void
scan_init(const char *cmdline_program)
{
if (cmdline_program) {
program_fd = -1; /* command line program */
program_string = new_STRING0(strlen(cmdline_program) + 1);
strcpy(program_string->str, cmdline_program);
/* simulate file termination */
program_string->str[program_string->len - 1] = '\n';
buffp = (UChar *) program_string->str;
eof_flag = 1;
} else { /* program from file[s] */
scan_open();
buffp = buffer = (UChar *) zmalloc((size_t) (BUFFSZ + 1));
scan_fillbuff();
}
#ifdef OS2 /* OS/2 "extproc" is similar to #! */
if (strnicmp(buffp, "extproc ", 8) == 0)
eat_comment();
#endif
eat_nl(); /* scan to first token */
if (next() == 0) {
/* no program */
mawk_exit(0);
}
un_next();
}
void
load_environ(ARRAY ENV)
{
CELL c;
register char **p = environ; /* walks environ */
char *s; /* looks for the '=' */
CELL *cp; /* pts at ENV[&c] */
c.type = C_STRING;
while (*p) {
if ((s = strchr(*p, '='))) { /* shouldn't fail */
size_t len = (size_t) (s - *p);
c.ptr = (PTR) new_STRING0(len);
memcpy(string(&c)->str, *p, len);
s++;
cp = array_find(ENV, &c, CREATE);
cp->type = C_MBSTRN;
cp->ptr = (PTR) new_STRING(s);
free_STRING(string(&c));
}
p++;
}
}
CELL *
bi_substr(CELL * sp)
{
int n_args, len;
register int i, n;
STRING *sval; /* substr(sval->str, i, n) */
n_args = sp->type;
sp -= n_args;
if (sp->type != C_STRING)
cast1_to_s(sp);
/* don't use < C_STRING shortcut */
sval = string(sp);
if ((len = (int) sval->len) == 0) /* substr on null string */
{
if (n_args == 3) {
cell_destroy(sp + 2);
}
cell_destroy(sp + 1);
return sp;
}
if (n_args == 2) {
n = MAX__INT;
if (sp[1].type != C_DOUBLE)
cast1_to_d(sp + 1);
} else {
if (TEST2(sp + 1) != TWO_DOUBLES)
cast2_to_d(sp + 1);
n = d_to_i(sp[2].dval);
}
i = d_to_i(sp[1].dval) - 1; /* i now indexes into string */
/*
* Workaround in case someone's written a script that does substr(0,last-1)
* by transforming it into substr(1,last).
*/
if (i < 0) {
n -= i + 1;
i = 0;
}
if (n > len - i) {
n = len - i;
}
if (n <= 0) /* the null string */
{
sp->ptr = (PTR) & null_str;
null_str.ref_cnt++;
} else { /* got something */
sp->ptr = (PTR) new_STRING0((size_t) n);
memcpy(string(sp)->str, sval->str + i, (size_t) n);
}
free_STRING(sval);
return sp;
}
CELL *array_cat(
CELL *sp,
int cnt)
{
CELL *p ; /* walks the eval stack */
CELL subsep ; /* local copy of SUBSEP */
size_t subsep_len ; /* string length of subsep_str */
char *subsep_str ;
size_t total_len ; /* length of cat'ed expression */
CELL *top ; /* value of sp at entry */
char *target ; /* build cat'ed char* here */
STRING *sval ; /* build cat'ed STRING here */
cellcpy(&subsep, SUBSEP) ;
if ( subsep.type < C_STRING ) cast1_to_s(&subsep) ;
subsep_len = string(&subsep)->len ;
subsep_str = string(&subsep)->str ;
assert(cnt > 0);
top = sp ;
sp -= (cnt-1) ;
total_len = ((size_t) (cnt-1)) * subsep_len ;
for(p = sp ; p <= top ; p++) {
if ( p->type < C_STRING ) cast1_to_s(p) ;
total_len += string(p)->len ;
}
sval = new_STRING0(total_len) ;
target = sval->str ;
for(p = sp ; p < top ; p++) {
memcpy(target, string(p)->str, string(p)->len) ;
target += string(p)->len ;
memcpy(target, subsep_str, subsep_len) ;
target += subsep_len ;
}
/* now p == top */
memcpy(target, string(p)->str, string(p)->len) ;
for(p = sp; p <= top ; p++) free_STRING(string(p)) ;
free_STRING(string(&subsep)) ;
/* set contents of sp , sp->type > C_STRING is possible so reset */
sp->type = C_STRING ;
sp->ptr = (PTR) sval ;
return sp ;
}
void
set_field0(char *s, size_t len)
{
cell_destroy(&field[0]);
nf = -1;
if (len) {
field[0].type = C_MBSTRN;
field[0].ptr = (PTR) new_STRING0(len);
memcpy(string(&field[0])->str, s, len);
} else {
field[0].type = C_STRING;
field[0].ptr = (PTR) & null_str;
null_str.ref_cnt++;
}
}
CELL *
bi_tolower(CELL * sp)
{
STRING *old;
register char *p, *q;
if (sp->type != C_STRING)
cast1_to_s(sp);
old = string(sp);
sp->ptr = (PTR) new_STRING0(old->len);
q = string(sp)->str;
p = old->str;
while (*p) {
*q = *p++;
*q = (char) tolower((UChar) * q);
q++;
}
free_STRING(old);
return sp;
}
void
execute(INST * cdp, /* code ptr, start execution here */
CELL *sp, /* eval_stack pointer */
CELL *fp) /* frame ptr into eval_stack for
user defined functions */
{
/* some useful temporaries */
CELL *cp;
int t;
unsigned tu;
/* save state for array loops via a stack */
ALOOP_STATE *aloop_state = (ALOOP_STATE *) 0;
/* for moving the eval stack on deep recursion */
CELL *old_stack_base = 0;
CELL *old_sp = 0;
#ifdef DEBUG
CELL *entry_sp = sp;
#endif
int force_exit = (end_start == 0);
if (fp) {
/* we are a function call, check for deep recursion */
if (sp > stack_danger) { /* change stacks */
old_stack_base = stack_base;
old_sp = sp;
stack_base = (CELL *) zmalloc(sizeof(CELL) * EVAL_STACK_SIZE);
stack_danger = stack_base + DANGER;
sp = stack_base;
/* waste 1 slot for ANSI, actually large model msdos breaks in
RET if we don't */
#ifdef DEBUG
entry_sp = sp;
#endif
} else
old_stack_base = (CELL *) 0;
}
while (1) {
TRACE(("execute %s sp(%ld:%s)\n",
da_op_name(cdp),
(long) (sp - stack_base),
da_type_name(sp)));
switch ((cdp++)->op) {
/* HALT only used by the disassemble now ; this remains
so compilers don't offset the jump table */
case _HALT:
case _STOP: /* only for range patterns */
#ifdef DEBUG
if (sp != entry_sp + 1)
bozo("stop0");
#endif
return;
case _PUSHC:
inc_sp();
cellcpy(sp, (cdp++)->ptr);
break;
case _PUSHD:
inc_sp();
sp->type = C_DOUBLE;
sp->dval = *(double *) (cdp++)->ptr;
break;
case _PUSHS:
inc_sp();
sp->type = C_STRING;
sp->ptr = (cdp++)->ptr;
string(sp)->ref_cnt++;
break;
case F_PUSHA:
cp = (CELL *) cdp->ptr;
if (cp != field) {
if (nf < 0)
split_field0();
if (!(cp >= NF && cp <= LAST_PFIELD)) {
/* it is a real field $1, $2 ...
If it is greater than $NF, we have to
make sure it is set to "" so that
(++|--) and g?sub() work right
*/
t = field_addr_to_index(cp);
if (t > nf) {
cp->type = C_STRING;
cp->ptr = (PTR) & null_str;
null_str.ref_cnt++;
}
}
}
/* fall thru */
case _PUSHA:
case A_PUSHA:
inc_sp();
sp->ptr = (cdp++)->ptr;
break;
case _PUSHI:
/* put contents of next address on stack */
inc_sp();
cellcpy(sp, (cdp++)->ptr);
break;
case L_PUSHI:
/* put the contents of a local var on stack,
cdp->op holds the offset from the frame pointer */
inc_sp();
cellcpy(sp, fp + (cdp++)->op);
break;
case L_PUSHA:
/* put a local address on eval stack */
inc_sp();
sp->ptr = (PTR) (fp + (cdp++)->op);
break;
case F_PUSHI:
/* push contents of $i
cdp[0] holds & $i , cdp[1] holds i */
inc_sp();
if (nf < 0)
split_field0();
cp = (CELL *) cdp->ptr;
t = (cdp + 1)->op;
cdp += 2;
if (t <= nf)
cellcpy(sp, cp);
else { /* an unset field */
sp->type = C_STRING;
sp->ptr = (PTR) & null_str;
null_str.ref_cnt++;
}
break;
case NF_PUSHI:
inc_sp();
if (nf < 0)
split_field0();
cellcpy(sp, NF);
break;
case FE_PUSHA:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
tu = d_to_index(sp->dval);
if (tu && nf < 0)
split_field0();
sp->ptr = (PTR) field_ptr((int) tu);
if ((int) tu > nf) {
/* make sure it is set to "" */
cp = (CELL *) sp->ptr;
cell_destroy(cp);
cp->type = C_STRING;
cp->ptr = (PTR) & null_str;
null_str.ref_cnt++;
}
break;
case FE_PUSHI:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
tu = d_to_index(sp->dval);
if (nf < 0)
split_field0();
if ((int) tu <= nf) {
cellcpy(sp, field_ptr((int) tu));
} else {
sp->type = C_STRING;
sp->ptr = (PTR) & null_str;
null_str.ref_cnt++;
}
break;
case AE_PUSHA:
/* top of stack has an expr, cdp->ptr points at an
array, replace the expr with the cell address inside
the array */
cp = array_find((ARRAY) (cdp++)->ptr, sp, CREATE);
cell_destroy(sp);
sp->ptr = (PTR) cp;
break;
case AE_PUSHI:
/* top of stack has an expr, cdp->ptr points at an
array, replace the expr with the contents of the
cell inside the array */
cp = array_find((ARRAY) (cdp++)->ptr, sp, CREATE);
cell_destroy(sp);
cellcpy(sp, cp);
break;
case LAE_PUSHI:
/* sp[0] is an expression
cdp->op is offset from frame pointer of a CELL which
has an ARRAY in the ptr field, replace expr
with array[expr]
*/
if (fp != 0) {
cp = array_find((ARRAY) fp[(cdp++)->op].ptr, sp, CREATE);
cell_destroy(sp);
cellcpy(sp, cp);
}
break;
case LAE_PUSHA:
/* sp[0] is an expression
cdp->op is offset from frame pointer of a CELL which
has an ARRAY in the ptr field, replace expr
with & array[expr]
*/
if (fp != 0) {
cp = array_find((ARRAY) fp[(cdp++)->op].ptr, sp, CREATE);
cell_destroy(sp);
sp->ptr = (PTR) cp;
}
break;
case LA_PUSHA:
/* cdp->op is offset from frame pointer of a CELL which
has an ARRAY in the ptr field. Push this ARRAY
on the eval stack
*/
if (fp != 0) {
inc_sp();
sp->ptr = fp[(cdp++)->op].ptr;
}
break;
case SET_ALOOP:
{
ALOOP_STATE *ap = ZMALLOC(ALOOP_STATE);
size_t vector_size;
ap->var = (CELL *) sp[-1].ptr;
ap->base = ap->ptr = array_loop_vector((ARRAY) sp->ptr, &vector_size);
ap->limit = ap->base + vector_size;
sp -= 2;
/* push onto aloop stack */
ap->link = aloop_state;
aloop_state = ap;
cdp += cdp->op;
}
break;
case ALOOP:
{
ALOOP_STATE *ap = aloop_state;
if (ap != 0 && (ap->ptr < ap->limit)) {
cell_destroy(ap->var);
ap->var->type = C_STRING;
ap->var->ptr = (PTR) * ap->ptr++;
cdp += cdp->op;
} else {
cdp++;
}
}
break;
case POP_AL:
{
/* finish up an array loop */
ALOOP_STATE *ap = aloop_state;
if (ap != 0) {
aloop_state = ap->link;
while (ap->ptr < ap->limit) {
free_STRING(*ap->ptr);
ap->ptr++;
}
if (ap->base < ap->limit) {
zfree(ap->base,
((unsigned) (ap->limit - ap->base)
* sizeof(STRING *)));
}
ZFREE(ap);
}
}
break;
case _POP:
cell_destroy(sp);
sp--;
break;
case _ASSIGN:
/* top of stack has an expr, next down is an
address, put the expression in *address and
replace the address with the expression */
/* don't propagate type C_MBSTRN */
if (sp->type == C_MBSTRN)
check_strnum(sp);
sp--;
cell_destroy(((CELL *) sp->ptr));
cellcpy(sp, cellcpy(sp->ptr, sp + 1));
cell_destroy(sp + 1);
break;
case F_ASSIGN:
/* assign to a field */
if (sp->type == C_MBSTRN)
check_strnum(sp);
sp--;
field_assign((CELL *) sp->ptr, sp + 1);
cell_destroy(sp + 1);
cellcpy(sp, (CELL *) sp->ptr);
break;
case _ADD_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
#ifdef SW_FP_CHECK /* specific to V7 and XNX23A */
clrerr();
#endif
cp->dval += (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = cp->dval;
break;
case _SUB_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
#ifdef SW_FP_CHECK
clrerr();
#endif
cp->dval -= (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = cp->dval;
break;
case _MUL_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
#ifdef SW_FP_CHECK
clrerr();
#endif
cp->dval *= (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = cp->dval;
break;
case _DIV_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
#ifdef NOINFO_SIGFPE
CHECK_DIVZERO(sp->dval);
#endif
#ifdef SW_FP_CHECK
clrerr();
#endif
cp->dval /= (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = cp->dval;
break;
case _MOD_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
#ifdef NOINFO_SIGFPE
CHECK_DIVZERO(sp->dval);
#endif
cp->dval = fmod(cp->dval, (sp--)->dval);
sp->type = C_DOUBLE;
sp->dval = cp->dval;
break;
case _POW_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
cp->dval = pow(cp->dval, (sp--)->dval);
sp->type = C_DOUBLE;
sp->dval = cp->dval;
break;
/* will anyone ever use these ? */
case F_ADD_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
cast1_to_d(cellcpy(&tc, cp));
#ifdef SW_FP_CHECK
clrerr();
#endif
tc.dval += (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = tc.dval;
field_assign(cp, &tc);
break;
case F_SUB_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
cast1_to_d(cellcpy(&tc, cp));
#ifdef SW_FP_CHECK
clrerr();
#endif
tc.dval -= (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = tc.dval;
field_assign(cp, &tc);
break;
case F_MUL_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
cast1_to_d(cellcpy(&tc, cp));
#ifdef SW_FP_CHECK
clrerr();
#endif
tc.dval *= (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = tc.dval;
field_assign(cp, &tc);
break;
case F_DIV_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
cast1_to_d(cellcpy(&tc, cp));
#ifdef NOINFO_SIGFPE
CHECK_DIVZERO(sp->dval);
#endif
#ifdef SW_FP_CHECK
clrerr();
#endif
tc.dval /= (sp--)->dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
sp->type = C_DOUBLE;
sp->dval = tc.dval;
field_assign(cp, &tc);
break;
case F_MOD_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
cast1_to_d(cellcpy(&tc, cp));
#ifdef NOINFO_SIGFPE
CHECK_DIVZERO(sp->dval);
#endif
tc.dval = fmod(tc.dval, (sp--)->dval);
sp->type = C_DOUBLE;
sp->dval = tc.dval;
field_assign(cp, &tc);
break;
case F_POW_ASG:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
cp = (CELL *) (sp - 1)->ptr;
cast1_to_d(cellcpy(&tc, cp));
tc.dval = pow(tc.dval, (sp--)->dval);
sp->type = C_DOUBLE;
sp->dval = tc.dval;
field_assign(cp, &tc);
break;
case _ADD:
sp--;
if (TEST2(sp) != TWO_DOUBLES)
cast2_to_d(sp);
#ifdef SW_FP_CHECK
clrerr();
#endif
sp[0].dval += sp[1].dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
break;
case _SUB:
sp--;
if (TEST2(sp) != TWO_DOUBLES)
cast2_to_d(sp);
#ifdef SW_FP_CHECK
clrerr();
#endif
sp[0].dval -= sp[1].dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
break;
case _MUL:
sp--;
if (TEST2(sp) != TWO_DOUBLES)
cast2_to_d(sp);
#ifdef SW_FP_CHECK
clrerr();
#endif
sp[0].dval *= sp[1].dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
break;
case _DIV:
sp--;
if (TEST2(sp) != TWO_DOUBLES)
cast2_to_d(sp);
#ifdef NOINFO_SIGFPE
CHECK_DIVZERO(sp[1].dval);
#endif
#ifdef SW_FP_CHECK
clrerr();
#endif
sp[0].dval /= sp[1].dval;
#ifdef SW_FP_CHECK
fpcheck();
#endif
break;
case _MOD:
sp--;
if (TEST2(sp) != TWO_DOUBLES)
cast2_to_d(sp);
#ifdef NOINFO_SIGFPE
CHECK_DIVZERO(sp[1].dval);
#endif
sp[0].dval = fmod(sp[0].dval, sp[1].dval);
break;
case _POW:
sp--;
if (TEST2(sp) != TWO_DOUBLES)
cast2_to_d(sp);
sp[0].dval = pow(sp[0].dval, sp[1].dval);
break;
case _NOT:
/* evaluates to 0.0 or 1.0 */
reswitch_1:
switch (sp->type) {
case C_NOINIT:
sp->dval = 1.0;
break;
case C_DOUBLE:
sp->dval = sp->dval != 0.0 ? 0.0 : 1.0;
break;
case C_FIELDWIDTHS:
case C_STRING:
sp->dval = string(sp)->len ? 0.0 : 1.0;
free_STRING(string(sp));
break;
case C_STRNUM: /* test as a number */
sp->dval = sp->dval != 0.0 ? 0.0 : 1.0;
free_STRING(string(sp));
break;
case C_MBSTRN:
check_strnum(sp);
goto reswitch_1;
default:
bozo("bad type on eval stack");
}
sp->type = C_DOUBLE;
break;
case _TEST:
/* evaluates to 0.0 or 1.0 */
reswitch_2:
switch (sp->type) {
case C_NOINIT:
sp->dval = 0.0;
break;
case C_DOUBLE:
sp->dval = sp->dval != 0.0 ? 1.0 : 0.0;
break;
case C_FIELDWIDTHS:
case C_STRING:
sp->dval = string(sp)->len ? 1.0 : 0.0;
free_STRING(string(sp));
break;
case C_STRNUM: /* test as a number */
sp->dval = sp->dval != 0.0 ? 1.0 : 0.0;
free_STRING(string(sp));
break;
case C_MBSTRN:
check_strnum(sp);
goto reswitch_2;
default:
bozo("bad type on eval stack");
}
sp->type = C_DOUBLE;
break;
case _UMINUS:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
sp->dval = -sp->dval;
break;
case _UPLUS:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
break;
case _CAT:
{
size_t len1, len2;
char *str1, *str2;
STRING *b;
sp--;
if (TEST2(sp) != TWO_STRINGS)
cast2_to_s(sp);
str1 = string(sp)->str;
len1 = string(sp)->len;
str2 = string(sp + 1)->str;
len2 = string(sp + 1)->len;
b = new_STRING0(len1 + len2);
memcpy(b->str, str1, len1);
memcpy(b->str + len1, str2, len2);
free_STRING(string(sp));
free_STRING(string(sp + 1));
sp->ptr = (PTR) b;
break;
}
case _PUSHINT:
inc_sp();
sp->type = (short) (cdp++)->op;
break;
case _BUILTIN:
case _PRINT:
sp = (*(PF_CP) (cdp++)->ptr) (sp);
break;
case _POST_INC:
cp = (CELL *) sp->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
sp->type = C_DOUBLE;
sp->dval = cp->dval;
cp->dval += 1.0;
break;
case _POST_DEC:
cp = (CELL *) sp->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
sp->type = C_DOUBLE;
sp->dval = cp->dval;
cp->dval -= 1.0;
break;
case _PRE_INC:
cp = (CELL *) sp->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
sp->dval = cp->dval += 1.0;
sp->type = C_DOUBLE;
break;
case _PRE_DEC:
cp = (CELL *) sp->ptr;
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
sp->dval = cp->dval -= 1.0;
sp->type = C_DOUBLE;
break;
case F_POST_INC:
cp = (CELL *) sp->ptr;
cellcpy(&tc, cp);
cast1_to_d(&tc);
sp->type = C_DOUBLE;
sp->dval = tc.dval;
tc.dval += 1.0;
field_assign(cp, &tc);
break;
case F_POST_DEC:
cp = (CELL *) sp->ptr;
cellcpy(&tc, cp);
cast1_to_d(&tc);
sp->type = C_DOUBLE;
sp->dval = tc.dval;
tc.dval -= 1.0;
field_assign(cp, &tc);
break;
case F_PRE_INC:
cp = (CELL *) sp->ptr;
cast1_to_d(cellcpy(sp, cp));
sp->dval += 1.0;
field_assign(cp, sp);
break;
case F_PRE_DEC:
cp = (CELL *) sp->ptr;
cast1_to_d(cellcpy(sp, cp));
sp->dval -= 1.0;
field_assign(cp, sp);
break;
case _JMP:
cdp += cdp->op;
break;
case _JNZ:
/* jmp if top of stack is non-zero and pop stack */
if (test(sp))
cdp += cdp->op;
else
cdp++;
cell_destroy(sp);
sp--;
break;
case _JZ:
/* jmp if top of stack is zero and pop stack */
if (!test(sp))
cdp += cdp->op;
else
cdp++;
cell_destroy(sp);
sp--;
break;
case _LJZ:
/* special jump for logical and */
/* this is always preceded by _TEST */
if (sp->dval == 0.0) {
/* take jump, but don't pop stack */
cdp += cdp->op;
} else {
/* pop and don't jump */
sp--;
cdp++;
}
break;
case _LJNZ:
/* special jump for logical or */
/* this is always preceded by _TEST */
if (sp->dval != 0.0) {
/* take jump, but don't pop stack */
cdp += cdp->op;
} else {
/* pop and don't jump */
sp--;
cdp++;
}
break;
/* the relation operations */
/* compare() makes sure string ref counts are OK */
case _EQ:
t = compare(--sp);
sp->type = C_DOUBLE;
sp->dval = t == 0 ? 1.0 : 0.0;
break;
case _NEQ:
t = compare(--sp);
sp->type = C_DOUBLE;
sp->dval = t ? 1.0 : 0.0;
break;
case _LT:
t = compare(--sp);
sp->type = C_DOUBLE;
sp->dval = t < 0 ? 1.0 : 0.0;
break;
case _LTE:
t = compare(--sp);
sp->type = C_DOUBLE;
sp->dval = t <= 0 ? 1.0 : 0.0;
break;
case _GT:
t = compare(--sp);
sp->type = C_DOUBLE;
sp->dval = t > 0 ? 1.0 : 0.0;
break;
case _GTE:
t = compare(--sp);
sp->type = C_DOUBLE;
sp->dval = t >= 0 ? 1.0 : 0.0;
break;
case _MATCH0:
/* does $0 match, the RE at cdp? */
inc_sp();
if (field->type >= C_STRING) {
sp->type = C_DOUBLE;
sp->dval = (REtest(string(field)->str,
string(field)->len,
cast_to_re((cdp++)->ptr))
? 1.0
: 0.0);
break /* the case */ ;
} else {
cellcpy(sp, field);
/* and FALL THRU */
}
case _MATCH1:
/* does expr at sp[0] match RE at cdp */
if (sp->type < C_STRING)
cast1_to_s(sp);
t = REtest(string(sp)->str,
string(sp)->len,
cast_to_re((cdp++)->ptr));
free_STRING(string(sp));
sp->type = C_DOUBLE;
sp->dval = t ? 1.0 : 0.0;
break;
case _MATCH2:
/* does sp[-1] match sp[0] as re */
cast_to_RE(sp);
if ((--sp)->type < C_STRING)
cast1_to_s(sp);
t = REtest(string(sp)->str,
string(sp)->len,
cast_to_re((sp + 1)->ptr));
free_STRING(string(sp));
no_leaks_re_ptr((sp + 1)->ptr);
sp->type = C_DOUBLE;
sp->dval = t ? 1.0 : 0.0;
break;
case A_LENGTH:
sp--;
sp->type = C_DOUBLE;
sp->dval = (double) (((ARRAY) ((sp + 0)->ptr))->size);
break;
case A_TEST:
/* entry : sp[0].ptr-> an array
sp[-1] is an expression
we compute (expression in array) */
sp--;
cp = array_find((sp + 1)->ptr, sp, NO_CREATE);
cell_destroy(sp);
sp->type = C_DOUBLE;
sp->dval = (cp != (CELL *) 0) ? 1.0 : 0.0;
break;
case A_DEL:
/* sp[0].ptr -> array
sp[-1] is an expr
delete array[expr] */
array_delete(sp->ptr, sp - 1);
cell_destroy(sp - 1);
sp -= 2;
break;
case DEL_A:
/* free all the array at once */
array_clear(sp->ptr);
sp--;
break;
/* form a multiple array index */
case A_CAT:
sp = array_cat(sp, (cdp++)->op);
break;
case _EXIT:
if (sp->type != C_DOUBLE)
cast1_to_d(sp);
exit_code = d_to_i(sp->dval);
sp--;
/* fall thru */
case _EXIT0:
if (force_exit)
mawk_exit(exit_code);
cdp = end_start;
force_exit = 1; /* makes sure next exit exits */
if (begin_start) {
free_codes("BEGIN", begin_start, begin_size);
begin_start = 0;
begin_size = 0;
}
if (main_start) {
free_codes("MAIN", main_start, main_size);
main_start = 0;
main_size = 0;
}
sp = eval_stack - 1; /* might be in user function */
CLEAR_ALOOP_STACK(); /* ditto */
break;
case _JMAIN: /* go from BEGIN code to MAIN code */
free_codes("BEGIN", begin_start, begin_size);
begin_start = 0;
begin_size = 0;
cdp = main_start;
break;
case _OMAIN:
if (!main_fin)
open_main();
restart_label = cdp;
cdp = next_label;
break;
case _NEXT:
/* next might be inside an aloop -- clear stack */
CLEAR_ALOOP_STACK();
cdp = next_label;
break;
case _NEXTFILE:
/* nextfile might be inside an aloop -- clear stack */
CLEAR_ALOOP_STACK();
FINsemi_close(main_fin);
cdp = next_label;
break;
case OL_GL:
{
char *p;
size_t len;
if (!(p = FINgets(main_fin, &len))) {
if (force_exit)
mawk_exit(0);
cdp = end_start;
zfree(main_start, main_size);
main_start = (INST *) 0;
force_exit = 1;
} else {
set_field0(p, len);
cdp = restart_label;
rt_nr++;
rt_fnr++;
}
}
break;
/* two kinds of OL_GL is a historical stupidity from working on
a machine with very slow floating point emulation */
case OL_GL_NR:
{
char *p;
size_t len;
if (!(p = FINgets(main_fin, &len))) {
if (force_exit)
mawk_exit(0);
cdp = end_start;
zfree(main_start, main_size);
main_start = (INST *) 0;
force_exit = 1;
} else {
set_field0(p, len);
cdp = restart_label;
if (TEST2(NR) != TWO_DOUBLES)
cast2_to_d(NR);
NR->dval += 1.0;
rt_nr++;
FNR->dval += 1.0;
rt_fnr++;
}
}
break;
case _RANGE:
/* test a range pattern: pat1, pat2 { action }
entry :
cdp[0].op -- a flag, test pat1 if on else pat2
cdp[1].op -- offset of pat2 code from cdp
cdp[2].op -- offset of action code from cdp
cdp[3].op -- offset of code after the action from cdp
cdp[4] -- start of pat1 code
*/
#define FLAG cdp[0].op
#define PAT2 cdp[1].op
#define ACTION cdp[2].op
#define FOLLOW cdp[3].op
#define PAT1 4
if (FLAG) /* test against pat1 */
{
execute(cdp + PAT1, sp, fp);
t = test(sp + 1);
cell_destroy(sp + 1);
if (t)
FLAG = 0;
else {
cdp += FOLLOW;
break; /* break the switch */
}
}
/* test against pat2 and then perform the action */
execute(cdp + PAT2, sp, fp);
FLAG = test(sp + 1);
cell_destroy(sp + 1);
cdp += ACTION;
break;
/* function calls */
case _RET0:
inc_sp();
sp->type = C_NOINIT;
/* fall thru */
case _RET:
#ifdef DEBUG
if (sp != entry_sp + 1)
bozo("ret");
#endif
if (old_stack_base) /* reset stack */
{
/* move the return value */
cellcpy(old_sp + 1, sp);
cell_destroy(sp);
zfree(stack_base, sizeof(CELL) * EVAL_STACK_SIZE);
stack_base = old_stack_base;
stack_danger = old_stack_base + DANGER;
}
/* return might be inside an aloop -- clear stack */
CLEAR_ALOOP_STACK();
return;
case _CALL:
/* cdp[0] holds ptr to "function block"
cdp[1] holds number of input arguments
*/
{
FBLOCK *fbp = (FBLOCK *) (cdp++)->ptr;
int a_args = (cdp++)->op; /* actual number of args */
CELL *nfp = sp - a_args + 1; /* new fp for callee */
CELL *local_p = sp + 1; /* first local argument on stack */
char *type_p = 0; /* pts to type of an argument */
if (fbp->nargs)
type_p = fbp->typev + a_args - 1;
/* create space for locals */
t = fbp->nargs - a_args; /* t is number of locals */
while (t > 0) {
t--;
sp++;
type_p++;
sp->type = C_NOINIT;
if ((type_p) != 0 && (*type_p == ST_LOCAL_ARRAY))
sp->ptr = (PTR) new_ARRAY();
}
execute(fbp->code, sp, nfp);
/* cleanup the callee's arguments */
/* putting return value at top of eval stack */
if ((type_p != 0) && (sp >= nfp)) {
cp = sp + 1; /* cp -> the function return */
do {
if (*type_p == ST_LOCAL_ARRAY) {
if (sp >= local_p) {
array_clear(sp->ptr);
ZFREE((ARRAY) sp->ptr);
}
} else {
cell_destroy(sp);
}
type_p--;
sp--;
}
while (sp >= nfp);
cellcpy(++sp, cp);
cell_destroy(cp);
} else
sp++; /* no arguments passed */
}
break;
default:
bozo("bad opcode");
}
}
}
static void
build_field0(void)
{
#ifdef DEBUG
if (nf < 0)
bozo("nf <0 in build_field0");
#endif
cell_destroy(field + 0);
if (nf == 0) {
field[0].type = C_STRING;
field[0].ptr = (PTR) & null_str;
null_str.ref_cnt++;
} else if (nf == 1) {
cellcpy(field, field + 1);
} else {
CELL c;
STRING *ofs, *tail;
size_t len;
register CELL *cp;
register char *p, *q;
int cnt;
CELL **fbp, *cp_limit;
cast1_to_s(cellcpy(&c, OFS));
ofs = (STRING *) c.ptr;
cast1_to_s(cellcpy(&c, field_ptr(nf)));
tail = (STRING *) c.ptr;
cnt = nf - 1;
len = ((size_t) cnt) * ofs->len + tail->len;
fbp = fbank;
cp_limit = field + FBANK_SZ;
cp = field + 1;
while (cnt-- > 0) {
if (cp->type < C_STRING) { /* use the string field temporarily */
if (cp->type == C_NOINIT) {
cp->ptr = (PTR) & null_str;
null_str.ref_cnt++;
} else { /* its a double */
Int ival;
char xbuff[260];
ival = d_to_I(cp->dval);
if (ival == cp->dval)
sprintf(xbuff, INT_FMT, ival);
else
sprintf(xbuff, string(CONVFMT)->str, cp->dval);
cp->ptr = (PTR) new_STRING(xbuff);
}
}
len += string(cp)->len;
if (++cp == cp_limit) {
cp = *++fbp;
cp_limit = cp + FBANK_SZ;
}
}
field[0].type = C_STRING;
field[0].ptr = (PTR) new_STRING0(len);
p = string(field)->str;
/* walk it again , putting things together */
cnt = nf - 1;
fbp = fbank;
cp = field + 1;
cp_limit = field + FBANK_SZ;
while (cnt-- > 0) {
memcpy(p, string(cp)->str, string(cp)->len);
p += string(cp)->len;
/* if not really string, free temp use of ptr */
if (cp->type < C_STRING) {
free_STRING(string(cp));
}
if (++cp == cp_limit) {
cp = *++fbp;
cp_limit = cp + FBANK_SZ;
}
/* add the separator */
q = ofs->str;
while (*q)
*p++ = *q++;
}
/* tack tail on the end */
memcpy(p, tail->str, tail->len);
/* cleanup */
free_STRING(tail);
free_STRING(ofs);
}
}
/*
* Note: caller must do CELL cleanup.
* The format parameter is modified, but restored.
*
* This routine does both printf and sprintf (if fp==0)
*/
static STRING *
do_printf(
FILE *fp,
char *format,
unsigned argcnt, /* number of args on eval stack */
CELL *cp) /* ptr to an array of arguments
(on the eval stack) */
{
char save;
char *p;
register char *q = format;
register char *target;
int l_flag, h_flag; /* seen %ld or %hd */
int ast_cnt;
int ast[2];
UInt Uval = 0;
Int Ival = 0;
int sfmt_width, sfmt_prec, sfmt_flags, s_format;
int num_conversion = 0; /* for error messages */
const char *who; /*ditto */
int pf_type = 0; /* conversion type */
PRINTER printer; /* pts at fprintf() or sprintf() */
STRING onechr;
#ifdef SHORT_INTS
char xbuff[256]; /* splice in l qualifier here */
#endif
if (fp == (FILE *) 0) { /* doing sprintf */
target = sprintf_buff;
printer = (PRINTER) sprintf;
who = "sprintf";
} else { /* doing printf */
target = (char *) fp; /* will never change */
printer = (PRINTER) fprintf;
who = "printf";
}
while (1) {
if (fp) { /* printf */
while (*q != '%') {
if (*q == 0) {
if (ferror(fp))
write_error();
/* return is ignored */
return (STRING *) 0;
} else {
putc(*q, fp);
q++;
}
}
} else { /* sprintf */
while (*q != '%') {
if (*q == 0) {
if (target > sprintf_limit) /* damaged */
{
/* hope this works */
rt_overflow("sprintf buffer",
(unsigned) (sprintf_limit - sprintf_buff));
} else { /* really done */
return new_STRING1(sprintf_buff,
(size_t) (target - sprintf_buff));
}
} else {
*target++ = *q++;
}
}
}
/* *q == '%' */
num_conversion++;
if (*++q == '%') { /* %% */
if (fp)
putc(*q, fp);
else
*target++ = *q;
q++;
continue;
}
/* mark the '%' with p */
p = q - 1;
/* eat the flags */
while (*q == '-' || *q == '+' || *q == ' ' ||
*q == '#' || *q == '0')
q++;
ast_cnt = 0;
ast[0] = 0;
if (*q == '*') {
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
ast[ast_cnt++] = d_to_i(cp++->dval);
argcnt--;
q++;
} else
while (scan_code[*(unsigned char *) q] == SC_DIGIT)
q++;
/* width is done */
if (*q == '.') { /* have precision */
q++;
if (*q == '*') {
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
ast[ast_cnt++] = d_to_i(cp++->dval);
argcnt--;
q++;
} else {
while (scan_code[*(unsigned char *) q] == SC_DIGIT)
q++;
}
}
if (argcnt <= 0)
rt_error("not enough arguments passed to %s(\"%s\")",
who, format);
l_flag = h_flag = 0;
if (*q == 'l') {
q++;
l_flag = 1;
} else if (*q == 'h') {
q++;
h_flag = 1;
}
switch (*q++) {
case 's':
if (l_flag + h_flag)
bad_conversion(num_conversion, who, format);
if (cp->type < C_STRING)
cast1_to_s(cp);
pf_type = PF_S;
break;
case 'c':
if (l_flag + h_flag)
bad_conversion(num_conversion, who, format);
switch (cp->type) {
case C_NOINIT:
Ival = 0;
break;
case C_STRNUM:
case C_DOUBLE:
Ival = d_to_I(cp->dval);
break;
case C_STRING:
/* fall thru to check for bad number formats */
//Ival = string(cp)->str[0];
//break;
/* fall thru */
case C_FIELDWIDTHS:
case C_MBSTRN:
check_strnum(cp);
Ival = ((cp->type == C_STRING)
? string(cp)->str[0]
: d_to_I(cp->dval));
break;
default:
bozo("printf %c");
}
onechr.len = 1;
onechr.str[0] = (char) Ival;
pf_type = PF_C;
break;
case 'd':
case 'i':
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
Ival = d_to_I(cp->dval);
pf_type = PF_D;
break;
case 'o':
case 'x':
case 'X':
case 'u':
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
Uval = d_to_U(cp->dval);
pf_type = PF_U;
break;
case 'e':
case 'g':
case 'f':
case 'E':
case 'G':
if (h_flag + l_flag)
bad_conversion(num_conversion, who, format);
if (cp->type != C_DOUBLE)
cast1_to_d(cp);
pf_type = PF_F;
break;
default:
bad_conversion(num_conversion, who, format);
}
save = *q;
*q = 0;
#ifdef SHORT_INTS
if (pf_type == PF_D) {
/* need to splice in long modifier */
strcpy(xbuff, p);
if (l_flag) /* do nothing */ ;
else {
int k = q - p;
if (h_flag) {
Ival = (short) Ival;
/* replace the 'h' with 'l' (really!) */
xbuff[k - 2] = 'l';
if (xbuff[k - 1] != 'd' && xbuff[k - 1] != 'i')
Ival &= 0xffff;
} else {
/* the usual case */
xbuff[k] = xbuff[k - 1];
xbuff[k - 1] = 'l';
xbuff[k + 1] = 0;
}
}
}
#endif
#define PUTS_C_ARGS target, fp, 0, &onechr, sfmt_width, sfmt_prec, sfmt_flags
#define PUTS_S_ARGS target, fp, cp, 0, sfmt_width, sfmt_prec, sfmt_flags
/* ready to call printf() */
s_format = 0;
switch (AST(ast_cnt, pf_type)) {
case AST(0, PF_C):
/* FALLTHRU */
case AST(1, PF_C):
/* FALLTHRU */
case AST(2, PF_C):
s_format = 1;
make_sfmt(p, ast, &sfmt_width, &sfmt_prec, &sfmt_flags);
target = puts_sfmt(PUTS_C_ARGS);
break;
case AST(0, PF_S):
/* FALLTHRU */
case AST(1, PF_S):
/* FALLTHRU */
case AST(2, PF_S):
s_format = 1;
make_sfmt(p, ast, &sfmt_width, &sfmt_prec, &sfmt_flags);
target = puts_sfmt(PUTS_S_ARGS);
break;
#ifdef SHORT_INTS
#define FMT xbuff /* format in xbuff */
#else
#define FMT p /* p -> format */
#endif
case AST(0, PF_D):
if (cp->dval > Max_Int && l_flag == 0
&& h_flag == 0) {
STRING *newp;
char *np;
newp = new_STRING0(strlen(p)+5);
np = (char *) newp->str;
while (*p != '\0') {
if (*p == 'd' || *p == 'i') {
*np++ = '.';
*np++ = '0';
*np++ = 'f';
++p;
} else
*np++ = *p++;
}
np = '\0';
(*printer) ((PTR) target, newp->str, cp->dval);
free_STRING(newp);
} else
(*printer) ((PTR) target, FMT, Ival);
break;
case AST(1, PF_D):
(*printer) ((PTR) target, FMT, ast[0], Ival);
break;
case AST(2, PF_D):
(*printer) ((PTR) target, FMT, ast[0], ast[1], Ival);
break;
case AST(0, PF_U):
if (*(p+1) == 'u' && cp->dval > Max_Int ) {
STRING *newp;
char *np;
newp = new_STRING0(strlen(p)+5);
np = (char *) newp->str;
while (*p != '\0') {
if (*p == 'u') {
*np++ = '.';
*np++ = '0';
*np++ = 'f';
++p;
} else
*np++ = *p++;
}
np = '\0';
(*printer) ((PTR) target, newp->str, cp->dval);
free_STRING(newp);
} else
(*printer) ((PTR) target, FMT, Uval);
break;
case AST(1, PF_U):
(*printer) ((PTR) target, FMT, ast[0], Uval);
break;
case AST(2, PF_U):
(*printer) ((PTR) target, FMT, ast[0], ast[1], Uval);
break;
#undef FMT
case AST(0, PF_F):
(*printer) ((PTR) target, p, cp->dval);
break;
case AST(1, PF_F):
(*printer) ((PTR) target, p, ast[0], cp->dval);
break;
case AST(2, PF_F):
(*printer) ((PTR) target, p, ast[0], ast[1], cp->dval);
break;
}
if (fp == (FILE *) 0 && !s_format) {
while (*target)
target++;
}
*q = save;
argcnt--;
cp++;
}
}
