src/unistd/getopt.cpp - llvm-project/libc - Git at Google

 //===-- Implementation of getopt ------------------------------------------===//
 //
 // 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 "src/unistd/getopt.h"
 #include "src/__support/CPP/optional.h"
 #include "src/__support/CPP/string_view.h"
 #include "src/__support/File/file.h"
 #include "src/__support/common.h"
 #include "src/stdio/fprintf.h"

 #include <stdio.h>

 // This is POSIX compliant and does not support GNU extensions, mainly this is
 // just the re-ordering of argv elements such that unknown arguments can be
 // easily iterated over.

 namespace LIBC_NAMESPACE {

 template <typename T> struct RefWrapper {
   RefWrapper() = delete;
   constexpr RefWrapper(T *p) : ptr{p} {}
   constexpr RefWrapper(const RefWrapper &) = default;
   RefWrapper &operator=(const RefWrapper &) = default;
   operator T &() { return *ptr; }
   T &get() { return *ptr; }
   T *ptr;
 };

 struct GetoptContext {
   RefWrapper<char *> optarg;
   RefWrapper<int> optind;
   RefWrapper<int> optopt;
   RefWrapper<unsigned> optpos;

   RefWrapper<int> opterr;

   FILE *errstream;

   GetoptContext &operator=(const GetoptContext &) = default;

   template <typename... Ts> void report_error(const char *fmt, Ts... ts) {
     if (opterr)
       LIBC_NAMESPACE::fprintf(
           errstream ? errstream
                     : reinterpret_cast<FILE *>(LIBC_NAMESPACE::stderr),
           fmt, ts...);
   }
 };

 struct OptstringParser {
   using value_type = struct {
     char c;
     bool arg;
   };

   cpp::string_view optstring;

   struct iterator {
     cpp::string_view curr;

     iterator operator++() {
       curr = curr.substr(1);
       return *this;
     }

     bool operator!=(iterator other) { return curr.data() != other.curr.data(); }

     value_type operator*() {
       value_type r{curr.front(), false};
       if (!curr.substr(1).empty() && curr.substr(1).front() == ':') {
         this->operator++();
         r.arg = true;
       }
       return r;
     }
   };

   iterator begin() {
     bool skip = optstring.front() == '-' || optstring.front() == '+' ||
                 optstring.front() == ':';
     return {optstring.substr(!!skip)};
   }

   iterator end() { return {optstring.substr(optstring.size())}; }
 };

 int getopt_r(int argc, char *const argv[], const char *optstring,
              GetoptContext &ctx) {
   auto failure = [&ctx](int ret = -1) {
     ctx.optpos.get() = 0;
     return ret;
   };

   if (ctx.optind >= argc || !argv[ctx.optind])
     return failure();

   cpp::string_view current =
       cpp::string_view{argv[ctx.optind]}.substr(ctx.optpos);

   auto move_forward = [&current, &ctx] {
     current = current.substr(1);
     ctx.optpos.get()++;
   };

   // If optpos is nonzero, then we are already parsing a valid flag and these
   // need not be checked.
   if (ctx.optpos == 0) {
     if (current[0] != '-')
       return failure();

     if (current == "--") {
       ctx.optind.get()++;
       return failure();
     }

     // Eat the '-' char.
     move_forward();
     if (current.empty())
       return failure();
   }

   auto find_match =
       [current, optstring]() -> cpp::optional<OptstringParser::value_type> {
     for (auto i : OptstringParser{optstring})
       if (i.c == current[0])
         return i;
     return {};
   };

   auto match = find_match();
   if (!match) {
     ctx.report_error("%s: illegal option -- %c\n", argv[0], current[0]);
     ctx.optopt.get() = current[0];
     return failure('?');
   }

   // We've matched so eat that character.
   move_forward();
   if (match->arg) {
     // If we found an option that takes an argument and our current is not over,
     // the rest of current is that argument. Ie, "-cabc" with opstring "c:",
     // then optarg should point to "abc". Otherwise the argument to c will be in
     // the next arg like "-c abc".
     if (!current.empty()) {
       // This const cast is fine because current was already holding a mutable
       // string, it just doesn't have the semantics to note that, we could use
       // span but it doesn't have string_view string niceties.
       ctx.optarg.get() = const_cast<char *>(current.data());
     } else {
       // One char lookahead to see if we ran out of arguments. If so, return ':'
       // if the first character of optstring is ':'. optind must stay at the
       // current value so only increase it after we known there is another arg.
       if (ctx.optind + 1 >= argc || !argv[ctx.optind + 1]) {
         ctx.report_error("%s: option requires an argument -- %c\n", argv[0],
                          match->c);
         return failure(optstring[0] == ':' ? ':' : '?');
       }
       ctx.optarg.get() = argv[++ctx.optind];
     }
     ctx.optind++;
     ctx.optpos.get() = 0;
   } else if (current.empty()) {
     // If this argument is now empty we are safe to move onto the next one.
     ctx.optind++;
     ctx.optpos.get() = 0;
   }

   return match->c;
 }

 namespace impl {

 extern "C" {
 char *optarg = nullptr;
 int optind = 1;
 int optopt = 0;
 int opterr = 0;
 }

 static unsigned optpos;

 static GetoptContext ctx{&impl::optarg, &impl::optind, &impl::optopt,
                          &optpos,       &impl::opterr, /*errstream=*/nullptr};

 #ifndef LIBC_COPT_PUBLIC_PACKAGING
 // This is used exclusively in tests.
 void set_getopt_state(char **optarg, int *optind, int *optopt, unsigned *optpos,
                       int *opterr, FILE *errstream) {
   ctx = {optarg, optind, optopt, optpos, opterr, errstream};
 }
 #endif

 } // namespace impl

 LLVM_LIBC_FUNCTION(int, getopt,
                    (int argc, char *const argv[], const char *optstring)) {
   return getopt_r(argc, argv, optstring, impl::ctx);
 }

 } // namespace LIBC_NAMESPACE
	//===-- Implementation of getopt ------------------------------------------===//
	//
	// 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 "src/unistd/getopt.h"
	#include "src/__support/CPP/optional.h"
	#include "src/__support/CPP/string_view.h"
	#include "src/__support/File/file.h"
	#include "src/__support/common.h"
	#include "src/stdio/fprintf.h"

	#include <stdio.h>

	// This is POSIX compliant and does not support GNU extensions, mainly this is
	// just the re-ordering of argv elements such that unknown arguments can be
	// easily iterated over.

	namespace LIBC_NAMESPACE {

	template <typename T> struct RefWrapper {
	RefWrapper() = delete;
	constexpr RefWrapper(T *p) : ptr{p} {}
	constexpr RefWrapper(const RefWrapper &) = default;
	RefWrapper &operator=(const RefWrapper &) = default;
	operator T &() { return *ptr; }
	T &get() { return *ptr; }
	T *ptr;
	};

	struct GetoptContext {
	RefWrapper<char *> optarg;
	RefWrapper<int> optind;
	RefWrapper<int> optopt;
	RefWrapper<unsigned> optpos;

	RefWrapper<int> opterr;

	FILE *errstream;

	GetoptContext &operator=(const GetoptContext &) = default;

	template <typename... Ts> void report_error(const char *fmt, Ts... ts) {
	if (opterr)
	LIBC_NAMESPACE::fprintf(
	errstream ? errstream
	: reinterpret_cast<FILE *>(LIBC_NAMESPACE::stderr),
	fmt, ts...);
	}
	};

	struct OptstringParser {
	using value_type = struct {
	char c;
	bool arg;
	};

	cpp::string_view optstring;

	struct iterator {
	cpp::string_view curr;

	iterator operator++() {
	curr = curr.substr(1);
	return *this;
	}

	bool operator!=(iterator other) { return curr.data() != other.curr.data(); }

	value_type operator*() {
	value_type r{curr.front(), false};
	if (!curr.substr(1).empty() && curr.substr(1).front() == ':') {
	this->operator++();
	r.arg = true;
	}
	return r;
	}
	};

	iterator begin() {
	bool skip = optstring.front() == '-' \|\| optstring.front() == '+' \|\|
	optstring.front() == ':';
	return {optstring.substr(!!skip)};
	}

	iterator end() { return {optstring.substr(optstring.size())}; }
	};

	int getopt_r(int argc, char const argv[], const char optstring,
	GetoptContext &ctx) {
	auto failure = [&ctx](int ret = -1) {
	ctx.optpos.get() = 0;
	return ret;
	};

	if (ctx.optind >= argc \|\| !argv[ctx.optind])
	return failure();

	cpp::string_view current =
	cpp::string_view{argv[ctx.optind]}.substr(ctx.optpos);

	auto move_forward = [&current, &ctx] {
	current = current.substr(1);
	ctx.optpos.get()++;
	};

	// If optpos is nonzero, then we are already parsing a valid flag and these
	// need not be checked.
	if (ctx.optpos == 0) {
	if (current[0] != '-')
	return failure();

	if (current == "--") {
	ctx.optind.get()++;
	return failure();
	}

	// Eat the '-' char.
	move_forward();
	if (current.empty())
	return failure();
	}

	auto find_match =
	[current, optstring]() -> cpp::optional<OptstringParser::value_type> {
	for (auto i : OptstringParser{optstring})
	if (i.c == current[0])
	return i;
	return {};
	};

	auto match = find_match();
	if (!match) {
	ctx.report_error("%s: illegal option -- %c\n", argv[0], current[0]);
	ctx.optopt.get() = current[0];
	return failure('?');
	}

	// We've matched so eat that character.
	move_forward();
	if (match->arg) {
	// If we found an option that takes an argument and our current is not over,
	// the rest of current is that argument. Ie, "-cabc" with opstring "c:",
	// then optarg should point to "abc". Otherwise the argument to c will be in
	// the next arg like "-c abc".
	if (!current.empty()) {
	// This const cast is fine because current was already holding a mutable
	// string, it just doesn't have the semantics to note that, we could use
	// span but it doesn't have string_view string niceties.
	ctx.optarg.get() = const_cast<char *>(current.data());
	} else {
	// One char lookahead to see if we ran out of arguments. If so, return ':'
	// if the first character of optstring is ':'. optind must stay at the
	// current value so only increase it after we known there is another arg.
	if (ctx.optind + 1 >= argc \|\| !argv[ctx.optind + 1]) {
	ctx.report_error("%s: option requires an argument -- %c\n", argv[0],
	match->c);
	return failure(optstring[0] == ':' ? ':' : '?');
	}
	ctx.optarg.get() = argv[++ctx.optind];
	}
	ctx.optind++;
	ctx.optpos.get() = 0;
	} else if (current.empty()) {
	// If this argument is now empty we are safe to move onto the next one.
	ctx.optind++;
	ctx.optpos.get() = 0;
	}

	return match->c;
	}

	namespace impl {

	extern "C" {
	char *optarg = nullptr;
	int optind = 1;
	int optopt = 0;
	int opterr = 0;
	}

	static unsigned optpos;

	static GetoptContext ctx{&impl::optarg, &impl::optind, &impl::optopt,
	&optpos, &impl::opterr, /errstream=/nullptr};

	#ifndef LIBC_COPT_PUBLIC_PACKAGING
	// This is used exclusively in tests.
	void set_getopt_state(char *optarg, int optind, int optopt, unsigned optpos,
	int opterr, FILE errstream) {
	ctx = {optarg, optind, optopt, optpos, opterr, errstream};
	}
	#endif

	} // namespace impl

	LLVM_LIBC_FUNCTION(int, getopt,
	(int argc, char const argv[], const char optstring)) {
	return getopt_r(argc, argv, optstring, impl::ctx);
	}

	} // namespace LIBC_NAMESPACE