755535b5eb
Detect and handle LHS/RHS aliasing when effecting intrinsic assignments via the Assign() runtime function. Also: don't apply special handling for allocatable LHS when calling a user-defined type-bound ASSIGNMENT(=) generic procedure for a polymorphic type, and refactor some code into utility functions to make Assign() more comprehensible. Differential Revision: https://reviews.llvm.org/D144026
190 lines
6.6 KiB
C++
190 lines
6.6 KiB
C++
//===-- runtime/allocatable.cpp -------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "flang/Runtime/allocatable.h"
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#include "assign-impl.h"
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#include "derived.h"
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#include "stat.h"
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#include "terminator.h"
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#include "type-info.h"
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#include "flang/ISO_Fortran_binding.h"
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#include "flang/Runtime/assign.h"
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#include "flang/Runtime/descriptor.h"
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namespace Fortran::runtime {
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extern "C" {
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void RTNAME(AllocatableInitIntrinsic)(Descriptor &descriptor,
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TypeCategory category, int kind, int rank, int corank) {
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INTERNAL_CHECK(corank == 0);
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descriptor.Establish(TypeCode{category, kind},
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Descriptor::BytesFor(category, kind), nullptr, rank, nullptr,
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CFI_attribute_allocatable);
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}
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void RTNAME(AllocatableInitCharacter)(Descriptor &descriptor,
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SubscriptValue length, int kind, int rank, int corank) {
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INTERNAL_CHECK(corank == 0);
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descriptor.Establish(
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kind, length, nullptr, rank, nullptr, CFI_attribute_allocatable);
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}
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void RTNAME(AllocatableInitDerived)(Descriptor &descriptor,
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const typeInfo::DerivedType &derivedType, int rank, int corank) {
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INTERNAL_CHECK(corank == 0);
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descriptor.Establish(
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derivedType, nullptr, rank, nullptr, CFI_attribute_allocatable);
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}
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std::int32_t RTNAME(MoveAlloc)(Descriptor &to, Descriptor &from, bool hasStat,
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const Descriptor *errMsg, const char *sourceFile, int sourceLine) {
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Terminator terminator{sourceFile, sourceLine};
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// Should be handled by semantic analysis
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RUNTIME_CHECK(terminator, to.type() == from.type());
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RUNTIME_CHECK(terminator, to.IsAllocatable() && from.IsAllocatable());
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// If to and from are the same allocatable they must not be allocated
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// and nothing should be done.
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if (from.raw().base_addr == to.raw().base_addr && from.IsAllocated()) {
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return ReturnError(
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terminator, StatMoveAllocSameAllocatable, errMsg, hasStat);
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}
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if (to.IsAllocated()) {
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int stat{to.Destroy(/*finalize=*/true)};
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if (stat != StatOk) {
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return ReturnError(terminator, stat, errMsg, hasStat);
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}
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}
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// If from isn't allocated, the standard defines that nothing should be done.
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if (from.IsAllocated()) {
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to = from;
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from.raw().base_addr = nullptr;
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}
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return StatOk;
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}
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void RTNAME(AllocatableSetBounds)(Descriptor &descriptor, int zeroBasedDim,
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SubscriptValue lower, SubscriptValue upper) {
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INTERNAL_CHECK(zeroBasedDim >= 0 && zeroBasedDim < descriptor.rank());
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descriptor.GetDimension(zeroBasedDim).SetBounds(lower, upper);
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// The byte strides are computed when the object is allocated.
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}
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void RTNAME(AllocatableSetDerivedLength)(
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Descriptor &descriptor, int which, SubscriptValue x) {
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DescriptorAddendum *addendum{descriptor.Addendum()};
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INTERNAL_CHECK(addendum != nullptr);
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addendum->SetLenParameterValue(which, x);
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}
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void RTNAME(AllocatableApplyMold)(
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Descriptor &descriptor, const Descriptor &mold, int rank) {
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if (descriptor.IsAllocated()) {
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// 9.7.1.3 Return so the error can be emitted by AllocatableAllocate.
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return;
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}
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descriptor = mold;
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descriptor.set_base_addr(nullptr);
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descriptor.raw().attribute = CFI_attribute_allocatable;
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descriptor.raw().rank = rank;
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if (auto *descAddendum{descriptor.Addendum()}) {
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if (const auto *moldAddendum{mold.Addendum()}) {
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if (const auto *derived{moldAddendum->derivedType()}) {
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descAddendum->set_derivedType(derived);
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}
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}
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}
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}
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int RTNAME(AllocatableAllocate)(Descriptor &descriptor, bool hasStat,
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const Descriptor *errMsg, const char *sourceFile, int sourceLine) {
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Terminator terminator{sourceFile, sourceLine};
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if (!descriptor.IsAllocatable()) {
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return ReturnError(terminator, StatInvalidDescriptor, errMsg, hasStat);
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}
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if (descriptor.IsAllocated()) {
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return ReturnError(terminator, StatBaseNotNull, errMsg, hasStat);
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}
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int stat{ReturnError(terminator, descriptor.Allocate(), errMsg, hasStat)};
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if (stat == StatOk) {
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if (const DescriptorAddendum * addendum{descriptor.Addendum()}) {
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if (const auto *derived{addendum->derivedType()}) {
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if (!derived->noInitializationNeeded()) {
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stat = Initialize(descriptor, *derived, terminator, hasStat, errMsg);
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}
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}
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}
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}
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return stat;
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}
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int RTNAME(AllocatableAllocateSource)(Descriptor &alloc,
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const Descriptor &source, bool hasStat, const Descriptor *errMsg,
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const char *sourceFile, int sourceLine) {
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if (alloc.Elements() == 0) {
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return StatOk;
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}
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int stat{RTNAME(AllocatableAllocate)(
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alloc, hasStat, errMsg, sourceFile, sourceLine)};
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if (stat == StatOk) {
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Terminator terminator{sourceFile, sourceLine};
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DoFromSourceAssign(alloc, source, terminator);
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}
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return stat;
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}
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int RTNAME(AllocatableDeallocate)(Descriptor &descriptor, bool hasStat,
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const Descriptor *errMsg, const char *sourceFile, int sourceLine) {
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Terminator terminator{sourceFile, sourceLine};
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if (!descriptor.IsAllocatable()) {
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return ReturnError(terminator, StatInvalidDescriptor, errMsg, hasStat);
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}
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if (!descriptor.IsAllocated()) {
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return ReturnError(terminator, StatBaseNull, errMsg, hasStat);
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}
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return ReturnError(terminator, descriptor.Destroy(true), errMsg, hasStat);
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}
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int RTNAME(AllocatableDeallocatePolymorphic)(Descriptor &descriptor,
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const typeInfo::DerivedType *derivedType, bool hasStat,
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const Descriptor *errMsg, const char *sourceFile, int sourceLine) {
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int stat{RTNAME(AllocatableDeallocate)(
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descriptor, hasStat, errMsg, sourceFile, sourceLine)};
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if (stat == StatOk) {
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DescriptorAddendum *addendum{descriptor.Addendum()};
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if (addendum) { // Unlimited polymorphic allocated from intrinsic type spec
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// does not have
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addendum->set_derivedType(derivedType);
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} else {
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// Unlimited polymorphic descriptors initialized with
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// AllocatableInitIntrinsic do not have an addendum. Make sure the
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// derivedType is null in that case.
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INTERNAL_CHECK(!derivedType);
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}
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}
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return stat;
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}
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void RTNAME(AllocatableDeallocateNoFinal)(
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Descriptor &descriptor, const char *sourceFile, int sourceLine) {
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Terminator terminator{sourceFile, sourceLine};
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if (!descriptor.IsAllocatable()) {
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ReturnError(terminator, StatInvalidDescriptor);
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} else if (!descriptor.IsAllocated()) {
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ReturnError(terminator, StatBaseNull);
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} else {
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ReturnError(terminator, descriptor.Destroy(false));
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}
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}
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// TODO: AllocatableCheckLengthParameter
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}
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} // namespace Fortran::runtime
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