//===-- lib/Semantics/canonicalize-omp.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 "canonicalize-omp.h"
#include "flang/Parser/parse-tree-visitor.h"
// After Loop Canonicalization, rewrite OpenMP parse tree to make OpenMP
// Constructs more structured which provide explicit scopes for later
// structural checks and semantic analysis.
// 1. move structured DoConstruct and OmpEndLoopDirective into
// OpenMPLoopConstruct. Compilation will not proceed in case of errors
// after this pass.
// 2. Associate declarative OMP allocation directives with their
// respective executable allocation directive
// 3. TBD
namespace Fortran::semantics {
using namespace parser::literals;
class CanonicalizationOfOmp {
public:
template <typename T> bool Pre(T &) { return true; }
template <typename T> void Post(T &) {}
CanonicalizationOfOmp(parser::Messages &messages) : messages_{messages} {}
void Post(parser::Block &block) {
for (auto it{block.begin()}; it != block.end(); ++it) {
if (auto *ompCons{GetConstructIf<parser::OpenMPConstruct>(*it)}) {
// OpenMPLoopConstruct
if (auto *ompLoop{
std::get_if<parser::OpenMPLoopConstruct>(&ompCons->u)}) {
RewriteOpenMPLoopConstruct(*ompLoop, block, it);
}
} else if (auto *endDir{
GetConstructIf<parser::OmpEndLoopDirective>(*it)}) {
// Unmatched OmpEndLoopDirective
auto &dir{std::get<parser::OmpLoopDirective>(endDir->t)};
messages_.Say(dir.source,
"The %s directive must follow the DO loop associated with the "
"loop construct"_err_en_US,
parser::ToUpperCaseLetters(dir.source.ToString()));
}
} // Block list
}
void Post(parser::ExecutionPart &body) { RewriteOmpAllocations(body); }
private:
template <typename T> T *GetConstructIf(parser::ExecutionPartConstruct &x) {
if (auto *y{std::get_if<parser::ExecutableConstruct>(&x.u)}) {
if (auto *z{std::get_if<common::Indirection<T>>(&y->u)}) {
return &z->value();
}
}
return nullptr;
}
template <typename T> T *GetOmpIf(parser::ExecutionPartConstruct &x) {
if (auto *construct{GetConstructIf<parser::OpenMPConstruct>(x)}) {
if (auto *omp{std::get_if<T>(&construct->u)}) {
return omp;
}
}
return nullptr;
}
void RewriteOpenMPLoopConstruct(parser::OpenMPLoopConstruct &x,
parser::Block &block, parser::Block::iterator it) {
// Check the sequence of DoConstruct and OmpEndLoopDirective
// in the same iteration
//
// Original:
// ExecutableConstruct -> OpenMPConstruct -> OpenMPLoopConstruct
// OmpBeginLoopDirective
// ExecutableConstruct -> DoConstruct
// ExecutableConstruct -> OmpEndLoopDirective (if available)
//
// After rewriting:
// ExecutableConstruct -> OpenMPConstruct -> OpenMPLoopConstruct
// OmpBeginLoopDirective
// DoConstruct
// OmpEndLoopDirective (if available)
parser::Block::iterator nextIt;
auto &beginDir{std::get<parser::OmpBeginLoopDirective>(x.t)};
auto &dir{std::get<parser::OmpLoopDirective>(beginDir.t)};
nextIt = it;
while (++nextIt != block.end()) {
// Ignore compiler directives.
if (GetConstructIf<parser::CompilerDirective>(*nextIt))
continue;
if (auto *doCons{GetConstructIf<parser::DoConstruct>(*nextIt)}) {
if (doCons->GetLoopControl()) {
// move DoConstruct
std::get<std::optional<parser::DoConstruct>>(x.t) =
std::move(*doCons);
nextIt = block.erase(nextIt);
// try to match OmpEndLoopDirective
if (nextIt != block.end()) {
if (auto *endDir{
GetConstructIf<parser::OmpEndLoopDirective>(*nextIt)}) {
std::get<std::optional<parser::OmpEndLoopDirective>>(x.t) =
std::move(*endDir);
block.erase(nextIt);
}
}
} else {
messages_.Say(dir.source,
"DO loop after the %s directive must have loop control"_err_en_US,
parser::ToUpperCaseLetters(dir.source.ToString()));
}
} else {
messages_.Say(dir.source,
"A DO loop must follow the %s directive"_err_en_US,
parser::ToUpperCaseLetters(dir.source.ToString()));
}
// If we get here, we either found a loop, or issued an error message.
return;
}
}
void RewriteOmpAllocations(parser::ExecutionPart &body) {
// Rewrite leading declarative allocations so they are nested
// within their respective executable allocate directive
//
// Original:
// ExecutionPartConstruct -> OpenMPDeclarativeAllocate
// ExecutionPartConstruct -> OpenMPDeclarativeAllocate
// ExecutionPartConstruct -> OpenMPExecutableAllocate
//
// After rewriting:
// ExecutionPartConstruct -> OpenMPExecutableAllocate
// ExecutionPartConstruct -> OpenMPDeclarativeAllocate
// ExecutionPartConstruct -> OpenMPDeclarativeAllocate
for (auto it = body.v.rbegin(); it != body.v.rend();) {
if (auto *exec = GetOmpIf<parser::OpenMPExecutableAllocate>(*(it++))) {
parser::OpenMPDeclarativeAllocate *decl;
std::list<parser::OpenMPDeclarativeAllocate> subAllocates;
while (it != body.v.rend() &&
(decl = GetOmpIf<parser::OpenMPDeclarativeAllocate>(*it))) {
subAllocates.push_front(std::move(*decl));
it = decltype(it)(body.v.erase(std::next(it).base()));
}
if (!subAllocates.empty()) {
std::get<std::optional<std::list<parser::OpenMPDeclarativeAllocate>>>(
exec->t) = {std::move(subAllocates)};
}
}
}
}
parser::Messages &messages_;
};
bool CanonicalizeOmp(parser::Messages &messages, parser::Program &program) {
CanonicalizationOfOmp omp{messages};
Walk(program, omp);
return !messages.AnyFatalError();
}
} // namespace Fortran::semantics
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