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clang-p2996/flang/lib/Semantics/assignment.cpp
Peter Klausler 191d48723f [flang] Finer control over warnings 
Establish a set of optional usage warnings, and enable some
only in "-pedantic" mode that, in our subjective experience
with application codes, seem to issue frequently without
indicating usage that really needs to be corrected.  By default,
with this patch the compiler should appear to be somewhat less
persnickety but not less informative.

Differential Revision: https://reviews.llvm.org/D150710
2023-05-16 13:56:24 -07:00

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//===-- lib/Semantics/assignment.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 "assignment.h"
#include "definable.h"
#include "pointer-assignment.h"
#include "flang/Common/idioms.h"
#include "flang/Common/restorer.h"
#include "flang/Evaluate/characteristics.h"
#include "flang/Evaluate/expression.h"
#include "flang/Evaluate/fold.h"
#include "flang/Evaluate/tools.h"
#include "flang/Parser/message.h"
#include "flang/Parser/parse-tree-visitor.h"
#include "flang/Parser/parse-tree.h"
#include "flang/Semantics/expression.h"
#include "flang/Semantics/symbol.h"
#include "flang/Semantics/tools.h"
#include <optional>
#include <set>
#include <string>
#include <type_traits>
using namespace Fortran::parser::literals;
namespace Fortran::semantics {
class AssignmentContext {
public:
explicit AssignmentContext(SemanticsContext &context) : context_{context} {}
AssignmentContext(AssignmentContext &&) = default;
AssignmentContext(const AssignmentContext &) = delete;
bool operator==(const AssignmentContext &x) const { return this == &x; }
template <typename A> void PushWhereContext(const A &);
void PopWhereContext();
void Analyze(const parser::AssignmentStmt &);
void Analyze(const parser::PointerAssignmentStmt &);
void Analyze(const parser::ConcurrentControl &);
private:
bool CheckForPureContext(const SomeExpr &rhs, parser::CharBlock rhsSource);
void CheckShape(parser::CharBlock, const SomeExpr *);
template <typename... A>
parser::Message *Say(parser::CharBlock at, A &&...args) {
return &context_.Say(at, std::forward<A>(args)...);
}
evaluate::FoldingContext &foldingContext() {
return context_.foldingContext();
}
SemanticsContext &context_;
int whereDepth_{0}; // number of WHEREs currently nested in
// shape of masks in LHS of assignments in current WHERE:
std::vector<std::optional<std::int64_t>> whereExtents_;
};
void AssignmentContext::Analyze(const parser::AssignmentStmt &stmt) {
if (const evaluate::Assignment * assignment{GetAssignment(stmt)}) {
const SomeExpr &lhs{assignment->lhs};
const SomeExpr &rhs{assignment->rhs};
auto lhsLoc{std::get<parser::Variable>(stmt.t).GetSource()};
const Scope &scope{context_.FindScope(lhsLoc)};
if (auto whyNot{WhyNotDefinable(lhsLoc, scope,
DefinabilityFlags{DefinabilityFlag::VectorSubscriptIsOk}, lhs)}) {
if (auto *msg{Say(lhsLoc,
"Left-hand side of assignment is not definable"_err_en_US)}) {
msg->Attach(std::move(*whyNot));
}
}
auto rhsLoc{std::get<parser::Expr>(stmt.t).source};
if (std::holds_alternative<evaluate::ProcedureRef>(assignment->u)) {
// it's a defined ASSIGNMENT(=)
} else {
CheckForPureContext(rhs, rhsLoc);
}
if (whereDepth_ > 0) {
CheckShape(lhsLoc, &lhs);
}
}
}
void AssignmentContext::Analyze(const parser::PointerAssignmentStmt &stmt) {
CHECK(whereDepth_ == 0);
if (const evaluate::Assignment * assignment{GetAssignment(stmt)}) {
parser::CharBlock at{context_.location().value()};
auto restorer{foldingContext().messages().SetLocation(at)};
CheckPointerAssignment(context_, *assignment, context_.FindScope(at));
}
}
static std::optional<std::string> GetPointerComponentDesignatorName(
const SomeExpr &expr) {
if (const auto *derived{
evaluate::GetDerivedTypeSpec(evaluate::DynamicType::From(expr))}) {
PotentialAndPointerComponentIterator potentials{*derived};
if (auto pointer{
std::find_if(potentials.begin(), potentials.end(), IsPointer)}) {
return pointer.BuildResultDesignatorName();
}
}
return std::nullopt;
}
// Checks C1594(5,6); false if check fails
bool CheckCopyabilityInPureScope(parser::ContextualMessages &messages,
const SomeExpr &expr, const Scope &scope) {
if (const Symbol * base{GetFirstSymbol(expr)}) {
if (const char *why{
WhyBaseObjectIsSuspicious(base->GetUltimate(), scope)}) {
if (auto pointer{GetPointerComponentDesignatorName(expr)}) {
evaluate::SayWithDeclaration(messages, *base,
"A pure subprogram may not copy the value of '%s' because it is %s"
" and has the POINTER potential subobject component '%s'"_err_en_US,
base->name(), why, *pointer);
return false;
}
}
}
return true;
}
bool AssignmentContext::CheckForPureContext(
const SomeExpr &rhs, parser::CharBlock rhsSource) {
const Scope &scope{context_.FindScope(rhsSource)};
if (FindPureProcedureContaining(scope)) {
parser::ContextualMessages messages{
context_.location().value(), &context_.messages()};
return CheckCopyabilityInPureScope(messages, rhs, scope);
} else {
return true;
}
}
// 10.2.3.1(2) The masks and LHS of assignments must be arrays of the same shape
void AssignmentContext::CheckShape(parser::CharBlock at, const SomeExpr *expr) {
if (auto shape{evaluate::GetShape(foldingContext(), expr)}) {
std::size_t size{shape->size()};
if (size == 0) {
Say(at, "The mask or variable must not be scalar"_err_en_US);
}
if (whereDepth_ == 0) {
whereExtents_.resize(size);
} else if (whereExtents_.size() != size) {
Say(at,
"Must have rank %zd to match prior mask or assignment of"
" WHERE construct"_err_en_US,
whereExtents_.size());
return;
}
for (std::size_t i{0}; i < size; ++i) {
if (std::optional<std::int64_t> extent{evaluate::ToInt64((*shape)[i])}) {
if (!whereExtents_[i]) {
whereExtents_[i] = *extent;
} else if (*whereExtents_[i] != *extent) {
Say(at,
"Dimension %d must have extent %jd to match prior mask or"
" assignment of WHERE construct"_err_en_US,
i + 1, *whereExtents_[i]);
}
}
}
}
}
template <typename A> void AssignmentContext::PushWhereContext(const A &x) {
const auto &expr{std::get<parser::LogicalExpr>(x.t)};
CheckShape(expr.thing.value().source, GetExpr(context_, expr));
++whereDepth_;
}
void AssignmentContext::PopWhereContext() {
--whereDepth_;
if (whereDepth_ == 0) {
whereExtents_.clear();
}
}
AssignmentChecker::~AssignmentChecker() {}
AssignmentChecker::AssignmentChecker(SemanticsContext &context)
: context_{new AssignmentContext{context}} {}
void AssignmentChecker::Enter(const parser::AssignmentStmt &x) {
context_.value().Analyze(x);
}
void AssignmentChecker::Enter(const parser::PointerAssignmentStmt &x) {
context_.value().Analyze(x);
}
void AssignmentChecker::Enter(const parser::WhereStmt &x) {
context_.value().PushWhereContext(x);
}
void AssignmentChecker::Leave(const parser::WhereStmt &) {
context_.value().PopWhereContext();
}
void AssignmentChecker::Enter(const parser::WhereConstructStmt &x) {
context_.value().PushWhereContext(x);
}
void AssignmentChecker::Leave(const parser::EndWhereStmt &) {
context_.value().PopWhereContext();
}
void AssignmentChecker::Enter(const parser::MaskedElsewhereStmt &x) {
context_.value().PushWhereContext(x);
}
void AssignmentChecker::Leave(const parser::MaskedElsewhereStmt &) {
context_.value().PopWhereContext();
}
} // namespace Fortran::semantics
template class Fortran::common::Indirection<
Fortran::semantics::AssignmentContext>;
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