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//===-- runtime/derived-api.cpp
//-----------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "flang/Runtime/derived-api.h"
#include "derived.h"
#include "terminator.h"
#include "tools.h"
#include "type-info.h"
#include "flang/Runtime/descriptor.h"
namespace Fortran::runtime {
extern "C" {
RT_EXT_API_GROUP_BEGIN
void RTDEF(Initialize)(
const Descriptor &descriptor, const char *sourceFile, int sourceLine) {
if (const DescriptorAddendum * addendum{descriptor.Addendum()}) {
if (const auto *derived{addendum->derivedType()}) {
if (!derived->noInitializationNeeded()) {
Terminator terminator{sourceFile, sourceLine};
Initialize(descriptor, *derived, terminator);
}
}
}
}
void RTDEF(InitializeClone)(const Descriptor &clone, const Descriptor &orig,
const char *sourceFile, int sourceLine) {
if (const DescriptorAddendum * addendum{clone.Addendum()}) {
if (const auto *derived{addendum->derivedType()}) {
Terminator terminator{sourceFile, sourceLine};
InitializeClone(clone, orig, *derived, terminator);
}
}
}
void RTDEF(Destroy)(const Descriptor &descriptor) {
if (const DescriptorAddendum * addendum{descriptor.Addendum()}) {
if (const auto *derived{addendum->derivedType()}) {
if (!derived->noDestructionNeeded()) {
// TODO: Pass source file & line information to the API
// so that a good Terminator can be passed
Destroy(descriptor, true, *derived, nullptr);
}
}
}
}
void RTDEF(Finalize)(
const Descriptor &descriptor, const char *sourceFile, int sourceLine) {
if (const DescriptorAddendum * addendum{descriptor.Addendum()}) {
if (const auto *derived{addendum->derivedType()}) {
if (!derived->noFinalizationNeeded()) {
Terminator terminator{sourceFile, sourceLine};
Finalize(descriptor, *derived, &terminator);
}
}
}
}
bool RTDEF(ClassIs)(
const Descriptor &descriptor, const typeInfo::DerivedType &derivedType) {
if (const DescriptorAddendum * addendum{descriptor.Addendum()}) {
if (const auto *derived{addendum->derivedType()}) {
if (derived == &derivedType) {
return true;
}
const typeInfo::DerivedType *parent{derived->GetParentType()};
while (parent) {
if (parent == &derivedType) {
return true;
}
parent = parent->GetParentType();
}
}
}
return false;
}
static RT_API_ATTRS bool CompareDerivedTypeNames(
const Descriptor &a, const Descriptor &b) {
if (a.raw().version == CFI_VERSION &&
a.type() == TypeCode{TypeCategory::Character, 1} &&
a.ElementBytes() > 0 && a.rank() == 0 && a.OffsetElement() != nullptr &&
a.raw().version == CFI_VERSION &&
b.type() == TypeCode{TypeCategory::Character, 1} &&
b.ElementBytes() > 0 && b.rank() == 0 && b.OffsetElement() != nullptr &&
a.ElementBytes() == b.ElementBytes() &&
Fortran::runtime::memcmp(
a.OffsetElement(), b.OffsetElement(), a.ElementBytes()) == 0) {
return true;
}
return false;
}
inline RT_API_ATTRS bool CompareDerivedType(
const typeInfo::DerivedType *a, const typeInfo::DerivedType *b) {
return a == b || CompareDerivedTypeNames(a->name(), b->name());
}
static RT_API_ATTRS const typeInfo::DerivedType *GetDerivedType(
const Descriptor &desc) {
if (const DescriptorAddendum * addendum{desc.Addendum()}) {
if (const auto *derived{addendum->derivedType()}) {
return derived;
}
}
return nullptr;
}
bool RTDEF(SameTypeAs)(const Descriptor &a, const Descriptor &b) {
auto aType{a.raw().type};
auto bType{b.raw().type};
if ((aType != CFI_type_struct && aType != CFI_type_other) ||
(bType != CFI_type_struct && bType != CFI_type_other)) {
// If either type is intrinsic, they must match.
return aType == bType;
} else {
const typeInfo::DerivedType *derivedTypeA{GetDerivedType(a)};
const typeInfo::DerivedType *derivedTypeB{GetDerivedType(b)};
if (derivedTypeA == nullptr || derivedTypeB == nullptr) {
// Unallocated/disassociated CLASS(*) never matches.
return false;
} else if (derivedTypeA == derivedTypeB) {
// Exact match of derived type.
return true;
} else {
// Otherwise compare with the name. Note 16.29 kind type parameters are
// not considered in the test.
return CompareDerivedTypeNames(
derivedTypeA->name(), derivedTypeB->name());
}
}
}
bool RTDEF(ExtendsTypeOf)(const Descriptor &a, const Descriptor &mold) {
auto aType{a.raw().type};
auto moldType{mold.raw().type};
if ((aType != CFI_type_struct && aType != CFI_type_other) ||
(moldType != CFI_type_struct && moldType != CFI_type_other)) {
// If either type is intrinsic, they must match.
return aType == moldType;
} else if (const typeInfo::DerivedType *
derivedTypeMold{GetDerivedType(mold)}) {
// If A is unlimited polymorphic and is either a disassociated pointer or
// unallocated allocatable, the result is false.
// Otherwise if the dynamic type of A or MOLD is extensible, the result is
// true if and only if the dynamic type of A is an extension type of the
// dynamic type of MOLD.
for (const typeInfo::DerivedType *derivedTypeA{GetDerivedType(a)};
derivedTypeA; derivedTypeA = derivedTypeA->GetParentType()) {
if (CompareDerivedType(derivedTypeA, derivedTypeMold)) {
return true;
}
}
return false;
} else {
// MOLD is unlimited polymorphic and unallocated/disassociated.
return true;
}
}
void RTDEF(DestroyWithoutFinalization)(const Descriptor &descriptor) {
if (const DescriptorAddendum * addendum{descriptor.Addendum()}) {
if (const auto *derived{addendum->derivedType()}) {
if (!derived->noDestructionNeeded()) {
Destroy(descriptor, /*finalize=*/false, *derived, nullptr);
}
}
}
}
RT_EXT_API_GROUP_END
} // extern "C"
} // namespace Fortran::runtime
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