/* * Copyright (c) 2023 : Ognjen 'xolatile' Milan Robovic * * Xtandard is free software! You will redistribute it or modify it under the terms of the GNU General Public License by Free Software Foundation. * And when you do redistribute it or modify it, it will use either version 3 of the License, or (at yours truly opinion) any later version. * It is distributed in the hope that it will be useful or harmful, it really depends... But no warranty what so ever, seriously. See GNU/GPLv3. */ #ifndef XTANDARD_SOURCE #define XTANDARD_SOURCE #include char * program_name = NULL; char * program_mode = NULL; char * program_license = NULL; char * log_notify = NULL; int argument_count = 0; char * * argument_nick = NULL; char * * argument_name = NULL; char * argument_input = NULL; char * argument_output = NULL; void (* * argument_function) (void) = NULL; int file_list_active = 0; int file_list_count = 0; int * file_list_mark = NULL; int * file_list_size = NULL; char * * file_list_name = NULL; char * * file_list_data = NULL; void in (void * data, int size) { fatal_failure (data == NULL, "in: Failed to read from standard input, data is null pointer."); fatal_failure (size == 0, "in: Failed to read from standard input, size is zero."); (void) read (STDIN_FILENO, data, (unsigned long int) size); } void out (void * data, int size) { fatal_failure (data == NULL, "out: Failed to write to standard output, data is null pointer."); fatal_failure (size == 0, "out: Failed to write to standard output, size is zero."); (void) write (STDOUT_FILENO, data, (unsigned long int) size); } void log_in (int type, int flag, char * data) { int start; char * type_mark [LOG_COUNT] = { "[\033[1;32mSuccess\033[0m] ", "[\033[1;33mWarning\033[0m] ", "[\033[1;31mFailure\033[0m] ", "[\033[1;30mComment\033[0m] " }; if ((flag == 0) || (type <= -1) || (type >= LOG_COUNT)) { return; } start = string_length (log_notify); log_notify = reallocate (log_notify, start + string_length (type_mark [type]) + string_length (data) + 2); log_notify [start] = '\0'; string_concatenate (log_notify, type_mark [type]); string_concatenate (log_notify, data); string_concatenate (log_notify, "\n"); } void log_out (void) { echo (log_notify); log_notify = deallocate (log_notify); } void echo (char * data) { if (data == NULL) { return; } out (data, string_length (data)); } void echo_byte (int byte) { out ("0123456789ABCDEF" + (byte % 256) / 16, 1); out ("0123456789ABCDEF" + (byte % 256) % 16, 1); out (" ", 1); } void fatal_failure (int condition, char * message) { if (condition != 0) { echo ("[\033[1;31mExiting\033[0m] "); echo (message); echo ("\n"); exit (EXIT_FAILURE); } } void limit (int * value, int minimum, int maximum) { if (value == NULL) { return; } if (* value <= minimum) { * value = minimum; } if (* value >= maximum) { * value = maximum; } } void * allocate (int size) { char * data = NULL; if (size <= 0) { return (NULL); } data = calloc ((unsigned long int) size, sizeof (* data)); fatal_failure (data == NULL, "standard : allocate : Failed to allocate memory, internal function 'calloc' returned null pointer."); return ((void *) data); } void * reallocate (void * data, int size) { if (size <= 0) { return (data); } data = realloc (data, (unsigned long int) size); fatal_failure (data == NULL, "standard : reallocate: Failed to reallocate memory, internal function 'realloc' returned null pointer."); /* Set new data to 0. */ return (data); } void * deallocate (void * data) { if (data != NULL) { free (data); } return (NULL); } void * memorize (int size) { /* I broke this for testing something out... */ static char * buffer = NULL; char * points = NULL; static int length = 0; static int chunks = 0; static int loling = 1024; if (size == 0) { free (buffer); buffer = NULL; length = 0; chunks = 0; return (NULL); } for (; length + size > chunks * loling; ) { int i; ++chunks; buffer = realloc (buffer, (unsigned long int) (chunks * loling)); fatal_failure (buffer == NULL, "memorize: Oh no..."); for (i = (chunks - 1) * loling; i != chunks * loling; ++i) { buffer [i] = '\0'; } } points = & buffer [length]; length += size; return ((void *) points); } void * record (void) { char * buffer = NULL; int offset = 0; int loling = 1024; buffer = reallocate (buffer, loling); do { if ((offset + 1) % loling == 0) { buffer = reallocate (buffer, ((offset + 1) / loling + 1) * loling); } buffer [offset] = '\0'; in (& buffer [offset], sizeof (* buffer)); ++offset; } while (buffer [offset - 1] != '\0'); buffer [offset - 1] = '\0'; return (buffer); } void argument_define (char * nick, char * name, void (* function) (void)) { fatal_failure (nick == NULL, "argument_define: Failed to define an argument, nick is null pointer."); fatal_failure (name == NULL, "argument_define: Failed to define an argument, name is null pointer."); fatal_failure (function == NULL, "argument_define: Failed to define an argument, function is null pointer."); ++argument_count; argument_nick = reallocate (argument_nick, argument_count * (int) sizeof (* argument_nick)); argument_name = reallocate (argument_name, argument_count * (int) sizeof (* argument_name)); argument_function = reallocate (argument_function, argument_count * (int) sizeof (* argument_function)); argument_nick [argument_count - 1] = allocate (string_length (nick) + 1); argument_name [argument_count - 1] = allocate (string_length (name) + 1); string_copy (argument_nick [argument_count - 1], nick); string_copy (argument_name [argument_count - 1], name); argument_function [argument_count - 1] = function; } void argument_select (int count, char * * array) { int index_a = 0; int index_b = 0; if ((count == 1) || (array == NULL)) { return; } for (index_a = 1; index_a != count; ++index_a) { for (index_b = 0; index_b != argument_count; ++index_b) { if ((string_compare (array [index_a], "-h") != 0) || (string_compare (array [index_a], "--help") != 0)) { for (index_b = 0; index_b != argument_count; ++index_b) { echo ("\t"); echo (argument_nick [index_b]); echo (" "); echo (argument_name [index_b]); echo ("\n"); } } else if ((string_compare (array [index_a], "-i") != 0) || (string_compare (array [index_a], "--input") != 0)) { ++index_a; argument_input = array [index_a]; break; } else if ((string_compare (array [index_a], "-o") != 0) || (string_compare (array [index_a], "--output") != 0)) { ++index_a; argument_output = array [index_a]; break; } else if ((string_compare (array [index_a], argument_nick [index_b]) != 0) || (string_compare (array [index_a], argument_name [index_b]) != 0)) { argument_function [index_b] (); break; } } } } void argument_delete (void) { int index; for (index = 0; index != argument_count; ++index) { argument_nick [index] = deallocate (argument_nick [index]); argument_name [index] = deallocate (argument_name [index]); } argument_nick = deallocate (argument_nick); argument_name = deallocate (argument_name); argument_function = deallocate (argument_function); } int file_open (char * name, int mode) { int descriptor = -1; fatal_failure (name == NULL, "file_open: Failed to open file, name is null pointer."); descriptor = open (name, mode); fatal_failure (descriptor == -1, "file_open: Failed to open file, function open returned invalid descriptor."); return (descriptor); } int file_close (int file) { fatal_failure (file == -1, "file_close: Failed to close file, invalid file descriptor."); fatal_failure (close (file) == -1, "file_close: Failed to close file, function close returned invalid code."); return (-1); } void file_read (int file, void * data, int size) { fatal_failure (file == -1, "file_read: Failed to read from file, invalid descriptor."); fatal_failure (data == NULL, "file_read: Failed to read from file, data is null pointer."); fatal_failure (size == 0, "file_read: Failed to read from file, size is zero."); (void) read (file, data, (unsigned long int) size); } void file_write (int file, void * data, int size) { fatal_failure (file == -1, "file_write: Failed to write to file, invalid descriptor."); fatal_failure (data == NULL, "file_write: Failed to write to file, data is null pointer."); fatal_failure (size == 0, "file_write: Failed to write to file, size is zero."); (void) write (file, data, (unsigned long int) size); } int file_seek (int file, int whence) { fatal_failure (file == -1, "file_seek: Failed to seek in file, invalid descriptor."); return ((int) lseek (file, 0, whence)); } int file_size (int file) { int size = 0; fatal_failure (file == -1, "file_size: Failed to get size of file, invalid descriptor."); size = lseek (file, 0, SEEK_END); (void) lseek (file, 0, SEEK_SET); fatal_failure (size == -1, "file_size: Failed to get size of file, invalid file size."); return (size); } int file_type (char * name) { char * file_type_data [FILE_TYPE_COUNT] = { ".txt", ".s", ".fasm", ".gasm", ".nasm", ".yasm", ".c", ".h", ".adb", ".ads", ".cpp", ".hpp" }; int type = 0; while (* name != '.') { ++name; } for (type = 0; type != FILE_TYPE_COUNT; ++type) { if (string_compare (name, file_type_data [type]) != 0) { return (type); } } return (-1); } char * file_import (char * name) { int file = -1; int size = -1; char * data = NULL; fatal_failure (name == NULL, "file_import: Failed to import file, name is null pointer."); fatal_failure (data != NULL, "file_import: Failed to import file, data is not null pointer."); file = file_open (name, O_RDONLY); size = file_size (file) + 1; data = allocate (size); file_read (file, data, size - 1); data [size - 1] = '\0'; file = file_close (file); return (data); } void file_export (char * name, void * data) { (void) name; (void) data; } void file_list_import (char * name) { fatal_failure (name == NULL, "file_list_import: Failed to import file, name is null pointer."); ++file_list_count; file_list_active = file_list_count - 1; file_list_mark = reallocate (file_list_mark, (int) sizeof (* file_list_mark) * file_list_count); file_list_size = reallocate (file_list_size, (int) sizeof (* file_list_size) * file_list_count); file_list_name = reallocate (file_list_name, (int) sizeof (* file_list_name) * file_list_count); file_list_data = reallocate (file_list_data, (int) sizeof (* file_list_data) * file_list_count); file_list_mark [file_list_count - 1] = -1; file_list_size [file_list_count - 1] = -1; file_list_name [file_list_count - 1] = NULL; file_list_data [file_list_count - 1] = NULL; file_list_name [file_list_count - 1] = allocate (string_length (name) + 1); (void) string_copy_limit (file_list_name [file_list_count - 1], name, string_length (name) + 1); file_list_mark [file_list_count - 1] = open (name, O_RDONLY); fatal_failure (file_list_mark [file_list_count - 1] == -1, "file_list_import: Failed to open file, function open returned invalid descriptor."); file_list_size [file_list_count - 1] = (int) lseek (file_list_mark [file_list_count - 1], 0, SEEK_END) + 1; (void) lseek (file_list_mark [file_list_count - 1], 0, SEEK_SET); file_list_data [file_list_count - 1] = allocate (file_list_size [file_list_count - 1]); (void) read (file_list_mark [file_list_count - 1], file_list_data [file_list_count - 1], (unsigned long int) (file_list_size [file_list_count - 1] - 1)); close (file_list_mark [file_list_count - 1]); file_list_data [file_list_count - 1] [file_list_size [file_list_count - 1] - 1] = '\0'; } void file_list_export (char * name) { fatal_failure (name == NULL, "file_list_export: Failed to export file, name is null pointer."); file_list_mark [file_list_active] = open (name, O_WRONLY | O_CREAT | O_TRUNC); (void) write (file_list_mark [file_list_active], file_list_data [file_list_active], (unsigned long int) file_list_size [file_list_active]); close (file_list_mark [file_list_active]); } void file_list_delete (void) { int i; for (i = 0; i != file_list_count; ++i) { file_list_name [i] = deallocate (file_list_name [i]); file_list_data [i] = deallocate (file_list_data [i]); } file_list_mark = deallocate (file_list_mark); file_list_size = deallocate (file_list_size); file_list_name = deallocate (file_list_name); file_list_data = deallocate (file_list_data); } int character_is_uppercase (char character) { return ((int) ((character >= 'A') && (character <= 'Z'))); } int character_is_lowercase (char character) { return ((int) ((character >= 'a') && (character <= 'z'))); } int character_is_digit (char character) { return ((int) ((character >= '0') && (character <= '9'))); } int character_is_blank (char character) { return ((int) ((character == ' ') || (character == '\t') || (character == '\r') || (character == '\n'))); } int character_is_alpha (char character) { return ((character_is_uppercase (character) != 0) || (character_is_lowercase (character) != 0)); } int character_is_symbol (char character) { char * symbols = "~!@#$%^&*()+{}|:\"<>?`-=[]\\;',./"; return (character_compare_array (character, symbols)); } int character_is_visible (char character) { return ((int) ((character >= ' ') && (character <= '~'))); } int character_is_invisible (char character) { return (character_is_visible (character) == 0); } int character_is_escape (char character) { return ((int) (character == '\033')); } int character_is_underscore (char character) { return ((int) (character == '_')); } int character_is_hexadecimal (char character) { char * hexadecimals = "0123456789ABCDEF"; return (character_compare_array (character, hexadecimals)); } int character_compare_array (char character, char * character_array) { int i = 0; do { if (character == character_array [i]) { return (1); } } while (++i != string_length (character_array)); return (0); } int string_length (char * string) { int length = 0; if (string == NULL) { return (0); } for (length = 0; string [length] != '\0'; ++length); return (length); } void string_reverse (char * string) { int i = 0; int length = 0; fatal_failure (string == NULL, "string_reverse: String is null pointer."); length = string_length (string); for (i = 0; string [i] != '\0'; ++i) { string [i] = string [length - i]; } } void string_delete (char * string, int length) { int i; if ((string == NULL) || (length <= 0)) { return; } for (i = 0; i != length; ++i) { string [i] = '\0'; } } int string_compare (char * string_0, char * string_1) { int i = 0; fatal_failure (string_0 == NULL, "string_compare: Destination string is null pointer."); fatal_failure (string_1 == NULL, "string_compare: Source string is null pointer."); for (i = 0; (string_0 [i] != '\0') && (string_1 [i] != '\0'); ++i) { if (string_0 [i] != string_1 [i]) { return (0); } } return (1); } void string_copy (char * string_0, char * string_1) { int i = 0; fatal_failure (string_0 == NULL, "string_copy: Destination string is null pointer."); fatal_failure (string_1 == NULL, "string_copy: Source string is null pointer."); for (i = 0; i != string_length (string_1) + 1; ++i) { string_0 [i] = string_1 [i]; } } void string_concatenate (char * string_0, char * string_1) { fatal_failure (string_0 == NULL, "string_concatenate: Destination string is null pointer."); fatal_failure (string_1 == NULL, "string_concatenate: Source string is null pointer."); string_0 += string_length (string_0); while (* string_1 != '\0') { * string_0++ = * string_1++; /*++string_0; ++string_1;*/ } * string_0 = '\0'; } int string_compare_limit (char * string_0, char * string_1, int limit) { int i = 0; fatal_failure (string_0 == NULL, "string_compare_limit: Destination string is null pointer."); fatal_failure (string_1 == NULL, "string_compare_limit: Source string is null pointer."); for (i = 0; i != limit; ++i) { if (string_0 [i] != string_1 [i]) { return (0); } } return (1); } void string_copy_limit (char * string_0, char * string_1, int limit) { int i = 0; fatal_failure (string_0 == NULL, "string_copy_limit: Destination string is null pointer."); fatal_failure (string_1 == NULL, "string_copy_limit: Source string is null pointer."); if (limit <= 0) { return; } for (i = 0; i != limit; ++i) { string_0 [i] = string_1 [i]; } } void string_concatenate_limit (char * string_0, char * string_1, int limit) { int i = 0; int length_0 = 0; int length_1 = 0; fatal_failure (string_0 == NULL, "string_concatenate_limit: Destination string is null pointer."); fatal_failure (string_1 == NULL, "string_concatenate_limit: Source string is null pointer."); if (limit <= 0) { return; } length_0 = string_length (string_0); length_1 = string_length (string_1); for (i = 0; (i != length_1) && (i != limit); ++i) { string_0 [length_0 + i] = string_1 [i]; } } int string_split_space (char * string) { int i = 0; int count = 0; fatal_failure (string == NULL, "string_split_space: Source string is null pointer."); for (i = 0; string [i] != '\0'; ++i) { if ((string [i] == ' ') || (string [i] == '\t') || (string [i] == '\n')) { string [i] = '\0'; ++count; } } return (++count); } void memory_delete (void * memory, int length) { int i = 0; char * cast = (char *) memory; fatal_failure (memory == NULL, "memory_delete: Memory is null pointer."); if (length <= 0) { return; } for (i = 0; i != length; ++i) { cast [i] = '\0'; } } int memory_compare (void * memory, void * source, int length) { int i = 0; char * cast_0 = (char *) memory; char * cast_1 = (char *) source; fatal_failure (memory == NULL, "memory_compare: Memory is null pointer."); fatal_failure (source == NULL, "memory_compare: Source is null pointer."); if (length <= 0) { return (-1); } for (i = 0; (cast_0 [i] != '\0') && (cast_1 [i] != '\0'); ++i) { if (cast_0 [i] != cast_1 [i]) { return (0); } } return (1); } void memory_copy (void * memory, void * source, int length) { int i = 0; char * cast_0 = (char *) memory; char * cast_1 = (char *) source; fatal_failure (memory == NULL, "memory_copy: Memory is null pointer."); fatal_failure (source == NULL, "memory_copy: Source is null pointer."); if (length <= 0) { return; } for (i = 0; i != length; ++i) { cast_0 [i] = cast_1 [i]; } } void terminal_clear (void) { echo ("\033[2J\033[H"); } void terminal_colour (int colour, int effect) { char format [8] = "\033[ ;3 m"; format [2] = (char) (effect % EFFECT_COUNT) + '0'; format [5] = (char) (colour % COLOUR_COUNT) + '0'; echo (format); } void terminal_cancel (void) { echo ("\033[0m"); } void terminal_show_cursor (int show) { if (show != 0) { echo ("\033[?25h"); } else { echo ("\033[?25l"); } } int encode_byte (char * byte) { int encode = 0; fatal_failure (character_is_hexadecimal (byte [0]) == 0, "encode_byte: Upper byte character is not hexadecimal digit."); fatal_failure (character_is_hexadecimal (byte [1]) == 0, "encode_byte: Lower byte character is not hexadecimal digit."); encode = ((byte [0] - (character_is_digit (byte [0]) ? ('0') : ('A' - 10))) << 4) | (byte [1] - (character_is_digit (byte [1]) ? ('0') : ('A' - 10))); return (encode); } char * decode_byte (int byte) { char * decode = " "; fatal_failure ((byte <= -1) || (byte >= 256), "decode_byte: Byte is out of range."); decode [0] = byte / 16; decode [1] = byte % 16; return (decode); } #endif