runtime/descriptor-io.cpp - llvm-project/flang - Git at Google

 //===-- runtime/descriptor-io.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 "descriptor-io.h"
 #include "flang/Common/restorer.h"
 #include "flang/Runtime/freestanding-tools.h"

 namespace Fortran::runtime::io::descr {
 RT_OFFLOAD_API_GROUP_BEGIN

 // Defined formatted I/O (maybe)
 Fortran::common::optional<bool> DefinedFormattedIo(IoStatementState &io,
     const Descriptor &descriptor, const typeInfo::DerivedType &derived,
     const typeInfo::SpecialBinding &special,
     const SubscriptValue subscripts[]) {
   Fortran::common::optional<DataEdit> peek{
       io.GetNextDataEdit(0 /*to peek at it*/)};
   if (peek &&
       (peek->descriptor == DataEdit::DefinedDerivedType ||
           peek->descriptor == DataEdit::ListDirected)) {
     // Defined formatting
     IoErrorHandler &handler{io.GetIoErrorHandler()};
     DataEdit edit{*io.GetNextDataEdit(1)}; // now consume it; no repeats
     RUNTIME_CHECK(handler, edit.descriptor == peek->descriptor);
     char ioType[2 + edit.maxIoTypeChars];
     auto ioTypeLen{std::size_t{2} /*"DT"*/ + edit.ioTypeChars};
     if (edit.descriptor == DataEdit::DefinedDerivedType) {
       ioType[0] = 'D';
       ioType[1] = 'T';
       std::memcpy(ioType + 2, edit.ioType, edit.ioTypeChars);
     } else {
       runtime::strcpy(
           ioType, io.mutableModes().inNamelist ? "NAMELIST" : "LISTDIRECTED");
       ioTypeLen = runtime::strlen(ioType);
     }
     StaticDescriptor<1, true> vListStatDesc;
     Descriptor &vListDesc{vListStatDesc.descriptor()};
     vListDesc.Establish(TypeCategory::Integer, sizeof(int), nullptr, 1);
     vListDesc.set_base_addr(edit.vList);
     vListDesc.GetDimension(0).SetBounds(1, edit.vListEntries);
     vListDesc.GetDimension(0).SetByteStride(
         static_cast<SubscriptValue>(sizeof(int)));
     ExternalFileUnit *actualExternal{io.GetExternalFileUnit()};
     ExternalFileUnit *external{actualExternal};
     if (!external) {
       // Create a new unit to service defined I/O for an
       // internal I/O parent.
       external = &ExternalFileUnit::NewUnit(handler, true);
     }
     ChildIo &child{external->PushChildIo(io)};
     // Child formatted I/O is nonadvancing by definition (F'2018 12.6.2.4).
     auto restorer{common::ScopedSet(io.mutableModes().nonAdvancing, true)};
     int unit{external->unitNumber()};
     int ioStat{IostatOk};
     char ioMsg[100];
     Fortran::common::optional<std::int64_t> startPos;
     if (edit.descriptor == DataEdit::DefinedDerivedType &&
         special.which() == typeInfo::SpecialBinding::Which::ReadFormatted) {
       // DT is an edit descriptor so everything that the child
       // I/O subroutine reads counts towards READ(SIZE=).
       startPos = io.InquirePos();
     }
     if (special.IsArgDescriptor(0)) {
       // "dtv" argument is "class(t)", pass a descriptor
       auto *p{special.GetProc<void (*)(const Descriptor &, int &, char *,
           const Descriptor &, int &, char *, std::size_t, std::size_t)>()};
       StaticDescriptor<1, true, 10 /*?*/> elementStatDesc;
       Descriptor &elementDesc{elementStatDesc.descriptor()};
       elementDesc.Establish(
           derived, nullptr, 0, nullptr, CFI_attribute_pointer);
       elementDesc.set_base_addr(descriptor.Element<char>(subscripts));
       p(elementDesc, unit, ioType, vListDesc, ioStat, ioMsg, ioTypeLen,
           sizeof ioMsg);
     } else {
       // "dtv" argument is "type(t)", pass a raw pointer
       auto *p{special.GetProc<void (*)(const void *, int &, char *,
           const Descriptor &, int &, char *, std::size_t, std::size_t)>()};
       p(descriptor.Element<char>(subscripts), unit, ioType, vListDesc, ioStat,
           ioMsg, ioTypeLen, sizeof ioMsg);
     }
     handler.Forward(ioStat, ioMsg, sizeof ioMsg);
     external->PopChildIo(child);
     if (!actualExternal) {
       // Close unit created for internal I/O above.
       auto *closing{external->LookUpForClose(external->unitNumber())};
       RUNTIME_CHECK(handler, external == closing);
       external->DestroyClosed();
     }
     if (startPos) {
       io.GotChar(io.InquirePos() - *startPos);
     }
     return handler.GetIoStat() == IostatOk;
   } else {
     // There's a defined I/O subroutine, but there's a FORMAT present and
     // it does not have a DT data edit descriptor, so apply default formatting
     // to the components of the derived type as usual.
     return Fortran::common::nullopt;
   }
 }

 // Defined unformatted I/O
 bool DefinedUnformattedIo(IoStatementState &io, const Descriptor &descriptor,
     const typeInfo::DerivedType &derived,
     const typeInfo::SpecialBinding &special) {
   // Unformatted I/O must have an external unit (or child thereof).
   IoErrorHandler &handler{io.GetIoErrorHandler()};
   ExternalFileUnit *external{io.GetExternalFileUnit()};
   if (!external) { // INQUIRE(IOLENGTH=)
     handler.SignalError(IostatNonExternalDefinedUnformattedIo);
     return false;
   }
   ChildIo &child{external->PushChildIo(io)};
   int unit{external->unitNumber()};
   int ioStat{IostatOk};
   char ioMsg[100];
   std::size_t numElements{descriptor.Elements()};
   SubscriptValue subscripts[maxRank];
   descriptor.GetLowerBounds(subscripts);
   if (special.IsArgDescriptor(0)) {
     // "dtv" argument is "class(t)", pass a descriptor
     auto *p{special.GetProc<void (*)(
         const Descriptor &, int &, int &, char *, std::size_t)>()};
     StaticDescriptor<1, true, 10 /*?*/> elementStatDesc;
     Descriptor &elementDesc{elementStatDesc.descriptor()};
     elementDesc.Establish(derived, nullptr, 0, nullptr, CFI_attribute_pointer);
     for (; numElements-- > 0; descriptor.IncrementSubscripts(subscripts)) {
       elementDesc.set_base_addr(descriptor.Element<char>(subscripts));
       p(elementDesc, unit, ioStat, ioMsg, sizeof ioMsg);
       if (ioStat != IostatOk) {
         break;
       }
     }
   } else {
     // "dtv" argument is "type(t)", pass a raw pointer
     auto *p{special.GetProc<void (*)(
         const void *, int &, int &, char *, std::size_t)>()};
     for (; numElements-- > 0; descriptor.IncrementSubscripts(subscripts)) {
       p(descriptor.Element<char>(subscripts), unit, ioStat, ioMsg,
           sizeof ioMsg);
       if (ioStat != IostatOk) {
         break;
       }
     }
   }
   handler.Forward(ioStat, ioMsg, sizeof ioMsg);
   external->PopChildIo(child);
   return handler.GetIoStat() == IostatOk;
 }

 RT_OFFLOAD_API_GROUP_END
 } // namespace Fortran::runtime::io::descr
	//===-- runtime/descriptor-io.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 "descriptor-io.h"
	#include "flang/Common/restorer.h"
	#include "flang/Runtime/freestanding-tools.h"

	namespace Fortran::runtime::io::descr {
	RT_OFFLOAD_API_GROUP_BEGIN

	// Defined formatted I/O (maybe)
	Fortran::common::optional<bool> DefinedFormattedIo(IoStatementState &io,
	const Descriptor &descriptor, const typeInfo::DerivedType &derived,
	const typeInfo::SpecialBinding &special,
	const SubscriptValue subscripts[]) {
	Fortran::common::optional<DataEdit> peek{
	io.GetNextDataEdit(0 /to peek at it/)};
	if (peek &&
	(peek->descriptor == DataEdit::DefinedDerivedType \|\|
	peek->descriptor == DataEdit::ListDirected)) {
	// Defined formatting
	IoErrorHandler &handler{io.GetIoErrorHandler()};
	DataEdit edit{*io.GetNextDataEdit(1)}; // now consume it; no repeats
	RUNTIME_CHECK(handler, edit.descriptor == peek->descriptor);
	char ioType[2 + edit.maxIoTypeChars];
	auto ioTypeLen{std::size_t{2} /"DT"/ + edit.ioTypeChars};
	if (edit.descriptor == DataEdit::DefinedDerivedType) {
	ioType[0] = 'D';
	ioType[1] = 'T';
	std::memcpy(ioType + 2, edit.ioType, edit.ioTypeChars);
	} else {
	runtime::strcpy(
	ioType, io.mutableModes().inNamelist ? "NAMELIST" : "LISTDIRECTED");
	ioTypeLen = runtime::strlen(ioType);
	}
	StaticDescriptor<1, true> vListStatDesc;
	Descriptor &vListDesc{vListStatDesc.descriptor()};
	vListDesc.Establish(TypeCategory::Integer, sizeof(int), nullptr, 1);
	vListDesc.set_base_addr(edit.vList);
	vListDesc.GetDimension(0).SetBounds(1, edit.vListEntries);
	vListDesc.GetDimension(0).SetByteStride(
	static_cast<SubscriptValue>(sizeof(int)));
	ExternalFileUnit *actualExternal{io.GetExternalFileUnit()};
	ExternalFileUnit *external{actualExternal};
	if (!external) {
	// Create a new unit to service defined I/O for an
	// internal I/O parent.
	external = &ExternalFileUnit::NewUnit(handler, true);
	}
	ChildIo &child{external->PushChildIo(io)};
	// Child formatted I/O is nonadvancing by definition (F'2018 12.6.2.4).
	auto restorer{common::ScopedSet(io.mutableModes().nonAdvancing, true)};
	int unit{external->unitNumber()};
	int ioStat{IostatOk};
	char ioMsg[100];
	Fortran::common::optional<std::int64_t> startPos;
	if (edit.descriptor == DataEdit::DefinedDerivedType &&
	special.which() == typeInfo::SpecialBinding::Which::ReadFormatted) {
	// DT is an edit descriptor so everything that the child
	// I/O subroutine reads counts towards READ(SIZE=).
	startPos = io.InquirePos();
	}
	if (special.IsArgDescriptor(0)) {
	// "dtv" argument is "class(t)", pass a descriptor
	auto p{special.GetProc<void ()(const Descriptor &, int &, char *,
	const Descriptor &, int &, char *, std::size_t, std::size_t)>()};
	StaticDescriptor<1, true, 10 /?/> elementStatDesc;
	Descriptor &elementDesc{elementStatDesc.descriptor()};
	elementDesc.Establish(
	derived, nullptr, 0, nullptr, CFI_attribute_pointer);
	elementDesc.set_base_addr(descriptor.Element<char>(subscripts));
	p(elementDesc, unit, ioType, vListDesc, ioStat, ioMsg, ioTypeLen,
	sizeof ioMsg);
	} else {
	// "dtv" argument is "type(t)", pass a raw pointer
	auto p{special.GetProc<void ()(const void , int &, char ,
	const Descriptor &, int &, char *, std::size_t, std::size_t)>()};
	p(descriptor.Element<char>(subscripts), unit, ioType, vListDesc, ioStat,
	ioMsg, ioTypeLen, sizeof ioMsg);
	}
	handler.Forward(ioStat, ioMsg, sizeof ioMsg);
	external->PopChildIo(child);
	if (!actualExternal) {
	// Close unit created for internal I/O above.
	auto *closing{external->LookUpForClose(external->unitNumber())};
	RUNTIME_CHECK(handler, external == closing);
	external->DestroyClosed();
	}
	if (startPos) {
	io.GotChar(io.InquirePos() - *startPos);
	}
	return handler.GetIoStat() == IostatOk;
	} else {
	// There's a defined I/O subroutine, but there's a FORMAT present and
	// it does not have a DT data edit descriptor, so apply default formatting
	// to the components of the derived type as usual.
	return Fortran::common::nullopt;
	}
	}

	// Defined unformatted I/O
	bool DefinedUnformattedIo(IoStatementState &io, const Descriptor &descriptor,
	const typeInfo::DerivedType &derived,
	const typeInfo::SpecialBinding &special) {
	// Unformatted I/O must have an external unit (or child thereof).
	IoErrorHandler &handler{io.GetIoErrorHandler()};
	ExternalFileUnit *external{io.GetExternalFileUnit()};
	if (!external) { // INQUIRE(IOLENGTH=)
	handler.SignalError(IostatNonExternalDefinedUnformattedIo);
	return false;
	}
	ChildIo &child{external->PushChildIo(io)};
	int unit{external->unitNumber()};
	int ioStat{IostatOk};
	char ioMsg[100];
	std::size_t numElements{descriptor.Elements()};
	SubscriptValue subscripts[maxRank];
	descriptor.GetLowerBounds(subscripts);
	if (special.IsArgDescriptor(0)) {
	// "dtv" argument is "class(t)", pass a descriptor
	auto p{special.GetProc<void ()(
	const Descriptor &, int &, int &, char *, std::size_t)>()};
	StaticDescriptor<1, true, 10 /?/> elementStatDesc;
	Descriptor &elementDesc{elementStatDesc.descriptor()};
	elementDesc.Establish(derived, nullptr, 0, nullptr, CFI_attribute_pointer);
	for (; numElements-- > 0; descriptor.IncrementSubscripts(subscripts)) {
	elementDesc.set_base_addr(descriptor.Element<char>(subscripts));
	p(elementDesc, unit, ioStat, ioMsg, sizeof ioMsg);
	if (ioStat != IostatOk) {
	break;
	}
	}
	} else {
	// "dtv" argument is "type(t)", pass a raw pointer
	auto p{special.GetProc<void ()(
	const void , int &, int &, char , std::size_t)>()};
	for (; numElements-- > 0; descriptor.IncrementSubscripts(subscripts)) {
	p(descriptor.Element<char>(subscripts), unit, ioStat, ioMsg,
	sizeof ioMsg);
	if (ioStat != IostatOk) {
	break;
	}
	}
	}
	handler.Forward(ioStat, ioMsg, sizeof ioMsg);
	external->PopChildIo(child);
	return handler.GetIoStat() == IostatOk;
	}

	RT_OFFLOAD_API_GROUP_END
	} // namespace Fortran::runtime::io::descr