char * opname = NULL; // Name of dirctve/mnemonic/macro
int listflag; // 0: Don't call listeol()
WORD rmask; // Register list, for REG
- int registerbank; // RISC register bank
- int riscreg; // RISC register
+ int equreg; // RISC register
listflag = 0; // Initialise listing flag
loop: // Line processing loop label
// Skip past label (but record it)
if (j == ':' || j == DCOLON)
{
-as68label:
label = string[tok[1]]; // Get label name
labtyp = tok[2]; // Get label type
tok += 3; // Go to next line token
-
- // AS68 MODE:
- // Looks like another label follows the previous one, so handle
- // the previous one until there aren't any more
- if (as68_flag && (*tok == SYMBOL && tok[2] == ':'))
- {
- if (HandleLabel(label, labtyp) != 0)
- goto loop;
-
- label_defined = label;
-
- goto as68label;
- }
}
// EOL is legal here...
corresponding register bool to true. Whenever it's undef'ed, set it to false.
When checking to see if it's already been equated, issue a warning.
*/
- // Check that we are in a RISC section
- if (!rgpu && !rdsp)
- {
- error(".equr/.regequ must be defined in .gpu/.dsp section");
- goto loop;
- }
// Check for register to equate to
- if ((*tok >= KW_R0) && (*tok <= KW_R31))
+ // This check will change once we split the registers per architecture into their own tables
+ // and out of kw.tab. But for now it'll do...
+ if ((*tok >= KW_D0) && (*tok <= KW_BA))
{
-// sy->sattre = EQUATEDREG | RISCSYM; // Mark as equated register
- sy->sattre = EQUATEDREG; // Mark as equated register
- riscreg = (*tok - KW_R0);
-//is there any reason to do this, since we're putting this in svalue?
-//i'm thinking, no. Let's test that out! :-D
-// sy->sattre |= (riscreg << 8); // Store register number
-//everything seems to build fine without it... We'll leave it here Just In Case(tm)
-
-#define DEBODGE_REGBANK
-#ifdef DEBODGE_REGBANK
- // Default is current state of "regbank"
- registerbank = regbank;
-#else
- // Default is no register bank specified
- registerbank = BANK_N;
-#endif
-
- // Check for ",<bank #>" override notation
- if ((tok[1] == ',') && (tok[2] == CONST))
+ sy->sattre = EQUATEDREG; // Mark as equated register
+ equreg = *tok;
+ // Check for ",<bank #>" override notation and skip past it.
+ // It is ignored now. Was that ever useful anyway?
+ if ((rgpu ||rdsp) && (tok[1] == ',') && (tok[2] == CONST))
{
- // Advance token pointer to the constant
- tok += 3;
-
- // Anything other than a 0 or a 1 will result in "No Bank"
- if (*(uint64_t *)tok == 0)
- registerbank = BANK_0;
- else if (*(uint64_t *)tok == 1)
- registerbank = BANK_1;
-
- // Advance half-way through the 64-bit const.
- // The code below, expecting a regular token,
- // will advance past the second half.
- tok++;
+ // Advance token pointer and skip everything
+ tok += 4;
}
-#ifdef DEBODGE_REGBANK
- sy->sattre |= registerbank; // Store register bank
-#else
-// What needs to happen here is to prime registerbank with regbank, then use
-// registerbank down below for the bank marking.
-#warning "!!! regbank <-> registerbank confusion here !!!"
-// The question here is why, if we're allowed to override the ".regbankN" rules
-// above, then why is it using the one set by the directive in the extended
-// attributes and not in what ends up in symbol->svalue?
-// ".regbankN" is not an original Madmac directive, so it's suspect
- sy->sattre |= regbank; // Store register bank
-#endif
eattr = ABS | DEFINED | GLOBAL;
- eval = riscreg;
+ eval = equreg;
tok++;
}
// Checking for a register symbol
// Make sure symbol is a valid equreg
if (!sy2 || !(sy2->sattre & EQUATEDREG))
{
- error("invalid GPU/DSP .equr/.regequ definition");
+ error("invalid .equr/.regequ definition");
goto loop;
}
else
{
- eattr = ABS | DEFINED | GLOBAL; // Copy symbols attributes
+ eattr = ABS | DEFINED | GLOBAL; // Copy symbol's attributes
sy->sattre = sy2->sattre;
eval = (sy2->svalue & 0xFFFFF0FF);
tok += 2;
}
else
{
- error("invalid GPU/DSP .equr/.regequ definition");
+ error("invalid .equr/.regequ definition");
goto loop;
}
}