NULL
};
-
+static builtins __ds390_builtins[] = {
+ { "__builtin_memcpy_x2x","v",3,{"cx*","cx*","i"}}, /* void __builtin_memcpy_x2x (xdata char *,xdata char *,int) */
+ { "__builtin_memcpy_c2x","v",3,{"cx*","cp*","i"}}, /* void __builtin_memcpy_c2x (xdata char *,code char *,int) */
+ { "__builtin_memset_x","v",3,{"cx*","c","i"}}, /* void __builtin_memset (xdata char *,char,int) */
+ { NULL , NULL,0, {NULL}} /* mark end of table */
+};
void ds390_assignRegisters (eBBlock ** ebbs, int count);
static int regParmFlg = 0; /* determine if we can register a parameter */
port->s.fptr_size = 3;
port->s.gptr_size = 4;
- port->stack.isr_overhead++; /* Will save dpx on ISR entry. */
+ port->stack.isr_overhead += 2; /* Will save dpx on ISR entry. */
- port->stack.call_overhead++; /* This acounts for the extra byte
+ port->stack.call_overhead += 2; /* This acounts for the extra byte
* of return addres on the stack.
* but is ugly. There must be a
* better way.
{
fprintf (stderr,
"*** error: ds390 port only supports the 10 bit stack mode.\n");
+ } else {
+ if (!options.stack_loc) options.stack_loc = 0x400007;
}
+
+ /* generate native code 16*16 mul/div */
+ if (options.useAccelerator)
+ port->support.muldiv=2;
+ else
+ port->support.muldiv=1;
/* Fixup the memory map for the stack; it is now in
* far space and requires a FPOINTER to access it.
fputs ("dph1 = 0x85\t\t; dph1 register unknown to assembler\n", of);
fputs ("dpx1 = 0x95\t\t; dpx1 register unknown to assembler\n", of);
fputs ("ap = 0x9C\t\t; ap register unknown to assembler\n", of);
+ fputs ("mcnt0 = 0xD1\t\t; mcnt0 register unknown to assembler\n", of);
+ fputs ("mcnt1 = 0xD2\t\t; mcnt1 register unknown to assembler\n", of);
+ fputs ("ma = 0xD3\t\t; ma register unknown to assembler\n", of);
+ fputs ("mb = 0xD4\t\t; mb register unknown to assembler\n", of);
+ fputs ("mc = 0xD5\t\t; mc register unknown to assembler\n", of);
+ fputs ("F1 = 0xD1\t\t; F1 user flag unknown to assembler\n", of);
+ fputs ("esp = 0x9B\t\t; ESP user flag unknown to assembler\n", of);
}
/* Generate interrupt vector table. */
return TRUE;
}
+/* Do CSE estimation */
+static bool cseCostEstimation (iCode *ic, iCode *pdic)
+{
+ operand *result = IC_RESULT(ic);
+ //operand *right = IC_RIGHT(ic);
+ //operand *left = IC_LEFT(ic);
+ sym_link *result_type = operandType(result);
+ //sym_link *right_type = (right ? operandType(right) : 0);
+ //sym_link *left_type = (left ? operandType(left) : 0);
+
+ /* if it is a pointer then return ok for now */
+ if (IC_RESULT(ic) && IS_PTR(result_type)) return 1;
+
+ /* if bitwise | add & subtract then no since mcs51 is pretty good at it
+ so we will cse only if they are local (i.e. both ic & pdic belong to
+ the same basic block */
+ if (IS_BITWISE_OP(ic) || ic->op == '+' || ic->op == '-') {
+ /* then if they are the same Basic block then ok */
+ if (ic->eBBlockNum == pdic->eBBlockNum) return 1;
+ else return 0;
+ }
+
+ /* for others it is cheaper to do the cse */
+ return 1;
+}
/** $1 is always the basename.
$2 is always the output file.
$3 varies
"aslink", "-nf", "$1", NULL
};
-static const char *_asmCmd[] =
+/* $3 is replaced by assembler.debug_opts resp. port->assembler.plain_opts */ static const char *_asmCmd[] =
{
- "asx8051", "$l", "-plosgff", "$1.asm", NULL
+ "asx8051", "$l", "$3", "$1.asm", NULL
};
/* Globals */
"XSEG (XDATA)",
"BSEG (BIT)",
"RSEG (DATA)",
- "GSINIT (CODE)",
+ /* "GSINIT (CODE)", */ "CSEG (CODE)",
"OSEG (OVR,DATA)",
"GSFINAL (CODE)",
- "HOME (CODE)",
+ "HOME (CODE)",
+ NULL, // xidata
+ NULL, // xinit
NULL,
NULL,
1
{
+1, 1, 4, 1, 1, 0
},
- /* ds390 has an 8 bit mul */
+ /* ds390 has an 16 bit mul & div */
{
- 1, -1
+ 2, -1
},
"_",
_ds390_init,
_ds390_keywords,
_ds390_genAssemblerPreamble,
_ds390_genIVT,
+ NULL, // _ds390_genXINIT
_ds390_reset_regparm,
_ds390_regparm,
NULL,
NULL,
+ NULL,
FALSE,
0, /* leave lt */
0, /* leave gt */
1, /* transform != to !(a == b) */
0, /* leave == */
TRUE, /* we support array initializers. */
+ cseCostEstimation,
+ __ds390_builtins, /* table of builtin functions */
PORT_MAGIC
};