forked from OSchip/llvm-project
216 lines
8.5 KiB
C++
216 lines
8.5 KiB
C++
//===-- lib/Semantics/canonicalize-acc.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 "canonicalize-acc.h"
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#include "flang/Parser/parse-tree-visitor.h"
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#include "flang/Semantics/tools.h"
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// After Loop Canonicalization, rewrite OpenACC parse tree to make OpenACC
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// Constructs more structured which provide explicit scopes for later
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// structural checks and semantic analysis.
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// 1. move structured DoConstruct into
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// OpenACCLoopConstruct. Compilation will not proceed in case of errors
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// after this pass.
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// 2. move structured DoConstruct into OpenACCCombinedConstruct. Move
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// AccEndCombinedConstruct into OpenACCCombinedConstruct if present.
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// Compilation will not proceed in case of errors after this pass.
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namespace Fortran::semantics {
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using namespace parser::literals;
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class CanonicalizationOfAcc {
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public:
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template <typename T> bool Pre(T &) { return true; }
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template <typename T> void Post(T &) {}
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CanonicalizationOfAcc(parser::Messages &messages) : messages_{messages} {}
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void Post(parser::Block &block) {
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for (auto it{block.begin()}; it != block.end(); ++it) {
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if (auto *accLoop{parser::Unwrap<parser::OpenACCLoopConstruct>(*it)}) {
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RewriteOpenACCLoopConstruct(*accLoop, block, it);
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} else if (auto *accCombined{
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parser::Unwrap<parser::OpenACCCombinedConstruct>(*it)}) {
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RewriteOpenACCCombinedConstruct(*accCombined, block, it);
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} else if (auto *endDir{
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parser::Unwrap<parser::AccEndCombinedDirective>(*it)}) {
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// Unmatched AccEndCombinedDirective
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messages_.Say(endDir->v.source,
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"The %s directive must follow the DO loop associated with the "
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"loop construct"_err_en_US,
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parser::ToUpperCaseLetters(endDir->v.source.ToString()));
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}
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} // Block list
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}
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private:
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// Check constraint in 2.9.7
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// If there are n tile sizes in the list, the loop construct must be
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// immediately followed by n tightly-nested loops.
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template <typename C, typename D>
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void CheckTileClauseRestriction(const C &x) {
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const auto &beginLoopDirective = std::get<D>(x.t);
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const auto &accClauseList =
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std::get<parser::AccClauseList>(beginLoopDirective.t);
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for (const auto &clause : accClauseList.v) {
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if (const auto *tileClause =
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std::get_if<parser::AccClause::Tile>(&clause.u)) {
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const parser::AccTileExprList &tileExprList = tileClause->v;
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const std::list<parser::AccTileExpr> &listTileExpr = tileExprList.v;
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std::size_t tileArgNb = listTileExpr.size();
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const auto &outer{std::get<std::optional<parser::DoConstruct>>(x.t)};
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if (outer->IsDoConcurrent())
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return; // Tile is not allowed on DO CONURRENT
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for (const parser::DoConstruct *loop{&*outer}; loop && tileArgNb > 0;
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--tileArgNb) {
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const auto &block{std::get<parser::Block>(loop->t)};
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const auto it{block.begin()};
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loop = it != block.end() ? parser::Unwrap<parser::DoConstruct>(*it)
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: nullptr;
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}
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if (tileArgNb > 0) {
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messages_.Say(beginLoopDirective.source,
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"The loop construct with the TILE clause must be followed by %d "
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"tightly-nested loops"_err_en_US,
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listTileExpr.size());
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}
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}
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}
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}
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// Check constraint on line 1835 in Section 2.9
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// A tile and collapse clause may not appear on loop that is associated with
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// do concurrent.
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template <typename C, typename D>
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void CheckDoConcurrentClauseRestriction(const C &x) {
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const auto &doCons{std::get<std::optional<parser::DoConstruct>>(x.t)};
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if (!doCons->IsDoConcurrent())
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return;
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const auto &beginLoopDirective = std::get<D>(x.t);
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const auto &accClauseList =
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std::get<parser::AccClauseList>(beginLoopDirective.t);
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for (const auto &clause : accClauseList.v) {
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if (std::holds_alternative<parser::AccClause::Collapse>(clause.u) ||
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std::holds_alternative<parser::AccClause::Tile>(clause.u)) {
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messages_.Say(beginLoopDirective.source,
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"TILE and COLLAPSE clause may not appear on loop construct "
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"associated with DO CONCURRENT"_err_en_US);
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}
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}
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}
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void RewriteOpenACCLoopConstruct(parser::OpenACCLoopConstruct &x,
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parser::Block &block, parser::Block::iterator it) {
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// Check the sequence of DoConstruct in the same iteration
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//
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// Original:
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// ExecutableConstruct -> OpenACCConstruct -> OpenACCLoopConstruct
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// ACCBeginLoopDirective
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// ExecutableConstruct -> DoConstruct
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//
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// After rewriting:
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// ExecutableConstruct -> OpenACCConstruct -> OpenACCLoopConstruct
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// AccBeginLoopDirective
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// DoConstruct
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parser::Block::iterator nextIt;
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auto &beginDir{std::get<parser::AccBeginLoopDirective>(x.t)};
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auto &dir{std::get<parser::AccLoopDirective>(beginDir.t)};
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nextIt = it;
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if (++nextIt != block.end()) {
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if (auto *doCons{parser::Unwrap<parser::DoConstruct>(*nextIt)}) {
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if (doCons->GetLoopControl()) {
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// move DoConstruct
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std::get<std::optional<parser::DoConstruct>>(x.t) =
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std::move(*doCons);
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nextIt = block.erase(nextIt);
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} else {
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messages_.Say(dir.source,
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"DO loop after the %s directive must have loop control"_err_en_US,
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parser::ToUpperCaseLetters(dir.source.ToString()));
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}
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CheckDoConcurrentClauseRestriction<parser::OpenACCLoopConstruct,
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parser::AccBeginLoopDirective>(x);
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CheckTileClauseRestriction<parser::OpenACCLoopConstruct,
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parser::AccBeginLoopDirective>(x);
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return; // found do-loop
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}
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}
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messages_.Say(dir.source,
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"A DO loop must follow the %s directive"_err_en_US,
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parser::ToUpperCaseLetters(dir.source.ToString()));
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}
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void RewriteOpenACCCombinedConstruct(parser::OpenACCCombinedConstruct &x,
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parser::Block &block, parser::Block::iterator it) {
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// Check the sequence of DoConstruct in the same iteration
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//
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// Original:
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// ExecutableConstruct -> OpenACCConstruct -> OpenACCCombinedConstruct
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// ACCBeginCombinedDirective
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// ExecutableConstruct -> DoConstruct
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// ExecutableConstruct -> AccEndCombinedDirective (if available)
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//
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// After rewriting:
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// ExecutableConstruct -> OpenACCConstruct -> OpenACCCombinedConstruct
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// ACCBeginCombinedDirective
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// DoConstruct
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// AccEndCombinedDirective (if available)
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parser::Block::iterator nextIt;
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auto &beginDir{std::get<parser::AccBeginCombinedDirective>(x.t)};
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auto &dir{std::get<parser::AccCombinedDirective>(beginDir.t)};
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nextIt = it;
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if (++nextIt != block.end()) {
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if (auto *doCons{parser::Unwrap<parser::DoConstruct>(*nextIt)}) {
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if (doCons->GetLoopControl()) {
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// move DoConstruct
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std::get<std::optional<parser::DoConstruct>>(x.t) =
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std::move(*doCons);
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nextIt = block.erase(nextIt);
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// try to match AccEndCombinedDirective
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if (nextIt != block.end()) {
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if (auto *endDir{
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parser::Unwrap<parser::AccEndCombinedDirective>(*nextIt)}) {
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std::get<std::optional<parser::AccEndCombinedDirective>>(x.t) =
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std::move(*endDir);
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block.erase(nextIt);
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}
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}
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} else {
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messages_.Say(dir.source,
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"DO loop after the %s directive must have loop control"_err_en_US,
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parser::ToUpperCaseLetters(dir.source.ToString()));
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}
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CheckDoConcurrentClauseRestriction<parser::OpenACCCombinedConstruct,
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parser::AccBeginCombinedDirective>(x);
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CheckTileClauseRestriction<parser::OpenACCCombinedConstruct,
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parser::AccBeginCombinedDirective>(x);
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return; // found do-loop
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}
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}
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messages_.Say(dir.source,
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"A DO loop must follow the %s directive"_err_en_US,
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parser::ToUpperCaseLetters(dir.source.ToString()));
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}
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parser::Messages &messages_;
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};
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bool CanonicalizeAcc(parser::Messages &messages, parser::Program &program) {
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CanonicalizationOfAcc acc{messages};
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Walk(program, acc);
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return !messages.AnyFatalError();
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}
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} // namespace Fortran::semantics
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