vcpkg/toolsrc/include/vcpkg_Commands.h

163 lines
5.1 KiB
C++

#pragma once
#include "vcpkg_cmd_arguments.h"
#include "vcpkg_paths.h"
#include "StatusParagraphs.h"
#include <array>
namespace vcpkg::Commands
{
using command_type_a = void(*)(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths, const triplet& default_target_triplet);
using command_type_b = void(*)(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
using command_type_c = void(*)(const vcpkg_cmd_arguments& args);
namespace Build
{
enum class BuildResult
{
NULLVALUE = 0,
SUCCEEDED,
BUILD_FAILED,
POST_BUILD_CHECKS_FAILED,
CASCADED_DUE_TO_MISSING_DEPENDENCIES
};
static constexpr std::array<BuildResult, 4> BuildResult_values = { BuildResult::SUCCEEDED, BuildResult::BUILD_FAILED, BuildResult::POST_BUILD_CHECKS_FAILED, BuildResult::CASCADED_DUE_TO_MISSING_DEPENDENCIES };
const std::string& to_string(const BuildResult build_result);
std::string create_error_message(const BuildResult build_result, const package_spec& spec);
std::string create_user_troubleshooting_message(const package_spec& spec);
BuildResult build_package(const SourceParagraph& source_paragraph, const package_spec& spec, const vcpkg_paths& paths, const fs::path& port_dir, const StatusParagraphs& status_db);
void perform_and_exit(const package_spec& spec, const fs::path& port_dir, const std::unordered_set<std::string>& options, const vcpkg_paths& paths);
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths, const triplet& default_target_triplet);
}
namespace BuildExternal
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths, const triplet& default_target_triplet);
}
namespace Install
{
void install_package(const vcpkg_paths& paths, const BinaryParagraph& binary_paragraph, StatusParagraphs* status_db);
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths, const triplet& default_target_triplet);
}
namespace CI
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths, const triplet& default_target_triplet);
}
namespace Remove
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths, const triplet& default_target_triplet);
}
namespace Update
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Create
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Edit
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Search
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace List
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Import
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Owns
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Cache
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Integrate
{
extern const char*const INTEGRATE_COMMAND_HELPSTRING;
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace PortsDiff
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
}
namespace Help
{
void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths);
void help_topic_valid_triplet(const vcpkg_paths& paths);
void print_usage();
void print_example(const std::string& command_and_arguments);
std::string create_example_string(const std::string& command_and_arguments);
}
namespace Version
{
void perform_and_exit(const vcpkg_cmd_arguments& args);
}
namespace Contact
{
void perform_and_exit(const vcpkg_cmd_arguments& args);
}
namespace Hash
{
void perform_and_exit(const vcpkg_cmd_arguments& args);
}
template <class T>
struct package_name_and_function
{
std::string name;
T function;
};
const std::vector<package_name_and_function<command_type_a>>& get_available_commands_type_a();
const std::vector<package_name_and_function<command_type_b>>& get_available_commands_type_b();
const std::vector<package_name_and_function<command_type_c>>& get_available_commands_type_c();
template <typename T>
T find(const std::string& command_name, const std::vector<package_name_and_function<T>> available_commands)
{
for (const package_name_and_function<T>& cmd : available_commands)
{
if (cmd.name == command_name)
{
return cmd.function;
}
}
// not found
return nullptr;
}
}