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clang-p2996/flang/lib/Semantics/check-data.cpp
peter klausler 4ac617f490 [flang] Handle DATA initialization of EQUIVALENCE'd objects 
Objects that are storage associated by EQUIVALENCE and
initialized with DATA are initialized by creating a
compiler temporary data object in the same scope,
assigning it an offset, type, and size that covers the
transitive closure of the associated initialized original
symbols, and combining their initializers into one common
initializer for the temporary.

Some problems with offset assignment of EQUIVALENCE'd objects
in COMMON were exposed and corrected, and some more error
cases are checked.

Remove obsolete function.
Small bugfix (nested implied dos).
Add a test.
Fix struct/class warning.

Differential Revision: https://reviews.llvm.org/D85560
2020-08-07 16:39:23 -07:00

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//===-- lib/Semantics/check-data.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
//
//===----------------------------------------------------------------------===//
// DATA statement semantic analysis.
// - Applies static semantic checks to the variables in each data-stmt-set with
// class DataVarChecker;
// - Invokes conversion of DATA statement values to static initializers
#include "check-data.h"
#include "data-to-inits.h"
#include "flang/Evaluate/traverse.h"
#include "flang/Parser/parse-tree.h"
#include "flang/Parser/tools.h"
#include "flang/Semantics/tools.h"
#include <algorithm>
#include <vector>
namespace Fortran::semantics {
// Ensures that references to an implied DO loop control variable are
// represented as such in the "body" of the implied DO loop.
void DataChecker::Enter(const parser::DataImpliedDo &x) {
auto name{std::get<parser::DataImpliedDo::Bounds>(x.t).name.thing.thing};
int kind{evaluate::ResultType<evaluate::ImpliedDoIndex>::kind};
if (const auto dynamicType{evaluate::DynamicType::From(*name.symbol)}) {
if (dynamicType->category() == TypeCategory::Integer) {
kind = dynamicType->kind();
}
}
exprAnalyzer_.AddImpliedDo(name.source, kind);
}
void DataChecker::Leave(const parser::DataImpliedDo &x) {
auto name{std::get<parser::DataImpliedDo::Bounds>(x.t).name.thing.thing};
exprAnalyzer_.RemoveImpliedDo(name.source);
}
// DataVarChecker applies static checks once to each variable that appears
// in a data-stmt-set. These checks are independent of the values that
// correspond to the variables.
class DataVarChecker : public evaluate::AllTraverse<DataVarChecker, true> {
public:
using Base = evaluate::AllTraverse<DataVarChecker, true>;
DataVarChecker(SemanticsContext &c, parser::CharBlock src)
: Base{*this}, context_{c}, source_{src} {}
using Base::operator();
bool HasComponentWithoutSubscripts() const {
return hasComponent_ && !hasSubscript_;
}
bool operator()(const Symbol &symbol) { // C876
// 8.6.7p(2) - precludes non-pointers of derived types with
// default component values
const Scope &scope{context_.FindScope(source_)};
bool isFirstSymbol{isFirstSymbol_};
isFirstSymbol_ = false;
if (const char *whyNot{IsAutomatic(symbol) ? "Automatic variable"
: IsDummy(symbol) ? "Dummy argument"
: IsFunctionResult(symbol) ? "Function result"
: IsAllocatable(symbol) ? "Allocatable"
: IsInitialized(symbol, true) ? "Default-initialized"
: IsInBlankCommon(symbol) ? "Blank COMMON object"
: IsProcedure(symbol) && !IsPointer(symbol) ? "Procedure"
// remaining checks don't apply to components
: !isFirstSymbol ? nullptr
: IsHostAssociated(symbol, scope) ? "Host-associated object"
: IsUseAssociated(symbol, scope) ? "USE-associated object"
: nullptr}) {
context_.Say(source_,
"%s '%s' must not be initialized in a DATA statement"_err_en_US,
whyNot, symbol.name());
return false;
} else if (IsProcedurePointer(symbol)) {
context_.Say(source_,
"Procedure pointer '%s' in a DATA statement is not standard"_en_US,
symbol.name());
}
return true;
}
bool operator()(const evaluate::Component &component) {
hasComponent_ = true;
const Symbol &lastSymbol{component.GetLastSymbol()};
if (isPointerAllowed_) {
if (IsPointer(lastSymbol) && hasSubscript_) { // C877
context_.Say(source_,
"Rightmost data object pointer '%s' must not be subscripted"_err_en_US,
lastSymbol.name().ToString());
return false;
}
RestrictPointer();
} else {
if (IsPointer(lastSymbol)) { // C877
context_.Say(source_,
"Data object must not contain pointer '%s' as a non-rightmost part"_err_en_US,
lastSymbol.name().ToString());
return false;
}
}
return (*this)(component.base()) && (*this)(lastSymbol);
}
bool operator()(const evaluate::ArrayRef &arrayRef) {
hasSubscript_ = true;
return (*this)(arrayRef.base()) && (*this)(arrayRef.subscript());
}
bool operator()(const evaluate::Substring &substring) {
hasSubscript_ = true;
return (*this)(substring.parent()) && (*this)(substring.lower()) &&
(*this)(substring.upper());
}
bool operator()(const evaluate::CoarrayRef &) { // C874
context_.Say(
source_, "Data object must not be a coindexed variable"_err_en_US);
return false;
}
bool operator()(const evaluate::Subscript &subs) {
DataVarChecker subscriptChecker{context_, source_};
subscriptChecker.RestrictPointer();
return std::visit(
common::visitors{
[&](const evaluate::IndirectSubscriptIntegerExpr &expr) {
return CheckSubscriptExpr(expr);
},
[&](const evaluate::Triplet &triplet) {
return CheckSubscriptExpr(triplet.lower()) &&
CheckSubscriptExpr(triplet.upper()) &&
CheckSubscriptExpr(triplet.stride());
},
},
subs.u) &&
subscriptChecker(subs.u);
}
template <typename T>
bool operator()(const evaluate::FunctionRef<T> &) const { // C875
context_.Say(source_,
"Data object variable must not be a function reference"_err_en_US);
return false;
}
void RestrictPointer() { isPointerAllowed_ = false; }
private:
bool CheckSubscriptExpr(
const std::optional<evaluate::IndirectSubscriptIntegerExpr> &x) const {
return !x || CheckSubscriptExpr(*x);
}
bool CheckSubscriptExpr(
const evaluate::IndirectSubscriptIntegerExpr &expr) const {
return CheckSubscriptExpr(expr.value());
}
bool CheckSubscriptExpr(
const evaluate::Expr<evaluate::SubscriptInteger> &expr) const {
if (!evaluate::IsConstantExpr(expr)) { // C875,C881
context_.Say(
source_, "Data object must have constant subscripts"_err_en_US);
return false;
} else {
return true;
}
}
SemanticsContext &context_;
parser::CharBlock source_;
bool hasComponent_{false};
bool hasSubscript_{false};
bool isPointerAllowed_{true};
bool isFirstSymbol_{true};
};
void DataChecker::Leave(const parser::DataIDoObject &object) {
if (const auto *designator{
std::get_if<parser::Scalar<common::Indirection<parser::Designator>>>(
&object.u)}) {
if (MaybeExpr expr{exprAnalyzer_.Analyze(*designator)}) {
auto source{designator->thing.value().source};
if (evaluate::IsConstantExpr(*expr)) { // C878,C879
exprAnalyzer_.context().Say(
source, "Data implied do object must be a variable"_err_en_US);
} else {
DataVarChecker checker{exprAnalyzer_.context(), source};
if (checker(*expr)) {
if (checker.HasComponentWithoutSubscripts()) { // C880
exprAnalyzer_.context().Say(source,
"Data implied do structure component must be subscripted"_err_en_US);
} else {
return;
}
}
}
}
currentSetHasFatalErrors_ = true;
}
}
void DataChecker::Leave(const parser::DataStmtObject &dataObject) {
std::visit(common::visitors{
[](const parser::DataImpliedDo &) { // has own Enter()/Leave()
},
[&](const auto &var) {
auto expr{exprAnalyzer_.Analyze(var)};
if (!expr ||
!DataVarChecker{exprAnalyzer_.context(),
parser::FindSourceLocation(dataObject)}(*expr)) {
currentSetHasFatalErrors_ = true;
}
},
},
dataObject.u);
}
void DataChecker::Leave(const parser::DataStmtSet &set) {
if (!currentSetHasFatalErrors_) {
AccumulateDataInitializations(inits_, exprAnalyzer_, set);
}
currentSetHasFatalErrors_ = false;
}
void DataChecker::CompileDataInitializationsIntoInitializers() {
ConvertToInitializers(inits_, exprAnalyzer_);
}
} // namespace Fortran::semantics
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