECT_TRUE(DC.isChildOf(BC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]629 EXPECT_TRUE(DRC.isChildOf(CRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]630 EXPECT_TRUE(DC.isChildOf(CC));
Chandler Carruthcc6e1872014-05-04 09:38:23 +0000[diff] [blame]631
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]632 EXPECT_EQ(2, std::distance(A->begin(), A->end()));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]633 ARC.insertOutgoingEdge(A, D, LazyCallGraph::Edge::Call);
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]634 EXPECT_EQ(3, std::distance(A->begin(), A->end()));
635 const LazyCallGraph::Edge &NewE = (*A)[D];
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]636 EXPECT_TRUE(NewE);
637 EXPECT_TRUE(NewE.isCall());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]638 EXPECT_EQ(&D, &NewE.getNode());
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]639
640 // Only the parent and child tests sholud have changed. The rest of the graph
641 // remains the same.
642 EXPECT_TRUE(ARC.isParentOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]643 EXPECT_TRUE(AC.isParentOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]644 EXPECT_TRUE(ARC.isAncestorOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]645 EXPECT_TRUE(AC.isAncestorOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]646 EXPECT_TRUE(DRC.isChildOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]647 EXPECT_TRUE(DC.isChildOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]648 EXPECT_TRUE(DRC.isDescendantOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]649 EXPECT_TRUE(DC.isDescendantOf(AC));
Chandler Carruthcc6e1872014-05-04 09:38:23 +0000[diff] [blame]650 EXPECT_EQ(&AC, CG.lookupSCC(A));
651 EXPECT_EQ(&BC, CG.lookupSCC(B));
652 EXPECT_EQ(&CC, CG.lookupSCC(C));
653 EXPECT_EQ(&DC, CG.lookupSCC(D));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]654 EXPECT_EQ(&ARC, CG.lookupRefSCC(A));
655 EXPECT_EQ(&BRC, CG.lookupRefSCC(B));
656 EXPECT_EQ(&CRC, CG.lookupRefSCC(C));
657 EXPECT_EQ(&DRC, CG.lookupRefSCC(D));
658
659 ARC.switchOutgoingEdgeToRef(A, D);
660 EXPECT_FALSE(NewE.isCall());
661
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]662 // Verify the reference graph remains the same but the SCC graph is updated.
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]663 EXPECT_TRUE(ARC.isParentOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]664 EXPECT_FALSE(AC.isParentOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]665 EXPECT_TRUE(ARC.isAncestorOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]666 EXPECT_TRUE(AC.isAncestorOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]667 EXPECT_TRUE(DRC.isChildOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]668 EXPECT_FALSE(DC.isChildOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]669 EXPECT_TRUE(DRC.isDescendantOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]670 EXPECT_TRUE(DC.isDescendantOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]671 EXPECT_EQ(&AC, CG.lookupSCC(A));
672 EXPECT_EQ(&BC, CG.lookupSCC(B));
673 EXPECT_EQ(&CC, CG.lookupSCC(C));
674 EXPECT_EQ(&DC, CG.lookupSCC(D));
675 EXPECT_EQ(&ARC, CG.lookupRefSCC(A));
676 EXPECT_EQ(&BRC, CG.lookupRefSCC(B));
677 EXPECT_EQ(&CRC, CG.lookupRefSCC(C));
678 EXPECT_EQ(&DRC, CG.lookupRefSCC(D));
679
680 ARC.switchOutgoingEdgeToCall(A, D);
681 EXPECT_TRUE(NewE.isCall());
682
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]683 // Verify the reference graph remains the same but the SCC graph is updated.
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]684 EXPECT_TRUE(ARC.isParentOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]685 EXPECT_TRUE(AC.isParentOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]686 EXPECT_TRUE(ARC.isAncestorOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]687 EXPECT_TRUE(AC.isAncestorOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]688 EXPECT_TRUE(DRC.isChildOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]689 EXPECT_TRUE(DC.isChildOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]690 EXPECT_TRUE(DRC.isDescendantOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]691 EXPECT_TRUE(DC.isDescendantOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]692 EXPECT_EQ(&AC, CG.lookupSCC(A));
693 EXPECT_EQ(&BC, CG.lookupSCC(B));
694 EXPECT_EQ(&CC, CG.lookupSCC(C));
695 EXPECT_EQ(&DC, CG.lookupSCC(D));
696 EXPECT_EQ(&ARC, CG.lookupRefSCC(A));
697 EXPECT_EQ(&BRC, CG.lookupRefSCC(B));
698 EXPECT_EQ(&CRC, CG.lookupRefSCC(C));
699 EXPECT_EQ(&DRC, CG.lookupRefSCC(D));
700
701 ARC.removeOutgoingEdge(A, D);
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]702 EXPECT_EQ(2, std::distance(A->begin(), A->end()));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]703
704 // Now the parent and child tests fail again but the rest remains the same.
705 EXPECT_FALSE(ARC.isParentOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]706 EXPECT_FALSE(AC.isParentOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]707 EXPECT_TRUE(ARC.isAncestorOf(DRC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]708 EXPECT_TRUE(AC.isAncestorOf(DC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]709 EXPECT_FALSE(DRC.isChildOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]710 EXPECT_FALSE(DC.isChildOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]711 EXPECT_TRUE(DRC.isDescendantOf(ARC));
Chandler Carruthf8c09d62016-11-22 20:35:32 +0000[diff] [blame]712 EXPECT_TRUE(DC.isDescendantOf(AC));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]713 EXPECT_EQ(&AC, CG.lookupSCC(A));
714 EXPECT_EQ(&BC, CG.lookupSCC(B));
715 EXPECT_EQ(&CC, CG.lookupSCC(C));
716 EXPECT_EQ(&DC, CG.lookupSCC(D));
717 EXPECT_EQ(&ARC, CG.lookupRefSCC(A));
718 EXPECT_EQ(&BRC, CG.lookupRefSCC(B));
719 EXPECT_EQ(&CRC, CG.lookupRefSCC(C));
720 EXPECT_EQ(&DRC, CG.lookupRefSCC(D));
Chandler Carruthcc6e1872014-05-04 09:38:23 +0000[diff] [blame]721}
722
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]723TEST(LazyCallGraphTest, IncomingEdgeInsertion) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]724 LLVMContext Context;
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]725 // We want to ensure we can add edges even across complex diamond graphs, so
726 // we use the diamond of triangles graph defined above. The ascii diagram is
727 // repeated here for easy reference.
728 //
729 // d1 |
730 // / \ |
731 // d3--d2 |
732 // / \ |
733 // b1 c1 |
734 // / \ / \ |
735 // b3--b2 c3--c2 |
736 // \ / |
737 // a1 |
738 // / \ |
739 // a3--a2 |
740 //
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]741 std::unique_ptr<Module> M = parseAssembly(Context, DiamondOfTriangles);
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]742 LazyCallGraph CG(*M);
743
744 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]745 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]746 for (LazyCallGraph::RefSCC &RC : CG.postorder_ref_sccs())
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]747 dbgs() << "Formed RefSCC: " << RC << "\n";
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]748
749 LazyCallGraph::Node &A1 = *CG.lookup(lookupFunction(*M, "a1"));
750 LazyCallGraph::Node &A2 = *CG.lookup(lookupFunction(*M, "a2"));
751 LazyCallGraph::Node &A3 = *CG.lookup(lookupFunction(*M, "a3"));
752 LazyCallGraph::Node &B1 = *CG.lookup(lookupFunction(*M, "b1"));
753 LazyCallGraph::Node &B2 = *CG.lookup(lookupFunction(*M, "b2"));
754 LazyCallGraph::Node &B3 = *CG.lookup(lookupFunction(*M, "b3"));
755 LazyCallGraph::Node &C1 = *CG.lookup(lookupFunction(*M, "c1"));
756 LazyCallGraph::Node &C2 = *CG.lookup(lookupFunction(*M, "c2"));
757 LazyCallGraph::Node &C3 = *CG.lookup(lookupFunction(*M, "c3"));
758 LazyCallGraph::Node &D1 = *CG.lookup(lookupFunction(*M, "d1"));
759 LazyCallGraph::Node &D2 = *CG.lookup(lookupFunction(*M, "d2"));
760 LazyCallGraph::Node &D3 = *CG.lookup(lookupFunction(*M, "d3"));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]761 LazyCallGraph::RefSCC &ARC = *CG.lookupRefSCC(A1);
762 LazyCallGraph::RefSCC &BRC = *CG.lookupRefSCC(B1);
763 LazyCallGraph::RefSCC &CRC = *CG.lookupRefSCC(C1);
764 LazyCallGraph::RefSCC &DRC = *CG.lookupRefSCC(D1);
765 ASSERT_EQ(&ARC, CG.lookupRefSCC(A2));
766 ASSERT_EQ(&ARC, CG.lookupRefSCC(A3));
767 ASSERT_EQ(&BRC, CG.lookupRefSCC(B2));
768 ASSERT_EQ(&BRC, CG.lookupRefSCC(B3));
769 ASSERT_EQ(&CRC, CG.lookupRefSCC(C2));
770 ASSERT_EQ(&CRC, CG.lookupRefSCC(C3));
771 ASSERT_EQ(&DRC, CG.lookupRefSCC(D2));
772 ASSERT_EQ(&DRC, CG.lookupRefSCC(D3));
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]773 ASSERT_EQ(1, std::distance(D2->begin(), D2->end()));
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]774
775 // Add an edge to make the graph:
776 //
777 // d1 |
778 // / \ |
779 // d3--d2---. |
780 // / \ | |
781 // b1 c1 | |
782 // / \ / \ / |
783 // b3--b2 c3--c2 |
784 // \ / |
785 // a1 |
786 // / \ |
787 // a3--a2 |
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]788 auto MergedRCs = CRC.insertIncomingRefEdge(D2, C2);
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]789 // Make sure we connected the nodes.
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]790 for (LazyCallGraph::Edge E : *D2) {
791 if (&E.getNode() == &D3)
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]792 continue;
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]793 EXPECT_EQ(&C2, &E.getNode());
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]794 }
795 // And marked the D ref-SCC as no longer valid.
796 EXPECT_EQ(1u, MergedRCs.size());
797 EXPECT_EQ(&DRC, MergedRCs[0]);
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]798
799 // Make sure we have the correct nodes in the SCC sets.
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]800 EXPECT_EQ(&ARC, CG.lookupRefSCC(A1));
801 EXPECT_EQ(&ARC, CG.lookupRefSCC(A2));
802 EXPECT_EQ(&ARC, CG.lookupRefSCC(A3));
803 EXPECT_EQ(&BRC, CG.lookupRefSCC(B1));
804 EXPECT_EQ(&BRC, CG.lookupRefSCC(B2));
805 EXPECT_EQ(&BRC, CG.lookupRefSCC(B3));
806 EXPECT_EQ(&CRC, CG.lookupRefSCC(C1));
807 EXPECT_EQ(&CRC, CG.lookupRefSCC(C2));
808 EXPECT_EQ(&CRC, CG.lookupRefSCC(C3));
809 EXPECT_EQ(&CRC, CG.lookupRefSCC(D1));
810 EXPECT_EQ(&CRC, CG.lookupRefSCC(D2));
811 EXPECT_EQ(&CRC, CG.lookupRefSCC(D3));
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]812
813 // And that ancestry tests have been updated.
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]814 EXPECT_TRUE(ARC.isParentOf(CRC));
815 EXPECT_TRUE(BRC.isParentOf(CRC));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]816
817 // And verify the post-order walk reflects the updated structure.
818 auto I = CG.postorder_ref_scc_begin(), E = CG.postorder_ref_scc_end();
819 ASSERT_NE(I, E);
820 EXPECT_EQ(&CRC, &*I) << "Actual RefSCC: " << *I;
821 ASSERT_NE(++I, E);
822 EXPECT_EQ(&BRC, &*I) << "Actual RefSCC: " << *I;
823 ASSERT_NE(++I, E);
824 EXPECT_EQ(&ARC, &*I) << "Actual RefSCC: " << *I;
825 EXPECT_EQ(++I, E);
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]826}
827
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]828TEST(LazyCallGraphTest, IncomingEdgeInsertionRefGraph) {
829 LLVMContext Context;
830 // Another variation of the above test but with all the edges switched to
831 // references rather than calls.
832 std::unique_ptr<Module> M =
833 parseAssembly(Context, DiamondOfTrianglesRefGraph);
834 LazyCallGraph CG(*M);
835
836 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]837 CG.buildRefSCCs();
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]838 for (LazyCallGraph::RefSCC &RC : CG.postorder_ref_sccs())
839 dbgs() << "Formed RefSCC: " << RC << "\n";
840
841 LazyCallGraph::Node &A1 = *CG.lookup(lookupFunction(*M, "a1"));
842 LazyCallGraph::Node &A2 = *CG.lookup(lookupFunction(*M, "a2"));
843 LazyCallGraph::Node &A3 = *CG.lookup(lookupFunction(*M, "a3"));
844 LazyCallGraph::Node &B1 = *CG.lookup(lookupFunction(*M, "b1"));
845 LazyCallGraph::Node &B2 = *CG.lookup(lookupFunction(*M, "b2"));
846 LazyCallGraph::Node &B3 = *CG.lookup(lookupFunction(*M, "b3"));
847 LazyCallGraph::Node &C1 = *CG.lookup(lookupFunction(*M, "c1"));
848 LazyCallGraph::Node &C2 = *CG.lookup(lookupFunction(*M, "c2"));
849 LazyCallGraph::Node &C3 = *CG.lookup(lookupFunction(*M, "c3"));
850 LazyCallGraph::Node &D1 = *CG.lookup(lookupFunction(*M, "d1"));
851 LazyCallGraph::Node &D2 = *CG.lookup(lookupFunction(*M, "d2"));
852 LazyCallGraph::Node &D3 = *CG.lookup(lookupFunction(*M, "d3"));
853 LazyCallGraph::RefSCC &ARC = *CG.lookupRefSCC(A1);
854 LazyCallGraph::RefSCC &BRC = *CG.lookupRefSCC(B1);
855 LazyCallGraph::RefSCC &CRC = *CG.lookupRefSCC(C1);
856 LazyCallGraph::RefSCC &DRC = *CG.lookupRefSCC(D1);
857 ASSERT_EQ(&ARC, CG.lookupRefSCC(A2));
858 ASSERT_EQ(&ARC, CG.lookupRefSCC(A3));
859 ASSERT_EQ(&BRC, CG.lookupRefSCC(B2));
860 ASSERT_EQ(&BRC, CG.lookupRefSCC(B3));
861 ASSERT_EQ(&CRC, CG.lookupRefSCC(C2));
862 ASSERT_EQ(&CRC, CG.lookupRefSCC(C3));
863 ASSERT_EQ(&DRC, CG.lookupRefSCC(D2));
864 ASSERT_EQ(&DRC, CG.lookupRefSCC(D3));
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]865 ASSERT_EQ(1, std::distance(D2->begin(), D2->end()));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]866
867 // Add an edge to make the graph:
868 //
869 // d1 |
870 // / \ |
871 // d3--d2---. |
872 // / \ | |
873 // b1 c1 | |
874 // / \ / \ / |
875 // b3--b2 c3--c2 |
876 // \ / |
877 // a1 |
878 // / \ |
879 // a3--a2 |
880 auto MergedRCs = CRC.insertIncomingRefEdge(D2, C2);
881 // Make sure we connected the nodes.
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]882 for (LazyCallGraph::Edge E : *D2) {
883 if (&E.getNode() == &D3)
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]884 continue;
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]885 EXPECT_EQ(&C2, &E.getNode());
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]886 }
887 // And marked the D ref-SCC as no longer valid.
888 EXPECT_EQ(1u, MergedRCs.size());
889 EXPECT_EQ(&DRC, MergedRCs[0]);
890
891 // Make sure we have the correct nodes in the SCC sets.
892 EXPECT_EQ(&ARC, CG.lookupRefSCC(A1));
893 EXPECT_EQ(&ARC, CG.lookupRefSCC(A2));
894 EXPECT_EQ(&ARC, CG.lookupRefSCC(A3));
895 EXPECT_EQ(&BRC, CG.lookupRefSCC(B1));
896 EXPECT_EQ(&BRC, CG.lookupRefSCC(B2));
897 EXPECT_EQ(&BRC, CG.lookupRefSCC(B3));
898 EXPECT_EQ(&CRC, CG.lookupRefSCC(C1));
899 EXPECT_EQ(&CRC, CG.lookupRefSCC(C2));
900 EXPECT_EQ(&CRC, CG.lookupRefSCC(C3));
901 EXPECT_EQ(&CRC, CG.lookupRefSCC(D1));
902 EXPECT_EQ(&CRC, CG.lookupRefSCC(D2));
903 EXPECT_EQ(&CRC, CG.lookupRefSCC(D3));
904
905 // And that ancestry tests have been updated.
906 EXPECT_TRUE(ARC.isParentOf(CRC));
907 EXPECT_TRUE(BRC.isParentOf(CRC));
908
909 // And verify the post-order walk reflects the updated structure.
910 auto I = CG.postorder_ref_scc_begin(), E = CG.postorder_ref_scc_end();
911 ASSERT_NE(I, E);
912 EXPECT_EQ(&CRC, &*I) << "Actual RefSCC: " << *I;
913 ASSERT_NE(++I, E);
914 EXPECT_EQ(&BRC, &*I) << "Actual RefSCC: " << *I;
915 ASSERT_NE(++I, E);
916 EXPECT_EQ(&ARC, &*I) << "Actual RefSCC: " << *I;
917 EXPECT_EQ(++I, E);
918}
919
920TEST(LazyCallGraphTest, IncomingEdgeInsertionLargeCallCycle) {
921 LLVMContext Context;
922 std::unique_ptr<Module> M = parseAssembly(Context, "define void @a() {\n"
923 "entry:\n"
924 " call void @b()\n"
925 " ret void\n"
926 "}\n"
927 "define void @b() {\n"
928 "entry:\n"
929 " call void @c()\n"
930 " ret void\n"
931 "}\n"
932 "define void @c() {\n"
933 "entry:\n"
934 " call void @d()\n"
935 " ret void\n"
936 "}\n"
937 "define void @d() {\n"
938 "entry:\n"
939 " ret void\n"
940 "}\n");
941 LazyCallGraph CG(*M);
942
943 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]944 CG.buildRefSCCs();
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]945 for (LazyCallGraph::RefSCC &RC : CG.postorder_ref_sccs())
946 dbgs() << "Formed RefSCC: " << RC << "\n";
947
948 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
949 LazyCallGraph::Node &B = *CG.lookup(lookupFunction(*M, "b"));
950 LazyCallGraph::Node &C = *CG.lookup(lookupFunction(*M, "c"));
951 LazyCallGraph::Node &D = *CG.lookup(lookupFunction(*M, "d"));
952 LazyCallGraph::SCC &AC = *CG.lookupSCC(A);
953 LazyCallGraph::SCC &BC = *CG.lookupSCC(B);
954 LazyCallGraph::SCC &CC = *CG.lookupSCC(C);
955 LazyCallGraph::SCC &DC = *CG.lookupSCC(D);
956 LazyCallGraph::RefSCC &ARC = *CG.lookupRefSCC(A);
957 LazyCallGraph::RefSCC &BRC = *CG.lookupRefSCC(B);
958 LazyCallGraph::RefSCC &CRC = *CG.lookupRefSCC(C);
959 LazyCallGraph::RefSCC &DRC = *CG.lookupRefSCC(D);
960
961 // Connect the top to the bottom forming a large RefSCC made up mostly of calls.
962 auto MergedRCs = ARC.insertIncomingRefEdge(D, A);
963 // Make sure we connected the nodes.
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]964 EXPECT_NE(D->begin(), D->end());
965 EXPECT_EQ(&A, &D->begin()->getNode());
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]966
967 // Check that we have the dead RCs, but ignore the order.
968 EXPECT_EQ(3u, MergedRCs.size());
969 EXPECT_NE(find(MergedRCs, &BRC), MergedRCs.end());
970 EXPECT_NE(find(MergedRCs, &CRC), MergedRCs.end());
971 EXPECT_NE(find(MergedRCs, &DRC), MergedRCs.end());
972
973 // Make sure the nodes point to the right place now.
974 EXPECT_EQ(&ARC, CG.lookupRefSCC(A));
975 EXPECT_EQ(&ARC, CG.lookupRefSCC(B));
976 EXPECT_EQ(&ARC, CG.lookupRefSCC(C));
977 EXPECT_EQ(&ARC, CG.lookupRefSCC(D));
978
979 // Check that the SCCs are in postorder.
980 EXPECT_EQ(4, ARC.size());
981 EXPECT_EQ(&DC, &ARC[0]);
982 EXPECT_EQ(&CC, &ARC[1]);
983 EXPECT_EQ(&BC, &ARC[2]);
984 EXPECT_EQ(&AC, &ARC[3]);
985
986 // And verify the post-order walk reflects the updated structure.
987 auto I = CG.postorder_ref_scc_begin(), E = CG.postorder_ref_scc_end();
988 ASSERT_NE(I, E);
989 EXPECT_EQ(&ARC, &*I) << "Actual RefSCC: " << *I;
990 EXPECT_EQ(++I, E);
991}
992
993TEST(LazyCallGraphTest, IncomingEdgeInsertionLargeRefCycle) {
994 LLVMContext Context;
995 std::unique_ptr<Module> M =
996 parseAssembly(Context, "define void @a() {\n"
997 "entry:\n"
998 " %p = alloca void ()*\n"
999 " store void ()* @b, void ()** %p\n"
1000 " ret void\n"
1001 "}\n"
1002 "define void @b() {\n"
1003 "entry:\n"
1004 " %p = alloca void ()*\n"
1005 " store void ()* @c, void ()** %p\n"
1006 " ret void\n"
1007 "}\n"
1008 "define void @c() {\n"
1009 "entry:\n"
1010 " %p = alloca void ()*\n"
1011 " store void ()* @d, void ()** %p\n"
1012 " ret void\n"
1013 "}\n"
1014 "define void @d() {\n"
1015 "entry:\n"
1016 " ret void\n"
1017 "}\n");
1018 LazyCallGraph CG(*M);
1019
1020 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1021 CG.buildRefSCCs();
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]1022 for (LazyCallGraph::RefSCC &RC : CG.postorder_ref_sccs())
1023 dbgs() << "Formed RefSCC: " << RC << "\n";
1024
1025 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
1026 LazyCallGraph::Node &B = *CG.lookup(lookupFunction(*M, "b"));
1027 LazyCallGraph::Node &C = *CG.lookup(lookupFunction(*M, "c"));
1028 LazyCallGraph::Node &D = *CG.lookup(lookupFunction(*M, "d"));
1029 LazyCallGraph::RefSCC &ARC = *CG.lookupRefSCC(A);
1030 LazyCallGraph::RefSCC &BRC = *CG.lookupRefSCC(B);
1031 LazyCallGraph::RefSCC &CRC = *CG.lookupRefSCC(C);
1032 LazyCallGraph::RefSCC &DRC = *CG.lookupRefSCC(D);
1033
1034 // Connect the top to the bottom forming a large RefSCC made up just of
1035 // references.
1036 auto MergedRCs = ARC.insertIncomingRefEdge(D, A);
1037 // Make sure we connected the nodes.
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]1038 EXPECT_NE(D->begin(), D->end());
1039 EXPECT_EQ(&A, &D->begin()->getNode());
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]1040
1041 // Check that we have the dead RCs, but ignore the order.
1042 EXPECT_EQ(3u, MergedRCs.size());
1043 EXPECT_NE(find(MergedRCs, &BRC), MergedRCs.end());
1044 EXPECT_NE(find(MergedRCs, &CRC), MergedRCs.end());
1045 EXPECT_NE(find(MergedRCs, &DRC), MergedRCs.end());
1046
1047 // Make sure the nodes point to the right place now.
1048 EXPECT_EQ(&ARC, CG.lookupRefSCC(A));
1049 EXPECT_EQ(&ARC, CG.lookupRefSCC(B));
1050 EXPECT_EQ(&ARC, CG.lookupRefSCC(C));
1051 EXPECT_EQ(&ARC, CG.lookupRefSCC(D));
1052
1053 // And verify the post-order walk reflects the updated structure.
1054 auto I = CG.postorder_ref_scc_begin(), End = CG.postorder_ref_scc_end();
1055 ASSERT_NE(I, End);
1056 EXPECT_EQ(&ARC, &*I) << "Actual RefSCC: " << *I;
1057 EXPECT_EQ(++I, End);
Chandler Carruth312dddf2014-05-04 09:38:32 +0000[diff] [blame]1058}
1059
Chandler Carruth5dbc1642016-10-12 07:59:56 +0000[diff] [blame]1060TEST(LazyCallGraphTest, InlineAndDeleteFunction) {
1061 LLVMContext Context;
1062 // We want to ensure we can delete nodes from relatively complex graphs and
1063 // so use the diamond of triangles graph defined above.
1064 //
1065 // The ascii diagram is repeated here for easy reference.
1066 //
1067 // d1 |
1068 // / \ |
1069 // d3--d2 |
1070 // / \ |
1071 // b1 c1 |
1072 // / \ / \ |
1073 // b3--b2 c3--c2 |
1074 // \ / |
1075 // a1 |
1076 // / \ |
1077 // a3--a2 |
1078 //
1079 std::unique_ptr<Module> M = parseAssembly(Context, DiamondOfTriangles);
1080 LazyCallGraph CG(*M);
1081
1082 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1083 CG.buildRefSCCs();
Chandler Carruth5dbc1642016-10-12 07:59:56 +0000[diff] [blame]1084 for (LazyCallGraph::RefSCC &RC : CG.postorder_ref_sccs())
1085 dbgs() << "Formed RefSCC: " << RC << "\n";
1086
1087 LazyCallGraph::Node &A1 = *CG.lookup(lookupFunction(*M, "a1"));
1088 LazyCallGraph::Node &A2 = *CG.lookup(lookupFunction(*M, "a2"));
1089 LazyCallGraph::Node &A3 = *CG.lookup(lookupFunction(*M, "a3"));
1090 LazyCallGraph::Node &B1 = *CG.lookup(lookupFunction(*M, "b1"));
1091 LazyCallGraph::Node &B2 = *CG.lookup(lookupFunction(*M, "b2"));
1092 LazyCallGraph::Node &B3 = *CG.lookup(lookupFunction(*M, "b3"));
1093 LazyCallGraph::Node &C1 = *CG.lookup(lookupFunction(*M, "c1"));
1094 LazyCallGraph::Node &C2 = *CG.lookup(lookupFunction(*M, "c2"));
1095 LazyCallGraph::Node &C3 = *CG.lookup(lookupFunction(*M, "c3"));
1096 LazyCallGraph::Node &D1 = *CG.lookup(lookupFunction(*M, "d1"));
1097 LazyCallGraph::Node &D2 = *CG.lookup(lookupFunction(*M, "d2"));
1098 LazyCallGraph::Node &D3 = *CG.lookup(lookupFunction(*M, "d3"));
1099 LazyCallGraph::RefSCC &ARC = *CG.lookupRefSCC(A1);
1100 LazyCallGraph::RefSCC &BRC = *CG.lookupRefSCC(B1);
1101 LazyCallGraph::RefSCC &CRC = *CG.lookupRefSCC(C1);
1102 LazyCallGraph::RefSCC &DRC = *CG.lookupRefSCC(D1);
1103 ASSERT_EQ(&ARC, CG.lookupRefSCC(A2));
1104 ASSERT_EQ(&ARC, CG.lookupRefSCC(A3));
1105 ASSERT_EQ(&BRC, CG.lookupRefSCC(B2));
1106 ASSERT_EQ(&BRC, CG.lookupRefSCC(B3));
1107 ASSERT_EQ(&CRC, CG.lookupRefSCC(C2));
1108 ASSERT_EQ(&CRC, CG.lookupRefSCC(C3));
1109 ASSERT_EQ(&DRC, CG.lookupRefSCC(D2));
1110 ASSERT_EQ(&DRC, CG.lookupRefSCC(D3));
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]1111 ASSERT_EQ(1, std::distance(D2->begin(), D2->end()));
Chandler Carruth5dbc1642016-10-12 07:59:56 +0000[diff] [blame]1112
1113 // Delete d2 from the graph, as if it had been inlined.
1114 //
1115 // d1 |
1116 // / / |
1117 // d3--. |
1118 // / \ |
1119 // b1 c1 |
1120 // / \ / \ |
1121 // b3--b2 c3--c2 |
1122 // \ / |
1123 // a1 |
1124 // / \ |
1125 // a3--a2 |
1126
1127 Function &D2F = D2.getFunction();
1128 CallInst *C1Call = nullptr, *D1Call = nullptr;
1129 for (User *U : D2F.users()) {
1130 CallInst *CI = dyn_cast<CallInst>(U);
1131 ASSERT_TRUE(CI) << "Expected a call: " << *U;
1132 if (CI->getParent()->getParent() == &C1.getFunction()) {
1133 ASSERT_EQ(nullptr, C1Call) << "Found too many C1 calls: " << *CI;
1134 C1Call = CI;
1135 } else if (CI->getParent()->getParent() == &D1.getFunction()) {
1136 ASSERT_EQ(nullptr, D1Call) << "Found too many D1 calls: " << *CI;
1137 D1Call = CI;
1138 } else {
1139 FAIL() << "Found an unexpected call instruction: " << *CI;
1140 }
1141 }
1142 ASSERT_NE(C1Call, nullptr);
1143 ASSERT_NE(D1Call, nullptr);
1144 ASSERT_EQ(&D2F, C1Call->getCalledFunction());
1145 ASSERT_EQ(&D2F, D1Call->getCalledFunction());
1146 C1Call->setCalledFunction(&D3.getFunction());
1147 D1Call->setCalledFunction(&D3.getFunction());
1148 ASSERT_EQ(0u, D2F.getNumUses());
1149
1150 // Insert new edges first.
1151 CRC.insertTrivialCallEdge(C1, D3);
1152 DRC.insertTrivialCallEdge(D1, D3);
1153
1154 // Then remove the old ones.
1155 LazyCallGraph::SCC &DC = *CG.lookupSCC(D2);
1156 auto NewCs = DRC.switchInternalEdgeToRef(D1, D2);
1157 EXPECT_EQ(&DC, CG.lookupSCC(D2));
1158 EXPECT_EQ(NewCs.end(), std::next(NewCs.begin()));
1159 LazyCallGraph::SCC &NewDC = *NewCs.begin();
1160 EXPECT_EQ(&NewDC, CG.lookupSCC(D1));
1161 EXPECT_EQ(&NewDC, CG.lookupSCC(D3));
1162 auto NewRCs = DRC.removeInternalRefEdge(D1, D2);
1163 EXPECT_EQ(&DRC, CG.lookupRefSCC(D2));
1164 EXPECT_EQ(NewRCs.end(), std::next(NewRCs.begin()));
1165 LazyCallGraph::RefSCC &NewDRC = **NewRCs.begin();
1166 EXPECT_EQ(&NewDRC, CG.lookupRefSCC(D1));
1167 EXPECT_EQ(&NewDRC, CG.lookupRefSCC(D3));
1168 EXPECT_FALSE(NewDRC.isParentOf(DRC));
1169 EXPECT_TRUE(CRC.isParentOf(DRC));
1170 EXPECT_TRUE(CRC.isParentOf(NewDRC));
1171 EXPECT_TRUE(DRC.isParentOf(NewDRC));
1172 CRC.removeOutgoingEdge(C1, D2);
1173 EXPECT_FALSE(CRC.isParentOf(DRC));
1174 EXPECT_TRUE(CRC.isParentOf(NewDRC));
1175 EXPECT_TRUE(DRC.isParentOf(NewDRC));
1176
1177 // Now that we've updated the call graph, D2 is dead, so remove it.
1178 CG.removeDeadFunction(D2F);
1179
1180 // Check that the graph still looks the same.
1181 EXPECT_EQ(&ARC, CG.lookupRefSCC(A1));
1182 EXPECT_EQ(&ARC, CG.lookupRefSCC(A2));
1183 EXPECT_EQ(&ARC, CG.lookupRefSCC(A3));
1184 EXPECT_EQ(&BRC, CG.lookupRefSCC(B1));
1185 EXPECT_EQ(&BRC, CG.lookupRefSCC(B2));
1186 EXPECT_EQ(&BRC, CG.lookupRefSCC(B3));
1187 EXPECT_EQ(&CRC, CG.lookupRefSCC(C1));
1188 EXPECT_EQ(&CRC, CG.lookupRefSCC(C2));
1189 EXPECT_EQ(&CRC, CG.lookupRefSCC(C3));
1190 EXPECT_EQ(&NewDRC, CG.lookupRefSCC(D1));
1191 EXPECT_EQ(&NewDRC, CG.lookupRefSCC(D3));
1192 EXPECT_TRUE(CRC.isParentOf(NewDRC));
1193
1194 // Verify the post-order walk hasn't changed.
1195 auto I = CG.postorder_ref_scc_begin(), E = CG.postorder_ref_scc_end();
1196 ASSERT_NE(I, E);
1197 EXPECT_EQ(&NewDRC, &*I) << "Actual RefSCC: " << *I;
1198 ASSERT_NE(++I, E);
1199 EXPECT_EQ(&CRC, &*I) << "Actual RefSCC: " << *I;
1200 ASSERT_NE(++I, E);
1201 EXPECT_EQ(&BRC, &*I) << "Actual RefSCC: " << *I;
1202 ASSERT_NE(++I, E);
1203 EXPECT_EQ(&ARC, &*I) << "Actual RefSCC: " << *I;
1204 EXPECT_EQ(++I, E);
1205}
1206
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1207TEST(LazyCallGraphTest, InternalEdgeMutation) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1208 LLVMContext Context;
1209 std::unique_ptr<Module> M = parseAssembly(Context, "define void @a() {\n"
1210 "entry:\n"
1211 " call void @b()\n"
1212 " ret void\n"
1213 "}\n"
1214 "define void @b() {\n"
1215 "entry:\n"
1216 " call void @c()\n"
1217 " ret void\n"
1218 "}\n"
1219 "define void @c() {\n"
1220 "entry:\n"
1221 " call void @a()\n"
1222 " ret void\n"
1223 "}\n");
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1224 LazyCallGraph CG(*M);
1225
1226 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1227 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1228 auto I = CG.postorder_ref_scc_begin();
1229 LazyCallGraph::RefSCC &RC = *I++;
1230 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1231
Chandler Carrutha10e2402014-04-23 23:12:06 +0000[diff] [blame]1232 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
1233 LazyCallGraph::Node &B = *CG.lookup(lookupFunction(*M, "b"));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1234 LazyCallGraph::Node &C = *CG.lookup(lookupFunction(*M, "c"));
1235 EXPECT_EQ(&RC, CG.lookupRefSCC(A));
1236 EXPECT_EQ(&RC, CG.lookupRefSCC(B));
1237 EXPECT_EQ(&RC, CG.lookupRefSCC(C));
1238 EXPECT_EQ(1, RC.size());
1239 EXPECT_EQ(&*RC.begin(), CG.lookupSCC(A));
1240 EXPECT_EQ(&*RC.begin(), CG.lookupSCC(B));
1241 EXPECT_EQ(&*RC.begin(), CG.lookupSCC(C));
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1242
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1243 // Insert an edge from 'a' to 'c'. Nothing changes about the graph.
1244 RC.insertInternalRefEdge(A, C);
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]1245 EXPECT_EQ(2, std::distance(A->begin(), A->end()));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1246 EXPECT_EQ(&RC, CG.lookupRefSCC(A));
1247 EXPECT_EQ(&RC, CG.lookupRefSCC(B));
1248 EXPECT_EQ(&RC, CG.lookupRefSCC(C));
1249 EXPECT_EQ(1, RC.size());
1250 EXPECT_EQ(&*RC.begin(), CG.lookupSCC(A));
1251 EXPECT_EQ(&*RC.begin(), CG.lookupSCC(B));
1252 EXPECT_EQ(&*RC.begin(), CG.lookupSCC(C));
Chandler Carruth5217c942014-04-30 10:48:36 +0000[diff] [blame]1253
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1254 // Switch the call edge from 'b' to 'c' to a ref edge. This will break the
1255 // call cycle and cause us to form more SCCs. The RefSCC will remain the same
1256 // though.
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1257 auto NewCs = RC.switchInternalEdgeToRef(B, C);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1258 EXPECT_EQ(&RC, CG.lookupRefSCC(A));
1259 EXPECT_EQ(&RC, CG.lookupRefSCC(B));
1260 EXPECT_EQ(&RC, CG.lookupRefSCC(C));
1261 auto J = RC.begin();
1262 // The SCCs must be in *post-order* which means successors before
1263 // predecessors. At this point we have call edges from C to A and from A to
1264 // B. The only valid postorder is B, A, C.
1265 EXPECT_EQ(&*J++, CG.lookupSCC(B));
1266 EXPECT_EQ(&*J++, CG.lookupSCC(A));
1267 EXPECT_EQ(&*J++, CG.lookupSCC(C));
1268 EXPECT_EQ(RC.end(), J);
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1269 // And the returned range must be the slice of this sequence containing new
1270 // SCCs.
1271 EXPECT_EQ(RC.begin(), NewCs.begin());
1272 EXPECT_EQ(std::prev(RC.end()), NewCs.end());
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1273
1274 // Test turning the ref edge from A to C into a call edge. This will form an
1275 // SCC out of A and C. Since we previously had a call edge from C to A, the
1276 // C SCC should be preserved and have A merged into it while the A SCC should
1277 // be invalidated.
1278 LazyCallGraph::SCC &AC = *CG.lookupSCC(A);
1279 LazyCallGraph::SCC &CC = *CG.lookupSCC(C);
1280 auto InvalidatedSCCs = RC.switchInternalEdgeToCall(A, C);
1281 ASSERT_EQ(1u, InvalidatedSCCs.size());
1282 EXPECT_EQ(&AC, InvalidatedSCCs[0]);
1283 EXPECT_EQ(2, CC.size());
1284 EXPECT_EQ(&CC, CG.lookupSCC(A));
1285 EXPECT_EQ(&CC, CG.lookupSCC(C));
1286 J = RC.begin();
1287 EXPECT_EQ(&*J++, CG.lookupSCC(B));
1288 EXPECT_EQ(&*J++, CG.lookupSCC(C));
1289 EXPECT_EQ(RC.end(), J);
Chandler Carruth5217c942014-04-30 10:48:36 +0000[diff] [blame]1290}
1291
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1292TEST(LazyCallGraphTest, InternalEdgeRemoval) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1293 LLVMContext Context;
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1294 // A nice fully connected (including self-edges) RefSCC.
1295 std::unique_ptr<Module> M = parseAssembly(
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1296 Context, "define void @a(i8** %ptr) {\n"
1297 "entry:\n"
1298 " store i8* bitcast (void(i8**)* @a to i8*), i8** %ptr\n"
1299 " store i8* bitcast (void(i8**)* @b to i8*), i8** %ptr\n"
1300 " store i8* bitcast (void(i8**)* @c to i8*), i8** %ptr\n"
1301 " ret void\n"
1302 "}\n"
1303 "define void @b(i8** %ptr) {\n"
1304 "entry:\n"
1305 " store i8* bitcast (void(i8**)* @a to i8*), i8** %ptr\n"
1306 " store i8* bitcast (void(i8**)* @b to i8*), i8** %ptr\n"
1307 " store i8* bitcast (void(i8**)* @c to i8*), i8** %ptr\n"
1308 " ret void\n"
1309 "}\n"
1310 "define void @c(i8** %ptr) {\n"
1311 "entry:\n"
1312 " store i8* bitcast (void(i8**)* @a to i8*), i8** %ptr\n"
1313 " store i8* bitcast (void(i8**)* @b to i8*), i8** %ptr\n"
1314 " store i8* bitcast (void(i8**)* @c to i8*), i8** %ptr\n"
1315 " ret void\n"
1316 "}\n");
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1317 LazyCallGraph CG(*M);
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1318
1319 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1320 CG.buildRefSCCs();
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]1321 auto I = CG.postorder_ref_scc_begin(), E = CG.postorder_ref_scc_end();
1322 LazyCallGraph::RefSCC &RC = *I;
1323 EXPECT_EQ(E, std::next(I));
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1324
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1325 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
1326 LazyCallGraph::Node &B = *CG.lookup(lookupFunction(*M, "b"));
1327 LazyCallGraph::Node &C = *CG.lookup(lookupFunction(*M, "c"));
1328 EXPECT_EQ(&RC, CG.lookupRefSCC(A));
1329 EXPECT_EQ(&RC, CG.lookupRefSCC(B));
1330 EXPECT_EQ(&RC, CG.lookupRefSCC(C));
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1331
1332 // Remove the edge from b -> a, which should leave the 3 functions still in
1333 // a single connected component because of a -> b -> c -> a.
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1334 SmallVector<LazyCallGraph::RefSCC *, 1> NewRCs =
1335 RC.removeInternalRefEdge(B, A);
1336 EXPECT_EQ(0u, NewRCs.size());
1337 EXPECT_EQ(&RC, CG.lookupRefSCC(A));
1338 EXPECT_EQ(&RC, CG.lookupRefSCC(B));
1339 EXPECT_EQ(&RC, CG.lookupRefSCC(C));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]1340 auto J = CG.postorder_ref_scc_begin();
1341 EXPECT_EQ(I, J);
1342 EXPECT_EQ(&RC, &*J);
1343 EXPECT_EQ(E, std::next(J));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1344
1345 // Remove the edge from c -> a, which should leave 'a' in the original RefSCC
1346 // and form a new RefSCC for 'b' and 'c'.
1347 NewRCs = RC.removeInternalRefEdge(C, A);
1348 EXPECT_EQ(1u, NewRCs.size());
1349 EXPECT_EQ(&RC, CG.lookupRefSCC(A));
1350 EXPECT_EQ(1, std::distance(RC.begin(), RC.end()));
Chandler Carruth49d728a2016-09-16 10:20:17 +0000[diff] [blame]1351 LazyCallGraph::RefSCC &RC2 = *CG.lookupRefSCC(B);
1352 EXPECT_EQ(&RC2, CG.lookupRefSCC(C));
1353 EXPECT_EQ(&RC2, NewRCs[0]);
1354 J = CG.postorder_ref_scc_begin();
1355 EXPECT_NE(I, J);
1356 EXPECT_EQ(&RC2, &*J);
1357 ++J;
1358 EXPECT_EQ(I, J);
1359 EXPECT_EQ(&RC, &*J);
1360 ++I;
1361 EXPECT_EQ(E, I);
1362 ++J;
1363 EXPECT_EQ(E, J);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1364}
1365
Chandler Carruthc6334572016-12-28 02:24:58 +0000[diff] [blame]1366TEST(LazyCallGraphTest, InternalNoOpEdgeRemoval) {
1367 LLVMContext Context;
1368 // A graph with a single cycle formed both from call and reference edges
1369 // which makes the reference edges trivial to delete. The graph looks like:
1370 //
1371 // Reference edges: a -> b -> c -> a
1372 // Call edges: a -> c -> b -> a
1373 std::unique_ptr<Module> M = parseAssembly(
1374 Context, "define void @a(i8** %ptr) {\n"
1375 "entry:\n"
1376 " call void @b(i8** %ptr)\n"
1377 " store i8* bitcast (void(i8**)* @c to i8*), i8** %ptr\n"
1378 " ret void\n"
1379 "}\n"
1380 "define void @b(i8** %ptr) {\n"
1381 "entry:\n"
1382 " store i8* bitcast (void(i8**)* @a to i8*), i8** %ptr\n"
1383 " call void @c(i8** %ptr)\n"
1384 " ret void\n"
1385 "}\n"
1386 "define void @c(i8** %ptr) {\n"
1387 "entry:\n"
1388 " call void @a(i8** %ptr)\n"
1389 " store i8* bitcast (void(i8**)* @b to i8*), i8** %ptr\n"
1390 " ret void\n"
1391 "}\n");
1392 LazyCallGraph CG(*M);
1393
1394 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1395 CG.buildRefSCCs();
Chandler Carruthc6334572016-12-28 02:24:58 +0000[diff] [blame]1396 auto I = CG.postorder_ref_scc_begin(), E = CG.postorder_ref_scc_end();
1397 LazyCallGraph::RefSCC &RC = *I;
1398 EXPECT_EQ(E, std::next(I));
1399
1400 LazyCallGraph::SCC &C = *RC.begin();
1401 EXPECT_EQ(RC.end(), std::next(RC.begin()));
1402
1403 LazyCallGraph::Node &AN = *CG.lookup(lookupFunction(*M, "a"));
1404 LazyCallGraph::Node &BN = *CG.lookup(lookupFunction(*M, "b"));
1405 LazyCallGraph::Node &CN = *CG.lookup(lookupFunction(*M, "c"));
1406 EXPECT_EQ(&RC, CG.lookupRefSCC(AN));
1407 EXPECT_EQ(&RC, CG.lookupRefSCC(BN));
1408 EXPECT_EQ(&RC, CG.lookupRefSCC(CN));
1409 EXPECT_EQ(&C, CG.lookupSCC(AN));
1410 EXPECT_EQ(&C, CG.lookupSCC(BN));
1411 EXPECT_EQ(&C, CG.lookupSCC(CN));
1412
1413 // Remove the edge from a -> c which doesn't change anything.
1414 SmallVector<LazyCallGraph::RefSCC *, 1> NewRCs =
1415 RC.removeInternalRefEdge(AN, CN);
1416 EXPECT_EQ(0u, NewRCs.size());
1417 EXPECT_EQ(&RC, CG.lookupRefSCC(AN));
1418 EXPECT_EQ(&RC, CG.lookupRefSCC(BN));
1419 EXPECT_EQ(&RC, CG.lookupRefSCC(CN));
1420 EXPECT_EQ(&C, CG.lookupSCC(AN));
1421 EXPECT_EQ(&C, CG.lookupSCC(BN));
1422 EXPECT_EQ(&C, CG.lookupSCC(CN));
1423 auto J = CG.postorder_ref_scc_begin();
1424 EXPECT_EQ(I, J);
1425 EXPECT_EQ(&RC, &*J);
1426 EXPECT_EQ(E, std::next(J));
1427
1428 // Remove the edge from b -> a and c -> b; again this doesn't change
1429 // anything.
1430 NewRCs = RC.removeInternalRefEdge(BN, AN);
1431 NewRCs = RC.removeInternalRefEdge(CN, BN);
1432 EXPECT_EQ(0u, NewRCs.size());
1433 EXPECT_EQ(&RC, CG.lookupRefSCC(AN));
1434 EXPECT_EQ(&RC, CG.lookupRefSCC(BN));
1435 EXPECT_EQ(&RC, CG.lookupRefSCC(CN));
1436 EXPECT_EQ(&C, CG.lookupSCC(AN));
1437 EXPECT_EQ(&C, CG.lookupSCC(BN));
1438 EXPECT_EQ(&C, CG.lookupSCC(CN));
1439 J = CG.postorder_ref_scc_begin();
1440 EXPECT_EQ(I, J);
1441 EXPECT_EQ(&RC, &*J);
1442 EXPECT_EQ(E, std::next(J));
1443}
1444
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1445TEST(LazyCallGraphTest, InternalCallEdgeToRef) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1446 LLVMContext Context;
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1447 // A nice fully connected (including self-edges) SCC (and RefSCC)
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1448 std::unique_ptr<Module> M = parseAssembly(Context, "define void @a() {\n"
1449 "entry:\n"
1450 " call void @a()\n"
1451 " call void @b()\n"
1452 " call void @c()\n"
1453 " ret void\n"
1454 "}\n"
1455 "define void @b() {\n"
1456 "entry:\n"
1457 " call void @a()\n"
1458 " call void @b()\n"
1459 " call void @c()\n"
1460 " ret void\n"
1461 "}\n"
1462 "define void @c() {\n"
1463 "entry:\n"
1464 " call void @a()\n"
1465 " call void @b()\n"
1466 " call void @c()\n"
1467 " ret void\n"
1468 "}\n");
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1469 LazyCallGraph CG(*M);
1470
1471 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1472 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1473 auto I = CG.postorder_ref_scc_begin();
1474 LazyCallGraph::RefSCC &RC = *I++;
1475 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
1476
1477 EXPECT_EQ(1, RC.size());
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1478 LazyCallGraph::SCC &AC = *RC.begin();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1479
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1480 LazyCallGraph::Node &AN = *CG.lookup(lookupFunction(*M, "a"));
1481 LazyCallGraph::Node &BN = *CG.lookup(lookupFunction(*M, "b"));
1482 LazyCallGraph::Node &CN = *CG.lookup(lookupFunction(*M, "c"));
1483 EXPECT_EQ(&AC, CG.lookupSCC(AN));
1484 EXPECT_EQ(&AC, CG.lookupSCC(BN));
1485 EXPECT_EQ(&AC, CG.lookupSCC(CN));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1486
1487 // Remove the call edge from b -> a to a ref edge, which should leave the
1488 // 3 functions still in a single connected component because of a -> b ->
1489 // c -> a.
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1490 auto NewCs = RC.switchInternalEdgeToRef(BN, AN);
1491 EXPECT_EQ(NewCs.begin(), NewCs.end());
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1492 EXPECT_EQ(1, RC.size());
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1493 EXPECT_EQ(&AC, CG.lookupSCC(AN));
1494 EXPECT_EQ(&AC, CG.lookupSCC(BN));
1495 EXPECT_EQ(&AC, CG.lookupSCC(CN));
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1496
1497 // Remove the edge from c -> a, which should leave 'a' in the original SCC
1498 // and form a new SCC for 'b' and 'c'.
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1499 NewCs = RC.switchInternalEdgeToRef(CN, AN);
1500 EXPECT_EQ(1, std::distance(NewCs.begin(), NewCs.end()));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1501 EXPECT_EQ(2, RC.size());
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1502 EXPECT_EQ(&AC, CG.lookupSCC(AN));
1503 LazyCallGraph::SCC &BC = *CG.lookupSCC(BN);
1504 EXPECT_NE(&BC, &AC);
1505 EXPECT_EQ(&BC, CG.lookupSCC(CN));
1506 auto J = RC.find(AC);
1507 EXPECT_EQ(&AC, &*J);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1508 --J;
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1509 EXPECT_EQ(&BC, &*J);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1510 EXPECT_EQ(RC.begin(), J);
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1511 EXPECT_EQ(J, NewCs.begin());
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1512
1513 // Remove the edge from c -> b, which should leave 'b' in the original SCC
1514 // and form a new SCC for 'c'. It shouldn't change 'a's SCC.
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1515 NewCs = RC.switchInternalEdgeToRef(CN, BN);
1516 EXPECT_EQ(1, std::distance(NewCs.begin(), NewCs.end()));
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1517 EXPECT_EQ(3, RC.size());
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1518 EXPECT_EQ(&AC, CG.lookupSCC(AN));
1519 EXPECT_EQ(&BC, CG.lookupSCC(BN));
1520 LazyCallGraph::SCC &CC = *CG.lookupSCC(CN);
1521 EXPECT_NE(&CC, &AC);
1522 EXPECT_NE(&CC, &BC);
1523 J = RC.find(AC);
1524 EXPECT_EQ(&AC, &*J);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1525 --J;
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1526 EXPECT_EQ(&BC, &*J);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1527 --J;
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1528 EXPECT_EQ(&CC, &*J);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1529 EXPECT_EQ(RC.begin(), J);
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1530 EXPECT_EQ(J, NewCs.begin());
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1531}
1532
1533TEST(LazyCallGraphTest, InternalRefEdgeToCall) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1534 LLVMContext Context;
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1535 // Basic tests for making a ref edge a call. This hits the basics of the
1536 // process only.
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1537 std::unique_ptr<Module> M =
1538 parseAssembly(Context, "define void @a() {\n"
1539 "entry:\n"
1540 " call void @b()\n"
1541 " call void @c()\n"
1542 " store void()* @d, void()** undef\n"
1543 " ret void\n"
1544 "}\n"
1545 "define void @b() {\n"
1546 "entry:\n"
1547 " store void()* @c, void()** undef\n"
1548 " call void @d()\n"
1549 " ret void\n"
1550 "}\n"
1551 "define void @c() {\n"
1552 "entry:\n"
1553 " store void()* @b, void()** undef\n"
1554 " call void @d()\n"
1555 " ret void\n"
1556 "}\n"
1557 "define void @d() {\n"
1558 "entry:\n"
1559 " store void()* @a, void()** undef\n"
1560 " ret void\n"
1561 "}\n");
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1562 LazyCallGraph CG(*M);
1563
1564 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1565 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1566 auto I = CG.postorder_ref_scc_begin();
1567 LazyCallGraph::RefSCC &RC = *I++;
1568 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
1569
1570 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
1571 LazyCallGraph::Node &B = *CG.lookup(lookupFunction(*M, "b"));
1572 LazyCallGraph::Node &C = *CG.lookup(lookupFunction(*M, "c"));
1573 LazyCallGraph::Node &D = *CG.lookup(lookupFunction(*M, "d"));
1574 LazyCallGraph::SCC &AC = *CG.lookupSCC(A);
1575 LazyCallGraph::SCC &BC = *CG.lookupSCC(B);
1576 LazyCallGraph::SCC &CC = *CG.lookupSCC(C);
1577 LazyCallGraph::SCC &DC = *CG.lookupSCC(D);
1578
1579 // Check the initial post-order. Note that B and C could be flipped here (and
1580 // in our mutation) without changing the nature of this test.
1581 ASSERT_EQ(4, RC.size());
1582 EXPECT_EQ(&DC, &RC[0]);
1583 EXPECT_EQ(&BC, &RC[1]);
1584 EXPECT_EQ(&CC, &RC[2]);
1585 EXPECT_EQ(&AC, &RC[3]);
1586
1587 // Switch the ref edge from A -> D to a call edge. This should have no
1588 // effect as it is already in postorder and no new cycles are formed.
1589 auto MergedCs = RC.switchInternalEdgeToCall(A, D);
1590 EXPECT_EQ(0u, MergedCs.size());
1591 ASSERT_EQ(4, RC.size());
1592 EXPECT_EQ(&DC, &RC[0]);
1593 EXPECT_EQ(&BC, &RC[1]);
1594 EXPECT_EQ(&CC, &RC[2]);
1595 EXPECT_EQ(&AC, &RC[3]);
1596
1597 // Switch B -> C to a call edge. This doesn't form any new cycles but does
1598 // require reordering the SCCs.
1599 MergedCs = RC.switchInternalEdgeToCall(B, C);
1600 EXPECT_EQ(0u, MergedCs.size());
1601 ASSERT_EQ(4, RC.size());
1602 EXPECT_EQ(&DC, &RC[0]);
1603 EXPECT_EQ(&CC, &RC[1]);
1604 EXPECT_EQ(&BC, &RC[2]);
1605 EXPECT_EQ(&AC, &RC[3]);
1606
1607 // Switch C -> B to a call edge. This forms a cycle and forces merging SCCs.
1608 MergedCs = RC.switchInternalEdgeToCall(C, B);
1609 ASSERT_EQ(1u, MergedCs.size());
1610 EXPECT_EQ(&CC, MergedCs[0]);
1611 ASSERT_EQ(3, RC.size());
1612 EXPECT_EQ(&DC, &RC[0]);
1613 EXPECT_EQ(&BC, &RC[1]);
1614 EXPECT_EQ(&AC, &RC[2]);
1615 EXPECT_EQ(2, BC.size());
1616 EXPECT_EQ(&BC, CG.lookupSCC(B));
1617 EXPECT_EQ(&BC, CG.lookupSCC(C));
1618}
1619
1620TEST(LazyCallGraphTest, InternalRefEdgeToCallNoCycleInterleaved) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1621 LLVMContext Context;
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1622 // Test for having a post-order prior to changing a ref edge to a call edge
1623 // with SCCs connecting to the source and connecting to the target, but not
1624 // connecting to both, interleaved between the source and target. This
1625 // ensures we correctly partition the range rather than simply moving one or
1626 // the other.
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1627 std::unique_ptr<Module> M =
1628 parseAssembly(Context, "define void @a() {\n"
1629 "entry:\n"
1630 " call void @b1()\n"
1631 " call void @c1()\n"
1632 " ret void\n"
1633 "}\n"
1634 "define void @b1() {\n"
1635 "entry:\n"
1636 " call void @c1()\n"
1637 " call void @b2()\n"
1638 " ret void\n"
1639 "}\n"
1640 "define void @c1() {\n"
1641 "entry:\n"
1642 " call void @b2()\n"
1643 " call void @c2()\n"
1644 " ret void\n"
1645 "}\n"
1646 "define void @b2() {\n"
1647 "entry:\n"
1648 " call void @c2()\n"
1649 " call void @b3()\n"
1650 " ret void\n"
1651 "}\n"
1652 "define void @c2() {\n"
1653 "entry:\n"
1654 " call void @b3()\n"
1655 " call void @c3()\n"
1656 " ret void\n"
1657 "}\n"
1658 "define void @b3() {\n"
1659 "entry:\n"
1660 " call void @c3()\n"
1661 " call void @d()\n"
1662 " ret void\n"
1663 "}\n"
1664 "define void @c3() {\n"
1665 "entry:\n"
1666 " store void()* @b1, void()** undef\n"
1667 " call void @d()\n"
1668 " ret void\n"
1669 "}\n"
1670 "define void @d() {\n"
1671 "entry:\n"
1672 " store void()* @a, void()** undef\n"
1673 " ret void\n"
1674 "}\n");
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1675 LazyCallGraph CG(*M);
1676
1677 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1678 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1679 auto I = CG.postorder_ref_scc_begin();
1680 LazyCallGraph::RefSCC &RC = *I++;
1681 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
1682
1683 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
1684 LazyCallGraph::Node &B1 = *CG.lookup(lookupFunction(*M, "b1"));
1685 LazyCallGraph::Node &B2 = *CG.lookup(lookupFunction(*M, "b2"));
1686 LazyCallGraph::Node &B3 = *CG.lookup(lookupFunction(*M, "b3"));
1687 LazyCallGraph::Node &C1 = *CG.lookup(lookupFunction(*M, "c1"));
1688 LazyCallGraph::Node &C2 = *CG.lookup(lookupFunction(*M, "c2"));
1689 LazyCallGraph::Node &C3 = *CG.lookup(lookupFunction(*M, "c3"));
1690 LazyCallGraph::Node &D = *CG.lookup(lookupFunction(*M, "d"));
1691 LazyCallGraph::SCC &AC = *CG.lookupSCC(A);
1692 LazyCallGraph::SCC &B1C = *CG.lookupSCC(B1);
1693 LazyCallGraph::SCC &B2C = *CG.lookupSCC(B2);
1694 LazyCallGraph::SCC &B3C = *CG.lookupSCC(B3);
1695 LazyCallGraph::SCC &C1C = *CG.lookupSCC(C1);
1696 LazyCallGraph::SCC &C2C = *CG.lookupSCC(C2);
1697 LazyCallGraph::SCC &C3C = *CG.lookupSCC(C3);
1698 LazyCallGraph::SCC &DC = *CG.lookupSCC(D);
1699
1700 // Several call edges are initially present to force a particual post-order.
1701 // Remove them now, leaving an interleaved post-order pattern.
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1702 RC.switchTrivialInternalEdgeToRef(B3, C3);
1703 RC.switchTrivialInternalEdgeToRef(C2, B3);
1704 RC.switchTrivialInternalEdgeToRef(B2, C2);
1705 RC.switchTrivialInternalEdgeToRef(C1, B2);
1706 RC.switchTrivialInternalEdgeToRef(B1, C1);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1707
1708 // Check the initial post-order. We ensure this order with the extra edges
1709 // that are nuked above.
1710 ASSERT_EQ(8, RC.size());
1711 EXPECT_EQ(&DC, &RC[0]);
1712 EXPECT_EQ(&C3C, &RC[1]);
1713 EXPECT_EQ(&B3C, &RC[2]);
1714 EXPECT_EQ(&C2C, &RC[3]);
1715 EXPECT_EQ(&B2C, &RC[4]);
1716 EXPECT_EQ(&C1C, &RC[5]);
1717 EXPECT_EQ(&B1C, &RC[6]);
1718 EXPECT_EQ(&AC, &RC[7]);
1719
1720 // Switch C3 -> B1 to a call edge. This doesn't form any new cycles but does
1721 // require reordering the SCCs in the face of tricky internal node
1722 // structures.
1723 auto MergedCs = RC.switchInternalEdgeToCall(C3, B1);
1724 EXPECT_EQ(0u, MergedCs.size());
1725 ASSERT_EQ(8, RC.size());
1726 EXPECT_EQ(&DC, &RC[0]);
1727 EXPECT_EQ(&B3C, &RC[1]);
1728 EXPECT_EQ(&B2C, &RC[2]);
1729 EXPECT_EQ(&B1C, &RC[3]);
1730 EXPECT_EQ(&C3C, &RC[4]);
1731 EXPECT_EQ(&C2C, &RC[5]);
1732 EXPECT_EQ(&C1C, &RC[6]);
1733 EXPECT_EQ(&AC, &RC[7]);
1734}
1735
1736TEST(LazyCallGraphTest, InternalRefEdgeToCallBothPartitionAndMerge) {
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1737 LLVMContext Context;
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1738 // Test for having a postorder where between the source and target are all
1739 // three kinds of other SCCs:
1740 // 1) One connected to the target only that have to be shifted below the
1741 // source.
1742 // 2) One connected to the source only that have to be shifted below the
1743 // target.
1744 // 3) One connected to both source and target that has to remain and get
1745 // merged away.
1746 //
1747 // To achieve this we construct a heavily connected graph to force
1748 // a particular post-order. Then we remove the forcing edges and connect
1749 // a cycle.
1750 //
1751 // Diagram for the graph we want on the left and the graph we use to force
1752 // the ordering on the right. Edges ponit down or right.
1753 //
1754 // A | A |
1755 // / \ | / \ |
1756 // B E | B \ |
1757 // |\ | | |\ | |
1758 // | D | | C-D-E |
1759 // | \| | | \| |
1760 // C F | \ F |
1761 // \ / | \ / |
1762 // G | G |
1763 //
1764 // And we form a cycle by connecting F to B.
Mehdi Amini03b42e42016-04-14 21:59:01 +0000[diff] [blame]1765 std::unique_ptr<Module> M =
1766 parseAssembly(Context, "define void @a() {\n"
1767 "entry:\n"
1768 " call void @b()\n"
1769 " call void @e()\n"
1770 " ret void\n"
1771 "}\n"
1772 "define void @b() {\n"
1773 "entry:\n"
1774 " call void @c()\n"
1775 " call void @d()\n"
1776 " ret void\n"
1777 "}\n"
1778 "define void @c() {\n"
1779 "entry:\n"
1780 " call void @d()\n"
1781 " call void @g()\n"
1782 " ret void\n"
1783 "}\n"
1784 "define void @d() {\n"
1785 "entry:\n"
1786 " call void @e()\n"
1787 " call void @f()\n"
1788 " ret void\n"
1789 "}\n"
1790 "define void @e() {\n"
1791 "entry:\n"
1792 " call void @f()\n"
1793 " ret void\n"
1794 "}\n"
1795 "define void @f() {\n"
1796 "entry:\n"
1797 " store void()* @b, void()** undef\n"
1798 " call void @g()\n"
1799 " ret void\n"
1800 "}\n"
1801 "define void @g() {\n"
1802 "entry:\n"
1803 " store void()* @a, void()** undef\n"
1804 " ret void\n"
1805 "}\n");
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1806 LazyCallGraph CG(*M);
1807
1808 // Force the graph to be fully expanded.
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1809 CG.buildRefSCCs();
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1810 auto I = CG.postorder_ref_scc_begin();
1811 LazyCallGraph::RefSCC &RC = *I++;
1812 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
1813
1814 LazyCallGraph::Node &A = *CG.lookup(lookupFunction(*M, "a"));
1815 LazyCallGraph::Node &B = *CG.lookup(lookupFunction(*M, "b"));
1816 LazyCallGraph::Node &C = *CG.lookup(lookupFunction(*M, "c"));
1817 LazyCallGraph::Node &D = *CG.lookup(lookupFunction(*M, "d"));
1818 LazyCallGraph::Node &E = *CG.lookup(lookupFunction(*M, "e"));
1819 LazyCallGraph::Node &F = *CG.lookup(lookupFunction(*M, "f"));
1820 LazyCallGraph::Node &G = *CG.lookup(lookupFunction(*M, "g"));
1821 LazyCallGraph::SCC &AC = *CG.lookupSCC(A);
1822 LazyCallGraph::SCC &BC = *CG.lookupSCC(B);
1823 LazyCallGraph::SCC &CC = *CG.lookupSCC(C);
1824 LazyCallGraph::SCC &DC = *CG.lookupSCC(D);
1825 LazyCallGraph::SCC &EC = *CG.lookupSCC(E);
1826 LazyCallGraph::SCC &FC = *CG.lookupSCC(F);
1827 LazyCallGraph::SCC &GC = *CG.lookupSCC(G);
1828
1829 // Remove the extra edges that were used to force a particular post-order.
Chandler Carruth443e57e2016-12-28 10:34:50 +0000[diff] [blame]1830 RC.switchTrivialInternalEdgeToRef(C, D);
1831 RC.switchTrivialInternalEdgeToRef(D, E);
Chandler Carruthe5944d92016-02-17 00:18:16 +0000[diff] [blame]1832
1833 // Check the initial post-order. We ensure this order with the extra edges
1834 // that are nuked above.
1835 ASSERT_EQ(7, RC.size());
1836 EXPECT_EQ(&GC, &RC[0]);
1837 EXPECT_EQ(&FC, &RC[1]);
1838 EXPECT_EQ(&EC, &RC[2]);
1839 EXPECT_EQ(&DC, &RC[3]);
1840 EXPECT_EQ(&CC, &RC[4]);
1841 EXPECT_EQ(&BC, &RC[5]);
1842 EXPECT_EQ(&AC, &RC[6]);
1843
1844 // Switch F -> B to a call edge. This merges B, D, and F into a single SCC,
1845 // and has to place the C and E SCCs on either side of it:
1846 // A A |
1847 // / \ / \ |
1848 // B E | E |
1849 // |\ | \ / |
1850 // | D | -> B |
1851 // | \| / \ |
1852 // C F C | |
1853 // \ / \ / |
1854 // G G |
1855 auto MergedCs = RC.switchInternalEdgeToCall(F, B);
1856 ASSERT_EQ(2u, MergedCs.size());
1857 EXPECT_EQ(&FC, MergedCs[0]);
1858 EXPECT_EQ(&DC, MergedCs[1]);
1859 EXPECT_EQ(3, BC.size());
1860
1861 // And make sure the postorder was updated.
1862 ASSERT_EQ(5, RC.size());
1863 EXPECT_EQ(&GC, &RC[0]);
1864 EXPECT_EQ(&CC, &RC[1]);
1865 EXPECT_EQ(&BC, &RC[2]);
1866 EXPECT_EQ(&EC, &RC[3]);
1867 EXPECT_EQ(&AC, &RC[4]);
Chandler Carruth9302fbf2014-04-23 11:03:03 +0000[diff] [blame]1868}
1869
Chandler Carruth16250452016-12-27 05:00:45 +0000[diff] [blame]1870// Test for IR containing constants using blockaddress constant expressions.
1871// These are truly unique constructs: constant expressions with non-constant
1872// operands.
1873TEST(LazyCallGraphTest, HandleBlockAddress) {
1874 LLVMContext Context;
1875 std::unique_ptr<Module> M =
1876 parseAssembly(Context, "define void @f() {\n"
1877 "entry:\n"
1878 " ret void\n"
1879 "bb:\n"
1880 " unreachable\n"
1881 "}\n"
1882 "define void @g(i8** %ptr) {\n"
1883 "entry:\n"
1884 " store i8* blockaddress(@f, %bb), i8** %ptr\n"
1885 " ret void\n"
1886 "}\n");
1887 LazyCallGraph CG(*M);
1888
Chandler Carruth2e0fe3e2017-02-06 19:38:06 +0000[diff] [blame]1889 CG.buildRefSCCs();
Chandler Carruth16250452016-12-27 05:00:45 +0000[diff] [blame]1890 auto I = CG.postorder_ref_scc_begin();
1891 LazyCallGraph::RefSCC &FRC = *I++;
1892 LazyCallGraph::RefSCC &GRC = *I++;
1893 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
1894
1895 LazyCallGraph::Node &F = *CG.lookup(lookupFunction(*M, "f"));
1896 LazyCallGraph::Node &G = *CG.lookup(lookupFunction(*M, "g"));
1897 EXPECT_EQ(&FRC, CG.lookupRefSCC(F));
1898 EXPECT_EQ(&GRC, CG.lookupRefSCC(G));
1899 EXPECT_TRUE(GRC.isParentOf(FRC));
1900}
1901
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]1902TEST(LazyCallGraphTest, ReplaceNodeFunction) {
1903 LLVMContext Context;
1904 // A graph with several different kinds of edges pointing at a particular
1905 // function.
1906 std::unique_ptr<Module> M =
1907 parseAssembly(Context,
1908 "define void @a(i8** %ptr) {\n"
1909 "entry:\n"
1910 " store i8* bitcast (void(i8**)* @d to i8*), i8** %ptr\n"
1911 " ret void\n"
1912 "}\n"
1913 "define void @b(i8** %ptr) {\n"
1914 "entry:\n"
1915 " store i8* bitcast (void(i8**)* @d to i8*), i8** %ptr\n"
1916 " store i8* bitcast (void(i8**)* @d to i8*), i8** %ptr\n"
1917 " call void @d(i8** %ptr)"
1918 " ret void\n"
1919 "}\n"
1920 "define void @c(i8** %ptr) {\n"
1921 "entry:\n"
1922 " call void @d(i8** %ptr)"
1923 " call void @d(i8** %ptr)"
1924 " store i8* bitcast (void(i8**)* @d to i8*), i8** %ptr\n"
1925 " ret void\n"
1926 "}\n"
1927 "define void @d(i8** %ptr) {\n"
1928 "entry:\n"
1929 " store i8* bitcast (void(i8**)* @b to i8*), i8** %ptr\n"
1930 " call void @c(i8** %ptr)"
1931 " call void @d(i8** %ptr)"
1932 " store i8* bitcast (void(i8**)* @d to i8*), i8** %ptr\n"
1933 " ret void\n"
1934 "}\n");
1935 LazyCallGraph CG(*M);
1936
1937 // Force the graph to be fully expanded.
1938 CG.buildRefSCCs();
1939 auto I = CG.postorder_ref_scc_begin();
1940 LazyCallGraph::RefSCC &RC1 = *I++;
1941 LazyCallGraph::RefSCC &RC2 = *I++;
1942 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
1943
Simon Pilgrimbd83f832017-03-11 13:02:31 +0000[diff] [blame]1944 ASSERT_EQ(2, RC1.size());
Chandler Carruthaaad9f82017-02-09 23:24:13 +0000[diff] [blame]1945 LazyCallGraph::SCC &C1 = RC1[0];
1946 LazyCallGraph::SCC &C2 = RC1[1];
1947
1948 LazyCallGraph::Node &AN = *CG.lookup(lookupFunction(*M, "a"));
1949 LazyCallGraph::Node &BN = *CG.lookup(lookupFunction(*M, "b"));
1950 LazyCallGraph::Node &CN = *CG.lookup(lookupFunction(*M, "c"));
1951 LazyCallGraph::Node &DN = *CG.lookup(lookupFunction(*M, "d"));
1952 EXPECT_EQ(&C1, CG.lookupSCC(DN));
1953 EXPECT_EQ(&C1, CG.lookupSCC(CN));
1954 EXPECT_EQ(&C2, CG.lookupSCC(BN));
1955 EXPECT_EQ(&RC1, CG.lookupRefSCC(DN));
1956 EXPECT_EQ(&RC1, CG.lookupRefSCC(CN));
1957 EXPECT_EQ(&RC1, CG.lookupRefSCC(BN));
1958 EXPECT_EQ(&RC2, CG.lookupRefSCC(AN));
1959
1960 // Now we need to build a new function 'e' with the same signature as 'd'.
1961 Function &D = DN.getFunction();
1962 Function &E = *Function::Create(D.getFunctionType(), D.getLinkage(), "e");
1963 D.getParent()->getFunctionList().insert(D.getIterator(), &E);
1964
1965 // Change each use of 'd' to use 'e'. This is particularly easy as they have
1966 // the same type.
1967 D.replaceAllUsesWith(&E);
1968
1969 // Splice the body of the old function into the new one.
1970 E.getBasicBlockList().splice(E.begin(), D.getBasicBlockList());
1971 // And fix up the one argument.
1972 D.arg_begin()->replaceAllUsesWith(&*E.arg_begin());
1973 E.arg_begin()->takeName(&*D.arg_begin());
1974
1975 // Now replace the function in the graph.
1976 RC1.replaceNodeFunction(DN, E);
1977
1978 EXPECT_EQ(&E, &DN.getFunction());
1979 EXPECT_EQ(&DN, &(*CN)[DN].getNode());
1980 EXPECT_EQ(&DN, &(*BN)[DN].getNode());
1981}
Chandler Carruth1f8fcfe2017-02-09 23:30:14 +0000[diff] [blame]1982
1983TEST(LazyCallGraphTest, RemoveFunctionWithSpurriousRef) {
1984 LLVMContext Context;
1985 // A graph with a couple of RefSCCs.
1986 std::unique_ptr<Module> M =
1987 parseAssembly(Context,
1988 "define void @a(i8** %ptr) {\n"
1989 "entry:\n"
1990 " store i8* bitcast (void(i8**)* @d to i8*), i8** %ptr\n"
1991 " ret void\n"
1992 "}\n"
1993 "define void @b(i8** %ptr) {\n"
1994 "entry:\n"
1995 " store i8* bitcast (void(i8**)* @c to i8*), i8** %ptr\n"
1996 " ret void\n"
1997 "}\n"
1998 "define void @c(i8** %ptr) {\n"
1999 "entry:\n"
2000 " call void @d(i8** %ptr)"
2001 " ret void\n"
2002 "}\n"
2003 "define void @d(i8** %ptr) {\n"
2004 "entry:\n"
2005 " call void @c(i8** %ptr)"
2006 " store i8* bitcast (void(i8**)* @b to i8*), i8** %ptr\n"
2007 " ret void\n"
2008 "}\n"
2009 "define void @dead() {\n"
2010 "entry:\n"
2011 " ret void\n"
2012 "}\n");
2013 LazyCallGraph CG(*M);
2014
2015 // Insert spurious ref edges.
2016 LazyCallGraph::Node &AN = CG.get(lookupFunction(*M, "a"));
2017 LazyCallGraph::Node &BN = CG.get(lookupFunction(*M, "b"));
2018 LazyCallGraph::Node &CN = CG.get(lookupFunction(*M, "c"));
2019 LazyCallGraph::Node &DN = CG.get(lookupFunction(*M, "d"));
2020 LazyCallGraph::Node &DeadN = CG.get(lookupFunction(*M, "dead"));
2021 AN.populate();
2022 BN.populate();
2023 CN.populate();
2024 DN.populate();
2025 DeadN.populate();
2026 CG.insertEdge(AN, DeadN, LazyCallGraph::Edge::Ref);
2027 CG.insertEdge(BN, DeadN, LazyCallGraph::Edge::Ref);
2028 CG.insertEdge(CN, DeadN, LazyCallGraph::Edge::Ref);
2029 CG.insertEdge(DN, DeadN, LazyCallGraph::Edge::Ref);
2030
2031 // Force the graph to be fully expanded.
2032 CG.buildRefSCCs();
2033 auto I = CG.postorder_ref_scc_begin();
2034 LazyCallGraph::RefSCC &DeadRC = *I++;
2035 LazyCallGraph::RefSCC &RC1 = *I++;
2036 LazyCallGraph::RefSCC &RC2 = *I++;
2037 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
2038
Simon Pilgrimbd83f832017-03-11 13:02:31 +0000[diff] [blame]2039 ASSERT_EQ(2, RC1.size());
Chandler Carruth1f8fcfe2017-02-09 23:30:14 +0000[diff] [blame]2040 LazyCallGraph::SCC &C1 = RC1[0];
2041 LazyCallGraph::SCC &C2 = RC1[1];
2042
2043 EXPECT_EQ(&DeadRC, CG.lookupRefSCC(DeadN));
2044 EXPECT_EQ(&C1, CG.lookupSCC(DN));
2045 EXPECT_EQ(&C1, CG.lookupSCC(CN));
2046 EXPECT_EQ(&C2, CG.lookupSCC(BN));
2047 EXPECT_EQ(&RC1, CG.lookupRefSCC(DN));
2048 EXPECT_EQ(&RC1, CG.lookupRefSCC(CN));
2049 EXPECT_EQ(&RC1, CG.lookupRefSCC(BN));
2050 EXPECT_EQ(&RC2, CG.lookupRefSCC(AN));
2051
2052 // Now delete 'dead'. There are no uses of this function but there are
2053 // spurious references.
2054 CG.removeDeadFunction(DeadN.getFunction());
2055
2056 // The only observable change should be that the RefSCC is gone from the
2057 // postorder sequence.
2058 I = CG.postorder_ref_scc_begin();
2059 EXPECT_EQ(&RC1, &*I++);
2060 EXPECT_EQ(&RC2, &*I++);
2061 EXPECT_EQ(CG.postorder_ref_scc_end(), I);
2062}
Chandler Carruthc7bad9a2014-04-23 08:08:49 +0000[diff] [blame]2063}