#define STRCASECMP strcasecmp
#endif
+#ifndef debugf
+#define debugf(frm, rest) _debugf(__FILE__, __LINE__, frm, rest)
+#endif
+void _debugf(char *f, int l, char *frm, ...);
+
+#define NEWREG_DEBUG 0
+//#define USE_ONSTACK
+
+
/*-----------------------------------------------------------------*/
/* At this point we start getting processor specific although */
/* some routines are non-processor specific & can be reused when */
/* since the pack the registers depending strictly on the MCU */
/*-----------------------------------------------------------------*/
-static regs *typeRegWithIdx (int idx, int type, int fixed);
+regs *pic16_typeRegWithIdx (int idx, int type, int fixed);
extern void genpic16Code (iCode *);
-extern void pic16_assignConfigWordValue(int address, int value);
/* Global data */
static struct
set *pic16_dynDirectRegs=NULL;
set *pic16_dynDirectBitRegs=NULL;
set *pic16_dynInternalRegs=NULL;
+set *pic16_dynAccessRegs=NULL;
-static hTab *dynDirectRegNames= NULL;
+static hTab *dynDirectRegNames=NULL;
+static hTab *dynAllocRegNames=NULL;
+static hTab *dynProcRegNames=NULL;
+static hTab *dynAccessRegNames=NULL;
//static hTab *regHash = NULL; /* a hash table containing ALL registers */
-set *pic16_rel_udata=NULL;
-set *pic16_fix_udata=NULL;
-set *pic16_equ_data=NULL;
+extern set *sectNames;
+
+set *pic16_rel_udata=NULL; /* relocatable uninitialized registers */
+set *pic16_fix_udata=NULL; /* absolute uninitialized registers */
+set *pic16_equ_data=NULL; /* registers used by equates */
+set *pic16_int_regs=NULL; /* internal registers placed in access bank 0 to 0x7f */
+set *pic16_acs_udata=NULL; /* access bank variables */
set *pic16_builtin_functions=NULL;
-static int dynrIdx=0x10; //0x20; // starting temporary register rIdx
+static int dynrIdx=0x00; //0x20; // starting temporary register rIdx
static int rDirectIdx=0;
int pic16_nRegs = 128; // = sizeof (regspic16) / sizeof (regs);
* are used to pass and return parameters */
-
+int _inRegAllocator=0; /* flag that marks whther allocReg happens while
+ * inside the register allocator function */
+
static void spillThis (symbol *);
int pic16_ralloc_debug = 0;
fprintf (debugF, "%s", buffer);
/*
- while (isspace(*bufferP)) bufferP++;
+ while (isspace((unsigned char)*bufferP)) bufferP++;
if (bufferP && *bufferP)
lineCurr = (lineCurr ?
static void
debugNewLine (void)
{
- if(!pic16_ralloc_debug)return;
-
- if (debugF)
- fputc ('\n', debugF);
+ if(!pic16_ralloc_debug)return;
+
+ if (debugF)
+ fputc ('\n', debugF);
}
/*-----------------------------------------------------------------*/
/* debugLogClose - closes the debug log file (if opened) */
static void
debugLogClose (void)
{
- if (debugF) {
- fclose (debugF);
- debugF = NULL;
- }
+ if (debugF) {
+ fclose (debugF);
+ debugF = NULL;
+ }
}
#define AOP(op) op->aop
return NULL;
}
-static char *
-decodeOp (unsigned int op)
+char *
+pic16_decodeOp (unsigned int op)
{
if (op < 128 && op > ' ') {
buffer[0] = (op & 0xff);
case IPUSH: return "IPUSH";
case IPOP: return "IPOP";
case PCALL: return "PCALL";
+ case FUNCTION: return "FUNCTION";
case ENDFUNCTION: return "ENDFUNCTION";
case JUMPTABLE: return "JUMPTABLE";
case RRC: return "RRC";
case LABEL: return "LABEL";
case RECEIVE: return "RECEIVE";
case SEND: return "SEND";
+ case DUMMY_READ_VOLATILE: return "DUMMY_READ_VOLATILE";
}
sprintf (buffer, "unkown op %d %c", op, op & 0xff);
return buffer;
}
+
+#if 0
+static char *decodeRegType(short type)
+{
+ switch(type) {
+ case REG_GPR: return "REG_GPR";
+ case REG_PTR: return "REG_PTR";
+ case REG_CND: return "REG_CNT";
+
+ default:
+ return "<unknown>";
+ }
+}
+#endif
+
/*-----------------------------------------------------------------*/
/*-----------------------------------------------------------------*/
static char *
if(name)
dReg->name = Safe_strdup(name);
else {
- sprintf(buffer,"r0x%02X", dReg->rIdx);
- if(type == REG_STK)
- *buffer = 's';
- dReg->name = Safe_strdup(buffer);
+ if(xinst && pc_type == PO_GPR_TEMP) {
+ sprintf(buffer,"0x%02x", dReg->rIdx);
+ } else {
+ sprintf(buffer,"r0x%02x", dReg->rIdx);
+ }
+
+ if(type == REG_STK) {
+ *buffer = 's';
+ }
+ dReg->name = Safe_strdup(buffer);
}
dReg->isFree = 0;
dReg->wasUsed = 1;
-
-// dReg->isMapped = 0;
dReg->isEmitted = 0;
if(type == REG_SFR) {
dReg->accessBank = 0;
}
-// fprintf(stderr,"newReg: %s, rIdx = 0x%02x\taccess= %d\n",dReg->name,rIdx, dReg->accessBank);
-
+#if NEWREG_DEBUG
+ fprintf(stderr,"newReg @ %p: %s, rIdx = 0x%02x\taccess= %d\tregop= %p\n",dReg, dReg->name,rIdx, dReg->accessBank, refop);
+#endif
dReg->size = size;
dReg->alias = alias;
dReg->reg_alias = NULL;
dReg->reglives.assignedpFlows = newSet();
dReg->regop = refop;
- hTabAddItem(&dynDirectRegNames, regname2key(name), dReg);
+ if(!(type == REG_SFR && alias == 0x80))
+ hTabAddItem(&dynDirectRegNames, regname2key(name), dReg);
return dReg;
}
/* regWithIdx - Search through a set of registers that matches idx */
/*-----------------------------------------------------------------*/
static regs *
-regWithIdx (set *dRegs, int idx, int fixed)
+regWithIdx (set *dRegs, int idx, unsigned fixed)
{
regs *dReg;
+//#define D(text) text
+#define D(text)
+
for (dReg = setFirstItem(dRegs) ; dReg ;
dReg = setNextItem(dRegs)) {
+ D(fprintf(stderr, "%s:%d testing reg w/rIdx = %d (%d f:%d)\t", __FUNCTION__, __LINE__, dReg->rIdx, idx, fixed));
if(idx == dReg->rIdx && (fixed == dReg->isFixed)) {
+ D(fprintf(stderr, "found!\n"));
return dReg;
- }
+ } else
+ D(fprintf(stderr, "not found!\n"));
}
return NULL;
// __FILE__, __LINE__, dReg->name, dReg, dReg->rIdx, dReg->isFree);
if(dReg->isFree) {
+// fprintf(stderr, "%s:%d free register found, rIdx = %d\n", __FILE__, __LINE__, dReg->rIdx);
+
return dReg;
}
}
return NULL;
}
+
+static regs *
+regFindFreeNext(set *dRegs, regs *creg)
+{
+ regs *dReg;
+
+ if(creg) {
+ /* position at current register */
+ for(dReg = setFirstItem(dRegs); dReg != creg; dReg = setNextItem(dRegs));
+ }
+
+ for(dReg = setNextItem(dRegs); dReg; dReg = setNextItem(dRegs)) {
+ if(dReg->isFree) {
+ return dReg;
+ }
+ }
+
+ return NULL;
+}
+
/*-----------------------------------------------------------------*/
/* pic16_initStack - allocate registers for a pseudo stack */
/*-----------------------------------------------------------------*/
reg->wasUsed = 0; // we do not know if they are going to be used at all
reg->accessBank = 1; // implicit add access Bank
+ hTabAddItem(&dynProcRegNames, regname2key(reg->name), reg);
+
return addSet(&pic16_dynProcessorRegs, reg);
}
// fprintf(stderr,"%s:%d: %s %s addr =0x%x\n",__FILE__, __LINE__, __FUNCTION__, name, rIdx);
- if(reg) {
- reg->wasUsed = 0;
- return addSet(&pic16_dynInternalRegs,reg);
- }
+ if(reg) {
+ reg->wasUsed = 0;
+ return addSet(&pic16_dynInternalRegs,reg);
+ }
return NULL;
}
+
+
/*-----------------------------------------------------------------*/
/* allocReg - allocates register of given type */
/*-----------------------------------------------------------------*/
{
regs * reg=NULL;
+#define MAX_P16_NREGS 16
+
+
#if 0
if(dynrIdx > pic16_nRegs)
+ werror(W_POSSBUG2, __FILE__, __LINE__);
return NULL;
#endif
-#if STACK_SUPPORT
- if(USE_STACK) {
- /* try to reuse some unused registers */
- reg = regFindFree( pic16_dynAllocRegs );
+ /* try to reuse some unused registers */
+ reg = regFindFree( pic16_dynAllocRegs );
+
+ if(reg) {
+// fprintf(stderr, "%s: [%s][cf:%p] found FREE register %s, rIdx: %d\n", __FILE__, (_inRegAllocator)?"ralloc":"", currFunc, reg->name, reg->rIdx);
}
-#endif
if(!reg) {
reg = newReg(REG_GPR, PO_GPR_TEMP, dynrIdx++, NULL, 1, 0, NULL);
- addSet(&pic16_dynAllocRegs, reg);
+// fprintf(stderr, "%s [%s][cf:%p] allocating NEW register %s, rIdx: %d\n", __FILE__,
+// (_inRegAllocator)?"ralloc":"", currFunc, reg->name, reg->rIdx);
+
+#if 1
+ if(_inRegAllocator && (dynrIdx > MAX_P16_NREGS)) {
+// debugf("allocating more registers than available\n", 0);
+// return (NULL);
+ }
+#endif
}
- reg->isFree=0;
- debugLog ("%s of type %s\n", __FUNCTION__, debugLogRegType (type));
+ addSet(&pic16_dynAllocRegs, reg);
+ hTabAddItem(&dynAllocRegNames, regname2key(reg->name), reg);
-// fprintf(stderr,"%s:%d: %s\t%s addr= 0x%x\trIdx= 0x%02x isFree: %d\n",
-// __FILE__, __LINE__, __FUNCTION__, reg->name, reg->address, reg->rIdx, reg->isFree);
+// fprintf(stderr, "%s:%d added reg to pic16_dynAllocRegs = %p\n", __FUNCTION__, __LINE__, pic16_dynAllocRegs);
+
+ debugLog ("%s of type %s for register rIdx: %d (0x%x)\n", __FUNCTION__, debugLogRegType (type), dynrIdx-1, dynrIdx-1);
+#if 0
+ fprintf(stderr,"%s:%d: %s\t%s addr= 0x%x\trIdx= 0x%02x isFree: %d\n",
+ __FILE__, __LINE__, __FUNCTION__, reg->name, reg->address, reg->rIdx, reg->isFree);
+#endif
if(reg) {
+ reg->isFree=0;
reg->accessBank = 1; /* this is a temporary register alloc in accessBank */
reg->isLocal = 1; /* this is a local frame register */
+// reg->wasUsed = 1;
}
-#if STACK_SUPPORT
- if (currFunc)
+ if (currFunc) {
+// fprintf(stderr, "%s:%d adding %s into function %s regsUsed\n", __FUNCTION__, __LINE__, reg->name, currFunc->name);
currFunc->regsUsed = bitVectSetBit (currFunc->regsUsed, reg->rIdx);
-#endif
+ }
return (reg); // addSet(&pic16_dynAllocRegs,reg);
while(reg) {
if(STRCASECMP(reg->name, name) == 0) {
+// fprintf(stderr, "%s:%d: FOUND name = %s\thash = %d\n", __FUNCTION__, __LINE__, reg->name, hkey);
return(reg);
}
return NULL; // name wasn't found in the hash table
}
-static int IS_CONFIG_ADDRESS(int address)
+/*-----------------------------------------------------------------*/
+/* pic16_allocregWithName - search for register by name */
+/*-----------------------------------------------------------------*/
+regs *
+pic16_allocregWithName (char *name)
+{
+ int hkey;
+ regs *reg;
+
+ if(!name)
+ return NULL;
+
+ /* hash the name to get a key */
+
+ hkey = regname2key(name);
+
+ fprintf(stderr, "%s:%d: name = %s\thash = %d\n", __FUNCTION__, __LINE__, name, hkey);
+
+ reg = hTabFirstItemWK(dynAllocRegNames, hkey);
+
+ while(reg) {
+
+ if(STRCASECMP(reg->name, name) == 0) {
+ return(reg);
+ }
+
+ reg = hTabNextItemWK (dynAllocRegNames);
+
+ }
+
+ return NULL; // name wasn't found in the hash table
+
+}
+
+
+/*-----------------------------------------------------------------*/
+/* pic16_procregWithName - search for register by name */
+/*-----------------------------------------------------------------*/
+regs *
+pic16_procregWithName (char *name)
+{
+ int hkey;
+ regs *reg;
+
+ if(!name)
+ return NULL;
+
+ /* hash the name to get a key */
+
+ hkey = regname2key(name);
+
+// fprintf(stderr, "%s:%d: name = %s\thash = %d\n", __FUNCTION__, __LINE__, name, hkey);
+
+ reg = hTabFirstItemWK(dynProcRegNames, hkey);
+
+ while(reg) {
+
+ if(STRCASECMP(reg->name, name) == 0) {
+ return(reg);
+ }
+
+ reg = hTabNextItemWK (dynProcRegNames);
+
+ }
+
+ return NULL; // name wasn't found in the hash table
+
+}
+
+/*-----------------------------------------------------------------*/
+/* pic16_accessregWithName - search for register by name */
+/*-----------------------------------------------------------------*/
+regs *
+pic16_accessregWithName (char *name)
+{
+ int hkey;
+ regs *reg;
+
+ if(!name)
+ return NULL;
+
+ /* hash the name to get a key */
+
+ hkey = regname2key(name);
+
+// fprintf(stderr, "%s:%d: name = %s\thash = %d\n", __FUNCTION__, __LINE__, name, hkey);
+
+ reg = hTabFirstItemWK(dynAccessRegNames, hkey);
+
+ while(reg) {
+
+ if(STRCASECMP(reg->name, name) == 0) {
+ return(reg);
+ }
+
+ reg = hTabNextItemWK (dynAccessRegNames);
+
+ }
+
+ return NULL; // name wasn't found in the hash table
+
+}
+
+regs *pic16_regWithName(char *name)
{
+ regs *reg;
+
+ reg = pic16_dirregWithName( name );
+ if(reg)return reg;
+
+ reg = pic16_procregWithName( name );
+ if(reg)return reg;
+
+ reg = pic16_allocregWithName( name );
+ if(reg)return reg;
- return address >= 0x300000 && address <= 0x300000d;
+ reg = pic16_accessregWithName( name );
+ if(reg)return reg;
+
+ return NULL;
}
+
/*-----------------------------------------------------------------*/
/* pic16_allocDirReg - allocates register of given type */
/*-----------------------------------------------------------------*/
if(!IS_SYMOP(op)) {
debugLog ("%s BAD, op is NULL\n", __FUNCTION__);
+// fprintf(stderr, "%s BAD, op is NULL\n", __FUNCTION__);
return NULL;
}
name = OP_SYMBOL (op)->rname[0] ? OP_SYMBOL (op)->rname : OP_SYMBOL (op)->name;
- debugLog ("%s symbol name %s\n", __FUNCTION__,name);
-// fprintf(stderr, "%s symbol name %s\n", __FUNCTION__,name);
+
+ if(!SPEC_OCLS( OP_SYM_ETYPE(op))) {
+#if 0
+ if(pic16_debug_verbose)
+ {
+ fprintf(stderr, "%s:%d symbol %s(r:%s) is not assigned to a memmap\n", __FILE__, __LINE__,
+ OP_SYMBOL(op)->name, OP_SYMBOL(op)->rname);
+ }
+#endif
+ return NULL;
+ }
+
+ if(!IN_DIRSPACE( SPEC_OCLS( OP_SYM_ETYPE(op)))
+ || !IN_FARSPACE(SPEC_OCLS( OP_SYM_ETYPE(op))) ) {
+
+#if 0
+ if(pic16_debug_verbose) {
+ fprintf(stderr, "dispace:%d farspace:%d codespace:%d regspace:%d stack:%d eeprom: %d regparm: %d isparm: %d\n",
+ IN_DIRSPACE( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_FARSPACE( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_CODESPACE( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_REGSP( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_STACK( OP_SYM_ETYPE(op)),
+ SPEC_OCLS(OP_SYM_ETYPE(op)) == eeprom,
+ IS_REGPARM(OP_SYM_ETYPE(op)),
+ IS_PARM(op));
+
+ fprintf(stderr, "%s:%d symbol %s NOT in dirspace\n", __FILE__, __LINE__,
+ OP_SYMBOL(op)->name);
+ }
+#endif
+
+ }
+
+
+
+ if (IS_CODE ( OP_SYM_ETYPE(op)) ) {
+// fprintf(stderr, "%s:%d sym: %s in codespace\n", __FUNCTION__, __LINE__, OP_SYMBOL(op)->name);
+ return NULL;
+ }
+
+ if(IS_ITEMP(op))return NULL;
+
+// if(IS_STATIC(OP_SYM_ETYPE(op)))return NULL;
+
+ if(IN_STACK(OP_SYM_ETYPE(op)))return NULL;
+
+ debugLog ("%s:%d symbol name %s\n", __FUNCTION__, __LINE__, name);
+// fprintf(stderr, "%s symbol name %s\tSTATIC:%d\n", __FUNCTION__,name, IS_STATIC(OP_SYM_ETYPE(op)));
{
if(SPEC_CONST ( OP_SYM_ETYPE(op)) && (IS_CHAR ( OP_SYM_ETYPE(op)) )) {
debugAopGet(NULL, op);
}
- if (IS_CODE ( OP_SYM_ETYPE(op)) )
- return NULL;
-
- /* First, search the hash table to see if there is a register with this name */
- if (SPEC_ABSA ( OP_SYM_ETYPE(op)) && !(IS_BITVAR (OP_SYM_ETYPE(op))) ) {
- reg=NULL;
-// reg = regWithIdx (pic16_dynProcessorRegs, SPEC_ADDR ( OP_SYM_ETYPE(op)), 1);
-#if 0
- if(!reg)
- fprintf(stderr,"%s:%d: ralloc %s is at fixed address but not a processor reg, addr=0x%x\n",
- __FUNCTION__, __LINE__, name, SPEC_ADDR ( OP_SYM_ETYPE(op)));
- else
- fprintf(stderr,"%s:%d: ralloc %s at fixed address has already been declared, addr=0x%x\n",
- __FUNCTION__, __LINE__, name, SPEC_ADDR ( OP_SYM_ETYPE(op)));
-#endif
- } else {
-// fprintf(stderr,"ralloc:%d %s \n", __LINE__,name);
-
- reg = pic16_dirregWithName(name);
- }
+ reg = pic16_dirregWithName(name);
if(!reg) {
int address = 0;
/* Register wasn't found in hash, so let's create
* a new one and put it in the hash table AND in the
* dynDirectRegNames set */
- if(IN_CODESPACE( SPEC_OCLS( OP_SYM_ETYPE(op)))) {
- if(pic16_debug_verbose)
- fprintf(stderr, "%s:%d symbol %s in codespace\n", __FILE__, __LINE__,
- OP_SYMBOL(op)->name);
+ if(IS_CODE(OP_SYM_ETYPE(op)) || IN_CODESPACE( SPEC_OCLS( OP_SYM_ETYPE(op)))) {
+ debugLog("%s:%d sym: %s in codespace\n", __FUNCTION__, __LINE__, OP_SYMBOL(op)->name);
return NULL;
}
- if(!IS_CONFIG_ADDRESS(address)) {
-// fprintf(stderr,"%s:allocating new reg %s\n",__FUNCTION__, name);
- if(SPEC_SCLS(OP_SYM_ETYPE(op)))regtype = REG_SFR;
-
- reg = newReg(regtype, PO_DIR, rDirectIdx++, name,getSize (OP_SYMBOL (op)->type),0, op);
- debugLog ("%d -- added %s to hash, size = %d\n", __LINE__, name,reg->size);
+#if 0
+ if(OP_SYMBOL(op)->onStack) {
+ fprintf(stderr, "%s:%d onStack %s offset: %d\n", __FILE__, __LINE__,
+ OP_SYMBOL(op)->name, OP_SYMBOL(op)->stack);
+ }
+#endif
+
+ if(!IN_DIRSPACE( SPEC_OCLS( OP_SYM_ETYPE(op)))
+ || !IN_FARSPACE(SPEC_OCLS( OP_SYM_ETYPE(op))) ) {
+
+#if 0
+ if(pic16_debug_verbose)
+ {
+ fprintf(stderr, "dispace:%d farspace:%d codespace:%d regspace:%d stack:%d eeprom: %d\n",
+ IN_DIRSPACE( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_FARSPACE( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_CODESPACE( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_REGSP( SPEC_OCLS( OP_SYM_ETYPE(op))),
+ IN_STACK( OP_SYM_ETYPE(op)),
+ SPEC_OCLS(OP_SYM_ETYPE(op)) == eeprom);
+
+ fprintf(stderr, "%s:%d symbol %s NOT in dirspace\n", __FILE__, __LINE__,
+ OP_SYMBOL(op)->name);
+ }
+#endif
+ }
+
+ reg = newReg(regtype, PO_DIR, rDirectIdx++, name,getSize (OP_SYMBOL (op)->type),0, op);
+ debugLog ("%d -- added %s to hash, size = %d\n", __LINE__, name,reg->size);
+
+ if( SPEC_SCLS( OP_SYM_ETYPE( op ) ) == S_REGISTER ) {
+ fprintf(stderr, "%s:%d symbol %s is declared as register\n", __FILE__, __LINE__,
+ name);
+
+ reg->accessBank = 1;
+ checkAddReg(&pic16_dynAccessRegs, reg);
+ hTabAddItem(&dynAccessRegNames, regname2key(name), reg);
+
+ return (reg);
+ }
-// hTabAddItem(&dynDirectRegNames, regname2key(name), reg); /* commented out */
-// if (SPEC_ABSA ( OP_SYM_ETYPE(op)) ) {
-// fprintf(stderr, " ralloc.c at fixed address: %s - changing to REG_SFR\n",name);
-// reg->type = REG_SFR;
-// }
+// if (SPEC_ABSA ( OP_SYM_ETYPE(op)) ) {
+// fprintf(stderr, " ralloc.c at fixed address: %s - changing to REG_SFR\n",name);
+// reg->type = REG_SFR;
+// }
if (IS_BITVAR (OP_SYM_ETYPE(op))) {
+// fprintf(stderr, "%s:%d adding %s in bit registers\n", __FILE__, __LINE__, reg->name);
addSet(&pic16_dynDirectBitRegs, reg);
reg->isBitField = 1;
- } else
- addSet(&pic16_dynDirectRegs, reg);
-
} else {
- debugLog (" -- %s is declared at address 0x30000x\n",name);
- fprintf(stderr, " -- %s is declared at address 0x30000x\n",name);
-
- return NULL;
+// fprintf(stderr, "%s:%d adding %s in direct registers\n", __FILE__, __LINE__, reg->name);
+// addSet(&pic16_dynDirectRegs, reg);
+
+#if 1
+ if(!(IS_STATIC(OP_SYM_ETYPE(op))
+ && OP_SYMBOL(op)->ival
+ ))
+#endif
+ checkAddReg(&pic16_dynDirectRegs, reg);
}
+
+ } else {
+// debugLog (" -- %s is declared at address 0x30000x\n",name);
+ return (reg); /* This was NULL before, but since we found it
+ * why not just return it?! */
}
if (SPEC_ABSA ( OP_SYM_ETYPE(op)) ) {
reg->isFixed = 1;
reg->address = SPEC_ADDR ( OP_SYM_ETYPE(op));
+
+ /* work around for user defined registers in access bank */
+ if((reg->address>= 0x00 && reg->address < pic16->acsSplitOfs)
+ || (reg->address >= (0xf00 + pic16->acsSplitOfs) && reg->address <= 0xfff))
+ reg->accessBank = 1;
+
debugLog (" -- and it is at a fixed address 0x%02x\n",reg->address);
}
/* pic16_allocRegByName - allocates register of given type */
/*-----------------------------------------------------------------*/
regs *
-pic16_allocRegByName (char *name, int size)
+pic16_allocRegByName (char *name, int size, operand *op)
{
regs *reg;
/* Register wasn't found in hash, so let's create
* a new one and put it in the hash table AND in the
* dynDirectRegNames set */
- //fprintf (stderr,"%s symbol name %s\n", __FUNCTION__,name);
- reg = newReg(REG_GPR, PO_DIR, rDirectIdx++, name,size,0, NULL);
+
+ //fprintf (stderr,"%s:%d symbol name %s\tregop= %p\n", __FUNCTION__, __LINE__, name, op);
+
+ reg = newReg(REG_GPR, PO_DIR, rDirectIdx++, name,size,0, op);
debugLog ("%d -- added %s to hash, size = %d\n", __LINE__, name,reg->size);
- //fprintf(stderr, " -- added %s to hash, size = %d\n", name,reg->size);
+ //fprintf(stderr, " -- added %s to hash, size = %d\n", name,reg->size);
//hTabAddItem(&dynDirectRegNames, regname2key(name), reg); /* initially commented out */
addSet(&pic16_dynDirectRegs, reg);
/*-----------------------------------------------------------------*/
/* RegWithIdx - returns pointer to register with index number */
/*-----------------------------------------------------------------*/
-static regs *
-typeRegWithIdx (int idx, int type, int fixed)
+regs *pic16_typeRegWithIdx (int idx, int type, int fixed)
{
regs *dReg;
debugLog ("%s - requesting index = 0x%x\n", __FUNCTION__,idx);
+// fprintf(stderr, "%s - requesting index = 0x%x (type = %d [%s])\n", __FUNCTION__, idx, type, decodeRegType(type));
switch (type) {
return dReg;
}
+ if( (dReg = regWithIdx ( pic16_dynInternalRegs, idx, fixed)) != NULL ) {
+ debugLog ("Found an Internal Register!\n");
+ return dReg;
+ }
+
break;
case REG_STK:
if( (dReg = regWithIdx ( pic16_dynStackRegs, idx, fixed)) != NULL ) {
}
break;
case REG_SFR:
- if( (dReg = regWithIdx ( pic16_dynProcessorRegs, idx, fixed)) != NULL ) {
+ if( (dReg = regWithIdx ( pic16_dynProcessorRegs, idx, 1)) != NULL ) {
debugLog ("Found a Processor Register!\n");
return dReg;
}
{
regs *dReg;
- if( (dReg = typeRegWithIdx(idx,REG_GPR,0)) != NULL)
+ if( (dReg = pic16_typeRegWithIdx(idx,REG_GPR,0)) != NULL)
return dReg;
- if( (dReg = typeRegWithIdx(idx,REG_SFR,0)) != NULL)
+ if( (dReg = pic16_typeRegWithIdx(idx,REG_SFR,0)) != NULL)
return dReg;
- if( (dReg = typeRegWithIdx(idx,REG_STK,0)) != NULL)
+#if 0
+ if( (dReg = pic16_typeRegWithIdx(idx,REG_STK,0)) != NULL)
return dReg;
+#endif
return NULL;
}
regs *dReg;
debugLog ("%s - allocating with index = 0x%x\n", __FUNCTION__,idx);
+// fprintf(stderr, "%s - allocating with index = 0x%x\n", __FUNCTION__,idx);
if( (dReg = regWithIdx ( pic16_dynAllocRegs, idx,0)) != NULL) {
debugLog ("Found a Dynamic Register!\n");
} else if( (dReg = regWithIdx ( pic16_dynStackRegs, idx,0)) != NULL ) {
debugLog ("Found a Stack Register!\n");
- } else if( (dReg = regWithIdx ( pic16_dynProcessorRegs, idx,0)) != NULL ) {
+ } else if( (dReg = regWithIdx ( pic16_dynProcessorRegs, idx,1)) != NULL ) {
debugLog ("Found a Processor Register!\n");
fprintf(stderr, "Found a processor register! %s\n", dReg->name);
} else if( (dReg = regWithIdx ( pic16_dynInternalRegs, idx,0)) != NULL ) {
debugLog ("Dynamic Register not found\n");
-
+// return (NULL);
//fprintf(stderr,"%s %d - requested register: 0x%x\n",__FUNCTION__,__LINE__,idx);
werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
- "regWithIdx not found");
+ "allocWithIdx not found");
exit (1);
}
case REG_GPR:
if((dReg = regFindFree(pic16_dynAllocRegs)) != NULL)
return dReg;
- return allocReg( REG_GPR ); //addSet(&pic16_dynAllocRegs,newReg(REG_GPR, PO_GPR_TEMP,dynrIdx++,NULL,1,0, NULL));
+// return (addSet(&pic16_dynAllocRegs,newReg(REG_GPR, PO_GPR_TEMP,dynrIdx++,NULL,1,0, NULL)));
+ return allocReg( REG_GPR );
case REG_STK:
return NULL;
}
}
+
+regs *
+pic16_findFreeRegNext(short type, regs *creg)
+{
+ // int i;
+ regs* dReg;
+
+ switch (type) {
+ case REG_GPR:
+ if((dReg = regFindFreeNext(pic16_dynAllocRegs, creg)) != NULL)
+ return dReg;
+// return (addSet(&pic16_dynAllocRegs,newReg(REG_GPR, PO_GPR_TEMP,dynrIdx++,NULL,1,0, NULL)));
+ return (allocReg( REG_GPR ) );
+
+ case REG_STK:
+
+ if((dReg = regFindFreeNext(pic16_dynStackRegs, creg)) != NULL)
+ return dReg;
+
+ return NULL;
+
+ case REG_PTR:
+ case REG_CND:
+ case REG_SFR:
+ default:
+ return NULL;
+ }
+}
/*-----------------------------------------------------------------*/
/* freeReg - frees a register */
/*-----------------------------------------------------------------*/
extern void pic16_groupRegistersInSection(set *regset);
extern void pic16_dump_equates(FILE *of, set *equs);
+extern void pic16_dump_access(FILE *of, set *section);
//extern void pic16_dump_map(void);
-extern void pic16_dump_section(FILE *of, set *section, int fix);
+extern void pic16_dump_usection(FILE *of, set *section, int fix);
+extern void pic16_dump_isection(FILE *of, set *section, int fix);
+extern void pic16_dump_int_registers(FILE *of, set *section);
+extern void pic16_dump_idata(FILE *of, set *idataSymSet);
+extern void pic16_dump_gsection(FILE *of, set *sections);
static void packBits(set *bregs)
{
if(breg->isFixed) {
//fprintf(stderr,"packing bit at fixed address = 0x%03x\n",breg->address);
- bitfield = typeRegWithIdx (breg->address >> 3, -1 , 1);
+ bitfield = pic16_typeRegWithIdx (breg->address >> 3, -1 , 1);
breg->rIdx = breg->address & 7;
breg->address >>= 3;
}
-
-
-#if 0
-static void bitEQUs(FILE *of, set *bregs)
+void pic16_writeUsedRegs(FILE *of)
{
- regs *breg,*bytereg;
- int bit_no=0;
-
- //fprintf(stderr," %s\n",__FUNCTION__);
- for (breg = setFirstItem(bregs) ; breg ;
- breg = setNextItem(bregs)) {
-
- //fprintf(stderr,"bit reg: %s\n",breg->name);
-
- bytereg = breg->reg_alias;
- if(bytereg)
- fprintf (of, "%s\tEQU\t( (%s<<3)+%d)\n",
- breg->name,
- bytereg->name,
- breg->rIdx & 0x0007);
-
- else {
- fprintf(stderr, "bit field is not assigned to a register\n");
- fprintf (of, "%s\tEQU\t( (bitfield%d<<3)+%d)\n",
- breg->name,
- bit_no>>3,
- bit_no & 0x0007);
-
- bit_no++;
- }
- }
-
-}
+ packBits(pic16_dynDirectBitRegs);
+
+ pic16_groupRegistersInSection(pic16_dynAllocRegs);
+ pic16_groupRegistersInSection(pic16_dynInternalRegs);
+ pic16_groupRegistersInSection(pic16_dynStackRegs);
+ pic16_groupRegistersInSection(pic16_dynDirectRegs);
+ pic16_groupRegistersInSection(pic16_dynDirectBitRegs);
+ pic16_groupRegistersInSection(pic16_dynProcessorRegs);
+ pic16_groupRegistersInSection(pic16_dynAccessRegs);
+
+ /* dump equates */
+ pic16_dump_equates(of, pic16_equ_data);
-static void aliasEQUs(FILE *of, set *fregs, int use_rIdx)
-{
- regs *reg;
+// pic16_dump_esection(of, pic16_rel_eedata, 0);
+// pic16_dump_esection(of, pic16_fix_eedata, 0);
+ /* dump access bank symbols */
+ pic16_dump_access(of, pic16_acs_udata);
- for (reg = setFirstItem(fregs) ; reg ;
- reg = setNextItem(fregs)) {
+ /* dump initialised data */
+ pic16_dump_isection(of, rel_idataSymSet, 0);
+ pic16_dump_isection(of, fix_idataSymSet, 1);
- if(!reg->isEmitted && reg->wasUsed) {
- if(use_rIdx) {
- if (reg->type != REG_SFR) {
- fprintf (of, "%s\tEQU\t0x%03x\n",
- reg->name,
- reg->rIdx);
- }
- }
- else
- fprintf (of, "%s\tEQU\t0x%03x\n",
- reg->name,
- reg->address);
- }
+ if(!xinst) {
+ /* dump internal registers */
+ pic16_dump_int_registers(of, pic16_int_regs);
}
-
-}
-#endif
-
-void pic16_writeUsedRegs(FILE *of)
-{
- packBits(pic16_dynDirectBitRegs);
-
- pic16_groupRegistersInSection(pic16_dynAllocRegs);
- pic16_groupRegistersInSection(pic16_dynInternalRegs);
- pic16_groupRegistersInSection(pic16_dynStackRegs);
- pic16_groupRegistersInSection(pic16_dynDirectRegs);
- pic16_groupRegistersInSection(pic16_dynDirectBitRegs);
- pic16_groupRegistersInSection(pic16_dynProcessorRegs);
-
-
-#if 0
- pic16_assignFixedRegisters(pic16_dynAllocRegs);
- pic16_assignFixedRegisters(pic16_dynStackRegs);
- pic16_assignFixedRegisters(pic16_dynDirectRegs);
- pic16_assignFixedRegisters(pic16_dynProcessorRegs);
-
- pic16_assignRelocatableRegisters(pic16_dynDirectBitRegs, 0);
- pic16_assignRelocatableRegisters(pic16_dynInternalRegs,0);
- pic16_assignRelocatableRegisters(pic16_dynAllocRegs,0);
- pic16_assignRelocatableRegisters(pic16_dynStackRegs,0);
- pic16_assignRelocatableRegisters(pic16_dynDirectRegs,0);
-#endif
-
-// pic16_dump_map();
-// pic16_dump_cblock(of);
-
- pic16_dump_equates(of, pic16_equ_data);
-
- pic16_dump_section(of, pic16_rel_udata, 0);
- pic16_dump_section(of, pic16_fix_udata, 1);
-#if 0
- bitEQUs(of,pic16_dynDirectBitRegs);
- aliasEQUs(of,pic16_dynAllocRegs,0);
- aliasEQUs(of,pic16_dynDirectRegs,0);
- aliasEQUs(of,pic16_dynStackRegs,0);
- aliasEQUs(of,pic16_dynProcessorRegs,1);
-#endif
+ /* dump generic section variables */
+ pic16_dump_gsection(of, sectNames);
+ /* dump other variables */
+ pic16_dump_usection(of, pic16_rel_udata, 0);
+ pic16_dump_usection(of, pic16_fix_udata, 1);
}
-#if 0
-/*-----------------------------------------------------------------*/
-/* allDefsOutOfRange - all definitions are out of a range */
-/*-----------------------------------------------------------------*/
-static bool
-allDefsOutOfRange (bitVect * defs, int fseq, int toseq)
-{
- int i;
-
- debugLog ("%s\n", __FUNCTION__);
- if (!defs)
- return TRUE;
-
- for (i = 0; i < defs->size; i++)
- {
- iCode *ic;
-
- if (bitVectBitValue (defs, i) &&
- (ic = hTabItemWithKey (iCodehTab, i)) &&
- (ic->seq >= fseq && ic->seq <= toseq))
-
- return FALSE;
-
- }
-
- return TRUE;
-}
-#endif
/*-----------------------------------------------------------------*/
/* computeSpillable - given a point find the spillable live ranges */
/* check if there are any live ranges that not
used in the remainder of the block */
- if (!_G.blockSpil && (selectS = liveRangesWith (lrcs, notUsedInRemaining, ebp, ic)))
+ if (!_G.blockSpil &&
+ !isiCodeInFunctionCall (ic) &&
+ (selectS = liveRangesWith (lrcs, notUsedInRemaining, ebp, ic)))
{
sym = leastUsedLR (selectS);
if (!sym->remat)
if (!bitVectBitValue (_G.regAssigned, sym->key))
continue;
+ /* special case for shifting: there is a case where shift count
+ * can be allocated in the same register as the result, so do not
+ * free right registers if same as result registers, cause genShiftLeft
+ * will fail -- VR */
+ if(ic->op == LEFT_OP)
+ continue;
+
/* special case check if this is an IFX &
the privious one was a pop and the
previous one was not spilt then keep track
(result = OP_SYMBOL (IC_RESULT (ic))) && /* has a result */
result->liveTo > ic->seq && /* and will live beyond this */
result->liveTo <= ebp->lSeq && /* does not go beyond this block */
+ result->liveFrom == ic->seq && /* does not start before here */
result->regType == sym->regType && /* same register types */
result->nRegs && /* which needs registers */
!result->isspilt && /* and does not already have them */
sym->nRegs) >= result->nRegs)
)
{
+
- for (i = 0; i < max (sym->nRegs, result->nRegs); i++)
+// for (i = 0; i < max (sym->nRegs, result->nRegs); i++)
+ /* the above does not free the unsued registers in sym,
+ * leaving them marked as used, and increasing register usage
+ * until the end of the function - VR 23/11/05 */
+
+ for (i = 0; i < result->nRegs; i++)
if (i < sym->nRegs)
result->regs[i] = sym->regs[i];
else
result->regs[i] = getRegGpr (ic, ebp, result);
_G.regAssigned = bitVectSetBit (_G.regAssigned, result->key);
-
}
/* free the remaining */
}
}
+/*------------------------------------------------------------------*/
+/* verifyRegsAssigned - make sure an iTemp is properly initialized; */
+/* it should either have registers or have beed spilled. Otherwise, */
+/* there was an uninitialized variable, so just spill this to get */
+/* the operand in a valid state. */
+/*------------------------------------------------------------------*/
+static void
+verifyRegsAssigned (operand *op, iCode * ic)
+{
+ symbol * sym;
+
+ if (!op) return;
+ if (!IS_ITEMP (op)) return;
+
+ sym = OP_SYMBOL (op);
+ if (sym->isspilt) return;
+ if (!sym->nRegs) return;
+ if (sym->regs[0]) return;
+
+ werrorfl (ic->filename, ic->lineno, W_LOCAL_NOINIT,
+ sym->prereqv ? sym->prereqv->name : sym->name);
+ spillThis (sym);
+}
+
+
/*-----------------------------------------------------------------*/
/* serialRegAssign - serially allocate registers to the variables */
/*-----------------------------------------------------------------*/
serialRegAssign (eBBlock ** ebbs, int count)
{
int i;
-
+ iCode *ic;
+
debugLog ("%s\n", __FUNCTION__);
/* for all blocks */
for (i = 0; i < count; i++)
{
-
- iCode *ic;
-
if (ebbs[i]->noPath &&
(ebbs[i]->entryLabel != entryLabel &&
ebbs[i]->entryLabel != returnLabel))
for (ic = ebbs[i]->sch; ic; ic = ic->next)
{
- debugLog (" op: %s\n", decodeOp (ic->op));
+ debugLog (" op: %s\n", pic16_decodeOp (ic->op));
+
+ if(IC_RESULT(ic) && !IS_ITEMP( IC_RESULT(ic)))
+ pic16_allocDirReg(IC_RESULT(ic));
+
+ if(IC_LEFT(ic) && !IS_ITEMP( IC_LEFT(ic)))
+ pic16_allocDirReg(IC_LEFT(ic));
+
+ if(IC_RIGHT(ic) && !IS_ITEMP( IC_RIGHT(ic)))
+ pic16_allocDirReg(IC_RIGHT(ic));
/* if this is an ipop that means some live
range will have to be assigned again */
int j;
int ptrRegSet = 0;
+ /* Make sure any spill location is definately allocated */
+ if (sym->isspilt && !sym->remat && sym->usl.spillLoc &&
+ !sym->usl.spillLoc->allocreq)
+ {
+ sym->usl.spillLoc->allocreq++;
+ }
+
/* if it does not need or is spilt
or is already assigned to registers
or will not live beyond this instructions */
or this one is rematerializable then
spill this one */
willCS = willCauseSpill (sym->nRegs, sym->regType);
+
+ /* explicit turn off register spilling */
+ willCS = 0;
+
spillable = computeSpillable (ic);
if (sym->remat ||
(willCS && bitVectIsZero (spillable)))
}
+ /* If the live range preceeds the point of definition
+ then ideally we must take into account registers that
+ have been allocated after sym->liveFrom but freed
+ before ic->seq. This is complicated, so spill this
+ symbol instead and let fillGaps handle the allocation. */
+#if 0
+ if (sym->liveFrom < ic->seq)
+ {
+ spillThis (sym);
+ continue;
+ }
+#endif
/* if it has a spillocation & is used less than
all other live ranges then spill this */
if (willCS) {
if (ic->op == RECEIVE)
debugLog ("When I get clever, I'll optimize the receive logic\n");
+ if(POINTER_GET(ic) && IS_BITFIELD(getSpec(operandType(IC_RESULT(ic))))
+ && (SPEC_BLEN(getSpec(operandType(IC_RESULT(ic))))==1)
+ && (ic->next->op == IFX)
+ && (OP_LIVETO(IC_RESULT(ic)) == ic->next->seq)) {
+
+ /* skip register allocation since none will be used */
+ for(j=0;j<sym->nRegs;j++)
+ sym->regs[j] = newReg(REG_TMP, PO_GPR_TEMP, 0, "bad", 1, 0, NULL);
+// OP_SYMBOL(IC_RESULT(ic))->nRegs = 0;
+
+ continue;
+ }
+
/* if we need ptr regs for the right side
then mark it */
- if (POINTER_GET (ic) && getSize (OP_SYMBOL (IC_LEFT (ic))->type)
+ if (POINTER_GET (ic) && IS_SYMOP( IC_LEFT(ic) ) && getSize (OP_SYMBOL (IC_LEFT (ic))->type)
<= (unsigned) PTRSIZE)
{
pic16_ptrRegReq++;
/* else we assign registers to it */
_G.regAssigned = bitVectSetBit (_G.regAssigned, sym->key);
- debugLog (" %d - \n", __LINE__);
if(debugF)
bitVectDebugOn(_G.regAssigned, debugF);
}
}
}
+
+ /* Check for and fix any problems with uninitialized operands */
+ for (i = 0; i < count; i++)
+ {
+ iCode *ic;
+
+ if (ebbs[i]->noPath &&
+ (ebbs[i]->entryLabel != entryLabel &&
+ ebbs[i]->entryLabel != returnLabel))
+ continue;
+
+ for (ic = ebbs[i]->sch; ic; ic = ic->next)
+ {
+ if (SKIP_IC2 (ic))
+ continue;
+
+ if (ic->op == IFX)
+ {
+ verifyRegsAssigned (IC_COND (ic), ic);
+ continue;
+ }
+
+ if (ic->op == JUMPTABLE)
+ {
+ verifyRegsAssigned (IC_JTCOND (ic), ic);
+ continue;
+ }
+
+ verifyRegsAssigned (IC_RESULT (ic), ic);
+ verifyRegsAssigned (IC_LEFT (ic), ic);
+ verifyRegsAssigned (IC_RIGHT (ic), ic);
+ }
+ }
+
}
/*-----------------------------------------------------------------*/
if (IS_AGGREGATE (sym->type) || sym->isptr)
sym->type = aggrToPtr (sym->type, FALSE);
debugLog (" %d - no reg needed - used as a return\n", __LINE__);
-
continue;
}
(ic = hTabItemWithKey (iCodehTab,
bitVectFirstBit (sym->defs))) &&
POINTER_GET (ic) &&
- !sym->noSpilLoc &&
- !IS_BITVAR (sym->etype)) {
-
-
- debugLog (" %d - \n", __LINE__);
-
- /* if remat in data space */
- if (OP_SYMBOL (IC_LEFT (ic))->remat &&
- DCL_TYPE (aggrToPtr (sym->type, FALSE)) == POINTER) {
-
+ !IS_BITVAR (sym->etype) &&
+ (aggrToPtrDclType (operandType (IC_LEFT (ic)), FALSE) == POINTER)) {
+
+// continue; /* FIXME -- VR */
+ if (ptrPseudoSymSafe (sym, ic)) {
+
+ symbol *psym;
+
+ debugLog (" %d - \n", __LINE__);
+
/* create a psuedo symbol & force a spil */
//X symbol *psym = newSymbol (rematStr (OP_SYMBOL (IC_LEFT (ic))), 1);
- symbol *psym = rematStr (OP_SYMBOL (IC_LEFT (ic)));
+ psym = rematStr (OP_SYMBOL (IC_LEFT (ic)));
psym->type = sym->type;
psym->etype = sym->etype;
+ psym->psbase = ptrBaseRematSym (OP_SYMBOL (IC_LEFT (ic)));
strcpy (psym->rname, psym->name);
sym->isspilt = 1;
sym->usl.spillLoc = psym;
#else
if(IS_CODEPTR (sym->type)) {
#endif
- debugLog (" %d const pointer type requires %d registers, changing to 2\n",__LINE__,sym->nRegs);
- sym->nRegs = 2;
+ // what IS this ???? (HJD)
+ debugLog (" %d const pointer type requires %d registers, changing to 3\n",__LINE__,sym->nRegs); // patch 14
+ sym->nRegs = 3; // patch 14
}
if (sym->nRegs > 4) {
/* registers for true symbols we will */
/* see how things go */
sym->nRegs = 0;
+
}
}
static DEFSETFUNC (markRegFree)
{
((regs *)item)->isFree = 1;
+// ((regs *)item)->wasUsed = 0;
return 0;
}
return NULL;
}
+#if 0
+static int packRegsForPointerGet(iCode *ic, eBBlock *ebp)
+{
+ iCode *dic, *sic;
+
+ debugLog ("%d\t%s\n", __LINE__, __FUNCTION__);
+ debugLog ("ic->op = %s\n", pic16_decodeOp( ic->op ) );
+ debugAopGet (" result:", IC_RESULT (ic));
+ debugAopGet (" left:", IC_LEFT (ic));
+ debugAopGet (" right:", IC_RIGHT (ic));
+
+ dic = ic->prev;
+ if((dic->op == '=')
+ && (
+}
+#endif
+
+
+void replaceOperandWithOperand(eBBlock *ebp, iCode *ic, operand *src, iCode *dic, operand *dst);
+
/*-----------------------------------------------------------------*/
/* packRegsForAssign - register reduction for assignment */
/*-----------------------------------------------------------------*/
static int
packRegsForAssign (iCode * ic, eBBlock * ebp)
{
-
iCode *dic, *sic;
debugLog ("%d\t%s\n", __LINE__, __FUNCTION__);
- debugLog ("ic->op = %s\n", decodeOp( ic->op ) );
+ debugLog ("ic->op = %s\n", pic16_decodeOp( ic->op ) );
debugAopGet (" result:", IC_RESULT (ic));
debugAopGet (" left:", IC_LEFT (ic));
debugAopGet (" right:", IC_RIGHT (ic));
- /* if this is at an absolute address, then get the address. */
- if (SPEC_ABSA ( OP_SYM_ETYPE(IC_RESULT(ic))) ) {
- if(IS_CONFIG_ADDRESS( SPEC_ADDR ( OP_SYM_ETYPE(IC_RESULT(ic))))) {
- debugLog (" %d - found config word declaration\n", __LINE__);
- if(IS_VALOP(IC_RIGHT(ic))) {
- debugLog (" setting config word to %x\n",
- (int) floatFromVal (IC_RIGHT(ic)->operand.valOperand));
- fprintf(stderr, " setting config word to %x\n",
- (int) floatFromVal (IC_RIGHT(ic)->operand.valOperand));
- pic16_assignConfigWordValue( SPEC_ADDR ( OP_SYM_ETYPE(IC_RESULT(ic))),
- (int) floatFromVal (IC_RIGHT(ic)->operand.valOperand));
- }
-
+// fprintf(stderr, "%s:%d symbol = %s\n", __FILE__, __LINE__, OP_SYMBOL( IC_RESULT(ic))->name);
- debugLog(" %d\n", __LINE__);
-
- /* remove the assignment from the iCode chain. */
-
- remiCodeFromeBBlock (ebp, ic);
- bitVectUnSetBit(OP_SYMBOL(IC_RESULT(ic))->defs,ic->key);
- hTabDeleteItem (&iCodehTab, ic->key, ic, DELETE_ITEM, NULL);
-
- return 1;
-
- }
- }
debugLog(" %d - actuall processing\n", __LINE__ );
if (!IS_ITEMP (IC_RESULT (ic))) {
debugLog (" %d - result is not temp\n", __LINE__);
}
-#if 0
- if (IC_LEFT (ic) && !IS_ITEMP (IC_LEFT (ic))) {
- debugLog (" %d - left is not temp, allocating\n", __LINE__);
- pic16_allocDirReg(IC_LEFT (ic));
- }
-#endif
+// if(IS_VALOP(IC_RIGHT(ic)))return 0;
/* See BUGLOG0001 - VR */
#if 1
- if (!IS_ITEMP (IC_RIGHT (ic))) {
+ if (!IS_ITEMP (IC_RIGHT (ic)) /*&& (!IS_PARM(IC_RESULT(ic)))*/) {
debugLog (" %d - not packing - right is not temp\n", __LINE__);
pic16_allocDirReg(IC_RIGHT (ic));
return 0;
}
-#if 0
- if(ic->op == CALL || ic->op == PCALL) {
- addSet(&pic16_builtin_functions, OP_SYMBOL( IC_LEFT(ic)));
- debugLog ("%d This is a call, function: %s\n", __LINE__, OP_SYMBOL(IC_LEFT(ic))->name);
- return 0;
- }
-#endif
-
/* find the definition of iTempNN scanning backwards if we find a
a use of the true symbol before we find the definition then
we cannot pack */
debugLog("%d\tSearching for iTempNN\n", __LINE__);
-#if 0
- if(IS_TRUE_SYMOP( IC_RESULT(dic))) {
- debugLog("%d - dic result is a TRUE_SYMOP\n", __LINE__);
- debugAopGet(" result is ", IC_RESULT(dic));
- }
- if(IS_TRUE_SYMOP( IC_LEFT(dic))) {
- debugLog("%d - dic left is a SYMOP\n", __LINE__);
- debugAopGet(" left is ", IC_LEFT(dic));
- }
- if(IS_TRUE_SYMOP( IC_RIGHT(dic))) {
- debugLog("%d - dic right is a SYMOP\n", __LINE__);
- debugAopGet(" right is ", IC_RIGHT(dic));
- }
-#endif
-
if (IS_TRUE_SYMOP (IC_RESULT (dic)) &&
IS_OP_VOLATILE (IC_RESULT (dic)))
{
break;
}
-#if 0
- if (IS_TRUE_SYMOP( IC_RIGHT (dic)) &&
- IS_OP_VOLATILE (IC_RIGHT(dic)))
- {
- debugLog (" %d - dic right is VOLATILE\n", __LINE__);
- dic = NULL;
- break;
- }
-#endif
+#if 1
+ if( IS_SYMOP( IC_RESULT(dic)) &&
+ IS_BITFIELD( OP_SYMBOL(IC_RESULT(dic))->etype ) ) {
-#if 0
- if (IS_TRUE_SYMOP( IC_LEFT (dic)) &&
- IS_OP_VOLATILE (IC_LEFT(dic)))
- {
- debugLog (" %d - dic left is VOLATILE\n", __LINE__);
+ debugLog (" %d - result is bitfield\n", __LINE__);
dic = NULL;
break;
}
if (!dic)
return 0; /* did not find */
+#if 1
+ /* This code is taken from the hc08 port. Do not know
+ * if it fits for pic16, but I leave it here just in case */
+
+ /* if assignment then check that right is not a bit */
+ if (ASSIGNMENT (dic) && !POINTER_SET (dic)) {
+ sym_link *etype = operandType (IC_RIGHT (dic));
+
+ if (IS_BITFIELD (etype)) {
+ /* if result is a bit too then it's ok */
+ etype = operandType (IC_RESULT (dic));
+ if (!IS_BITFIELD (etype)) {
+ debugLog(" %d bitfields\n");
+ return 0;
+ }
+ }
+ }
+#endif
+
/* if the result is on stack or iaccess then it must be
the same atleast one of the operands */
if (OP_SYMBOL (IC_RESULT (ic))->onStack ||
OP_SYMBOL (IC_RESULT (ic))->iaccess)
{
-
/* the operation has only one symbol
operator then we can pack */
if ((IC_LEFT (dic) && !IS_SYMOP (IC_LEFT (dic))) ||
/* found the definition */
/* replace the result with the result of */
/* this assignment and remove this assignment */
- bitVectUnSetBit(OP_SYMBOL(IC_RESULT(dic))->defs,dic->key);
- IC_RESULT (dic) = IC_RESULT (ic);
-
- if (IS_ITEMP (IC_RESULT (dic)) && OP_SYMBOL (IC_RESULT (dic))->liveFrom > dic->seq)
- {
- OP_SYMBOL (IC_RESULT (dic))->liveFrom = dic->seq;
- }
- /* delete from liverange table also
- delete from all the points inbetween and the new
- one */
- for (sic = dic; sic != ic; sic = sic->next)
- {
- bitVectUnSetBit (sic->rlive, IC_RESULT (ic)->key);
- if (IS_ITEMP (IC_RESULT (dic)))
- bitVectSetBit (sic->rlive, IC_RESULT (dic)->key);
- }
- remiCodeFromeBBlock (ebp, ic);
- bitVectUnSetBit(OP_SYMBOL(IC_RESULT(ic))->defs,ic->key);
+
+ bitVectUnSetBit(OP_SYMBOL(IC_RESULT(dic))->defs,dic->key);
+ IC_RESULT (dic) = IC_RESULT (ic);
- debugLog(" %d\n", __LINE__ );
- hTabDeleteItem (&iCodehTab, ic->key, ic, DELETE_ITEM, NULL);
- OP_DEFS (IC_RESULT (dic)) = bitVectSetBit (OP_DEFS (IC_RESULT (dic)), dic->key);
- return 1;
+ if (IS_ITEMP (IC_RESULT (dic)) && OP_SYMBOL (IC_RESULT (dic))->liveFrom > dic->seq)
+ {
+ OP_SYMBOL (IC_RESULT (dic))->liveFrom = dic->seq;
+ }
+ /* delete from liverange table also
+ delete from all the points inbetween and the new
+ one */
+ for (sic = dic; sic != ic; sic = sic->next)
+ {
+ bitVectUnSetBit (sic->rlive, IC_RESULT (ic)->key);
+ if (IS_ITEMP (IC_RESULT (dic)))
+ bitVectSetBit (sic->rlive, IC_RESULT (dic)->key);
+ }
+ remiCodeFromeBBlock (ebp, ic);
+ bitVectUnSetBit(OP_SYMBOL(IC_RESULT(ic))->defs,ic->key);
+ debugLog(" %d\n", __LINE__ );
+ hTabDeleteItem (&iCodehTab, ic->key, ic, DELETE_ITEM, NULL);
+ OP_DEFS (IC_RESULT (dic)) = bitVectSetBit (OP_DEFS (IC_RESULT (dic)), dic->key);
+ return 1;
}
+
+#if 1
+
+#define NO_packRegsForAccUse
+#define NO_packRegsForSupport
+#define NO_packRegsForOneuse
+#define NO_cast_peep
+
+#endif
+
+
+#ifndef NO_packRegsForSupport
/*-----------------------------------------------------------------*/
/* findAssignToSym : scanning backwards looks for first assig found */
/*-----------------------------------------------------------------*/
if ((ic->op == '+' || ic->op == '-') &&
OP_SYMBOL (IC_RIGHT (dic))->onStack)
{
-
if (IC_RESULT (ic)->key != IC_RIGHT (dic)->key &&
IC_LEFT (ic)->key != IC_RIGHT (dic)->key &&
IC_RIGHT (ic)->key != IC_RIGHT (dic)->key)
}
+#endif
+
+#ifndef NO_packRegsForSupport
/*-----------------------------------------------------------------*/
/* packRegsForSupport :- reduce some registers for support calls */
/*-----------------------------------------------------------------*/
return change;
}
+#endif
-#define IS_OP_RUONLY(x) (x && IS_SYMOP(x) && OP_SYMBOL(x)->ruonly)
+#define IS_OP_RUONLY(x) (x && IS_SYMOP(x) && OP_SYMBOL(x)->ruonly)
+#ifndef NO_packRegsForOneuse
/*-----------------------------------------------------------------*/
/* packRegsForOneuse : - will reduce some registers for single Use */
/*-----------------------------------------------------------------*/
bitVect *uses;
iCode *dic, *sic;
+ return NULL;
+
debugLog ("%s\n", __FUNCTION__);
/* if returning a literal then do nothing */
if (!IS_SYMOP (op))
return NULL;
+ if(OP_SYMBOL(op)->remat || OP_SYMBOL(op)->ruonly)
+ return NULL;
+
/* only upto 2 bytes since we cannot predict
the usage of b, & acc */
- if (getSize (operandType (op)) > (pic16_fReturnSizePic - 2) &&
- ic->op != RETURN &&
- ic->op != SEND)
+ if (getSize (operandType (op)) > (pic16_fReturnSizePic - 1)
+ && ic->op != RETURN
+ && ic->op != SEND
+ && !POINTER_SET(ic)
+ && !POINTER_GET(ic)
+ )
return NULL;
/* this routine will mark the a symbol as used in one
that definition is either a return value from a
function or does not contain any variables in
far space */
+
+#if 0
uses = bitVectCopy (OP_USES (op));
bitVectUnSetBit (uses, ic->key); /* take away this iCode */
if (!bitVectIsZero (uses)) /* has other uses */
return NULL;
+#endif
+
+#if 1
+ if (bitVectnBitsOn (OP_USES (op)) > 1)
+ return NULL;
+#endif
/* if it has only one defintion */
if (bitVectnBitsOn (OP_DEFS (op)) > 1)
}
dic = dic->next;
}
+ else
+ {
/* otherwise check that the definition does
if (POINTER_GET (dic) &&
!IS_DATA_PTR (aggrToPtr (operandType (IC_LEFT (dic)), FALSE)))
return NULL;
+ }
sic = dic;
operation is a '*','/' or '%' then 'b' may
cause a problem */
if ((dic->op == '%' || dic->op == '/' || dic->op == '*') &&
- getSize (operandType (op)) >= 3)
+ getSize (operandType (op)) >= 2)
return NULL;
/* if left or right or result is in far space */
return sic;
}
+#endif
+
/*-----------------------------------------------------------------*/
/* isBitwiseOptimizable - requirements of JEAN LOUIS VERN */
return FALSE;
}
+
+#ifndef NO_packRegsForAccUse
+
/*-----------------------------------------------------------------*/
/* packRegsForAccUse - pack registers for acc use */
/*-----------------------------------------------------------------*/
IC_LEFT (uic)->key != IC_RESULT (ic)->key)
return;
+#if 1
debugLog (" %s:%d\n", __FUNCTION__,__LINE__);
/* if one of them is a literal then we can */
if ( ((IC_LEFT (uic) && IS_OP_LITERAL (IC_LEFT (uic))) ||
OP_SYMBOL (IC_RESULT (ic))->accuse = 1;
return;
}
+#endif
debugLog (" %s:%d\n", __FUNCTION__,__LINE__);
/* if the other one is not on stack then we can */
}
+#endif
+
/*-----------------------------------------------------------------*/
/* packForPush - hueristics to reduce iCode for pushing */
for (dic = ic->next; dic; dic = dic->next)
{
-
-
-
if (IC_LEFT (dic) && (IC_RESULT (ic)->key == IC_LEFT (dic)->key))
- debugLog (" used on left\n");
+ debugLog (" used on left\n");
if (IC_RIGHT (dic) && IC_RESULT (ic)->key == IC_RIGHT (dic)->key)
- debugLog (" used on right\n");
+ debugLog (" used on right\n");
if (IC_RESULT (dic) && IC_RESULT (ic)->key == IC_RESULT (dic)->key)
- debugLog (" used on result\n");
+ debugLog (" used on result\n");
if ((IC_LEFT (dic) && (IC_RESULT (ic)->key == IC_LEFT (dic)->key)) ||
- (IC_RESULT (dic) && IC_RESULT (ic)->key == IC_RESULT (dic)->key))
+ (IC_RESULT (dic) && IC_RESULT (ic)->key == IC_RESULT (dic)->key))
return;
-
}
debugLog (" hey we can remove this unnecessary assign\n");
packForPush (iCode * ic, eBBlock * ebp)
{
iCode *dic;
-
+
debugLog ("%s\n", __FUNCTION__);
if (ic->op != IPUSH || !IS_ITEMP (IC_LEFT (ic)))
return;
+#if 0
+ {
+ int n1, n2;
+
+ n1 = bitVectnBitsOn( OP_DEFS(IC_LEFT(ic)));
+ n2 = bitVectnBitsOn( OP_USES(IC_LEFT(ic)));
+ debugf3("defs: %d\tuses: %d\t%s\n", n1, n2, printILine(ic));
+ debugf2("IC_LEFT(ic): from %d to %d\n", OP_LIVEFROM(IC_LEFT(ic)), OP_LIVETO(IC_LEFT(ic)));
+ }
+#endif
+
/* must have only definition & one usage */
if (bitVectnBitsOn (OP_DEFS (IC_LEFT (ic))) != 1 ||
bitVectnBitsOn (OP_USES (IC_LEFT (ic))) != 1)
bitVectFirstBit (OP_DEFS (IC_LEFT (ic))))))
return;
+ /* if definition is not assignment,
+ * or is not pointer (because pointer might have changed) */
if (dic->op != '=' || POINTER_SET (dic))
return;
+ /* we must ensure that we can use the delete the assignment,
+ * because the source might have been modified in between.
+ * Until I know how to fix this, I'll use the adhoc fix
+ * to check the liveranges */
+ if((OP_LIVEFROM(IC_RIGHT(dic))==0) || (OP_LIVETO(IC_RIGHT(dic))==0))
+ return;
+// debugf2("IC_RIGHT(dic): from %d to %d\n", OP_LIVEFROM(IC_RIGHT(dic)), OP_LIVETO(IC_RIGHT(dic)));
+
+
+
/* we now we know that it has one & only one def & use
and the that the definition is an assignment */
IC_LEFT (ic) = IC_RIGHT (dic);
+
+ debugf("remiCodeFromeBBlock: %s\n", printILine(dic));
remiCodeFromeBBlock (ebp, dic);
bitVectUnSetBit(OP_SYMBOL(IC_RESULT(dic))->defs,dic->key);
{
FILE *of = stderr;
- if(!pic16_ralloc_debug)return;
-
- if(!sl)return;
-
- if(debugF)
- of = debugF;
-
- for ( ; sl; sl=sl->next) {
- if(!IS_DECL(sl) ) {
- switch (SPEC_SCLS(sl)) {
- case S_DATA: fprintf (of, "data "); break;
- case S_XDATA: fprintf (of, "xdata "); break;
- case S_SFR: fprintf (of, "sfr "); break;
- case S_SBIT: fprintf (of, "sbit "); break;
- case S_CODE: fprintf (of, "code "); break;
- case S_IDATA: fprintf (of, "idata "); break;
- case S_PDATA: fprintf (of, "pdata "); break;
- case S_LITERAL: fprintf (of, "literal "); break;
- case S_STACK: fprintf (of, "stack "); break;
- case S_XSTACK: fprintf (of, "xstack "); break;
- case S_BIT: fprintf (of, "bit "); break;
- case S_EEPROM: fprintf (of, "eeprom "); break;
- default: break;
- }
-
- }
- }
+ if(!pic16_ralloc_debug)return;
+
+ if(!sl)return;
+
+ if(debugF)
+ of = debugF;
+
+ for ( ; sl; sl=sl->next) {
+ if(!IS_DECL(sl) ) {
+ switch (SPEC_SCLS(sl)) {
+ case S_DATA: fprintf (of, "data "); break;
+ case S_XDATA: fprintf (of, "xdata "); break;
+ case S_SFR: fprintf (of, "sfr "); break;
+ case S_SBIT: fprintf (of, "sbit "); break;
+ case S_CODE: fprintf (of, "code "); break;
+ case S_IDATA: fprintf (of, "idata "); break;
+ case S_PDATA: fprintf (of, "pdata "); break;
+ case S_LITERAL: fprintf (of, "literal "); break;
+ case S_STACK: fprintf (of, "stack "); break;
+ case S_XSTACK: fprintf (of, "xstack "); break;
+ case S_BIT: fprintf (of, "bit "); break;
+ case S_EEPROM: fprintf (of, "eeprom "); break;
+ default: break;
+ }
+ }
+ }
}
-#define NO_packRegsForSupport 1
-#define NO_packRegsForAccUse 1
-#define NO_packRegsForOneuse 1
-#define NO_cast_peep 1
/*--------------------------------------------------------------------*/
/* pic16_packRegisters - does some transformations to reduce */
{
// debugLog("%d\n", __LINE__);
/* find assignment of the form TrueSym := iTempNN:1 */
- /* see BUGLOG0001 for workaround with the CAST - VR */
- if ((ic->op == '=' || ic->op == CAST) && !POINTER_SET (ic))
+ if ( (ic->op == '=') && !POINTER_SET (ic) ) // patch 11
change += packRegsForAssign (ic, ebp);
/* debug stuff */
if (ic->op == '=')
printSymType(" ", OP_SYMBOL(IC_RESULT(ic))->type);
}
- if (POINTER_SET (ic))
- debugLog (" %d - Pointer set\n", __LINE__);
+ if(IS_TRUE_SYMOP ( IC_RIGHT(ic))) {
+ debugAopGet (" right:", IC_RIGHT (ic));
+ printSymType(" ", OP_SYMBOL(IC_RIGHT(ic))->type);
+// pic16_allocDirReg(IC_RIGHT(ic));
+ }
+
+ if(IS_TRUE_SYMOP ( IC_RESULT(ic))) {
+ debugAopGet (" result:", IC_RESULT (ic));
+ printSymType(" ", OP_SYMBOL(IC_RESULT(ic))->type);
+// pic16_allocDirReg(IC_RESULT(ic));
+ }
+ if (POINTER_SET (ic))
+ debugLog (" %d - Pointer set\n", __LINE__);
+
+ /* Look for two subsequent iCodes with */
+ /* iTemp := _c; */
+ /* _c = iTemp & op; */
+ /* and replace them by */
+ /* iTemp := _c; */
+ /* _c = _c & op; */
+ if ((ic->op == BITWISEAND || ic->op == '|' || ic->op == '^')
+ && ic->prev
+ && ic->prev->op == '='
+ && IS_ITEMP (IC_LEFT (ic))
+ && IC_LEFT (ic) == IC_RESULT (ic->prev)
+ && isOperandEqual (IC_RESULT(ic), IC_RIGHT(ic->prev)))
+ {
+ iCode* ic_prev = ic->prev;
+ symbol* prev_result_sym = OP_SYMBOL (IC_RESULT (ic_prev));
+
+ ReplaceOpWithCheaperOp (&IC_LEFT (ic), IC_RESULT (ic));
+ if (IC_RESULT (ic_prev) != IC_RIGHT (ic)) {
+ bitVectUnSetBit (OP_USES (IC_RESULT (ic_prev)), ic->key);
+ if (/*IS_ITEMP (IC_RESULT (ic_prev)) && */
+ prev_result_sym->liveTo == ic->seq)
+ {
+ prev_result_sym->liveTo = ic_prev->seq;
+ }
+ }
+ bitVectSetBit (OP_USES (IC_RESULT (ic)), ic->key);
+
+ bitVectSetBit (ic->rlive, IC_RESULT (ic)->key);
+
+ if (bitVectIsZero (OP_USES (IC_RESULT (ic_prev)))) {
+ bitVectUnSetBit (ic->rlive, IC_RESULT (ic)->key);
+ bitVectUnSetBit (OP_DEFS (IC_RESULT (ic_prev)), ic_prev->key);
+ remiCodeFromeBBlock (ebp, ic_prev);
+ hTabDeleteItem (&iCodehTab, ic_prev->key, ic_prev, DELETE_ITEM, NULL);
+ }
+ }
+
/* if this is an itemp & result of a address of a true sym
then mark this as rematerialisable */
if (ic->op == ADDRESS_OF &&
OP_SYMBOL (IC_RESULT (ic))->usl.spillLoc = NULL;
}
+
+#if 0
+ /* try to optimize FSR0 usage when reading data memory pointers */
+
+ if(getenv("OPTIMIZE_NEAR_POINTER_GET")) {
+ static int fsr0usage=0;
+ static iCode *usic;
+
+ if(POINTER_GET(ic) /* this is a memory read */
+ && ic->loop /* this is in a loop */
+ ) {
+ fprintf(stderr, "might optimize FSR0 usage\n");
+ }
+ }
+#endif
+
/* mark the pointer usages */
if (POINTER_SET (ic))
{
OP_SYMBOL (IC_RESULT (ic))->uptr = 1;
debugLog (" marking as a pointer (set) =>");
debugAopGet (" result:", IC_RESULT (ic));
+
}
+
if (POINTER_GET (ic))
{
- OP_SYMBOL (IC_LEFT (ic))->uptr = 1;
- debugLog (" marking as a pointer (get) =>");
- debugAopGet (" left:", IC_LEFT (ic));
+ if(IS_SYMOP(IC_LEFT(ic))) {
+ OP_SYMBOL (IC_LEFT (ic))->uptr = 1;
+ debugLog (" marking as a pointer (get) =>");
+ debugAopGet (" left:", IC_LEFT (ic));
+ }
+
+ if(getenv("OPTIMIZE_BITFIELD_POINTER_GET")) {
+ if(IS_ITEMP(IC_LEFT(ic)) && IS_BITFIELD(OP_SYM_ETYPE(IC_LEFT(ic)))) {
+ iCode *dic = ic->prev;
+
+ fprintf(stderr, "%s:%d might give opt POINTER_GET && IS_BITFIELD(IC_LEFT)\n", __FILE__, __LINE__);
+
+ if(dic && dic->op == '='
+ && isOperandEqual(IC_RESULT(dic), IC_LEFT(ic))) {
+
+ fprintf(stderr, "%s:%d && prev is '=' && prev->result == ic->left\n", __FILE__, __LINE__);
+
+
+ /* replace prev->left with ic->left */
+ IC_LEFT(ic) = IC_RIGHT(dic);
+ IC_RIGHT(ic->prev) = NULL;
+
+ /* remove ic->prev iCode (assignment) */
+ remiCodeFromeBBlock (ebp, dic);
+ bitVectUnSetBit(OP_SYMBOL(IC_RESULT(dic))->defs,ic->key);
+
+
+ hTabDeleteItem (&iCodehTab, dic->key, dic, DELETE_ITEM, NULL);
+ }
+ }
+ }
}
//debugLog(" %d %s\n", __LINE__, __FUNCTION__);
debugLog(" %d\n", __LINE__);
-#if NO_packRegsForSupport
+#ifndef NO_packRegsForSupport
/* reduce for support function calls */
if (ic->supportRtn || ic->op == '+' || ic->op == '-')
packRegsForSupport (ic, ebp);
if (ic->op == RECEIVE)
packForReceive (ic, ebp);
-#if NO_packRegsForOneuse
+#ifndef NO_packRegsForOneuse
/* some cases the redundant moves can
can be eliminated for return statements */
if ((ic->op == RETURN || ic->op == SEND) &&
packRegsForOneuse (ic, IC_LEFT (ic), ebp);
#endif
-#if NO_packRegsForOneuse
+#ifndef NO_packRegsForOneuse
/* if pointer set & left has a size more than
one and right is not in far space */
if (POINTER_SET (ic) &&
packRegsForOneuse (ic, IC_RESULT (ic), ebp);
#endif
-#if NO_packRegsForOneuse
+#ifndef NO_packRegsForOneuse
/* if pointer get */
if (POINTER_GET (ic) &&
!isOperandInFarSpace (IC_RESULT (ic)) &&
debugLog("%d - return from packRegsForOneuse\n", __LINE__);
#endif
-#if NO_cast_peep
+#ifndef NO_cast_peep
/* if this is cast for intergral promotion then
check if only use of the definition of the
operand being casted/ if yes then replace
}
}
#endif
+
+#if 1
+ /* there are some problems with packing variables
+ * it seems that the live range estimator doesn't
+ * estimate correctly the liveranges of some symbols */
+
/* pack for PUSH
iTempNN := (some variable in farspace) V1
push iTempNN ;
{
packForPush (ic, ebp);
}
+#endif
-
-#if NO_packRegsForAccUse
+#ifndef NO_packRegsForAccUse
/* pack registers for accumulator use, when the
result of an arithmetic or bit wise operation
has only one use, that use is immediately following
) &&
IS_ITEMP (IC_RESULT (ic)) &&
- getSize (operandType (IC_RESULT (ic))) <= 2)
+ getSize (operandType (IC_RESULT (ic))) <= 1)
packRegsForAccUse (ic);
#endif
printiCChain (ebbs[i]->sch, debugF);
}
}
+
+void dbg_dumpregusage(void);
+
/*-----------------------------------------------------------------*/
/* pic16_assignRegisters - assigns registers to each live range as need */
/*-----------------------------------------------------------------*/
void
-pic16_assignRegisters (eBBlock ** ebbs, int count)
+pic16_assignRegisters (ebbIndex * ebbi)
{
+ eBBlock ** ebbs = ebbi->bbOrder;
+ int count = ebbi->count;
iCode *ic;
int i;
debugLog ("\nebbs before optimizing:\n");
dumpEbbsToDebug (ebbs, count);
+ _inRegAllocator = 1;
+
+ pic16_freeAllRegs();
+#if 0
+ dbg_dumpregusage();
+ /* clear whats left over from peephole parser */
+ pic16_dynAllocRegs= newSet(); //NULL;
+// pic16_dynStackRegs= newSet(); //NULL;
+// pic16_dynProcessorRegs=newSet(); //NULL;
+// pic16_dynDirectRegs=newSet(); //NULL;
+// pic16_dynDirectBitRegs=newSet(); //NULL;
+// pic16_dynInternalRegs=newSet(); //NULL;
+// pic16_dynAccessRegs=newSet(); //NULL;
+
+// dynDirectRegNames=NULL;
+ dynAllocRegNames=NULL;
+// dynProcRegNames=NULL;
+// dynAccessRegNames=NULL;
+#endif
+
setToNull ((void *) &_G.funcrUsed);
pic16_ptrRegReq = _G.stackExtend = _G.dataExtend = 0;
for (i = 0; i < count; i++)
pic16_packRegisters (ebbs[i]);
+
{
regs *reg;
int hkey;
- int i=0;
debugLog("dir registers allocated so far:\n");
reg = hTabFirstItem(dynDirectRegNames, &hkey);
+#if 0
while(reg) {
debugLog(" -- #%d reg = %s key %d, rIdx = %d, size %d\n",i++,reg->name,hkey, reg->rIdx,reg->size);
// fprintf(stderr, " -- #%d reg = %s key %d, rIdx = %d, size %d\n",i++,reg->name,hkey, reg->rIdx,reg->size);
reg = hTabNextItem(dynDirectRegNames, &hkey);
}
+#endif
}
recomputeLiveRanges (ebbs, count);
if (options.dump_pack)
- dumpEbbsToFileExt (DUMP_PACK, ebbs, count);
+ dumpEbbsToFileExt (DUMP_PACK, ebbi);
/* first determine for each live range the number of
registers & the type of registers required for each */
regTypeNum ();
+ /* start counting function temporary registers from zero */
+ dynrIdx = 0;
+
/* and serially allocate registers */
serialRegAssign (ebbs, count);
+#if 0
+ debugLog ("ebbs after serialRegAssign:\n");
+ dumpEbbsToDebug (ebbs, count);
+#endif
+
//pic16_freeAllRegs();
/* if stack was extended then tell the user */
redoStackOffsets ();
if (options.dump_rassgn)
- dumpEbbsToFileExt (DUMP_RASSGN, ebbs, count);
+ dumpEbbsToFileExt (DUMP_RASSGN, ebbi);
+
+// dumpLR(ebbs, count);
/* now get back the chain */
ic = iCodeLabelOptimize (iCodeFromeBBlock (ebbs, count));
dumpEbbsToDebug (ebbs, count);
+ _inRegAllocator = 0;
+
genpic16Code (ic);
/* free up any _G.stackSpil locations allocated */
/* mark all registers as free */
pic16_freeAllRegs ();
+
debugLog ("leaving\n<><><><><><><><><><><><><><><><><>\n");
debugLogClose ();
return;