runtime/command.cpp - llvm-project/flang - Git at Google

 //===-- runtime/command.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/Runtime/command.h"
 #include "environment.h"
 #include "stat.h"
 #include "terminator.h"
 #include "tools.h"
 #include "flang/Runtime/descriptor.h"
 #include <cstdlib>
 #include <limits>

 #ifdef _WIN32
 #include "flang/Common/windows-include.h"

 // On Windows GetCurrentProcessId returns a DWORD aka uint32_t
 #include <processthreadsapi.h>
 inline pid_t getpid() { return GetCurrentProcessId(); }
 #else
 #include <unistd.h> //getpid()
 #endif

 namespace Fortran::runtime {
 std::int32_t RTNAME(ArgumentCount)() {
   int argc{executionEnvironment.argc};
   if (argc > 1) {
     // C counts the command name as one of the arguments, but Fortran doesn't.
     return argc - 1;
   }
   return 0;
 }

 pid_t RTNAME(GetPID)() { return getpid(); }

 // Returns the length of the \p string. Assumes \p string is valid.
 static std::int64_t StringLength(const char *string) {
   std::size_t length{std::strlen(string)};
   if constexpr (sizeof(std::size_t) < sizeof(std::int64_t)) {
     return static_cast<std::int64_t>(length);
   } else {
     std::size_t max{std::numeric_limits<std::int64_t>::max()};
     return length > max ? 0 // Just fail.
                         : static_cast<std::int64_t>(length);
   }
 }

 static void FillWithSpaces(const Descriptor &value, std::size_t offset = 0) {
   if (offset < value.ElementBytes()) {
     std::memset(
         value.OffsetElement(offset), ' ', value.ElementBytes() - offset);
   }
 }

 static std::int32_t CheckAndCopyCharsToDescriptor(const Descriptor *value,
     const char *rawValue, const Descriptor *errmsg, std::size_t &offset) {
   bool haveValue{IsValidCharDescriptor(value)};

   std::int64_t len{StringLength(rawValue)};
   if (len <= 0) {
     if (haveValue) {
       FillWithSpaces(*value);
     }
     return ToErrmsg(errmsg, StatMissingArgument);
   }

   std::int32_t stat{StatOk};
   if (haveValue) {
     stat = CopyCharsToDescriptor(*value, rawValue, len, errmsg, offset);
   }

   offset += len;
   return stat;
 }

 template <int KIND> struct FitsInIntegerKind {
   bool operator()([[maybe_unused]] std::int64_t value) {
     if constexpr (KIND >= 8) {
       return true;
     } else {
       return value <= std::numeric_limits<Fortran::runtime::CppTypeFor<
                           Fortran::common::TypeCategory::Integer, KIND>>::max();
     }
   }
 };

 static bool FitsInDescriptor(
     const Descriptor *length, std::int64_t value, Terminator &terminator) {
   auto typeCode{length->type().GetCategoryAndKind()};
   int kind{typeCode->second};
   return Fortran::runtime::ApplyIntegerKind<FitsInIntegerKind, bool>(
       kind, terminator, value);
 }

 std::int32_t RTNAME(GetCommandArgument)(std::int32_t n, const Descriptor *value,
     const Descriptor *length, const Descriptor *errmsg, const char *sourceFile,
     int line) {
   Terminator terminator{sourceFile, line};

   if (value) {
     RUNTIME_CHECK(terminator, IsValidCharDescriptor(value));
     FillWithSpaces(*value);
   }

   // Store 0 in case we error out later on.
   if (length) {
     RUNTIME_CHECK(terminator, IsValidIntDescriptor(length));
     StoreIntToDescriptor(length, 0, terminator);
   }

   if (n < 0 || n >= executionEnvironment.argc) {
     return ToErrmsg(errmsg, StatInvalidArgumentNumber);
   }

   const char *arg{executionEnvironment.argv[n]};
   std::int64_t argLen{StringLength(arg)};
   if (argLen <= 0) {
     return ToErrmsg(errmsg, StatMissingArgument);
   }

   if (length && FitsInDescriptor(length, argLen, terminator)) {
     StoreIntToDescriptor(length, argLen, terminator);
   }

   if (value) {
     return CopyCharsToDescriptor(*value, arg, argLen, errmsg);
   }

   return StatOk;
 }

 std::int32_t RTNAME(GetCommand)(const Descriptor *value,
     const Descriptor *length, const Descriptor *errmsg, const char *sourceFile,
     int line) {
   Terminator terminator{sourceFile, line};

   if (value) {
     RUNTIME_CHECK(terminator, IsValidCharDescriptor(value));
   }

   // Store 0 in case we error out later on.
   if (length) {
     RUNTIME_CHECK(terminator, IsValidIntDescriptor(length));
     StoreIntToDescriptor(length, 0, terminator);
   }

   auto shouldContinue = [&](std::int32_t stat) -> bool {
     // We continue as long as everything is ok OR the value descriptor is
     // too short, but we still need to compute the length.
     return stat == StatOk || (length && stat == StatValueTooShort);
   };

   std::size_t offset{0};

   if (executionEnvironment.argc == 0) {
     return CheckAndCopyCharsToDescriptor(value, "", errmsg, offset);
   }

   // value = argv[0]
   std::int32_t stat{CheckAndCopyCharsToDescriptor(
       value, executionEnvironment.argv[0], errmsg, offset)};
   if (!shouldContinue(stat)) {
     return stat;
   }

   // value += " " + argv[1:n]
   for (std::int32_t i{1}; i < executionEnvironment.argc; ++i) {
     stat = CheckAndCopyCharsToDescriptor(value, " ", errmsg, offset);
     if (!shouldContinue(stat)) {
       return stat;
     }

     stat = CheckAndCopyCharsToDescriptor(
         value, executionEnvironment.argv[i], errmsg, offset);
     if (!shouldContinue(stat)) {
       return stat;
     }
   }

   if (length && FitsInDescriptor(length, offset, terminator)) {
     StoreIntToDescriptor(length, offset, terminator);
   }

   // value += spaces for padding
   if (value) {
     FillWithSpaces(*value, offset);
   }

   return stat;
 }

 static std::size_t LengthWithoutTrailingSpaces(const Descriptor &d) {
   std::size_t s{d.ElementBytes()}; // This can be 0.
   while (s != 0 && *d.OffsetElement(s - 1) == ' ') {
     --s;
   }
   return s;
 }

 std::int32_t RTNAME(GetEnvVariable)(const Descriptor &name,
     const Descriptor *value, const Descriptor *length, bool trim_name,
     const Descriptor *errmsg, const char *sourceFile, int line) {
   Terminator terminator{sourceFile, line};

   if (value) {
     RUNTIME_CHECK(terminator, IsValidCharDescriptor(value));
     FillWithSpaces(*value);
   }

   // Store 0 in case we error out later on.
   if (length) {
     RUNTIME_CHECK(terminator, IsValidIntDescriptor(length));
     StoreIntToDescriptor(length, 0, terminator);
   }

   const char *rawValue{nullptr};
   std::size_t nameLength{
       trim_name ? LengthWithoutTrailingSpaces(name) : name.ElementBytes()};
   if (nameLength != 0) {
     rawValue = executionEnvironment.GetEnv(
         name.OffsetElement(), nameLength, terminator);
   }
   if (!rawValue) {
     return ToErrmsg(errmsg, StatMissingEnvVariable);
   }

   std::int64_t varLen{StringLength(rawValue)};
   if (length && FitsInDescriptor(length, varLen, terminator)) {
     StoreIntToDescriptor(length, varLen, terminator);
   }

   if (value) {
     return CopyCharsToDescriptor(*value, rawValue, varLen, errmsg);
   }
   return StatOk;
 }

 } // namespace Fortran::runtime
	//===-- runtime/command.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/Runtime/command.h"
	#include "environment.h"
	#include "stat.h"
	#include "terminator.h"
	#include "tools.h"
	#include "flang/Runtime/descriptor.h"
	#include <cstdlib>
	#include <limits>

	#ifdef _WIN32
	#include "flang/Common/windows-include.h"

	// On Windows GetCurrentProcessId returns a DWORD aka uint32_t
	#include <processthreadsapi.h>
	inline pid_t getpid() { return GetCurrentProcessId(); }
	#else
	#include <unistd.h> //getpid()
	#endif

	namespace Fortran::runtime {
	std::int32_t RTNAME(ArgumentCount)() {
	int argc{executionEnvironment.argc};
	if (argc > 1) {
	// C counts the command name as one of the arguments, but Fortran doesn't.
	return argc - 1;
	}
	return 0;
	}

	pid_t RTNAME(GetPID)() { return getpid(); }

	// Returns the length of the \p string. Assumes \p string is valid.
	static std::int64_t StringLength(const char *string) {
	std::size_t length{std::strlen(string)};
	if constexpr (sizeof(std::size_t) < sizeof(std::int64_t)) {
	return static_cast<std::int64_t>(length);
	} else {
	std::size_t max{std::numeric_limits<std::int64_t>::max()};
	return length > max ? 0 // Just fail.
	: static_cast<std::int64_t>(length);
	}
	}

	static void FillWithSpaces(const Descriptor &value, std::size_t offset = 0) {
	if (offset < value.ElementBytes()) {
	std::memset(
	value.OffsetElement(offset), ' ', value.ElementBytes() - offset);
	}
	}

	static std::int32_t CheckAndCopyCharsToDescriptor(const Descriptor *value,
	const char rawValue, const Descriptor errmsg, std::size_t &offset) {
	bool haveValue{IsValidCharDescriptor(value)};

	std::int64_t len{StringLength(rawValue)};
	if (len <= 0) {
	if (haveValue) {
	FillWithSpaces(*value);
	}
	return ToErrmsg(errmsg, StatMissingArgument);
	}

	std::int32_t stat{StatOk};
	if (haveValue) {
	stat = CopyCharsToDescriptor(*value, rawValue, len, errmsg, offset);
	}

	offset += len;
	return stat;
	}

	template <int KIND> struct FitsInIntegerKind {
	bool operator()([[maybe_unused]] std::int64_t value) {
	if constexpr (KIND >= 8) {
	return true;
	} else {
	return value <= std::numeric_limits<Fortran::runtime::CppTypeFor<
	Fortran::common::TypeCategory::Integer, KIND>>::max();
	}
	}
	};

	static bool FitsInDescriptor(
	const Descriptor *length, std::int64_t value, Terminator &terminator) {
	auto typeCode{length->type().GetCategoryAndKind()};
	int kind{typeCode->second};
	return Fortran::runtime::ApplyIntegerKind<FitsInIntegerKind, bool>(
	kind, terminator, value);
	}

	std::int32_t RTNAME(GetCommandArgument)(std::int32_t n, const Descriptor *value,
	const Descriptor length, const Descriptor errmsg, const char *sourceFile,
	int line) {
	Terminator terminator{sourceFile, line};

	if (value) {
	RUNTIME_CHECK(terminator, IsValidCharDescriptor(value));
	FillWithSpaces(*value);
	}

	// Store 0 in case we error out later on.
	if (length) {
	RUNTIME_CHECK(terminator, IsValidIntDescriptor(length));
	StoreIntToDescriptor(length, 0, terminator);
	}

	if (n < 0 \|\| n >= executionEnvironment.argc) {
	return ToErrmsg(errmsg, StatInvalidArgumentNumber);
	}

	const char *arg{executionEnvironment.argv[n]};
	std::int64_t argLen{StringLength(arg)};
	if (argLen <= 0) {
	return ToErrmsg(errmsg, StatMissingArgument);
	}

	if (length && FitsInDescriptor(length, argLen, terminator)) {
	StoreIntToDescriptor(length, argLen, terminator);
	}

	if (value) {
	return CopyCharsToDescriptor(*value, arg, argLen, errmsg);
	}

	return StatOk;
	}

	std::int32_t RTNAME(GetCommand)(const Descriptor *value,
	const Descriptor length, const Descriptor errmsg, const char *sourceFile,
	int line) {
	Terminator terminator{sourceFile, line};

	if (value) {
	RUNTIME_CHECK(terminator, IsValidCharDescriptor(value));
	}

	// Store 0 in case we error out later on.
	if (length) {
	RUNTIME_CHECK(terminator, IsValidIntDescriptor(length));
	StoreIntToDescriptor(length, 0, terminator);
	}

	auto shouldContinue = [&](std::int32_t stat) -> bool {
	// We continue as long as everything is ok OR the value descriptor is
	// too short, but we still need to compute the length.
	return stat == StatOk \|\| (length && stat == StatValueTooShort);
	};

	std::size_t offset{0};

	if (executionEnvironment.argc == 0) {
	return CheckAndCopyCharsToDescriptor(value, "", errmsg, offset);
	}

	// value = argv[0]
	std::int32_t stat{CheckAndCopyCharsToDescriptor(
	value, executionEnvironment.argv[0], errmsg, offset)};
	if (!shouldContinue(stat)) {
	return stat;
	}

	// value += " " + argv[1:n]
	for (std::int32_t i{1}; i < executionEnvironment.argc; ++i) {
	stat = CheckAndCopyCharsToDescriptor(value, " ", errmsg, offset);
	if (!shouldContinue(stat)) {
	return stat;
	}

	stat = CheckAndCopyCharsToDescriptor(
	value, executionEnvironment.argv[i], errmsg, offset);
	if (!shouldContinue(stat)) {
	return stat;
	}
	}

	if (length && FitsInDescriptor(length, offset, terminator)) {
	StoreIntToDescriptor(length, offset, terminator);
	}

	// value += spaces for padding
	if (value) {
	FillWithSpaces(*value, offset);
	}

	return stat;
	}

	static std::size_t LengthWithoutTrailingSpaces(const Descriptor &d) {
	std::size_t s{d.ElementBytes()}; // This can be 0.
	while (s != 0 && *d.OffsetElement(s - 1) == ' ') {
	--s;
	}
	return s;
	}

	std::int32_t RTNAME(GetEnvVariable)(const Descriptor &name,
	const Descriptor value, const Descriptor length, bool trim_name,
	const Descriptor errmsg, const char sourceFile, int line) {
	Terminator terminator{sourceFile, line};

	if (value) {
	RUNTIME_CHECK(terminator, IsValidCharDescriptor(value));
	FillWithSpaces(*value);
	}

	// Store 0 in case we error out later on.
	if (length) {
	RUNTIME_CHECK(terminator, IsValidIntDescriptor(length));
	StoreIntToDescriptor(length, 0, terminator);
	}

	const char *rawValue{nullptr};
	std::size_t nameLength{
	trim_name ? LengthWithoutTrailingSpaces(name) : name.ElementBytes()};
	if (nameLength != 0) {
	rawValue = executionEnvironment.GetEnv(
	name.OffsetElement(), nameLength, terminator);
	}
	if (!rawValue) {
	return ToErrmsg(errmsg, StatMissingEnvVariable);
	}

	std::int64_t varLen{StringLength(rawValue)};
	if (length && FitsInDescriptor(length, varLen, terminator)) {
	StoreIntToDescriptor(length, varLen, terminator);
	}

	if (value) {
	return CopyCharsToDescriptor(*value, rawValue, varLen, errmsg);
	}
	return StatOk;
	}

	} // namespace Fortran::runtime