From df0d6a4503a26508553510b4050eaa79f52e4e4e Mon Sep 17 00:00:00 2001 From: Aleksey Veresov Date: Sun, 18 Oct 2020 18:22:31 +0300 Subject: Another step to release. --- enki/smack.c | 579 --------------------------------------------------- enki/strans.c | 652 ---------------------------------------------------------- 2 files changed, 1231 deletions(-) delete mode 100644 enki/smack.c delete mode 100644 enki/strans.c (limited to 'enki') diff --git a/enki/smack.c b/enki/smack.c deleted file mode 100644 index f6f9f30..0000000 --- a/enki/smack.c +++ /dev/null @@ -1,579 +0,0 @@ -/* - Simple Macro Generator - created by exegete -*/ - -#include -#include -#include - -struct macro -{ - const char *lexem; - unsigned long long param_count; - const char *text; - struct macro *next; -}; - -struct macro_parameter -{ - char *lexem; - struct macro_parameter *next; -}; - -struct input_stream -{ - FILE *fd; - const struct macro *macro; - unsigned long long text_offset; - struct macro_parameter *param_list; - struct input_stream *next; -}; - -struct module -{ - const char *file_name; - struct module *next; -}; - -#define ERROR_STATUS_ARG 1 -#define ERROR_STATUS_OPEN 2 -#define ERROR_STATUS_CHDIR 3 -#define ERROR_STATUS_MALLOC 4 -#define ERROR_STATUS_EMPTY_STREAM_LIST 5 -#define ERROR_STATUS_INVALID_STREAM 6 -#define ERROR_STATUS_INVALID_MACRO 7 -#define ERROR_STATUS_INVALID_PARAMETER 8 -#define ERROR_STATUS_INVALID_CALL 9 -#define ERROR_STATUS_INVALID_INCLUDE 10 -#define ERROR_STATUS_INVALID_SHIELD 11 - -const char *error_msgs[] = -{ - "Please, specify input file", - "Unable to open file: ", - "Unable to change working directory: ", - "Unable to allocate memory", - "Input stream list is empty", - "Input stream is invalid", - "Macro definition is invalid", - "Macro parameter is invalid", - "Macro call is invalid", - "Invalid include/module argument", - "Invalid '#' argument" -}; - -void exit_error(int status, const char *msg) -{ - if(msg) - fprintf(stderr, "Error: %s%s\n", error_msgs[status - 1], msg); - else - fprintf(stderr, "Error: %s\n", error_msgs[status - 1]); - exit(status); -} - -void add_input_stream(struct input_stream **stream_list, - FILE *fd, const struct macro *macro) -{ - struct input_stream *head = *stream_list; - *stream_list = malloc(sizeof(struct input_stream)); - if(!*stream_list) - exit_error(ERROR_STATUS_MALLOC, NULL); - (*stream_list)->fd = fd; - (*stream_list)->macro = macro; - (*stream_list)->text_offset = 0; - (*stream_list)->param_list = NULL; - (*stream_list)->next = head; -} - -int delete_input_stream(struct input_stream **stream_list) -{ - struct input_stream *head = *stream_list; - if(!head) - exit_error(ERROR_STATUS_EMPTY_STREAM_LIST, NULL); - *stream_list = (*stream_list)->next; - if(head->fd) - fclose(head->fd); - while(head->param_list) - { - struct macro_parameter *param_head = head->param_list; - head->param_list = param_head->next; - free(param_head->lexem); - free(param_head); - } - free(head); - return *stream_list != NULL; -} - -void add_input_stream_parameter(struct input_stream *stream_list, char *lexem) -{ - struct macro_parameter **param = &stream_list->param_list; - while(*param) - param = &(*param)->next; - *param = malloc(sizeof(struct macro_parameter)); - if(!*param) - exit_error(ERROR_STATUS_MALLOC, NULL); - (*param)->lexem = lexem; - (*param)->next = NULL; -} - -const char *get_input_stream_parameter(struct input_stream *stream_list, - unsigned long long chosen) -{ - struct macro_parameter *param = stream_list->param_list; - if(!chosen) - return stream_list->macro->lexem; - chosen--; - for(; param && chosen > 0; chosen--) - param = param->next; - if(!param) - exit_error(ERROR_STATUS_INVALID_CALL, NULL); - return param->lexem; -} - -#define BUFFER_INITIAL_SIZE 4 - -int double_buffer(char **buffer, unsigned long long *buffer_size) -{ - char *tmp_pointer = *buffer; - unsigned long long tmp_size = *buffer_size; - - if(*buffer_size == 0) - *buffer_size = BUFFER_INITIAL_SIZE; - else - *buffer_size *= 2; - - *buffer = malloc(*buffer_size); - if(!*buffer) - return 0; - - for(; tmp_size > 0; tmp_size--) - (*buffer)[tmp_size - 1] = tmp_pointer[tmp_size - 1]; - - free(tmp_pointer); - return 1; -} - -int read_symb_from_text(struct input_stream *stream_list) -{ - char symb; - if(!stream_list->macro) - exit_error(ERROR_STATUS_INVALID_STREAM, NULL); - if(!stream_list->macro->text) - exit_error(ERROR_STATUS_INVALID_STREAM, NULL); - symb = stream_list->macro->text[stream_list->text_offset]; - if(!symb) - return EOF; - stream_list->text_offset++; - return symb; -} - -#define COMMENT_SYMB ';' - -int read_real_symb(struct input_stream *stream_list) -{ - int symb; - - if(!stream_list) - exit_error(ERROR_STATUS_EMPTY_STREAM_LIST, NULL); - - if(stream_list->fd) - symb = fgetc(stream_list->fd); - else - symb = read_symb_from_text(stream_list); - - if(symb == COMMENT_SYMB) - { - for(; symb != '\n' && symb != EOF; - symb = fgetc(stream_list->fd)) - {} - } - return symb; -} - -#define SHIELD_SYMB '\\' - -int read_symb(struct input_stream *stream_list, int *shield) -{ - int symb = read_real_symb(stream_list); - if(shield) - { - *shield = 0; - if(symb == SHIELD_SYMB) - { - symb = read_real_symb(stream_list); - *shield = 1; - } - } - return symb; -} - -int is_symb_hex(char symb) -{ - if(symb >= '0' && symb <= '9') - return symb - '0'; - else - if(symb >= 'A' && symb <= 'F') - return symb - 'A' + 10; - else - if(symb >= 'a' && symb <= 'f') - return symb - 'a' + 10; - else - return -1; -} - -int is_lexem_hex(const char *lexem, unsigned long long *dest) -{ - int sign = 0; - unsigned long long hex = 0; - if(*lexem == '-' && *(lexem + 1)) - { - sign = 1; - lexem++; - } - - for(; *lexem; lexem++) - { - int num = is_symb_hex(*lexem); - if(num != -1) - hex = (hex << 4) + num; - else - return 0; - } - hex = sign ? ~hex + 1 : hex; - if(dest) - *dest = hex; - return 1; -} - -int compare_lexems(const char *lexem_one, const char *lexem_two) -{ - for(; *lexem_one && *lexem_two; lexem_one++, lexem_two++) - if(*lexem_one != *lexem_two) - return 0; - return *lexem_one == *lexem_two; -} - -char *copy_lexem(const char *lexem) -{ - char *buffer = NULL; - unsigned long long buffer_size = 0; - unsigned long long index; - - for(index = 0;; index++) - { - if(index == buffer_size) - if(!double_buffer(&buffer, &buffer_size)) - exit_error(ERROR_STATUS_MALLOC, NULL); - buffer[index] = lexem[index]; - if(!lexem[index]) - break; - } - return buffer; -} - -#define EVAL_SYMB '%' - -unsigned long long get_eval_end(const char *lexem) -{ - unsigned long long counter = 0; - - for(; *lexem && *lexem != EVAL_SYMB; lexem++, counter++) - {} - if(!*lexem) - exit_error(ERROR_STATUS_INVALID_CALL, NULL); - return counter; -} - -char *param_eval(struct input_stream *stream_list, char *lexem) -{ - char *input_lexem = lexem; - char *buffer = NULL; - unsigned long long buffer_size = 0; - const char *param = NULL; - unsigned long long index = 0; - - for(;;) - { - char symb = param && *param ? *param : *lexem++; - param = !param || !*param ? NULL : param + 1; - if(symb == EVAL_SYMB) - { - unsigned long long param_offset = get_eval_end(lexem); - unsigned long long param_num; - *(lexem + param_offset) = 0; - if(!is_lexem_hex(lexem, ¶m_num)) - exit_error(ERROR_STATUS_INVALID_CALL, NULL); - lexem += param_offset + 1; - param = get_input_stream_parameter(stream_list, - param_num); - continue; - } - if(index == buffer_size) - if(!double_buffer(&buffer, &buffer_size)) - exit_error(ERROR_STATUS_MALLOC, NULL); - buffer[index] = symb; - if(!symb) - break; - index++; - } - free(input_lexem); - return buffer; -} - -int is_separator(int symb) -{ - return symb == ' ' || symb == '\n' || symb == '\t' || symb == '\r'; -} - -char *read_lexem(struct input_stream *stream_list) -{ - char *buffer = NULL; - unsigned long long buffer_size = 0; - int symb; - int shield; - unsigned long long index; - - for(;;) - { - symb = read_symb(stream_list, &shield); - if(is_separator(symb) && !shield) - continue; - if(symb == EOF) - return NULL; - break; - } - - for(index = 0;; index++) - { - if(index == buffer_size) - if(!double_buffer(&buffer, &buffer_size)) - exit_error(ERROR_STATUS_MALLOC, NULL); - if(symb == EOF || (is_separator(symb) && !shield)) - { - buffer[index] = 0; - break; - } - buffer[index] = symb; - symb = read_symb(stream_list, &shield); - } - buffer = param_eval(stream_list, buffer); - return buffer; -} - -#define MACRO_END_SYMB ']' - -const char *read_macro_text(struct input_stream *stream_list) -{ - char *buffer = NULL; - unsigned long long buffer_size = 0; - unsigned long long index; - - for(index = 0;; index++) - { - int shield; - int symb = read_symb(stream_list, &shield); - if(index == buffer_size) - if(!double_buffer(&buffer, &buffer_size)) - exit_error(ERROR_STATUS_MALLOC, NULL); - if(symb == EOF || (symb == MACRO_END_SYMB && !shield)) - { - buffer[index] = 0; - break; - } - buffer[index] = symb; - } - return buffer; -} - -void create_macro(struct input_stream *stream_list, struct macro **macro_list) -{ - char *param_count_lexem; - struct macro *head = *macro_list; - *macro_list = malloc(sizeof(struct macro)); - if(!*macro_list) - exit_error(ERROR_STATUS_MALLOC, NULL); - (*macro_list)->lexem = read_lexem(stream_list); - if(!(*macro_list)->lexem) - exit_error(ERROR_STATUS_INVALID_MACRO, NULL); - param_count_lexem = read_lexem(stream_list); - if(!param_count_lexem || !is_lexem_hex(param_count_lexem, - &(*macro_list)->param_count)) - exit_error(ERROR_STATUS_INVALID_MACRO, NULL); - free(param_count_lexem); - (*macro_list)->text = read_macro_text(stream_list); - (*macro_list)->next = head; -} - -int find_module(struct module *module_list, const char *file_name) -{ - for(; module_list; module_list = module_list->next) - if(compare_lexems(module_list->file_name, file_name)) - return 1; - return 0; -} - -void add_module(struct module **module_list, const char *file_name) -{ - struct module *head = *module_list; - *module_list = malloc(sizeof(struct module)); - if(!*module_list) - exit_error(ERROR_STATUS_MALLOC, NULL); - (*module_list)->file_name = file_name; - (*module_list)->next = head; -} - -void include_file(struct input_stream **stream_list, - struct module **module_list) -{ - char *file_name = read_lexem(*stream_list); - FILE *fd; - if(!file_name) - exit_error(ERROR_STATUS_INVALID_INCLUDE, NULL); - if(module_list && find_module(*module_list, file_name)) - { - free(file_name); - return; - } - fd = fopen(file_name, "r"); - if(!fd) - exit_error(ERROR_STATUS_OPEN, file_name); - if(module_list) - add_module(module_list, file_name); - else - free(file_name); - add_input_stream(stream_list, fd, NULL); -} - -void push_parameter(struct input_stream *input_stream, - struct input_stream *actual_stream) -{ - char *lexem = read_lexem(input_stream); - if(!lexem) - exit_error(ERROR_STATUS_INVALID_PARAMETER, NULL); - add_input_stream_parameter(actual_stream, lexem); -} - -int find_macro(struct input_stream **stream_list, struct macro *macro_list, - const char *lexem) -{ - for(; macro_list; macro_list = macro_list->next) - { - if(compare_lexems(macro_list->lexem, lexem)) - { - struct input_stream *old_stream = *stream_list; - unsigned long long param_count = - macro_list->param_count; - add_input_stream(stream_list, NULL, macro_list); - for(; param_count > 0; param_count--) - push_parameter(old_stream, *stream_list); - return 1; - } - } - return 0; -} - -#define DIRECTORY_SEPARATOR_SYMB '/' - -unsigned long long find_last_dir_separator_pos(const char *file_name) -{ - const char *orig_file_name = file_name; - unsigned long long pos = 0; - for(; *file_name; file_name++) - if(*file_name == DIRECTORY_SEPARATOR_SYMB) - pos = file_name - orig_file_name; - return pos; -} - -void initialize_stream(struct input_stream **stream_list, - const char *file_name) -{ - char *dir_path = copy_lexem(file_name); - unsigned long long dir_sep_pos = find_last_dir_separator_pos(dir_path); - FILE *fd = fopen(file_name, "r"); - if(!fd) - exit_error(ERROR_STATUS_OPEN, file_name); - add_input_stream(stream_list, fd, NULL); - if(dir_sep_pos) - { - dir_path[dir_sep_pos] = 0; - if(chdir(dir_path) == -1) - exit_error(ERROR_STATUS_CHDIR, NULL); - } - free(dir_path); -} - -void print_lexem(const char *lexem) -{ - printf("%s ", lexem); -} - -#define MACRO_SHIELD_LEXEM "#" -#define MACRO_START_LEXEM "[" -#define MACRO_INCLUDE_LEXEM "include" -#define MACRO_MODULE_LEXEM "module" -#define MACRO_LIT_LEXEM "literal" - -int main(int argc, char **argv) -{ - struct input_stream *stream_list = NULL; - struct macro *macro_list = NULL; - struct module *module_list = NULL; - char *lexem; - - if(argc <= 1) - exit_error(ERROR_STATUS_ARG, NULL); - else - initialize_stream(&stream_list, argv[1]); - - for(;; free(lexem)) - { - lexem = read_lexem(stream_list); - if(!lexem) - { - if(delete_input_stream(&stream_list)) - continue; - else - break; - } - if(compare_lexems(lexem, MACRO_SHIELD_LEXEM)) - { - free(lexem); - lexem = read_lexem(stream_list); - if(!lexem) - exit_error(ERROR_STATUS_INVALID_SHIELD, NULL); - print_lexem(lexem); - continue; - } - if(compare_lexems(lexem, MACRO_START_LEXEM)) - { - create_macro(stream_list, ¯o_list); - continue; - } - if(compare_lexems(lexem, MACRO_INCLUDE_LEXEM)) - { - include_file(&stream_list, NULL); - continue; - } - if(compare_lexems(lexem, MACRO_MODULE_LEXEM)) - { - include_file(&stream_list, &module_list); - continue; - } - if(is_lexem_hex(lexem, NULL)) - { - if(find_macro(&stream_list, macro_list, - MACRO_LIT_LEXEM)) - { - add_input_stream_parameter(stream_list, - copy_lexem(lexem)); - continue; - } - } - if(find_macro(&stream_list, macro_list, lexem)) - continue; - print_lexem(lexem); - } - - return 0; -} diff --git a/enki/strans.c b/enki/strans.c deleted file mode 100644 index e3d834d..0000000 --- a/enki/strans.c +++ /dev/null @@ -1,652 +0,0 @@ -/* - Simple Stack Translator - created by exegete -*/ - -#include -#include - -struct stack_elem -{ - unsigned long long value; - struct stack_elem *next; -}; - -struct identifier -{ - const char *lexem; - unsigned long long value; - struct identifier *next; -}; - -struct segment -{ - char *buffer; - unsigned long long real_size; - unsigned long long size; - unsigned long long pointer_address; - unsigned long long base_address; - unsigned long long base_offset; - int data_size; - int data_endianness; - struct segment *next; -}; - -struct environment -{ - struct stack_elem *stack; - struct identifier *id_list; - struct segment *seg_list; - unsigned long long chosen_segment; -}; - -struct operator -{ - void (*func)(struct environment *env); - const char *lexem; -}; - -#define ERROR_STATUS_STACK_OVERFLOW 1 -#define ERROR_STATUS_STACK_EMPTY 2 -#define ERROR_STATUS_ID_LIST_OVERFLOW 3 -#define ERROR_STATUS_SEG_LIST_OVERFLOW 4 -#define ERROR_STATUS_INVALID_SEGMENT 5 -#define ERROR_STATUS_WORD_BUFFER_OVERFLOW 6 -#define ERROR_STATUS_LEXEM_OVERFLOW 7 -#define ERROR_STATUS_UNDEFINED 8 -#define ERROR_STATUS_INVALID_ACCESS 9 -#define ERROR_STATUS_INVALID_WORD_SIZE 10 -#define ERROR_STATUS_WORD_ENDIANNESS_INVALID 11 - -const char *error_msgs[] = -{ - "Stack overflow", - "Stack is empty", - "Identifier list overflow", - "Segment list overflow", - "Invalid chosen segment", - "Word buffer overflow", - "Lexem is too big", - "Undefined lexem: ", - "Invalid segment access", - "Invalid segment data size", - "Invalid segment data endianness" -}; - -void exit_error(int status, const char *lexem) -{ - if(lexem) - fprintf(stderr, "Error: %s%s\n", error_msgs[status - 1], - lexem); - else - fprintf(stderr, "Error: %s\n", error_msgs[status - 1]); - exit(status); -} - -unsigned long long create_segment(struct environment *env) -{ - struct segment **chosen_segment = &env->seg_list; - unsigned long long segment_counter = 0; - for(; *chosen_segment; chosen_segment = &(*chosen_segment)->next) - segment_counter++; - *chosen_segment = malloc(sizeof(struct segment)); - if(!*chosen_segment) - exit_error(ERROR_STATUS_SEG_LIST_OVERFLOW, NULL); - (*chosen_segment)->buffer = NULL; - (*chosen_segment)->real_size = 0; - (*chosen_segment)->size = 0; - (*chosen_segment)->pointer_address = 0; - (*chosen_segment)->base_address = 0; - (*chosen_segment)->base_offset = 0; - (*chosen_segment)->data_size = 1; - (*chosen_segment)->data_endianness = 0; - (*chosen_segment)->next = NULL; - return segment_counter; -} - -struct segment *get_segment(struct environment *env) -{ - struct segment *chosen_segment = env->seg_list; - unsigned long long segment_counter = env->chosen_segment; - while(chosen_segment && segment_counter--) - chosen_segment = chosen_segment->next; - if(!chosen_segment) - exit_error(ERROR_STATUS_INVALID_SEGMENT, NULL); - return chosen_segment; -} - -void initialize_environment(struct environment *env) -{ - env->stack = NULL; - env->id_list = NULL; - env->seg_list = NULL; - env->chosen_segment = 0; -} - -int is_separator(int symb) -{ - return symb == ' ' || symb == '\n' || symb == '\t' || symb == '\r'; -} - -#define BUFFER_INITIAL_SIZE 4 - -int double_buffer(char **buffer, unsigned long long *buffer_size) -{ - char *tmp_pointer = *buffer; - unsigned long long tmp_size = *buffer_size; - - if(*buffer_size == 0) - *buffer_size = BUFFER_INITIAL_SIZE; - else - *buffer_size *= 2; - - *buffer = malloc(*buffer_size); - if(!*buffer) - return 0; - - for(; tmp_size > 0; tmp_size--) - (*buffer)[tmp_size - 1] = tmp_pointer[tmp_size - 1]; - - free(tmp_pointer); - return 1; -} - -char *read_lexem() -{ - char *buffer = NULL; - unsigned long long buffer_size = 0; - int symb; - unsigned long long index; - - while(is_separator(symb = getchar())) - {} - - if(symb == EOF) - return NULL; - - for(index = 0;; index++) - { - if(index == buffer_size) - if(!double_buffer(&buffer, &buffer_size)) - exit_error(ERROR_STATUS_LEXEM_OVERFLOW, NULL); - if(symb == EOF || is_separator(symb)) - { - buffer[index] = 0; - break; - } - buffer[index] = symb; - symb = getchar(); - } - return buffer; -} - -void push_stack_elem(struct stack_elem **stack, unsigned long long value) -{ - struct stack_elem *head = *stack; - *stack = malloc(sizeof(struct stack_elem)); - if(!*stack) - exit_error(ERROR_STATUS_STACK_OVERFLOW, NULL); - (*stack)->value = value; - (*stack)->next = head; -} - -unsigned long long pop_stack_elem(struct stack_elem **stack) -{ - struct stack_elem *head = *stack; - unsigned long long value; - if(!head) - exit_error(ERROR_STATUS_STACK_EMPTY, NULL); - value = head->value; - *stack = head->next; - free(head); - return value; -} - -int is_symb_hex(char symb) -{ - if(symb >= '0' && symb <= '9') - return symb - '0'; - else - if(symb >= 'A' && symb <= 'F') - return symb - 'A' + 10; - else - if(symb >= 'a' && symb <= 'f') - return symb - 'a' + 10; - else - return -1; -} - -int is_lexem_hex(struct environment *env, const char *lexem) -{ - int sign = 0; - unsigned long long hex = 0; - if(*lexem == '-' && *(lexem + 1)) - { - sign = 1; - lexem++; - } - - for(; *lexem; lexem++) - { - int num = is_symb_hex(*lexem); - if(num != -1) - hex = (hex << 4) + num; - else - return 0; - } - hex = sign ? ~hex + 1 : hex; - push_stack_elem(&env->stack, hex); - return 1; -} - -int compare_lexems(const char *lexem_one, const char *lexem_two) -{ - for(; *lexem_one && *lexem_two; lexem_one++, lexem_two++) - if(*lexem_one != *lexem_two) - return 0; - return *lexem_one == *lexem_two; -} - -void add_identifier(struct identifier **id_list, const char *lexem, - unsigned long long value) -{ - struct identifier *head = *id_list; - *id_list = malloc(sizeof(struct identifier)); - if(!id_list) - exit_error(ERROR_STATUS_ID_LIST_OVERFLOW, NULL); - (*id_list)->lexem = lexem; - (*id_list)->value = value; - (*id_list)->next = head; -} - -int find_identifier(struct environment *env, const char *lexem) -{ - struct identifier *id_list = env->id_list; - for(; id_list; id_list = id_list->next) - { - if(compare_lexems(lexem, id_list->lexem)) - { - push_stack_elem(&env->stack, id_list->value); - return 1; - } - } - return 0; -} - -void segment_compile_byte(struct environment *env, char byte) -{ - unsigned long long index = get_segment(env)->size; - if(index == get_segment(env)->real_size) - if(!double_buffer(&get_segment(env)->buffer, - &get_segment(env)->real_size)) - exit_error(ERROR_STATUS_WORD_BUFFER_OVERFLOW, NULL); - get_segment(env)->buffer[index] = byte; - get_segment(env)->size++; - get_segment(env)->pointer_address++; -} - -void segment_compile(struct environment *env, unsigned long long value, - int size) -{ - int dir = get_segment(env)->data_endianness ? -1 : 1; - int index = get_segment(env)->data_endianness * (size - 1); - for(; index < size && index >= 0; index += dir) - segment_compile_byte(env, value >> index * 8); -} - -unsigned long long convert_address(struct environment *env, - unsigned long long address, int size) -{ - unsigned long long pointer_address = - get_segment(env)->pointer_address; - unsigned long long base_address = get_segment(env)->base_address; - unsigned long long base_offset = get_segment(env)->base_offset; - if(address < base_address || address + size > pointer_address) - exit_error(ERROR_STATUS_INVALID_ACCESS, NULL); - return address - base_address + base_offset; -} - -unsigned long long segment_read(struct environment *env, - unsigned long long address, int size) -{ - unsigned long long value = 0; - int dir = get_segment(env)->data_endianness ? 1 : -1; - int index = get_segment(env)->data_endianness ? 0 : (size - 1); - address = convert_address(env, address, size); - for(; index < size && index >= 0; index += dir) - value = (value << 8) + - (get_segment(env)->buffer[address + index] & 0xFF); - return value; -} - -void segment_write(struct environment *env, unsigned long long value, - unsigned long long address, int size) -{ - int dir = get_segment(env)->data_endianness ? -1 : 1; - int index = get_segment(env)->data_endianness * (size - 1); - address = convert_address(env, address, size); - for(; index < size && index >= 0; index += dir) - { - get_segment(env)->buffer[address + index] = value; - value >>= 8; - } -} - -void translator_drop(struct environment *env) -{ - pop_stack_elem(&env->stack); -} - -void translator_dup(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, value); - push_stack_elem(&env->stack, value); -} - -void translator_over(struct environment *env) -{ - unsigned long long value_one = pop_stack_elem(&env->stack); - unsigned long long value_two = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, value_two); - push_stack_elem(&env->stack, value_one); - push_stack_elem(&env->stack, value_two); -} - -void translator_swap(struct environment *env) -{ - unsigned long long value_one = pop_stack_elem(&env->stack); - unsigned long long value_two = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, value_one); - push_stack_elem(&env->stack, value_two); -} - -void translator_add(struct environment *env) -{ - unsigned long long first = pop_stack_elem(&env->stack); - unsigned long long second = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, second + first); -} - -void translator_sub(struct environment *env) -{ - unsigned long long first = pop_stack_elem(&env->stack); - unsigned long long second = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, second - first); -} - -void translator_mul(struct environment *env) -{ - unsigned long long first = pop_stack_elem(&env->stack); - unsigned long long second = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, second * first); -} - -void translator_div(struct environment *env) -{ - unsigned long long first = pop_stack_elem(&env->stack); - unsigned long long second = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, second / first); -} - -void translator_mod(struct environment *env) -{ - unsigned long long first = pop_stack_elem(&env->stack); - unsigned long long second = pop_stack_elem(&env->stack); - push_stack_elem(&env->stack, second % first); -} - -void translator_define_identifier(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - add_identifier(&env->id_list, read_lexem(), value); -} - -void translator_compile_one(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - segment_compile(env, value, 1); -} - -void translator_compile_two(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - segment_compile(env, value, 2); -} - -void translator_compile_four(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - segment_compile(env, value, 4); -} - -void translator_compile_eight(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - segment_compile(env, value, 8); -} - -void translator_compile(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - segment_compile(env, value, get_segment(env)->data_size); -} - -void translator_reserve(struct environment *env) -{ - unsigned long long count = pop_stack_elem(&env->stack); - while(count--) - segment_compile(env, 0, 1); -} - -void translator_read_one(struct environment *env) -{ - unsigned long long value = segment_read(env, - pop_stack_elem(&env->stack), 1); - push_stack_elem(&env->stack, value); -} - -void translator_read_two(struct environment *env) -{ - unsigned long long value = segment_read(env, - pop_stack_elem(&env->stack), 2); - push_stack_elem(&env->stack, value); -} - -void translator_read_four(struct environment *env) -{ - unsigned long long value = segment_read(env, - pop_stack_elem(&env->stack), 4); - push_stack_elem(&env->stack, value); -} - -void translator_read_eight(struct environment *env) -{ - unsigned long long value = segment_read(env, - pop_stack_elem(&env->stack), 8); - push_stack_elem(&env->stack, value); -} - -void translator_read(struct environment *env) -{ - unsigned long long value = segment_read(env, - pop_stack_elem(&env->stack), get_segment(env)->data_size); - push_stack_elem(&env->stack, value); -} - -void translator_write_one(struct environment *env) -{ - unsigned long long address = pop_stack_elem(&env->stack); - unsigned long long value = pop_stack_elem(&env->stack); - segment_write(env, value, address, 1); -} - -void translator_write_two(struct environment *env) -{ - unsigned long long address = pop_stack_elem(&env->stack); - unsigned long long value = pop_stack_elem(&env->stack); - segment_write(env, value, address, 2); -} - -void translator_write_four(struct environment *env) -{ - unsigned long long address = pop_stack_elem(&env->stack); - unsigned long long value = pop_stack_elem(&env->stack); - segment_write(env, value, address, 4); -} - -void translator_write_eight(struct environment *env) -{ - unsigned long long address = pop_stack_elem(&env->stack); - unsigned long long value = pop_stack_elem(&env->stack); - segment_write(env, value, address, 8); -} - -void translator_write(struct environment *env) -{ - unsigned long long address = pop_stack_elem(&env->stack); - unsigned long long value = pop_stack_elem(&env->stack); - segment_write(env, value, address, get_segment(env)->data_size); -} - -void translator_create_segment(struct environment *env) -{ - push_stack_elem(&env->stack, create_segment(env)); -} - -void translator_choose_segment(struct environment *env) -{ - env->chosen_segment = pop_stack_elem(&env->stack); -} - -void translator_set_base(struct environment *env) -{ - get_segment(env)->base_address = pop_stack_elem(&env->stack); - get_segment(env)->pointer_address = get_segment(env)->base_address; - get_segment(env)->base_offset = get_segment(env)->size; -} - -#define WORD_SIZE_MAX 8 - -void translator_set_data_size(struct environment *env) -{ - int target_size = pop_stack_elem(&env->stack); - if(target_size <= 0 || target_size > WORD_SIZE_MAX) - exit_error(ERROR_STATUS_INVALID_WORD_SIZE, NULL); - get_segment(env)->data_size = target_size; -} - -void translator_set_data_endianness(struct environment *env) -{ - int endianness = pop_stack_elem(&env->stack); - if(endianness > 1) - exit_error(ERROR_STATUS_WORD_ENDIANNESS_INVALID, NULL); - get_segment(env)->data_endianness = endianness; -} - -void translator_get_offset(struct environment *env) -{ - push_stack_elem(&env->stack, get_segment(env)->pointer_address); -} - -void translator_get_base(struct environment *env) -{ - push_stack_elem(&env->stack, get_segment(env)->base_address); -} - -void translator_print(struct environment *env) -{ - unsigned long long value = pop_stack_elem(&env->stack); - fprintf(stderr, "%llx\n", value); -} - -const struct operator translator_operators[] = -{ - { &translator_drop, "?drop" }, - { &translator_dup, "?dup" }, - { &translator_over, "?over" }, - { &translator_swap, "?swap" }, - { &translator_add, "?+" }, - { &translator_sub, "?-" }, - { &translator_mul, "?*" }, - { &translator_div, "?/" }, - { &translator_mod, "?mod" }, - { &translator_define_identifier, "??" }, - { &translator_compile_one, "?'" }, - { &translator_compile_one, "?1." }, - { &translator_compile_two, "?2." }, - { &translator_compile_four, "?4." }, - { &translator_compile_eight, "?8." }, - { &translator_compile, "?." }, - { &translator_reserve, "?res" }, - { &translator_read_one, "?1@" }, - { &translator_read_two, "?2@" }, - { &translator_read_four, "?4@" }, - { &translator_read_eight, "?8@" }, - { &translator_read, "?@" }, - { &translator_write_one, "?1!" }, - { &translator_write_two, "?2!" }, - { &translator_write_four, "?4!" }, - { &translator_write_eight, "?8!" }, - { &translator_write, "?!" }, - { &translator_create_segment, "?create" }, - { &translator_choose_segment, "?choose" }, - { &translator_set_base, "?org" }, - { &translator_set_data_size, "?size" }, - { &translator_set_data_endianness, "?endianness" }, - { &translator_get_offset, "?$" }, - { &translator_get_base, "?$$" }, - { &translator_print, "?print" }, -}; - -int execute_operator(struct environment *env, const char *lexem) -{ - int operators_count = - sizeof(translator_operators) / sizeof(*translator_operators); - int index; - - for(index = 0; index < operators_count; index++) - { - if(compare_lexems(lexem, translator_operators[index].lexem)) - { - (*translator_operators[index].func)(env); - break; - } - } - - return index != operators_count; -} - -void print_target_buffer(struct environment *env) -{ - struct segment *seg_list; - unsigned long long index; - for(seg_list = env->seg_list; seg_list; seg_list = seg_list->next) - for(index = 0; index < seg_list->size; index++) - putchar(seg_list->buffer[index]); -} - -int main() -{ - struct environment env; - char *lexem; - - initialize_environment(&env); - - for(;; free(lexem)) - { - lexem = read_lexem(); - if(!lexem) - break; - if(find_identifier(&env, lexem)) - continue; - if(is_lexem_hex(&env, lexem)) - continue; - if(!execute_operator(&env, lexem)) - exit_error(ERROR_STATUS_UNDEFINED, lexem); - } - - print_target_buffer(&env); - - return 0; -} -- cgit v1.2.3