llvm-project/flang/lib/Evaluate/initial-image.cpp

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//===-- lib/Evaluate/initial-image.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/Evaluate/initial-image.h"
#include "flang/Semantics/scope.h"
#include "flang/Semantics/tools.h"
#include <cstring>
namespace Fortran::evaluate {
auto InitialImage::Add(ConstantSubscript offset, std::size_t bytes,
const Constant<SomeDerived> &x, FoldingContext &context) -> Result {
if (offset < 0 || offset + bytes > data_.size()) {
return OutOfRange;
} else {
auto elements{TotalElementCount(x.shape())};
auto elementBytes{bytes > 0 ? bytes / elements : 0};
if (elements * elementBytes != bytes) {
return SizeMismatch;
} else {
auto at{x.lbounds()};
for (auto elements{TotalElementCount(x.shape())}; elements-- > 0;
x.IncrementSubscripts(at)) {
auto scalar{x.At(at)};
// TODO: length type parameter values?
for (const auto &[symbolRef, indExpr] : scalar) {
const Symbol &component{*symbolRef};
if (component.offset() + component.size() > elementBytes) {
return SizeMismatch;
} else if (IsPointer(component)) {
AddPointer(offset + component.offset(), indExpr.value());
} else {
Result added{Add(offset + component.offset(), component.size(),
indExpr.value(), context)};
if (added != Ok) {
return Ok;
}
}
}
offset += elementBytes;
}
}
return Ok;
}
}
void InitialImage::AddPointer(
ConstantSubscript offset, const Expr<SomeType> &pointer) {
pointers_.emplace(offset, pointer);
}
void InitialImage::Incorporate(ConstantSubscript toOffset,
const InitialImage &from, ConstantSubscript fromOffset,
ConstantSubscript bytes) {
CHECK(from.pointers_.empty()); // pointers are not allowed in EQUIVALENCE
CHECK(fromOffset >= 0 && bytes >= 0 &&
static_cast<std::size_t>(fromOffset + bytes) <= from.size());
CHECK(static_cast<std::size_t>(toOffset + bytes) <= size());
std::memcpy(&data_[toOffset], &from.data_[fromOffset], bytes);
}
// Classes used with common::SearchTypes() to (re)construct Constant<> values
// of the right type to initialize each symbol from the values that have
// been placed into its initialization image by DATA statements.
class AsConstantHelper {
public:
using Result = std::optional<Expr<SomeType>>;
using Types = AllTypes;
AsConstantHelper(FoldingContext &context, const DynamicType &type,
const ConstantSubscripts &extents, const InitialImage &image,
ConstantSubscript offset = 0)
: context_{context}, type_{type}, image_{image}, extents_{extents},
offset_{offset} {
CHECK(!type.IsPolymorphic());
}
template <typename T> Result Test() {
if (T::category != type_.category()) {
return std::nullopt;
}
if constexpr (T::category != TypeCategory::Derived) {
if (T::kind != type_.kind()) {
return std::nullopt;
}
}
using Const = Constant<T>;
using Scalar = typename Const::Element;
std::size_t elements{TotalElementCount(extents_)};
std::vector<Scalar> typedValue(elements);
auto elemBytes{
ToInt64(type_.MeasureSizeInBytes(context_, GetRank(extents_) > 0))};
CHECK(elemBytes && *elemBytes >= 0);
std::size_t stride{static_cast<std::size_t>(*elemBytes)};
CHECK(offset_ + elements * stride <= image_.data_.size());
if constexpr (T::category == TypeCategory::Derived) {
const semantics::DerivedTypeSpec &derived{type_.GetDerivedTypeSpec()};
for (auto iter : DEREF(derived.scope())) {
const Symbol &component{*iter.second};
bool isProcPtr{IsProcedurePointer(component)};
if (isProcPtr || component.has<semantics::ObjectEntityDetails>()) {
auto at{offset_ + component.offset()};
if (isProcPtr) {
for (std::size_t j{0}; j < elements; ++j, at += stride) {
if (Result value{image_.AsConstantPointer(at)}) {
typedValue[j].emplace(component, std::move(*value));
}
}
} else if (IsPointer(component)) {
for (std::size_t j{0}; j < elements; ++j, at += stride) {
if (Result value{image_.AsConstantPointer(at)}) {
typedValue[j].emplace(component, std::move(*value));
}
}
} else {
auto componentType{DynamicType::From(component)};
CHECK(componentType.has_value());
auto componentExtents{GetConstantExtents(context_, component)};
CHECK(componentExtents.has_value());
for (std::size_t j{0}; j < elements; ++j, at += stride) {
if (Result value{image_.AsConstant(
context_, *componentType, *componentExtents, at)}) {
typedValue[j].emplace(component, std::move(*value));
}
}
}
}
}
return AsGenericExpr(
Const{derived, std::move(typedValue), std::move(extents_)});
} else if constexpr (T::category == TypeCategory::Character) {
auto length{static_cast<ConstantSubscript>(stride) / T::kind};
for (std::size_t j{0}; j < elements; ++j) {
using Char = typename Scalar::value_type;
const Char *data{reinterpret_cast<const Char *>(
&image_.data_[offset_ + j * stride])};
typedValue[j].assign(data, length);
}
return AsGenericExpr(
Const{length, std::move(typedValue), std::move(extents_)});
} else {
// Lengthless intrinsic type
CHECK(sizeof(Scalar) <= stride);
for (std::size_t j{0}; j < elements; ++j) {
std::memcpy(&typedValue[j], &image_.data_[offset_ + j * stride],
sizeof(Scalar));
}
return AsGenericExpr(Const{std::move(typedValue), std::move(extents_)});
}
}
private:
FoldingContext &context_;
const DynamicType &type_;
const InitialImage &image_;
ConstantSubscripts extents_; // a copy
ConstantSubscript offset_;
};
std::optional<Expr<SomeType>> InitialImage::AsConstant(FoldingContext &context,
const DynamicType &type, const ConstantSubscripts &extents,
ConstantSubscript offset) const {
return common::SearchTypes(
AsConstantHelper{context, type, extents, *this, offset});
}
std::optional<Expr<SomeType>> InitialImage::AsConstantPointer(
ConstantSubscript offset) const {
auto iter{pointers_.find(offset)};
return iter == pointers_.end() ? std::optional<Expr<SomeType>>{}
: iter->second;
}
} // namespace Fortran::evaluate