/* Copyright (C) 2023 Aryadev Chavali * You may distribute and modify this code under the terms of the GPLv2 * license. You should have received a copy of the GPLv2 license with * this file. If not, please write to: aryadev@aryadevchavali.com. * Created: 2023-10-24 * Author: Aryadev Chavali * Description: Lexer for assembly language */ #include #include #include #include #include "./lexer.h" const char *token_type_as_cstr(token_type_t type) { switch (type) { case TOKEN_LITERAL_BYTE: return "LITERAL_BYTE"; case TOKEN_LITERAL_HWORD: return "LITERAL_HWORD"; case TOKEN_LITERAL_WORD: return "LITERAL_WORD"; case TOKEN_LITERAL_CHAR: return "LITERAL_CHAR"; case TOKEN_SYMBOL: return "SYMBOL"; } return ""; } size_t space_left(buffer_t *buffer) { if (buffer->available == buffer->used) return 0; return buffer->available - 1 - buffer->used; } bool is_symbol(char c) { return isalpha(c) || c == '-' || c == '_'; } token_t tokenise_symbol(buffer_t *buffer) { token_t token = {.type = TOKEN_SYMBOL, .str_size = 0}; for (; token.str_size < space_left(buffer) && is_symbol(buffer->data[buffer->used + token.str_size]); ++token.str_size) continue; token.str = calloc(token.str_size + 1, 1); memcpy(token.str, buffer->data + buffer->used, token.str_size); token.str[token.str_size] = '\0'; buffer->used += token.str_size; return token; } void tokenise_literal(buffer_t *buffer, token_t *token) { token->str_size = 0; for (; token->str_size < space_left(buffer) && isdigit(buffer->data[buffer->used + token->str_size]); ++token->str_size) continue; token->str = calloc(token->str_size + 1, 1); memcpy(token->str, buffer->data + buffer->used, token->str_size); token->str[token->str_size] = '\0'; buffer->used += token->str_size; } token_t tokenise_byte_literal(buffer_t *buffer) { token_t token = {.type = TOKEN_LITERAL_BYTE}; tokenise_literal(buffer, &token); return token; } token_t tokenise_hword_literal(buffer_t *buffer) { token_t token = {.type = TOKEN_LITERAL_HWORD}; tokenise_literal(buffer, &token); return token; } token_t tokenise_word_literal(buffer_t *buffer) { token_t token = {.type = TOKEN_LITERAL_WORD}; tokenise_literal(buffer, &token); return token; } token_t tokenise_char_literal(buffer_t *buffer) { token_t token = {.type = TOKEN_LITERAL_CHAR, .str_size = 1}; token.str = calloc(1, 1); token.str[0] = buffer->data[buffer->used + 1]; buffer->used += 3; return token; } token_t *tokenise_buffer(buffer_t *buffer, size_t *n_tokens) { buffer_t tokens = {0}; darr_init(&tokens, sizeof(token_t)); while (space_left(buffer) != 0) { bool is_token = true; token_t t = {0}; char c = buffer->data[buffer->used]; if (isspace(c) || c == '\0') { // Clean whitespace for (; space_left(buffer) > 0 && (isspace(c) || c == '\0'); ++buffer->used, c = buffer->data[buffer->used]) continue; is_token = false; } else if (space_left(buffer) > 1 && isdigit(buffer->data[buffer->used + 1])) { // Parsing numeric literals switch (c) { case 'b': buffer->used++; t = tokenise_byte_literal(buffer); break; case 'h': buffer->used++; t = tokenise_hword_literal(buffer); break; case 'w': buffer->used++; t = tokenise_word_literal(buffer); break; default: // TODO: Lex Error (INVALID_NUMERIC_LITERAL) exit(1); } } else if (is_symbol(c)) t = tokenise_symbol(buffer); else if (c == '\'') { if (space_left(buffer) < 2 || buffer->data[buffer->used + 2] != '\'') // TODO: Lex Error (INVALID_CHAR_LITERAL) exit(1); t = tokenise_char_literal(buffer); } if (is_token) darr_append_bytes(&tokens, (byte *)&t, sizeof(t)); } *n_tokens = tokens.used / sizeof(token_t); return (token_t *)tokens.data; }