#include "common.h"
+#define ISCHARDIGIT(c) isdigit((unsigned char)c)
+#define ISCHARSPACE(c) isspace((unsigned char)c)
+#define ISCHARALNUM(c) isalnum((unsigned char)c)
+
static peepRule *rootRules = NULL;
static peepRule *currRule = NULL;
static void buildLabelRefCountHash (lineNode * head);
static bool matchLine (char *, char *, hTab **);
+bool isLabelDefinition (const char *line, const char **start, int *len);
-#define FBYNAME(x) int x (hTab *vars, lineNode *currPl, lineNode *head, \
- const char *cmdLine)
+#define FBYNAME(x) int x (hTab *vars, lineNode *currPl, lineNode *endPl, \
+ lineNode *head, char *cmdLine)
#if !OPT_DISABLE_PIC
-void peepRules2pCode(peepRule *);
+void peepRules2pCode(peepRule *);
+#endif
+
+#if !OPT_DISABLE_PIC16
+void pic16_peepRules2pCode(peepRule *);
#endif
/*-----------------------------------------------------------------*/
/* pcDistance - afinds a label back ward or forward */
/*-----------------------------------------------------------------*/
-int
+
+int
pcDistance (lineNode * cpos, char *lbl, bool back)
{
lineNode *pl = cpos;
{
if (pl->line &&
- *pl->line != ';' &&
- pl->line[strlen (pl->line) - 1] != ':' &&
- !pl->isDebug)
-
- dist++;
+ *pl->line != ';' &&
+ pl->line[strlen (pl->line) - 1] != ':' &&
+ !pl->isDebug) {
+ if (port->peep.getSize) {
+ dist += port->peep.getSize(pl);
+ } else {
+ dist += 3;
+ }
+ }
if (strncmp (pl->line, buff, strlen (buff)) == 0)
- return dist;
+ return dist;
if (back)
- pl = pl->prev;
+ pl = pl->prev;
else
- pl = pl->next;
+ pl = pl->next;
}
return 0;
}
/*-----------------------------------------------------------------*/
-/* flat24bitModeAndPortDS390 - */
+/* flat24bitModeAndPortDS390 - */
/*-----------------------------------------------------------------*/
FBYNAME (flat24bitModeAndPortDS390)
{
- return ((strcmp(port->target,"ds390") == 0) &&
- (options.model == MODEL_FLAT24));
+ return (((strcmp(port->target,"ds390") == 0) ||
+ (strcmp(port->target,"ds400") == 0)) &&
+ (options.model == MODEL_FLAT24));
}
/*-----------------------------------------------------------------*/
-/* portIsDS390 - return true if port is DS390 */
+/* portIsDS390 - return true if port is DS390 */
/*-----------------------------------------------------------------*/
FBYNAME (portIsDS390)
{
- return (strcmp(port->target,"ds390") == 0);
+ return ((strcmp(port->target,"ds390") == 0) ||
+ (strcmp(port->target,"ds400") == 0));
}
/*-----------------------------------------------------------------*/
return (options.xram_movc && (strcmp(port->target,"mcs51") == 0));
}
+
+
+
+
+
/*-----------------------------------------------------------------*/
/* labelInRange - will check to see if label %5 is within range */
/*-----------------------------------------------------------------*/
if (!lbl)
return FALSE;
+ /* Don't optimize jumps in a jump table; a more generic test */
+ if (currPl->ic && currPl->ic->op == JUMPTABLE)
+ return FALSE;
+
/* if the previous two instructions are "ljmp"s then don't
do it since it can be part of a jump table */
if (currPl->prev && currPl->prev->prev &&
for a relative jump. we could get more precise this will
suffice for now since it catches > 90% cases */
dist = (pcDistance (currPl, lbl, TRUE) +
- pcDistance (currPl, lbl, FALSE));
-
-/* if (!dist || dist > 45) has produced wrong sjmp */
- /* 07-Sep-2000 Michael Schmitt */
- /* FIX for Peephole 132 */
- /* switch with lots of case can lead to a sjmp with a distance */
- /* out of the range for sjmp */
- if (!dist || dist > 43)
+ pcDistance (currPl, lbl, FALSE));
+
+/* changed to 127, now that pcDistance return actual number of bytes */
+ if (!dist || dist > 127)
return FALSE;
return TRUE;
}
+
+/*-----------------------------------------------------------------*/
+/* labelJTInRange - will check to see if label %5 and up are */
+/* within range. */
+/* Specifically meant to optimize long (3-byte) jumps to short */
+/* (2-byte) jumps in jumptables */
+/*-----------------------------------------------------------------*/
+FBYNAME (labelJTInRange)
+{
+ char *lbl;
+ int dist, count, i;
+
+ if (!getenv("SDCC_SJMP_JUMPTABLE"))
+ return FALSE;
+
+ /* Only optimize within a jump table */
+ if (currPl->ic && currPl->ic->op != JUMPTABLE)
+ return FALSE;
+
+ count = elementsInSet( IC_JTLABELS (currPl->ic) );
+
+ /* check all labels (this is needed if the case statements are unsorted) */
+ for (i=0; i<count; i++)
+ {
+ /* assumes that the %5 pattern variable has the first ljmp label */
+ lbl = hTabItemWithKey (vars, 5+i);
+ if (!lbl)
+ return FALSE;
+
+ dist = pcDistance (currPl, lbl, FALSE);
+
+ /* three terms used to calculate allowable distance */
+// printf("\nlabel %s %i dist %i cdist 0x%02x 0x%02x\n", lbl, i, dist, dist -(count-i-1)-(7+3*i), 127+(count-i-1)+(7+3*i) - dist);
+ if (!dist ||
+ dist > 127+ /* range of sjmp */
+ (7+3*i)+ /* offset between this jump and currPl,
+ should use pcDistance instead? */
+ (count-i-1) /* if peephole applies distance is shortened */
+ )
+ return FALSE;
+ }
+ return TRUE;
+}
+
+
+/*-----------------------------------------------------------------*/
+/* labelIsReturnOnly - Check if label %5 is followed by RET */
+/*-----------------------------------------------------------------*/
+FBYNAME (labelIsReturnOnly)
+{
+ /* assumes that %5 pattern variable has the label name */
+ const char *label, *p;
+ const lineNode *pl;
+ int len;
+ char * retInst;
+
+ label = hTabItemWithKey (vars, 5);
+ if (!label) return FALSE;
+ len = strlen(label);
+
+ for(pl = currPl; pl; pl = pl->next) {
+ if (pl->line && !pl->isDebug && !pl->isComment &&
+ pl->line[strlen(pl->line)-1] == ':') {
+ if (strncmp(pl->line, label, len) == 0) break; /* Found Label */
+ if (strlen(pl->line) != 7 || !ISCHARDIGIT(*(pl->line)) ||
+ !ISCHARDIGIT(*(pl->line+1)) || !ISCHARDIGIT(*(pl->line+2)) ||
+ !ISCHARDIGIT(*(pl->line+3)) || !ISCHARDIGIT(*(pl->line+4)) ||
+ *(pl->line+5) != '$') {
+ return FALSE; /* non-local label encountered */
+ }
+ }
+ }
+ if (!pl) return FALSE; /* did not find the label */
+ pl = pl->next;
+ while (pl && (pl->isDebug || pl->isComment))
+ pl = pl->next;
+ if (!pl || !pl->line || pl->isDebug) return FALSE; /* next line not valid */
+ p = pl->line;
+ for (p = pl->line; *p && ISCHARSPACE(*p); p++)
+ ;
+
+ retInst = "ret";
+ if (TARGET_IS_HC08)
+ retInst = "rts";
+ if (strcmp(p, retInst) == 0) return TRUE;
+ return FALSE;
+}
+
+
+/*-----------------------------------------------------------------*/
+/* okToRemoveSLOC - Check if label %1 is a SLOC and not other */
+/* usage of it in the code depends on a value from this section */
+/*-----------------------------------------------------------------*/
+FBYNAME (okToRemoveSLOC)
+{
+ const lineNode *pl;
+ const char *sloc, *p;
+ int dummy1, dummy2, dummy3;
+
+ /* assumes that %1 as the SLOC name */
+ sloc = hTabItemWithKey (vars, 1);
+ if (sloc == NULL) return FALSE;
+ p = strstr(sloc, "sloc");
+ if (p == NULL) return FALSE;
+ p += 4;
+ if (sscanf(p, "%d_%d_%d", &dummy1, &dummy2, &dummy3) != 3) return FALSE;
+ /*TODO: ultra-paranoid: get funtion name from "head" and check that */
+ /* the sloc name begins with that. Probably not really necessary */
+
+ /* Look for any occurance of this SLOC before the peephole match */
+ for (pl = currPl->prev; pl; pl = pl->prev) {
+ if (pl->line && !pl->isDebug && !pl->isComment
+ && *pl->line != ';' && strstr(pl->line, sloc))
+ return FALSE;
+ }
+ /* Look for any occurance of this SLOC after the peephole match */
+ for (pl = endPl->next; pl; pl = pl->next) {
+ if (pl->line && !pl->isDebug && !pl->isComment
+ && *pl->line != ';' && strstr(pl->line, sloc))
+ return FALSE;
+ }
+ return TRUE; /* safe for a peephole to remove it :) */
+}
+
+
/*-----------------------------------------------------------------*/
/* operandsNotSame - check if %1 & %2 are the same */
/*-----------------------------------------------------------------*/
char *label = hTabItemWithKey (vars, varNumber);
if (label)
- {
- labelHashEntry *entry;
-
- entry = hTabFirstItemWK (labelHash, hashSymbolName (label));
-
- while (entry)
- {
- if (!strcmp (label, entry->name))
- {
- break;
- }
- entry = hTabNextItemWK (labelHash);
- }
- if (entry)
- {
+ {
+ labelHashEntry *entry;
+
+ entry = hTabFirstItemWK (labelHash, hashSymbolName (label));
+
+ while (entry)
+ {
+ if (!strcmp (label, entry->name))
+ {
+ break;
+ }
+ entry = hTabNextItemWK (labelHash);
+ }
+ if (entry)
+ {
#if 0
- /* debug spew. */
- fprintf (stderr, "labelRefCount: %s has refCount %d, want %d\n",
- label, entry->refCount, expectedRefCount);
+ /* debug spew. */
+ fprintf (stderr, "labelRefCount: %s has refCount %d, want %d\n",
+ label, entry->refCount, expectedRefCount);
#endif
- rc = (expectedRefCount == entry->refCount);
- }
- else
- {
- fprintf (stderr, "*** internal error: no label has entry for"
- " %s in labelRefCount peephole.\n",
- label);
- }
- }
+ rc = (expectedRefCount == entry->refCount);
+ }
+ else
+ {
+ fprintf (stderr, "*** internal error: no label has entry for"
+ " %s in labelRefCount peephole.\n",
+ label);
+ }
+ }
else
- {
- fprintf (stderr, "*** internal error: var %d not bound"
- " in peephole labelRefCount rule.\n",
- varNumber);
- }
+ {
+ fprintf (stderr, "*** internal error: var %d not bound"
+ " in peephole labelRefCount rule.\n",
+ varNumber);
+ }
}
else
{
fprintf (stderr,
- "*** internal error: labelRefCount peephole restriction"
- " malformed: %s\n", cmdLine);
+ "*** internal error: labelRefCount peephole restriction"
+ " malformed: %s\n", cmdLine);
}
return rc;
}
+
+/* labelRefCountChange:
+ * takes two parameters: a variable (bound to a label name)
+ * and a signed int for changing the reference count.
+ *
+ * Please note, this function is not a conditional. It unconditionally
+ * changes the label. It should be passed as the 'last' function
+ * so it only is applied if all other conditions have been met.
+ *
+ * should always return TRUE
+ */
+FBYNAME (labelRefCountChange)
+{
+ int varNumber, RefCountDelta;
+ bool rc = FALSE;
+
+ /* If we don't have the label hash table yet, build it. */
+ if (!labelHash)
+ {
+ buildLabelRefCountHash (head);
+ }
+
+ if (sscanf (cmdLine, "%*[ \t%]%d %i", &varNumber, &RefCountDelta) == 2)
+ {
+ char *label = hTabItemWithKey (vars, varNumber);
+
+ if (label)
+ {
+ labelHashEntry *entry;
+
+ entry = hTabFirstItemWK (labelHash, hashSymbolName (label));
+
+ while (entry)
+ {
+ if (!strcmp (label, entry->name))
+ {
+ break;
+ }
+ entry = hTabNextItemWK (labelHash);
+ }
+ if (entry)
+ {
+ if (0 <= entry->refCount + RefCountDelta)
+ {
+ entry->refCount += RefCountDelta;
+ rc = TRUE;
+ }
+ else
+ {
+ fprintf (stderr, "*** internal error: label %s may not get"
+ " negative refCount in %s peephole.\n",
+ label, __FUNCTION__);
+ }
+ }
+ else
+ {
+ fprintf (stderr, "*** internal error: no label has entry for"
+ " %s in %s peephole.\n",
+ label, __FUNCTION__);
+ }
+ }
+ else
+ {
+ fprintf (stderr, "*** internal error: var %d not bound"
+ " in peephole %s rule.\n",
+ varNumber, __FUNCTION__);
+ }
+ }
+ else
+ {
+ fprintf (stderr,
+ "*** internal error: labelRefCount peephole restriction"
+ " malformed: %s\n", cmdLine);
+ }
+ return rc;
+}
+
+
+/* Within the context of the lines currPl through endPl, determine
+** if the variable var contains a symbol that is volatile. Returns
+** TRUE only if it is certain that this was not volatile (the symbol
+** was found and not volatile, or var was a constant or CPU register).
+** Returns FALSE if the symbol was found and volatile, the symbol was
+** not found, or var was a indirect/pointer addressing mode.
+*/
+static bool
+notVolatileVariable(char *var, lineNode *currPl, lineNode *endPl)
+{
+ char symname[SDCC_NAME_MAX + 1];
+ char *p = symname;
+ char *vp = var;
+ lineNode *cl;
+ operand *op;
+ iCode *last_ic;
+
+ /* Can't tell if indirect accesses are volatile or not, so
+ ** assume they are, just to be safe.
+ */
+ if (TARGET_IS_MCS51 || TARGET_IS_DS390 || TARGET_IS_DS400)
+ {
+ if (*var=='@')
+ return FALSE;
+ }
+ if (TARGET_IS_Z80 || TARGET_IS_GBZ80)
+ {
+ if (strstr(var,"(bc)"))
+ return FALSE;
+ if (strstr(var,"(de)"))
+ return FALSE;
+ if (strstr(var,"(hl)"))
+ return FALSE;
+ if (strstr(var,"(ix"))
+ return FALSE;
+ if (strstr(var,"(iy"))
+ return FALSE;
+ }
+
+ /* Extract a symbol name from the variable */
+ while (*vp && (*vp!='_'))
+ vp++;
+ while (*vp && (ISCHARALNUM(*vp) || *vp=='_'))
+ *p++ = *vp++;
+ *p='\0';
+
+ if (!symname[0])
+ {
+ /* Nothing resembling a symbol name was found, so it can't
+ be volatile
+ */
+ return TRUE;
+ }
+
+ last_ic = NULL;
+ for (cl = currPl; cl!=endPl->next; cl = cl->next)
+ {
+ if (cl->ic && (cl->ic!=last_ic))
+ {
+ last_ic = cl->ic;
+ switch (cl->ic->op)
+ {
+ case IFX:
+ op = IC_COND (cl->ic);
+ if (IS_SYMOP (op) && !strcmp(OP_SYMBOL (op)->rname,symname) )
+ return !op->isvolatile;
+ case JUMPTABLE:
+ op = IC_JTCOND (cl->ic);
+ if (IS_SYMOP (op) && !strcmp(OP_SYMBOL (op)->rname,symname) )
+ return !op->isvolatile;
+ default:
+ op = IC_LEFT (cl->ic);
+ if (IS_SYMOP (op) && !strcmp(OP_SYMBOL (op)->rname,symname) )
+ return !op->isvolatile;
+ op = IC_RIGHT (cl->ic);
+ if (IS_SYMOP (op) && !strcmp(OP_SYMBOL (op)->rname,symname) )
+ return !op->isvolatile;
+ op = IC_RESULT (cl->ic);
+ if (IS_SYMOP (op) && !strcmp(OP_SYMBOL (op)->rname,symname) )
+ return !op->isvolatile;
+ }
+ }
+ }
+
+ /* Couldn't find the symbol for some reason. Assume volatile. */
+ return FALSE;
+}
+
+/* notVolatile:
+ *
+ * This rule restriction has two different behaviours depending on
+ * the number of parameters given.
+ *
+ * if notVolatile (no parameters given)
+ * The rule is applied only if none of the iCodes originating
+ * the matched pattern reference a volatile operand.
+ *
+ * if notVolatile %1 ... (one or more parameters given)
+ * The rule is applied if the parameters are not expressions
+ * containing volatile symbols and are not pointer accesses.
+ *
+ */
+FBYNAME (notVolatile)
+{
+ int varNumber;
+ char *var;
+ bool notvol;
+ char *digitend;
+ lineNode *cl;
+ operand *op;
+
+ if (!cmdLine)
+ {
+ /* If no parameters given, just scan the iCodes for volatile operands */
+ for (cl = currPl; cl!=endPl->next; cl = cl->next)
+ {
+ if (cl->ic)
+ {
+ switch (cl->ic->op)
+ {
+ case IFX:
+ op = IC_COND (cl->ic);
+ if (IS_SYMOP (op) && op->isvolatile)
+ return FALSE;
+ case JUMPTABLE:
+ op = IC_JTCOND (cl->ic);
+ if (IS_SYMOP (op) && op->isvolatile)
+ return FALSE;
+ default:
+ op = IC_LEFT (cl->ic);
+ if (IS_SYMOP (op) && op->isvolatile)
+ return FALSE;
+ op = IC_RIGHT (cl->ic);
+ if (IS_SYMOP (op) && op->isvolatile)
+ return FALSE;
+ op = IC_RESULT (cl->ic);
+ if (IS_SYMOP (op) && op->isvolatile)
+ return FALSE;
+ }
+ }
+ }
+ return TRUE;
+ }
+
+ /* There were parameters; check the volatility of each */
+ while (*cmdLine && ISCHARSPACE(*cmdLine))
+ cmdLine++;
+ while (*cmdLine)
+ {
+ if (*cmdLine!='%')
+ goto error;
+ cmdLine++;
+ if (!ISCHARDIGIT(*cmdLine))
+ goto error;
+ varNumber = strtol(cmdLine, &digitend, 10);
+ cmdLine = digitend;
+ while (*cmdLine && ISCHARSPACE(*cmdLine))
+ cmdLine++;
+
+ var = hTabItemWithKey (vars, varNumber);
+
+ if (var)
+ {
+ notvol = notVolatileVariable (var, currPl, endPl);
+ if (!notvol)
+ return FALSE;
+ }
+ else
+ {
+ fprintf (stderr, "*** internal error: var %d not bound"
+ " in peephole notVolatile rule.\n",
+ varNumber);
+ return FALSE;
+ }
+ }
+
+ return TRUE;
+
+
+error:
+ fprintf (stderr,
+ "*** internal error: notVolatile peephole restriction"
+ " malformed: %s\n", cmdLine);
+ return FALSE;
+}
+
+
+/*------------------------------------------------------------------*/
+/* setFromConditionArgs - parse a peephole condition's arguments */
+/* to produce a set of strings, one per argument. Variables %x will */
+/* be replaced with their values. String literals (in single quotes)*/
+/* are accepted and return in unquoted form. */
+/*------------------------------------------------------------------*/
+static set *
+setFromConditionArgs (char *cmdLine, hTab * vars)
+{
+ int varNumber;
+ char *var;
+ char *digitend;
+ set *operands = NULL;
+
+ if (!cmdLine)
+ return NULL;
+
+ while (*cmdLine && ISCHARSPACE(*cmdLine))
+ cmdLine++;
+
+ while (*cmdLine)
+ {
+ if (*cmdLine == '%')
+ {
+ cmdLine++;
+ if (!ISCHARDIGIT(*cmdLine))
+ goto error;
+ varNumber = strtol(cmdLine, &digitend, 10);
+ cmdLine = digitend;
+
+ var = hTabItemWithKey (vars, varNumber);
+
+ if (var)
+ {
+ addSetHead (&operands, var);
+ }
+ else
+ goto error;
+ }
+ else if (*cmdLine == '\'' )
+ {
+ char quote = *cmdLine;
+
+ var = ++cmdLine;
+ while (*cmdLine && *cmdLine != quote)
+ cmdLine++;
+ if (*cmdLine == quote)
+ *cmdLine++ = '\0';
+ else
+ goto error;
+ addSetHead (&operands, var);
+ }
+ else
+ goto error;
+
+ while (*cmdLine && ISCHARSPACE(*cmdLine))
+ cmdLine++;
+ }
+
+ return operands;
+
+error:
+ deleteSet (&operands);
+ return NULL;
+}
+
+static const char *
+operandBaseName (const char *op)
+{
+ if (TARGET_IS_MCS51 || TARGET_IS_DS390 || TARGET_IS_DS400)
+ {
+ if (!strcmp (op, "acc") || !strncmp (op, "acc.", 4))
+ return "a";
+ if (!strncmp (op, "ar", 2) && ISCHARDIGIT(*(op+2)) && !*(op+3))
+ return op+1;
+ }
+
+ return op;
+}
+
+
+/*-------------------------------------------------------------------*/
+/* operandsNotRelated - returns true of the condition's operands are */
+/* not related (taking into account register name aliases). N-way */
+/* comparison performed between all operands. */
+/*-------------------------------------------------------------------*/
+FBYNAME (operandsNotRelated)
+{
+ set *operands;
+ const char *op1, *op2;
+
+ operands = setFromConditionArgs (cmdLine, vars);
+
+ if (!operands)
+ {
+ fprintf (stderr,
+ "*** internal error: operandsNotRelated peephole restriction"
+ " malformed: %s\n", cmdLine);
+ return FALSE;
+ }
+
+ while ((op1 = setFirstItem (operands)))
+ {
+ deleteSetItem (&operands, (void*)op1);
+ op1 = operandBaseName (op1);
+
+ for (op2 = setFirstItem (operands); op2; op2 = setNextItem (operands))
+ {
+ op2 = operandBaseName (op2);
+ if (strcmp (op1, op2) == 0)
+ {
+ deleteSet (&operands);
+ return FALSE;
+ }
+ }
+ }
+
+ deleteSet (&operands);
+ return TRUE;
+}
+
+
/*-----------------------------------------------------------------*/
/* callFuncByName - calls a function as defined in the table */
/*-----------------------------------------------------------------*/
-int
+int
callFuncByName (char *fname,
- hTab * vars,
- lineNode * currPl,
- lineNode * head)
+ hTab * vars,
+ lineNode * currPl,
+ lineNode * endPl,
+ lineNode * head)
{
struct ftab
{
char *fname;
- int (*func) (hTab *, lineNode *, lineNode *, const char *);
+ int (*func) (hTab *, lineNode *, lineNode *, lineNode *, char *);
}
ftab[] =
{
"labelInRange", labelInRange
}
,
+ {
+ "labelJTInRange", labelJTInRange
+ }
+ ,
+ {
+ "operandsNotSame", operandsNotSame
+ }
+ ,
{
"operandsNotSame3", operandsNotSame3
}
"operandsNotSame8", operandsNotSame8
}
,
- {
- "operandsNotSame", operandsNotSame
- }
- ,
{
"24bitMode", flat24bitMode
}
{
"portIsDS390", portIsDS390
},
+ {
+ "labelIsReturnOnly", labelIsReturnOnly
+ },
+ {
+ "okToRemoveSLOC", okToRemoveSLOC
+ },
{
"24bitModeAndPortDS390", flat24bitModeAndPortDS390
+ },
+ {
+ "notVolatile", notVolatile
+ },
+ {
+ "operandsNotRelated", operandsNotRelated
+ },
+ {
+ "labelRefCountChange", labelRefCountChange
}
};
- int i;
+ int i;
+ char *cmdCopy, *funcName, *funcArgs, *cmdTerm;
+ char c;
+ int rc;
- for (i = 0; i < ((sizeof (ftab)) / (sizeof (struct ftab))); i++)
- if (strncmp (ftab[i].fname, fname, strlen (ftab[i].fname)) == 0)
- {
- return (*ftab[i].func) (vars, currPl, head,
- fname + strlen (ftab[i].fname));
- }
- fprintf (stderr, "could not find named function in function table\n");
- return TRUE;
+ /* Isolate the function name part (we are passed the full condition
+ * string including arguments)
+ */
+ cmdTerm = cmdCopy = Safe_strdup(fname);
+
+ do
+ {
+ funcArgs = funcName = cmdTerm;
+ while ((c = *funcArgs) && c != ' ' && c != '\t' && c != '(')
+ funcArgs++;
+ *funcArgs = '\0'; /* terminate the function name */
+ if (c)
+ funcArgs++;
+
+ /* Find the start of the arguments */
+ if (c == ' ' || c == '\t')
+ while ((c = *funcArgs) && (c == ' ' || c == '\t'))
+ funcArgs++;
+
+ /* If the arguments started with an opening parenthesis, */
+ /* use the closing parenthesis for the end of the */
+ /* arguments and look for the start of another condition */
+ /* that can optionally follow. If there was no opening */
+ /* parethesis, then everything that follows are arguments */
+ /* and there can be no additional conditions. */
+ if (c == '(')
+ {
+ cmdTerm = funcArgs;
+ while ((c = *cmdTerm) && c != ')')
+ cmdTerm++;
+ *cmdTerm = '\0'; /* terminate the arguments */
+ if (c == ')')
+ {
+ cmdTerm++;
+ while ((c = *cmdTerm) && (c == ' ' || c == '\t' || c == ','))
+ cmdTerm++;
+ if (!*cmdTerm)
+ cmdTerm = NULL;
+ }
+ else
+ cmdTerm = NULL; /* closing parenthesis missing */
+ }
+ else
+ cmdTerm = NULL;
+
+ if (!*funcArgs)
+ funcArgs = NULL;
+
+ rc = -1;
+ for (i = 0; i < ((sizeof (ftab)) / (sizeof (struct ftab))); i++)
+ {
+ if (strcmp (ftab[i].fname, funcName) == 0)
+ {
+ rc = (*ftab[i].func) (vars, currPl, endPl, head,
+ funcArgs);
+ break;
+ }
+ }
+
+ if (rc == -1)
+ {
+ fprintf (stderr,
+ "could not find named function \"%s\" in "
+ "peephole function table\n",
+ funcName);
+ // If the function couldn't be found, let's assume it's
+ // a bad rule and refuse it.
+ rc = FALSE;
+ break;
+ }
+ }
+ while (rc && cmdTerm);
+
+ Safe_free(cmdCopy);
+
+ return rc;
}
/*-----------------------------------------------------------------*/
/* printLine - prints a line chain into a given file */
/*-----------------------------------------------------------------*/
-void
+void
printLine (lineNode * head, FILE * of)
{
+ iCode *last_ic = NULL;
+ bool debug_iCode_tracking = (getenv("DEBUG_ICODE_TRACKING")!=NULL);
+
if (!of)
of = stdout;
while (head)
{
+ if (head->ic!=last_ic)
+ {
+ last_ic = head->ic;
+ if (debug_iCode_tracking)
+ {
+ if (head->ic)
+ fprintf (of, "; block = %d, seq = %d\n",
+ head->ic->block, head->ic->seq);
+ else
+ fprintf (of, "; iCode lost\n");
+ }
+ }
+
/* don't indent comments & labels */
if (head->line &&
- (*head->line == ';' ||
- head->line[strlen (head->line) - 1] == ':')) {
- fprintf (of, "%s\n", head->line);
+ (*head->line == ';' ||
+ head->line[strlen (head->line) - 1] == ':')) {
+ fprintf (of, "%s\n", head->line);
} else {
- if (head->isInline && *head->line=='#') {
- // comment out preprocessor directives in inline asm
- fprintf (of, ";");
- }
- fprintf (of, "\t%s\n", head->line);
+ if (head->isInline && *head->line=='#') {
+ // comment out preprocessor directives in inline asm
+ fprintf (of, ";");
+ }
+ fprintf (of, "\t%s\n", head->line);
}
head = head->next;
}
/*-----------------------------------------------------------------*/
peepRule *
newPeepRule (lineNode * match,
- lineNode * replace,
- char *cond,
- int restart)
+ lineNode * replace,
+ char *cond,
+ int restart)
{
peepRule *pr;
pl = Safe_alloc ( sizeof (lineNode));
pl->line = Safe_strdup (line);
+ pl->ic = NULL;
return pl;
}
return pl2;
}
-#define SKIP_SPACE(x,y) { while (*x && (isspace(*x) || *x == '\n')) x++; \
+#define SKIP_SPACE(x,y) { while (*x && (ISCHARSPACE(*x) || *x == '\n')) x++; \
if (!*x) { fprintf(stderr,y); return ; } }
#define EXPECT_STR(x,y,z) { while (*x && strncmp(x,y,strlen(y))) x++ ; \
/*-----------------------------------------------------------------*/
/* getPeepLine - parses the peep lines */
/*-----------------------------------------------------------------*/
-static void
+static void
getPeepLine (lineNode ** head, char **bpp)
{
char lines[MAX_PATTERN_LEN];
char *lp;
+ int isComment;
lineNode *currL = NULL;
char *bp = *bpp;
{
if (!*bp)
- {
- fprintf (stderr, "unexpected end of match pattern\n");
- return;
- }
+ {
+ fprintf (stderr, "unexpected end of match pattern\n");
+ return;
+ }
if (*bp == '\n')
- {
- bp++;
- while (isspace (*bp) ||
- *bp == '\n')
- bp++;
- }
+ {
+ bp++;
+ while (ISCHARSPACE (*bp) ||
+ *bp == '\n')
+ bp++;
+ }
if (*bp == '}')
- {
- bp++;
- break;
- }
+ {
+ bp++;
+ break;
+ }
/* read till end of line */
lp = lines;
while ((*bp != '\n' && *bp != '}') && *bp)
- *lp++ = *bp++;
-
+ *lp++ = *bp++;
*lp = '\0';
- if (!currL)
- *head = currL = newLineNode (lines);
- else
- currL = connectLine (currL, newLineNode (lines));
+
+ lp = lines;
+ while (*lp && ISCHARSPACE(*lp))
+ lp++;
+ isComment = (*lp == ';');
+
+ if (!isComment || (isComment && !options.noPeepComments))
+ {
+ if (!currL)
+ *head = currL = newLineNode (lines);
+ else
+ currL = connectLine (currL, newLineNode (lines));
+ currL->isComment = isComment;
+ }
+
}
*bpp = bp;
/*-----------------------------------------------------------------*/
/* readRules - reads the rules from a string buffer */
/*-----------------------------------------------------------------*/
-static void
+static void
readRules (char *bp)
{
char restart = 0;
/* then look for either "restart" or '{' */
while (strncmp (bp, "restart", 7) &&
- *bp != '{' && bp)
+ *bp != '{' && bp)
bp++;
/* not found */
if (*bp == '{')
bp++;
else
- { /* must be restart */
+ { /* must be restart */
restart++;
bp += strlen ("restart");
/* look for '{' */
getPeepLine (&replace, &bp);
/* look for a 'if' */
- while ((isspace (*bp) || *bp == '\n') && *bp)
+ while ((ISCHARSPACE (*bp) || *bp == '\n') && *bp)
bp++;
if (strncmp (bp, "if", 2) == 0)
{
bp += 2;
- while ((isspace (*bp) || *bp == '\n') && *bp)
- bp++;
+ while ((ISCHARSPACE (*bp) || *bp == '\n') && *bp)
+ bp++;
if (!*bp)
- {
- fprintf (stderr, "expected condition name\n");
- return;
- }
+ {
+ fprintf (stderr, "expected condition name\n");
+ return;
+ }
/* look for the condition */
lp = lines;
while (*bp && (*bp != '\n'))
- {
- *lp++ = *bp++;
- }
+ {
+ *lp++ = *bp++;
+ }
*lp = '\0';
newPeepRule (match, replace, lines, restart);
/*-----------------------------------------------------------------*/
/* keyForVar - returns the numeric key for a var */
/*-----------------------------------------------------------------*/
-static int
+static int
keyForVar (char *d)
{
int i = 0;
- while (isdigit (*d))
+ while (ISCHARDIGIT (*d))
{
i *= 10;
i += (*d++ - '0');
/*-----------------------------------------------------------------*/
/* bindVar - binds a value to a variable in the given hashtable */
/*-----------------------------------------------------------------*/
-static void
+static void
bindVar (int key, char **s, hTab ** vtab)
{
char vval[MAX_PATTERN_LEN];
vvx = *s;
/* the value is ended by a ',' or space or newline or null or ) */
while (*vvx &&
- *vvx != ',' &&
- !isspace (*vvx) &&
- *vvx != '\n' &&
- *vvx != ':' &&
- *vvx != ')')
+ *vvx != ',' &&
+ !ISCHARSPACE (*vvx) &&
+ *vvx != '\n' &&
+ *vvx != ':' &&
+ *vvx != ')')
{
char ubb = 0;
/* if we find a '(' then we need to balance it */
if (*vvx == '(')
- {
- ubb++;
- while (ubb)
- {
- *vv++ = *vvx++;
- if (*vvx == '(')
- ubb++;
- if (*vvx == ')')
- ubb--;
- }
- // include the trailing ')'
- *vv++ = *vvx++;
- }
+ {
+ ubb++;
+ while (ubb)
+ {
+ *vv++ = *vvx++;
+ if (*vvx == '(')
+ ubb++;
+ if (*vvx == ')')
+ ubb--;
+ }
+ // include the trailing ')'
+ *vv++ = *vvx++;
+ }
else
- *vv++ = *vvx++;
+ *vv++ = *vvx++;
}
*s = vvx;
*vv = '\0';
/*-----------------------------------------------------------------*/
/* matchLine - matches one line */
/*-----------------------------------------------------------------*/
-static bool
+static bool
matchLine (char *s, char *d, hTab ** vars)
{
{
/* skip white space in both */
- while (isspace (*s))
- s++;
- while (isspace (*d))
- d++;
+ while (ISCHARSPACE (*s))
+ s++;
+ while (ISCHARSPACE (*d))
+ d++;
/* if the destination is a var */
- if (*d == '%' && isdigit (*(d + 1)))
- {
- char *v = hTabItemWithKey (*vars, keyForVar (d + 1));
- /* if the variable is already bound
- then it MUST match with dest */
- if (v)
- {
- while (*v)
- if (*v++ != *s++)
- return FALSE;
- }
- else
- /* variable not bound we need to
- bind it */
- bindVar (keyForVar (d + 1), &s, vars);
-
- /* in either case go past the variable */
- d++;
- while (isdigit (*d))
- d++;
- }
+ if (*d == '%' && ISCHARDIGIT (*(d + 1)) && vars)
+ {
+ char *v = hTabItemWithKey (*vars, keyForVar (d + 1));
+ /* if the variable is already bound
+ then it MUST match with dest */
+ if (v)
+ {
+ while (*v)
+ if (*v++ != *s++)
+ return FALSE;
+ }
+ else
+ /* variable not bound we need to
+ bind it */
+ bindVar (keyForVar (d + 1), &s, vars);
+
+ /* in either case go past the variable */
+ d++;
+ while (ISCHARDIGIT (*d))
+ d++;
+
+ while (ISCHARSPACE (*s))
+ s++;
+ while (ISCHARSPACE (*d))
+ d++;
+ }
/* they should be an exact match other wise */
if (*s && *d)
- {
- while (isspace (*s))
- s++;
- while (isspace (*d))
- d++;
- if (*s++ != *d++)
- return FALSE;
- }
+ {
+ if (*s++ != *d++)
+ return FALSE;
+ }
}
/* get rid of the trailing spaces
in both source & destination */
if (*s)
- while (isspace (*s))
+ while (ISCHARSPACE (*s))
s++;
if (*d)
- while (isspace (*d))
+ while (ISCHARSPACE (*d))
d++;
/* after all this if only one of them
/*-----------------------------------------------------------------*/
/* matchRule - matches a all the rule lines */
/*-----------------------------------------------------------------*/
-static bool
+static bool
matchRule (lineNode * pl,
- lineNode ** mtail,
- peepRule * pr,
- lineNode * head)
+ lineNode ** mtail,
+ peepRule * pr,
+ lineNode * head)
{
- lineNode *spl; /* source pl */
- lineNode *rpl; /* rule peep line */
+ lineNode *spl; /* source pl */
+ lineNode *rpl; /* rule peep line */
-/* setToNull((void **) &pr->vars); */
+/* setToNull((void *) &pr->vars); */
/* pr->vars = newHashTable(100); */
/* for all the lines defined in the rule */
comment line don't process or the source line
contains == . debugger information skip it */
if (spl->line &&
- (*spl->line == ';' || spl->isDebug))
- {
- spl = spl->next;
- continue;
- }
+ (*spl->line == ';' || spl->isDebug))
+ {
+ spl = spl->next;
+ continue;
+ }
if (!matchLine (spl->line, rpl->line, &pr->vars))
- return FALSE;
+ return FALSE;
rpl = rpl->next;
if (rpl)
- spl = spl->next;
+ spl = spl->next;
}
/* if rules ended */
{
/* if this rule has additional conditions */
if (pr->cond)
- {
- if (callFuncByName (pr->cond, pr->vars, pl, head))
- {
- *mtail = spl;
- return TRUE;
- }
- else
- return FALSE;
- }
+ {
+ if (callFuncByName (pr->cond, pr->vars, pl, spl, head))
+ {
+ *mtail = spl;
+ return TRUE;
+ }
+ else
+ return FALSE;
+ }
else
- {
- *mtail = spl;
- return TRUE;
- }
+ {
+ *mtail = spl;
+ return TRUE;
+ }
}
else
return FALSE;
}
+static void
+reassociate_ic_down (lineNode *shead, lineNode *stail,
+ lineNode *rhead, lineNode *rtail)
+{
+ lineNode *csl; /* current source line */
+ lineNode *crl; /* current replacement line */
+
+ csl = shead;
+ crl = rhead;
+ while (1)
+ {
+ /* skip over any comments */
+ while (csl!=stail->next && csl->isComment)
+ csl = csl->next;
+ while (crl!=rtail->next && crl->isComment)
+ crl = crl->next;
+
+ /* quit if we reach the end */
+ if ((csl==stail->next) || (crl==rtail->next) || crl->ic)
+ break;
+
+ if (matchLine(csl->line,crl->line,NULL))
+ {
+ crl->ic = csl->ic;
+ csl = csl->next;
+ crl = crl->next;
+ }
+ else
+ break;
+ }
+}
+
+static void
+reassociate_ic_up (lineNode *shead, lineNode *stail,
+ lineNode *rhead, lineNode *rtail)
+{
+ lineNode *csl; /* current source line */
+ lineNode *crl; /* current replacement line */
+
+ csl = stail;
+ crl = rtail;
+ while (1)
+ {
+ /* skip over any comments */
+ while (csl!=shead->prev && csl->isComment)
+ csl = csl->prev;
+ while (crl!=rhead->prev && crl->isComment)
+ crl = crl->prev;
+
+ /* quit if we reach the end */
+ if ((csl==shead->prev) || (crl==rhead->prev) || crl->ic)
+ break;
+
+ if (matchLine(csl->line,crl->line,NULL))
+ {
+ crl->ic = csl->ic;
+ csl = csl->prev;
+ crl = crl->prev;
+ }
+ else
+ break;
+ }
+}
+
+/*------------------------------------------------------------------*/
+/* reassociate_ic - reassociate replacement lines with origin iCode */
+/*------------------------------------------------------------------*/
+static void
+reassociate_ic (lineNode *shead, lineNode *stail,
+ lineNode *rhead, lineNode *rtail)
+{
+ lineNode *csl; /* current source line */
+ lineNode *crl; /* current replacement line */
+ bool single_iCode;
+ iCode *ic;
+
+ /* Check to see if all the source lines (excluding comments) came
+ ** for the same iCode
+ */
+ ic = NULL;
+ for (csl=shead;csl!=stail->next;csl=csl->next)
+ if (csl->ic && !csl->isComment)
+ {
+ ic = csl->ic;
+ break;
+ }
+ single_iCode = (ic!=NULL);
+ for (csl=shead;csl!=stail->next;csl=csl->next)
+ if ((csl->ic != ic) && !csl->isComment)
+ {
+ /* More than one iCode was found. However, if it's just the
+ ** last line with the different iCode and it was not changed
+ ** in the replacement, everything else must be the first iCode.
+ */
+ if ((csl==stail) && matchLine (stail->line, rtail->line, NULL))
+ {
+ rtail->ic = stail->ic;
+ for (crl=rhead;crl!=rtail;crl=crl->next)
+ crl->ic = ic;
+ return;
+ }
+
+ single_iCode = FALSE;
+ break;
+ }
+
+ /* If all of the source lines came from the same iCode, then so have
+ ** all of the replacement lines too.
+ */
+ if (single_iCode)
+ {
+ for (crl=rhead;crl!=rtail->next;crl=crl->next)
+ crl->ic = ic;
+ return;
+ }
+
+ /* The source lines span iCodes, so we may end up with replacement
+ ** lines that we don't know which iCode(s) to associate with. Do the
+ ** best we can by using the following strategies:
+ ** 1) Start at the top and scan down. As long as the source line
+ ** matches the replacement line, they have the same iCode.
+ ** 2) Start at the bottom and scan up. As long as the source line
+ ** matches the replacement line, they have the same iCode.
+ ** 3) For any label in the source, look for a matching label in
+ ** the replacment. If found, they have the same iCode. From
+ ** these matching labels, scan down for additional matching
+ ** lines; if found, they also have the same iCode.
+ */
+
+ /* Strategy #1: Start at the top and scan down for matches
+ */
+ reassociate_ic_down(shead,stail,rhead,rtail);
+
+ /* Strategy #2: Start at the bottom and scan up for matches
+ */
+ reassociate_ic_up(shead,stail,rhead,rtail);
+
+ /* Strategy #3: Try to match labels
+ */
+ csl = shead;
+ while (1)
+ {
+ const char *labelStart;
+ int labelLength;
+
+ /* skip over any comments */
+ while (csl!=stail->next && csl->isComment)
+ csl = csl->next;
+ if (csl==stail->next)
+ break;
+
+ if (isLabelDefinition(csl->line, &labelStart, &labelLength))
+ {
+ /* found a source line label; look for it in the replacment lines */
+ crl = rhead;
+ while (1)
+ {
+ while (crl!=rtail->next && crl->isComment)
+ crl = crl->next;
+ if (crl==rtail->next)
+ break;
+ if (matchLine(csl->line, crl->line, NULL))
+ {
+ reassociate_ic_down(csl,stail,crl,rtail);
+ break;
+ }
+ else
+ crl = crl->next;
+ }
+ }
+ csl = csl->next;
+ }
+
+ /* Try to assign a meaningful iCode to any comment that is missing
+ one. Since they are comments, it's ok to make mistakes; we are just
+ trying to improve continuity to simplify other tests.
+ */
+ ic = NULL;
+ for (crl=rtail;crl!=rhead->prev;crl=crl->prev)
+ {
+ if (!crl->ic && ic && crl->isComment)
+ crl->ic = ic;
+ ic = crl->ic;
+ }
+}
+
+
/*-----------------------------------------------------------------*/
/* replaceRule - does replacement of a matching pattern */
/*-----------------------------------------------------------------*/
-static void
+static void
replaceRule (lineNode ** shead, lineNode * stail, peepRule * pr)
{
lineNode *cl = NULL;
for (cl = *shead; cl != stail; cl = cl->next)
{
if (cl->line && (*cl->line == ';' || cl->isDebug))
- {
- pl = (pl ? connectLine (pl, newLineNode (cl->line)) :
- (comment = newLineNode (cl->line)));
- pl->isDebug = cl->isDebug;
- }
+ {
+ pl = (pl ? connectLine (pl, newLineNode (cl->line)) :
+ (comment = newLineNode (cl->line)));
+ pl->isDebug = cl->isDebug;
+ pl->isComment = cl->isComment || (*cl->line == ';');
+ }
}
cl = NULL;
l = pl->line;
while (*l)
- {
- /* if the line contains a variable */
- if (*l == '%' && isdigit (*(l + 1)))
- {
- v = hTabItemWithKey (pr->vars, keyForVar (l + 1));
- if (!v)
- {
- fprintf (stderr, "used unbound variable in replacement\n");
- l++;
- continue;
- }
- while (*v) {
- *lbp++ = *v++;
- }
- l++;
- while (isdigit (*l)) {
- l++;
- }
- continue;
- }
- *lbp++ = *l++;
- }
+ {
+ /* if the line contains a variable */
+ if (*l == '%' && ISCHARDIGIT (*(l + 1)))
+ {
+ v = hTabItemWithKey (pr->vars, keyForVar (l + 1));
+ if (!v)
+ {
+ fprintf (stderr, "used unbound variable in replacement\n");
+ l++;
+ continue;
+ }
+ while (*v) {
+ *lbp++ = *v++;
+ }
+ l++;
+ while (ISCHARDIGIT (*l)) {
+ l++;
+ }
+ continue;
+ }
+ *lbp++ = *l++;
+ }
*lbp = '\0';
if (cl)
- cl = connectLine (cl, newLineNode (lb));
+ cl = connectLine (cl, newLineNode (lb));
else
- lhead = cl = newLineNode (lb);
+ lhead = cl = newLineNode (lb);
+ cl->isComment = pl->isComment;
}
/* add the comments if any to the head of list */
{
lineNode *lc = comment;
while (lc->next)
- lc = lc->next;
+ lc = lc->next;
lc->next = lhead;
if (lhead)
- lhead->prev = lc;
+ lhead->prev = lc;
lhead = comment;
}
- /* now we need to connect / replace the original chain */
- /* if there is a prev then change it */
- if ((*shead)->prev)
+ if (lhead)
{
- (*shead)->prev->next = lhead;
- lhead->prev = (*shead)->prev;
+ /* determine which iCodes the replacment lines relate to */
+ reassociate_ic(*shead,stail,lhead,cl);
+
+ /* now we need to connect / replace the original chain */
+ /* if there is a prev then change it */
+ if ((*shead)->prev)
+ {
+ (*shead)->prev->next = lhead;
+ lhead->prev = (*shead)->prev;
+ }
+ *shead = lhead;
+ /* now for the tail */
+ if (stail && stail->next)
+ {
+ stail->next->prev = cl;
+ if (cl)
+ cl->next = stail->next;
+ }
}
- *shead = lhead;
- /* now for the tail */
- if (stail && stail->next)
+ else
{
- stail->next->prev = cl;
- if (cl)
- cl->next = stail->next;
+ /* the replacement is empty - delete the source lines */
+ if ((*shead)->prev)
+ (*shead)->prev->next = stail->next;
+ if (stail->next)
+ stail->next->prev = (*shead)->prev;
+ *shead = stail->next;
}
}
* If so, start will point to the start of the label name,
* and len will be it's length.
*/
-bool
+bool
isLabelDefinition (const char *line, const char **start, int *len)
{
const char *cp = line;
* (alnum | $ | _ ) followed by a colon.
*/
- while (*cp && isspace (*cp))
+ while (*cp && ISCHARSPACE (*cp))
{
cp++;
}
*start = cp;
- while (isalnum (*cp) || (*cp == '$') || (*cp == '_'))
+ while (ISCHARALNUM (*cp) || (*cp == '$') || (*cp == '_'))
{
cp++;
}
}
/* Quick & dirty string hash function. */
-static int
+static int
hashSymbolName (const char *name)
{
int hash = 0;
/* Build a hash of all labels in the passed set of lines
* and how many times they are referenced.
*/
-static void
+static void
buildLabelRefCountHash (lineNode * head)
{
lineNode *line;
while (line)
{
if (isLabelDefinition (line->line, &label, &labelLen)
- && labelLen <= SDCC_NAME_MAX)
- {
- labelHashEntry *entry;
+ && labelLen <= SDCC_NAME_MAX)
+ {
+ labelHashEntry *entry;
+
+ entry = traceAlloc (&_G.labels, Safe_alloc(sizeof (labelHashEntry)));
- entry = traceAlloc (&_G.labels, Safe_alloc(sizeof (labelHashEntry)));
+ memcpy (entry->name, label, labelLen);
+ entry->name[labelLen] = 0;
+ entry->refCount = -1;
- memcpy (entry->name, label, labelLen);
- entry->name[labelLen] = 0;
- entry->refCount = -1;
+ /* Assume function entry points are referenced somewhere, */
+ /* even if we can't find a reference (might be from outside */
+ /* the function) */
+ if (line->ic && (line->ic->op == FUNCTION))
+ entry->refCount++;
- hTabAddItem (&labelHash, hashSymbolName (entry->name), entry);
- }
+ hTabAddItem (&labelHash, hashSymbolName (entry->name), entry);
+ }
line = line->next;
}
while (line)
{
for (i = 0; i < HTAB_SIZE; i++)
- {
- labelHashEntry *thisEntry;
-
- thisEntry = hTabFirstItemWK (labelHash, i);
-
- while (thisEntry)
- {
- if (strstr (line->line, thisEntry->name))
- {
- thisEntry->refCount++;
- }
- thisEntry = hTabNextItemWK (labelHash);
- }
- }
+ {
+ labelHashEntry *thisEntry;
+
+ thisEntry = hTabFirstItemWK (labelHash, i);
+
+ while (thisEntry)
+ {
+ if (strstr (line->line, thisEntry->name))
+ {
+ thisEntry->refCount++;
+ }
+ thisEntry = hTabNextItemWK (labelHash);
+ }
+ }
line = line->next;
}
thisEntry = hTabFirstItemWK (labelHash, i);
while (thisEntry)
- {
- fprintf (stderr, "label: %s ref %d\n",
- thisEntry->name, thisEntry->refCount);
- thisEntry = hTabNextItemWK (labelHash);
- }
+ {
+ fprintf (stderr, "label: %s ref %d\n",
+ thisEntry->name, thisEntry->refCount);
+ thisEntry = hTabNextItemWK (labelHash);
+ }
}
#endif
}
matchLine
Where is stuff allocated?
-
+
*/
/*-----------------------------------------------------------------*/
/* peepHole - matches & substitutes rules */
/*-----------------------------------------------------------------*/
-void
+void
peepHole (lineNode ** pls)
{
lineNode *spl;
lineNode *mtail = NULL;
bool restart;
-#if !OPT_DISABLE_PIC
+#if !OPT_DISABLE_PIC || !OPT_DISABLE_PIC16
/* The PIC port uses a different peep hole optimizer based on "pCode" */
- if (TARGET_IS_PIC)
+ if (TARGET_IS_PIC || TARGET_IS_PIC16)
return;
#endif
/* if inline assembler then no peep hole */
if (spl->isInline)
continue;
-
+
+ /* don't waste time starting a match on debug symbol
+ ** or comment */
+ if (spl->isDebug || spl->isComment || *(spl->line)==';')
+ continue;
+
mtail = NULL;
/* Tidy up any data stored in the hTab */
-
+
/* if it matches */
if (matchRule (spl, &mtail, pr, *pls))
{
-
+
/* then replace */
if (spl == *pls)
replaceRule (pls, mtail, pr);
else
replaceRule (&spl, mtail, pr);
-
+
/* if restart rule type then
start at the top again */
if (pr->restart)
restart = TRUE;
}
}
-
+
if (pr->vars)
{
hTabDeleteAll (pr->vars);
Safe_free (pr->vars);
pr->vars = NULL;
}
-
+
freeTrace (&_G.values);
}
}
/* if we maxed out our local buffer */
if (nch >= (MAX_PATTERN_LEN - 2))
- {
- lb[nch] = '\0';
- /* copy it into allocated buffer */
- if (rs)
- {
- rs = Safe_realloc (rs, strlen (rs) + strlen (lb) + 1);
- strncatz (rs, lb, strlen (rs) + strlen (lb) + 1);
- }
- else
- {
- rs = Safe_strdup (lb);
- }
- nch = 0;
- }
+ {
+ lb[nch] = '\0';
+ /* copy it into allocated buffer */
+ if (rs)
+ {
+ rs = Safe_realloc (rs, strlen (rs) + strlen (lb) + 1);
+ strncatz (rs, lb, strlen (rs) + strlen (lb) + 1);
+ }
+ else
+ {
+ rs = Safe_strdup (lb);
+ }
+ nch = 0;
+ }
}
/* if some charaters left over */
lb[nch] = '\0';
/* copy it into allocated buffer */
if (rs)
- {
- rs = Safe_realloc (rs, strlen (rs) + strlen (lb) + 1);
- strncatz (rs, lb, strlen (rs) + strlen (lb) + 1);
- }
+ {
+ rs = Safe_realloc (rs, strlen (rs) + strlen (lb) + 1);
+ strncatz (rs, lb, strlen (rs) + strlen (lb) + 1);
+ }
else
- {
- rs = Safe_strdup (lb);
- }
+ {
+ rs = Safe_strdup (lb);
+ }
}
return rs;
}
/*-----------------------------------------------------------------*/
/* initPeepHole - initialises the peep hole optimizer stuff */
/*-----------------------------------------------------------------*/
-void
+void
initPeepHole ()
{
char *s;
if (options.peep_file)
{
readRules (s = readFileIntoBuffer (options.peep_file));
- setToNull ((void **) &s);
+ setToNull ((void *) &s);
}
/* Convert the peep rules into pcode.
NOTE: this is only support in the PIC port (at the moment)
*/
- if (TARGET_IS_PIC) {
- peepRules2pCode(rootRules);
- }
+ if (TARGET_IS_PIC)
+ peepRules2pCode(rootRules);
+#endif
+
+#if !OPT_DISABLE_PIC16
+ /* Convert the peep rules into pcode.
+ NOTE: this is only support in the PIC port (at the moment)
+ and the PIC16 port (VR 030601)
+ */
+ if (TARGET_IS_PIC16)
+ pic16_peepRules2pCode(rootRules);
+
#endif
}