#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include "gmqcc.h"
#include "lexer.h"
char* *lex_filenames;
void lexerror(lex_file *lex, const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
if (lex)
con_vprintmsg(LVL_ERROR, lex->name, lex->sline, "parse error", fmt, ap);
else
con_vprintmsg(LVL_ERROR, "", 0, "parse error", fmt, ap);
va_end(ap);
}
bool lexwarn(lex_file *lex, int warntype, const char *fmt, ...)
{
va_list ap;
int lvl = LVL_WARNING;
if (!OPTS_WARN(warntype))
return false;
if (opts_werror)
lvl = LVL_ERROR;
va_start(ap, fmt);
con_vprintmsg(lvl, lex->name, lex->sline, "warning", fmt, ap);
va_end(ap);
return opts_werror;
}
#if 0
token* token_new()
{
token *tok = (token*)mem_a(sizeof(token));
if (!tok)
return NULL;
memset(tok, 0, sizeof(*tok));
return tok;
}
void token_delete(token *self)
{
if (self->next && self->next->prev == self)
self->next->prev = self->prev;
if (self->prev && self->prev->next == self)
self->prev->next = self->next;
MEM_VECTOR_CLEAR(self, value);
mem_d(self);
}
token* token_copy(const token *cp)
{
token* self = token_new();
if (!self)
return NULL;
/* copy the value */
self->value_alloc = cp->value_count + 1;
self->value_count = cp->value_count;
self->value = (char*)mem_a(self->value_alloc);
if (!self->value) {
mem_d(self);
return NULL;
}
memcpy(self->value, cp->value, cp->value_count);
self->value[self->value_alloc-1] = 0;
/* rest */
self->ctx = cp->ctx;
self->ttype = cp->ttype;
memcpy(&self->constval, &cp->constval, sizeof(self->constval));
return self;
}
void token_delete_all(token *t)
{
token *n;
do {
n = t->next;
token_delete(t);
t = n;
} while(t);
}
token* token_copy_all(const token *cp)
{
token *cur;
token *out;
out = cur = token_copy(cp);
if (!out)
return NULL;
while (cp->next) {
cp = cp->next;
cur->next = token_copy(cp);
if (!cur->next) {
token_delete_all(out);
return NULL;
}
cur->next->prev = cur;
cur = cur->next;
}
return out;
}
#else
static void lex_token_new(lex_file *lex)
{
#if 0
if (lex->tok)
token_delete(lex->tok);
lex->tok = token_new();
#else
if (lex->tok.value)
vec_shrinkto(lex->tok.value, 0);
lex->tok.constval.t = 0;
lex->tok.ctx.line = lex->sline;
lex->tok.ctx.file = lex->name;
#endif
}
#endif
lex_file* lex_open(const char *file)
{
lex_file *lex;
FILE *in = util_fopen(file, "rb");
if (!in) {
lexerror(NULL, "open failed: '%s'\n", file);
return NULL;
}
lex = (lex_file*)mem_a(sizeof(*lex));
if (!lex) {
fclose(in);
lexerror(NULL, "out of memory\n");
return NULL;
}
memset(lex, 0, sizeof(*lex));
lex->file = in;
lex->name = util_strdup(file);
lex->line = 1; /* we start counting at 1 */
lex->peekpos = 0;
lex->eof = false;
vec_push(lex_filenames, lex->name);
return lex;
}
lex_file* lex_open_string(const char *str, size_t len, const char *name)
{
lex_file *lex;
lex = (lex_file*)mem_a(sizeof(*lex));
if (!lex) {
lexerror(NULL, "out of memory\n");
return NULL;
}
memset(lex, 0, sizeof(*lex));
lex->file = NULL;
lex->open_string = str;
lex->open_string_length = len;
lex->open_string_pos = 0;
lex->name = util_strdup(name ? name : "<string-source>");
lex->line = 1; /* we start counting at 1 */
lex->peekpos = 0;
lex->eof = false;
vec_push(lex_filenames, lex->name);
return lex;
}
void lex_cleanup(void)
{
size_t i;
for (i = 0; i < vec_size(lex_filenames); ++i)
mem_d(lex_filenames[i]);
vec_free(lex_filenames);
}
void lex_close(lex_file *lex)
{
size_t i;
for (i = 0; i < vec_size(lex->frames); ++i)
mem_d(lex->frames[i].name);
vec_free(lex->frames);
if (lex->modelname)
vec_free(lex->modelname);
if (lex->file)
fclose(lex->file);
#if 0
if (lex->tok)
token_delete(lex->tok);
#else
vec_free(lex->tok.value);
#endif
/* mem_d(lex->name); collected in lex_filenames */
mem_d(lex);
}
static int lex_fgetc(lex_file *lex)
{
if (lex->file)
return fgetc(lex->file);
if (lex->open_string) {
if (lex->open_string_pos >= lex->open_string_length)
return EOF;
return lex->open_string[lex->open_string_pos++];
}
return EOF;
}
/* Get or put-back data
* The following to functions do NOT understand what kind of data they
* are working on.
* The are merely wrapping get/put in order to count line numbers.
*/
static void lex_ungetch(lex_file *lex, int ch);
static int lex_try_trigraph(lex_file *lex, int old)
{
int c2, c3;
c2 = lex_fgetc(lex);
if (c2 != '?') {
lex_ungetch(lex, c2);
return old;
}
c3 = lex_fgetc(lex);
switch (c3) {
case '=': return '#';
case '/': return '\\';
case '\'': return '^';
case '(': return '[';
case ')': return ']';
case '!': return '|';
case '<': return '{';
case '>': return '}';
case '-': return '~';
default:
lex_ungetch(lex, c3);
lex_ungetch(lex, c2);
return old;
}
}
static int lex_try_digraph(lex_file *lex, int ch)
{
int c2;
c2 = lex_fgetc(lex);
if (ch == '<' && c2 == ':')
return '[';
else if (ch == ':' && c2 == '>')
return ']';
else if (ch == '<' && c2 == '%')
return '{';
else if (ch == '%' && c2 == '>')
return '}';
else if (ch == '%' && c2 == ':')
return '#';
lex_ungetch(lex, c2);
return ch;
}
static int lex_getch(lex_file *lex)
{
int ch;
if (lex->peekpos) {
lex->peekpos--;
if (!lex->push_line && lex->peek[lex->peekpos] == '\n')
lex->line++;
return lex->peek[lex->peekpos];
}
ch = lex_fgetc(lex);
if (!lex->push_line && ch == '\n')
lex->line++;
else if (ch == '?')
return lex_try_trigraph(lex, ch);
else if (!lex->flags.nodigraphs && (ch == '<' || ch == ':' || ch == '%'))
return lex_try_digraph(lex, ch);
return ch;
}
static void lex_ungetch(lex_file *lex, int ch)
{
lex->peek[lex->peekpos++] = ch;
if (!lex->push_line && ch == '\n')
lex->line--;
}
/* classify characters
* some additions to the is*() functions of ctype.h
*/
/* Idents are alphanumberic, but they start with alpha or _ */
static bool isident_start(int ch)
{
return isalpha(ch) || ch == '_';
}
static bool isident(int ch)
{
return isident_start(ch) || isdigit(ch);
}
/* isxdigit_only is used when we already know it's not a digit
* and want to see if it's a hex digit anyway.
*/
static bool isxdigit_only(int ch)
{
return (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F');
}
/* Append a character to the token buffer */
static void lex_tokench(lex_file *lex, int ch)
{
vec_push(lex->tok.value, ch);
}
/* Append a trailing null-byte */
static void lex_endtoken(lex_file *lex)
{
vec_push(lex->tok.value, 0);
vec_shrinkby(lex->tok.value, 1);
}
static bool lex_try_pragma(lex_file *lex)
{
int ch;
char *pragma = NULL;
char *command = NULL;
char *param = NULL;
size_t line;
if (lex->flags.preprocessing)
return false;
line = lex->line;
ch = lex_getch(lex);
if (ch != '#') {
lex_ungetch(lex, ch);
return false;
}
for (ch = lex_getch(lex); vec_size(pragma) < 8 && ch >= 'a' && ch <= 'z'; ch = lex_getch(lex))
vec_push(pragma, ch);
vec_push(pragma, 0);
if (ch != ' ' || strcmp(pragma, "pragma")) {
lex_ungetch(lex, ch);
goto unroll;
}
for (ch = lex_getch(lex); vec_size(command) < 32 && ch >= 'a' && ch <= 'z'; ch = lex_getch(lex))
vec_push(command, ch);
vec_push(command, 0);
if (ch != '(') {
lex_ungetch(lex, ch);
goto unroll;
}
for (ch = lex_getch(lex); vec_size(param) < 32 && ch != ')' && ch != '\n'; ch = lex_getch(lex))
vec_push(param, ch);
vec_push(param, 0);
if (ch != ')') {
lex_ungetch(lex, ch);
goto unroll;
}
if (!strcmp(command, "push")) {
if (!strcmp(param, "line")) {
lex->push_line++;
--line;
}
else
goto unroll;
}
else if (!strcmp(command, "pop")) {
if (!strcmp(param, "line")) {
if (lex->push_line)
lex->push_line--;
--line;
}
else
goto unroll;
}
else if (!strcmp(command, "file")) {
lex->name = util_strdup(param);
vec_push(lex_filenames, lex->name);
}
else if (!strcmp(command, "line")) {
line = strtol(param, NULL, 0)-1;
}
else
goto unroll;
lex->line = line;
while (ch != '\n' && ch != EOF)
ch = lex_getch(lex);
return true;
unroll:
if (command) {
vec_pop(command);
while (vec_size(command)) {
lex_ungetch(lex, vec_last(command));
vec_pop(command);
}
vec_free(command);
}
if (command) {
vec_pop(command);
while (vec_size(command)) {
lex_ungetch(lex, vec_last(command));
vec_pop(command);
}
vec_free(command);
}
if (pragma) {
vec_pop(pragma);
while (vec_size(pragma)) {
lex_ungetch(lex, vec_last(pragma));
vec_pop(pragma);
}
vec_free(pragma);
}
lex_ungetch(lex, '#');
lex->line = line;
return false;
}
/* Skip whitespace and comments and return the first
* non-white character.
* As this makes use of the above getch() ungetch() functions,
* we don't need to care at all about line numbering anymore.
*
* In theory, this function should only be used at the beginning
* of lexing, or when we *know* the next character is part of the token.
* Otherwise, if the parser throws an error, the linenumber may not be
* the line of the error, but the line of the next token AFTER the error.
*
* This is currently only problematic when using c-like string-continuation,
* since comments and whitespaces are allowed between 2 such strings.
* Example:
printf( "line one\n"
// A comment
"A continuation of the previous string"
// This line is skipped
, foo);
* In this case, if the parse decides it didn't actually want a string,
* and uses lex->line to print an error, it will show the ', foo);' line's
* linenumber.
*
* On the other hand, the parser is supposed to remember the line of the next
* token's beginning. In this case we would want skipwhite() to be called
* AFTER reading a token, so that the parser, before reading the NEXT token,
* doesn't store teh *comment's* linenumber, but the actual token's linenumber.
*
* THIS SOLUTION
* here is to store the line of the first character after skipping
* the initial whitespace in lex->sline, this happens in lex_do.
*/
static int lex_skipwhite(lex_file *lex)
{
int ch = 0;
bool haswhite = false;
do
{
ch = lex_getch(lex);
while (ch != EOF && isspace(ch)) {
if (ch == '\n') {
if (lex_try_pragma(lex))
continue;
}
if (lex->flags.preprocessing) {
if (ch == '\n') {
/* end-of-line */
/* see if there was whitespace first */
if (haswhite) { /* (vec_size(lex->tok.value)) { */
lex_ungetch(lex, ch);
lex_endtoken(lex);
return TOKEN_WHITE;
}
/* otherwise return EOL */
return TOKEN_EOL;
}
haswhite = true;
lex_tokench(lex, ch);
}
ch = lex_getch(lex);
}
if (ch == '/') {
ch = lex_getch(lex);
if (ch == '/')
{
/* one line comment */
ch = lex_getch(lex);
if (lex->flags.preprocessing) {
haswhite = true;
/*
lex_tokench(lex, '/');
lex_tokench(lex, '/');
*/
lex_tokench(lex, ' ');
lex_tokench(lex, ' ');
}
while (ch != EOF && ch != '\n') {
if (lex->flags.preprocessing)
lex_tokench(lex, ' '); /* ch); */
ch = lex_getch(lex);
}
if (lex->flags.preprocessing) {
lex_ungetch(lex, '\n');
lex_endtoken(lex);
return TOKEN_WHITE;
}
continue;
}
if (ch == '*')
{
/* multiline comment */
if (lex->flags.preprocessing) {
haswhite = true;
/*
lex_tokench(lex, '/');
lex_tokench(lex, '*');
*/
lex_tokench(lex, ' ');
lex_tokench(lex, ' ');
}
while (ch != EOF)
{
ch = lex_getch(lex);
if (ch == '*') {
ch = lex_getch(lex);
if (ch == '/') {
if (lex->flags.preprocessing) {
/*
lex_tokench(lex, '*');
lex_tokench(lex, '/');
*/
lex_tokench(lex, ' ');
lex_tokench(lex, ' ');
}
break;
}
}
if (lex->flags.preprocessing) {
lex_tokench(lex, ' '); /* ch); */
}
}
ch = ' '; /* cause TRUE in the isspace check */
continue;
}
/* Otherwise roll back to the slash and break out of the loop */
lex_ungetch(lex, ch);
ch = '/';
break;
}
} while (ch != EOF && isspace(ch));
if (haswhite) {
lex_endtoken(lex);
lex_ungetch(lex, ch);
return TOKEN_WHITE;
}
return ch;
}
/* Get a token */
static bool GMQCC_WARN lex_finish_ident(lex_file *lex)
{
int ch;
ch = lex_getch(lex);
while (ch != EOF && isident(ch))
{
lex_tokench(lex, ch);
ch = lex_getch(lex);
}
/* last ch was not an ident ch: */
lex_ungetch(lex, ch);
return true;
}
/* read one ident for the frame list */
static int lex_parse_frame(lex_file *lex)
{
int ch;
lex_token_new(lex);
ch = lex_getch(lex);
while (ch != EOF && ch != '\n' && isspace(ch))
ch = lex_getch(lex);
if (ch == '\n')
return 1;
if (!isident_start(ch)) {
lexerror(lex, "invalid framename, must start with one of a-z or _, got %c", ch);
return -1;
}
lex_tokench(lex, ch);
if (!lex_finish_ident(lex))
return -1;
lex_endtoken(lex);
return 0;
}
/* read a list of $frames */
static bool lex_finish_frames(lex_file *lex)
{
do {
size_t i;
int rc;
frame_macro m;
rc = lex_parse_frame(lex);
if (rc > 0) /* end of line */
return true;
if (rc < 0) /* error */
return false;
for (i = 0; i < vec_size(lex->frames); ++i) {
if (!strcmp(lex->tok.value, lex->frames[i].name)) {
lex->frames[i].value = lex->framevalue++;
if (lexwarn(lex, WARN_FRAME_MACROS, "duplicate frame macro defined: `%s`", lex->tok.value))
return false;
break;
}
}
if (i < vec_size(lex->frames))
continue;
m.value = lex->framevalue++;
m.name = util_strdup(lex->tok.value);
vec_shrinkto(lex->tok.value, 0);
vec_push(lex->frames, m);
} while (true);
}
static int GMQCC_WARN lex_finish_string(lex_file *lex, int quote)
{
int ch = 0;
while (ch != EOF)
{
ch = lex_getch(lex);
if (ch == quote)
return TOKEN_STRINGCONST;
if (lex->flags.preprocessing && ch == '\\') {
lex_tokench(lex, ch);
ch = lex_getch(lex);
if (ch == EOF) {
lexerror(lex, "unexpected end of file");
lex_ungetch(lex, EOF); /* next token to be TOKEN_EOF */
return (lex->tok.ttype = TOKEN_ERROR);
}
lex_tokench(lex, ch);
}
else if (ch == '\\') {
ch = lex_getch(lex);
if (ch == EOF) {
lexerror(lex, "unexpected end of file");
lex_ungetch(lex, EOF); /* next token to be TOKEN_EOF */
return (lex->tok.ttype = TOKEN_ERROR);
}
switch (ch) {
case '\\': break;
case '\'': break;
case '"': break;
case 'a': ch = '\a'; break;
case 'b': ch = '\b'; break;
case 'r': ch = '\r'; break;
case 'n': ch = '\n'; break;
case 't': ch = '\t'; break;
case 'f': ch = '\f'; break;
case 'v': ch = '\v'; break;
default:
lexwarn(lex, WARN_UNKNOWN_CONTROL_SEQUENCE, "unrecognized control sequence: \\%c", ch);
/* so we just add the character plus backslash no matter what it actually is */
lex_tokench(lex, '\\');
}
/* add the character finally */
lex_tokench(lex, ch);
}
else
lex_tokench(lex, ch);
}
lexerror(lex, "unexpected end of file within string constant");
lex_ungetch(lex, EOF); /* next token to be TOKEN_EOF */
return (lex->tok.ttype = TOKEN_ERROR);
}
static int GMQCC_WARN lex_finish_digit(lex_file *lex, int lastch)
{
bool ishex = false;
int ch = lastch;
/* parse a number... */
lex->tok.ttype = TOKEN_INTCONST;
lex_tokench(lex, ch);
ch = lex_getch(lex);
if (ch != '.' && !isdigit(ch))
{
if (lastch != '0' || ch != 'x')
{
/* end of the number or EOF */
lex_ungetch(lex, ch);
lex_endtoken(lex);
lex->tok.constval.i = lastch - '0';
return lex->tok.ttype;
}
ishex = true;
}
/* EOF would have been caught above */
if (ch != '.')
{
lex_tokench(lex, ch);
ch = lex_getch(lex);
while (isdigit(ch) || (ishex && isxdigit_only(ch)))
{
lex_tokench(lex, ch);
ch = lex_getch(lex);
}
}
/* NOT else, '.' can come from above as well */
if (ch == '.' && !ishex)
{
/* Allow floating comma in non-hex mode */
lex->tok.ttype = TOKEN_FLOATCONST;
lex_tokench(lex, ch);
/* continue digits-only */
ch = lex_getch(lex);
while (isdigit(ch))
{
lex_tokench(lex, ch);
ch = lex_getch(lex);
}
}
/* put back the last character */
/* but do not put back the trailing 'f' or a float */
if (lex->tok.ttype == TOKEN_FLOATCONST && ch == 'f')
ch = lex_getch(lex);
/* generally we don't want words to follow numbers: */
if (isident(ch)) {
lexerror(lex, "unexpected trailing characters after number");
return (lex->tok.ttype = TOKEN_ERROR);
}
lex_ungetch(lex, ch);
lex_endtoken(lex);
if (lex->tok.ttype == TOKEN_FLOATCONST)
lex->tok.constval.f = strtod(lex->tok.value, NULL);
else
lex->tok.constval.i = strtol(lex->tok.value, NULL, 0);
return lex->tok.ttype;
}
int lex_do(lex_file *lex)
{
int ch, nextch;
lex_token_new(lex);
#if 0
if (!lex->tok)
return TOKEN_FATAL;
#endif
while (true) {
ch = lex_skipwhite(lex);
if (!lex->flags.mergelines || ch != '\\')
break;
ch = lex_getch(lex);
if (ch != '\n') {
lex_ungetch(lex, ch);
ch = '\\';
break;
}
/* we reached a linemerge */
lex_tokench(lex, '\n');
continue;
}
lex->sline = lex->line;
lex->tok.ctx.line = lex->sline;
lex->tok.ctx.file = lex->name;
if (lex->flags.preprocessing && (ch == TOKEN_WHITE || ch == TOKEN_EOL || ch == TOKEN_FATAL)) {
return (lex->tok.ttype = ch);
}
if (lex->eof)
return (lex->tok.ttype = TOKEN_FATAL);
if (ch == EOF) {
lex->eof = true;
return (lex->tok.ttype = TOKEN_EOF);
}
/* modelgen / spiritgen commands */
if (ch == '$') {
const char *v;
size_t frame;
ch = lex_getch(lex);
if (!isident_start(ch)) {
lexerror(lex, "hanging '$' modelgen/spritegen command line");
return lex_do(lex);
}
lex_tokench(lex, ch);
if (!lex_finish_ident(lex))
return (lex->tok.ttype = TOKEN_ERROR);
lex_endtoken(lex);
/* skip the known commands */
v = lex->tok.value;
if (!strcmp(v, "frame") || !strcmp(v, "framesave"))
{
/* frame/framesave command works like an enum
* similar to fteqcc we handle this in the lexer.
* The reason for this is that it is sensitive to newlines,
* which the parser is unaware of
*/
if (!lex_finish_frames(lex))
return (lex->tok.ttype = TOKEN_ERROR);
return lex_do(lex);
}
if (!strcmp(v, "framevalue"))
{
ch = lex_getch(lex);
while (ch != EOF && isspace(ch) && ch != '\n')
ch = lex_getch(lex);
if (!isdigit(ch)) {
lexerror(lex, "$framevalue requires an integer parameter");
return lex_do(lex);
}
lex_token_new(lex);
lex->tok.ttype = lex_finish_digit(lex, ch);
lex_endtoken(lex);
if (lex->tok.ttype != TOKEN_INTCONST) {
lexerror(lex, "$framevalue requires an integer parameter");
return lex_do(lex);
}
lex->framevalue = lex->tok.constval.i;
return lex_do(lex);
}
if (!strcmp(v, "framerestore"))
{
int rc;
lex_token_new(lex);
rc = lex_parse_frame(lex);
if (rc > 0) {
lexerror(lex, "$framerestore requires a framename parameter");
return lex_do(lex);
}
if (rc < 0)
return (lex->tok.ttype = TOKEN_FATAL);
v = lex->tok.value;
for (frame = 0; frame < vec_size(lex->frames); ++frame) {
if (!strcmp(v, lex->frames[frame].name)) {
lex->framevalue = lex->frames[frame].value;
return lex_do(lex);
}
}
lexerror(lex, "unknown framename `%s`", v);
return lex_do(lex);
}
if (!strcmp(v, "modelname"))
{
int rc;
lex_token_new(lex);
rc = lex_parse_frame(lex);
if (rc > 0) {
lexerror(lex, "$modelname requires a parameter");
return lex_do(lex);
}
if (rc < 0)
return (lex->tok.ttype = TOKEN_FATAL);
v = lex->tok.value;
if (lex->modelname) {
frame_macro m;
m.value = lex->framevalue;
m.name = lex->modelname;
lex->modelname = NULL;
vec_push(lex->frames, m);
}
lex->modelname = lex->tok.value;
lex->tok.value = NULL;
return lex_do(lex);
}
if (!strcmp(v, "flush"))
{
size_t frame;
for (frame = 0; frame < vec_size(lex->frames); ++frame)
mem_d(lex->frames[frame].name);
vec_free(lex->frames);
/* skip line (fteqcc does it too) */
ch = lex_getch(lex);
while (ch != EOF && ch != '\n')
ch = lex_getch(lex);
return lex_do(lex);
}
if (!strcmp(v, "cd") ||
!strcmp(v, "origin") ||
!strcmp(v, "base") ||
!strcmp(v, "flags") ||
!strcmp(v, "scale") ||
!strcmp(v, "skin"))
{
/* skip line */
ch = lex_getch(lex);
while (ch != EOF && ch != '\n')
ch = lex_getch(lex);
return lex_do(lex);
}
for (frame = 0; frame < vec_size(lex->frames); ++frame) {
if (!strcmp(v, lex->frames[frame].name)) {
lex->tok.constval.i = lex->frames[frame].value;
return (lex->tok.ttype = TOKEN_INTCONST);
}
}
lexerror(lex, "invalid frame macro");
return lex_do(lex);
}
/* single-character tokens */
switch (ch)
{
case '[':
case '(':
lex_tokench(lex, ch);
lex_endtoken(lex);
if (lex->flags.noops)
return (lex->tok.ttype = ch);
else
return (lex->tok.ttype = TOKEN_OPERATOR);
case ')':
case ';':
case ':':
case '{':
case '}':
case ']':
case '#':
lex_tokench(lex, ch);
lex_endtoken(lex);
return (lex->tok.ttype = ch);
default:
break;
}
if (lex->flags.noops)
{
/* Detect characters early which are normally
* operators OR PART of an operator.
*/
switch (ch)
{
case '+':
case '-':
case '*':
case '/':
case '<':
case '>':
case '=':
case '&':
case '|':
case '^':
case '~':
case ',':
case '!':
lex_tokench(lex, ch);
lex_endtoken(lex);
return (lex->tok.ttype = ch);
default:
break;
}
if (ch == '.')
{
lex_tokench(lex, ch);
/* peak ahead once */
nextch = lex_getch(lex);
if (nextch != '.') {
lex_ungetch(lex, nextch);
lex_endtoken(lex);
return (lex->tok.ttype = ch);
}
/* peak ahead again */
nextch = lex_getch(lex);
if (nextch != '.') {
lex_ungetch(lex, nextch);
lex_ungetch(lex, nextch);
lex_endtoken(lex);
return (lex->tok.ttype = ch);
}
/* fill the token to be "..." */
lex_tokench(lex, ch);
lex_tokench(lex, ch);
lex_endtoken(lex);
return (lex->tok.ttype = TOKEN_DOTS);
}
}
if (ch == ',' || ch == '.') {
lex_tokench(lex, ch);
lex_endtoken(lex);
return (lex->tok.ttype = TOKEN_OPERATOR);
}
if (ch == '+' || ch == '-' || /* ++, --, +=, -= and -> as well! */
ch == '>' || ch == '<' || /* <<, >>, <=, >= */
ch == '=' || ch == '!' || /* ==, != */
ch == '&' || ch == '|') /* &&, ||, &=, |= */
{
lex_tokench(lex, ch);
nextch = lex_getch(lex);
if (nextch == ch || nextch == '=') {
lex_tokench(lex, nextch);
} else if (ch == '-' && nextch == '>') {
lex_tokench(lex, nextch);
} else
lex_ungetch(lex, nextch);
lex_endtoken(lex);
return (lex->tok.ttype = TOKEN_OPERATOR);
}
/*
if (ch == '^' || ch == '~' || ch == '!')
{
lex_tokench(lex, ch);
lex_endtoken(lex);
return (lex->tok.ttype = TOKEN_OPERATOR);
}
*/
if (ch == '*' || ch == '/') /* *=, /= */
{
lex_tokench(lex, ch);
nextch = lex_getch(lex);
if (nextch == '=') {
lex_tokench(lex, nextch);
} else
lex_ungetch(lex, nextch);
lex_endtoken(lex);
return (lex->tok.ttype = TOKEN_OPERATOR);
}
if (isident_start(ch))
{
const char *v;
lex_tokench(lex, ch);
if (!lex_finish_ident(lex)) {
/* error? */
return (lex->tok.ttype = TOKEN_ERROR);
}
lex_endtoken(lex);
lex->tok.ttype = TOKEN_IDENT;
v = lex->tok.value;
if (!strcmp(v, "void")) {
lex->tok.ttype = TOKEN_TYPENAME;
lex->tok.constval.t = TYPE_VOID;
} else if (!strcmp(v, "int")) {
lex->tok.ttype = TOKEN_TYPENAME;
lex->tok.constval.t = TYPE_INTEGER;
} else if (!strcmp(v, "float")) {
lex->tok.ttype = TOKEN_TYPENAME;
lex->tok.constval.t = TYPE_FLOAT;
} else if (!strcmp(v, "string")) {
lex->tok.ttype = TOKEN_TYPENAME;
lex->tok.constval.t = TYPE_STRING;
} else if (!strcmp(v, "entity")) {
lex->tok.ttype = TOKEN_TYPENAME;
lex->tok.constval.t = TYPE_ENTITY;
} else if (!strcmp(v, "vector")) {
lex->tok.ttype = TOKEN_TYPENAME;
lex->tok.constval.t = TYPE_VECTOR;
} else if (!strcmp(v, "for") ||
!strcmp(v, "while") ||
!strcmp(v, "do") ||
!strcmp(v, "if") ||
!strcmp(v, "else") ||
!strcmp(v, "local") ||
!strcmp(v, "return") ||
!strcmp(v, "not") ||
!strcmp(v, "const"))
{
lex->tok.ttype = TOKEN_KEYWORD;
}
else if (opts_standard != COMPILER_QCC)
{
/* other standards reserve these keywords */
if (!strcmp(v, "switch") ||
!strcmp(v, "struct") ||
!strcmp(v, "union") ||
!strcmp(v, "break") ||
!strcmp(v, "continue") ||
!strcmp(v, "var"))
{
lex->tok.ttype = TOKEN_KEYWORD;
}
}
return lex->tok.ttype;
}
if (ch == '"')
{
lex->flags.nodigraphs = true;
if (lex->flags.preprocessing)
lex_tokench(lex, ch);
lex->tok.ttype = lex_finish_string(lex, '"');
if (lex->flags.preprocessing)
lex_tokench(lex, ch);
while (!lex->flags.preprocessing && lex->tok.ttype == TOKEN_STRINGCONST)
{
/* Allow c style "string" "continuation" */
ch = lex_skipwhite(lex);
if (ch != '"') {
lex_ungetch(lex, ch);
break;
}
lex->tok.ttype = lex_finish_string(lex, '"');
}
lex->flags.nodigraphs = false;
lex_endtoken(lex);
return lex->tok.ttype;
}
if (ch == '\'')
{
/* we parse character constants like string,
* but return TOKEN_CHARCONST, or a vector type if it fits...
* Likewise actual unescaping has to be done by the parser.
* The difference is we don't allow 'char' 'continuation'.
*/
if (lex->flags.preprocessing)
lex_tokench(lex, ch);
lex->tok.ttype = lex_finish_string(lex, '\'');
if (lex->flags.preprocessing)
lex_tokench(lex, ch);
lex_endtoken(lex);
/* It's a vector if we can successfully scan 3 floats */
#ifdef WIN32
if (sscanf_s(lex->tok.value, " %f %f %f ",
&lex->tok.constval.v.x, &lex->tok.constval.v.y, &lex->tok.constval.v.z) == 3)
#else
if (sscanf(lex->tok.value, " %f %f %f ",
&lex->tok.constval.v.x, &lex->tok.constval.v.y, &lex->tok.constval.v.z) == 3)
#endif
{
lex->tok.ttype = TOKEN_VECTORCONST;
}
return lex->tok.ttype;
}
if (isdigit(ch))
{
lex->tok.ttype = lex_finish_digit(lex, ch);
lex_endtoken(lex);
return lex->tok.ttype;
}
lexerror(lex, "unknown token");
return (lex->tok.ttype = TOKEN_ERROR);
}