BLT/src/blt/parse/argparse_v2.cpp

/*
 *  <Short Description>
 *  Copyright (C) 2025  Brett Terpstra
 *
 *  This program is free software: you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation, either version 3 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
#include <iostream>
#include <blt/parse/argparse_v2.h>
#include <blt/std/assert.h>

namespace blt::argparse
{

    namespace detail
    {
        // Unit Tests for class argument_string_t
        // Test Case 1: Ensure the constructor handles flags correctly
        void test_argument_string_t_flag_basic(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("-f", prefixes);
            BLT_ASSERT(arg.is_flag() && "Expected argument to be identified as a flag.");
            BLT_ASSERT(arg.value() == "f" && "Flag value should match the input string.");
        }

        // Test Case 2: Ensure the constructor handles long flags correctly
        void test_argument_string_t_long_flag(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("--file", prefixes);
            BLT_ASSERT(arg.is_flag() && "Expected argument to be identified as a flag.");
            BLT_ASSERT(arg.value() == "file" && "Long flag value should match the input string.");
        }

        // Test Case 3: Ensure positional arguments are correctly identified
        void test_argument_string_t_positional_argument(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("filename.txt", prefixes);
            BLT_ASSERT(!arg.is_flag() && "Expected argument to be identified as positional.");
            BLT_ASSERT(arg.value() == "filename.txt" && "Positional argument value should match the input string.");
        }

        // Test Case 5: Handle an empty string
        void test_argument_string_t_empty_input(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("", prefixes);
            BLT_ASSERT(!arg.is_flag() && "Expected an empty input to be treated as positional, not a flag.");
            BLT_ASSERT(arg.value().empty() && "Empty input should have an empty value.");
        }

        // Test Case 6: Handle edge case of a single hyphen (`-`) which might be ambiguous
        void test_argument_string_t_single_hyphen(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("-", prefixes);
            BLT_ASSERT(arg.is_flag() && "Expected single hyphen (`-`) to be treated as a flag.");
            BLT_ASSERT(arg.value().empty() && "Single hyphen flag should have empty value.");
            BLT_ASSERT(arg.get_flag() == "-" && "Single hyphen flag should match the input string.");
        }

        // Test Case 8: Handle arguments with prefix only (like "--")
        void test_argument_string_t_double_hyphen(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("--", prefixes);
            BLT_ASSERT(arg.is_flag() && "Double hyphen ('--') should be treated as a flag.");
            BLT_ASSERT(arg.value().empty() && "Double hyphen flag should have empty value.");
            BLT_ASSERT(arg.get_flag() == "--" && "Double hyphen value should match the input string.");
        }

        // Test Case 9: Validate edge case of an argument with spaces
        void test_argument_string_t_with_spaces(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("  ", prefixes);
            BLT_ASSERT(!arg.is_flag() && "Arguments with spaces should not be treated as flags.");
            BLT_ASSERT(arg.value() == "  " && "Arguments with spaces should match the input string.");
        }

        // Test Case 10: Validate arguments with numeric characters
        void test_argument_string_t_numeric_flag(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("-123", prefixes);
            BLT_ASSERT(arg.is_flag() && "Numeric flags should still be treated as flags.");
            BLT_ASSERT(arg.value() == "123" && "Numeric flag value should match the input string.");
        }

        // Test Case 11: Ensure the constructor handles '+' flag correctly
        void test_argument_string_t_plus_flag_basic(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("+f", prefixes);
            BLT_ASSERT(arg.is_flag() && "Expected argument to be identified as a flag.");
            BLT_ASSERT(arg.value() == "f" && "Plus flag value should match the input string.");
        }

        // Test Case 13: Handle edge case of a single plus (`+`) which might be ambiguous
        void test_argument_string_t_single_plus(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("+", prefixes);
            BLT_ASSERT(arg.is_flag() && "Expected single plus (`+`) to be treated as a flag.");
            BLT_ASSERT(arg.value().empty() && "Single plus flag should have empty value.");
            BLT_ASSERT(arg.get_flag() == "+" && "Single plus flag should match the input string.");
        }

        // Test Case 14: Handle arguments with prefix only (like '++')
        void test_argument_string_t_double_plus(const hashset_t<char>& prefixes)
        {
            const argument_string_t arg("++", prefixes);
            BLT_ASSERT(arg.is_flag() && "Double plus ('++') should be treated as a flag.");
            BLT_ASSERT(arg.value().empty() && "Double plus flag should have empty value.");
            BLT_ASSERT(arg.get_flag() == "++" && "Double plus value should match the input string.");
        }


        void run_all_tests_argument_string_t()
        {
            const hashset_t<char> prefixes = {'-', '+'};
            test_argument_string_t_flag_basic(prefixes);
            test_argument_string_t_long_flag(prefixes);
            test_argument_string_t_positional_argument(prefixes);
            test_argument_string_t_empty_input(prefixes);
            test_argument_string_t_single_hyphen(prefixes);
            test_argument_string_t_double_hyphen(prefixes);
            test_argument_string_t_with_spaces(prefixes);
            test_argument_string_t_numeric_flag(prefixes);
            test_argument_string_t_plus_flag_basic(prefixes);
            test_argument_string_t_single_plus(prefixes);
            test_argument_string_t_double_plus(prefixes);
        }

        void test()
        {
            run_all_tests_argument_string_t();
        }

        [[nodiscard]] std::string subparse_error::error_string() const
        {
            std::string message = "Subparser Error: ";
            message += m_found_string;
            message += " is not a valid command. Allowed commands are: {";
            for (const auto [i, allowed_string] : enumerate(m_allowed_strings))
            {
                if (allowed_string.size() > 1)
                    message += '[';
                for (const auto [j, alias] : enumerate(allowed_string))
                {
                    message += alias;
                    if (j < alias.size() - 2)
                        message += ", ";
                    else if (j < alias.size())
                        message += ", or ";
                }
                if (allowed_string.size() > 1)
                    message += ']';
                if (i != m_allowed_strings.size() - 1)
                    message += ' ';
            }
            message += "}";
            return message;
        }
    }

    argument_subparser_t& argument_parser_t::add_subparser(const std::string_view dest)
    {
        m_subparsers.emplace_back(dest, argument_subparser_t{*this});
        return m_subparsers.back().second;
    }

    argument_storage_t argument_parser_t::parse(argument_consumer_t& consumer)
    {
        hashset_t<std::string_view> found_flags;
        hashset_t<std::string_view> found_positional;
        argument_storage_t parsed_args;
        // first, we consume flags which may be part of this parser
        while (consumer.can_consume() && consumer.peek().is_flag())
        {
            const auto key = consumer.consume();
            const auto flag = m_flag_arguments.find(key.get_argument());
            if (flag == m_flag_arguments.end())
            {
                std::cerr << "Error: Unknown flag: " << key.get_argument() << std::endl;
                exit(1);
            }
            found_flags.insert(key.get_argument());
            parse_flag(parsed_args, consumer, key.get_argument());
        }
        try
        {
            for (auto& [key, subparser] : m_subparsers)
            {
                auto [parsed_subparser, storage] = subparser.parse(consumer);
                storage.m_data.insert({key, detail::arg_data_t{parsed_subparser.get_argument()}});
                parsed_args.add(storage);
            }
        }
        catch (const detail::missing_argument_error& e)
        {
            std::cerr << "Error: " << e.what() << std::endl;
            print_usage();
            exit(1);
        } catch (const detail::subparse_error& e)
        {
            std::cerr << e.error_string() << std::endl;
            exit(1);
        }
        while (consumer.can_consume())
        {
            const auto key = consumer.consume();
            if (key.is_flag())
            {
                const auto flag = m_flag_arguments.find(key.get_argument());
                if (flag == m_flag_arguments.end())
                {
                    std::cerr << "Error: Unknown flag: " << key.get_argument() << std::endl;
                    exit(1);
                }
                found_flags.insert(key.get_argument());
                parse_flag(parsed_args, consumer, key.get_argument());
            }
            else
            {
                const auto pos = m_positional_arguments.find(key.get_argument());
                if (pos == m_positional_arguments.end())
                {
                    std::cerr << "Error: Unknown positional argument: " << key.get_argument() << std::endl;
                    exit(1);
                }
                found_positional.insert(key.get_argument());
                parse_positional(parsed_args, consumer, key.get_argument());
            }
        }
        handle_missing_and_default_args(m_flag_arguments, found_flags, parsed_args, "flag");
        handle_missing_and_default_args(m_positional_arguments, found_positional, parsed_args, "positional");

        return parsed_args;
    }

    void argument_parser_t::print_help()
    {
    }

    void argument_parser_t::print_usage()
    {
    }

    void argument_parser_t::print_version()
    {
    }

    void argument_parser_t::parse_flag(argument_storage_t& parsed_args, argument_consumer_t& consumer, const std::string_view arg)
    {
        auto& flag = m_flag_arguments[arg];
        auto dest = flag->m_dest.value_or(arg);
        std::visit(lambda_visitor{
                       [&parsed_args, &consumer, &dest, &flag, arg](const nargs_t arg_enum)
                       {
                           switch (arg_enum)
                           {
                           case nargs_t::IF_POSSIBLE:
                               if (consumer.can_consume() && !consumer.peek().is_flag())
                                   flag->m_dest_func(dest, parsed_args, consumer.consume().get_argument());
                               else
                               {
                                   if (flag->m_const_value)
                                       parsed_args.m_data.insert({dest, *flag->m_const_value});
                               }
                               break;
                               [[fallthrough]] case nargs_t::ALL_AT_LEAST_ONE:
                               if (!consumer.can_consume())
                                   std::cerr << "Error expected at least one argument to be consumed by '" << arg << '\'' << std::endl;
                           case nargs_t::ALL:
                               std::vector<std::string_view> args;
                               while (consumer.can_consume() && !consumer.peek().is_flag())
                                   args.emplace_back(consumer.consume().get_argument());
                               flag->m_dest_vec_func(dest, parsed_args, args);
                               break;
                           }
                       },
                       [&parsed_args, &consumer, &dest, &flag, arg, this](const i32 argc)
                       {
                           std::vector<std::string_view> args;
                           for (i32 i = 0; i < argc; ++i)
                           {
                               if (!consumer.can_consume())
                               {
                                   std::cerr << "Error expected " << argc << " arguments to be consumed by '" << arg << "' but found " << i <<
                                       std::endl;
                                   std::exit(1);
                               }
                               if (consumer.peek().is_flag())
                               {
                                   std::cerr << "Error expected " << argc << " arguments to be consumed by '" << arg << "' but found a flag '" <<
                                       consumer.peek().get_argument() << "' instead!" << std::endl;
                                   std::exit(1);
                               }
                               args.push_back(consumer.consume().get_argument());
                           }
                           if (args.size() != argc)
                           {
                               std::cerr <<
                                   "This error condition should not be possible. "
                                   "Args consumed didn't equal the arguments requested and previous checks didn't fail. "
                                   "Please report as an issue on the GitHub"
                                   << std::endl;
                               std::exit(1);
                           }
                           if (argc == 0)
                           {
                           }
                           else if (argc == 1)
                           {
                               switch (flag->m_action)
                               {
                               case action_t::STORE:
                                   break;
                               case action_t::APPEND:
                               case action_t::EXTEND:
                                   {
                                       break;
                                   }
                               case action_t::APPEND_CONST:
                                   // if (parsed_args.contains(dest))
                                   // {
                                       // std::visit(detail::arg_meta_type_helper_t::make_lists_only_visitor(handle_insert), parsed_args.m_data[dest]);
                                   // }
                               case action_t::STORE_CONST:
                                   std::cerr << "Store const flag called with an argument. This condition doesn't make sense." << std::endl;
                                   print_usage();
                                   std::exit(1);
                               case action_t::STORE_TRUE:
                                   std::cerr << "Store true flag called with an argument. This condition doesn't make sense." << std::endl;
                                   print_usage();
                                   std::exit(1);
                               case action_t::STORE_FALSE:
                                   std::cerr << "Store false flag called with an argument. This condition doesn't make sense." << std::endl;
                                   print_usage();
                                   std::exit(1);
                               case action_t::COUNT:
                                   parsed_args.m_data.insert({dest, args.size()});
                                   break;
                               case action_t::HELP:
                                   print_help();
                                   std::exit(1);
                               case action_t::VERSION:
                                   print_version();
                                   break;
                               }
                               flag->m_dest_func(dest, parsed_args, args.front());
                           }
                           else
                               flag->m_dest_vec_func(dest, parsed_args, args);
                       }
                   }, flag->m_nargs);
    }

    void argument_parser_t::parse_positional(argument_storage_t& parsed_args, argument_consumer_t& consumer, const std::string_view arg)
    {
    }

    void argument_parser_t::handle_missing_and_default_args(hashmap_t<std::string_view, argument_builder_t*>& arguments,
                                                            const hashset_t<std::string_view>& found, argument_storage_t& parsed_args,
                                                            const std::string_view type)
    {
        for (const auto& [key, value] : arguments)
        {
            if (!found.contains(key))
            {
                if (value->m_required)
                {
                    std::cerr << "Error: " << type << " argument '" << key << "' was not found but is required by the program" << std::endl;
                    exit(1);
                }
                auto dest = value->m_dest.value_or(key);
                if (value->m_default_value && !parsed_args.contains(dest))
                    parsed_args.m_data.insert({dest, *value->m_default_value});
            }
        }
    }

    std::pair<argument_string_t, argument_storage_t> argument_subparser_t::parse(argument_consumer_t& consumer)
    {
        if (!consumer.can_consume())
            throw detail::missing_argument_error("Subparser requires an argument.");
        const auto key = consumer.consume();
        if (key.is_flag())
            throw detail::subparse_error(key.get_argument(), get_allowed_strings());
        const auto it = m_parsers.find(key.get_name());
        argument_parser_t* parser;
        if (it == m_parsers.end())
        {
            const auto it2 = m_aliases.find(key.get_name());
            if (it2 == m_aliases.end())
                throw detail::subparse_error(key.get_argument(), get_allowed_strings());
            parser = it2->second;
        }
        else
            parser = &it->second;
        parser->m_name = m_parent->m_name;
        return {key, parser->parse(consumer)};
    }

    std::vector<std::vector<std::string_view>> argument_subparser_t::get_allowed_strings() const
    {
        std::vector<std::vector<std::string_view>> vec;
        for (const auto& [key, value] : m_parsers)
        {
            std::vector<std::string_view> aliases;
            aliases.push_back(key);
            for (const auto& [alias, parser] : m_aliases)
            {
                if (parser == &value)
                    aliases.push_back(alias);
            }
            vec.emplace_back(std::move(aliases));
        }
        return vec;
    }
}
starting arge parse 2025-02-12 02:54:22 -05:00			`/*`
			`* <Short Description>`
			`* Copyright (C) 2025 Brett Terpstra`
			`*`
			`* This program is free software: you can redistribute it and/or modify`
			`* it under the terms of the GNU General Public License as published by`
			`* the Free Software Foundation, either version 3 of the License, or`
			`* (at your option) any later version.`
			`*`
			`* This program is distributed in the hope that it will be useful,`
			`* but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`* GNU General Public License for more details.`
			`*`
			`* You should have received a copy of the GNU General Public License`
			`* along with this program. If not, see <https://www.gnu.org/licenses/>.`
			`*/`
more argparse work 2025-02-13 17:47:27 -05:00			`#include <iostream>`
starting arge parse 2025-02-12 02:54:22 -05:00			`#include <blt/parse/argparse_v2.h>`
			`#include <blt/std/assert.h>`

			`namespace blt::argparse`
			`{`
gotta think of a way of handling the whole "templates are silly" thing 2025-02-17 01:47:42 -05:00
starting arge parse 2025-02-12 02:54:22 -05:00			`namespace detail`
			`{`
			`// Unit Tests for class argument_string_t`
			`// Test Case 1: Ensure the constructor handles flags correctly`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_flag_basic(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("-f", prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			`BLT_ASSERT(arg.is_flag() && "Expected argument to be identified as a flag.");`
Argparse v2 breaking change 2025-02-12 15:43:54 -05:00			`BLT_ASSERT(arg.value() == "f" && "Flag value should match the input string.");`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`

			`// Test Case 2: Ensure the constructor handles long flags correctly`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_long_flag(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("--file", prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			`BLT_ASSERT(arg.is_flag() && "Expected argument to be identified as a flag.");`
Argparse v2 breaking change 2025-02-12 15:43:54 -05:00			`BLT_ASSERT(arg.value() == "file" && "Long flag value should match the input string.");`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`

			`// Test Case 3: Ensure positional arguments are correctly identified`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_positional_argument(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("filename.txt", prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			`BLT_ASSERT(!arg.is_flag() && "Expected argument to be identified as positional.");`
			`BLT_ASSERT(arg.value() == "filename.txt" && "Positional argument value should match the input string.");`
			`}`

			`// Test Case 5: Handle an empty string`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_empty_input(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("", prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			`BLT_ASSERT(!arg.is_flag() && "Expected an empty input to be treated as positional, not a flag.");`
			`BLT_ASSERT(arg.value().empty() && "Empty input should have an empty value.");`
			`}`

			// Test Case 6: Handle edge case of a single hyphen (`-`) which might be ambiguous
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_single_hyphen(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("-", prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			BLT_ASSERT(arg.is_flag() && "Expected single hyphen (`-`) to be treated as a flag.");
Argparse v2 breaking change 2025-02-12 15:43:54 -05:00			`BLT_ASSERT(arg.value().empty() && "Single hyphen flag should have empty value.");`
			`BLT_ASSERT(arg.get_flag() == "-" && "Single hyphen flag should match the input string.");`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`

			`// Test Case 8: Handle arguments with prefix only (like "--")`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_double_hyphen(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("--", prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			`BLT_ASSERT(arg.is_flag() && "Double hyphen ('--') should be treated as a flag.");`
Argparse v2 breaking change 2025-02-12 15:43:54 -05:00			`BLT_ASSERT(arg.value().empty() && "Double hyphen flag should have empty value.");`
			`BLT_ASSERT(arg.get_flag() == "--" && "Double hyphen value should match the input string.");`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`

			`// Test Case 9: Validate edge case of an argument with spaces`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_with_spaces(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg(" ", prefixes);`
hi 2025-02-12 19:42:50 -05:00			`BLT_ASSERT(!arg.is_flag() && "Arguments with spaces should not be treated as flags.");`
			`BLT_ASSERT(arg.value() == " " && "Arguments with spaces should match the input string.");`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`

			`// Test Case 10: Validate arguments with numeric characters`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_numeric_flag(const hashset_t<char>& prefixes)`
starting arge parse 2025-02-12 02:54:22 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("-123", prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			`BLT_ASSERT(arg.is_flag() && "Numeric flags should still be treated as flags.");`
Argparse v2 breaking change 2025-02-12 15:43:54 -05:00			`BLT_ASSERT(arg.value() == "123" && "Numeric flag value should match the input string.");`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`

hi 2025-02-12 19:42:50 -05:00			`// Test Case 11: Ensure the constructor handles '+' flag correctly`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_plus_flag_basic(const hashset_t<char>& prefixes)`
hi 2025-02-12 19:42:50 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("+f", prefixes);`
hi 2025-02-12 19:42:50 -05:00			`BLT_ASSERT(arg.is_flag() && "Expected argument to be identified as a flag.");`
			`BLT_ASSERT(arg.value() == "f" && "Plus flag value should match the input string.");`
			`}`

			// Test Case 13: Handle edge case of a single plus (`+`) which might be ambiguous
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_single_plus(const hashset_t<char>& prefixes)`
hi 2025-02-12 19:42:50 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("+", prefixes);`
hi 2025-02-12 19:42:50 -05:00			BLT_ASSERT(arg.is_flag() && "Expected single plus (`+`) to be treated as a flag.");
			`BLT_ASSERT(arg.value().empty() && "Single plus flag should have empty value.");`
			`BLT_ASSERT(arg.get_flag() == "+" && "Single plus flag should match the input string.");`
			`}`

			`// Test Case 14: Handle arguments with prefix only (like '++')`
i am tired 2025-02-13 01:53:21 -05:00			`void test_argument_string_t_double_plus(const hashset_t<char>& prefixes)`
hi 2025-02-12 19:42:50 -05:00			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const argument_string_t arg("++", prefixes);`
hi 2025-02-12 19:42:50 -05:00			`BLT_ASSERT(arg.is_flag() && "Double plus ('++') should be treated as a flag.");`
			`BLT_ASSERT(arg.value().empty() && "Double plus flag should have empty value.");`
			`BLT_ASSERT(arg.get_flag() == "++" && "Double plus value should match the input string.");`
			`}`

more argparse work 2025-02-13 17:47:27 -05:00
starting arge parse 2025-02-12 02:54:22 -05:00			`void run_all_tests_argument_string_t()`
			`{`
i am tired 2025-02-13 01:53:21 -05:00			`const hashset_t<char> prefixes = {'-', '+'};`
			`test_argument_string_t_flag_basic(prefixes);`
			`test_argument_string_t_long_flag(prefixes);`
			`test_argument_string_t_positional_argument(prefixes);`
			`test_argument_string_t_empty_input(prefixes);`
			`test_argument_string_t_single_hyphen(prefixes);`
			`test_argument_string_t_double_hyphen(prefixes);`
			`test_argument_string_t_with_spaces(prefixes);`
			`test_argument_string_t_numeric_flag(prefixes);`
			`test_argument_string_t_plus_flag_basic(prefixes);`
			`test_argument_string_t_single_plus(prefixes);`
			`test_argument_string_t_double_plus(prefixes);`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`
hi 2025-02-12 19:42:50 -05:00
starting arge parse 2025-02-12 02:54:22 -05:00			`void test()`
			`{`
			`run_all_tests_argument_string_t();`
			`}`
good work on argparse 2025-02-16 23:22:00 -05:00
			`[[nodiscard]] std::string subparse_error::error_string() const`
			`{`
			`std::string message = "Subparser Error: ";`
			`message += m_found_string;`
			`message += " is not a valid command. Allowed commands are: {";`
			`for (const auto [i, allowed_string] : enumerate(m_allowed_strings))`
			`{`
			`if (allowed_string.size() > 1)`
			`message += '[';`
			`for (const auto [j, alias] : enumerate(allowed_string))`
			`{`
			`message += alias;`
			`if (j < alias.size() - 2)`
			`message += ", ";`
			`else if (j < alias.size())`
			`message += ", or ";`
			`}`
			`if (allowed_string.size() > 1)`
			`message += ']';`
			`if (i != m_allowed_strings.size() - 1)`
			`message += ' ';`
			`}`
			`message += "}";`
			`return message;`
			`}`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`
more argparse work 2025-02-13 17:47:27 -05:00
			`argument_subparser_t& argument_parser_t::add_subparser(const std::string_view dest)`
			`{`
			`m_subparsers.emplace_back(dest, argument_subparser_t{*this});`
			`return m_subparsers.back().second;`
			`}`

good work on argparse 2025-02-16 23:22:00 -05:00			`argument_storage_t argument_parser_t::parse(argument_consumer_t& consumer)`
more argparse work 2025-02-13 17:47:27 -05:00			`{`
good work on argparse 2025-02-16 23:22:00 -05:00			`hashset_t<std::string_view> found_flags;`
			`hashset_t<std::string_view> found_positional;`
			`argument_storage_t parsed_args;`
			`// first, we consume flags which may be part of this parser`
			`while (consumer.can_consume() && consumer.peek().is_flag())`
			`{`
			`const auto key = consumer.consume();`
			`const auto flag = m_flag_arguments.find(key.get_argument());`
			`if (flag == m_flag_arguments.end())`
			`{`
			`std::cerr << "Error: Unknown flag: " << key.get_argument() << std::endl;`
			`exit(1);`
			`}`
			`found_flags.insert(key.get_argument());`
			`parse_flag(parsed_args, consumer, key.get_argument());`
			`}`
			`try`
			`{`
			`for (auto& [key, subparser] : m_subparsers)`
			`{`
			`auto [parsed_subparser, storage] = subparser.parse(consumer);`
			`storage.m_data.insert({key, detail::arg_data_t{parsed_subparser.get_argument()}});`
			`parsed_args.add(storage);`
			`}`
			`}`
			`catch (const detail::missing_argument_error& e)`
			`{`
			`std::cerr << "Error: " << e.what() << std::endl;`
			`print_usage();`
			`exit(1);`
			`} catch (const detail::subparse_error& e)`
more argparse work 2025-02-13 17:47:27 -05:00			`{`
good work on argparse 2025-02-16 23:22:00 -05:00			`std::cerr << e.error_string() << std::endl;`
			`exit(1);`
			`}`
			`while (consumer.can_consume())`
			`{`
			`const auto key = consumer.consume();`
			`if (key.is_flag())`
more argparse work 2025-02-13 17:47:27 -05:00			`{`
good work on argparse 2025-02-16 23:22:00 -05:00			`const auto flag = m_flag_arguments.find(key.get_argument());`
			`if (flag == m_flag_arguments.end())`
			`{`
			`std::cerr << "Error: Unknown flag: " << key.get_argument() << std::endl;`
			`exit(1);`
			`}`
			`found_flags.insert(key.get_argument());`
			`parse_flag(parsed_args, consumer, key.get_argument());`
			`}`
			`else`
			`{`
			`const auto pos = m_positional_arguments.find(key.get_argument());`
			`if (pos == m_positional_arguments.end())`
			`{`
			`std::cerr << "Error: Unknown positional argument: " << key.get_argument() << std::endl;`
			`exit(1);`
			`}`
			`found_positional.insert(key.get_argument());`
			`parse_positional(parsed_args, consumer, key.get_argument());`
more argparse work 2025-02-13 17:47:27 -05:00			`}`
			`}`
good work on argparse 2025-02-16 23:22:00 -05:00			`handle_missing_and_default_args(m_flag_arguments, found_flags, parsed_args, "flag");`
			`handle_missing_and_default_args(m_positional_arguments, found_positional, parsed_args, "positional");`

			`return parsed_args;`
more argparse work 2025-02-13 17:47:27 -05:00			`}`

			`void argument_parser_t::print_help()`
			`{`
good work on argparse 2025-02-16 23:22:00 -05:00			`}`

			`void argument_parser_t::print_usage()`
			`{`
			`}`

gotta think of a way of handling the whole "templates are silly" thing 2025-02-17 01:47:42 -05:00			`void argument_parser_t::print_version()`
			`{`
			`}`

good work on argparse 2025-02-16 23:22:00 -05:00			`void argument_parser_t::parse_flag(argument_storage_t& parsed_args, argument_consumer_t& consumer, const std::string_view arg)`
			`{`
			`auto& flag = m_flag_arguments[arg];`
			`auto dest = flag->m_dest.value_or(arg);`
			`std::visit(lambda_visitor{`
			`[&parsed_args, &consumer, &dest, &flag, arg](const nargs_t arg_enum)`
			`{`
			`switch (arg_enum)`
			`{`
			`case nargs_t::IF_POSSIBLE:`
			`if (consumer.can_consume() && !consumer.peek().is_flag())`
			`flag->m_dest_func(dest, parsed_args, consumer.consume().get_argument());`
			`else`
			`{`
			`if (flag->m_const_value)`
			`parsed_args.m_data.insert({dest, *flag->m_const_value});`
			`}`
			`break;`
gotta think of a way of handling the whole "templates are silly" thing 2025-02-17 01:47:42 -05:00			`[[fallthrough]] case nargs_t::ALL_AT_LEAST_ONE:`
good work on argparse 2025-02-16 23:22:00 -05:00			`if (!consumer.can_consume())`
gotta think of a way of handling the whole "templates are silly" thing 2025-02-17 01:47:42 -05:00			`std::cerr << "Error expected at least one argument to be consumed by '" << arg << '\'' << std::endl;`
good work on argparse 2025-02-16 23:22:00 -05:00			`case nargs_t::ALL:`
			`std::vector<std::string_view> args;`
			`while (consumer.can_consume() && !consumer.peek().is_flag())`
			`args.emplace_back(consumer.consume().get_argument());`
			`flag->m_dest_vec_func(dest, parsed_args, args);`
			`break;`
			`}`
			`},`
gotta think of a way of handling the whole "templates are silly" thing 2025-02-17 01:47:42 -05:00			`[&parsed_args, &consumer, &dest, &flag, arg, this](const i32 argc)`
good work on argparse 2025-02-16 23:22:00 -05:00			`{`
gotta think of a way of handling the whole "templates are silly" thing 2025-02-17 01:47:42 -05:00			`std::vector<std::string_view> args;`
			`for (i32 i = 0; i < argc; ++i)`
			`{`
			`if (!consumer.can_consume())`
			`{`
			`std::cerr << "Error expected " << argc << " arguments to be consumed by '" << arg << "' but found " << i <<`
			`std::endl;`
			`std::exit(1);`
			`}`
			`if (consumer.peek().is_flag())`
			`{`
			`std::cerr << "Error expected " << argc << " arguments to be consumed by '" << arg << "' but found a flag '" <<`
			`consumer.peek().get_argument() << "' instead!" << std::endl;`
			`std::exit(1);`
			`}`
			`args.push_back(consumer.consume().get_argument());`
			`}`
			`if (args.size() != argc)`
			`{`
			`std::cerr <<`
			`"This error condition should not be possible. "`
			`"Args consumed didn't equal the arguments requested and previous checks didn't fail. "`
			`"Please report as an issue on the GitHub"`
			`<< std::endl;`
			`std::exit(1);`
			`}`
			`if (argc == 0)`
			`{`
			`}`
			`else if (argc == 1)`
			`{`
			`switch (flag->m_action)`
			`{`
			`case action_t::STORE:`
			`break;`
			`case action_t::APPEND:`
			`case action_t::EXTEND:`
			`{`
			`break;`
			`}`
			`case action_t::APPEND_CONST:`
			`// if (parsed_args.contains(dest))`
			`// {`
			`// std::visit(detail::arg_meta_type_helper_t::make_lists_only_visitor(handle_insert), parsed_args.m_data[dest]);`
			`// }`
			`case action_t::STORE_CONST:`
			`std::cerr << "Store const flag called with an argument. This condition doesn't make sense." << std::endl;`
			`print_usage();`
			`std::exit(1);`
			`case action_t::STORE_TRUE:`
			`std::cerr << "Store true flag called with an argument. This condition doesn't make sense." << std::endl;`
			`print_usage();`
			`std::exit(1);`
			`case action_t::STORE_FALSE:`
			`std::cerr << "Store false flag called with an argument. This condition doesn't make sense." << std::endl;`
			`print_usage();`
			`std::exit(1);`
			`case action_t::COUNT:`
			`parsed_args.m_data.insert({dest, args.size()});`
			`break;`
			`case action_t::HELP:`
			`print_help();`
			`std::exit(1);`
			`case action_t::VERSION:`
			`print_version();`
			`break;`
			`}`
			`flag->m_dest_func(dest, parsed_args, args.front());`
			`}`
			`else`
			`flag->m_dest_vec_func(dest, parsed_args, args);`
good work on argparse 2025-02-16 23:22:00 -05:00			`}`
			`}, flag->m_nargs);`
			`}`

			`void argument_parser_t::parse_positional(argument_storage_t& parsed_args, argument_consumer_t& consumer, const std::string_view arg)`
			`{`
			`}`
more argparse work 2025-02-13 17:47:27 -05:00
good work on argparse 2025-02-16 23:22:00 -05:00			`void argument_parser_t::handle_missing_and_default_args(hashmap_t<std::string_view, argument_builder_t*>& arguments,`
			`const hashset_t<std::string_view>& found, argument_storage_t& parsed_args,`
			`const std::string_view type)`
			`{`
			`for (const auto& [key, value] : arguments)`
			`{`
			`if (!found.contains(key))`
			`{`
			`if (value->m_required)`
			`{`
			`std::cerr << "Error: " << type << " argument '" << key << "' was not found but is required by the program" << std::endl;`
			`exit(1);`
			`}`
			`auto dest = value->m_dest.value_or(key);`
			`if (value->m_default_value && !parsed_args.contains(dest))`
			`parsed_args.m_data.insert({dest, *value->m_default_value});`
			`}`
			`}`
more argparse work 2025-02-13 17:47:27 -05:00			`}`

good work on argparse 2025-02-16 23:22:00 -05:00			`std::pair<argument_string_t, argument_storage_t> argument_subparser_t::parse(argument_consumer_t& consumer)`
more argparse work 2025-02-13 17:47:27 -05:00			`{`
good work on argparse 2025-02-16 23:22:00 -05:00			`if (!consumer.can_consume())`
more argparse work 2025-02-13 17:47:27 -05:00			`throw detail::missing_argument_error("Subparser requires an argument.");`
			`const auto key = consumer.consume();`
			`if (key.is_flag())`
			`throw detail::subparse_error(key.get_argument(), get_allowed_strings());`
			`const auto it = m_parsers.find(key.get_name());`
good work on argparse 2025-02-16 23:22:00 -05:00			`argument_parser_t* parser;`
more argparse work 2025-02-13 17:47:27 -05:00			`if (it == m_parsers.end())`
			`{`
			`const auto it2 = m_aliases.find(key.get_name());`
			`if (it2 == m_aliases.end())`
			`throw detail::subparse_error(key.get_argument(), get_allowed_strings());`
good work on argparse 2025-02-16 23:22:00 -05:00			`parser = it2->second;`
more argparse work 2025-02-13 17:47:27 -05:00			`}`
good work on argparse 2025-02-16 23:22:00 -05:00			`else`
			`parser = &it->second;`
			`parser->m_name = m_parent->m_name;`
			`return {key, parser->parse(consumer)};`
more argparse work 2025-02-13 17:47:27 -05:00			`}`

			`std::vector<std::vector<std::string_view>> argument_subparser_t::get_allowed_strings() const`
			`{`
			`std::vector<std::vector<std::string_view>> vec;`
			`for (const auto& [key, value] : m_parsers)`
			`{`
			`std::vector<std::string_view> aliases;`
			`aliases.push_back(key);`
			`for (const auto& [alias, parser] : m_aliases)`
			`{`
			`if (parser == &value)`
			`aliases.push_back(alias);`
			`}`
			`vec.emplace_back(std::move(aliases));`
			`}`
			`return vec;`
			`}`
starting arge parse 2025-02-12 02:54:22 -05:00			`}`