//===-- runtime/unit-map.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 "unit-map.h" namespace Fortran::runtime::io { void UnitMap::Initialize() { if (!isInitialized_) { freeNewUnits_.InitializeState(); // Unit number -1 is reserved. // The unit numbers are pushed in reverse order so that the first // ones to be popped will be small and suitable for use as kind=1 // integers. for (int j{freeNewUnits_.maxValue}; j > 1; --j) { freeNewUnits_.Add(j); } isInitialized_ = true; } } // See 12.5.6.12 in Fortran 2018. NEWUNIT= unit numbers are negative, // and not equal to -1 (or ERROR_UNIT, if it were negative, which it isn't.) ExternalFileUnit &UnitMap::NewUnit(const Terminator &terminator) { CriticalSection critical{lock_}; Initialize(); std::optional n{freeNewUnits_.PopValue()}; if (!n) { n = emergencyNewUnit_++; } return Create(-*n, terminator); } ExternalFileUnit *UnitMap::LookUpForClose(int n) { CriticalSection critical{lock_}; Chain *previous{nullptr}; int hash{Hash(n)}; for (Chain *p{bucket_[hash].get()}; p; previous = p, p = p->next.get()) { if (p->unit.unitNumber() == n) { if (previous) { previous->next.swap(p->next); } else { bucket_[hash].swap(p->next); } // p->next.get() == p at this point; the next swap pushes p on closing_ closing_.swap(p->next); return &p->unit; } } return nullptr; } void UnitMap::DestroyClosed(ExternalFileUnit &unit) { Chain *p{nullptr}; { CriticalSection critical{lock_}; Chain *previous{nullptr}; for (p = closing_.get(); p; previous = p, p = p->next.get()) { if (&p->unit == &unit) { int n{unit.unitNumber()}; if (n <= -2) { freeNewUnits_.Add(-n); } if (previous) { previous->next.swap(p->next); } else { closing_.swap(p->next); } break; } } } if (p) { p->unit.~ExternalFileUnit(); FreeMemory(p); } } void UnitMap::CloseAll(IoErrorHandler &handler) { // Extract units from the map so they can be closed // without holding lock_. OwningPtr closeList; { CriticalSection critical{lock_}; for (int j{0}; j < buckets_; ++j) { while (Chain * p{bucket_[j].get()}) { bucket_[j].swap(p->next); // pops p from head of bucket list closeList.swap(p->next); // pushes p to closeList } } } while (Chain * p{closeList.get()}) { closeList.swap(p->next); // pops p from head of closeList p->unit.CloseUnit(CloseStatus::Keep, handler); p->unit.~ExternalFileUnit(); FreeMemory(p); } } void UnitMap::FlushAll(IoErrorHandler &handler) { CriticalSection critical{lock_}; for (int j{0}; j < buckets_; ++j) { for (Chain *p{bucket_[j].get()}; p; p = p->next.get()) { p->unit.FlushOutput(handler); } } } ExternalFileUnit *UnitMap::Find(const char *path, std::size_t pathLen) { if (path) { // TODO: Faster data structure for (int j{0}; j < buckets_; ++j) { for (Chain *p{bucket_[j].get()}; p; p = p->next.get()) { if (p->unit.path() && p->unit.pathLength() == pathLen && std::memcmp(p->unit.path(), path, pathLen) == 0) { return &p->unit; } } } } return nullptr; } ExternalFileUnit &UnitMap::Create(int n, const Terminator &terminator) { Chain &chain{*New{terminator}(n).release()}; chain.next.reset(&chain); bucket_[Hash(n)].swap(chain.next); // pushes new node as list head return chain.unit; } } // namespace Fortran::runtime::io