/* 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 #include #include "./lexer.h" const char *token_type_as_cstr(token_type_t type) { switch (type) { case TOKEN_PP_CONST: return "PP_CONST"; case TOKEN_PP_END: return "PP_END"; case TOKEN_GLOBAL: return "GLOBAL"; case TOKEN_STAR: return "STAR"; case TOKEN_LITERAL_NUMBER: return "LITERAL_NUMBER"; case TOKEN_LITERAL_CHAR: return "LITERAL_CHAR"; case TOKEN_NOOP: return "NOOP"; case TOKEN_HALT: return "HALT"; case TOKEN_PUSH: return "PUSH"; case TOKEN_POP: return "POP"; case TOKEN_PUSH_REG: return "PUSH_REG"; case TOKEN_MOV: return "MOV"; case TOKEN_DUP: return "DUP"; case TOKEN_MALLOC: return "MALLOC"; case TOKEN_MALLOC_STACK: return "MALLOC_STACK"; case TOKEN_MSET: return "MSET"; case TOKEN_MSET_STACK: return "MSET_STACK"; case TOKEN_MGET: return "MGET"; case TOKEN_MGET_STACK: return "MGET_STACK"; case TOKEN_MDELETE: return "MDELETE"; case TOKEN_MSIZE: return "MSIZE"; case TOKEN_NOT: return "NOT"; case TOKEN_OR: return "OR"; case TOKEN_AND: return "AND"; case TOKEN_XOR: return "XOR"; case TOKEN_EQ: return "EQ"; case TOKEN_LT: return "LT"; case TOKEN_LTE: return "LTE"; case TOKEN_GT: return "GT"; case TOKEN_GTE: return "GTE"; case TOKEN_PLUS: return "PLUS"; case TOKEN_SUB: return "SUB"; case TOKEN_MULT: return "MULT"; case TOKEN_PRINT: return "PRINT"; case TOKEN_JUMP_ABS: return "JUMP_ABS"; case TOKEN_JUMP_STACK: return "JUMP_STACK"; case TOKEN_JUMP_IF: return "JUMP_IF"; case TOKEN_CALL: return "CALL"; case TOKEN_CALL_STACK: return "CALL_STACK"; case TOKEN_RET: return "RET"; case TOKEN_SYMBOL: return "SYMBOL"; } return ""; } const char *lerr_as_cstr(lerr_t lerr) { switch (lerr) { case LERR_INVALID_CHAR_LITERAL: return "INVALID_CHAR_LITERAL"; break; case LERR_OK: return "OK"; break; } return ""; } size_t space_left(buffer_t *buffer) { if (buffer->available == buffer->used) return 0; return buffer->available - 1 - buffer->used; } char uppercase(char c) { if (c >= 'a' && c <= 'z') return (c - 'a') + 'A'; return c; } bool is_symbol(char c) { return isalpha(c) || isdigit(c) || c == '-' || c == '_' || c == '.' || c == ':'; } bool is_valid_hex_char(char c) { return (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F'); } token_t tokenise_symbol(buffer_t *buffer, size_t *column) { static_assert(NUMBER_OF_OPCODES == 98, "tokenise_buffer: Out of date!"); size_t sym_size = 0; for (; sym_size < space_left(buffer) && is_symbol(buffer->data[buffer->used + sym_size]); ++sym_size) buffer->data[buffer->used + sym_size] = uppercase(buffer->data[buffer->used + sym_size]); token_t ret = {0}; char *opcode = (char *)buffer->data + buffer->used; bool is_opcode = true; token_type_t type = 0; size_t offset = 0; if (sym_size > 1 && strncmp(opcode, "%", 1) == 0) { // Some kind of preprocessing directive // TODO: Implement tokeniser for preprocessing directive } else if (sym_size == 4 && strncmp(opcode, "NOOP", 4) == 0) { offset = 4; type = TOKEN_NOOP; } else if (sym_size == 4 && strncmp(opcode, "HALT", 4) == 0) { offset = 4; type = TOKEN_HALT; } else if (sym_size > 9 && strncmp(opcode, "PUSH.REG.", 9) == 0) { offset = 9; type = TOKEN_PUSH_REG; } else if (sym_size > 5 && strncmp(opcode, "PUSH.", 5) == 0) { offset = 5; type = TOKEN_PUSH; } else if (sym_size > 4 && strncmp(opcode, "POP.", 4) == 0) { offset = 4; type = TOKEN_POP; } else if (sym_size > 4 && strncmp(opcode, "MOV.", 4) == 0) { offset = 4; type = TOKEN_MOV; } else if (sym_size > 4 && strncmp(opcode, "DUP.", 4) == 0) { offset = 4; type = TOKEN_DUP; } else if (sym_size > 13 && strncmp(opcode, "MALLOC.STACK.", 13) == 0) { offset = 13; type = TOKEN_MALLOC_STACK; } else if (sym_size > 7 && strncmp(opcode, "MALLOC.", 7) == 0) { offset = 7; type = TOKEN_MALLOC; } else if (sym_size > 11 && strncmp(opcode, "MSET.STACK.", 11) == 0) { offset = 11; type = TOKEN_MSET_STACK; } else if (sym_size > 5 && strncmp(opcode, "MSET.", 5) == 0) { offset = 5; type = TOKEN_MSET; } else if (sym_size > 11 && strncmp(opcode, "MGET.STACK.", 11) == 0) { offset = 11; type = TOKEN_MGET_STACK; } else if (sym_size > 5 && strncmp(opcode, "MGET.", 5) == 0) { offset = 5; type = TOKEN_MGET; } else if (sym_size == 7 && strncmp(opcode, "MDELETE", 7) == 0) { offset = 7; type = TOKEN_MDELETE; } else if (sym_size == 5 && strncmp(opcode, "MSIZE", 5) == 0) { offset = 5; type = TOKEN_MSIZE; } else if (sym_size > 4 && strncmp(opcode, "NOT.", 4) == 0) { offset = 4; type = TOKEN_NOT; } else if (sym_size > 3 && strncmp(opcode, "OR.", 3) == 0) { offset = 3; type = TOKEN_OR; } else if (sym_size > 4 && strncmp(opcode, "AND.", 4) == 0) { offset = 4; type = TOKEN_AND; } else if (sym_size > 4 && strncmp(opcode, "XOR.", 4) == 0) { offset = 4; type = TOKEN_XOR; } else if (sym_size >= 3 && strncmp(opcode, "EQ.", 3) == 0) { offset = 3; type = TOKEN_EQ; } else if (sym_size > 4 && strncmp(opcode, "LTE.", 4) == 0) { offset = 4; type = TOKEN_LTE; } else if (sym_size > 3 && strncmp(opcode, "LT.", 3) == 0) { offset = 3; type = TOKEN_LT; } else if (sym_size > 4 && strncmp(opcode, "GTE.", 4) == 0) { offset = 4; type = TOKEN_GTE; } else if (sym_size > 3 && strncmp(opcode, "GT.", 3) == 0) { offset = 3; type = TOKEN_GT; } else if (sym_size > 4 && strncmp(opcode, "SUB.", 4) == 0) { offset = 4; type = TOKEN_SUB; } else if (sym_size > 5 && strncmp(opcode, "PLUS.", 5) == 0) { offset = 5; type = TOKEN_PLUS; } else if (sym_size > 5 && strncmp(opcode, "MULT.", 5) == 0) { offset = 5; type = TOKEN_MULT; } else if (sym_size > 6 && strncmp(opcode, "PRINT.", 6) == 0) { offset = 6; type = TOKEN_PRINT; } else if (sym_size == 8 && strncmp(opcode, "JUMP.ABS", 8) == 0) { offset = 8; type = TOKEN_JUMP_ABS; } else if (sym_size == 10 && strncmp(opcode, "JUMP.STACK", 10) == 0) { offset = 10; type = TOKEN_JUMP_STACK; } else if (sym_size > 8 && strncmp(opcode, "JUMP.IF.", 8) == 0) { offset = 8; type = TOKEN_JUMP_IF; } else if (sym_size == 10 && strncmp(opcode, "CALL.STACK", 10) == 0) { offset = 10; type = TOKEN_CALL_STACK; } else if (sym_size == 4 && strncmp(opcode, "CALL", 4) == 0) { offset = 4; type = TOKEN_CALL; } else if (sym_size == 3 && strncmp(opcode, "RET", 3) == 0) { offset = 3; type = TOKEN_RET; } else if (sym_size == 6 && strncmp(opcode, "GLOBAL", 6) == 0) { offset = 6; type = TOKEN_GLOBAL; } else is_opcode = false; if (!is_opcode) { // Just a symbol, so no further manipulation char *sym = malloc(sym_size + 1); memcpy(sym, opcode, sym_size); sym[sym_size] = '\0'; ret = (token_t){.type = TOKEN_SYMBOL, .str = sym, .column = *column, .str_size = sym_size}; } else { ret.type = type; ret.column = *column; if (offset == sym_size) { // There's no more to the string ret.str = malloc(1); ret.str[0] = '\0'; } else { // t.str is the remaining part of the string after the // opcode ret.str = calloc(sym_size - offset + 1, 1); memcpy(ret.str, opcode + offset, sym_size - offset); ret.str[sym_size - offset] = '\0'; } ret.str_size = sym_size - offset; } *column += sym_size - 1; buffer->used += sym_size; return ret; } token_t tokenise_number_literal(buffer_t *buffer, size_t *column) { token_t token = { .type = TOKEN_LITERAL_NUMBER, .str_size = 0, .column = *column}; if (buffer->data[buffer->used] == '-') ++token.str_size; 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; *column += token.str_size; return token; } token_t tokenise_hex_literal(buffer_t *buffer, size_t *column) { // For the x part of the literal ++buffer->used; token_t token = { .type = TOKEN_LITERAL_NUMBER, .str_size = 0, .column = *column}; for (; token.str_size < space_left(buffer) && is_valid_hex_char(buffer->data[buffer->used + token.str_size]); ++token.str_size) continue; // Setup a proper C hex literal token.str = calloc(token.str_size + 3, 1); token.str[0] = '0'; token.str[1] = 'x'; memcpy(token.str + 2, buffer->data + buffer->used, token.str_size); token.str[token.str_size + 2] = '\0'; buffer->used += token.str_size; *column += token.str_size; // Setup the first two characters token.str_size += 2; return token; } token_t tokenise_char_literal(buffer_t *buffer, size_t *column) { token_t token = { .type = TOKEN_LITERAL_CHAR, .str_size = 1, .column = *column}; token.str = calloc(2, 1); token.str[0] = buffer->data[buffer->used + 1]; token.str[1] = '\0'; buffer->used += 3; *column += 3; return token; } lerr_t tokenise_buffer(buffer_t *buffer, token_stream_t *tokens_ptr) { size_t column = 0, line = 1; token_stream_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]) { ++column; if (c == '\n') { column = 0; ++line; } } ++column; is_token = false; } else if (c == ';') { // Start lexing at next line for (; space_left(buffer) > 0 && c != '\n'; ++buffer->used, c = buffer->data[buffer->used]) continue; column = 0; ++line; ++buffer->used; is_token = false; } else if (c == '*') { t = (token_t){.type = TOKEN_STAR, .column = column, .str = malloc(1), .str_size = 1}; t.str[0] = '\0'; ++buffer->used; } else if (isdigit(c) || (space_left(buffer) > 1 && c == '-' && isdigit(buffer->data[buffer->used + 1]))) t = tokenise_number_literal(buffer, &column); else if (c == 'x' && space_left(buffer) > 1 && is_valid_hex_char(buffer->data[buffer->used + 1])) t = tokenise_hex_literal(buffer, &column); else if (is_symbol(c)) t = tokenise_symbol(buffer, &column); else if (c == '\'') { if (space_left(buffer) < 2) { free(tokens.data); return LERR_INVALID_CHAR_LITERAL; } else if (buffer->data[buffer->used + 1] == '\\') { char escape = '\0'; if (space_left(buffer) < 3 || buffer->data[buffer->used + 3] != '\'') { free(tokens.data); return LERR_INVALID_CHAR_LITERAL; } switch (buffer->data[buffer->used + 2]) { case 'n': escape = '\n'; break; case 't': escape = '\t'; break; case 'r': escape = '\r'; break; case '\\': escape = '\\'; break; default: column += 2; free(tokens.data); return LERR_INVALID_CHAR_LITERAL; break; } t = (token_t){.type = TOKEN_LITERAL_CHAR, .str = malloc(2), .str_size = 1, .column = column}; column += 2; buffer->used += 4; t.str[0] = escape; t.str[1] = '\0'; } else t = tokenise_char_literal(buffer, &column); } if (is_token) { t.line = line; darr_append_bytes(&tokens, (byte *)&t, sizeof(t)); } } size_t n_tokens = tokens.used / sizeof(token_t); tokens.available = n_tokens; tokens.used = 0; *tokens_ptr = tokens; return LERR_OK; }