q3rally/engine/code/tools/lcc/cpp/lex.c

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2011-02-18 14:31:32 +00:00
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "cpp.h"
/*
* lexical FSM encoding
* when in state state, and one of the characters
* in ch arrives, enter nextstate.
* States >= S_SELF are either final, or at least require special action.
* In 'fsm' there is a line for each state X charset X nextstate.
* List chars that overwrite previous entries later (e.g. C_ALPH
* can be overridden by '_' by a later entry; and C_XX is the
* the universal set, and should always be first.
* States above S_SELF are represented in the big table as negative values.
* S_SELF and S_SELFB encode the resulting token type in the upper bits.
* These actions differ in that S_SELF doesn't have a lookahead char,
* S_SELFB does.
*
* The encoding is blown out into a big table for time-efficiency.
* Entries have
* nextstate: 6 bits; ?\ marker: 1 bit; tokentype: 9 bits.
*/
#define MAXSTATE 32
#define ACT(tok,act) ((tok<<7)+act)
#define QBSBIT 0100
#define GETACT(st) (st>>7)&0x1ff
/* character classes */
#define C_WS 1
#define C_ALPH 2
#define C_NUM 3
#define C_EOF 4
#define C_XX 5
enum state {
START=0, NUM1, NUM2, NUM3, ID1, ST1, ST2, ST3, COM1, COM2, COM3, COM4,
CC1, CC2, WS1, PLUS1, MINUS1, STAR1, SLASH1, PCT1, SHARP1,
CIRC1, GT1, GT2, LT1, LT2, OR1, AND1, ASG1, NOT1, DOTS1,
S_SELF=MAXSTATE, S_SELFB, S_EOF, S_NL, S_EOFSTR,
S_STNL, S_COMNL, S_EOFCOM, S_COMMENT, S_EOB, S_WS, S_NAME
};
int tottok;
int tokkind[256];
struct fsm {
int state; /* if in this state */
uchar ch[4]; /* and see one of these characters */
int nextstate; /* enter this state if +ve */
};
/*const*/ struct fsm fsm[] = {
/* start state */
{START, { C_XX }, ACT(UNCLASS,S_SELF)},
{START, { ' ', '\t', '\v' }, WS1},
{START, { C_NUM }, NUM1},
{START, { '.' }, NUM3},
{START, { C_ALPH }, ID1},
{START, { 'L' }, ST1},
{START, { '"' }, ST2},
{START, { '\'' }, CC1},
{START, { '/' }, COM1},
{START, { EOFC }, S_EOF},
{START, { '\n' }, S_NL},
{START, { '-' }, MINUS1},
{START, { '+' }, PLUS1},
{START, { '<' }, LT1},
{START, { '>' }, GT1},
{START, { '=' }, ASG1},
{START, { '!' }, NOT1},
{START, { '&' }, AND1},
{START, { '|' }, OR1},
{START, { '#' }, SHARP1},
{START, { '%' }, PCT1},
{START, { '[' }, ACT(SBRA,S_SELF)},
{START, { ']' }, ACT(SKET,S_SELF)},
{START, { '(' }, ACT(LP,S_SELF)},
{START, { ')' }, ACT(RP,S_SELF)},
{START, { '*' }, STAR1},
{START, { ',' }, ACT(COMMA,S_SELF)},
{START, { '?' }, ACT(QUEST,S_SELF)},
{START, { ':' }, ACT(COLON,S_SELF)},
{START, { ';' }, ACT(SEMIC,S_SELF)},
{START, { '{' }, ACT(CBRA,S_SELF)},
{START, { '}' }, ACT(CKET,S_SELF)},
{START, { '~' }, ACT(TILDE,S_SELF)},
{START, { '^' }, CIRC1},
/* saw a digit */
{NUM1, { C_XX }, ACT(NUMBER,S_SELFB)},
{NUM1, { C_NUM, C_ALPH, '.' }, NUM1},
{NUM1, { 'E', 'e' }, NUM2},
{NUM1, { '_' }, ACT(NUMBER,S_SELFB)},
/* saw possible start of exponent, digits-e */
{NUM2, { C_XX }, ACT(NUMBER,S_SELFB)},
{NUM2, { '+', '-' }, NUM1},
{NUM2, { C_NUM, C_ALPH }, NUM1},
{NUM2, { '_' }, ACT(NUMBER,S_SELFB)},
/* saw a '.', which could be a number or an operator */
{NUM3, { C_XX }, ACT(DOT,S_SELFB)},
{NUM3, { '.' }, DOTS1},
{NUM3, { C_NUM }, NUM1},
{DOTS1, { C_XX }, ACT(UNCLASS, S_SELFB)},
{DOTS1, { C_NUM }, NUM1},
{DOTS1, { '.' }, ACT(ELLIPS, S_SELF)},
/* saw a letter or _ */
{ID1, { C_XX }, ACT(NAME,S_NAME)},
{ID1, { C_ALPH, C_NUM }, ID1},
/* saw L (start of wide string?) */
{ST1, { C_XX }, ACT(NAME,S_NAME)},
{ST1, { C_ALPH, C_NUM }, ID1},
{ST1, { '"' }, ST2},
{ST1, { '\'' }, CC1},
/* saw " beginning string */
{ST2, { C_XX }, ST2},
{ST2, { '"' }, ACT(STRING, S_SELF)},
{ST2, { '\\' }, ST3},
{ST2, { '\n' }, S_STNL},
{ST2, { EOFC }, S_EOFSTR},
/* saw \ in string */
{ST3, { C_XX }, ST2},
{ST3, { '\n' }, S_STNL},
{ST3, { EOFC }, S_EOFSTR},
/* saw ' beginning character const */
{CC1, { C_XX }, CC1},
{CC1, { '\'' }, ACT(CCON, S_SELF)},
{CC1, { '\\' }, CC2},
{CC1, { '\n' }, S_STNL},
{CC1, { EOFC }, S_EOFSTR},
/* saw \ in ccon */
{CC2, { C_XX }, CC1},
{CC2, { '\n' }, S_STNL},
{CC2, { EOFC }, S_EOFSTR},
/* saw /, perhaps start of comment */
{COM1, { C_XX }, ACT(SLASH, S_SELFB)},
{COM1, { '=' }, ACT(ASSLASH, S_SELF)},
{COM1, { '*' }, COM2},
{COM1, { '/' }, COM4},
/* saw / then *, start of comment */
{COM2, { C_XX }, COM2},
{COM2, { '\n' }, S_COMNL},
{COM2, { '*' }, COM3},
{COM2, { EOFC }, S_EOFCOM},
/* saw the * possibly ending a comment */
{COM3, { C_XX }, COM2},
{COM3, { '\n' }, S_COMNL},
{COM3, { '*' }, COM3},
{COM3, { '/' }, S_COMMENT},
/* // comment */
{COM4, { C_XX }, COM4},
{COM4, { '\n' }, S_NL},
{COM4, { EOFC }, S_EOFCOM},
/* saw white space, eat it up */
{WS1, { C_XX }, S_WS},
{WS1, { ' ', '\t', '\v' }, WS1},
/* saw -, check --, -=, -> */
{MINUS1, { C_XX }, ACT(MINUS, S_SELFB)},
{MINUS1, { '-' }, ACT(MMINUS, S_SELF)},
{MINUS1, { '=' }, ACT(ASMINUS,S_SELF)},
{MINUS1, { '>' }, ACT(ARROW,S_SELF)},
/* saw +, check ++, += */
{PLUS1, { C_XX }, ACT(PLUS, S_SELFB)},
{PLUS1, { '+' }, ACT(PPLUS, S_SELF)},
{PLUS1, { '=' }, ACT(ASPLUS, S_SELF)},
/* saw <, check <<, <<=, <= */
{LT1, { C_XX }, ACT(LT, S_SELFB)},
{LT1, { '<' }, LT2},
{LT1, { '=' }, ACT(LEQ, S_SELF)},
{LT2, { C_XX }, ACT(LSH, S_SELFB)},
{LT2, { '=' }, ACT(ASLSH, S_SELF)},
/* saw >, check >>, >>=, >= */
{GT1, { C_XX }, ACT(GT, S_SELFB)},
{GT1, { '>' }, GT2},
{GT1, { '=' }, ACT(GEQ, S_SELF)},
{GT2, { C_XX }, ACT(RSH, S_SELFB)},
{GT2, { '=' }, ACT(ASRSH, S_SELF)},
/* = */
{ASG1, { C_XX }, ACT(ASGN, S_SELFB)},
{ASG1, { '=' }, ACT(EQ, S_SELF)},
/* ! */
{NOT1, { C_XX }, ACT(NOT, S_SELFB)},
{NOT1, { '=' }, ACT(NEQ, S_SELF)},
/* & */
{AND1, { C_XX }, ACT(AND, S_SELFB)},
{AND1, { '&' }, ACT(LAND, S_SELF)},
{AND1, { '=' }, ACT(ASAND, S_SELF)},
/* | */
{OR1, { C_XX }, ACT(OR, S_SELFB)},
{OR1, { '|' }, ACT(LOR, S_SELF)},
{OR1, { '=' }, ACT(ASOR, S_SELF)},
/* # */
{SHARP1, { C_XX }, ACT(SHARP, S_SELFB)},
{SHARP1, { '#' }, ACT(DSHARP, S_SELF)},
/* % */
{PCT1, { C_XX }, ACT(PCT, S_SELFB)},
{PCT1, { '=' }, ACT(ASPCT, S_SELF)},
/* * */
{STAR1, { C_XX }, ACT(STAR, S_SELFB)},
{STAR1, { '=' }, ACT(ASSTAR, S_SELF)},
/* ^ */
{CIRC1, { C_XX }, ACT(CIRC, S_SELFB)},
{CIRC1, { '=' }, ACT(ASCIRC, S_SELF)},
{-1}
};
/* first index is char, second is state */
/* increase #states to power of 2 to encourage use of shift */
short bigfsm[256][MAXSTATE];
void
expandlex(void)
{
/*const*/ struct fsm *fp;
int i, j, nstate;
for (fp = fsm; fp->state>=0; fp++) {
for (i=0; fp->ch[i]; i++) {
nstate = fp->nextstate;
if (nstate >= S_SELF)
nstate = ~nstate;
switch (fp->ch[i]) {
case C_XX: /* random characters */
for (j=0; j<256; j++)
bigfsm[j][fp->state] = nstate;
continue;
case C_ALPH:
for (j=0; j<=256; j++)
if (('a'<=j&&j<='z') || ('A'<=j&&j<='Z')
|| j=='_')
bigfsm[j][fp->state] = nstate;
continue;
case C_NUM:
for (j='0'; j<='9'; j++)
bigfsm[j][fp->state] = nstate;
continue;
default:
bigfsm[fp->ch[i]][fp->state] = nstate;
}
}
}
/* install special cases for ? (trigraphs), \ (splicing), runes, and EOB */
for (i=0; i<MAXSTATE; i++) {
for (j=0; j<0xFF; j++)
if (j=='?' || j=='\\') {
if (bigfsm[j][i]>0)
bigfsm[j][i] = ~bigfsm[j][i];
bigfsm[j][i] &= ~QBSBIT;
}
bigfsm[EOB][i] = ~S_EOB;
if (bigfsm[EOFC][i]>=0)
bigfsm[EOFC][i] = ~S_EOF;
}
}
void
fixlex(void)
{
/* do C++ comments? */
if (Cplusplus==0)
bigfsm['/'][COM1] = bigfsm['x'][COM1];
}
/*
* fill in a row of tokens from input, terminated by NL or END
* First token is put at trp->lp.
* Reset is non-zero when the input buffer can be "rewound."
* The value is a flag indicating that possible macros have
* been seen in the row.
*/
int
gettokens(Tokenrow *trp, int reset)
{
register int c, state, oldstate;
register uchar *ip;
register Token *tp, *maxp;
int runelen;
Source *s = cursource;
int nmac = 0;
tp = trp->lp;
ip = s->inp;
if (reset) {
s->lineinc = 0;
if (ip>=s->inl) { /* nothing in buffer */
s->inl = s->inb;
fillbuf(s);
ip = s->inp = s->inb;
} else if (ip >= s->inb+(3*INS/4)) {
memmove(s->inb, ip, 4+s->inl-ip);
s->inl = s->inb+(s->inl-ip);
ip = s->inp = s->inb;
}
}
maxp = &trp->bp[trp->max];
runelen = 1;
for (;;) {
continue2:
if (tp>=maxp) {
trp->lp = tp;
tp = growtokenrow(trp);
maxp = &trp->bp[trp->max];
}
tp->type = UNCLASS;
tp->hideset = 0;
tp->t = ip;
tp->wslen = 0;
tp->flag = 0;
state = START;
for (;;) {
oldstate = state;
c = *ip;
if ((state = bigfsm[c][state]) >= 0) {
ip += runelen;
runelen = 1;
continue;
}
state = ~state;
reswitch:
switch (state&0177) {
case S_SELF:
ip += runelen;
runelen = 1;
case S_SELFB:
tp->type = GETACT(state);
tp->len = ip - tp->t;
tp++;
goto continue2;
case S_NAME: /* like S_SELFB but with nmac check */
tp->type = NAME;
tp->len = ip - tp->t;
nmac |= quicklook(tp->t[0], tp->len>1?tp->t[1]:0);
tp++;
goto continue2;
case S_WS:
tp->wslen = ip - tp->t;
tp->t = ip;
state = START;
continue;
default:
if ((state&QBSBIT)==0) {
ip += runelen;
runelen = 1;
continue;
}
state &= ~QBSBIT;
s->inp = ip;
if (c=='?') { /* check trigraph */
if (trigraph(s)) {
state = oldstate;
continue;
}
goto reswitch;
}
if (c=='\\') { /* line-folding */
if (foldline(s)) {
s->lineinc++;
state = oldstate;
continue;
}
goto reswitch;
}
error(WARNING, "Lexical botch in cpp");
ip += runelen;
runelen = 1;
continue;
case S_EOB:
s->inp = ip;
fillbuf(cursource);
state = oldstate;
continue;
case S_EOF:
tp->type = END;
tp->len = 0;
s->inp = ip;
if (tp!=trp->bp && (tp-1)->type!=NL && cursource->fd!=-1)
error(WARNING,"No newline at end of file");
trp->lp = tp+1;
return nmac;
case S_STNL:
error(ERROR, "Unterminated string or char const");
case S_NL:
tp->t = ip;
tp->type = NL;
tp->len = 1;
tp->wslen = 0;
s->lineinc++;
s->inp = ip+1;
trp->lp = tp+1;
return nmac;
case S_EOFSTR:
error(FATAL, "EOF in string or char constant");
break;
case S_COMNL:
s->lineinc++;
state = COM2;
ip += runelen;
runelen = 1;
if (ip >= s->inb+(7*INS/8)) { /* very long comment */
memmove(tp->t, ip, 4+s->inl-ip);
s->inl -= ip-tp->t;
ip = tp->t+1;
}
continue;
case S_EOFCOM:
error(WARNING, "EOF inside comment");
--ip;
case S_COMMENT:
++ip;
tp->t = ip;
tp->t[-1] = ' ';
tp->wslen = 1;
state = START;
continue;
}
break;
}
ip += runelen;
runelen = 1;
tp->len = ip - tp->t;
tp++;
}
}
/* have seen ?; handle the trigraph it starts (if any) else 0 */
int
trigraph(Source *s)
{
int c;
while (s->inp+2 >= s->inl && fillbuf(s)!=EOF)
;
if (s->inp[1]!='?')
return 0;
c = 0;
switch(s->inp[2]) {
case '=':
c = '#'; break;
case '(':
c = '['; break;
case '/':
c = '\\'; break;
case ')':
c = ']'; break;
case '\'':
c = '^'; break;
case '<':
c = '{'; break;
case '!':
c = '|'; break;
case '>':
c = '}'; break;
case '-':
c = '~'; break;
}
if (c) {
*s->inp = c;
memmove(s->inp+1, s->inp+3, s->inl-s->inp+2);
s->inl -= 2;
}
return c;
}
int
foldline(Source *s)
{
while (s->inp+1 >= s->inl && fillbuf(s)!=EOF)
;
if (s->inp[1] == '\n') {
memmove(s->inp, s->inp+2, s->inl-s->inp+3);
s->inl -= 2;
return 1;
}
return 0;
}
// This doesn't have proper tracking across read() to only remove \r from \r\n sequence.
// The lexer doesn't correctly handle standalone \r anyway though.
int
crlf_to_lf(unsigned char *buf, int n) {
int i, count;
count = 0;
for (i = 0; i < n; i++) {
if (buf[i] == '\r') {
continue;
}
buf[count++] = buf[i];
}
return count;
}
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int
fillbuf(Source *s)
{
int n, nr;
nr = INS/8;
if ((char *)s->inl+nr > (char *)s->inb+INS)
error(FATAL, "Input buffer overflow");
if (s->fd<0 || (n=read(s->fd, (char *)s->inl, INS/8)) <= 0)
n = 0;
n = crlf_to_lf(s->inl, n);
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if ((*s->inp&0xff) == EOB) /* sentinel character appears in input */
*s->inp = EOFC;
s->inl += n;
s->inl[0] = s->inl[1]= s->inl[2]= s->inl[3] = EOB;
if (n==0) {
s->inl[0] = s->inl[1]= s->inl[2]= s->inl[3] = EOFC;
return EOF;
}
return 0;
}
/*
* Push down to new source of characters.
* If fd>0 and str==NULL, then from a file `name';
* if fd==-1 and str, then from the string.
*/
Source *
setsource(char *name, int fd, char *str)
{
Source *s = new(Source);
int len;
s->line = 1;
s->lineinc = 0;
s->fd = fd;
s->filename = name;
s->next = cursource;
s->ifdepth = 0;
cursource = s;
/* slop at right for EOB */
if (str) {
len = strlen(str);
s->inb = domalloc(len+4);
s->inp = s->inb;
strncpy((char *)s->inp, str, len);
} else {
s->inb = domalloc(INS+4);
s->inp = s->inb;
len = 0;
}
s->inl = s->inp+len;
s->inl[0] = s->inl[1] = EOB;
return s;
}
void
unsetsource(void)
{
Source *s = cursource;
if (s->fd>=0) {
close(s->fd);
dofree(s->inb);
}
cursource = s->next;
dofree(s);
}