//===- llvm/unittest/ADT/APInt.cpp - APInt unit tests ---------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/ADT/APInt.h" #include "llvm/ADT/SmallString.h" #include "gtest/gtest.h" #include using namespace llvm; namespace { // Test that APInt shift left works when bitwidth > 64 and shiftamt == 0 TEST(APIntTest, ShiftLeftByZero) { APInt One = APInt::getNullValue(65) + 1; APInt Shl = One.shl(0); EXPECT_TRUE(Shl[0]); EXPECT_FALSE(Shl[1]); } TEST(APIntTest, i128_NegativeCount) { APInt Minus3(128, static_cast(-3), true); EXPECT_EQ(126u, Minus3.countLeadingOnes()); EXPECT_EQ(-3, Minus3.getSExtValue()); APInt Minus1(128, static_cast(-1), true); EXPECT_EQ(0u, Minus1.countLeadingZeros()); EXPECT_EQ(128u, Minus1.countLeadingOnes()); EXPECT_EQ(128u, Minus1.getActiveBits()); EXPECT_EQ(0u, Minus1.countTrailingZeros()); EXPECT_EQ(128u, Minus1.countTrailingOnes()); EXPECT_EQ(128u, Minus1.countPopulation()); EXPECT_EQ(-1, Minus1.getSExtValue()); } // XFAIL this test on FreeBSD where the system gcc-4.2.1 seems to miscompile it. #if defined(__llvm__) || !defined(__FreeBSD__) TEST(APIntTest, i33_Count) { APInt i33minus2(33, static_cast(-2), true); EXPECT_EQ(0u, i33minus2.countLeadingZeros()); EXPECT_EQ(32u, i33minus2.countLeadingOnes()); EXPECT_EQ(33u, i33minus2.getActiveBits()); EXPECT_EQ(1u, i33minus2.countTrailingZeros()); EXPECT_EQ(32u, i33minus2.countPopulation()); EXPECT_EQ(-2, i33minus2.getSExtValue()); EXPECT_EQ(((uint64_t)-2)&((1ull<<33) -1), i33minus2.getZExtValue()); } #endif TEST(APIntTest, i65_Count) { APInt i65(65, 0, true); EXPECT_EQ(65u, i65.countLeadingZeros()); EXPECT_EQ(0u, i65.countLeadingOnes()); EXPECT_EQ(0u, i65.getActiveBits()); EXPECT_EQ(1u, i65.getActiveWords()); EXPECT_EQ(65u, i65.countTrailingZeros()); EXPECT_EQ(0u, i65.countPopulation()); APInt i65minus(65, 0, true); i65minus.setBit(64); EXPECT_EQ(0u, i65minus.countLeadingZeros()); EXPECT_EQ(1u, i65minus.countLeadingOnes()); EXPECT_EQ(65u, i65minus.getActiveBits()); EXPECT_EQ(64u, i65minus.countTrailingZeros()); EXPECT_EQ(1u, i65minus.countPopulation()); } TEST(APIntTest, i128_PositiveCount) { APInt u128max = APInt::getAllOnesValue(128); EXPECT_EQ(128u, u128max.countLeadingOnes()); EXPECT_EQ(0u, u128max.countLeadingZeros()); EXPECT_EQ(128u, u128max.getActiveBits()); EXPECT_EQ(0u, u128max.countTrailingZeros()); EXPECT_EQ(128u, u128max.countTrailingOnes()); EXPECT_EQ(128u, u128max.countPopulation()); APInt u64max(128, static_cast(-1), false); EXPECT_EQ(64u, u64max.countLeadingZeros()); EXPECT_EQ(0u, u64max.countLeadingOnes()); EXPECT_EQ(64u, u64max.getActiveBits()); EXPECT_EQ(0u, u64max.countTrailingZeros()); EXPECT_EQ(64u, u64max.countTrailingOnes()); EXPECT_EQ(64u, u64max.countPopulation()); EXPECT_EQ((uint64_t)~0ull, u64max.getZExtValue()); APInt zero(128, 0, true); EXPECT_EQ(128u, zero.countLeadingZeros()); EXPECT_EQ(0u, zero.countLeadingOnes()); EXPECT_EQ(0u, zero.getActiveBits()); EXPECT_EQ(128u, zero.countTrailingZeros()); EXPECT_EQ(0u, zero.countTrailingOnes()); EXPECT_EQ(0u, zero.countPopulation()); EXPECT_EQ(0u, zero.getSExtValue()); EXPECT_EQ(0u, zero.getZExtValue()); APInt one(128, 1, true); EXPECT_EQ(127u, one.countLeadingZeros()); EXPECT_EQ(0u, one.countLeadingOnes()); EXPECT_EQ(1u, one.getActiveBits()); EXPECT_EQ(0u, one.countTrailingZeros()); EXPECT_EQ(1u, one.countTrailingOnes()); EXPECT_EQ(1u, one.countPopulation()); EXPECT_EQ(1, one.getSExtValue()); EXPECT_EQ(1u, one.getZExtValue()); } TEST(APIntTest, i1) { const APInt neg_two(1, static_cast(-2), true); const APInt neg_one(1, static_cast(-1), true); const APInt zero(1, 0); const APInt one(1, 1); const APInt two(1, 2); EXPECT_EQ(0, neg_two.getSExtValue()); EXPECT_EQ(-1, neg_one.getSExtValue()); EXPECT_EQ(1u, neg_one.getZExtValue()); EXPECT_EQ(0u, zero.getZExtValue()); EXPECT_EQ(-1, one.getSExtValue()); EXPECT_EQ(1u, one.getZExtValue()); EXPECT_EQ(0u, two.getZExtValue()); EXPECT_EQ(0, two.getSExtValue()); // Basic equalities for 1-bit values. EXPECT_EQ(zero, two); EXPECT_EQ(zero, neg_two); EXPECT_EQ(one, neg_one); EXPECT_EQ(two, neg_two); // Additions. EXPECT_EQ(two, one + one); EXPECT_EQ(zero, neg_one + one); EXPECT_EQ(neg_two, neg_one + neg_one); // Subtractions. EXPECT_EQ(neg_two, neg_one - one); EXPECT_EQ(two, one - neg_one); EXPECT_EQ(zero, one - one); // Shifts. EXPECT_EQ(zero, one << one); EXPECT_EQ(one, one << zero); EXPECT_EQ(zero, one.shl(1)); EXPECT_EQ(one, one.shl(0)); EXPECT_EQ(zero, one.lshr(1)); EXPECT_EQ(zero, one.ashr(1)); // Rotates. EXPECT_EQ(one, one.rotl(0)); EXPECT_EQ(one, one.rotl(1)); EXPECT_EQ(one, one.rotr(0)); EXPECT_EQ(one, one.rotr(1)); // Multiplies. EXPECT_EQ(neg_one, neg_one * one); EXPECT_EQ(neg_one, one * neg_one); EXPECT_EQ(one, neg_one * neg_one); EXPECT_EQ(one, one * one); // Divides. EXPECT_EQ(neg_one, one.sdiv(neg_one)); EXPECT_EQ(neg_one, neg_one.sdiv(one)); EXPECT_EQ(one, neg_one.sdiv(neg_one)); EXPECT_EQ(one, one.sdiv(one)); EXPECT_EQ(neg_one, one.udiv(neg_one)); EXPECT_EQ(neg_one, neg_one.udiv(one)); EXPECT_EQ(one, neg_one.udiv(neg_one)); EXPECT_EQ(one, one.udiv(one)); // Remainders. EXPECT_EQ(zero, neg_one.srem(one)); EXPECT_EQ(zero, neg_one.urem(one)); EXPECT_EQ(zero, one.srem(neg_one)); // sdivrem { APInt q(8, 0); APInt r(8, 0); APInt one(8, 1); APInt two(8, 2); APInt nine(8, 9); APInt four(8, 4); EXPECT_EQ(nine.srem(two), one); EXPECT_EQ(nine.srem(-two), one); EXPECT_EQ((-nine).srem(two), -one); EXPECT_EQ((-nine).srem(-two), -one); APInt::sdivrem(nine, two, q, r); EXPECT_EQ(four, q); EXPECT_EQ(one, r); APInt::sdivrem(-nine, two, q, r); EXPECT_EQ(-four, q); EXPECT_EQ(-one, r); APInt::sdivrem(nine, -two, q, r); EXPECT_EQ(-four, q); EXPECT_EQ(one, r); APInt::sdivrem(-nine, -two, q, r); EXPECT_EQ(four, q); EXPECT_EQ(-one, r); } } TEST(APIntTest, fromString) { EXPECT_EQ(APInt(32, 0), APInt(32, "0", 2)); EXPECT_EQ(APInt(32, 1), APInt(32, "1", 2)); EXPECT_EQ(APInt(32, 2), APInt(32, "10", 2)); EXPECT_EQ(APInt(32, 3), APInt(32, "11", 2)); EXPECT_EQ(APInt(32, 4), APInt(32, "100", 2)); EXPECT_EQ(APInt(32, 0), APInt(32, "+0", 2)); EXPECT_EQ(APInt(32, 1), APInt(32, "+1", 2)); EXPECT_EQ(APInt(32, 2), APInt(32, "+10", 2)); EXPECT_EQ(APInt(32, 3), APInt(32, "+11", 2)); EXPECT_EQ(APInt(32, 4), APInt(32, "+100", 2)); EXPECT_EQ(APInt(32, uint64_t(-0LL)), APInt(32, "-0", 2)); EXPECT_EQ(APInt(32, uint64_t(-1LL)), APInt(32, "-1", 2)); EXPECT_EQ(APInt(32, uint64_t(-2LL)), APInt(32, "-10", 2)); EXPECT_EQ(APInt(32, uint64_t(-3LL)), APInt(32, "-11", 2)); EXPECT_EQ(APInt(32, uint64_t(-4LL)), APInt(32, "-100", 2)); EXPECT_EQ(APInt(32, 0), APInt(32, "0", 8)); EXPECT_EQ(APInt(32, 1), APInt(32, "1", 8)); EXPECT_EQ(APInt(32, 7), APInt(32, "7", 8)); EXPECT_EQ(APInt(32, 8), APInt(32, "10", 8)); EXPECT_EQ(APInt(32, 15), APInt(32, "17", 8)); EXPECT_EQ(APInt(32, 16), APInt(32, "20", 8)); EXPECT_EQ(APInt(32, +0), APInt(32, "+0", 8)); EXPECT_EQ(APInt(32, +1), APInt(32, "+1", 8)); EXPECT_EQ(APInt(32, +7), APInt(32, "+7", 8)); EXPECT_EQ(APInt(32, +8), APInt(32, "+10", 8)); EXPECT_EQ(APInt(32, +15), APInt(32, "+17", 8)); EXPECT_EQ(APInt(32, +16), APInt(32, "+20", 8)); EXPECT_EQ(APInt(32, uint64_t(-0LL)), APInt(32, "-0", 8)); EXPECT_EQ(APInt(32, uint64_t(-1LL)), APInt(32, "-1", 8)); EXPECT_EQ(APInt(32, uint64_t(-7LL)), APInt(32, "-7", 8)); EXPECT_EQ(APInt(32, uint64_t(-8LL)), APInt(32, "-10", 8)); EXPECT_EQ(APInt(32, uint64_t(-15LL)), APInt(32, "-17", 8)); EXPECT_EQ(APInt(32, uint64_t(-16LL)), APInt(32, "-20", 8)); EXPECT_EQ(APInt(32, 0), APInt(32, "0", 10)); EXPECT_EQ(APInt(32, 1), APInt(32, "1", 10)); EXPECT_EQ(APInt(32, 9), APInt(32, "9", 10)); EXPECT_EQ(APInt(32, 10), APInt(32, "10", 10)); EXPECT_EQ(APInt(32, 19), APInt(32, "19", 10)); EXPECT_EQ(APInt(32, 20), APInt(32, "20", 10)); EXPECT_EQ(APInt(32, uint64_t(-0LL)), APInt(32, "-0", 10)); EXPECT_EQ(APInt(32, uint64_t(-1LL)), APInt(32, "-1", 10)); EXPECT_EQ(APInt(32, uint64_t(-9LL)), APInt(32, "-9", 10)); EXPECT_EQ(APInt(32, uint64_t(-10LL)), APInt(32, "-10", 10)); EXPECT_EQ(APInt(32, uint64_t(-19LL)), APInt(32, "-19", 10)); EXPECT_EQ(APInt(32, uint64_t(-20LL)), APInt(32, "-20", 10)); EXPECT_EQ(APInt(32, 0), APInt(32, "0", 16)); EXPECT_EQ(APInt(32, 1), APInt(32, "1", 16)); EXPECT_EQ(APInt(32, 15), APInt(32, "F", 16)); EXPECT_EQ(APInt(32, 16), APInt(32, "10", 16)); EXPECT_EQ(APInt(32, 31), APInt(32, "1F", 16)); EXPECT_EQ(APInt(32, 32), APInt(32, "20", 16)); EXPECT_EQ(APInt(32, uint64_t(-0LL)), APInt(32, "-0", 16)); EXPECT_EQ(APInt(32, uint64_t(-1LL)), APInt(32, "-1", 16)); EXPECT_EQ(APInt(32, uint64_t(-15LL)), APInt(32, "-F", 16)); EXPECT_EQ(APInt(32, uint64_t(-16LL)), APInt(32, "-10", 16)); EXPECT_EQ(APInt(32, uint64_t(-31LL)), APInt(32, "-1F", 16)); EXPECT_EQ(APInt(32, uint64_t(-32LL)), APInt(32, "-20", 16)); EXPECT_EQ(APInt(32, 0), APInt(32, "0", 36)); EXPECT_EQ(APInt(32, 1), APInt(32, "1", 36)); EXPECT_EQ(APInt(32, 35), APInt(32, "Z", 36)); EXPECT_EQ(APInt(32, 36), APInt(32, "10", 36)); EXPECT_EQ(APInt(32, 71), APInt(32, "1Z", 36)); EXPECT_EQ(APInt(32, 72), APInt(32, "20", 36)); EXPECT_EQ(APInt(32, uint64_t(-0LL)), APInt(32, "-0", 36)); EXPECT_EQ(APInt(32, uint64_t(-1LL)), APInt(32, "-1", 36)); EXPECT_EQ(APInt(32, uint64_t(-35LL)), APInt(32, "-Z", 36)); EXPECT_EQ(APInt(32, uint64_t(-36LL)), APInt(32, "-10", 36)); EXPECT_EQ(APInt(32, uint64_t(-71LL)), APInt(32, "-1Z", 36)); EXPECT_EQ(APInt(32, uint64_t(-72LL)), APInt(32, "-20", 36)); } TEST(APIntTest, FromArray) { EXPECT_EQ(APInt(32, uint64_t(1)), APInt(32, ArrayRef(1))); } TEST(APIntTest, StringBitsNeeded2) { EXPECT_EQ(1U, APInt::getBitsNeeded( "0", 2)); EXPECT_EQ(1U, APInt::getBitsNeeded( "1", 2)); EXPECT_EQ(2U, APInt::getBitsNeeded( "10", 2)); EXPECT_EQ(2U, APInt::getBitsNeeded( "11", 2)); EXPECT_EQ(3U, APInt::getBitsNeeded("100", 2)); EXPECT_EQ(1U, APInt::getBitsNeeded( "+0", 2)); EXPECT_EQ(1U, APInt::getBitsNeeded( "+1", 2)); EXPECT_EQ(2U, APInt::getBitsNeeded( "+10", 2)); EXPECT_EQ(2U, APInt::getBitsNeeded( "+11", 2)); EXPECT_EQ(3U, APInt::getBitsNeeded("+100", 2)); EXPECT_EQ(2U, APInt::getBitsNeeded( "-0", 2)); EXPECT_EQ(2U, APInt::getBitsNeeded( "-1", 2)); EXPECT_EQ(3U, APInt::getBitsNeeded( "-10", 2)); EXPECT_EQ(3U, APInt::getBitsNeeded( "-11", 2)); EXPECT_EQ(4U, APInt::getBitsNeeded("-100", 2)); } TEST(APIntTest, StringBitsNeeded8) { EXPECT_EQ(3U, APInt::getBitsNeeded( "0", 8)); EXPECT_EQ(3U, APInt::getBitsNeeded( "7", 8)); EXPECT_EQ(6U, APInt::getBitsNeeded("10", 8)); EXPECT_EQ(6U, APInt::getBitsNeeded("17", 8)); EXPECT_EQ(6U, APInt::getBitsNeeded("20", 8)); EXPECT_EQ(3U, APInt::getBitsNeeded( "+0", 8)); EXPECT_EQ(3U, APInt::getBitsNeeded( "+7", 8)); EXPECT_EQ(6U, APInt::getBitsNeeded("+10", 8)); EXPECT_EQ(6U, APInt::getBitsNeeded("+17", 8)); EXPECT_EQ(6U, APInt::getBitsNeeded("+20", 8)); EXPECT_EQ(4U, APInt::getBitsNeeded( "-0", 8)); EXPECT_EQ(4U, APInt::getBitsNeeded( "-7", 8)); EXPECT_EQ(7U, APInt::getBitsNeeded("-10", 8)); EXPECT_EQ(7U, APInt::getBitsNeeded("-17", 8)); EXPECT_EQ(7U, APInt::getBitsNeeded("-20", 8)); } TEST(APIntTest, StringBitsNeeded10) { EXPECT_EQ(1U, APInt::getBitsNeeded( "0", 10)); EXPECT_EQ(2U, APInt::getBitsNeeded( "3", 10)); EXPECT_EQ(4U, APInt::getBitsNeeded( "9", 10)); EXPECT_EQ(4U, APInt::getBitsNeeded("10", 10)); EXPECT_EQ(5U, APInt::getBitsNeeded("19", 10)); EXPECT_EQ(5U, APInt::getBitsNeeded("20", 10)); EXPECT_EQ(1U, APInt::getBitsNeeded( "+0", 10)); EXPECT_EQ(4U, APInt::getBitsNeeded( "+9", 10)); EXPECT_EQ(4U, APInt::getBitsNeeded("+10", 10)); EXPECT_EQ(5U, APInt::getBitsNeeded("+19", 10)); EXPECT_EQ(5U, APInt::getBitsNeeded("+20", 10)); EXPECT_EQ(2U, APInt::getBitsNeeded( "-0", 10)); EXPECT_EQ(5U, APInt::getBitsNeeded( "-9", 10)); EXPECT_EQ(5U, APInt::getBitsNeeded("-10", 10)); EXPECT_EQ(6U, APInt::getBitsNeeded("-19", 10)); EXPECT_EQ(6U, APInt::getBitsNeeded("-20", 10)); } TEST(APIntTest, StringBitsNeeded16) { EXPECT_EQ(4U, APInt::getBitsNeeded( "0", 16)); EXPECT_EQ(4U, APInt::getBitsNeeded( "F", 16)); EXPECT_EQ(8U, APInt::getBitsNeeded("10", 16)); EXPECT_EQ(8U, APInt::getBitsNeeded("1F", 16)); EXPECT_EQ(8U, APInt::getBitsNeeded("20", 16)); EXPECT_EQ(4U, APInt::getBitsNeeded( "+0", 16)); EXPECT_EQ(4U, APInt::getBitsNeeded( "+F", 16)); EXPECT_EQ(8U, APInt::getBitsNeeded("+10", 16)); EXPECT_EQ(8U, APInt::getBitsNeeded("+1F", 16)); EXPECT_EQ(8U, APInt::getBitsNeeded("+20", 16)); EXPECT_EQ(5U, APInt::getBitsNeeded( "-0", 16)); EXPECT_EQ(5U, APInt::getBitsNeeded( "-F", 16)); EXPECT_EQ(9U, APInt::getBitsNeeded("-10", 16)); EXPECT_EQ(9U, APInt::getBitsNeeded("-1F", 16)); EXPECT_EQ(9U, APInt::getBitsNeeded("-20", 16)); } TEST(APIntTest, toString) { SmallString<16> S; bool isSigned; APInt(8, 0).toString(S, 2, true, true); EXPECT_EQ(S.str().str(), "0b0"); S.clear(); APInt(8, 0).toString(S, 8, true, true); EXPECT_EQ(S.str().str(), "00"); S.clear(); APInt(8, 0).toString(S, 10, true, true); EXPECT_EQ(S.str().str(), "0"); S.clear(); APInt(8, 0).toString(S, 16, true, true); EXPECT_EQ(S.str().str(), "0x0"); S.clear(); APInt(8, 0).toString(S, 36, true, false); EXPECT_EQ(S.str().str(), "0"); S.clear(); isSigned = false; APInt(8, 255, isSigned).toString(S, 2, isSigned, true); EXPECT_EQ(S.str().str(), "0b11111111"); S.clear(); APInt(8, 255, isSigned).toString(S, 8, isSigned, true); EXPECT_EQ(S.str().str(), "0377"); S.clear(); APInt(8, 255, isSigned).toString(S, 10, isSigned, true); EXPECT_EQ(S.str().str(), "255"); S.clear(); APInt(8, 255, isSigned).toString(S, 16, isSigned, true); EXPECT_EQ(S.str().str(), "0xFF"); S.clear(); APInt(8, 255, isSigned).toString(S, 36, isSigned, false); EXPECT_EQ(S.str().str(), "73"); S.clear(); isSigned = true; APInt(8, 255, isSigned).toString(S, 2, isSigned, true); EXPECT_EQ(S.str().str(), "-0b1"); S.clear(); APInt(8, 255, isSigned).toString(S, 8, isSigned, true); EXPECT_EQ(S.str().str(), "-01"); S.clear(); APInt(8, 255, isSigned).toString(S, 10, isSigned, true); EXPECT_EQ(S.str().str(), "-1"); S.clear(); APInt(8, 255, isSigned).toString(S, 16, isSigned, true); EXPECT_EQ(S.str().str(), "-0x1"); S.clear(); APInt(8, 255, isSigned).toString(S, 36, isSigned, false); EXPECT_EQ(S.str().str(), "-1"); S.clear(); } TEST(APIntTest, Log2) { EXPECT_EQ(APInt(15, 7).logBase2(), 2U); EXPECT_EQ(APInt(15, 7).ceilLogBase2(), 3U); EXPECT_EQ(APInt(15, 7).exactLogBase2(), -1); EXPECT_EQ(APInt(15, 8).logBase2(), 3U); EXPECT_EQ(APInt(15, 8).ceilLogBase2(), 3U); EXPECT_EQ(APInt(15, 8).exactLogBase2(), 3); EXPECT_EQ(APInt(15, 9).logBase2(), 3U); EXPECT_EQ(APInt(15, 9).ceilLogBase2(), 4U); EXPECT_EQ(APInt(15, 9).exactLogBase2(), -1); } TEST(APIntTest, magic) { EXPECT_EQ(APInt(32, 3).magic().m, APInt(32, "55555556", 16)); EXPECT_EQ(APInt(32, 3).magic().s, 0U); EXPECT_EQ(APInt(32, 5).magic().m, APInt(32, "66666667", 16)); EXPECT_EQ(APInt(32, 5).magic().s, 1U); EXPECT_EQ(APInt(32, 7).magic().m, APInt(32, "92492493", 16)); EXPECT_EQ(APInt(32, 7).magic().s, 2U); } TEST(APIntTest, magicu) { EXPECT_EQ(APInt(32, 3).magicu().m, APInt(32, "AAAAAAAB", 16)); EXPECT_EQ(APInt(32, 3).magicu().s, 1U); EXPECT_EQ(APInt(32, 5).magicu().m, APInt(32, "CCCCCCCD", 16)); EXPECT_EQ(APInt(32, 5).magicu().s, 2U); EXPECT_EQ(APInt(32, 7).magicu().m, APInt(32, "24924925", 16)); EXPECT_EQ(APInt(32, 7).magicu().s, 3U); EXPECT_EQ(APInt(64, 25).magicu(1).m, APInt(64, "A3D70A3D70A3D70B", 16)); EXPECT_EQ(APInt(64, 25).magicu(1).s, 4U); } #ifdef GTEST_HAS_DEATH_TEST #ifndef NDEBUG TEST(APIntTest, StringDeath) { EXPECT_DEATH(APInt(0, "", 0), "Bitwidth too small"); EXPECT_DEATH(APInt(32, "", 0), "Invalid string length"); EXPECT_DEATH(APInt(32, "0", 0), "Radix should be 2, 8, 10, 16, or 36!"); EXPECT_DEATH(APInt(32, "", 10), "Invalid string length"); EXPECT_DEATH(APInt(32, "-", 10), "String is only a sign, needs a value."); EXPECT_DEATH(APInt(1, "1234", 10), "Insufficient bit width"); EXPECT_DEATH(APInt(32, "\0", 10), "Invalid string length"); EXPECT_DEATH(APInt(32, StringRef("1\02", 3), 10), "Invalid character in digit string"); EXPECT_DEATH(APInt(32, "1L", 10), "Invalid character in digit string"); } #endif #endif TEST(APIntTest, mul_clear) { APInt ValA(65, -1ULL); APInt ValB(65, 4); APInt ValC(65, 0); ValC = ValA * ValB; ValA *= ValB; EXPECT_EQ(ValA.toString(10, false), ValC.toString(10, false)); } TEST(APIntTest, Rotate) { EXPECT_EQ(APInt(8, 1), APInt(8, 1).rotl(0)); EXPECT_EQ(APInt(8, 2), APInt(8, 1).rotl(1)); EXPECT_EQ(APInt(8, 4), APInt(8, 1).rotl(2)); EXPECT_EQ(APInt(8, 16), APInt(8, 1).rotl(4)); EXPECT_EQ(APInt(8, 1), APInt(8, 1).rotl(8)); EXPECT_EQ(APInt(8, 16), APInt(8, 16).rotl(0)); EXPECT_EQ(APInt(8, 32), APInt(8, 16).rotl(1)); EXPECT_EQ(APInt(8, 64), APInt(8, 16).rotl(2)); EXPECT_EQ(APInt(8, 1), APInt(8, 16).rotl(4)); EXPECT_EQ(APInt(8, 16), APInt(8, 16).rotl(8)); EXPECT_EQ(APInt(8, 16), APInt(8, 16).rotr(0)); EXPECT_EQ(APInt(8, 8), APInt(8, 16).rotr(1)); EXPECT_EQ(APInt(8, 4), APInt(8, 16).rotr(2)); EXPECT_EQ(APInt(8, 1), APInt(8, 16).rotr(4)); EXPECT_EQ(APInt(8, 16), APInt(8, 16).rotr(8)); EXPECT_EQ(APInt(8, 1), APInt(8, 1).rotr(0)); EXPECT_EQ(APInt(8, 128), APInt(8, 1).rotr(1)); EXPECT_EQ(APInt(8, 64), APInt(8, 1).rotr(2)); EXPECT_EQ(APInt(8, 16), APInt(8, 1).rotr(4)); EXPECT_EQ(APInt(8, 1), APInt(8, 1).rotr(8)); APInt Big(256, "00004000800000000000000000003fff8000000000000000", 16); APInt Rot(256, "3fff80000000000000000000000000000000000040008000", 16); EXPECT_EQ(Rot, Big.rotr(144)); } TEST(APIntTest, Splat) { APInt ValA(8, 0x01); EXPECT_EQ(ValA, APInt::getSplat(8, ValA)); EXPECT_EQ(APInt(64, 0x0101010101010101ULL), APInt::getSplat(64, ValA)); APInt ValB(3, 5); EXPECT_EQ(APInt(4, 0xD), APInt::getSplat(4, ValB)); EXPECT_EQ(APInt(15, 0xDB6D), APInt::getSplat(15, ValB)); } TEST(APIntTest, tcDecrement) { // Test single word decrement. // No out borrow. { integerPart singleWord = ~integerPart(0) << (integerPartWidth - 1); integerPart carry = APInt::tcDecrement(&singleWord, 1); EXPECT_EQ(carry, integerPart(0)); EXPECT_EQ(singleWord, ~integerPart(0) >> 1); } // With out borrow. { integerPart singleWord = 0; integerPart carry = APInt::tcDecrement(&singleWord, 1); EXPECT_EQ(carry, integerPart(1)); EXPECT_EQ(singleWord, ~integerPart(0)); } // Test multiword decrement. // No across word borrow, no out borrow. { integerPart test[4] = {0x1, 0x1, 0x1, 0x1}; integerPart expected[4] = {0x0, 0x1, 0x1, 0x1}; APInt::tcDecrement(test, 4); EXPECT_EQ(APInt::tcCompare(test, expected, 4), 0); } // 1 across word borrow, no out borrow. { integerPart test[4] = {0x0, 0xF, 0x1, 0x1}; integerPart expected[4] = {~integerPart(0), 0xE, 0x1, 0x1}; integerPart carry = APInt::tcDecrement(test, 4); EXPECT_EQ(carry, integerPart(0)); EXPECT_EQ(APInt::tcCompare(test, expected, 4), 0); } // 2 across word borrow, no out borrow. { integerPart test[4] = {0x0, 0x0, 0xC, 0x1}; integerPart expected[4] = {~integerPart(0), ~integerPart(0), 0xB, 0x1}; integerPart carry = APInt::tcDecrement(test, 4); EXPECT_EQ(carry, integerPart(0)); EXPECT_EQ(APInt::tcCompare(test, expected, 4), 0); } // 3 across word borrow, no out borrow. { integerPart test[4] = {0x0, 0x0, 0x0, 0x1}; integerPart expected[4] = {~integerPart(0), ~integerPart(0), ~integerPart(0), 0x0}; integerPart carry = APInt::tcDecrement(test, 4); EXPECT_EQ(carry, integerPart(0)); EXPECT_EQ(APInt::tcCompare(test, expected, 4), 0); } // 3 across word borrow, with out borrow. { integerPart test[4] = {0x0, 0x0, 0x0, 0x0}; integerPart expected[4] = {~integerPart(0), ~integerPart(0), ~integerPart(0), ~integerPart(0)}; integerPart carry = APInt::tcDecrement(test, 4); EXPECT_EQ(carry, integerPart(1)); EXPECT_EQ(APInt::tcCompare(test, expected, 4), 0); } } TEST(APIntTest, arrayAccess) { // Single word check. uint64_t E1 = 0x2CA7F46BF6569915ULL; APInt A1(64, E1); for (unsigned i = 0, e = 64; i < e; ++i) { EXPECT_EQ(bool(E1 & (1ULL << i)), A1[i]); } // Multiword check. integerPart E2[4] = { 0xEB6EB136591CBA21ULL, 0x7B9358BD6A33F10AULL, 0x7E7FFA5EADD8846ULL, 0x305F341CA00B613DULL }; APInt A2(integerPartWidth*4, ArrayRef(E2, 4)); for (unsigned i = 0; i < 4; ++i) { for (unsigned j = 0; j < integerPartWidth; ++j) { EXPECT_EQ(bool(E2[i] & (1ULL << j)), A2[i*integerPartWidth + j]); } } } TEST(APIntTest, LargeAPIntConstruction) { // Check that we can properly construct very large APInt. It is very // unlikely that people will ever do this, but it is a legal input, // so we should not crash on it. APInt A9(UINT32_MAX, 0); EXPECT_FALSE(A9.getBoolValue()); } TEST(APIntTest, nearestLogBase2) { // Single word check. // Test round up. uint64_t I1 = 0x1800001; APInt A1(64, I1); EXPECT_EQ(A1.nearestLogBase2(), A1.ceilLogBase2()); // Test round down. uint64_t I2 = 0x1000011; APInt A2(64, I2); EXPECT_EQ(A2.nearestLogBase2(), A2.logBase2()); // Test ties round up. uint64_t I3 = 0x1800000; APInt A3(64, I3); EXPECT_EQ(A3.nearestLogBase2(), A3.ceilLogBase2()); // Multiple word check. // Test round up. integerPart I4[4] = {0x0, 0xF, 0x18, 0x0}; APInt A4(integerPartWidth*4, ArrayRef(I4, 4)); EXPECT_EQ(A4.nearestLogBase2(), A4.ceilLogBase2()); // Test round down. integerPart I5[4] = {0x0, 0xF, 0x10, 0x0}; APInt A5(integerPartWidth*4, ArrayRef(I5, 4)); EXPECT_EQ(A5.nearestLogBase2(), A5.logBase2()); // Test ties round up. uint64_t I6[4] = {0x0, 0x0, 0x0, 0x18}; APInt A6(integerPartWidth*4, ArrayRef(I6, 4)); EXPECT_EQ(A6.nearestLogBase2(), A6.ceilLogBase2()); // Test BitWidth == 1 special cases. APInt A7(1, 1); EXPECT_EQ(A7.nearestLogBase2(), 0ULL); APInt A8(1, 0); EXPECT_EQ(A8.nearestLogBase2(), UINT32_MAX); // Test the zero case when we have a bit width large enough such // that the bit width is larger than UINT32_MAX-1. APInt A9(UINT32_MAX, 0); EXPECT_EQ(A9.nearestLogBase2(), UINT32_MAX); } }