llvm-mirror/unittests/Support/IntegersSubsetTest.cpp
Stepan Dyatkovskiy fff4579249 IntRange:
- Changed isSingleNumber method behaviour. Now this flag is calculated on demand.
IntegersSubsetMapping
  - Optimized diff operation.
  - Replaced type of Items field from std::list with std::map.
  - Added new methods:
    bool isOverlapped(self &RHS)
    void add(self& RHS, SuccessorClass *S)
    void detachCase(self& NewMapping, SuccessorClass *Succ)
    void removeCase(SuccessorClass *Succ)
    SuccessorClass *findSuccessor(const IntTy& Val)
    const IntTy* getCaseSingleNumber(SuccessorClass *Succ)
IntegersSubsetTest
  - DiffTest: Added checks for successors.
SimplifyCFG
  Updated SwitchInst usage (now it is case-ragnes compatible) for
    - SimplifyEqualityComparisonWithOnlyPredecessor
    - FoldValueComparisonIntoPredecessors

llvm-svn: 159527
2012-07-02 13:02:18 +00:00

335 lines
10 KiB
C++

//===- llvm/unittest/Support/IntegersSubsetTest.cpp - IntegersSubset 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/Support/IntegersSubset.h"
#include "llvm/Support/IntegersSubsetMapping.h"
#include "gtest/gtest.h"
#include <vector>
using namespace llvm;
namespace {
class Int : public APInt {
public:
Int() {}
Int(uint64_t V) : APInt(64, V) {}
Int(const APInt& Src) : APInt(Src) {}
bool operator < (const APInt& RHS) const { return ult(RHS); }
bool operator > (const APInt& RHS) const { return ugt(RHS); }
bool operator <= (const APInt& RHS) const { return ule(RHS); }
bool operator >= (const APInt& RHS) const { return uge(RHS); }
};
typedef IntRange<Int> Range;
typedef IntegersSubsetGeneric<Int> Subset;
typedef IntegersSubsetMapping<unsigned,Subset,Int> Mapping;
TEST(IntegersSubsetTest, GeneralTest) {
// Test construction.
std::vector<Range> Ranges;
Ranges.reserve(3);
// Initialize Subset as union of three pairs:
// { {0, 8}, {10, 18}, {20, 28} }
for (unsigned i = 0; i < 3; ++i)
Ranges.push_back(Range(Int(i*10), Int(i*10 + 8)));
Subset TheSubset(Ranges);
for (unsigned i = 0; i < 3; ++i) {
EXPECT_EQ(TheSubset.getItem(i).getLow(), Int(i*10));
EXPECT_EQ(TheSubset.getItem(i).getHigh(), Int(i*10 + 8));
}
EXPECT_EQ(TheSubset.getNumItems(), 3ULL);
// Test belonging to range.
EXPECT_TRUE(TheSubset.isSatisfies(Int(5)));
EXPECT_FALSE(TheSubset.isSatisfies(Int(9)));
// Test when subset contains the only item.
Ranges.clear();
Ranges.push_back(Range(Int(10), Int(10)));
Subset TheSingleNumber(Ranges);
EXPECT_TRUE(TheSingleNumber.isSingleNumber());
Ranges.push_back(Range(Int(12), Int(15)));
Subset NotASingleNumber(Ranges);
EXPECT_FALSE(NotASingleNumber.isSingleNumber());
// Test when subset contains items that are not a ranges but
// the single numbers.
Ranges.clear();
Ranges.push_back(Range(Int(10), Int(10)));
Ranges.push_back(Range(Int(15), Int(19)));
Subset WithSingleNumberItems(Ranges);
EXPECT_TRUE(WithSingleNumberItems.isSingleNumber(0));
EXPECT_FALSE(WithSingleNumberItems.isSingleNumber(1));
// Test size of subset. Note subset itself may be not optimized (improper),
// so it may contain duplicates, and the size of subset { {0, 9} {5, 9} }
// will 15 instead of 10.
Ranges.clear();
Ranges.push_back(Range(Int(0), Int(9)));
Ranges.push_back(Range(Int(5), Int(9)));
Subset NotOptimizedSubset(Ranges);
EXPECT_EQ(NotOptimizedSubset.getSize(), 15ULL);
// Test access to a single value.
// getSingleValue(idx) method represents subset as flat numbers collection,
// so subset { {0, 3}, {8, 10} } will represented as array
// { 0, 1, 2, 3, 8, 9, 10 }.
Ranges.clear();
Ranges.push_back(Range(Int(0), Int(3)));
Ranges.push_back(Range(Int(8), Int(10)));
Subset OneMoreSubset(Ranges);
EXPECT_EQ(OneMoreSubset.getSingleValue(5), Int(9));
}
TEST(IntegersSubsetTest, MappingTest) {
Mapping::Cases TheCases;
unsigned Successors[3] = {0, 1, 2};
// Test construction.
Mapping TheMapping;
for (unsigned i = 0; i < 3; ++i)
TheMapping.add(Int(10*i), Int(10*i + 9), Successors + i);
TheMapping.add(Int(111), Int(222), Successors);
TheMapping.removeItem(--TheMapping.end());
TheMapping.getCases(TheCases);
EXPECT_EQ(TheCases.size(), 3ULL);
for (unsigned i = 0; i < 3; ++i) {
Mapping::Cases::iterator CaseIt = TheCases.begin();
std::advance(CaseIt, i);
EXPECT_EQ(CaseIt->first, Successors + i);
EXPECT_EQ(CaseIt->second.getNumItems(), 1ULL);
EXPECT_EQ(CaseIt->second.getItem(0), Range(Int(10*i), Int(10*i + 9)));
}
// Test verification.
Mapping ImproperMapping;
ImproperMapping.add(Int(10), Int(11), Successors + 0);
ImproperMapping.add(Int(11), Int(12), Successors + 1);
Mapping::RangeIterator ErrItem;
EXPECT_FALSE(ImproperMapping.verify(ErrItem));
EXPECT_EQ(ErrItem, --ImproperMapping.end());
Mapping ProperMapping;
ProperMapping.add(Int(10), Int(11), Successors + 0);
ProperMapping.add(Int(12), Int(13), Successors + 1);
EXPECT_TRUE(ProperMapping.verify(ErrItem));
// Test optimization.
Mapping ToBeOptimized;
for (unsigned i = 0; i < 3; ++i) {
ToBeOptimized.add(Int(i * 10), Int(i * 10 + 1), Successors + i);
ToBeOptimized.add(Int(i * 10 + 2), Int(i * 10 + 9), Successors + i);
}
ToBeOptimized.optimize();
TheCases.clear();
ToBeOptimized.getCases(TheCases);
EXPECT_EQ(TheCases.size(), 3ULL);
for (unsigned i = 0; i < 3; ++i) {
Mapping::Cases::iterator CaseIt = TheCases.begin();
std::advance(CaseIt, i);
EXPECT_EQ(CaseIt->first, Successors + i);
EXPECT_EQ(CaseIt->second.getNumItems(), 1ULL);
EXPECT_EQ(CaseIt->second.getItem(0), Range(Int(i * 10), Int(i * 10 + 9)));
}
}
typedef unsigned unsigned_pair[2];
typedef unsigned_pair unsigned_ranges[];
void TestDiff(
const unsigned_ranges LHS,
unsigned LSize,
const unsigned_ranges RHS,
unsigned RSize,
const unsigned_ranges ExcludeRes,
unsigned ExcludeResSize,
const unsigned_ranges IntersectRes,
unsigned IntersectResSize
) {
unsigned successors[2] = {0, 1};
Mapping::RangesCollection Ranges;
Mapping LHSMapping;
for (unsigned i = 0; i < LSize; ++i)
Ranges.push_back(Range(Int(LHS[i][0]), Int(LHS[i][1])));
LHSMapping.add(Ranges, &successors[0]);
Ranges.clear();
Mapping RHSMapping;
for (unsigned i = 0; i < RSize; ++i)
Ranges.push_back(Range(Int(RHS[i][0]), Int(RHS[i][1])));
RHSMapping.add(Ranges, &successors[1]);
Mapping LExclude, Intersection;
LHSMapping.diff(&LExclude, &Intersection, 0, RHSMapping);
if (ExcludeResSize) {
EXPECT_EQ(LExclude.size(), ExcludeResSize);
unsigned i = 0;
for (Mapping::RangeIterator rei = LExclude.begin(),
e = LExclude.end(); rei != e; ++rei, ++i) {
EXPECT_EQ(rei->first, Range(ExcludeRes[i][0], ExcludeRes[i][1]));
EXPECT_EQ(rei->second, &successors[0]);
}
} else
EXPECT_TRUE(LExclude.empty());
if (IntersectResSize) {
EXPECT_EQ(Intersection.size(), IntersectResSize);
unsigned i = 0;
for (Mapping::RangeIterator ii = Intersection.begin(),
e = Intersection.end(); ii != e; ++ii, ++i) {
EXPECT_EQ(ii->first, Range(IntersectRes[i][0], IntersectRes[i][1]));
EXPECT_EQ(ii->second, &successors[0]);
}
} else
EXPECT_TRUE(Intersection.empty());
LExclude.clear();
Intersection.clear();
RHSMapping.diff(0, &Intersection, &LExclude, LHSMapping);
// Check LExclude again.
if (ExcludeResSize) {
EXPECT_EQ(LExclude.size(), ExcludeResSize);
unsigned i = 0;
for (Mapping::RangeIterator lei = LExclude.begin(),
e = LExclude.end(); lei != e; ++lei, ++i) {
EXPECT_EQ(lei->first, Range(ExcludeRes[i][0], ExcludeRes[i][1]));
EXPECT_EQ(lei->second, &successors[0]);
}
} else
EXPECT_TRUE(LExclude.empty());
}
TEST(IntegersSubsetTest, DiffTest) {
static const unsigned NOT_A_NUMBER = 0xffff;
{
unsigned_ranges LHS = { { 0, 4 }, { 7, 10 }, { 13, 17 } };
unsigned_ranges RHS = { { 3, 14 } };
unsigned_ranges ExcludeRes = { { 0, 2 }, { 15, 17 } };
unsigned_ranges IntersectRes = { { 3, 4 }, { 7, 10 }, { 13, 14 } };
TestDiff(LHS, 3, RHS, 1, ExcludeRes, 2, IntersectRes, 3);
}
{
unsigned_ranges LHS = { { 0, 4 }, { 7, 10 }, { 13, 17 } };
unsigned_ranges RHS = { { 0, 4 }, { 13, 17 } };
unsigned_ranges ExcludeRes = { { 7, 10 } };
unsigned_ranges IntersectRes = { { 0, 4 }, { 13, 17 } };
TestDiff(LHS, 3, RHS, 2, ExcludeRes, 1, IntersectRes, 2);
}
{
unsigned_ranges LHS = { { 0, 17 } };
unsigned_ranges RHS = { { 1, 5 }, { 10, 12 }, { 15, 16 } };
unsigned_ranges ExcludeRes =
{ { 0, 0 }, { 6, 9 }, { 13, 14 }, { 17, 17 } };
unsigned_ranges IntersectRes = { { 1, 5 }, { 10, 12 }, { 15, 16 } };
TestDiff(LHS, 1, RHS, 3, ExcludeRes, 4, IntersectRes, 3);
}
{
unsigned_ranges LHS = { { 2, 4 } };
unsigned_ranges RHS = { { 0, 5 } };
unsigned_ranges ExcludeRes = { {NOT_A_NUMBER, NOT_A_NUMBER} };
unsigned_ranges IntersectRes = { { 2, 4 } };
TestDiff(LHS, 1, RHS, 1, ExcludeRes, 0, IntersectRes, 1);
}
{
unsigned_ranges LHS = { { 2, 4 } };
unsigned_ranges RHS = { { 7, 8 } };
unsigned_ranges ExcludeRes = { { 2, 4 } };
unsigned_ranges IntersectRes = { {NOT_A_NUMBER, NOT_A_NUMBER} };
TestDiff(LHS, 1, RHS, 1, ExcludeRes, 1, IntersectRes, 0);
}
{
unsigned_ranges LHS = { { 3, 7 } };
unsigned_ranges RHS = { { 1, 4 } };
unsigned_ranges ExcludeRes = { { 5, 7 } };
unsigned_ranges IntersectRes = { { 3, 4 } };
TestDiff(LHS, 1, RHS, 1, ExcludeRes, 1, IntersectRes, 1);
}
{
unsigned_ranges LHS = { { 0, 7 } };
unsigned_ranges RHS = { { 0, 5 }, { 6, 9 } };
unsigned_ranges ExcludeRes = { {NOT_A_NUMBER, NOT_A_NUMBER} };
unsigned_ranges IntersectRes = { { 0, 5 }, {6, 7} };
TestDiff(LHS, 1, RHS, 2, ExcludeRes, 0, IntersectRes, 2);
}
{
unsigned_ranges LHS = { { 17, 17 } };
unsigned_ranges RHS = { { 4, 4 } };
unsigned_ranges ExcludeRes = { {17, 17} };
unsigned_ranges IntersectRes = { { NOT_A_NUMBER, NOT_A_NUMBER } };
TestDiff(LHS, 1, RHS, 1, ExcludeRes, 1, IntersectRes, 0);
}
}
}