#pragma once #include #include #include #include #ifdef GP_TESTS class static_mapper; #else namespace gp { class c_allocator; } #endif /** * @brief This namespace contains the configuration. * * This namespace is expected to be fully defined in an include accessible from the root * of your header list: * \code{.cpp} * #include "gp_config.hpp" * \endcode * * The code line above should always be the one including that config and that namespace. */ namespace gp_config{ namespace rendering { /** * @brief The default type used for rendering processes */ using default_type = float; /** * @brief The small enough value used in signed distance function resolution */ constexpr default_type epsilon = 0.01; /** * @brief The default color type */ #define GP_CONFIG__RENDERING__COLOR_T vec4 } /** * @brief This namespace contains artificial limitations put on the runtime */ namespace limits { /** * @brief the total number of processes the system is allowed to have */ constexpr size_t max_processes = 4096; /** * @brief the maximum size a channel can address */ constexpr size_t channel_max_size = 1 << 20; /** * @brief the default size a channel will take */ constexpr size_t channel_default_size = 1 << 16; /** * @brief the number of open files each process is allowed to have */ constexpr size_t max_fd_per_process = 128; /** * @brief the stack size for the new stacks generated by the concurrency system */ constexpr size_t process_stack = 1024; /** * @brief expected stack alignment */ constexpr size_t process_stack_align_to = 16; /** * @brief presents the direction of stack growth */ constexpr size_t stack_grow_upwards = false; #if __cpp_lib_hardware_interference_size >= 201603 constexpr size_t hardware_constructive_interference_size = std::hardware_constructive_interference_size; constexpr size_t hardware_destructive_interference_size = std::hardware_destructive_interference_size; #else constexpr size_t hardware_constructive_interference_size = 128; constexpr size_t hardware_destructive_interference_size = 128; #endif constexpr size_t loggers_segment_size = 128; } namespace memory_module{ constexpr bool is_ok = true; constexpr bool prefer_constant_memory = true; } typedef uint32_t file_descriptor_t; /** * @brief set to true to enable exceptions */ constexpr bool has_exceptions = false; /** * @brief set to true to activate bounds checking */ constexpr bool has_buffer_bounds = true; // // // /** * @brief A value used to determine the strength used by random number generators * * Value of 8 is considered not cryptographically secure * Value of 12 offers a good compromise of performance and robustness * Value of 20 offers maximum robustness */ constexpr size_t arc4random_strength = 20; /** * @brief an exception that represents an assertion failure */ struct assert_failure{ assert_failure(const char* reason) : what_str{reason} {} const char* what_str; const char* what() {return what_str;} }; /** * @brief UNUSED */ constexpr size_t assert_buffer_size = 0; /** * @brief an assertion function */ constexpr auto assertion = [](bool pred, const char* reason) -> void{ if(!pred) { //log_failure(reason); if constexpr (has_exceptions) throw assert_failure(reason); } }; enum class cbor_tag { datetime = 0, unix_time = 1, ubignum = 2, nbignum = 3, decimal = 4, bigfloat = 5, cose_encrypt0 = 16, cose_mac0 = 17, cose_sign1 = 18, expected_base64url = 21, expected_base64 = 22, expected_base16 = 23, encoded_cbor = 24, url = 32, base64url = 33, base64 = 34, regexp = 35, mime = 36, cose_encrypt = 96, cose_mac = 97, cose_sign = 98, signature = 55799 }; } /** * @brief a list of error codes */ enum class gp_errorcodes : int { /** * @brief this error code is activated upon reaching a skipstone limit that seems like infinity. */ infinite_skipstone = 3000 };