#include "pcoderegs.h"
#include "pcodeflow.h"
+
+#define DEBUG_REMOVE1PCODE 0
+#define HAVE_DBGREGUSAGE 0
+
+
extern void pic16_pCodeInsertAfter(pCode *pc1, pCode *pc2);
extern pCode * pic16_findPrevInstruction(pCode *pci);
extern pBranch * pic16_pBranchAppend(pBranch *h, pBranch *n);
/*-----------------------------------------------------------------*
*
*-----------------------------------------------------------------*/
-#if 0
+
+#if HAVE_DBGREGUSAGE
static void dbg_regusage(set *fregs)
{
regs *reg;
}
}
}
-#endif
/*-----------------------------------------------------------------*
*
*-----------------------------------------------------------------*/
-#if 0
-static void dbg_dumpregusage(void)
+
+//static
+void dbg_dumpregusage(void)
{
fprintf(stderr,"*** Register Usage ***\n");
if(PCC_REGISTER & PCI(pc)->outCond)
addSetIfnotP(& (reg->reglives.assignedpFlows), pcfl);
- addSetIfnotP(& (reg->reglives.usedpCodes), pc);
+ addSetIfnotP(& (reg->reglives.usedpCodes), pc);
+
+// reg->wasUsed=1;
#if 1
/* check to see if this pCode has 2 memory operands,
addSetIfnotP(& (reg->reglives.assignedpFlows), pcfl);
addSetIfnotP(& (reg->reglives.usedpCodes), pc);
+
+// reg->wasUsed=1;
}
}
#endif
}
#endif
-// dbg_dumpregusage();
+#if HAVE_DBGREGUSAGE
+ dbg_dumpregusage();
+#endif
}
deleteSetItem (&(reg->reglives.usedpCodes),pc);
-#if 0
+#if DEBUG_REMOVE1PCODE
fprintf(stderr,"removing instruction:\n");
pc->print(stderr,pc);
#endif
if(pcn) {
if(PCI(pcn)->cline) {
- //fprintf(stderr, "source line has been optimized completely out\n");
- //pc->print(stderr,pc);
+
+#if DEBUG_REMOVE1PCODE
+ fprintf(stderr, "source line has been optimized completely out\n");
+ pc->print(stderr,pc);
+#endif
+
} else {
PCI(pcn)->cline = PCI(pc)->cline;
}
if(used == 0) {
-// fprintf(stderr,"%s:%d: getting rid of reg %s\n",__FILE__, __LINE__, reg->name);
+// fprintf(stderr,"%s:%d: getting rid of reg %s\n",__FILE__, __LINE__, reg->name);
reg->isFree = 1;
reg->wasUsed = 0;
fprintf(stderr,"reg %s, type =%d\n",r->name, r->type);
}
-
- pc->print(stderr, pc);
-
- fprintf(stderr,"%s:%d: removing reg %s because it is used only once\n",__FILE__, __LINE__, reg->name);
-
-
Remove1pcode(pc, reg);
/*
pic16_unlinkpCode(pc);
fprintf(stderr, " *** Saved %d registers ***\n", total_registers_saved);
}
+static int insideLRBlock(pCode *pc)
+{
+ pCode *pc1;
+ int t1=-1, t2=-1;
+
+ pc1 = pc->prev;
+ while(pc1) {
+ if(isPCINFO(pc1) && (PCINF(pc1)->type == INF_LOCALREGS)) {
+ t1 = PCOLR (PCINF (pc1)->oper1)->type;
+ break;
+ }
+ pc1 = pc1->prev;
+ }
+
+ pc1 = pc->next;
+ while(pc1) {
+ if(isPCINFO(pc1) && (PCINF(pc1)->type == INF_LOCALREGS)) {
+ t2 = PCOLR (PCINF (pc1)->oper1)->type;
+ break;
+ }
+ pc1 = pc1->next;
+ }
+
+ if((t1 == LR_ENTRY_BEGIN && t2 == LR_ENTRY_END)
+ || (t1 == LR_EXIT_BEGIN && t2 == LR_EXIT_END))
+ return 1;
+
+ return 0;
+}
+
+
+static void RemoveRegFromLRBlock(regs *reg)
+{
+ if(elementsInSet(reg->reglives.usedpCodes) == 2) {
+ pCode *pc1;
+
+ /* only continue if there are just 2 uses of the register,
+ * in in the local *entry* block and one in the local *exit* block */
+
+ /* search for entry block */
+ pc1 = indexSet(reg->reglives.usedpCodes, 1);
+
+ if(insideLRBlock( pc1 )) {
+ fprintf(stderr, "usedpCodes[0] inside LR block\n");
+ deleteSetItem(&pc1->pb->tregisters, PCOR(PCI(pc1)->pcop)->r);
+ Remove1pcode(pc1, reg);
+ }
+
+ pc1 = indexSet(reg->reglives.usedpCodes, 0);
+ if(insideLRBlock( pc1 )) {
+ fprintf(stderr, "usedpCodes[1] inside LR block\n");
+ deleteSetItem(&pc1->pb->tregisters, PCOR(PCI(pc1)->pcop)->r);
+ Remove1pcode(pc1, reg);
+ }
+
+ /* remove r0x00 */
+ reg->isFree = 1;
+ reg->wasUsed = 0;
+ }
+}
+
+
/*-----------------------------------------------------------------*
*
}
pCodeRegMapLiveRangesInFlow(PCFL(pcflow));
+
+#if 1
+// fprintf(stderr, "register %s is used in %d pCodes, assigned in %d pCodes\n", reg->name,
+// elementsInSet(reg->reglives.usedpCodes),
+// elementsInSet(reg->reglives.assignedpFlows));
+
+ RemoveRegFromLRBlock(reg);
+#endif
+
}
/*-----------------------------------------------------------------*
return 1;
}
+ if(PCI(pc1)->is2MemOp) {
+ testreg = pic16_getRegFromInstruction2(pc1);
+ if(testreg && (testreg->rIdx == reg->rIdx)) {
+ return 1;
+ }
+ }
+
pc1 = pic16_findNextInstruction(pc1->next);
} while (pc1 && (pc1 != pc2) && (i++ < 100)) ;
if(usesW(pct3))
; // Remove2pcodes(pcfl_used, pc1, NULL, reg, can_free);
- else
+ else {
Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
-
- total_registers_saved++; // debugging stats.
- return 1;
- } else {
- //fprintf(stderr,"didn't optimize because Z bit is used\n");
- }
+ total_registers_saved++; // debugging stats.
+ return 1;
+ }
+ } else {
+// fprintf(stderr,"didn't optimize because Z bit is used\n");
+ }
}
#if 0
fprintf(stderr, " couldn't optimize\n");
if(reg2)
- fprintf(stderr, " %s is used in range\n",reg2->name);
+ fprintf(stderr, " %s is used in range\n", reg2->name);
else
fprintf(stderr, " reg2 is NULL\n");
#endif
reg1 = pic16_getRegFromInstruction(pct1);
if(reg1 && !regUsedinRange(pc1,pc2,reg1)) {
- /*
+
+#if 0
fprintf(stderr, " MOVF/MOVFW. \n");
fprintf(stderr, " ...optimizing\n");
- */
+#endif
/*
Change:
int saved = 0;
int t = total_registers_saved;
- if(!register_optimization)
- return;
+ if(getenv("NO_REG_OPT"))
+ return;
-#define OPT_PASSES 4
- passes = OPT_PASSES;
+ if(!register_optimization)
+ return;
- do {
- saved = total_registers_saved;
+#define OPT_PASSES 8
+ passes = OPT_PASSES;
- /* Identify registers used in one flow sequence */
- OptimizeRegUsage(pic16_dynAllocRegs,level, (OPT_PASSES-passes));
- OptimizeRegUsage(pic16_dynStackRegs,level, (OPT_PASSES-passes));
- OptimizeRegUsage(pic16_dynDirectRegs,0, (OPT_PASSES-passes));
+ do {
+ saved = total_registers_saved;
- if((total_registers_saved != saved)
- && (pic16_pcode_verbose))
- fprintf(stderr, " *** pass %d, Saved %d registers, total saved %d ***\n",
- (1+OPT_PASSES-passes),total_registers_saved-saved,total_registers_saved);
-
- passes--;
+ /* Identify registers used in one flow sequence */
+ OptimizeRegUsage(pic16_dynAllocRegs,level, (OPT_PASSES-passes));
+ OptimizeRegUsage(pic16_dynStackRegs,level, (OPT_PASSES-passes));
+ OptimizeRegUsage(pic16_dynDirectRegs,0, (OPT_PASSES-passes));
- } while( passes && ((total_registers_saved != saved) || (passes==OPT_PASSES-1)) );
+ if((total_registers_saved != saved)
+ && (pic16_pcode_verbose))
+ fprintf(stderr, " *** pass %d, Saved %d registers, total saved %d ***\n",
+ (1+OPT_PASSES-passes),total_registers_saved-saved,total_registers_saved);
+
+ passes--;
- if(total_registers_saved == t)
+ } while( passes && ((total_registers_saved != saved) || (passes==OPT_PASSES-1)) );
- if(pic16_debug_verbose)
- fprintf(stderr, "No registers saved on this pass\n");
+ if(total_registers_saved == t)
+ if(pic16_debug_verbose)
+ fprintf(stderr, "No registers saved on this pass\n");
#if 0
- fprintf(stderr,"dynamically allocated regs:\n");
- dbg_regusage(pic16_dynAllocRegs);
- fprintf(stderr,"stack regs:\n");
- dbg_regusage(pic16_dynStackRegs);
- fprintf(stderr,"direct regs:\n");
- dbg_regusage(pic16_dynDirectRegs);
+ fprintf(stderr,"dynamically allocated regs:\n");
+ dbg_regusage(pic16_dynAllocRegs);
+ fprintf(stderr,"stack regs:\n");
+ dbg_regusage(pic16_dynStackRegs);
+ fprintf(stderr,"direct regs:\n");
+ dbg_regusage(pic16_dynDirectRegs);
#endif
}
while(regset) {
reg = regset->item;
regset = regset->next;
-
deleteSet(®->reglives.usedpCodes);
deleteSet(®->reglives.usedpFlows);
void pic16_RegsUnMapLiveRanges(void)
{
-
RegsSetUnMapLiveRanges(pic16_dynAllocRegs);
RegsSetUnMapLiveRanges(pic16_dynStackRegs);
RegsSetUnMapLiveRanges(pic16_dynDirectRegs);
RegsSetUnMapLiveRanges(pic16_dynProcessorRegs);
RegsSetUnMapLiveRanges(pic16_dynDirectBitRegs);
RegsSetUnMapLiveRanges(pic16_dynInternalRegs);
-
}