llvm-project/polly/unittests/DeLICM/DeLICMTest.cpp

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//===- DeLICMTest.cpp ----------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "polly/DeLICM.h"
#include "gtest/gtest.h"
#include <isl/map.h>
#include <isl/set.h>
#include <isl/stream.h>
#include <isl/union_map.h>
#include <isl/union_set.h>
#include <memory>
using namespace llvm;
using namespace polly;
namespace {
/// Get the universes of all spaces in @p USet.
Introduce isl C++ bindings, Part 1: value_ptr style interface Over the last couple of months several authors of independent isl C++ bindings worked together to jointly design an official set of isl C++ bindings which combines their experience in developing isl C++ bindings. The new bindings have been designed around a value pointer style interface and remove the need for explicit pointer managenent and instead use C++ language features to manage isl objects. This commit introduces the smart-pointer part of the isl C++ bindings and replaces the current IslPtr<T> classes, which served the very same purpose, but had to be manually maintained. Instead, we now rely on automatically generated classes for each isl object, which provide value_ptr semantics. An isl object has the following smart pointer interface: inline set manage(__isl_take isl_set *ptr); class set { friend inline set manage(__isl_take isl_set *ptr); isl_set *ptr = nullptr; inline explicit set(__isl_take isl_set *ptr); public: inline set(); inline set(const set &obj); inline set &operator=(set obj); inline ~set(); inline __isl_give isl_set *copy() const &; inline __isl_give isl_set *copy() && = delete; inline __isl_keep isl_set *get() const; inline __isl_give isl_set *release(); inline bool is_null() const; } The interface and behavior of the new value pointer style classes is inspired by http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2012/n3339.pdf, which proposes a std::value_ptr, a smart pointer that applies value semantics to its pointee. We currently only provide a limited set of public constructors and instead require provide a global overloaded type constructor method "isl::obj isl::manage(isl_obj *)", which allows to convert an isl_set* to an isl::set by calling 'S = isl::manage(s)'. This pattern models the make_unique() constructor for unique pointers. The next two functions isl::obj::get() and isl::obj::release() are taken directly from the std::value_ptr proposal: S.get() extracts the raw pointer of the object managed by S. S.release() extracts the raw pointer of the object managed by S and sets the object in S to null. We additionally add std::obj::copy(). S.copy() returns a raw pointer refering to a copy of S, which is a shortcut for "isl::obj(oldobj).release()", a functionality commonly needed when interacting directly with the isl C interface where all methods marked with __isl_take require consumable raw pointers. S.is_null() checks if S manages a pointer or if the managed object is currently null. We add this function to provide a more explicit way to check if the pointer is empty compared to a direct conversion to bool. This commit also introduces a couple of polly-specific extensions that cover features currently not handled by the official isl C++ bindings draft, but which have been provided by IslPtr<T> and are consequently added to avoid code churn. These extensions include: - operator bool() : Conversion from objects to bool - construction from nullptr_t - get_ctx() method - take/keep/give methods, which match the currently used naming convention of IslPtr<T> in Polly. They just forward to (release/get/manage). - raw_ostream printers We expect that these extensions are over time either removed or upstreamed to the official isl bindings. We also export a couple of classes that have not yet been exported in isl (e.g., isl::space) As part of the code review, the following two questions were asked: - Why do we not use a standard smart pointer? std::value_ptr was a proposal that has not been accepted. It is consequently not available in the standard library. Even if it would be available, we want to expand this interface with a complete method interface that is conveniently available from each managed pointer. The most direct way to achieve this is to generate a specialiced value style pointer class for each isl object type and add any additional methods to this class. The relevant changes follow in subsequent commits. - Why do we not use templates or macros to avoid code duplication? It is certainly possible to use templates or macros, but as this code is auto-generated there is no need to make writing this code more efficient. Also, most of these classes will be specialized with individual member functions in subsequent commits, such that there will be little code reuse to exploit. Hence, we decided to do so at the moment. These bindings are not yet officially part of isl, but the draft is already very stable. The smart pointer interface itself did not change since serveral months. Adding this code to Polly is against our normal policy of only importing official isl code. In this case however, we make an exception to showcase a non-trivial use case of these bindings which should increase confidence in these bindings and will help upstreaming them to isl. Tags: #polly Reviewed By: Meinersbur Differential Revision: https://reviews.llvm.org/D30325 llvm-svn: 297452
2017-03-10 19:41:03 +08:00
isl::union_set unionSpace(const isl::union_set &USet) {
auto Result = give(isl_union_set_empty(isl_union_set_get_space(USet.keep())));
Use isl C++ foreach implementation This commit switches Polly over to the isl::obj::foreach_* implementation, which is part of the new isl bindings and follows the foreach pattern established in Polly by Michael Kruse. The original isl C function: isl_stat isl_union_set_foreach_set(__isl_keep isl_union_set *uset, isl_stat (*fn)(__isl_take isl_set *set, void *user), void *user); which required the user to define a static callback function to which all interesting parameters are passed via a 'void *' user-pointer, is on the C++ side available as a function that takes a std::function<>, which can carry any additional arguments without the need for a user pointer: stat UnionSet::foreach_set(const std::function<stat(set)> &fn) const; The following code illustrates the use of the new C++ interface: auto Lambda = [=, &Result](isl::set Set) -> isl::stat { auto Shifted = shiftDimension(Set, Pos, Amount); Result = Result.add(Shifted); return isl::stat::ok; } UnionSet.foreach_set(Lambda); Polly had some specialized foreach functions which did not require the lambdas to return a status flag. We remove these functions in this commit to move Polly completely over to the new isl interface. We may in the future discuss if functors without return values can be supported easily. Another extension proposed by Michael Kruse is the use of C++ iterators to allow the use of normal for loops to iterate over these sets. Such an extension would allow us to further simplify the code. Reviewed-by: Michael Kruse <llvm@meinersbur.de> Differential Revision: https://reviews.llvm.org/D30620 llvm-svn: 300323
2017-04-14 21:39:40 +08:00
USet.foreach_set([=, &Result](isl::set Set) -> isl::stat {
auto Space = give(isl_set_get_space(Set.keep()));
auto Universe = give(isl_set_universe(Space.take()));
Result = give(isl_union_set_add_set(Result.take(), Universe.take()));
Use isl C++ foreach implementation This commit switches Polly over to the isl::obj::foreach_* implementation, which is part of the new isl bindings and follows the foreach pattern established in Polly by Michael Kruse. The original isl C function: isl_stat isl_union_set_foreach_set(__isl_keep isl_union_set *uset, isl_stat (*fn)(__isl_take isl_set *set, void *user), void *user); which required the user to define a static callback function to which all interesting parameters are passed via a 'void *' user-pointer, is on the C++ side available as a function that takes a std::function<>, which can carry any additional arguments without the need for a user pointer: stat UnionSet::foreach_set(const std::function<stat(set)> &fn) const; The following code illustrates the use of the new C++ interface: auto Lambda = [=, &Result](isl::set Set) -> isl::stat { auto Shifted = shiftDimension(Set, Pos, Amount); Result = Result.add(Shifted); return isl::stat::ok; } UnionSet.foreach_set(Lambda); Polly had some specialized foreach functions which did not require the lambdas to return a status flag. We remove these functions in this commit to move Polly completely over to the new isl interface. We may in the future discuss if functors without return values can be supported easily. Another extension proposed by Michael Kruse is the use of C++ iterators to allow the use of normal for loops to iterate over these sets. Such an extension would allow us to further simplify the code. Reviewed-by: Michael Kruse <llvm@meinersbur.de> Differential Revision: https://reviews.llvm.org/D30620 llvm-svn: 300323
2017-04-14 21:39:40 +08:00
return isl::stat::ok;
});
return Result;
}
void completeLifetime(isl::union_set Universe, isl::union_map OccupiedAndKnown,
isl::union_set &Occupied, isl::union_map &Known,
Introduce isl C++ bindings, Part 1: value_ptr style interface Over the last couple of months several authors of independent isl C++ bindings worked together to jointly design an official set of isl C++ bindings which combines their experience in developing isl C++ bindings. The new bindings have been designed around a value pointer style interface and remove the need for explicit pointer managenent and instead use C++ language features to manage isl objects. This commit introduces the smart-pointer part of the isl C++ bindings and replaces the current IslPtr<T> classes, which served the very same purpose, but had to be manually maintained. Instead, we now rely on automatically generated classes for each isl object, which provide value_ptr semantics. An isl object has the following smart pointer interface: inline set manage(__isl_take isl_set *ptr); class set { friend inline set manage(__isl_take isl_set *ptr); isl_set *ptr = nullptr; inline explicit set(__isl_take isl_set *ptr); public: inline set(); inline set(const set &obj); inline set &operator=(set obj); inline ~set(); inline __isl_give isl_set *copy() const &; inline __isl_give isl_set *copy() && = delete; inline __isl_keep isl_set *get() const; inline __isl_give isl_set *release(); inline bool is_null() const; } The interface and behavior of the new value pointer style classes is inspired by http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2012/n3339.pdf, which proposes a std::value_ptr, a smart pointer that applies value semantics to its pointee. We currently only provide a limited set of public constructors and instead require provide a global overloaded type constructor method "isl::obj isl::manage(isl_obj *)", which allows to convert an isl_set* to an isl::set by calling 'S = isl::manage(s)'. This pattern models the make_unique() constructor for unique pointers. The next two functions isl::obj::get() and isl::obj::release() are taken directly from the std::value_ptr proposal: S.get() extracts the raw pointer of the object managed by S. S.release() extracts the raw pointer of the object managed by S and sets the object in S to null. We additionally add std::obj::copy(). S.copy() returns a raw pointer refering to a copy of S, which is a shortcut for "isl::obj(oldobj).release()", a functionality commonly needed when interacting directly with the isl C interface where all methods marked with __isl_take require consumable raw pointers. S.is_null() checks if S manages a pointer or if the managed object is currently null. We add this function to provide a more explicit way to check if the pointer is empty compared to a direct conversion to bool. This commit also introduces a couple of polly-specific extensions that cover features currently not handled by the official isl C++ bindings draft, but which have been provided by IslPtr<T> and are consequently added to avoid code churn. These extensions include: - operator bool() : Conversion from objects to bool - construction from nullptr_t - get_ctx() method - take/keep/give methods, which match the currently used naming convention of IslPtr<T> in Polly. They just forward to (release/get/manage). - raw_ostream printers We expect that these extensions are over time either removed or upstreamed to the official isl bindings. We also export a couple of classes that have not yet been exported in isl (e.g., isl::space) As part of the code review, the following two questions were asked: - Why do we not use a standard smart pointer? std::value_ptr was a proposal that has not been accepted. It is consequently not available in the standard library. Even if it would be available, we want to expand this interface with a complete method interface that is conveniently available from each managed pointer. The most direct way to achieve this is to generate a specialiced value style pointer class for each isl object type and add any additional methods to this class. The relevant changes follow in subsequent commits. - Why do we not use templates or macros to avoid code duplication? It is certainly possible to use templates or macros, but as this code is auto-generated there is no need to make writing this code more efficient. Also, most of these classes will be specialized with individual member functions in subsequent commits, such that there will be little code reuse to exploit. Hence, we decided to do so at the moment. These bindings are not yet officially part of isl, but the draft is already very stable. The smart pointer interface itself did not change since serveral months. Adding this code to Polly is against our normal policy of only importing official isl code. In this case however, we make an exception to showcase a non-trivial use case of these bindings which should increase confidence in these bindings and will help upstreaming them to isl. Tags: #polly Reviewed By: Meinersbur Differential Revision: https://reviews.llvm.org/D30325 llvm-svn: 297452
2017-03-10 19:41:03 +08:00
isl::union_set &Undef) {
auto ParamSpace = give(isl_union_set_get_space(Universe.keep()));
if (Undef && !Occupied) {
assert(!Occupied);
Occupied = give(isl_union_set_subtract(Universe.copy(), Undef.copy()));
}
if (OccupiedAndKnown) {
assert(!Known);
Known = isl::union_map::empty(ParamSpace);
if (!Occupied)
Occupied = OccupiedAndKnown.domain();
Use isl C++ foreach implementation This commit switches Polly over to the isl::obj::foreach_* implementation, which is part of the new isl bindings and follows the foreach pattern established in Polly by Michael Kruse. The original isl C function: isl_stat isl_union_set_foreach_set(__isl_keep isl_union_set *uset, isl_stat (*fn)(__isl_take isl_set *set, void *user), void *user); which required the user to define a static callback function to which all interesting parameters are passed via a 'void *' user-pointer, is on the C++ side available as a function that takes a std::function<>, which can carry any additional arguments without the need for a user pointer: stat UnionSet::foreach_set(const std::function<stat(set)> &fn) const; The following code illustrates the use of the new C++ interface: auto Lambda = [=, &Result](isl::set Set) -> isl::stat { auto Shifted = shiftDimension(Set, Pos, Amount); Result = Result.add(Shifted); return isl::stat::ok; } UnionSet.foreach_set(Lambda); Polly had some specialized foreach functions which did not require the lambdas to return a status flag. We remove these functions in this commit to move Polly completely over to the new isl interface. We may in the future discuss if functors without return values can be supported easily. Another extension proposed by Michael Kruse is the use of C++ iterators to allow the use of normal for loops to iterate over these sets. Such an extension would allow us to further simplify the code. Reviewed-by: Michael Kruse <llvm@meinersbur.de> Differential Revision: https://reviews.llvm.org/D30620 llvm-svn: 300323
2017-04-14 21:39:40 +08:00
OccupiedAndKnown.foreach_map([&Known](isl::map Map) -> isl::stat {
if (isl_map_has_tuple_name(Map.keep(), isl_dim_out) != isl_bool_true)
Use isl C++ foreach implementation This commit switches Polly over to the isl::obj::foreach_* implementation, which is part of the new isl bindings and follows the foreach pattern established in Polly by Michael Kruse. The original isl C function: isl_stat isl_union_set_foreach_set(__isl_keep isl_union_set *uset, isl_stat (*fn)(__isl_take isl_set *set, void *user), void *user); which required the user to define a static callback function to which all interesting parameters are passed via a 'void *' user-pointer, is on the C++ side available as a function that takes a std::function<>, which can carry any additional arguments without the need for a user pointer: stat UnionSet::foreach_set(const std::function<stat(set)> &fn) const; The following code illustrates the use of the new C++ interface: auto Lambda = [=, &Result](isl::set Set) -> isl::stat { auto Shifted = shiftDimension(Set, Pos, Amount); Result = Result.add(Shifted); return isl::stat::ok; } UnionSet.foreach_set(Lambda); Polly had some specialized foreach functions which did not require the lambdas to return a status flag. We remove these functions in this commit to move Polly completely over to the new isl interface. We may in the future discuss if functors without return values can be supported easily. Another extension proposed by Michael Kruse is the use of C++ iterators to allow the use of normal for loops to iterate over these sets. Such an extension would allow us to further simplify the code. Reviewed-by: Michael Kruse <llvm@meinersbur.de> Differential Revision: https://reviews.llvm.org/D30620 llvm-svn: 300323
2017-04-14 21:39:40 +08:00
return isl::stat::ok;
Known = give(isl_union_map_add_map(Known.take(), Map.take()));
Use isl C++ foreach implementation This commit switches Polly over to the isl::obj::foreach_* implementation, which is part of the new isl bindings and follows the foreach pattern established in Polly by Michael Kruse. The original isl C function: isl_stat isl_union_set_foreach_set(__isl_keep isl_union_set *uset, isl_stat (*fn)(__isl_take isl_set *set, void *user), void *user); which required the user to define a static callback function to which all interesting parameters are passed via a 'void *' user-pointer, is on the C++ side available as a function that takes a std::function<>, which can carry any additional arguments without the need for a user pointer: stat UnionSet::foreach_set(const std::function<stat(set)> &fn) const; The following code illustrates the use of the new C++ interface: auto Lambda = [=, &Result](isl::set Set) -> isl::stat { auto Shifted = shiftDimension(Set, Pos, Amount); Result = Result.add(Shifted); return isl::stat::ok; } UnionSet.foreach_set(Lambda); Polly had some specialized foreach functions which did not require the lambdas to return a status flag. We remove these functions in this commit to move Polly completely over to the new isl interface. We may in the future discuss if functors without return values can be supported easily. Another extension proposed by Michael Kruse is the use of C++ iterators to allow the use of normal for loops to iterate over these sets. Such an extension would allow us to further simplify the code. Reviewed-by: Michael Kruse <llvm@meinersbur.de> Differential Revision: https://reviews.llvm.org/D30620 llvm-svn: 300323
2017-04-14 21:39:40 +08:00
return isl::stat::ok;
});
}
if (!Undef) {
assert(Occupied);
Undef = give(isl_union_set_subtract(Universe.copy(), Occupied.copy()));
}
if (!Known) { // By default, nothing is known.
Known = isl::union_map::empty(ParamSpace);
}
// Conditions that must hold when returning.
assert(Occupied);
assert(Undef);
assert(Known);
}
typedef struct {
const char *OccupiedStr;
const char *UndefStr;
const char *WrittenStr;
} KnowledgeStr;
isl::union_set parseSetOrNull(isl_ctx *Ctx, const char *Str) {
if (!Str)
return nullptr;
return isl::union_set(Ctx, Str);
}
isl::union_map parseMapOrNull(isl_ctx *Ctx, const char *Str) {
if (!Str)
return nullptr;
return isl::union_map(Ctx, Str);
}
bool checkIsConflictingNonsymmetricCommon(
isl_ctx *Ctx, isl::union_map ExistingOccupiedAndKnown,
isl::union_set ExistingUnused, isl::union_map ExistingWritten,
isl::union_map ProposedOccupiedAndKnown, isl::union_set ProposedUnused,
isl::union_map ProposedWritten) {
// Determine universe (set of all possible domains).
auto Universe = give(isl_union_set_empty(isl_space_params_alloc(Ctx, 0)));
if (ExistingOccupiedAndKnown)
Universe = give(isl_union_set_union(
Universe.take(), ExistingOccupiedAndKnown.domain().take()));
if (ExistingUnused)
Universe =
give(isl_union_set_union(Universe.take(), ExistingUnused.copy()));
if (ExistingWritten)
Universe = give(
isl_union_set_union(Universe.take(), ExistingWritten.domain().take()));
if (ProposedOccupiedAndKnown)
Universe = give(isl_union_set_union(
Universe.take(), ProposedOccupiedAndKnown.domain().take()));
if (ProposedUnused)
Universe =
give(isl_union_set_union(Universe.take(), ProposedUnused.copy()));
if (ProposedWritten)
Universe = give(
isl_union_set_union(Universe.take(), ProposedWritten.domain().take()));
Universe = unionSpace(Universe);
// Add a space the universe that does not occur anywhere else to ensure
// robustness. Use &NewId to ensure that this Id is unique.
isl::id NewId = give(isl_id_alloc(Ctx, "Unrelated", &NewId));
// The space must contains at least one dimension to allow order
// modifications.
auto NewSpace = give(isl_space_set_alloc(Ctx, 0, 1));
NewSpace =
give(isl_space_set_tuple_id(NewSpace.take(), isl_dim_set, NewId.copy()));
auto NewSet = give(isl_set_universe(NewSpace.take()));
Universe = give(isl_union_set_add_set(Universe.take(), NewSet.take()));
// Using the universe, fill missing data.
isl::union_set ExistingOccupied;
isl::union_map ExistingKnown;
completeLifetime(Universe, ExistingOccupiedAndKnown, ExistingOccupied,
ExistingKnown, ExistingUnused);
isl::union_set ProposedOccupied;
isl::union_map ProposedKnown;
completeLifetime(Universe, ProposedOccupiedAndKnown, ProposedOccupied,
ProposedKnown, ProposedUnused);
auto Result = isConflicting(ExistingOccupied, ExistingUnused, ExistingKnown,
ExistingWritten, ProposedOccupied, ProposedUnused,
ProposedKnown, ProposedWritten);
// isConflicting does not require ExistingOccupied nor ProposedUnused and are
// implicitly assumed to be the remainder elements. Test the implicitness as
// well.
EXPECT_EQ(Result,
isConflicting(ExistingOccupied, ExistingUnused, ExistingKnown,
ExistingWritten, ProposedOccupied, {}, ProposedKnown,
ProposedWritten));
EXPECT_EQ(Result,
isConflicting({}, ExistingUnused, ExistingKnown, ExistingWritten,
ProposedOccupied, ProposedUnused, ProposedKnown,
ProposedWritten));
EXPECT_EQ(Result, isConflicting({}, ExistingUnused, ExistingKnown,
ExistingWritten, ProposedOccupied, {},
ProposedKnown, ProposedWritten));
return Result;
}
bool checkIsConflictingNonsymmetricKnown(KnowledgeStr Existing,
KnowledgeStr Proposed) {
std::unique_ptr<isl_ctx, decltype(&isl_ctx_free)> Ctx(isl_ctx_alloc(),
&isl_ctx_free);
// Parse knowledge.
auto ExistingOccupiedAndKnown =
parseMapOrNull(Ctx.get(), Existing.OccupiedStr);
auto ExistingUnused = parseSetOrNull(Ctx.get(), Existing.UndefStr);
auto ExistingWritten = parseMapOrNull(Ctx.get(), Existing.WrittenStr);
auto ProposedOccupiedAndKnown =
parseMapOrNull(Ctx.get(), Proposed.OccupiedStr);
auto ProposedUnused = parseSetOrNull(Ctx.get(), Proposed.UndefStr);
auto ProposedWritten = parseMapOrNull(Ctx.get(), Proposed.WrittenStr);
return checkIsConflictingNonsymmetricCommon(
Ctx.get(), ExistingOccupiedAndKnown, ExistingUnused, ExistingWritten,
ProposedOccupiedAndKnown, ProposedUnused, ProposedWritten);
}
bool checkIsConflictingNonsymmetric(KnowledgeStr Existing,
KnowledgeStr Proposed) {
std::unique_ptr<isl_ctx, decltype(&isl_ctx_free)> Ctx(isl_ctx_alloc(),
&isl_ctx_free);
// Parse knowledge.
auto ExistingOccupied = parseSetOrNull(Ctx.get(), Existing.OccupiedStr);
auto ExistingUnused = parseSetOrNull(Ctx.get(), Existing.UndefStr);
auto ExistingWritten = parseSetOrNull(Ctx.get(), Existing.WrittenStr);
auto ProposedOccupied = parseSetOrNull(Ctx.get(), Proposed.OccupiedStr);
auto ProposedUnused = parseSetOrNull(Ctx.get(), Proposed.UndefStr);
auto ProposedWritten = parseSetOrNull(Ctx.get(), Proposed.WrittenStr);
return checkIsConflictingNonsymmetricCommon(
Ctx.get(),
isl::manage(isl_union_map_from_domain(ExistingOccupied.take())),
ExistingUnused,
isl::manage(isl_union_map_from_domain(ExistingWritten.take())),
isl::manage(isl_union_map_from_domain(ProposedOccupied.take())),
ProposedUnused,
isl::manage(isl_union_map_from_domain(ProposedWritten.take())));
}
bool checkIsConflicting(KnowledgeStr Existing, KnowledgeStr Proposed) {
auto Forward = checkIsConflictingNonsymmetric(Existing, Proposed);
auto Backward = checkIsConflictingNonsymmetric(Proposed, Existing);
// isConflicting should be symmetric.
EXPECT_EQ(Forward, Backward);
return Forward || Backward;
}
bool checkIsConflictingKnown(KnowledgeStr Existing, KnowledgeStr Proposed) {
auto Forward = checkIsConflictingNonsymmetricKnown(Existing, Proposed);
auto Backward = checkIsConflictingNonsymmetricKnown(Proposed, Existing);
// checkIsConflictingKnown should be symmetric.
EXPECT_EQ(Forward, Backward);
return Forward || Backward;
}
TEST(DeLICM, isConflicting) {
// Check occupied vs. occupied.
EXPECT_TRUE(
checkIsConflicting({"{ Dom[i] }", nullptr, "{}"}, {nullptr, "{}", "{}"}));
EXPECT_TRUE(checkIsConflicting({"{ Dom[i] }", nullptr, "{}"},
{"{ Dom[i] }", nullptr, "{}"}));
EXPECT_FALSE(checkIsConflicting({"{ Dom[0] }", nullptr, "{}"},
{nullptr, "{ Dom[0] }", "{}"}));
EXPECT_FALSE(checkIsConflicting({"{ Dom[i] : i != 0 }", nullptr, "{}"},
{"{ Dom[0] }", nullptr, "{}"}));
// Check occupied vs. written.
EXPECT_TRUE(
checkIsConflicting({nullptr, "{}", "{}"}, {"{}", nullptr, "{ Dom[0] }"}));
EXPECT_FALSE(
checkIsConflicting({"{}", nullptr, "{}"}, {"{}", nullptr, "{ Dom[0] }"}));
EXPECT_TRUE(checkIsConflicting({"{ Dom[i] }", nullptr, "{}"},
{"{}", nullptr, "{ Dom[0] }"}));
EXPECT_FALSE(checkIsConflicting({"{ DomA[i] }", nullptr, "{}"},
{"{}", nullptr, "{ DomB[0] }"}));
// Dom[1] represents the time between 0 and 1. Now Proposed writes at timestep
// 0 such that will have a different value between 0 and 1. Hence it is
// conflicting with Existing.
EXPECT_TRUE(checkIsConflicting({"{ Dom[1] }", nullptr, "{}"},
{"{}", nullptr, "{ Dom[0] }"}));
EXPECT_FALSE(checkIsConflicting({"{ Dom[i] : i != 1 }", nullptr, "{}"},
{"{}", nullptr, "{ Dom[0] }"}));
// Check written vs. written.
EXPECT_TRUE(checkIsConflicting({"{}", nullptr, "{ Dom[0] }"},
{"{}", nullptr, "{ Dom[0] }"}));
EXPECT_FALSE(checkIsConflicting({"{}", nullptr, "{ Dom[-1] }"},
{"{}", nullptr, "{ Dom[0] }"}));
EXPECT_FALSE(checkIsConflicting({"{}", nullptr, "{ Dom[1] }"},
{"{}", nullptr, "{ Dom[0] }"}));
// Check written vs. written with known values.
EXPECT_FALSE(checkIsConflictingKnown({"{}", nullptr, "{ Dom[0] -> Val[] }"},
{"{}", nullptr, "{ Dom[0] -> Val[] }"}));
EXPECT_TRUE(checkIsConflictingKnown({"{}", nullptr, "{ Dom[0] -> ValA[] }"},
{"{}", nullptr, "{ Dom[0] -> ValB[] }"}));
EXPECT_TRUE(checkIsConflictingKnown({"{}", nullptr, "{ Dom[0] -> Val[] }"},
{"{}", nullptr, "{ Dom[0] -> [] }"}));
}
} // anonymous namespace