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[llvm] Make Sequence reverse-iterable

This patch simplifies the implementation of Sequence and makes it compatible with llvm::reverse.
It exposes the reverse iterators through rbegin/rend which prevents a dangling reference in std::reverse_iterator::operator++().

Differential Revision: https://reviews.llvm.org/D102679
This commit is contained in:
Guillaume Chatelet 2021-06-08 13:18:57 +00:00
parent 5697956ae9
commit 83dd05c1f3
2 changed files with 170 additions and 63 deletions

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@ -15,71 +15,167 @@
#ifndef LLVM_ADT_SEQUENCE_H
#define LLVM_ADT_SEQUENCE_H
#include "llvm/ADT/iterator.h"
#include "llvm/ADT/iterator_range.h"
#include <algorithm>
#include <iterator>
#include <utility>
namespace llvm {
namespace detail {
template <typename ValueT>
class value_sequence_iterator
: public iterator_facade_base<value_sequence_iterator<ValueT>,
std::random_access_iterator_tag,
const ValueT> {
using BaseT = typename value_sequence_iterator::iterator_facade_base;
template <typename T, bool IsReversed> struct iota_range_iterator {
using iterator_category = std::random_access_iterator_tag;
using value_type = T;
using difference_type = ptrdiff_t;
using pointer = T *;
using reference = T &;
ValueT Value;
public:
using difference_type = typename BaseT::difference_type;
using reference = typename BaseT::reference;
value_sequence_iterator() = default;
value_sequence_iterator(const value_sequence_iterator &) = default;
value_sequence_iterator(value_sequence_iterator &&Arg)
: Value(std::move(Arg.Value)) {}
value_sequence_iterator &operator=(const value_sequence_iterator &Arg) {
Value = Arg.Value;
return *this;
}
template <typename U, typename Enabler = decltype(ValueT(std::declval<U>()))>
value_sequence_iterator(U &&Value) : Value(std::forward<U>(Value)) {}
value_sequence_iterator &operator+=(difference_type N) {
Value += N;
return *this;
}
value_sequence_iterator &operator-=(difference_type N) {
Value -= N;
return *this;
}
using BaseT::operator-;
difference_type operator-(const value_sequence_iterator &RHS) const {
return Value - RHS.Value;
}
bool operator==(const value_sequence_iterator &RHS) const {
return Value == RHS.Value;
}
bool operator<(const value_sequence_iterator &RHS) const {
return Value < RHS.Value;
}
reference operator*() const { return Value; }
private:
struct Forward {
static void increment(T &V) { ++V; }
static void decrement(T &V) { --V; }
static void offset(T &V, difference_type Offset) { V += Offset; }
static T add(const T &V, difference_type Offset) { return V + Offset; }
static difference_type difference(const T &A, const T &B) { return A - B; }
};
} // end namespace detail
struct Reverse {
static void increment(T &V) { --V; }
static void decrement(T &V) { ++V; }
static void offset(T &V, difference_type Offset) { V -= Offset; }
static T add(const T &V, difference_type Offset) { return V - Offset; }
static difference_type difference(const T &A, const T &B) { return B - A; }
};
template <typename ValueT>
iterator_range<detail::value_sequence_iterator<ValueT>> seq(ValueT Begin,
ValueT End) {
return make_range(detail::value_sequence_iterator<ValueT>(Begin),
detail::value_sequence_iterator<ValueT>(End));
using Op = std::conditional_t<!IsReversed, Forward, Reverse>;
public:
// default-constructible
iota_range_iterator() = default;
// copy-constructible
iota_range_iterator(const iota_range_iterator &) = default;
// value constructor
explicit iota_range_iterator(T Value) : Value(Value) {}
// copy-assignable
iota_range_iterator &operator=(const iota_range_iterator &) = default;
// destructible
~iota_range_iterator() = default;
// Can be compared for equivalence using the equality/inequality operators,
bool operator!=(const iota_range_iterator &RHS) const {
return Value != RHS.Value;
}
bool operator==(const iota_range_iterator &RHS) const {
return Value == RHS.Value;
}
// Comparison
bool operator<(const iota_range_iterator &Other) const {
return Op::difference(Value, Other.Value) < 0;
}
bool operator<=(const iota_range_iterator &Other) const {
return Op::difference(Value, Other.Value) <= 0;
}
bool operator>(const iota_range_iterator &Other) const {
return Op::difference(Value, Other.Value) > 0;
}
bool operator>=(const iota_range_iterator &Other) const {
return Op::difference(Value, Other.Value) >= 0;
}
// Dereference
T operator*() const { return Value; }
T operator[](difference_type Offset) const { return Op::add(Value, Offset); }
// Arithmetic
iota_range_iterator operator+(difference_type Offset) const {
return {Op::add(Value, Offset)};
}
iota_range_iterator operator-(difference_type Offset) const {
return {Op::add(Value, -Offset)};
}
// Iterator difference
difference_type operator-(const iota_range_iterator &Other) const {
return Op::difference(Value, Other.Value);
}
// Pre/Post Increment
iota_range_iterator &operator++() {
Op::increment(Value);
return *this;
}
iota_range_iterator operator++(int) {
iota_range_iterator Tmp = *this;
Op::increment(Value);
return Tmp;
}
// Pre/Post Decrement
iota_range_iterator &operator--() {
Op::decrement(Value);
return *this;
}
iota_range_iterator operator--(int) {
iota_range_iterator Tmp = *this;
Op::decrement(Value);
return Tmp;
}
// Compound assignment operators
iota_range_iterator &operator+=(difference_type Offset) {
Op::offset(Value, Offset);
return *this;
}
iota_range_iterator &operator-=(difference_type Offset) {
Op::offset(Value, -Offset);
return *this;
}
private:
T Value;
};
} // namespace detail
template <typename ValueT> struct iota_range {
static_assert(std::is_integral<ValueT>::value,
"ValueT must be an integral type");
using value_type = ValueT;
using reference = ValueT &;
using const_reference = const ValueT &;
using iterator = detail::iota_range_iterator<value_type, false>;
using const_iterator = iterator;
using reverse_iterator = detail::iota_range_iterator<value_type, true>;
using const_reverse_iterator = reverse_iterator;
using difference_type = typename iterator::difference_type;
using size_type = std::size_t;
value_type Begin;
value_type End;
template <
typename BeginT, typename EndT,
std::enable_if_t<std::is_convertible<BeginT, ValueT>::value, bool> = true,
std::enable_if_t<std::is_convertible<EndT, ValueT>::value, bool> = true>
iota_range(BeginT &&Begin, EndT &&End)
: Begin(std::forward<BeginT>(Begin)), End(std::forward<EndT>(End)) {}
size_t size() const { return End - Begin; }
bool empty() const { return Begin == End; }
auto begin() const { return const_iterator(Begin); }
auto end() const { return const_iterator(End); }
auto rbegin() const { return const_reverse_iterator(End - 1); }
auto rend() const { return const_reverse_iterator(Begin - 1); }
private:
static_assert(std::is_same<ValueT, std::remove_cv_t<ValueT>>::value,
"ValueT must not be const nor volatile");
};
template <typename ValueT> auto seq(ValueT Begin, ValueT End) {
return iota_range<ValueT>(std::move(Begin), std::move(End));
}
} // end namespace llvm

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@ -15,26 +15,37 @@ using namespace llvm;
namespace {
TEST(SequenceTest, Basic) {
int x = 0;
for (int i : seq(0, 10)) {
EXPECT_EQ(x, i);
x++;
TEST(SequenceTest, Forward) {
int X = 0;
for (int I : seq(0, 10)) {
EXPECT_EQ(X, I);
++X;
}
EXPECT_EQ(10, X);
}
EXPECT_EQ(10, x);
auto my_seq = seq(0, 4);
EXPECT_EQ(4, my_seq.end() - my_seq.begin());
for (int i : {0, 1, 2, 3})
EXPECT_EQ(i, (int)my_seq.begin()[i]);
TEST(SequenceTest, Backward) {
int X = 9;
for (int I : reverse(seq(0, 10))) {
EXPECT_EQ(X, I);
--X;
}
EXPECT_EQ(-1, X);
}
EXPECT_TRUE(my_seq.begin() < my_seq.end());
TEST(SequenceTest, Distance) {
const auto Forward = seq(0, 10);
EXPECT_EQ(std::distance(Forward.begin(), Forward.end()), 10);
EXPECT_EQ(std::distance(Forward.rbegin(), Forward.rend()), 10);
}
auto adjusted_begin = my_seq.begin() + 2;
auto adjusted_end = my_seq.end() - 2;
EXPECT_TRUE(adjusted_begin == adjusted_end);
EXPECT_EQ(2, *adjusted_begin);
EXPECT_EQ(2, *adjusted_end);
TEST(SequenceTest, Dereferene) {
const auto Forward = seq(0, 10).begin();
EXPECT_EQ(Forward[0], 0);
EXPECT_EQ(Forward[2], 2);
const auto Backward = seq(0, 10).rbegin();
EXPECT_EQ(Backward[0], 9);
EXPECT_EQ(Backward[2], 7);
}
} // anonymous namespace