//===- llvm/unittest/ADT/SmallPtrSetTest.cpp ------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // SmallPtrSet unit tests. // //===----------------------------------------------------------------------===// #include "gtest/gtest.h" #include "llvm/ADT/SmallPtrSet.h" using namespace llvm; TEST(SmallPtrSetTest, Assignment) { int buf[8]; for (int i = 0; i < 8; ++i) buf[i] = 0; SmallPtrSet s1 = {&buf[0], &buf[1]}; SmallPtrSet s2; (s2 = s1).insert(&buf[2]); // Self assign as well. (s2 = s2).insert(&buf[3]); s1 = s2; EXPECT_EQ(4U, s1.size()); for (int i = 0; i < 8; ++i) if (i < 4) EXPECT_TRUE(s1.count(&buf[i])); else EXPECT_FALSE(s1.count(&buf[i])); // Assign and insert with initializer lists, and ones that contain both // duplicates and out-of-order elements. (s2 = {&buf[6], &buf[7], &buf[6]}).insert({&buf[5], &buf[4]}); for (int i = 0; i < 8; ++i) if (i < 4) EXPECT_FALSE(s2.count(&buf[i])); else EXPECT_TRUE(s2.count(&buf[i])); } TEST(SmallPtrSetTest, GrowthTest) { int i; int buf[8]; for(i=0; i<8; ++i) buf[i]=0; SmallPtrSet s; typedef SmallPtrSet::iterator iter; s.insert(&buf[0]); s.insert(&buf[1]); s.insert(&buf[2]); s.insert(&buf[3]); EXPECT_EQ(4U, s.size()); i = 0; for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i) (**I)++; EXPECT_EQ(4, i); for(i=0; i<8; ++i) EXPECT_EQ(i<4?1:0,buf[i]); s.insert(&buf[4]); s.insert(&buf[5]); s.insert(&buf[6]); s.insert(&buf[7]); i = 0; for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i) (**I)++; EXPECT_EQ(8, i); s.erase(&buf[4]); s.erase(&buf[5]); s.erase(&buf[6]); s.erase(&buf[7]); EXPECT_EQ(4U, s.size()); i = 0; for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i) (**I)++; EXPECT_EQ(4, i); for(i=0; i<8; ++i) EXPECT_EQ(i<4?3:1,buf[i]); s.clear(); for(i=0; i<8; ++i) buf[i]=0; for(i=0; i<128; ++i) s.insert(&buf[i%8]); // test repeated entires EXPECT_EQ(8U, s.size()); for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i) (**I)++; for(i=0; i<8; ++i) EXPECT_EQ(1,buf[i]); } TEST(SmallPtrSetTest, CopyAndMoveTest) { int buf[8]; for (int i = 0; i < 8; ++i) buf[i] = 0; SmallPtrSet s1; s1.insert(&buf[0]); s1.insert(&buf[1]); s1.insert(&buf[2]); s1.insert(&buf[3]); EXPECT_EQ(4U, s1.size()); for (int i = 0; i < 8; ++i) if (i < 4) EXPECT_TRUE(s1.count(&buf[i])); else EXPECT_FALSE(s1.count(&buf[i])); SmallPtrSet s2(s1); EXPECT_EQ(4U, s2.size()); for (int i = 0; i < 8; ++i) if (i < 4) EXPECT_TRUE(s2.count(&buf[i])); else EXPECT_FALSE(s2.count(&buf[i])); s1 = s2; EXPECT_EQ(4U, s1.size()); EXPECT_EQ(4U, s2.size()); for (int i = 0; i < 8; ++i) if (i < 4) EXPECT_TRUE(s1.count(&buf[i])); else EXPECT_FALSE(s1.count(&buf[i])); SmallPtrSet s3(std::move(s1)); EXPECT_EQ(4U, s3.size()); EXPECT_TRUE(s1.empty()); for (int i = 0; i < 8; ++i) if (i < 4) EXPECT_TRUE(s3.count(&buf[i])); else EXPECT_FALSE(s3.count(&buf[i])); // Move assign into the moved-from object. Also test move of a non-small // container. s3.insert(&buf[4]); s3.insert(&buf[5]); s3.insert(&buf[6]); s3.insert(&buf[7]); s1 = std::move(s3); EXPECT_EQ(8U, s1.size()); EXPECT_TRUE(s3.empty()); for (int i = 0; i < 8; ++i) EXPECT_TRUE(s1.count(&buf[i])); // Copy assign into a moved-from object. s3 = s1; EXPECT_EQ(8U, s3.size()); EXPECT_EQ(8U, s1.size()); for (int i = 0; i < 8; ++i) EXPECT_TRUE(s3.count(&buf[i])); } TEST(SmallPtrSetTest, SwapTest) { int buf[10]; SmallPtrSet a; SmallPtrSet b; a.insert(&buf[0]); a.insert(&buf[1]); b.insert(&buf[2]); EXPECT_EQ(2U, a.size()); EXPECT_EQ(1U, b.size()); EXPECT_TRUE(a.count(&buf[0])); EXPECT_TRUE(a.count(&buf[1])); EXPECT_FALSE(a.count(&buf[2])); EXPECT_FALSE(a.count(&buf[3])); EXPECT_FALSE(b.count(&buf[0])); EXPECT_FALSE(b.count(&buf[1])); EXPECT_TRUE(b.count(&buf[2])); EXPECT_FALSE(b.count(&buf[3])); std::swap(a, b); EXPECT_EQ(1U, a.size()); EXPECT_EQ(2U, b.size()); EXPECT_FALSE(a.count(&buf[0])); EXPECT_FALSE(a.count(&buf[1])); EXPECT_TRUE(a.count(&buf[2])); EXPECT_FALSE(a.count(&buf[3])); EXPECT_TRUE(b.count(&buf[0])); EXPECT_TRUE(b.count(&buf[1])); EXPECT_FALSE(b.count(&buf[2])); EXPECT_FALSE(b.count(&buf[3])); b.insert(&buf[3]); std::swap(a, b); EXPECT_EQ(3U, a.size()); EXPECT_EQ(1U, b.size()); EXPECT_TRUE(a.count(&buf[0])); EXPECT_TRUE(a.count(&buf[1])); EXPECT_FALSE(a.count(&buf[2])); EXPECT_TRUE(a.count(&buf[3])); EXPECT_FALSE(b.count(&buf[0])); EXPECT_FALSE(b.count(&buf[1])); EXPECT_TRUE(b.count(&buf[2])); EXPECT_FALSE(b.count(&buf[3])); std::swap(a, b); EXPECT_EQ(1U, a.size()); EXPECT_EQ(3U, b.size()); EXPECT_FALSE(a.count(&buf[0])); EXPECT_FALSE(a.count(&buf[1])); EXPECT_TRUE(a.count(&buf[2])); EXPECT_FALSE(a.count(&buf[3])); EXPECT_TRUE(b.count(&buf[0])); EXPECT_TRUE(b.count(&buf[1])); EXPECT_FALSE(b.count(&buf[2])); EXPECT_TRUE(b.count(&buf[3])); a.insert(&buf[4]); a.insert(&buf[5]); a.insert(&buf[6]); std::swap(b, a); EXPECT_EQ(3U, a.size()); EXPECT_EQ(4U, b.size()); EXPECT_TRUE(b.count(&buf[2])); EXPECT_TRUE(b.count(&buf[4])); EXPECT_TRUE(b.count(&buf[5])); EXPECT_TRUE(b.count(&buf[6])); EXPECT_TRUE(a.count(&buf[0])); EXPECT_TRUE(a.count(&buf[1])); EXPECT_TRUE(a.count(&buf[3])); } void checkEraseAndIterators(SmallPtrSetImpl &S) { int buf[3]; S.insert(&buf[0]); S.insert(&buf[1]); S.insert(&buf[2]); // Iterators must still be valid after erase() calls; auto B = S.begin(); auto M = std::next(B); auto E = S.end(); EXPECT_TRUE(*B == &buf[0] || *B == &buf[1] || *B == &buf[2]); EXPECT_TRUE(*M == &buf[0] || *M == &buf[1] || *M == &buf[2]); EXPECT_TRUE(*B != *M); int *Removable = *std::next(M); // No iterator points to Removable now. EXPECT_TRUE(Removable == &buf[0] || Removable == &buf[1] || Removable == &buf[2]); EXPECT_TRUE(Removable != *B && Removable != *M); S.erase(Removable); // B,M,E iterators should still be valid EXPECT_EQ(B, S.begin()); EXPECT_EQ(M, std::next(B)); EXPECT_EQ(E, S.end()); EXPECT_EQ(std::next(M), E); } TEST(SmallPtrSetTest, EraseTest) { // Test when set stays small. SmallPtrSet B; checkEraseAndIterators(B); // Test when set grows big. SmallPtrSet A; checkEraseAndIterators(A); }