/*
* Read in a literal real number and add it to the table of constant numbers,
* creating a new entry if necessary. The incoming number is a string
* value which must have a correct format.
* Returns the index of the number in the constant table.
*
* given:
* str string representation of number
*/
long
addnumber(char *str)
{
NUMBER *q;
q = str2q(str);
return addqconstant(q);
}
/*
* Add an opcode to the current function being compiled.
* Note: This can change the curfunc global variable when the
* function needs expanding.
*/
void
addop(long op)
{
register FUNC *fp; /* current function */
NUMBER *q, *q1, *q2;
unsigned long count;
BOOL cut;
int diff;
fp = curfunc;
count = fp->f_opcodecount;
cut = TRUE;
diff = 2;
q = NULL;
if ((count + 5) >= maxopcodes) {
maxopcodes += OPCODEALLOCSIZE;
fp = (FUNC *) malloc(funcsize(maxopcodes));
if (fp == NULL) {
math_error("cannot malloc function");
/*NOTREACHED*/
}
memcpy((char *) fp, (char *) curfunc,
funcsize(curfunc->f_opcodecount));
if (curfunc != functemplate)
free(curfunc);
curfunc = fp;
}
/*
* Check the current opcode against the previous opcode and try to
* slightly optimize the code depending on the various combinations.
*/
switch (op) {
case OP_GETVALUE:
switch (oldop) {
case OP_NUMBER:
case OP_ZERO:
case OP_ONE:
case OP_IMAGINARY:
case OP_GETEPSILON:
case OP_SETEPSILON:
case OP_STRING:
case OP_UNDEF:
case OP_GETCONFIG:
case OP_SETCONFIG:
return;
case OP_DUPLICATE:
diff = 1;
oldop = OP_DUPVALUE;
break;
case OP_FIADDR:
diff = 1;
oldop = OP_FIVALUE;
break;
case OP_GLOBALADDR:
diff = 1 + PTR_SIZE;
oldop = OP_GLOBALVALUE;
break;
case OP_LOCALADDR:
oldop = OP_LOCALVALUE;
break;
case OP_PARAMADDR:
oldop = OP_PARAMVALUE;
break;
case OP_ELEMADDR:
oldop = OP_ELEMVALUE;
break;
default:
cut = FALSE;
}
if (cut) {
fp->f_opcodes[count - diff] = oldop;
return;
}
break;
case OP_POP:
switch (oldop) {
case OP_ASSIGN:
fp->f_opcodes[count-1] = OP_ASSIGNPOP;
oldop = OP_ASSIGNPOP;
return;
case OP_NUMBER:
case OP_IMAGINARY:
q = constvalue(fp->f_opcodes[count-1]);
qfree(q);
break;
case OP_STRING:
sfree(findstring((long)fp->f_opcodes[count-1]));
break;
case OP_LOCALADDR:
case OP_PARAMADDR:
break;
case OP_GLOBALADDR:
diff = 1 + PTR_SIZE;
break;
case OP_UNDEF:
fp->f_opcodecount -= 1;
oldop = OP_NOP;
oldoldop = OP_NOP;
return;
default:
cut = FALSE;
}
if (cut) {
fp->f_opcodecount -= diff;
oldop = OP_NOP;
oldoldop = OP_NOP;
fprintf(stderr,
"Line %ld: unused value ignored\n",
linenumber());
return;
}
break;
case OP_NEGATE:
if (oldop == OP_NUMBER) {
q = constvalue(fp->f_opcodes[count-1]);
fp->f_opcodes[count-1] = addqconstant(qneg(q));
qfree(q);
return;
}
}
if (oldop == OP_NUMBER) {
if (oldoldop == OP_NUMBER) {
q1 = constvalue(fp->f_opcodes[count - 3]);
q2 = constvalue(fp->f_opcodes[count - 1]);
switch (op) {
case OP_DIV:
if (qiszero(q2)) {
cut = FALSE;
break;
}
q = qqdiv(q1,q2);
break;
case OP_MUL:
q = qmul(q1,q2);
break;
case OP_ADD:
q = qqadd(q1,q2);
break;
case OP_SUB:
q = qsub(q1,q2);
break;
case OP_POWER:
if (qisfrac(q2) || qisneg(q2))
cut = FALSE;
else
q = qpowi(q1,q2);
break;
default:
cut = FALSE;
}
if (cut) {
qfree(q1);
qfree(q2);
fp->f_opcodes[count - 3] = addqconstant(q);
fp->f_opcodecount -= 2;
oldoldop = OP_NOP;
return;
}
} else if (op != OP_NUMBER) {
q = constvalue(fp->f_opcodes[count - 1]);
if (op == OP_POWER) {
if (qcmpi(q, 2L) == 0) {
fp->f_opcodecount--;
fp->f_opcodes[count - 2] = OP_SQUARE;
qfree(q);
oldop = OP_SQUARE;
return;
}
if (qcmpi(q, 4L) == 0) {
fp->f_opcodes[count - 2] = OP_SQUARE;
fp->f_opcodes[count - 1] = OP_SQUARE;
qfree(q);
oldop = OP_SQUARE;
return;
}
}
if (qiszero(q)) {
qfree(q);
fp->f_opcodes[count - 2] = OP_ZERO;
fp->f_opcodecount--;
} else if (qisone(q)) {
qfree(q);
fp->f_opcodes[count - 2] = OP_ONE;
fp->f_opcodecount--;
}
}
}
/*
* No optimization possible, so store the opcode.
*/
fp->f_opcodes[fp->f_opcodecount] = op;
fp->f_opcodecount++;
oldoldop = oldop;
oldop = op;
}
