-------------------------------------------------------------------------*/
/*
- pcoderegs.c
+pcoderegs.c
The purpose of the code in this file is to optimize the register usage.
#include "pcode.h"
#include "pcoderegs.h"
#include "pcodeflow.h"
+#include "main.h"
-extern void pCodeInsertAfter(pCode *pc1, pCode *pc2);
extern void dbg_dumpregusage(void);
extern pCode * findPrevInstruction(pCode *pci);
extern pBranch * pBranchAppend(pBranch *h, pBranch *n);
void unlinkpCode(pCode *pc);
-extern int pCodeSearchCondition(pCode *pc, unsigned int cond);
+extern int pCodeSearchCondition(pCode *pc, unsigned int cond, int contIfSkip);
+char *pCode2str(char *str, int size, pCode *pc);
+void SAFE_snprintf(char **str, size_t *size, const char *format, ...);
+//static int sameRegs (const regs *reg1, const regs *reg2);
int total_registers_saved=0;
int register_optimization=1;
/*-----------------------------------------------------------------*
- * void AddRegToFlow(regs *reg, pCodeFlow *pcfl)
- *-----------------------------------------------------------------*/
+* void AddRegToFlow(regs *reg, pCodeFlow *pcfl)
+*-----------------------------------------------------------------*/
/*
void AddRegToFlow(regs *reg, pCodeFlow *pcfl)
{
- if(!reg || ! pcfl || !isPCFL(pcflow))
- return;
-
- if(!pcfl->registers)
- pcfl->registers = newSet();
+ if(!reg || ! pcfl || !isPCFL(pcflow))
+ return;
+ if(!pcfl->registers)
+ pcfl->registers = newSet();
+
}
*/
/*-----------------------------------------------------------------*
- *
- *-----------------------------------------------------------------*/
+*
+*-----------------------------------------------------------------*/
void dbg_regusage(set *fregs)
{
- regs *reg;
- pCode *pcfl;
- pCode *pc;
-
-
- for (reg = setFirstItem(fregs) ; reg ;
- reg = setNextItem(fregs)) {
-
- if(elementsInSet(reg->reglives.usedpCodes)) {
-
- fprintf (stderr, "%s addr=0x%03x rIdx=0x%03x",
- reg->name,
- reg->address,
- reg->rIdx);
-
- pcfl = setFirstItem(reg->reglives.usedpFlows);
- if(pcfl)
- fprintf(stderr, "\n used in seq");
-
- while(pcfl) {
- fprintf(stderr," 0x%03x",pcfl->seq);
- pcfl = setNextItem(reg->reglives.usedpFlows);
- }
-
- pcfl = setFirstItem(reg->reglives.assignedpFlows);
- if(pcfl)
- fprintf(stderr, "\n assigned in seq");
-
- while(pcfl) {
- fprintf(stderr," 0x%03x",pcfl->seq);
- pcfl = setNextItem(reg->reglives.assignedpFlows);
- }
-
- pc = setFirstItem(reg->reglives.usedpCodes);
- if(pc)
- fprintf(stderr, "\n used in instructions ");
-
- while(pc) {
- pcfl = PCODE(PCI(pc)->pcflow);
- if(pcfl)
- fprintf(stderr," 0x%03x:",pcfl->seq);
- fprintf(stderr,"0x%03x",pc->seq);
-
- pc = setNextItem(reg->reglives.usedpCodes);
- }
-
- fprintf(stderr, "\n");
- }
- }
+ regs *reg;
+ pCode *pcfl;
+ pCode *pc;
+
+
+ for (reg = setFirstItem(fregs) ; reg ;
+ reg = setNextItem(fregs)) {
+
+ if(elementsInSet(reg->reglives.usedpCodes)) {
+
+ fprintf (stderr, "%s addr=0x%03x rIdx=0x%03x",
+ reg->name,
+ reg->address,
+ reg->rIdx);
+
+ pcfl = setFirstItem(reg->reglives.usedpFlows);
+ if(pcfl)
+ fprintf(stderr, "\n used in seq");
+
+ while(pcfl) {
+ fprintf(stderr," 0x%03x",pcfl->seq);
+ pcfl = setNextItem(reg->reglives.usedpFlows);
+ }
+
+ pcfl = setFirstItem(reg->reglives.assignedpFlows);
+ if(pcfl)
+ fprintf(stderr, "\n assigned in seq");
+
+ while(pcfl) {
+ fprintf(stderr," 0x%03x",pcfl->seq);
+ pcfl = setNextItem(reg->reglives.assignedpFlows);
+ }
+
+ pc = setFirstItem(reg->reglives.usedpCodes);
+ if(pc)
+ fprintf(stderr, "\n used in instructions ");
+
+ while(pc) {
+ pcfl = PCODE(PCI(pc)->pcflow);
+ if(pcfl)
+ fprintf(stderr," 0x%03x:",pcfl->seq);
+ fprintf(stderr,"0x%03x",pc->seq);
+
+ pc = setNextItem(reg->reglives.usedpCodes);
+ }
+
+ fprintf(stderr, "\n");
+ }
+ }
}
/*-----------------------------------------------------------------*
- *
- *-----------------------------------------------------------------*/
+*
+*-----------------------------------------------------------------*/
void dbg_dumpregusage(void)
{
-
- fprintf(stderr,"*** Register Usage ***\n");
- fprintf(stderr,"InternalRegs:\n");
- dbg_regusage(dynInternalRegs);
- fprintf(stderr,"AllocRegs:\n");
- dbg_regusage(dynAllocRegs);
- fprintf(stderr,"StackRegs:\n");
- dbg_regusage(dynStackRegs);
- fprintf(stderr,"DirectRegs:\n");
- dbg_regusage(dynDirectRegs);
- fprintf(stderr,"DirectBitRegs:\n");
- dbg_regusage(dynDirectBitRegs);
- fprintf(stderr,"ProcessorRegs:\n");
- dbg_regusage(dynProcessorRegs);
-
+
+ fprintf(stderr,"*** Register Usage ***\n");
+ fprintf(stderr,"InternalRegs:\n");
+ dbg_regusage(dynInternalRegs);
+ fprintf(stderr,"AllocRegs:\n");
+ dbg_regusage(dynAllocRegs);
+ fprintf(stderr,"StackRegs:\n");
+ dbg_regusage(dynStackRegs);
+ fprintf(stderr,"DirectRegs:\n");
+ dbg_regusage(dynDirectRegs);
+ fprintf(stderr,"DirectBitRegs:\n");
+ dbg_regusage(dynDirectBitRegs);
+ fprintf(stderr,"ProcessorRegs:\n");
+ dbg_regusage(dynProcessorRegs);
+
}
/*-----------------------------------------------------------------*
- * void pCodeRegMapLiveRangesInFlow(pCodeFlow *pcfl)
- *-----------------------------------------------------------------*/
+* void pCodeRegMapLiveRangesInFlow(pCodeFlow *pcfl)
+*-----------------------------------------------------------------*/
void pCodeRegMapLiveRangesInFlow(pCodeFlow *pcfl)
{
-
- pCode *pc=NULL;
- pCode *pcprev=NULL;
-
- regs *reg;
-
- if(!pcfl)
- return;
-
-
- pc = findNextInstruction(pcfl->pc.next);
-
- while(isPCinFlow(pc,PCODE(pcfl))) {
-
-
- reg = getRegFromInstruction(pc);
-
- if(reg) {
-/*
- fprintf(stderr, "flow seq %d, inst seq %d %s ",PCODE(pcfl)->seq,pc->seq,reg->name);
- fprintf(stderr, "addr = 0x%03x, type = %d rIdx=0x%03x\n",
- reg->address,reg->type,reg->rIdx);
-*/
-
- addSetIfnotP(& (PCFL(pcfl)->registers), reg);
-
- if((PCC_REGISTER | PCC_LITERAL) & PCI(pc)->inCond)
- addSetIfnotP(& (reg->reglives.usedpFlows), pcfl);
-
- if(PCC_REGISTER & PCI(pc)->outCond)
- addSetIfnotP(& (reg->reglives.assignedpFlows), pcfl);
-
- addSetIfnotP(& (reg->reglives.usedpCodes), pc);
- }
-
-
- pcprev = pc;
- pc = findNextInstruction(pc->next);
-
- }
-
+
+ pCode *pc=NULL;
+
+ regs *reg;
+
+ if(!pcfl)
+ return;
+
+
+ pc = findNextInstruction(pcfl->pc.next);
+
+ while(isPCinFlow(pc,PCODE(pcfl))) {
+
+
+ reg = getRegFromInstruction(pc);
+
+ if(reg) {
+ /*
+ fprintf(stderr, "flow seq %d, inst seq %d %s ",PCODE(pcfl)->seq,pc->seq,reg->name);
+ fprintf(stderr, "addr = 0x%03x, type = %d rIdx=0x%03x\n",
+ reg->address,reg->type,reg->rIdx);
+ */
+
+ addSetIfnotP(& (PCFL(pcfl)->registers), reg);
+
+ if(PCC_REGISTER & PCI(pc)->inCond)
+ addSetIfnotP(& (reg->reglives.usedpFlows), pcfl);
+
+ if(PCC_REGISTER & PCI(pc)->outCond)
+ addSetIfnotP(& (reg->reglives.assignedpFlows), pcfl);
+
+ addSetIfnotP(& (reg->reglives.usedpCodes), pc);
+ }
+
+
+ pc = findNextInstruction(pc->next);
+
+ }
+
}
/*-----------------------------------------------------------------*
- * void pCodeRegMapLiveRanges(pBlock *pb)
- *-----------------------------------------------------------------*/
+* void pCodeRegMapLiveRanges(pBlock *pb)
+*-----------------------------------------------------------------*/
void pCodeRegMapLiveRanges(pBlock *pb)
{
- pCode *pcflow;
-
- for( pcflow = findNextpCode(pb->pcHead, PC_FLOW);
- pcflow != NULL;
- pcflow = findNextpCode(pcflow->next, PC_FLOW) ) {
-
- if(!isPCFL(pcflow)) {
- fprintf(stderr, "pCodeRegMapLiveRanges - pcflow is not a flow object ");
- continue;
- }
- pCodeRegMapLiveRangesInFlow(PCFL(pcflow));
- }
-
+ pCode *pcflow;
+
+ for( pcflow = findNextpCode(pb->pcHead, PC_FLOW);
+ pcflow != NULL;
+ pcflow = findNextpCode(pcflow->next, PC_FLOW) ) {
+
+ if(!isPCFL(pcflow)) {
+ fprintf(stderr, "pCodeRegMapLiveRanges - pcflow is not a flow object ");
+ continue;
+ }
+ pCodeRegMapLiveRangesInFlow(PCFL(pcflow));
+ }
+
#if 0
- for( pcflow = findNextpCode(pb->pcHead, PC_FLOW);
- pcflow != NULL;
- pcflow = findNextpCode(pcflow->next, PC_FLOW) ) {
-
- regs *r = setFirstItem(PCFL(pcflow)->registers);
- fprintf(stderr,"flow seq %d\n", pcflow->seq);
-
- while (r) {
- fprintf(stderr, " %s\n",r->name);
- r = setNextItem(PCFL(pcflow)->registers);
-
- }
-
- }
+ for( pcflow = findNextpCode(pb->pcHead, PC_FLOW);
+ pcflow != NULL;
+ pcflow = findNextpCode(pcflow->next, PC_FLOW) ) {
+
+ regs *r = setFirstItem(PCFL(pcflow)->registers);
+ fprintf(stderr,"flow seq %d\n", pcflow->seq);
+
+ while (r) {
+ fprintf(stderr, " %s\n",r->name);
+ r = setNextItem(PCFL(pcflow)->registers);
+
+ }
+
+ }
#endif
-
-// dbg_dumpregusage();
-
+
+ // dbg_dumpregusage();
+
}
/*-----------------------------------------------------------------*
- *
- *-----------------------------------------------------------------*/
-static void Remove1pcode(pCode *pc, regs *reg)
+*
+*-----------------------------------------------------------------*/
+static void Remove1pcode(pCode *pc, regs *reg, int debug_code)
{
- pCode *pcn=NULL;
-
- if(!reg || !pc)
- return;
-
- deleteSetItem (&(reg->reglives.usedpCodes),pc);
-/*
- fprintf(stderr,"removing instruction:\n");
- pc->print(stderr,pc);
-*/
- if(PCI(pc)->label) {
- pcn = findNextInstruction(pc->next);
-
- if(pcn)
- PCI(pcn)->label = pBranchAppend(PCI(pcn)->label,PCI(pc)->label);
- }
-
- if(PCI(pc)->cline) {
- if(!pcn)
- pcn = findNextInstruction(pc->next);
-
- if(pcn) {
- if(PCI(pcn)->cline) {
- //fprintf(stderr, "source line has been optimized completely out\n");
- //pc->print(stderr,pc);
- } else {
- PCI(pcn)->cline = PCI(pc)->cline;
- }
- }
- }
-
- pc->destruct(pc);
+ pCode *pcn=NULL;
+
+ if(!reg || !pc)
+ return;
+
+ deleteSetItem (&(reg->reglives.usedpCodes),pc);
+
+ if(PCI(pc)->label) {
+ pcn = findNextInstruction(pc->next);
+
+ if(pcn)
+ PCI(pcn)->label = pBranchAppend(PCI(pcn)->label,PCI(pc)->label);
+ }
+
+ if(PCI(pc)->cline) {
+ if(!pcn)
+ pcn = findNextInstruction(pc->next);
+
+ if(pcn) {
+ if(PCI(pcn)->cline) {
+ //fprintf(stderr, "source line has been optimized completely out\n");
+ //pc->print(stderr,pc);
+ } else {
+ PCI(pcn)->cline = PCI(pc)->cline;
+ }
+ }
+ }
+
+
+ if(1){
+ /*
+ Debug stuff. Comment out the instruction we're about to delete.
+ */
+
+ char buff1[256];
+ size_t size = 256;
+
+ char *pbuff,**ppbuff;
+ pbuff = buff1;
+ ppbuff = &pbuff;
+
+ SAFE_snprintf(ppbuff,&size, ";%d", debug_code);
+ pCode2str(*ppbuff, size, pc);
+ pCodeInsertBefore(pc, newpCodeCharP(buff1));
+ //fprintf(stderr,"removing instruction:\n%s\n",buff1);
+ }
+
+ pc->destruct(pc);
+
}
/*-----------------------------------------------------------------*
- * void RemoveRegsFromSet(set *regset)
- *
- *-----------------------------------------------------------------*/
+* void RemoveRegsFromSet(set *regset)
+*
+*-----------------------------------------------------------------*/
void RemoveRegsFromSet(set *regset)
{
- regs *reg;
- int used;
-
- while(regset) {
- reg = regset->item;
- regset = regset->next;
-
- used = elementsInSet(reg->reglives.usedpCodes);
-
- if(used <= 1) {
-
- //fprintf(stderr," reg %s isfree=%d, wasused=%d\n",reg->name,reg->isFree,reg->wasUsed);
- if(used == 0) {
- //fprintf(stderr," getting rid of reg %s\n",reg->name);
- reg->isFree = 1;
- reg->wasUsed = 0;
- } else {
- pCode *pc;
-
-
- pc = setFirstItem(reg->reglives.usedpCodes);
-
- if(reg->type == REG_SFR) {
- //fprintf(stderr, "not removing SFR reg %s even though used only once\n",reg->name);
- continue;
- }
-
-
- if(isPCI(pc)) {
- if(PCI(pc)->label) {
- pCode *pcn = findNextInstruction(pc->next);
-
- if(pcn && PCI(pcn)->label) {
- //fprintf(stderr,"can't delete instruction with label...\n");
- //pc->print(stderr,pc);
- continue;
- }
- /* Move the label to the next instruction */
-
- PCI(pcn)->label = PCI(pc)->label;
-
- }
-
- if(isPCI_SKIP(pc)) {
- regs *r = getRegFromInstruction(pc);
- fprintf(stderr, "WARNING, a skip instruction is being optimized out\n");
- pc->print(stderr,pc);
- fprintf(stderr,"reg %s, type =%d\n",r->name, r->type);
- }
- //fprintf(stderr," removing reg %s because it is used only once\n",reg->name);
- Remove1pcode(pc, reg);
- /*
- unlinkpCode(pc);
- deleteSetItem (&(reg->reglives.usedpCodes),pc);
- */
- reg->isFree = 1;
- reg->wasUsed = 0;
- total_registers_saved++; // debugging stats.
+ regs *reg;
+ int used;
+
+ while(regset) {
+ reg = regset->item;
+ regset = regset->next;
+
+ used = elementsInSet(reg->reglives.usedpCodes);
+
+ if(used <= 1) {
+
+ //fprintf(stderr," reg %s isfree=%d, wasused=%d\n",reg->name,reg->isFree,reg->wasUsed);
+ if(used == 0) {
+ //fprintf(stderr," getting rid of reg %s\n",reg->name);
+ reg->isFree = 1;
+ reg->wasUsed = 0;
+ } else {
+ pCode *pc;
+
+
+ pc = setFirstItem(reg->reglives.usedpCodes);
+
+ if(reg->type == REG_SFR || reg->type == REG_STK || reg->isPublic || reg->isExtern) {
+ //fprintf(stderr, "not removing SFR reg %s even though used only once\n",reg->name);
+ continue;
+ }
+
+
+ if(isPCI(pc)) {
+ if(PCI(pc)->label) {
+ pCode *pcn = findNextInstruction(pc->next);
+
+ if(pcn && PCI(pcn)->label) {
+ //fprintf(stderr,"can't delete instruction with label...\n");
+ //pc->print(stderr,pc);
+ continue;
+ }
+ /* Move the label to the next instruction */
+
+ PCI(pcn)->label = PCI(pc)->label;
+
+ }
+
+ if(isPCI_SKIP(pc)) {
+ regs *r = getRegFromInstruction(pc);
+ fprintf(stderr, "WARNING, a skip instruction is being optimized out\n");
+ pc->print(stderr,pc);
+ fprintf(stderr,"reg %s, type =%d\n",r->name, r->type);
+ }
+ //fprintf(stderr," removing reg %s because it is used only once\n",reg->name);
+ Remove1pcode(pc, reg, 1);
+ /*
+ unlinkpCode(pc);
+ deleteSetItem (&(reg->reglives.usedpCodes),pc);
+ */
+ reg->isFree = 1;
+ reg->wasUsed = 0;
+ total_registers_saved++; // debugging stats.
+ }
+ }
+ }
+
}
- }
- }
-
- }
}
/*-----------------------------------------------------------------*
- * void RemoveUnusedRegisters(void)
- *
- *-----------------------------------------------------------------*/
+* void RemoveUnusedRegisters(void)
+*
+*-----------------------------------------------------------------*/
void RemoveUnusedRegisters(void)
{
- /* First, get rid of registers that are used only one time */
-
- //RemoveRegsFromSet(dynInternalRegs);
- RemoveRegsFromSet(dynAllocRegs);
- RemoveRegsFromSet(dynStackRegs);
- /*
- don't do DirectRegs yet - there's a problem with arrays
- RemoveRegsFromSet(dynDirectRegs);
- */
- RemoveRegsFromSet(dynDirectBitRegs);
-
- if(total_registers_saved) fprintf(stderr, " *** Saved %d registers ***\n", total_registers_saved);
+ /* First, get rid of registers that are used only one time */
+
+ //RemoveRegsFromSet(dynInternalRegs);
+ RemoveRegsFromSet(dynAllocRegs);
+ RemoveRegsFromSet(dynStackRegs);
+ /*
+ don't do DirectRegs yet - there's a problem with arrays
+ RemoveRegsFromSet(dynDirectRegs);
+ */
+ RemoveRegsFromSet(dynDirectBitRegs);
+
+ if(total_registers_saved) DFPRINTF((stderr, " *** Saved %d registers ***\n", total_registers_saved));
}
/*-----------------------------------------------------------------*
- *
- *-----------------------------------------------------------------*/
+*
+*-----------------------------------------------------------------*/
static void Remove2pcodes(pCode *pcflow, pCode *pc1, pCode *pc2, regs *reg, int can_free)
{
- if(!reg)
- return;
-
- if(pc1)
- Remove1pcode(pc1, reg);
-
- if(pc2) {
- Remove1pcode(pc2, reg);
- deleteSetItem (&(PCFL(pcflow)->registers), reg);
-
- if(can_free) {
- reg->isFree = 1;
- reg->wasUsed = 0;
- }
-
- }
-
- pCodeRegMapLiveRangesInFlow(PCFL(pcflow));
+ static int debug_code=99;
+ if(!reg)
+ return;
+#if 0
+ fprintf (stderr, "%s:%d(%s): %d (reg:%s)\n", __FILE__, __LINE__, __FUNCTION__, debug_code, reg ? reg->name : "???");
+ printpCode (stderr, pc1);
+ printpCode (stderr, pc2);
+#endif
+
+ //fprintf(stderr,"%s\n",__FUNCTION__);
+ if(pc1)
+ Remove1pcode(pc1, reg, debug_code++);
+
+ if(pc2) {
+ Remove1pcode(pc2, reg, debug_code++);
+ deleteSetItem (&(PCFL(pcflow)->registers), reg);
+
+ if(can_free) {
+ reg->isFree = 1;
+ reg->wasUsed = 0;
+ }
+
+ }
+
+ pCodeRegMapLiveRangesInFlow(PCFL(pcflow));
}
/*-----------------------------------------------------------------*
- *
- *-----------------------------------------------------------------*/
+*
+*-----------------------------------------------------------------*/
int regUsedinRange(pCode *pc1, pCode *pc2, regs *reg)
{
- int i=0;
- regs *testreg;
+ int i=0;
+ regs *testreg;
+
+ do {
+ testreg = getRegFromInstruction(pc1);
+ if(testreg && (testreg->rIdx == reg->rIdx)) {
+ return 1;
+ }
+ if (i++ > 1000) {
+ fprintf(stderr, "warning, regUsedinRange searched through too many pcodes\n");
+ return 0;
+ }
+
+ pc1 = findNextInstruction(pc1->next);
+
+ } while (pc1 && (pc1 != pc2)) ;
+
+ return 0;
+}
- do {
- testreg = getRegFromInstruction(pc1);
- if(testreg && (testreg->rIdx == reg->rIdx)) {
- return 1;
- }
+int regIsSpecial (regs *reg, int mayBeGlobal)
+{
+ if (!reg) return 0;
- pc1 = findNextInstruction(pc1->next);
+ if (reg->type == REG_SFR || reg->type == REG_STK || (!mayBeGlobal && (reg->isPublic || reg->isExtern))) return 1;
- } while (pc1 && (pc1 != pc2) && (i++ < 100)) ;
+ return 0;
+}
- if(i >= 100)
- fprintf(stderr, "warning, regUsedinRange searched through too many pcodes\n");
+#if 0
+static int regIsLocal (regs *reg)
+{
+ if (!reg) return 1;
+ /* temporaries are local */
+ if (reg->type == REG_TMP) return 1;
+ /* registers named r0x... are local */
+ if (reg->name && !strncmp(reg->name,"r0x", 3))
+ {
+ //fprintf (stderr, "reg %s is not marked REG_TMP...\n", reg->name);
+ return 1;
+ }
- return 0;
+ return 0;
}
+#endif
/*-----------------------------------------------------------------*
- * void pCodeOptime2pCodes(pCode *pc1, pCode *pc2)
- *
- * ADHOC pattern checking
- * Now look for specific sequences that are easy to optimize.
- * Many of these sequences are characteristic of the compiler
- * (i.e. it'd probably be a waste of time to apply these adhoc
- * checks to hand written assembly.)
- *
- *
- *-----------------------------------------------------------------*/
+* void pCodeOptime2pCodes(pCode *pc1, pCode *pc2)
+*
+* ADHOC pattern checking
+* Now look for specific sequences that are easy to optimize.
+* Many of these sequences are characteristic of the compiler
+* (i.e. it'd probably be a waste of time to apply these adhoc
+* checks to hand written assembly.)
+*
+*
+*-----------------------------------------------------------------*/
int pCodeOptime2pCodes(pCode *pc1, pCode *pc2, pCode *pcfl_used, regs *reg, int can_free, int optimize_level)
{
- pCode *pct1, *pct2;
- regs *reg1, *reg2;
-
- int t = total_registers_saved;
+ pCode *pct1, *pct2;
+ regs *reg1, *reg2;
+
+ int t = total_registers_saved;
+
+ if (!isPCI(pc1) || !isPCI(pc2)) return 0;
+ if (PCI(pc1)->pcflow != PCI(pc2)->pcflow) return 0;
+
+ if(pc2->seq < pc1->seq) {
+ pct1 = pc2;
+ pc2 = pc1;
+ pc1 = pct1;
+ }
- if(pc2->seq < pc1->seq) {
- pct1 = pc2;
- pc2 = pc1;
- pc1 = pct1;
+ /* disable this optimization for now -- it's buggy */
+ if(pic14_options.disable_df) return 0;
+
+ //fprintf(stderr,"pCodeOptime2pCodes\n");
+ //pc1->print(stderr,pc1);
+ //pc2->print(stderr,pc2);
+
+ if((PCI(pc1)->op == POC_CLRF) && (PCI(pc2)->op == POC_MOVFW) ){
+ pCode *newpc;
+ int regUsed = 0;
+ int wUsed = 0;
+ int wSaved = 0;
+ /*
+ clrf reg ; pc1
+ stuff...
+ movf reg,w ; pc2
+
+ can be replaced with (only if following instructions are not going to use W and reg is not used again later)
+
+ stuff...
+ movlw 0 or clrf reg
+ */
+ DFPRINTF((stderr, " optimising CLRF reg ... MOVF reg,W to ... MOVLW 0\n"));
+ pct2 = findNextInstruction(pc2->next);
+
+ if(pct2 && PCI(pct2)->op == POC_MOVWF) {
+ wSaved = wUsed = 1; /* Maybe able to replace with clrf pc2->next->reg. */
+ } else {
+ wUsed = pCodeSearchCondition(pct2,PCC_W,1) != -1;
+ }
+ regUsed = regUsedinRange(pct2,0,reg);
+ if ((regUsed&&wUsed) || (pCodeSearchCondition(pct2,PCC_Z,0) != -1)) {
+ /* Do not optimise as exisiting code is required. */
+ } else {
+ /* Can optimise. */
+ if(regUsed) {
+ newpc = newpCode(POC_CLRF, PCI(pc1)->pcop);
+ } else if(wSaved && !wUsed) {
+ newpc = newpCode(POC_CLRF, PCI(pct2)->pcop);
+ pct2->destruct(pct2);
+ } else {
+ newpc = newpCode(POC_MOVLW, newpCodeOpLit(0));
+ }
+
+ pCodeInsertAfter(pc2, newpc);
+ PCI(newpc)->pcflow = PCFL(pcfl_used);
+ newpc->seq = pc2->seq;
+
+ //fprintf (stderr, "%s:%d(%s): Remove2pcodes (CLRF reg, ..., MOVF reg,W)\n", __FILE__, __LINE__, __FUNCTION__);
+ Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
+ total_registers_saved++; // debugging stats.
+ }
+ } else if((PCI(pc1)->op == POC_CLRF) && (PCI(pc2)->op == POC_IORFW) ){
+ DFPRINTF((stderr, " optimising CLRF/IORFW\n"));
+
+ pct2 = findNextInstruction(pc2->next);
+
+ /* We must ensure that is destroyed before being read---IORLW must be performed unless this is proven. */
+ if(pCodeSearchCondition(pct2, PCC_Z,0) != -1) {
+ pct2 = newpCode(POC_IORLW, newpCodeOpLit(0));
+ pct2->seq = pc2->seq;
+ PCI(pct2)->pcflow = PCFL(pcfl_used);
+ pCodeInsertAfter(pc1,pct2);
+ }
+ //fprintf (stderr, "%s:%d(%s): Remove2pcodes (CLRF/IORFW)\n", __FILE__, __LINE__, __FUNCTION__);
+ Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
+ total_registers_saved++; // debugging stats.
+
+ } else if(PCI(pc1)->op == POC_MOVWF) {
+ // Optimising MOVWF reg ...
+
+ pct2 = findNextInstruction(pc2->next);
+
+ if(PCI(pc2)->op == POC_MOVFW) {
+ // Optimising MOVWF reg ... MOVF reg,W
+
+ if(PCI(pct2)->op == POC_MOVWF) {
+ /*
+ Change:
+
+ movwf reg ; pc1
+ stuff...
+ movf reg,w ; pc2
+ movwf reg2 ; pct2
+
+ To: ( as long as 'stuff' does not use reg2 or if following instructions do not use W or reg is not used later)
+
+ movwf reg2
+ stuff...
+
+ */
+ reg2 = getRegFromInstruction(pct2);
+ /* Check reg2 is not used for something else before it is loaded with reg */
+ if (reg2 && !regIsSpecial (reg2, 1) && !regUsedinRange(pc1,pc2,reg2)) {
+ pCode *pct3 = findNextInstruction(pct2->next);
+ /* Check following instructions are not relying on the use of W or the Z flag condiction */
+ /* XXX: We must ensure that this value is destroyed before use---otherwise it might be used in
+ * subsequent flows (checking for < 1 is insufficient). */
+ if ((pCodeSearchCondition(pct3,PCC_Z,0) == -1) && (pCodeSearchCondition(pct3,PCC_W,0) == -1)) {
+ DFPRINTF((stderr, " optimising MOVF reg ... MOVF reg,W MOVWF reg2 to MOVWF reg2 ...\n"));
+ pct2->seq = pc1->seq;
+ unlinkpCode(pct2);
+ pCodeInsertBefore(pc1,pct2);
+ if(regUsedinRange(pct2,0,reg))
+ {
+ //fprintf (stderr, "%s:%d(%s): Remove2pcodes IF (MOVWF reg, ..., MOVW reg,W MOVWF reg2)\n", __FILE__, __LINE__, __FUNCTION__);
+ Remove2pcodes(pcfl_used, pc2, NULL, reg, can_free);
+ } else {
+ //fprintf (stderr, "%s:%d(%s): Remove2pcodes ELSE (MOVWF reg, ..., MOVW reg,W MOVWF reg2)\n", __FILE__, __LINE__, __FUNCTION__);
+ Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
+ }
+ total_registers_saved++; // debugging stats.
+ return 1;
+ }
+ }
+ }
+ }
+
+ pct1 = findPrevInstruction(pc1->prev);
+ if(pct1 && (PCI(pct1)->pcflow == PCI(pc1)->pcflow)) {
+
+ if ( (PCI(pct1)->op == POC_MOVFW) &&
+ (PCI(pc2)->op == POC_MOVFW)) {
+
+ reg1 = getRegFromInstruction(pct1);
+ if(reg1 && !regIsSpecial (reg1, 0) && !regUsedinRange(pc1,pc2,reg1)) {
+ DFPRINTF((stderr, " optimising MOVF reg1,W MOVWF reg ... MOVF reg,W\n"));
+ /*
+ Change:
+
+ movf reg1,w
+ movwf reg
+
+ stuff...
+ movf reg,w
+
+ To:
+
+ stuff...
+
+ movf reg1,w
+
+ Or, if we're not deleting the register then the "To" is:
+
+ stuff...
+
+ movf reg1,w
+ movwf reg
+ */
+ pct2 = newpCode(PCI(pc2)->op, PCI(pct1)->pcop);
+ pCodeInsertAfter(pc2, pct2);
+ PCI(pct2)->pcflow = PCFL(pcfl_used);
+ pct2->seq = pc2->seq;
+
+ if(can_free) {
+ //fprintf (stderr, "%s:%d(%s): Remove2pcodes CANFREE (MOVF reg1,W; MOVWF reg2; MOVF reg2,W)\n", __FILE__, __LINE__, __FUNCTION__);
+ Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
+ } else {
+ /* If we're not freeing the register then that means (probably)
+ * the register is needed somewhere else.*/
+ unlinkpCode(pc1);
+ pCodeInsertAfter(pct2, pc1);
+
+ //fprintf (stderr, "%s:%d(%s): Remove2pcodes ELSE (MOVF reg1,W; MOVWF reg2; MOVF reg2,W)\n", __FILE__, __LINE__, __FUNCTION__);
+ Remove2pcodes(pcfl_used, pc2, NULL, reg, can_free);
+ }
+
+ //fprintf (stderr, "%s:%d(%s): Remove2pcodes ALWAYS (MOVF reg1,W; MOVWF reg2; MOVF reg2,W)\n", __FILE__, __LINE__, __FUNCTION__);
+ Remove2pcodes(pcfl_used, pct1, NULL, reg1, 0);
+ total_registers_saved++; // debugging stats.
+
+ }
+ }
+ }
}
-/*
- fprintf(stderr,"pCodeOptime2pCodes\n");
- pc1->print(stderr,pc1);
- pc2->print(stderr,pc2);
-*/
- if((PCI(pc1)->op == POC_CLRF) && (PCI(pc2)->op == POC_MOVFW) ){
-
- /*
- clrf reg
- stuff...
- movf reg,w
-
- can be replaced with
-
- stuff...
- movlw 0
- */
-
- pCode *newpc;
- //fprintf(stderr, " CLRF/MOVFW. instruction after MOVFW is:\n");
- pct1 = findNextInstruction(pc2->next);
-
- if(PCI(pct1)->op == POC_MOVWF) {
- newpc = newpCode(POC_CLRF, PCI(pct1)->pcop);
- pct1->destruct(pct1);
- } else {
- newpc = newpCode(POC_MOVLW, newpCodeOpLit(0));
- }
- pCodeInsertAfter(pc2, newpc);
- PCI(newpc)->pcflow = PCFL(pcfl_used);
- newpc->seq = pc2->seq;
-
- Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
- total_registers_saved++; // debugging stats.
-
- } else if((PCI(pc1)->op == POC_CLRF) && (PCI(pc2)->op == POC_IORFW) ){
- //fprintf(stderr, " CLRF/IORFW.\n");
-
- pct2 = findNextInstruction(pc2->next);
-
- if(pCodeSearchCondition(pct2, PCC_Z) > 0) {
- pct2 = newpCode(POC_IORLW, newpCodeOpLit(0));
- pct2->seq = pc2->seq;
- PCI(pct2)->pcflow = PCFL(pcfl_used);
- pCodeInsertAfter(pc1,pct2);
- }
- Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
- total_registers_saved++; // debugging stats.
-
- } else if(PCI(pc1)->op == POC_MOVWF) {
-
- pct2 = findNextInstruction(pc2->next);
-
- if(PCI(pc2)->op == POC_MOVFW) {
- /*
- fprintf(stderr, " MOVWF/MOVFW. instruction after MOVFW is:\n");
- pct2->print(stderr,pct2);
- */
-
- if(PCI(pct2)->op == POC_MOVWF) {
- /*
- Change:
-
- movwf reg
-
- stuff...
-
- movf reg,w
- movwf reg2
-
- To:
+ return (total_registers_saved != t);
+}
-
- */
- reg2 = getRegFromInstruction(pct2);
- //if(reg2 && !regUsedinRange(pc1,pc2,reg2) && (reg2->type != REG_SFR)) {
- if(reg2 && !regUsedinRange(pc1,pc2,reg2)) {
-
- if(pCodeSearchCondition(pct2, PCC_Z) < 1) {
- pCode *pct3 = findNextInstruction(pct2->next);
- pct2->seq = pc1->seq;
- unlinkpCode(pct2);
- pCodeInsertAfter(findPrevInstruction(pc1->prev),pct2);
-
-#define usesW(x) ((x) && (isPCI(x)) && ( (PCI(x)->inCond & PCC_W) != 0))
-
- if(usesW(pct3))
- ; // Remove2pcodes(pcfl_used, pc1, NULL, reg, can_free);
- 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");
- }
+/*-----------------------------------------------------------------*
+* void pCodeRegOptimeRegUsage(pBlock *pb)
+*-----------------------------------------------------------------*/
+void OptimizeRegUsage(set *fregs, int optimize_multi_uses, int optimize_level)
+{
+ regs *reg;
+ int used;
+ pCode *pc1=NULL, *pc2=NULL;
+
+
+ while(fregs) {
+ pCode *pcfl_used, *pcfl_assigned;
+
+ /* Step through the set by directly accessing the 'next' pointer.
+ * We could also step through by using the set API, but the
+ * the (debug) calls to print instructions affect the state
+ * of the set pointers */
+
+ reg = fregs->item;
+ fregs = fregs->next;
+ /*
+ if (strcmp(reg->name,"_SubState")==0)
+ fprintf(stderr,"Reg: %s\n",reg->name);
+ */
+
+ if(reg->type == REG_SFR || reg->type == REG_STK || reg->isPublic || reg->isExtern|| reg->isFixed) {
+ //fprintf(stderr,"skipping SFR: %s\n",reg->name);
+ continue;
+ }
+
+ pcfl_used = setFirstItem(reg->reglives.usedpFlows);
+ pcfl_assigned = setFirstItem(reg->reglives.assignedpFlows);
+
+ used = elementsInSet(reg->reglives.usedpCodes);
+ if(used == 2) {
+ /*
+ In this section, all registers that are used in only in two
+ instructions are examined. If possible, they're optimized out.
+ */
+
+ /*
+ fprintf (stderr, "OptimizeRegUsage: %s addr=0x%03x rIdx=0x%03x type=%d used=%d\n",
+ reg->name,
+ reg->address,
+ reg->rIdx, reg->type, used);
+ */
+ pc1 = setFirstItem(reg->reglives.usedpCodes);
+ pc2 = setNextItem(reg->reglives.usedpCodes);
+
+ if(pcfl_used && pcfl_assigned) {
+ /*
+ expected case - the register has been assigned a value and is
+ subsequently used
+ */
+
+ //fprintf(stderr," used only twice\n");
+ if(pcfl_used->seq == pcfl_assigned->seq) {
+
+ //fprintf(stderr, " and used in same flow\n");
+
+ pCodeOptime2pCodes(pc1, pc2, pcfl_used, reg, 1,optimize_level);
+
+ } else {
+ // fprintf(stderr, " and used in different flows\n");
+
+ }
+
+ } else if(pcfl_used) {
+
+ /* register has been used twice without ever being assigned */
+ fprintf(stderr,"WARNING %s: reg %s used without being assigned\n",__FUNCTION__,reg->name);
+
+ } else {
+ //fprintf(stderr,"WARNING %s.1: reg %s assigned without being used\n",__FUNCTION__,reg->name);
+ Remove2pcodes(pcfl_assigned, pc1, pc2, reg, 1);
+ total_registers_saved++; // debugging stats.
+ }
+ } else {
+
+ /* register has been used either once, or more than twice */
+
+ if(used && !pcfl_used && pcfl_assigned) {
+ pCode *pc;
+
+ //fprintf(stderr,"WARNING %s.2: reg %s assigned without being used\n",__FUNCTION__,reg->name);
+
+ pc = setFirstItem(reg->reglives.usedpCodes);
+ while(pc) {
+
+ pcfl_assigned = PCODE(PCI(pc)->pcflow);
+ Remove1pcode(pc, reg,2);
+
+ deleteSetItem (&(PCFL(pcfl_assigned)->registers), reg);
+ /*
+ deleteSetItem (&(reg->reglives.usedpCodes),pc);
+ pc->destruct(pc);
+ */
+ pc = setNextItem(reg->reglives.usedpCodes);
+ }
+
+
+ reg->isFree = 1;
+ reg->wasUsed = 0;
+
+ total_registers_saved++; // debugging stats.
+ } else if( (used > 2) && optimize_multi_uses) {
+
+ set *rset1=NULL;
+ set *rset2=NULL;
+ int searching=1;
+
+ pCodeFlow *pcfl1=NULL, *pcfl2=NULL;
+
+ /* examine the number of times this register is used */
+
+
+ rset1 = reg->reglives.usedpCodes;
+ while(rset1 && searching) {
+
+ pc1 = rset1->item;
+ rset2 = rset1->next;
+
+ if(pc1 && isPCI(pc1) && ( (pcfl1 = PCI(pc1)->pcflow) != NULL) ) {
+
+ //while(rset2 && searching) {
+ if(rset2) {
+
+ pc2 = rset2->item;
+ if(pc2 && isPCI(pc2) && ( (pcfl2 = PCI(pc2)->pcflow) != NULL) ) {
+ if(pcfl2 == pcfl1) {
+
+ if(pCodeOptime2pCodes(pc1, pc2, pcfl_used, reg, 0,optimize_level))
+ searching = 0;
+ }
+ }
+
+ //rset2 = rset2->next;
+
+ }
+ }
+ rset1 = rset1->next;
+ }
+ }
+ }
}
-/*
- fprintf(stderr, " couldn't optimize\n");
- if(reg2)
- fprintf(stderr, " %s is used in range\n",reg2->name);
- else
- fprintf(stderr, " reg2 is NULL\n");
-*/
- }
- }
-
- pct1 = findPrevInstruction(pc1->prev);
- if(pct1 && (PCI(pct1)->pcflow == PCI(pc1)->pcflow)) {
-
- if ( (PCI(pct1)->op == POC_MOVFW) &&
- (PCI(pc2)->op == POC_MOVFW)) {
-
- reg1 = getRegFromInstruction(pct1);
- if(reg1 && !regUsedinRange(pc1,pc2,reg1)) {
- /*
- fprintf(stderr, " MOVF/MOVFW. \n");
- fprintf(stderr, " ...optimizing\n");
- */
-
- /*
- Change:
-
- movf reg1,w
- movwf reg
-
- stuff...
- movf reg,w
-
- To:
+}
- stuff...
+#if 0
- movf reg1,w
+/* The following routines implement pCode optimizations based on
+ * dataflow analysis. The effects should be similar to those
+ * of pCodeOptime2pCodes() but more powerful.
+ *
+ * Unfortunately, the current approach (comparing operands by
+ * their associated registers) is seriously flawed:
+ * Some pCodeOps do not provide access to their repsective regs
+ * (PO_DIRs are created from arbitrary strings, immediates need
+ * to take offset and index into account, ...)
+ *
+ * This has to be rewritten based on pCodeOps instead of regs...
+ */
- Or, if we're not deleting the register then the "To" is:
+/* ------------------------------------------------------------------
+ Returns TRUE iff reg1 and reg2 are the same registers.
+ ------------------------------------------------------------------ */
- stuff...
+static int sameRegs (const regs *reg1, const regs *reg2)
+{
+ if (reg1 == reg2) return 1;
+ if (!reg1 || !reg2) return 0;
+ assert (reg1->name && reg2->name);
- movf reg1,w
- movwf reg
+ /* Compare names, as rIdx is not unique... */
+ if (!strcmp(reg1->name, reg2->name)) return 1;
+ /* Name mismatch -- not the same register. */
+ return 0;
+}
- */
- pct2 = newpCode(PCI(pc2)->op, PCI(pct1)->pcop);
- pCodeInsertAfter(pc2, pct2);
- PCI(pct2)->pcflow = PCFL(pcfl_used);
- pct2->seq = pc2->seq;
+/* ------------------------------------------------------------------
+ Returns 1 if the register is live at pc (read in this flow),
+ returns -1 if the register is NOT live at pc (assigned a new value
+ prior to readingi the old value in this flow) or
+ return 0 if the register is not mentioned.
+ ------------------------------------------------------------------ */
- if(can_free) {
- Remove2pcodes(pcfl_used, pc1, pc2, reg, can_free);
- } else {
- /* If we're not freeing the register then that means (probably)
- * the register is needed somewhere else.*/
- unlinkpCode(pc1);
- pCodeInsertAfter(pct2, pc1);
+static int checkRegInFlow (regs **reg, int *cond, pCode *pc)
+{
+ const int verbose = 0;
+ /* find next PCI at or after pc */
+ while (pc && isPCFL(pc)) pc = pc->next;
- Remove2pcodes(pcfl_used, pc2, NULL, reg, can_free);
- }
+ assert (reg && cond);
- Remove2pcodes(pcfl_used, pct1, NULL, reg1, 0);
- total_registers_saved++; // debugging stats.
+ /* remove pseudo flags from cond */
+ *cond &= ~(PCC_REGISTER | PCC_EXAMINE_PCOP);
+ if (verbose && pc)
+ {
+ fprintf (stderr, "Checking for reg %s, cond %x on pc ", *reg ? (*reg)->name : "<none>", *cond); pc->print (stderr, pc);
}
- } else if ( (PCI(pct1)->op == POC_MOVWF) &&
- (PCI(pc2)->op == POC_MOVFW)) {
- //fprintf(stderr,"movwf MOVWF/MOVFW\n");
- if(optimize_level > 1 && can_free) {
- pct2 = newpCode(POC_MOVFW, PCI(pc1)->pcop);
- pCodeInsertAfter(pc2, pct2);
- Remove2pcodes(pcfl_used, pc1, pc2, reg, 1);
- total_registers_saved++; // debugging stats.
+
+ while (pc && !isPCFL(pc))
+ {
+ if (verbose)
+ {
+ fprintf (stderr, " now checking for reg %s, cond %x on pc ", *reg ? (*reg)->name : "<none>", *cond);
+ pc->print (stderr, pc);
+ }
+ if (isPCI(pc))
+ {
+ pCode *pcprev;
+ regs *op = NULL;
+ int prevIsSkip = 0;
+
+ pcprev = findPrevInstruction (pc);
+ if (pcprev && isPCI_SKIP(pcprev))
+ prevIsSkip = 1;
+
+ if ((PCI(pc)->inCond | PCI(pc)->outCond) & PCC_REGISTER)
+ {
+ op = getRegFromInstruction (pc);
+
+ /* pCodeOpRegBits do not provide register information... */
+ //if (!op) { __asm__("int3"); pc->print (stderr, pc); }
+ //assert (op);
+ if (!op)
+ {
+ if (reg)
+ return 1; /* assume `reg' is alive */
+ }
+
+ /* SPECIAL CASE: jump to unknown destination -- assume everything alive */
+ if (op->type == PO_PCL)
+ {
+ return 1;
+ }
+ } // if
+
+ if (PCI(pc)->inCond & PCC_REGISTER)
+ {
+ /* `op' is live (possibly read) */
+ if (*reg && sameRegs (op, *reg))
+ {
+ if (verbose)
+ {
+ fprintf (stderr, "reg is read in pc ");
+ pc->print (stderr, pc);
+ }
+ return 1;
+ }
+ }
+
+ /* handle additional implicit operands */
+ switch (PCI(pc)->op)
+ {
+ case POC_CALL: /* read arguments from WREG, clobbers WREG */
+ if (*cond & PCC_W)
+ {
+ if (verbose)
+ {
+ fprintf (stderr, "conditions are read at pc ");
+ pc->print (stderr, pc);
+ }
+ return 1;
+ }
+ *cond &= ~PCC_W;
+ break;
+ case POC_RETURN: /* returns WREG to caller */
+ //fprintf (stderr, "reached RETURN, reg %s, cond %x\n", *reg ? (*reg)->name : "<none>", *cond);
+ if (*cond & PCC_W)
+ {
+ if (verbose)
+ {
+ fprintf (stderr, "conditions are read at pc ");
+ pc->print (stderr, pc);
+ }
+ return 1;
+ }
+ /* afterwards, no condition is alive */
+ *cond = 0;
+ /* afterwards, all local registers are dead */
+ if (*reg && regIsLocal (*reg)) *reg = NULL;
+ break;
+ case POC_RETLW:
+ case POC_RETFIE: /* this does not erturn WREG to the "caller", thus its rather a RETLW */
+ /* this discards WREG */
+ *cond &= ~PCC_W;
+ /* afterwards, no condition is alive */
+ *cond = 0;
+ /* afterwards, all local registers are dead */
+ if (*reg && regIsLocal (*reg)) *reg = NULL;
+ break;
+ default:
+ /* no implicit arguments */
+ break;
+ }
+
+ if (PCI(pc)->inCond & (*cond))
+ {
+ /* a condition is read */
+ if (verbose)
+ {
+ fprintf (stderr, "conditions are read at pc ");
+ pc->print (stderr, pc);
+ }
+ return 1;
+ }
+
+ /* remove outConds from `cond' */
+ (*cond) &= ~(PCI(pc)->outCond);
+
+ if (PCI(pc)->outCond & PCC_REGISTER)
+ {
+ /* `op' is (possibly) discarded */
+ if (*reg && !prevIsSkip && sameRegs (op, *reg))
+ {
+ if (verbose)
+ {
+ fprintf (stderr, "reg is assigned (cont'd) at pc ");
+ pc->print (stderr, pc);
+ }
+ *reg = NULL;
+ }
+ }
+
+ /* have all interesting conditions/registers been discarded? */
+ if (!(*reg) && !(*cond))
+ {
+ if (verbose)
+ {
+ fprintf (stderr, "reg and conditions are discarded after ");
+ pc->print (stderr, pc);
+ }
+ return -1;
+ }
+ } // if
+
+ pc = pc->next;
+ } // while
+
+ /* no use of (or only conditional writes to) `reg' found in flow */
+ if (verbose)
+ {
+ fprintf (stderr, "analysis inconclusive: reg %s, cond %x remains\n", *reg ? "remains" : "is void", *cond);
}
- }
-
-
- }
-
- }
-
- return (total_registers_saved != t);
+ return 0;
}
-/*-----------------------------------------------------------------*
- * void pCodeRegOptimeRegUsage(pBlock *pb)
- *-----------------------------------------------------------------*/
-void OptimizeRegUsage(set *fregs, int optimize_multi_uses, int optimize_level)
-{
- regs *reg;
- int used;
- pCode *pc1=NULL, *pc2=NULL;
-
-
- while(fregs) {
- pCode *pcfl_used, *pcfl_assigned;
+/* ------------------------------------------------------------------
+ This will return 1 only if
+ - reg is NULL or of type REG_TMP
+ - reg is NULL or its value is discarded after pc
+ - cond is 0 or all conditions are overwritten before being used
+ ------------------------------------------------------------------ */
- /* Step through the set by directly accessing the 'next' pointer.
- * We could also step through by using the set API, but the
- * the (debug) calls to print instructions affect the state
- * of the set pointers */
+typedef struct {
+ pCode *pc;
+ regs *reg;
+ int cond;
+} df_state_t;
- reg = fregs->item;
- fregs = fregs->next;
+df_state_t *df_free_states = NULL;
- if(reg->type == REG_SFR) {
- //fprintf(stderr,"skipping SFR: %s\n",reg->name);
- continue;
- }
+static df_state_t *
+df_newState (regs *reg, int cond, pCode *pc)
+{
+ df_state_t *state;
- pcfl_used = setFirstItem(reg->reglives.usedpFlows);
- pcfl_assigned = setFirstItem(reg->reglives.assignedpFlows);
+ if (df_free_states) {
+ state = df_free_states;
+ df_free_states = (df_state_t *)df_free_states->pc;
+ } else {
+ state = Safe_calloc(1, sizeof(df_state_t));
+ }
+ state->pc = pc;
+ state->reg = reg;
+ state->cond = cond;
+ return state;
+}
- used = elementsInSet(reg->reglives.usedpCodes);
- if(used == 2) {
+static int
+df_containsState (set *set, df_state_t *state)
+{
+ /* scan set for presence of `state' */
+ df_state_t *curr;
+ for (curr = setFirstItem (set); curr; curr = setNextItem (set))
+ {
+ if ((curr->pc == state->pc)
+ && (curr->reg == state->reg)
+ && (curr->cond == state->cond))
+ {
+ /* `state' found */
+ return 1;
+ }
+ }
+ return 0;
+}
- /*
- * In this section, all registers that are used in only in two
- * instructions are examined. If possible, they're optimized out.
- */
+static void
+df_releaseState (df_state_t *state)
+{
+ state->pc = (pCode *)df_free_states;
+ df_free_states = (df_state_t *)state;
+ state->reg = NULL;
+ state->cond = 0;
+}
-/*
- fprintf (stderr, "OptimizeRegUsage: %s addr=0x%03x rIdx=0x%03x type=%d used=%d\n",
- reg->name,
- reg->address,
- reg->rIdx, reg->type, used);
-*/
- pc1 = setFirstItem(reg->reglives.usedpCodes);
- pc2 = setNextItem(reg->reglives.usedpCodes);
+static void
+df_removeStates ()
+{
+ df_state_t *next;
+ while (df_free_states)
+ {
+ next = (df_state_t *)df_free_states->pc;
+ Safe_free(df_free_states);
+ df_free_states = next;
+ } // while
+}
- if(pcfl_used && pcfl_assigned) {
+int regIsDead (regs *reg, int cond, pCode *pc)
+{
+ set *seenStates = NULL;
+ set *todo = NULL;
+ pCode *curr;
+ df_state_t *state;
+ int result = 1;
+
+ /* sanity checks */
+ if (reg && !regIsLocal (reg)) return 0;
+
+ pc = findNextInstruction (pc->next);
+
+ addSet (&todo, df_newState(reg, cond, pc));
+
+ while ((result == 1) && (state = getSet (&todo)))
+ {
+ int res;
+
+ if (df_containsState (seenStates, state)) continue;
+ addSet (&seenStates, state);
+
+ curr = state->pc;
+ reg = state->reg;
+ cond = state->cond;
+
+ //fprintf (stderr, "Checking for reg %s/cond %x at pc ", reg ? reg->name : "<none>", cond);
+ //curr->print (stderr, curr);
+
+ res = checkRegInFlow (®, &cond, curr);
+ switch (res)
+ {
+ case 1: /* `reg' or `cond' is read---not dead */
+ result = 0;
+ break;
+ case -1: /* `reg' and `cond' are discarded in this flow---need to check other open flows */
+ break;
+ default: /* `reg' is not read and (possibly) not assigned---check successor flows */
+ if (curr)
+ {
+ pCodeFlow *pcfl = PCI(curr)->pcflow;
+ pCodeFlowLink *link;
+ pCode *first;
+ assert (pcfl);
+
+ for (link = setFirstItem(pcfl->to); link; link = setNextItem (pcfl->to))
+ {
+ /* add the first pCodeInstruction in the new flow to `todo' */
+ first = findNextInstruction (&link->pcflow->pc);
+ if (first) addSet (&todo, df_newState (reg, cond, first));
+ } // for
+ }
+ break;
+ } // switch
+ } // while
+
+ /* clean up */
+ while (NULL != (state = getSet (&todo))) { df_releaseState (state); }
+ while (NULL != (state = getSet (&seenStates))) { df_releaseState (state); }
+
+ /* if result remained 1, `reg' is not even possibly read and thus dead */
+ return result;
+}
- /*
- expected case - the register has been assigned a value and is
- subsequently used
- */
- //fprintf(stderr," used only twice\n");
- if(pcfl_used->seq == pcfl_assigned->seq) {
- //fprintf(stderr, " and used in same flow\n");
+/* ------------------------------------------------------------------
+ Safely remove a pCode.
+ This needs to check that the previous instruction was no SKIP
+ (otherwise the SKIP instruction would have to be removed as well,
+ which may not be done for SFRs (side-effects on read possible)).
+ ------------------------------------------------------------------ */
- pCodeOptime2pCodes(pc1, pc2, pcfl_used, reg, 1,optimize_level);
+extern void unBuildFlow (pBlock *pb);
+extern void RegsUnMapLiveRanges ();
+extern void BuildFlow (pBlock *pb);
+extern void LinkFlow (pBlock *pb);
+extern void BuildFlowTree (pBlock *pb);
+extern void pCodeRegMapLiveRanges (pBlock *pb);
+extern pFile *the_pFile;
- } else {
- // fprintf(stderr, " and used in different flows\n");
+static int pCodeRemove (pCode *pc, const char *comment)
+{
+ pCode *pcprev, *pcnext;
+ unsigned int result = 0;
+
+ /* Sanity checks. */
+ if (!pc) return 0;
+ if (!isPCI(pc)) return 0;
+
+ pcprev = findPrevInstruction (pc->prev);
+ if (pcprev && isPCI_SKIP(pcprev))
+ {
+ /* bail out until we know how to fix the Flow... */
+ //return 0;
+
+ /* we also need to remove the preceeding SKIP instruction(s) */
+ result = pCodeRemove (pcprev, "=DF= removing preceeding SKIP as well");
+ if (!result)
+ {
+ /* previous instruction could not be removed -- this cannot be removed as well */
+ return result;
+ }
+ /* FIXME: We now have to update the flow! */
+ } // if
+
+ /* do not remove pCodes with SFRs as operands (even reading them might cause side effects) */
+ {
+ regs *reg;
+ reg = getRegFromInstruction (pc);
+ /* accesses to the STATUS register aer always safe, but others... */
+ if (reg && reg->type == REG_SFR && reg->pc_type != PO_STATUS) return result;
+ }
+ /* MUST SUCEED FROM NOW ON (or ervert the changes done since NOW ;-)) */
+
+ /* fix flow */
+ if (PCI(pc)->pcflow && PCI(pc)->pcflow->end == pc)
+ {
+ pCode *pcprev;
+ pcprev = findPrevInstruction (pc->prev);
+ if (PCI(pcprev)->pcflow == PCI(pc)->pcflow)
+ {
+ PCI(pc)->pcflow->end = pcprev;
+ } else {
+ pBlock *pb = pc->pb;
+ RegsUnMapLiveRanges();
+ unBuildFlow(pb);
+ BuildFlow(pb);
+ LinkFlow(pb);
+ BuildFlowTree(pb);
+ for (pb = the_pFile->pbHead; pb; pb = pb->next)
+ {
+ pCodeRegMapLiveRanges(pb);
+ }
+ }
+ }
+
+ /* attach labels to next instruction */
+ pcnext = findNextInstruction (pc->next);
+ if (pcnext)
+ {
+ PCI(pcnext)->label = pBranchAppend (PCI(pcnext)->label, PCI(pc)->label);
+ if (!PCI(pcnext)->cline) PCI(pcnext)->cline = PCI(pc)->cline;
+ }
+ else
+ {
+ fprintf (stderr, "Cannot move a label...\n");
+ exit(-1);
+ }
+
+ if (comment)
+ {
+ char buffer[512];
+ int size = 512;
+ char *pbuff = &buffer[0];
+
+ SAFE_snprintf (&pbuff, &size, "; %s:%u(%s): %s", __FILE__, __LINE__, __FUNCTION__, comment);
+ pCodeInsertAfter(pc->prev, newpCodeCharP (&buffer[0]));
+ } // if
+
+ if (1)
+ {
+ /* replace removed pCode with out-commented version of itself */
+ char buffer[512];
+ int size = 512;
+ char *pbuff = &buffer[0];
+
+ SAFE_snprintf (&pbuff, &size, "; %s:%u(%s): ", __FILE__, __LINE__, __FUNCTION__);
+ pCode2str (pbuff, size, pc);
+ pCodeInsertAfter(pc->prev, newpCodeCharP (&buffer[0]));
}
- } else if(pcfl_used) {
+ pc->destruct (pc);
+ return result+1;
+}
- /*
- register has been used twice without ever being assigned */
- //fprintf(stderr,"WARNING %s: reg %s used without being assigned\n",__FUNCTION__,reg->name);
+/* ------------------------------------------------------------------
+ Find and remove dead pCodes.
+ ------------------------------------------------------------------ */
- } else {
- //fprintf(stderr,"WARNING %s: reg %s assigned without being used\n",__FUNCTION__,reg->name);
- Remove2pcodes(pcfl_assigned, pc1, pc2, reg, 1);
- total_registers_saved++; // debugging stats.
- }
- } else {
+static int removeIfDeadPCI (pCode *pc)
+{
+ pCode *pcnext = NULL;
+ pCode *curr;
+ unsigned int outCond;
+ unsigned int result = 0;
+ regs *dst;
+
+ if (!pc) return 0;
+ dst = NULL;
+
+ /* skip non-PCIs */
+ pcnext = findNextInstruction (pc->next);
+ if (!isPCI(pc)) return 0;
+
+ switch (PCI(pc)->op)
+ {
+ case POC_ADDLW:
+ case POC_ADDWF:
+ case POC_ADDFW:
+ case POC_ANDLW:
+ case POC_ANDWF:
+ case POC_ANDFW:
+ case POC_BCF:
+ case POC_BSF:
+ //case POC_BTFSC:
+ //case POC_BTFSS:
+ //case POC_CALL:
+ case POC_COMF:
+ case POC_COMFW:
+ case POC_CLRF:
+ case POC_CLRW:
+ //case POC_CLRWDT:
+ case POC_DECF:
+ case POC_DECFW:
+ //case POC_DECFSZ:
+ //case POC_DECFSZW:
+ //case POC_GOTO:
+ case POC_INCF:
+ case POC_INCFW:
+ //case POC_INCFSZ:
+ //case POC_INCFSZW:
+ case POC_IORLW:
+ case POC_IORWF:
+ case POC_IORFW:
+ case POC_MOVF:
+ case POC_MOVFW:
+ case POC_MOVLW:
+ case POC_MOVWF:
+ case POC_NOP:
+ //case POC_RETLW:
+ //case POC_RETURN:
+ //case POC_RETFIE:
+ case POC_RLF:
+ case POC_RLFW:
+ case POC_RRF:
+ case POC_RRFW:
+ case POC_SUBLW:
+ case POC_SUBWF:
+ case POC_SUBFW:
+ case POC_SWAPF:
+ case POC_SWAPFW:
+ //case POC_TRIS:
+ case POC_XORLW:
+ case POC_XORWF:
+ case POC_XORFW:
+ //case POC_BANKSEL:
+ //case POC_PAGESEL:
+ break;
+
+ default:
+ /* do not remove unknown PCIs */
+ return 0;
+ } // switch
+
+ /* redundant checks---those instructions may never be removed */
+ if (isPCI_BRANCH(pc)) return 0;
+ if (isPCI_SKIP(pc)) return 0;
+
+ outCond = PCI(pc)->outCond;
+ curr = pcnext;
+
+ /* unknown operands assigned to, then ignore */
+ if ((outCond & (PCC_REGISTER | PCC_C | PCC_Z | PCC_DC | PCC_W)) != outCond)
+ return 0;
+
+ if (outCond & PCC_REGISTER)
+ {
+ dst = getRegFromInstruction (pc);
+ if (!dst) return 0;
+
+ /* special reg? */
+ if (!regIsLocal (dst)) return 0;
+ if (regIsSpecial (dst,0)) return 0;
+ }
+
+ //fprintf (stderr, "--> checking for liveness pc "); pc->print (stderr, pc);
+ if (regIsDead (dst, outCond, pc))
+ {
+ /* no result from pc has been used -- pc is `dead' */
+ //fprintf (stderr, "--> reg %s and cond %x assumed unused\n", dst ? dst->name : "<none>", outCond);
+ //fprintf (stderr, "--> removing dead pc "); pc->print (stderr, pc);
+ result = pCodeRemove (pc, "=DF= removed dead pCode");
+ }
+
+ return result;
+}
- /* register has been used either once, or more than twice */
+/* ------------------------------------------------------------------
+ This routine is intended to safely replace one pCodeInstruction
+ with a different pCodeInstruction.
+ If desired, the replaced pCode will be left in (commented out) for
+ debugging.
+ Further, an optional comment can be inserted to indicate the
+ reason for the possible removal of the pCode.
+ ------------------------------------------------------------------ */
- if(used && !pcfl_used && pcfl_assigned) {
- pCode *pc;
+static void replace_PCI (pCodeInstruction *pc, pCodeInstruction *newpc, char *comment)
+{
+ newpc->from = pBranchAppend (newpc->from, pc->from);
+ newpc->to = pBranchAppend (newpc->to, pc->to);
+ newpc->label = pBranchAppend (newpc->label, pc->label);
+ //newpc->pcflow = pc->pcflow; // updated in pCodeInsertAfter, ->pb is as well
+ newpc->cline = pc->cline;
+
+ newpc->pc.seq = pc->pc.seq;
+
+ pCodeInsertAfter (&pc->pc, &newpc->pc);
+
+ /* FIXME: replacing pc will break the liverange maps (usedpCodes, ...) */
+
+ if (comment)
+ {
+ pCodeInsertAfter (&pc->pc, newpCodeCharP (comment));
+ } // if
+
+ if (1)
+ {
+ /* replace pc with commented out version of itself */
+ char buffer[1024], buffer2[1024];
+ char *pbuff = &buffer[0];
+ int size=1024;
+ pCode2str (&buffer2[0],1024,&pc->pc);
+ SAFE_snprintf (&pbuff,&size,"%s:%u(%s): removed pCode was %s\t", __FILE__, __LINE__, __FUNCTION__, &buffer2[0]);
+ pCodeInsertAfter (&pc->pc, newpCodeCharP (&buffer[0]));
+ } // if
+
+ pc->pc.destruct (&pc->pc);
+}
- //fprintf(stderr,"WARNING %s: reg %s assigned without being used\n",__FUNCTION__,reg->name);
+/* ------------------------------------------------------------------
+ Find the first (unique) assignment to `reg' (prior to pc).
+ ------------------------------------------------------------------ */
- pc = setFirstItem(reg->reglives.usedpCodes);
- while(pc) {
+pCode *findAssignmentToReg (regs *reg, pCode *pc)
+{
+ pCode *curr;
+
+ assert (pc && isPCI(pc) && reg);
+
+ curr = findPrevInstruction (pc->prev);
+
+ while (curr && PCI(curr)->pcflow == PCI(pc)->pcflow)
+ {
+ if (PCI(curr)->outCond & PCC_REGISTER)
+ {
+ regs *op = getRegFromInstruction (curr);
+ if (op && (sameRegs(op,reg)))
+ return curr;
+ } // if
+ curr = findPrevInstruction (curr->prev);
+ } // while
+
+ /* no assignment to reg found */
+ return NULL;
+}
- pcfl_assigned = PCODE(PCI(pc)->pcflow);
- Remove1pcode(pc, reg);
+/* ------------------------------------------------------------------
+ Find a register that holds the same value as `reg' (an alias).
+ ------------------------------------------------------------------ */
- deleteSetItem (&(PCFL(pcfl_assigned)->registers), reg);
- /*
- deleteSetItem (&(reg->reglives.usedpCodes),pc);
- pc->destruct(pc);
- */
- pc = setNextItem(reg->reglives.usedpCodes);
+regs *findRegisterAlias (regs *reg, pCode *pc)
+{
+ pCode *curr;
+
+ if(!reg) return NULL;
+
+ if (regIsSpecial (reg, 0)) return NULL;
+
+ curr = findAssignmentToReg (reg, pc);
+
+ /* no assignment found --> no alias found */
+ if (!curr) return NULL;
+
+ switch (PCI(curr)->op)
+ {
+ case POC_MOVWF:
+ /* find previous assignment to WREG */
+ while (curr && !(PCI(curr)->outCond & PCC_W))
+ curr = findPrevInstruction (curr->prev);
+ if (curr && PCI(curr)->op == POC_MOVFW)
+ {
+ regs *op = getRegFromInstruction (curr);
+ /* alias must not be changed since assignment... */
+ if (PCI(curr)->pcop)
+ {
+ switch (PCI(curr)->pcop->type)
+ {
+ case PO_GPR_REGISTER:
+ case PO_GPR_TEMP:
+ /* these operands are ok */
+ break;
+ default:
+ /* not a plain register operand */
+ return NULL;
+ break;
+ }
+ }
+ if (!op || regIsSpecial (op, 0) || !regIsUnchangedSince (op, pc, curr)) return NULL;
+ //fprintf (stderr, "found register alias for %s: %s\n", reg->name, op && op->name ? op->name : "<no name>");
+ return op;
+ } else {
+ /* unknown source to WREG -- unknown register alias */
+ return NULL;
+ }
+ break;
+
+ default:
+ /* unhandled instruction -- assume unknown source, no alias */
+ return NULL;
}
+ /* no alias found */
+ return NULL;
+}
- reg->isFree = 1;
- reg->wasUsed = 0;
-
- total_registers_saved++; // debugging stats.
- } else if( (used > 2) && optimize_multi_uses) {
-
- set *rset1=NULL;
- set *rset2=NULL;
- int searching=1;
-
- pCodeFlow *pcfl1=NULL, *pcfl2=NULL;
-
- /* examine the number of times this register is used */
-
+/* ------------------------------------------------------------------
+ Analyze a single pCodeInstruction's dataflow relations and replace
+ it with a better variant if possible.
+ ------------------------------------------------------------------ */
- rset1 = reg->reglives.usedpCodes;
- while(rset1 && searching) {
+void analyzeAndReplacePCI (pCodeInstruction *pci)
+{
+ regs *op_reg, *alias_reg;
+
+ assert (pci);
+
+ if (!isPCI(pci)) return;
+
+ switch (pci->op)
+ {
+ case POC_MOVFW:
+ case POC_ADDFW:
+ case POC_ANDFW:
+ case POC_IORFW:
+ case POC_XORFW:
+ /* try to find a different source register */
+ op_reg = getRegFromInstruction (&pci->pc);
+ if (pci->op == POC_MOVFW) /* touches Z */
+ {
+ pCode *assignment = findAssignmentToReg (op_reg, &pci->pc);
+ if (assignment && isPCI(assignment) && (PCI(assignment)->op == POC_CLRF))
+ {
+ replace_PCI (pci, PCI(newpCode(POC_MOVLW, newpCodeOpLit(0))), "replaced with CLRF");
+ return;
+ }
+ }
+
+ alias_reg = findRegisterAlias (op_reg, &pci->pc);
+ if (alias_reg)
+ {
+ replace_PCI (pci, PCI(newpCode(pci->op, newpCodeOpRegFromStr (alias_reg->name))), "=DF= replaced with move from register alias");
+ }
+ break;
- pc1 = rset1->item;
- rset2 = rset1->next;
+ default:
+ /* do not optimize */
+ break;
+ } // switch
+}
- if(pc1 && isPCI(pc1) && ( (pcfl1 = PCI(pc1)->pcflow) != NULL) ) {
+extern pFile *the_pFile;
- //while(rset2 && searching) {
- if(rset2) {
+/* ------------------------------------------------------------------
+ Find and remove dead pCodes.
+ ------------------------------------------------------------------ */
- pc2 = rset2->item;
- if(pc2 && isPCI(pc2) && ( (pcfl2 = PCI(pc2)->pcflow) != NULL) ) {
- if(pcfl2 == pcfl1) {
+static int removeDeadPCIs (void)
+{
+ pBlock *pb;
+ unsigned int removed = 0;
+
+ if (!the_pFile) return removed;
+
+ do {
+ removed = 0;
+
+ /* iterate over all pBlocks */
+ for (pb = the_pFile->pbHead; pb; pb = pb->next)
+ {
+ pCode *pc, *pcnext = NULL;
+
+ /* iterate over all pCodes */
+ for (pc = findNextInstruction (pb->pcHead); pc; pc = pcnext)
+ {
+ pcnext = findNextInstruction (pc->next);
+ removed += removeIfDeadPCI (pc);
+ } // while
+ } // for pb
+
+ fprintf (stderr, "[removed %u dead pCodes]\n", removed);
+ } while (removed);
+
+ return 0;
+}
- if(pCodeOptime2pCodes(pc1, pc2, pcfl_used, reg, 0,optimize_level))
- searching = 0;
- }
- }
+/* ------------------------------------------------------------------
+ This routine tries to optimize the dataflow by...
+ (1)
+
+ This routine leaves in dead pCodes (assignments whose results are
+ not used) -- these should be removed in a following sweep phase.
+ ------------------------------------------------------------------ */
- //rset2 = rset2->next;
-
- }
- }
- rset1 = rset1->next;
- }
- }
- }
+void optimizeDataflow (void)
+{
+ pBlock *pb;
+
+ if (!the_pFile) return;
+
+ //fprintf (stderr, "%s:%u(%s): Starting optimization...\n", __FILE__, __LINE__, __FUNCTION__);
+
+ /* iterate over all pBlocks */
+ for (pb = the_pFile->pbHead; pb; pb = pb->next)
+ {
+ pCode *pc, *pcnext = NULL;
+
+ /* iterate over all pCodes */
+ for (pc = findNextInstruction (pb->pcHead); pc; pc = pcnext)
+ {
+ pcnext = findNextInstruction (pc->next);
+ analyzeAndReplacePCI (PCI(pc));
+ } // while
+ } // for pb
+
+ while (removeDeadPCIs ()) { /* remove dead codes in multiple passes */};
+ df_removeStates ();
+}
- }
+#endif
-}
/*-----------------------------------------------------------------*
- * void pCodeRegOptimeRegUsage(pBlock *pb)
- *-----------------------------------------------------------------*/
+* void pCodeRegOptimeRegUsage(pBlock *pb)
+*-----------------------------------------------------------------*/
void pCodeRegOptimizeRegUsage(int level)
{
+
+ int passes;
+ int saved = 0;
+ int t = total_registers_saved;
- int passes;
- int saved = 0;
- int t = total_registers_saved;
+#if 0
+ /* This is currently broken (need rewrite to correctly
+ * hamdle arbitrary pCodeOps instead of registers only). */
+ if (!pic14_options.disable_df)
+ optimizeDataflow ();
+#endif
- if(!register_optimization)
- return;
+ if(!register_optimization)
+ return;
#define OPT_PASSES 4
- passes = OPT_PASSES;
-
- do {
- saved = total_registers_saved;
-
- /* Identify registers used in one flow sequence */
- OptimizeRegUsage(dynAllocRegs,level, (OPT_PASSES-passes));
- OptimizeRegUsage(dynStackRegs,level, (OPT_PASSES-passes));
- OptimizeRegUsage(dynDirectRegs,0, (OPT_PASSES-passes));
-
- if(total_registers_saved != saved)
- fprintf(stderr, " *** pass %d, Saved %d registers, total saved %d ***\n",
- (1+OPT_PASSES-passes),total_registers_saved-saved,total_registers_saved);
-
- passes--;
+ passes = OPT_PASSES;
+
+ do {
+ saved = total_registers_saved;
+
+ /* Identify registers used in one flow sequence */
+ OptimizeRegUsage(dynAllocRegs,level, (OPT_PASSES-passes));
+ OptimizeRegUsage(dynStackRegs,level, (OPT_PASSES-passes));
+ OptimizeRegUsage(dynDirectRegs,0, (OPT_PASSES-passes));
+
+ if(total_registers_saved != saved)
+ DFPRINTF((stderr, " *** pass %d, Saved %d registers, total saved %d ***\n",
+ (1+OPT_PASSES-passes),total_registers_saved-saved,total_registers_saved));
+
+ passes--;
+
+ } while( passes && ((total_registers_saved != saved) || (passes==OPT_PASSES-1)) );
+
+ if(total_registers_saved == t)
+ DFPRINTF((stderr, "No registers saved on this pass\n"));
- } while( passes && ((total_registers_saved != saved) || (passes==OPT_PASSES-1)) );
- if(total_registers_saved == t)
- fprintf(stderr, "No registers saved on this pass\n");
-
-
-/*
- fprintf(stderr,"dynamically allocated regs:\n");
- dbg_regusage(dynAllocRegs);
- fprintf(stderr,"stack regs:\n");
- dbg_regusage(dynStackRegs);
- fprintf(stderr,"direct regs:\n");
- dbg_regusage(dynDirectRegs);
-*/
+ /*
+ fprintf(stderr,"dynamically allocated regs:\n");
+ dbg_regusage(dynAllocRegs);
+ fprintf(stderr,"stack regs:\n");
+ dbg_regusage(dynStackRegs);
+ fprintf(stderr,"direct regs:\n");
+ dbg_regusage(dynDirectRegs);
+ */
}
/*-----------------------------------------------------------------*
- * void RegsUnMapLiveRanges(set *regset)
- *
- *-----------------------------------------------------------------*/
+* void RegsUnMapLiveRanges(set *regset)
+*
+*-----------------------------------------------------------------*/
void RegsSetUnMapLiveRanges(set *regset)
{
- regs *reg;
-
- while(regset) {
- reg = regset->item;
- regset = regset->next;
-
-
- deleteSet(®->reglives.usedpCodes);
- deleteSet(®->reglives.usedpFlows);
- deleteSet(®->reglives.assignedpFlows);
-
- }
-
+ regs *reg;
+
+ while(regset) {
+ reg = regset->item;
+ regset = regset->next;
+
+
+ deleteSet(®->reglives.usedpCodes);
+ deleteSet(®->reglives.usedpFlows);
+ deleteSet(®->reglives.assignedpFlows);
+
+ }
+
}
void RegsUnMapLiveRanges(void)
{
-
- RegsSetUnMapLiveRanges(dynAllocRegs);
- RegsSetUnMapLiveRanges(dynStackRegs);
- RegsSetUnMapLiveRanges(dynDirectRegs);
- RegsSetUnMapLiveRanges(dynProcessorRegs);
- RegsSetUnMapLiveRanges(dynDirectBitRegs);
- RegsSetUnMapLiveRanges(dynInternalRegs);
-
+
+ RegsSetUnMapLiveRanges(dynAllocRegs);
+ RegsSetUnMapLiveRanges(dynStackRegs);
+ RegsSetUnMapLiveRanges(dynDirectRegs);
+ RegsSetUnMapLiveRanges(dynProcessorRegs);
+ RegsSetUnMapLiveRanges(dynDirectBitRegs);
+ RegsSetUnMapLiveRanges(dynInternalRegs);
+
}