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view lwbasic/attic/lexer.c @ 262:7de7b14ebaee
Add support for os9 module edition byte
Add support for the symbol "edition" in the __os9 section which defines the
module edition byte which follows immedately after the module name in the
module. It defaults to not setting one.
author | William Astle <lost@l-w.ca> |
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date | Mon, 04 Feb 2013 21:03:59 -0700 |
parents | cca933d32298 |
children |
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/* lexer.c Copyright © 2011 William Astle This file is part of LWTOOLS. LWTOOLS is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ /* This handles the gritty details of parsing tokens */ #include <stdlib.h> #include <stdio.h> #include <string.h> #include <lw_alloc.h> #include <lw_string.h> #define __lexer_c_seen__ #include "lwbasic.h" /* A token idenfier is returned by lexer(). The actual string value is found in state->lexer_lexer_token_string; if the token as an integer value, it will be found in state->lexer_token_number in the appropriate "value" slot. */ struct token_list { char *string; int token; }; /* keywords that appear as part of normal expressions */ static struct token_list lexer_global_tokens[] = { { "function", token_kw_function }, { "sub", token_kw_sub }, { "public", token_kw_public }, { "private", token_kw_private }, { "as", token_kw_as }, { "params", token_kw_params }, { "returns", token_kw_returns }, { "integer", token_kw_integer }, { "endsub", token_kw_endsub }, { "endfunction", token_kw_endfunction }, { "dim", token_kw_dim }, { NULL } }; /* contains "built in" function names */ static struct token_list lexer_expr_tokens[] = { { "and", token_op_and }, { "or", token_op_or }, { "band", token_op_band }, { "bor", token_op_bor }, { "bxor", token_op_bxor }, { "xor", token_op_xor }, { "not", token_op_not }, { "bnot", token_op_bnot }, { NULL } }; static char *lexer_token_names[] = { "SUB", "FUNCTION", "AS", "PUBLIC", "PRIVATE", "PARAMS", "RETURNS", "INTEGER", "ENDSUB", "ENDFUNCTION", "DIM", "<assignment>", "<equality>", "<greater>", "<less>", "<greaterequal>", "<lessequal>", "<notequal>", "<and>", "<or>", "<xor>", "<bitwiseand>", "<bitwiseor>", "<bitwisexor>", "<plus>", "<minus>", "<times>", "<divide>", "<modulus>", "<openparen>", "<closeparen>", "<not>", "<bitwisenot>", "<identifier>", "<char>", "<uint>", "<int>", "<eol>", "<eof>" }; char *lexer_token_name(int token) { if (token > token_eol) return "???"; return lexer_token_names[token]; } static int lexer_getchar(cstate *state) { int c; c = input_getchar(state); if (c == -2) { lwb_error("Error reading input stream."); } return c; } static void lexer_nextchar(cstate *state) { state -> lexer_curchar = lexer_getchar(state); if (state -> lexer_curchar == state -> lexer_ignorechar) state -> lexer_curchar = lexer_getchar(state); state -> lexer_ignorechar = 0; } static int lexer_curchar(cstate *state) { if (state -> lexer_curchar == -1) { lexer_nextchar(state); } return state -> lexer_curchar; } static void lexer_skip_white(cstate *state) { int c; for (;;) { c = lexer_curchar(state); if (!(c == 0 || c == ' ' || c == '\t')) return; lexer_nextchar(state); } } /* must not be called unless the word will be non-zero length */ static void lexer_word(cstate *state) { int wordlen = 0; int wordpos = 0; char *word = NULL; int c; struct token_list *tok = NULL; for (;;) { c = lexer_curchar(state); if (c == '_' || (c >= '0' && c <= '9' ) || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c >= 0x80) { /* character is part of word */ if (wordpos >= wordlen) { word = lw_realloc(word, wordlen + 32); wordlen += 32; } word[wordpos++] = c; } else break; lexer_nextchar(state); } word[wordpos] = 0; lw_free(state -> lexer_token_string); state -> lexer_token_string = lw_strdup(word); switch (state -> parser_state) { default: tok = lexer_global_tokens; } if (state -> expression) { tok = lexer_expr_tokens; } /* check for tokens if appropriate */ /* force uppercase */ if (tok) { for (c = 0; word[c]; c++) if (word[c] >= 'A' && word[c] <= 'Z') word[c] = word[c] + 0x20; while (tok -> string) { if (strcmp(tok -> string, word) == 0) break; tok++; } } lw_free(word); if (tok && tok -> string) state -> lexer_token = tok -> token; else state -> lexer_token = token_identifier; } static void lexer_parse_number(cstate *state, int neg) { unsigned long tint = 0; int c; for (;;) { c = lexer_curchar(state); if (c >= '0' && c <= '9') { tint *= 10 + (c - '0'); } else { /* end of the number here */ if (neg) { if (tint > 0x80000000) lwb_error("Integer overflow\n"); state -> lexer_token_number.integer = -tint; state -> lexer_token = token_int; } else { state -> lexer_token = token_uint; state -> lexer_token_number.uinteger = tint; } return; } lexer_nextchar(state); } } static void lexer_empty_token(cstate *state) { lw_free(state -> lexer_token_string); state -> lexer_token_string = NULL; } void lexer(cstate *state) { int c; lexer_skip_white(state); lexer_empty_token(state); c = lexer_curchar(state); if (c == -1) { state -> lexer_token = token_eof; return; } if (c == '\n') { /* LF */ lexer_nextchar(state); state -> lexer_ignorechar = '\r'; state -> lexer_token = token_eol; return; } if (c == '\r') { /* CR */ lexer_nextchar(state); state -> lexer_ignorechar = '\n'; state -> lexer_token = token_eol; return; } if (c == '_' || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c >= 0x80) { /* we have a word here; identifier, keyword, etc. */ lexer_word(state); return; } if (state -> expression && c >= '0' && c <= '9') { /* we have a number */ lexer_parse_number(state, 0); return; } lexer_nextchar(state); if (state -> expression) { if (c == '-' && lexer_curchar(state) >= '0' && lexer_curchar(state) <= '9') { /* we have a negative number here */ lexer_parse_number(state, 1); return; } if (c == '=') { state -> lexer_token = token_op_equality; return; } if (c == '<') { if (lexer_curchar(state) == '=') { lexer_nextchar(state); state -> lexer_token = token_op_lessequal; return; } if (lexer_curchar(state) == '>') { lexer_nextchar(state); state -> lexer_token = token_op_notequal; return; } state -> lexer_token = token_op_less; return; } if (c == '>') { if (lexer_curchar(state) == '>') { lexer_nextchar(state); state -> lexer_token = token_op_greaterequal; return; } if (lexer_curchar(state) == '<') { state -> lexer_token = token_op_notequal; lexer_nextchar(state); return; } state -> lexer_token = token_op_greater; return; } switch(c) { case '+': state -> lexer_token = token_op_plus; return; case '-': state -> lexer_token = token_op_minus; return; case '/': state -> lexer_token = token_op_divide; return; case '*': state -> lexer_token = token_op_times; return; case '%': state -> lexer_token = token_op_modulus; return; case '(': state -> lexer_token = token_op_oparen; return; case ')': state -> lexer_token = token_op_cparen; return; } } else { if (c == '=') { state -> lexer_token = token_op_assignment; return; } } /* return the character if all else fails */ state -> lexer_token = token_char; state -> lexer_token_string = lw_realloc(state -> lexer_token_string, 2); state -> lexer_token_string[0] = c; state -> lexer_token_string[1] = 0; return; } char *lexer_return_token(cstate *state) { static char *buffer = NULL; static int buflen = 0; int l; if (buflen == 0) { buffer = lw_alloc(128); buflen = 128; } l = snprintf(buffer, buflen, "%s (%s)", state -> lexer_token_string, lexer_token_name(state -> lexer_token)); if (l >= buflen) { buffer = lw_realloc(buffer, l + 1); buflen = l + 1; snprintf(buffer, buflen, "%s (%s)", state -> lexer_token_string, lexer_token_name(state -> lexer_token)); } return buffer; }