/* */
/* */
/* */
-/* (C) 2001 Ullrich von Bassewitz */
-/* Wacholderweg 14 */
-/* D-70597 Stuttgart */
+/* (C) 2001-2003 Ullrich von Bassewitz */
+/* Römerstraße 52 */
+/* D-70794 Filderstadt */
/* EMail: uz@cc65.org */
/* */
/* */
+#include <stdlib.h>
#include <string.h>
/* common */
#include "abend.h"
+#include "chartype.h"
+#include "cpu.h"
#include "print.h"
+#include "xmalloc.h"
/* cc65 */
#include "asmlabel.h"
#include "codeent.h"
#include "codeinfo.h"
+#include "coptadd.h"
+#include "coptc02.h"
+#include "coptcmp.h"
#include "coptind.h"
+#include "coptneg.h"
+#include "coptpush.h"
+#include "coptsize.h"
+#include "coptstop.h"
+#include "coptstore.h"
+#include "coptsub.h"
+#include "copttest.h"
#include "error.h"
#include "global.h"
#include "codeopt.h"
/*****************************************************************************/
-/* Data */
+/* Data */
/*****************************************************************************/
-/* Defines for the conditions in a compare */
-typedef enum {
- CMP_INV = -1,
- CMP_EQ,
- CMP_NE,
- CMP_GT,
- CMP_GE,
- CMP_LT,
- CMP_LE,
- CMP_UGT,
- CMP_UGE,
- CMP_ULT,
- CMP_ULE
-} cmp_t;
-
-/* Table with the compare suffixes */
-static const char CmpSuffixTab [][4] = {
- "eq", "ne", "gt", "ge", "lt", "le", "ugt", "uge", "ult", "ule"
+/* Shift types */
+enum {
+ SHIFT_NONE,
+ SHIFT_ASR_1,
+ SHIFT_ASL_1,
+ SHIFT_LSR_1,
+ SHIFT_LSL_1
};
-/* Table used to invert a condition, indexed by condition */
-static const unsigned char CmpInvertTab [] = {
- CMP_NE, CMP_EQ,
- CMP_LE, CMP_LT, CMP_GE, CMP_GT,
- CMP_ULE, CMP_ULT, CMP_UGE, CMP_UGT
-};
-/* Table to show which compares are signed (use the N flag) */
-static const char CmpSignedTab [] = {
- 0, 0, 1, 1, 1, 1, 0, 0, 0, 0
-};
+/*****************************************************************************/
+/* Optimize shifts */
+/*****************************************************************************/
+
+
+
+static unsigned OptShift1 (CodeSeg* S)
+/* A call to the shlaxN routine may get replaced by one or more asl insns
+ * if the value of X is not used later.
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ /* Get next entry */
+ CodeEntry* E = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (E->OPC == OP65_JSR &&
+ (strncmp (E->Arg, "shlax", 5) == 0 ||
+ strncmp (E->Arg, "aslax", 5) == 0) &&
+ strlen (E->Arg) == 6 &&
+ IsDigit (E->Arg[5]) &&
+ !RegXUsed (S, I+1)) {
+
+ /* Insert shift insns */
+ unsigned Count = E->Arg[5] - '0';
+ while (Count--) {
+ CodeEntry* X = NewCodeEntry (OP65_ASL, AM65_ACC, "a", 0, E->LI);
+ CS_InsertEntry (S, X, I+1);
+ }
+
+ /* Delete the call to shlax */
+ CS_DelEntry (S, I);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+static unsigned OptShift2 (CodeSeg* S)
+/* A call to the shraxN routine may get replaced by one or more lsr insns
+ * if the value of X is zero.
+ */
+{
+ unsigned Changes = 0;
+ unsigned I;
+
+ /* Generate register info */
+ CS_GenRegInfo (S);
+
+ /* Walk over the entries */
+ I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ /* Get next entry */
+ CodeEntry* E = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (E->OPC == OP65_JSR &&
+ strncmp (E->Arg, "shrax", 5) == 0 &&
+ strlen (E->Arg) == 6 &&
+ IsDigit (E->Arg[5]) &&
+ E->RI->In.RegX == 0) {
+
+ /* Insert shift insns */
+ unsigned Count = E->Arg[5] - '0';
+ while (Count--) {
+ CodeEntry* X = NewCodeEntry (OP65_LSR, AM65_ACC, "a", 0, E->LI);
+ CS_InsertEntry (S, X, I+1);
+ }
+
+ /* Delete the call to shlax */
+ CS_DelEntry (S, I);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Free the register info */
+ CS_FreeRegInfo (S);
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+static unsigned GetShiftType (const char* Sub)
+/* Helper function for OptShift3 */
+{
+ if (*Sub == 'a') {
+ if (strcmp (Sub+1, "slax1") == 0) {
+ return SHIFT_ASL_1;
+ } else if (strcmp (Sub+1, "srax1") == 0) {
+ return SHIFT_ASR_1;
+ }
+ } else if (*Sub == 's') {
+ if (strcmp (Sub+1, "hlax1") == 0) {
+ return SHIFT_LSL_1;
+ } else if (strcmp (Sub+1, "hrax1") == 0) {
+ return SHIFT_LSR_1;
+ }
+ }
+ return SHIFT_NONE;
+}
+
+
+
+static unsigned OptShift3 (CodeSeg* S)
+/* Search for the sequence
+ *
+ * lda xxx
+ * ldx yyy
+ * jsr aslax1/asrax1/shlax1/shrax1
+ * sta aaa
+ * stx bbb
+ *
+ * and replace it by
+ *
+ * lda xxx
+ * asl a
+ * sta aaa
+ * lda yyy
+ * rol a
+ * sta bbb
+ *
+ * or similar, provided that a/x is not used later
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ unsigned ShiftType;
+ CodeEntry* L[5];
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDA &&
+ (L[0]->AM == AM65_ABS || L[0]->AM == AM65_ZP) &&
+ CS_GetEntries (S, L+1, I+1, 4) &&
+ !CS_RangeHasLabel (S, I+1, 4) &&
+ L[1]->OPC == OP65_LDX &&
+ (L[1]->AM == AM65_ABS || L[1]->AM == AM65_ZP) &&
+ L[2]->OPC == OP65_JSR &&
+ (ShiftType = GetShiftType (L[2]->Arg)) != SHIFT_NONE&&
+ L[3]->OPC == OP65_STA &&
+ (L[3]->AM == AM65_ABS || L[3]->AM == AM65_ZP) &&
+ L[4]->OPC == OP65_STX &&
+ (L[4]->AM == AM65_ABS || L[4]->AM == AM65_ZP) &&
+ !RegAXUsed (S, I+5)) {
+
+ CodeEntry* X;
+
+ /* Handle the four shift types differently */
+ switch (ShiftType) {
+
+ case SHIFT_ASR_1:
+ X = NewCodeEntry (OP65_LDA, L[1]->AM, L[1]->Arg, 0, L[1]->LI);
+ CS_InsertEntry (S, X, I+5);
+ X = NewCodeEntry (OP65_CMP, AM65_IMM, "$80", 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+6);
+ X = NewCodeEntry (OP65_ROR, AM65_ACC, "a", 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+7);
+ X = NewCodeEntry (OP65_STA, L[4]->AM, L[4]->Arg, 0, L[4]->LI);
+ CS_InsertEntry (S, X, I+8);
+ X = NewCodeEntry (OP65_LDA, L[0]->AM, L[0]->Arg, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+9);
+ X = NewCodeEntry (OP65_ROR, AM65_ACC, "a", 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+10);
+ X = NewCodeEntry (OP65_STA, L[3]->AM, L[3]->Arg, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+11);
+ CS_DelEntries (S, I, 5);
+ break;
+
+ case SHIFT_LSR_1:
+ X = NewCodeEntry (OP65_LDA, L[1]->AM, L[1]->Arg, 0, L[1]->LI);
+ CS_InsertEntry (S, X, I+5);
+ X = NewCodeEntry (OP65_LSR, AM65_ACC, "a", 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+6);
+ X = NewCodeEntry (OP65_STA, L[4]->AM, L[4]->Arg, 0, L[4]->LI);
+ CS_InsertEntry (S, X, I+7);
+ X = NewCodeEntry (OP65_LDA, L[0]->AM, L[0]->Arg, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+8);
+ X = NewCodeEntry (OP65_ROR, AM65_ACC, "a", 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+9);
+ X = NewCodeEntry (OP65_STA, L[3]->AM, L[3]->Arg, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+10);
+ CS_DelEntries (S, I, 5);
+ break;
+
+ case SHIFT_LSL_1:
+ case SHIFT_ASL_1:
+ /* These two are identical */
+ X = NewCodeEntry (OP65_ASL, AM65_ACC, "a", 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+1);
+ X = NewCodeEntry (OP65_STA, L[3]->AM, L[3]->Arg, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+2);
+ X = NewCodeEntry (OP65_LDA, L[1]->AM, L[1]->Arg, 0, L[1]->LI);
+ CS_InsertEntry (S, X, I+3);
+ X = NewCodeEntry (OP65_ROL, AM65_ACC, "a", 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+4);
+ X = NewCodeEntry (OP65_STA, L[4]->AM, L[4]->Arg, 0, L[4]->LI);
+ CS_InsertEntry (S, X, I+5);
+ CS_DelEntries (S, I+6, 4);
+ break;
+
+ }
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+/*****************************************************************************/
+/* Optimize loads */
+/*****************************************************************************/
+
+
+
+static unsigned OptLoad1 (CodeSeg* S)
+/* Search for a call to ldaxysp where X is not used later and replace it by
+ * a load of just the A register.
+ */
+{
+ unsigned I;
+ unsigned Changes = 0;
+
+ /* Generate register info */
+ CS_GenRegInfo (S);
+
+ /* Walk over the entries */
+ I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* E;
+
+ /* Get next entry */
+ E = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (CE_IsCallTo (E, "ldaxysp") &&
+ RegValIsKnown (E->RI->In.RegY) &&
+ !RegXUsed (S, I+1)) {
+
+ CodeEntry* X;
+
+ /* Reload the Y register */
+ const char* Arg = MakeHexArg (E->RI->In.RegY - 1);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ CS_InsertEntry (S, X, I+1);
+
+ /* Load from stack */
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, "sp", 0, E->LI);
+ CS_InsertEntry (S, X, I+2);
+
+ /* Now remove the call to the subroutine */
+ CS_DelEntry (S, I);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Free the register info */
+ CS_FreeRegInfo (S);
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+/*****************************************************************************/
+/* Optimize stores through pointers */
+/*****************************************************************************/
+
+
+
+static unsigned OptPtrStore1Sub (CodeSeg* S, unsigned I, CodeEntry** const L)
+/* Check if this is one of the allowed suboperation for OptPtrStore1 */
+{
+ /* Check for a label attached to the entry */
+ if (CE_HasLabel (L[0])) {
+ return 0;
+ }
+
+ /* Check for single insn sub ops */
+ if (L[0]->OPC == OP65_AND ||
+ L[0]->OPC == OP65_EOR ||
+ L[0]->OPC == OP65_ORA ||
+ (L[0]->OPC == OP65_JSR && strncmp (L[0]->Arg, "shlax", 5) == 0) ||
+ (L[0]->OPC == OP65_JSR && strncmp (L[0]->Arg, "shrax", 5) == 0)) {
+
+ /* One insn */
+ return 1;
+
+ } else if (L[0]->OPC == OP65_CLC &&
+ (L[1] = CS_GetNextEntry (S, I)) != 0 &&
+ L[1]->OPC == OP65_ADC &&
+ !CE_HasLabel (L[1])) {
+ return 2;
+ } else if (L[0]->OPC == OP65_SEC &&
+ (L[1] = CS_GetNextEntry (S, I)) != 0 &&
+ L[1]->OPC == OP65_SBC &&
+ !CE_HasLabel (L[1])) {
+ return 2;
+ }
+
+
+
+ /* Not found */
+ return 0;
+}
+
+
+
+static unsigned OptPtrStore1 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * jsr pushax
+ * ldy xxx
+ * jsr ldauidx
+ * subop
+ * ldy yyy
+ * jsr staspidx
+ *
+ * and replace it by:
+ *
+ * sta ptr1
+ * stx ptr1+1
+ * ldy xxx
+ * ldx #$00
+ * lda (ptr1),y
+ * subop
+ * ldy yyy
+ * sta (ptr1),y
+ *
+ * In case a/x is loaded from the register bank before the pushax, we can even
+ * use the register bank instead of ptr1.
+ */
+/*
+ * jsr pushax
+ * ldy xxx
+ * jsr ldauidx
+ * ldx #$00
+ * lda (zp),y
+ * subop
+ * ldy yyy
+ * sta (zp),y
+ * jsr staspidx
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ unsigned K;
+ CodeEntry* L[10];
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (CE_IsCallTo (L[0], "pushax") &&
+ CS_GetEntries (S, L+1, I+1, 3) &&
+ L[1]->OPC == OP65_LDY &&
+ CE_KnownImm (L[1]) &&
+ !CE_HasLabel (L[1]) &&
+ CE_IsCallTo (L[2], "ldauidx") &&
+ !CE_HasLabel (L[2]) &&
+ (K = OptPtrStore1Sub (S, I+3, L+3)) > 0 &&
+ CS_GetEntries (S, L+3+K, I+3+K, 2) &&
+ L[3+K]->OPC == OP65_LDY &&
+ CE_KnownImm (L[3+K]) &&
+ !CE_HasLabel (L[3+K]) &&
+ CE_IsCallTo (L[4+K], "staspidx") &&
+ !CE_HasLabel (L[4+K])) {
+
+
+ const char* RegBank = 0;
+ const char* ZPLoc = "ptr1";
+ CodeEntry* X;
+
+
+ /* Get the preceeding two instructions and check them. We check
+ * for:
+ * lda regbank+n
+ * ldx regbank+n+1
+ */
+ if (I > 1) {
+ CodeEntry* P[2];
+ P[0] = CS_GetEntry (S, I-2);
+ P[1] = CS_GetEntry (S, I-1);
+ if (P[0]->OPC == OP65_LDA &&
+ P[0]->AM == AM65_ZP &&
+ P[1]->OPC == OP65_LDX &&
+ P[1]->AM == AM65_ZP &&
+ !CE_HasLabel (P[1]) &&
+ strncmp (P[0]->Arg, "regbank+", 8) == 0) {
+
+ unsigned Len = strlen (P[0]->Arg);
+
+ if (strncmp (P[0]->Arg, P[1]->Arg, Len) == 0 &&
+ P[1]->Arg[Len+0] == '+' &&
+ P[1]->Arg[Len+1] == '1' &&
+ P[1]->Arg[Len+2] == '\0') {
+
+ /* Ok, found. Use the name of the register bank */
+ RegBank = ZPLoc = P[0]->Arg;
+ }
+ }
+ }
+
+ /* Insert the load via the zp pointer */
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+3);
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, ZPLoc, 0, L[2]->LI);
+ CS_InsertEntry (S, X, I+4);
+
+ /* Insert the store through the zp pointer */
+ X = NewCodeEntry (OP65_STA, AM65_ZP_INDY, ZPLoc, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+6+K);
+
+ /* Delete the old code */
+ CS_DelEntry (S, I+7+K); /* jsr spaspidx */
+ CS_DelEntry (S, I+2); /* jsr ldauidx */
+
+ /* Create and insert the stores into the zp pointer if needed */
+ if (RegBank == 0) {
+ X = NewCodeEntry (OP65_STA, AM65_ZP, "ptr1", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+1);
+ X = NewCodeEntry (OP65_STX, AM65_ZP, "ptr1+1", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+2);
+ }
+
+ /* Delete more old code. Do it here to keep a label attached to
+ * entry I in place.
+ */
+ CS_DelEntry (S, I); /* jsr pushax */
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+static unsigned OptPtrStore2 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * lda #<(label+0)
+ * ldx #>(label+0)
+ * clc
+ * adc xxx
+ * bcc L
+ * inx
+ * L: jsr pushax
+ * ldx #$00
+ * lda yyy
+ * ldy #$00
+ * jsr staspidx
+ *
+ * and replace it by:
+ *
+ * ldy xxx
+ * ldx #$00
+ * lda yyy
+ * sta label,y
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* L[11];
+ unsigned Len;
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDA &&
+ L[0]->AM == AM65_IMM &&
+ CS_GetEntries (S, L+1, I+1, 10) &&
+ L[1]->OPC == OP65_LDX &&
+ L[1]->AM == AM65_IMM &&
+ L[2]->OPC == OP65_CLC &&
+ L[3]->OPC == OP65_ADC &&
+ (L[3]->AM == AM65_ABS || L[3]->AM == AM65_ZP) &&
+ (L[4]->OPC == OP65_BCC || L[4]->OPC == OP65_JCC) &&
+ L[4]->JumpTo != 0 &&
+ L[4]->JumpTo->Owner == L[6] &&
+ L[5]->OPC == OP65_INX &&
+ CE_IsCallTo (L[6], "pushax") &&
+ L[7]->OPC == OP65_LDX &&
+ L[8]->OPC == OP65_LDA &&
+ L[9]->OPC == OP65_LDY &&
+ CE_KnownImm (L[9]) &&
+ L[9]->Num == 0 &&
+ CE_IsCallTo (L[10], "staspidx") &&
+ !CS_RangeHasLabel (S, I+1, 5) &&
+ !CS_RangeHasLabel (S, I+7, 4) &&
+ /* Check the label last because this is quite costly */
+ (Len = strlen (L[0]->Arg)) > 3 &&
+ L[0]->Arg[0] == '<' &&
+ L[0]->Arg[1] == '(' &&
+ strlen (L[1]->Arg) == Len &&
+ L[1]->Arg[0] == '>' &&
+ memcmp (L[0]->Arg+1, L[1]->Arg+1, Len-1) == 0) {
+
+ CodeEntry* X;
+ char* Label;
+
+ /* We will create all the new stuff behind the current one so
+ * we keep the line references.
+ */
+ X = NewCodeEntry (OP65_LDY, L[3]->AM, L[3]->Arg, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+11);
+
+ X = NewCodeEntry (OP65_LDX, L[7]->AM, L[7]->Arg, 0, L[7]->LI);
+ CS_InsertEntry (S, X, I+12);
+
+ X = NewCodeEntry (OP65_LDA, L[8]->AM, L[8]->Arg, 0, L[8]->LI);
+ CS_InsertEntry (S, X, I+13);
+
+ Label = memcpy (xmalloc (Len-2), L[0]->Arg+2, Len-3);
+ Label[Len-3] = '\0';
+ X = NewCodeEntry (OP65_STA, AM65_ABSY, Label, 0, L[10]->LI);
+ CS_InsertEntry (S, X, I+14);
+ xfree (Label);
+
+ /* Remove the old code */
+ CS_DelEntries (S, I, 11);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+/*****************************************************************************/
+/* Optimize loads through pointers */
+/*****************************************************************************/
+
+
+
+static unsigned OptPtrLoad1 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * clc
+ * adc xxx
+ * tay
+ * txa
+ * adc yyy
+ * tax
+ * tya
+ * ldy
+ * jsr ldauidx
+ *
+ * and replace it by:
+ *
+ * clc
+ * adc xxx
+ * sta ptr1
+ * txa
+ * adc yyy
+ * sta ptr1+1
+ * ldy
+ * ldx #$00
+ * lda (ptr1),y
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* L[9];
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_CLC &&
+ CS_GetEntries (S, L+1, I+1, 8) &&
+ L[1]->OPC == OP65_ADC &&
+ L[2]->OPC == OP65_TAY &&
+ L[3]->OPC == OP65_TXA &&
+ L[4]->OPC == OP65_ADC &&
+ L[5]->OPC == OP65_TAX &&
+ L[6]->OPC == OP65_TYA &&
+ L[7]->OPC == OP65_LDY &&
+ CE_IsCallTo (L[8], "ldauidx") &&
+ !CS_RangeHasLabel (S, I+1, 8)) {
+
+ CodeEntry* X;
+ CodeEntry* P;
+
+ /* Track the insertion point */
+ unsigned IP = I+2;
+
+ /* sta ptr1 */
+ X = NewCodeEntry (OP65_STA, AM65_ZP, "ptr1", 0, L[2]->LI);
+ CS_InsertEntry (S, X, IP++);
+
+ /* If the instruction before the clc is a ldx, replace the
+ * txa by an lda with the same location of the ldx. Otherwise
+ * transfer the value in X to A.
+ */
+ if ((P = CS_GetPrevEntry (S, I)) != 0 &&
+ P->OPC == OP65_LDX &&
+ !CE_HasLabel (P)) {
+ X = NewCodeEntry (OP65_LDA, P->AM, P->Arg, 0, P->LI);
+ } else {
+ X = NewCodeEntry (OP65_TXA, AM65_IMP, 0, 0, L[3]->LI);
+ }
+ CS_InsertEntry (S, X, IP++);
+
+ /* adc yyy */
+ X = NewCodeEntry (OP65_ADC, L[4]->AM, L[4]->Arg, 0, L[4]->LI);
+ CS_InsertEntry (S, X, IP++);
+
+ /* sta ptr1+1 */
+ X = NewCodeEntry (OP65_STA, AM65_ZP, "ptr1+1", 0, L[5]->LI);
+ CS_InsertEntry (S, X, IP++);
+
+ /* ldy ... */
+ X = NewCodeEntry (OP65_LDY, L[7]->AM, L[7]->Arg, 0, L[7]->LI);
+ CS_InsertEntry (S, X, IP++);
+
+ /* ldx #$00 */
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[8]->LI);
+ CS_InsertEntry (S, X, IP++);
+
+ /* lda (ptr1),y */
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, "ptr1", 0, L[8]->LI);
+ CS_InsertEntry (S, X, IP++);
+
+ /* Remove the old instructions */
+ CS_DelEntries (S, IP, 7);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+static unsigned OptPtrLoad2 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * adc xxx
+ * pha
+ * txa
+ * iny
+ * adc yyy
+ * tax
+ * pla
+ * ldy
+ * jsr ldauidx
+ *
+ * and replace it by:
+ *
+ * adc xxx
+ * sta ptr1
+ * txa
+ * iny
+ * adc yyy
+ * sta ptr1+1
+ * ldy
+ * ldx #$00
+ * lda (ptr1),y
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* L[9];
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_ADC &&
+ CS_GetEntries (S, L+1, I+1, 8) &&
+ L[1]->OPC == OP65_PHA &&
+ L[2]->OPC == OP65_TXA &&
+ L[3]->OPC == OP65_INY &&
+ L[4]->OPC == OP65_ADC &&
+ L[5]->OPC == OP65_TAX &&
+ L[6]->OPC == OP65_PLA &&
+ L[7]->OPC == OP65_LDY &&
+ CE_IsCallTo (L[8], "ldauidx") &&
+ !CS_RangeHasLabel (S, I+1, 8)) {
+
+ CodeEntry* X;
+
+ /* Store the low byte and remove the PHA instead */
+ X = NewCodeEntry (OP65_STA, AM65_ZP, "ptr1", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+1);
+
+ /* Store the high byte */
+ X = NewCodeEntry (OP65_STA, AM65_ZP, "ptr1+1", 0, L[4]->LI);
+ CS_InsertEntry (S, X, I+6);
+
+ /* Load high and low byte */
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[6]->LI);
+ CS_InsertEntry (S, X, I+10);
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, "ptr1", 0, L[6]->LI);
+ CS_InsertEntry (S, X, I+11);
+
+ /* Delete the old code */
+ CS_DelEntry (S, I+12); /* jsr ldauidx */
+ CS_DelEntry (S, I+8); /* pla */
+ CS_DelEntry (S, I+7); /* tax */
+ CS_DelEntry (S, I+2); /* pha */
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+static unsigned OptPtrLoad3 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * lda #<(label+0)
+ * ldx #>(label+0)
+ * clc
+ * adc xxx
+ * bcc L
+ * inx
+ * L: ldy #$00
+ * jsr ldauidx
+ *
+ * and replace it by:
+ *
+ * ldy xxx
+ * ldx #$00
+ * lda label,y
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* L[8];
+ unsigned Len;
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDA &&
+ L[0]->AM == AM65_IMM &&
+ CS_GetEntries (S, L+1, I+1, 7) &&
+ L[1]->OPC == OP65_LDX &&
+ L[1]->AM == AM65_IMM &&
+ L[2]->OPC == OP65_CLC &&
+ L[3]->OPC == OP65_ADC &&
+ (L[3]->AM == AM65_ABS || L[3]->AM == AM65_ZP) &&
+ (L[4]->OPC == OP65_BCC || L[4]->OPC == OP65_JCC) &&
+ L[4]->JumpTo != 0 &&
+ L[4]->JumpTo->Owner == L[6] &&
+ L[5]->OPC == OP65_INX &&
+ L[6]->OPC == OP65_LDY &&
+ CE_KnownImm (L[6]) &&
+ L[6]->Num == 0 &&
+ CE_IsCallTo (L[7], "ldauidx") &&
+ !CS_RangeHasLabel (S, I+1, 5) &&
+ !CE_HasLabel (L[7]) &&
+ /* Check the label last because this is quite costly */
+ (Len = strlen (L[0]->Arg)) > 3 &&
+ L[0]->Arg[0] == '<' &&
+ L[0]->Arg[1] == '(' &&
+ strlen (L[1]->Arg) == Len &&
+ L[1]->Arg[0] == '>' &&
+ memcmp (L[0]->Arg+1, L[1]->Arg+1, Len-1) == 0) {
+
+ CodeEntry* X;
+ char* Label;
+
+ /* We will create all the new stuff behind the current one so
+ * we keep the line references.
+ */
+ X = NewCodeEntry (OP65_LDY, L[3]->AM, L[3]->Arg, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+8);
+
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+9);
+
+ Label = memcpy (xmalloc (Len-2), L[0]->Arg+2, Len-3);
+ Label[Len-3] = '\0';
+ X = NewCodeEntry (OP65_LDA, AM65_ABSY, Label, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+10);
+ xfree (Label);
+
+ /* Remove the old code */
+ CS_DelEntries (S, I, 8);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+static unsigned OptPtrLoad4 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * lda #<(label+0)
+ * ldx #>(label+0)
+ * ldy #$xx
+ * clc
+ * adc (sp),y
+ * bcc L
+ * inx
+ * L: ldy #$00
+ * jsr ldauidx
+ *
+ * and replace it by:
+ *
+ * ldy #$xx
+ * lda (sp),y
+ * tay
+ * ldx #$00
+ * lda label,y
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* L[9];
+ unsigned Len;
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDA &&
+ L[0]->AM == AM65_IMM &&
+ CS_GetEntries (S, L+1, I+1, 8) &&
+ L[1]->OPC == OP65_LDX &&
+ L[1]->AM == AM65_IMM &&
+ !CE_HasLabel (L[1]) &&
+ L[2]->OPC == OP65_LDY &&
+ CE_KnownImm (L[2]) &&
+ !CE_HasLabel (L[2]) &&
+ L[3]->OPC == OP65_CLC &&
+ !CE_HasLabel (L[3]) &&
+ L[4]->OPC == OP65_ADC &&
+ L[4]->AM == AM65_ZP_INDY &&
+ !CE_HasLabel (L[4]) &&
+ (L[5]->OPC == OP65_BCC || L[5]->OPC == OP65_JCC) &&
+ L[5]->JumpTo != 0 &&
+ L[5]->JumpTo->Owner == L[7] &&
+ !CE_HasLabel (L[5]) &&
+ L[6]->OPC == OP65_INX &&
+ !CE_HasLabel (L[6]) &&
+ L[7]->OPC == OP65_LDY &&
+ CE_KnownImm (L[7]) &&
+ L[7]->Num == 0 &&
+ CE_IsCallTo (L[8], "ldauidx") &&
+ !CE_HasLabel (L[8]) &&
+ /* Check the label last because this is quite costly */
+ (Len = strlen (L[0]->Arg)) > 3 &&
+ L[0]->Arg[0] == '<' &&
+ L[0]->Arg[1] == '(' &&
+ strlen (L[1]->Arg) == Len &&
+ L[1]->Arg[0] == '>' &&
+ memcmp (L[0]->Arg+1, L[1]->Arg+1, Len-1) == 0) {
+
+ CodeEntry* X;
+ char* Label;
+
+ /* Add the lda */
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, L[4]->Arg, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+3);
+
+ /* Add the tay */
+ X = NewCodeEntry (OP65_TAY, AM65_IMP, 0, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+4);
+
+ /* Add the ldx */
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+5);
+
+ /* Add the lda */
+ Label = memcpy (xmalloc (Len-2), L[0]->Arg+2, Len-3);
+ Label[Len-3] = '\0';
+ X = NewCodeEntry (OP65_LDA, AM65_ABSY, Label, 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+6);
+ xfree (Label);
+
+ /* Remove the old code */
+ CS_DelEntries (S, I, 2);
+ CS_DelEntries (S, I+5, 6);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+static unsigned OptPtrLoad5 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * lda regbank+n
+ * ldx regbank+n+1
+ * sta regsave
+ * stx regsave+1
+ * clc
+ * adc #$01
+ * bcc L0005
+ * inx
+ * L: sta regbank+n
+ * stx regbank+n+1
+ * lda regsave
+ * ldx regsave+1
+ * ldy #$00
+ * jsr ldauidx
+ *
+ * and replace it by:
+ *
+ * ldy #$00
+ * ldx #$00
+ * lda (regbank+n),y
+ * inc regbank+n
+ * bne L1
+ * inc regbank+n+1
+ * L1: tay <- only if flags are used
+ *
+ * This function must execute before OptPtrLoad5!
+ *
+ */
+{
+ unsigned Changes = 0;
+
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* L[15];
+ unsigned Len;
+
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDA &&
+ L[0]->AM == AM65_ZP &&
+ strncmp (L[0]->Arg, "regbank+", 8) == 0 &&
+ (Len = strlen (L[0]->Arg)) > 0 &&
+ CS_GetEntries (S, L+1, I+1, 14) &&
+ !CS_RangeHasLabel (S, I+1, 7) &&
+ !CS_RangeHasLabel (S, I+9, 5) &&
+ L[1]->OPC == OP65_LDX &&
+ L[1]->AM == AM65_ZP &&
+ strncmp (L[1]->Arg, L[0]->Arg, Len) == 0 &&
+ strcmp (L[1]->Arg+Len, "+1") == 0 &&
+ L[2]->OPC == OP65_STA &&
+ L[2]->AM == AM65_ZP &&
+ strcmp (L[2]->Arg, "regsave") == 0 &&
+ L[3]->OPC == OP65_STX &&
+ L[3]->AM == AM65_ZP &&
+ strcmp (L[3]->Arg, "regsave+1") == 0 &&
+ L[4]->OPC == OP65_CLC &&
+ L[5]->OPC == OP65_ADC &&
+ CE_KnownImm (L[5]) &&
+ L[5]->Num == 1 &&
+ L[6]->OPC == OP65_BCC &&
+ L[6]->JumpTo != 0 &&
+ L[6]->JumpTo->Owner == L[8] &&
+ L[7]->OPC == OP65_INX &&
+ L[8]->OPC == OP65_STA &&
+ L[8]->AM == AM65_ZP &&
+ strcmp (L[8]->Arg, L[0]->Arg) == 0 &&
+ L[9]->OPC == OP65_STX &&
+ L[9]->AM == AM65_ZP &&
+ strcmp (L[9]->Arg, L[1]->Arg) == 0 &&
+ L[10]->OPC == OP65_LDA &&
+ L[10]->AM == AM65_ZP &&
+ strcmp (L[10]->Arg, "regsave") == 0 &&
+ L[11]->OPC == OP65_LDX &&
+ L[11]->AM == AM65_ZP &&
+ strcmp (L[11]->Arg, "regsave+1") == 0 &&
+ L[12]->OPC == OP65_LDY &&
+ CE_KnownImm (L[12]) &&
+ CE_IsCallTo (L[13], "ldauidx")) {
+
+ CodeEntry* X;
+ CodeLabel* Label;
+
+ /* Check if the instruction following the sequence uses the flags
+ * set by the load. If so, insert a test of the value in the
+ * accumulator.
+ */
+ if (CE_UseLoadFlags (L[14])) {
+ X = NewCodeEntry (OP65_TAY, AM65_IMP, 0, 0, L[13]->LI);
+ CS_InsertEntry (S, X, I+14);
+ }
+
+ /* Attach a label to L[14]. This may be either the just inserted
+ * instruction, or the one following the sequence.
+ */
+ Label = CS_GenLabel (S, L[14]);
+
+ /* ldy #$xx */
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, L[12]->Arg, 0, L[12]->LI);
+ CS_InsertEntry (S, X, I+14);
+
+ /* ldx #$xx */
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[13]->LI);
+ CS_InsertEntry (S, X, I+15);
+
+ /* lda (regbank+n),y */
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, L[0]->Arg, 0, L[13]->LI);
+ CS_InsertEntry (S, X, I+16);
+
+ /* inc regbank+n */
+ X = NewCodeEntry (OP65_INC, AM65_ZP, L[0]->Arg, 0, L[5]->LI);
+ CS_InsertEntry (S, X, I+17);
+
+ /* bne ... */
+ X = NewCodeEntry (OP65_BNE, AM65_BRA, Label->Name, Label, L[6]->LI);
+ CS_InsertEntry (S, X, I+18);
+
+ /* inc regbank+n+1 */
+ X = NewCodeEntry (OP65_INC, AM65_ZP, L[1]->Arg, 0, L[7]->LI);
+ CS_InsertEntry (S, X, I+19);
+
+ /* Delete the old code */
+ CS_DelEntries (S, I, 14);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+ }
-/*****************************************************************************/
-/* Helper functions */
-/*****************************************************************************/
+ /* Return the number of changes made */
+ return Changes;
+}
-static cmp_t FindCmpCond (const char* Suffix)
-/* Map a condition suffix to a code. Return the code or CMP_INV on failure */
+static unsigned OptPtrLoad6 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * lda zp
+ * ldx zp+1
+ * ldy xx
+ * jsr ldauidx
+ *
+ * and replace it by:
+ *
+ * ldy xx
+ * ldx #$00
+ * lda (zp),y
+ */
{
- int I;
+ unsigned Changes = 0;
- /* Linear search */
- for (I = 0; I < sizeof (CmpSuffixTab) / sizeof (CmpSuffixTab [0]); ++I) {
- if (strcmp (Suffix, CmpSuffixTab [I]) == 0) {
- /* Found */
- return I;
- }
- }
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
- /* Not found */
- return CMP_INV;
-}
+ CodeEntry* L[4];
+ unsigned Len;
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDA && L[0]->AM == AM65_ZP &&
+ CS_GetEntries (S, L+1, I+1, 3) &&
+ !CS_RangeHasLabel (S, I+1, 3) &&
+ L[1]->OPC == OP65_LDX && L[1]->AM == AM65_ZP &&
+ (Len = strlen (L[0]->Arg)) > 0 &&
+ strncmp (L[0]->Arg, L[1]->Arg, Len) == 0 &&
+ strcmp (L[1]->Arg + Len, "+1") == 0 &&
+ L[2]->OPC == OP65_LDY &&
+ CE_IsCallTo (L[3], "ldauidx")) {
-/*****************************************************************************/
-/* Remove calls to the bool transformer subroutines */
-/*****************************************************************************/
+ CodeEntry* X;
+
+ /* ldx #$00 */
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+3);
+
+ /* lda (zp),y */
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, L[0]->Arg, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+4);
+
+ /* Remove the old code */
+ CS_DelEntry (S, I+5);
+ CS_DelEntries (S, I, 2);
+
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Return the number of changes made */
+ return Changes;
+}
-static unsigned OptBoolTransforms (CodeSeg* S)
-/* Try to remove the call to boolean transformer routines where the call is
- * not really needed.
+static unsigned OptPtrLoad7 (CodeSeg* S)
+/* Search for the sequence:
+ *
+ * lda zp
+ * ldx zp+1
+ * ldy xx
+ * jsr ldaxidx
+ *
+ * and replace it by:
+ *
+ * ldy xx
+ * lda (zp),y
+ * tax
+ * dey
+ * lda (zp),y
*/
{
unsigned Changes = 0;
- unsigned I;
-
- /* Get the number of entries, bail out if we have not enough */
- unsigned Count = GetCodeEntryCount (S);
- if (Count < 2) {
- return 0;
- }
/* Walk over the entries */
- I = 0;
- while (I < Count-1) {
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ CodeEntry* L[4];
+ unsigned Len;
/* Get next entry */
- CodeEntry* E = GetCodeEntry (S, I);
+ L[0] = CS_GetEntry (S, I);
- /* Check for a boolean transformer */
- if (E->OPC == OPC_JSR && strncmp (E->Arg, "bool", 4) == 0) {
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDA && L[0]->AM == AM65_ZP &&
+ CS_GetEntries (S, L+1, I+1, 3) &&
+ !CS_RangeHasLabel (S, I+1, 3) &&
+ L[1]->OPC == OP65_LDX && L[1]->AM == AM65_ZP &&
+ (Len = strlen (L[0]->Arg)) > 0 &&
+ strncmp (L[0]->Arg, L[1]->Arg, Len) == 0 &&
+ strcmp (L[1]->Arg + Len, "+1") == 0 &&
+ L[2]->OPC == OP65_LDY &&
+ CE_IsCallTo (L[3], "ldaxidx")) {
- cmp_t Cond;
+ CodeEntry* X;
- /* Get the next entry */
- CodeEntry* N = GetCodeEntry (S, I+1);
+ /* lda (zp),y */
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, L[0]->Arg, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+4);
- /* Check if this is a conditional branch */
- if ((N->Info & OF_CBRA) == 0) {
- /* No conditional branch, bail out */
- goto NextEntry;
- }
+ /* tax */
+ X = NewCodeEntry (OP65_TAX, AM65_IMP, 0, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+5);
- /* Make the boolean transformer unnecessary by changing the
- * the conditional jump to evaluate the condition flags that
- * are set after the compare directly. Note: jeq jumps if
- * the condition is not met, jne jumps if the condition is met.
- */
- Cond = FindCmpCond (E->Arg + 4);
- if (Cond == CMP_INV) {
- /* Unknown function */
- goto NextEntry;
- }
+ /* dey */
+ X = NewCodeEntry (OP65_DEY, AM65_IMP, 0, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+6);
+
+ /* lda (zp),y */
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, L[0]->Arg, 0, L[3]->LI);
+ CS_InsertEntry (S, X, I+7);
+
+ /* Remove the old code */
+ CS_DelEntry (S, I+3);
+ CS_DelEntries (S, I, 2);
- /* Invert the code if we jump on condition not met. */
- if (GetBranchCond (N->OPC) == BC_EQ) {
- /* Jumps if condition false, invert condition */
- Cond = CmpInvertTab [Cond];
- }
+ /* Remember, we had changes */
+ ++Changes;
+
+ }
- /* Check if we can replace the code by something better */
- switch (Cond) {
+ /* Next entry */
+ ++I;
- case CMP_EQ:
- ReplaceOPC (N, OPC_JEQ);
- break;
+ }
- case CMP_NE:
- ReplaceOPC (N, OPC_JNE);
- break;
+ /* Return the number of changes made */
+ return Changes;
+}
- case CMP_GT:
- /* Not now ### */
- goto NextEntry;
- case CMP_GE:
- ReplaceOPC (N, OPC_JPL);
- break;
- case CMP_LT:
- ReplaceOPC (N, OPC_JMI);
- break;
+static unsigned OptPtrLoad8 (CodeSeg* S)
+/* Search for the sequence
+ *
+ * ldy ...
+ * jsr ldauidx
+ *
+ * and replace it by:
+ *
+ * ldy ...
+ * stx ptr1+1
+ * sta ptr1
+ * ldx #$00
+ * lda (ptr1),y
+ *
+ * This step must be executed *after* OptPtrLoad1!
+ */
+{
+ unsigned Changes = 0;
- case CMP_LE:
- /* Not now ### */
- goto NextEntry;
+ /* Walk over the entries */
+ unsigned I = 0;
+ while (I < CS_GetEntryCount (S)) {
- case CMP_UGT:
- /* Not now ### */
- goto NextEntry;
+ CodeEntry* L[2];
- case CMP_UGE:
- ReplaceOPC (N, OPC_JCS);
- break;
+ /* Get next entry */
+ L[0] = CS_GetEntry (S, I);
- case CMP_ULT:
- ReplaceOPC (N, OPC_JCC);
- break;
+ /* Check for the sequence */
+ if (L[0]->OPC == OP65_LDY &&
+ CS_GetEntries (S, L+1, I+1, 1) &&
+ CE_IsCallTo (L[1], "ldauidx") &&
+ !CE_HasLabel (L[1])) {
- case CMP_ULE:
- /* Not now ### */
- goto NextEntry;
+ CodeEntry* X;
- default:
- Internal ("Unknown jump condition: %d", Cond);
+ /* Store the high byte */
+ X = NewCodeEntry (OP65_STA, AM65_ZP, "ptr1", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+1);
- }
+ /* Store the low byte */
+ X = NewCodeEntry (OP65_STX, AM65_ZP, "ptr1+1", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+2);
- /* Remove the call to the bool transformer */
- DelCodeEntry (S, I);
- --Count;
+ /* Delete the call to ldauidx */
+ CS_DelEntry (S, I+3);
+
+ /* Load the high and low byte */
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, "$00", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+3);
+ X = NewCodeEntry (OP65_LDA, AM65_ZP_INDY, "ptr1", 0, L[0]->LI);
+ CS_InsertEntry (S, X, I+4);
/* Remember, we had changes */
++Changes;
}
-NextEntry:
/* Next entry */
++I;
/*****************************************************************************/
-/* Code */
+/* Decouple operations */
+/*****************************************************************************/
+
+
+
+static unsigned OptDecouple (CodeSeg* S)
+/* Decouple operations, that is, do the following replacements:
+ *
+ * dex -> ldx #imm
+ * inx -> ldx #imm
+ * dey -> ldy #imm
+ * iny -> ldy #imm
+ * tax -> ldx #imm
+ * txa -> lda #imm
+ * tay -> ldy #imm
+ * tya -> lda #imm
+ * lda zp -> lda #imm
+ * ldx zp -> ldx #imm
+ * ldy zp -> ldy #imm
+ *
+ * Provided that the register values are known of course.
+ */
+{
+ unsigned Changes = 0;
+ unsigned I;
+
+ /* Generate register info for the following step */
+ CS_GenRegInfo (S);
+
+ /* Walk over the entries */
+ I = 0;
+ while (I < CS_GetEntryCount (S)) {
+
+ const char* Arg;
+
+ /* Get next entry and it's input register values */
+ CodeEntry* E = CS_GetEntry (S, I);
+ const RegContents* In = &E->RI->In;
+
+ /* Assume we have no replacement */
+ CodeEntry* X = 0;
+
+ /* Check the instruction */
+ switch (E->OPC) {
+
+ case OP65_DEA:
+ if (RegValIsKnown (In->RegA)) {
+ Arg = MakeHexArg ((In->RegA - 1) & 0xFF);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_DEX:
+ if (RegValIsKnown (In->RegX)) {
+ Arg = MakeHexArg ((In->RegX - 1) & 0xFF);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_DEY:
+ if (RegValIsKnown (In->RegY)) {
+ Arg = MakeHexArg ((In->RegY - 1) & 0xFF);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_INA:
+ if (RegValIsKnown (In->RegA)) {
+ Arg = MakeHexArg ((In->RegA + 1) & 0xFF);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_INX:
+ if (RegValIsKnown (In->RegX)) {
+ Arg = MakeHexArg ((In->RegX + 1) & 0xFF);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_INY:
+ if (RegValIsKnown (In->RegY)) {
+ Arg = MakeHexArg ((In->RegY + 1) & 0xFF);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_LDA:
+ if (E->AM == AM65_ZP) {
+ switch (GetKnownReg (E->Use & REG_ZP, In)) {
+ case REG_TMP1:
+ Arg = MakeHexArg (In->Tmp1);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_PTR1_LO:
+ Arg = MakeHexArg (In->Ptr1Lo);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_PTR1_HI:
+ Arg = MakeHexArg (In->Ptr1Hi);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_SREG_LO:
+ Arg = MakeHexArg (In->SRegLo);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_SREG_HI:
+ Arg = MakeHexArg (In->SRegHi);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ break;
+ }
+ }
+ break;
+
+ case OP65_LDX:
+ if (E->AM == AM65_ZP) {
+ switch (GetKnownReg (E->Use & REG_ZP, In)) {
+ case REG_TMP1:
+ Arg = MakeHexArg (In->Tmp1);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_PTR1_LO:
+ Arg = MakeHexArg (In->Ptr1Lo);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_PTR1_HI:
+ Arg = MakeHexArg (In->Ptr1Hi);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_SREG_LO:
+ Arg = MakeHexArg (In->SRegLo);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_SREG_HI:
+ Arg = MakeHexArg (In->SRegHi);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ break;
+ }
+ }
+ break;
+
+ case OP65_LDY:
+ if (E->AM == AM65_ZP) {
+ switch (GetKnownReg (E->Use, In)) {
+ case REG_TMP1:
+ Arg = MakeHexArg (In->Tmp1);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_PTR1_LO:
+ Arg = MakeHexArg (In->Ptr1Lo);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_PTR1_HI:
+ Arg = MakeHexArg (In->Ptr1Hi);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_SREG_LO:
+ Arg = MakeHexArg (In->SRegLo);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ break;
+
+ case REG_SREG_HI:
+ Arg = MakeHexArg (In->SRegHi);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ break;
+ }
+ }
+ break;
+
+ case OP65_TAX:
+ if (E->RI->In.RegA >= 0) {
+ Arg = MakeHexArg (In->RegA);
+ X = NewCodeEntry (OP65_LDX, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_TAY:
+ if (E->RI->In.RegA >= 0) {
+ Arg = MakeHexArg (In->RegA);
+ X = NewCodeEntry (OP65_LDY, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_TXA:
+ if (E->RI->In.RegX >= 0) {
+ Arg = MakeHexArg (In->RegX);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ case OP65_TYA:
+ if (E->RI->In.RegY >= 0) {
+ Arg = MakeHexArg (In->RegY);
+ X = NewCodeEntry (OP65_LDA, AM65_IMM, Arg, 0, E->LI);
+ }
+ break;
+
+ default:
+ /* Avoid gcc warnings */
+ break;
+
+ }
+
+ /* Insert the replacement if we have one */
+ if (X) {
+ CS_InsertEntry (S, X, I+1);
+ CS_DelEntry (S, I);
+ ++Changes;
+ }
+
+ /* Next entry */
+ ++I;
+
+ }
+
+ /* Free register info */
+ CS_FreeRegInfo (S);
+
+ /* Return the number of changes made */
+ return Changes;
+}
+
+
+
+/*****************************************************************************/
+/* struct OptFunc */
/*****************************************************************************/
-/* Table with all the optimization functions */
typedef struct OptFunc OptFunc;
struct OptFunc {
- unsigned (*Func) (CodeSeg*);/* Optimizer function */
- const char* Name; /* Name of optimizer step */
- char Disabled; /* True if pass disabled */
+ unsigned (*Func) (CodeSeg*); /* Optimizer function */
+ const char* Name; /* Name of the function/group */
+ unsigned CodeSizeFactor; /* Code size factor for this opt func */
+ unsigned long TotalRuns; /* Total number of runs */
+ unsigned long LastRuns; /* Last number of runs */
+ unsigned long TotalChanges; /* Total number of changes */
+ unsigned long LastChanges; /* Last number of changes */
+ char Disabled; /* True if function disabled */
};
-/* Table with optimizer steps - are called in this order */
-static OptFunc OptFuncs [] = {
- /* Optimize jump cascades */
- { OptJumpCascades, "OptJumpCascades", 0 },
- /* Remove dead jumps */
- { OptDeadJumps, "OptDeadJumps", 0 },
- /* Change jsr/rts to jmp */
- { OptRTS, "OptRTS", 0 },
- /* Remove dead code */
- { OptDeadCode, "OptDeadCode", 0 },
- /* Optimize jump targets */
- { OptJumpTarget, "OptJumpTarget", 0 },
- /* Optimize conditional branches */
- { OptCondBranches, "OptCondBranches", 0 },
- /* Remove calls to the bool transformer subroutines */
- { OptBoolTransforms, "OptBoolTransforms", 0 },
- /* Remove unused loads */
- { OptUnusedLoads, "OptUnusedLoads", 0 },
+/*****************************************************************************/
+/* Code */
+/*****************************************************************************/
+
+
+
+/* A list of all the function descriptions */
+static OptFunc DOpt65C02BitOps = { Opt65C02BitOps, "Opt65C02BitOps", 66, 0, 0, 0, 0, 0 };
+static OptFunc DOpt65C02Ind = { Opt65C02Ind, "Opt65C02Ind", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOpt65C02Stores = { Opt65C02Stores, "Opt65C02Stores", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptAdd1 = { OptAdd1, "OptAdd1", 125, 0, 0, 0, 0, 0 };
+static OptFunc DOptAdd2 = { OptAdd2, "OptAdd2", 200, 0, 0, 0, 0, 0 };
+static OptFunc DOptAdd3 = { OptAdd3, "OptAdd3", 90, 0, 0, 0, 0, 0 };
+static OptFunc DOptAdd4 = { OptAdd4, "OptAdd4", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptAdd5 = { OptAdd5, "OptAdd5", 40, 0, 0, 0, 0, 0 };
+static OptFunc DOptBoolTrans = { OptBoolTrans, "OptBoolTrans", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptBranchDist = { OptBranchDist, "OptBranchDist", 0, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp1 = { OptCmp1, "OptCmp1", 42, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp2 = { OptCmp2, "OptCmp2", 85, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp3 = { OptCmp3, "OptCmp3", 75, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp4 = { OptCmp4, "OptCmp4", 75, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp5 = { OptCmp5, "OptCmp5", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp6 = { OptCmp6, "OptCmp6", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp7 = { OptCmp7, "OptCmp7", 85, 0, 0, 0, 0, 0 };
+static OptFunc DOptCmp8 = { OptCmp8, "OptCmp8", 50, 0, 0, 0, 0, 0 };
+static OptFunc DOptCondBranches = { OptCondBranches, "OptCondBranches", 80, 0, 0, 0, 0, 0 };
+static OptFunc DOptDeadCode = { OptDeadCode, "OptDeadCode", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptDeadJumps = { OptDeadJumps, "OptDeadJumps", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptDecouple = { OptDecouple, "OptDecouple", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptDupLoads = { OptDupLoads, "OptDupLoads", 0, 0, 0, 0, 0, 0 };
+static OptFunc DOptJumpCascades = { OptJumpCascades, "OptJumpCascades", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptJumpTarget = { OptJumpTarget, "OptJumpTarget", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptLoad1 = { OptLoad1, "OptLoad1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptRTS = { OptRTS, "OptRTS", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptRTSJumps1 = { OptRTSJumps1, "OptRTSJumps1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptRTSJumps2 = { OptRTSJumps2, "OptRTSJumps2", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptNegA1 = { OptNegA1, "OptNegA1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptNegA2 = { OptNegA2, "OptNegA2", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptNegAX1 = { OptNegAX1, "OptNegAX1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptNegAX2 = { OptNegAX2, "OptNegAX2", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptNegAX3 = { OptNegAX3, "OptNegAX3", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptNegAX4 = { OptNegAX4, "OptNegAX4", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPrecalc = { OptPrecalc, "OptPrecalc", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad1 = { OptPtrLoad1, "OptPtrLoad1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad2 = { OptPtrLoad2, "OptPtrLoad2", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad3 = { OptPtrLoad3, "OptPtrLoad3", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad4 = { OptPtrLoad4, "OptPtrLoad4", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad5 = { OptPtrLoad5, "OptPtrLoad5", 50, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad6 = { OptPtrLoad6, "OptPtrLoad6", 65, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad7 = { OptPtrLoad7, "OptPtrLoad7", 86, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrLoad8 = { OptPtrLoad8, "OptPtrLoad8", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrStore1 = { OptPtrStore1, "OptPtrStore1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptPtrStore2 = { OptPtrStore2, "OptPtrStore2", 40, 0, 0, 0, 0, 0 };
+static OptFunc DOptPush1 = { OptPush1, "OptPush1", 65, 0, 0, 0, 0, 0 };
+static OptFunc DOptPush2 = { OptPush2, "OptPush2", 50, 0, 0, 0, 0, 0 };
+static OptFunc DOptPushPop = { OptPushPop, "OptPushPop", 0, 0, 0, 0, 0, 0 };
+static OptFunc DOptShift1 = { OptShift1, "OptShift1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptShift2 = { OptShift2, "OptShift2", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptShift3 = { OptShift3, "OptShift3", 110, 0, 0, 0, 0, 0 };
+static OptFunc DOptSize1 = { OptSize1, "OptSize1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptSize2 = { OptSize2, "OptSize2", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptStackOps = { OptStackOps, "OptStackOps", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptStore1 = { OptStore1, "OptStore1", 70, 0, 0, 0, 0, 0 };
+static OptFunc DOptStore2 = { OptStore2, "OptStore2", 220, 0, 0, 0, 0, 0 };
+static OptFunc DOptStore3 = { OptStore3, "OptStore3", 120, 0, 0, 0, 0, 0 };
+static OptFunc DOptStore4 = { OptStore4, "OptStore4", 50, 0, 0, 0, 0, 0 };
+static OptFunc DOptStoreLoad = { OptStoreLoad, "OptStoreLoad", 0, 0, 0, 0, 0, 0 };
+static OptFunc DOptSub1 = { OptSub1, "OptSub1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptSub2 = { OptSub2, "OptSub2", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptTest1 = { OptTest1, "OptTest1", 100, 0, 0, 0, 0, 0 };
+static OptFunc DOptTransfers1 = { OptTransfers1, "OptTransfers1", 0, 0, 0, 0, 0, 0 };
+static OptFunc DOptTransfers2 = { OptTransfers2, "OptTransfers2", 60, 0, 0, 0, 0, 0 };
+static OptFunc DOptUnusedLoads = { OptUnusedLoads, "OptUnusedLoads", 0, 0, 0, 0, 0, 0 };
+static OptFunc DOptUnusedStores = { OptUnusedStores, "OptUnusedStores", 0, 0, 0, 0, 0, 0 };
+
+
+/* Table containing all the steps in alphabetical order */
+static OptFunc* OptFuncs[] = {
+ &DOpt65C02BitOps,
+ &DOpt65C02Ind,
+ &DOpt65C02Stores,
+ &DOptAdd1,
+ &DOptAdd2,
+ &DOptAdd3,
+ &DOptAdd4,
+ &DOptAdd5,
+ &DOptBoolTrans,
+ &DOptBranchDist,
+ &DOptCmp1,
+ &DOptCmp2,
+ &DOptCmp3,
+ &DOptCmp4,
+ &DOptCmp5,
+ &DOptCmp6,
+ &DOptCmp7,
+ &DOptCmp8,
+ &DOptCondBranches,
+ &DOptDeadCode,
+ &DOptDeadJumps,
+ &DOptDecouple,
+ &DOptDupLoads,
+ &DOptJumpCascades,
+ &DOptJumpTarget,
+ &DOptLoad1,
+ &DOptNegA1,
+ &DOptNegA2,
+ &DOptNegAX1,
+ &DOptNegAX2,
+ &DOptNegAX3,
+ &DOptNegAX4,
+ &DOptPrecalc,
+ &DOptPtrLoad1,
+ &DOptPtrLoad2,
+ &DOptPtrLoad3,
+ &DOptPtrLoad4,
+ &DOptPtrLoad5,
+ &DOptPtrLoad6,
+ &DOptPtrLoad7,
+ &DOptPtrLoad8,
+ &DOptPtrStore1,
+ &DOptPtrStore2,
+ &DOptPush1,
+ &DOptPush2,
+ &DOptPushPop,
+ &DOptRTS,
+ &DOptRTSJumps1,
+ &DOptRTSJumps2,
+ &DOptShift1,
+ &DOptShift2,
+ &DOptShift3,
+ &DOptSize1,
+ &DOptSize2,
+ &DOptStackOps,
+ &DOptStore1,
+ &DOptStore2,
+ &DOptStore3,
+ &DOptStore4,
+ &DOptStoreLoad,
+ &DOptSub1,
+ &DOptSub2,
+ &DOptTest1,
+ &DOptTransfers1,
+ &DOptTransfers2,
+ &DOptUnusedLoads,
+ &DOptUnusedStores,
};
+#define OPTFUNC_COUNT (sizeof(OptFuncs) / sizeof(OptFuncs[0]))
+
+
+
+static int CmpOptStep (const void* Key, const void* Func)
+/* Compare function for bsearch */
+{
+ return strcmp (Key, (*(const OptFunc**)Func)->Name);
+}
+
+
+
+static OptFunc* FindOptFunc (const char* Name)
+/* Find an optimizer step by name in the table and return a pointer. Return
+ * NULL if no such step is found.
+ */
+{
+ /* Search for the function in the list */
+ OptFunc** O = bsearch (Name, OptFuncs, OPTFUNC_COUNT, sizeof (OptFuncs[0]), CmpOptStep);
+ return O? *O : 0;
+}
-static OptFunc* FindOptStep (const char* Name)
+static OptFunc* GetOptFunc (const char* Name)
/* Find an optimizer step by name in the table and return a pointer. Print an
* error and call AbEnd if not found.
*/
{
- unsigned I;
-
- /* Run all optimization steps */
- for (I = 0; I < sizeof(OptFuncs)/sizeof(OptFuncs[0]); ++I) {
- if (strcmp (OptFuncs[I].Name, Name) == 0) {
- /* Found */
- return OptFuncs+I;
- }
+ /* Search for the function in the list */
+ OptFunc* F = FindOptFunc (Name);
+ if (F == 0) {
+ /* Not found */
+ AbEnd ("Optimization step `%s' not found", Name);
}
-
- /* Not found */
- AbEnd ("Optimization step `%s' not found", Name);
- return 0;
+ return F;
}
void DisableOpt (const char* Name)
/* Disable the optimization with the given name */
{
- OptFunc* F = FindOptStep (Name);
- F->Disabled = 1;
+ if (strcmp (Name, "any") == 0) {
+ unsigned I;
+ for (I = 0; I < OPTFUNC_COUNT; ++I) {
+ OptFuncs[I]->Disabled = 1;
+ }
+ } else {
+ GetOptFunc(Name)->Disabled = 1;
+ }
}
void EnableOpt (const char* Name)
/* Enable the optimization with the given name */
{
- OptFunc* F = FindOptStep (Name);
- F->Disabled = 0;
+ if (strcmp (Name, "any") == 0) {
+ unsigned I;
+ for (I = 0; I < OPTFUNC_COUNT; ++I) {
+ OptFuncs[I]->Disabled = 0;
+ }
+ } else {
+ GetOptFunc(Name)->Disabled = 0;
+ }
+}
+
+
+
+void ListOptSteps (FILE* F)
+/* List all optimization steps */
+{
+ unsigned I;
+ for (I = 0; I < OPTFUNC_COUNT; ++I) {
+ fprintf (F, "%s\n", OptFuncs[I]->Name);
+ }
+}
+
+
+
+static void ReadOptStats (const char* Name)
+/* Read the optimizer statistics file */
+{
+ char Buf [256];
+ unsigned Lines;
+
+ /* Try to open the file */
+ FILE* F = fopen (Name, "r");
+ if (F == 0) {
+ /* Ignore the error */
+ return;
+ }
+
+ /* Read and parse the lines */
+ Lines = 0;
+ while (fgets (Buf, sizeof (Buf), F) != 0) {
+
+ char* B;
+ unsigned Len;
+ OptFunc* Func;
+
+ /* Fields */
+ char Name[32];
+ unsigned long TotalRuns;
+ unsigned long TotalChanges;
+
+ /* Count lines */
+ ++Lines;
+
+ /* Remove trailing white space including the line terminator */
+ B = Buf;
+ Len = strlen (B);
+ while (Len > 0 && IsSpace (B[Len-1])) {
+ --Len;
+ }
+ B[Len] = '\0';
+
+ /* Remove leading whitespace */
+ while (IsSpace (*B)) {
+ ++B;
+ }
+
+ /* Check for empty and comment lines */
+ if (*B == '\0' || *B == ';' || *B == '#') {
+ continue;
+ }
+
+ /* Parse the line */
+ if (sscanf (B, "%31s %lu %*u %lu %*u", Name, &TotalRuns, &TotalChanges) != 3) {
+ /* Syntax error */
+ continue;
+ }
+
+ /* Search for the optimizer step. */
+ Func = FindOptFunc (Name);
+ if (Func == 0) {
+ /* Not found */
+ continue;
+ }
+
+ /* Found the step, set the fields */
+ Func->TotalRuns = TotalRuns;
+ Func->TotalChanges = TotalChanges;
+
+ }
+
+ /* Close the file, ignore errors here. */
+ fclose (F);
+}
+
+
+
+static void WriteOptStats (const char* Name)
+/* Write the optimizer statistics file */
+{
+ unsigned I;
+
+ /* Try to open the file */
+ FILE* F = fopen (Name, "w");
+ if (F == 0) {
+ /* Ignore the error */
+ return;
+ }
+
+ /* Write a header */
+ fprintf (F,
+ "; Optimizer Total Last Total Last\n"
+ "; Step Runs Runs Chg Chg\n");
+
+
+ /* Write the data */
+ for (I = 0; I < OPTFUNC_COUNT; ++I) {
+ const OptFunc* O = OptFuncs[I];
+ fprintf (F,
+ "%-20s %10lu %10lu %10lu %10lu\n",
+ O->Name,
+ O->TotalRuns,
+ O->LastRuns,
+ O->TotalChanges,
+ O->LastChanges);
+ }
+
+ /* Close the file, ignore errors here. */
+ fclose (F);
+}
+
+
+
+static unsigned RunOptFunc (CodeSeg* S, OptFunc* F, unsigned Max)
+/* Run one optimizer function Max times or until there are no more changes */
+{
+ unsigned Changes, C;
+
+ /* Don't run the function if it is disabled or if it is prohibited by the
+ * code size factor
+ */
+ if (F->Disabled || F->CodeSizeFactor > S->CodeSizeFactor) {
+ return 0;
+ }
+
+ /* Run this until there are no more changes */
+ Changes = 0;
+ do {
+
+ /* Run the function */
+ C = F->Func (S);
+ Changes += C;
+
+ /* Do statistics */
+ ++F->TotalRuns;
+ ++F->LastRuns;
+ F->TotalChanges += C;
+ F->LastChanges += C;
+
+ } while (--Max && C > 0);
+
+ /* Return the number of changes */
+ return Changes;
+}
+
+
+
+static unsigned RunOptGroup1 (CodeSeg* S)
+/* Run the first group of optimization steps. These steps translate known
+ * patterns emitted by the code generator into more optimal patterns. Order
+ * of the steps is important, because some of the steps done earlier cover
+ * the same patterns as later steps as subpatterns.
+ */
+{
+ unsigned Changes = 0;
+
+ Changes += RunOptFunc (S, &DOptPtrStore1, 1);
+ Changes += RunOptFunc (S, &DOptPtrStore2, 1);
+ Changes += RunOptFunc (S, &DOptPtrLoad1, 1);
+ Changes += RunOptFunc (S, &DOptPtrLoad2, 1);
+ Changes += RunOptFunc (S, &DOptPtrLoad3, 1);
+ Changes += RunOptFunc (S, &DOptPtrLoad4, 1);
+ Changes += RunOptFunc (S, &DOptPtrLoad5, 1);
+ Changes += RunOptFunc (S, &DOptPtrLoad6, 1);
+ Changes += RunOptFunc (S, &DOptPtrLoad7, 1);
+ Changes += RunOptFunc (S, &DOptNegAX1, 1);
+ Changes += RunOptFunc (S, &DOptNegAX2, 1);
+ Changes += RunOptFunc (S, &DOptNegAX3, 1);
+ Changes += RunOptFunc (S, &DOptNegAX4, 1);
+ Changes += RunOptFunc (S, &DOptAdd1, 1);
+ Changes += RunOptFunc (S, &DOptAdd2, 1);
+ Changes += RunOptFunc (S, &DOptAdd3, 1);
+ Changes += RunOptFunc (S, &DOptStore4, 1);
+ Changes += RunOptFunc (S, &DOptShift1, 1);
+ Changes += RunOptFunc (S, &DOptShift2, 1);
+ Changes += RunOptFunc (S, &DOptShift3, 1);
+ Changes += RunOptFunc (S, &DOptStore1, 1);
+ Changes += RunOptFunc (S, &DOptStore2, 5);
+ Changes += RunOptFunc (S, &DOptStore3, 5);
+
+ /* Return the number of changes */
+ return Changes;
+}
+
+
+
+static unsigned RunOptGroup2 (CodeSeg* S)
+/* Run one group of optimization steps. This step involves just decoupling
+ * instructions by replacing them by instructions that do not depend on
+ * previous instructions. This makes it easier to find instructions that
+ * aren't used.
+ */
+{
+ unsigned Changes = 0;
+
+ Changes += RunOptFunc (S, &DOptDecouple, 1);
+
+ /* Return the number of changes */
+ return Changes;
+}
+
+
+
+static unsigned RunOptGroup3 (CodeSeg* S)
+/* Run one group of optimization steps. These steps depend on each other,
+ * that means that one step may allow another step to do additional work,
+ * so we will repeat the steps as long as we see any changes.
+ */
+{
+ unsigned Changes, C;
+
+ Changes = 0;
+ do {
+ C = 0;
+
+ C += RunOptFunc (S, &DOptPtrLoad8, 1);
+ C += RunOptFunc (S, &DOptNegA1, 1);
+ C += RunOptFunc (S, &DOptNegA2, 1);
+ C += RunOptFunc (S, &DOptSub1, 1);
+ C += RunOptFunc (S, &DOptSub2, 1);
+ C += RunOptFunc (S, &DOptAdd4, 1);
+ C += RunOptFunc (S, &DOptAdd5, 1);
+ C += RunOptFunc (S, &DOptStackOps, 1);
+ C += RunOptFunc (S, &DOptJumpCascades, 1);
+ C += RunOptFunc (S, &DOptDeadJumps, 1);
+ C += RunOptFunc (S, &DOptRTS, 1);
+ C += RunOptFunc (S, &DOptDeadCode, 1);
+ C += RunOptFunc (S, &DOptJumpTarget, 1);
+ C += RunOptFunc (S, &DOptCondBranches, 1);
+ C += RunOptFunc (S, &DOptRTSJumps1, 1);
+ C += RunOptFunc (S, &DOptBoolTrans, 1);
+ C += RunOptFunc (S, &DOptCmp1, 1);
+ C += RunOptFunc (S, &DOptCmp2, 1);
+ C += RunOptFunc (S, &DOptCmp3, 1);
+ C += RunOptFunc (S, &DOptCmp4, 1);
+ C += RunOptFunc (S, &DOptCmp5, 1);
+ C += RunOptFunc (S, &DOptCmp6, 1);
+ C += RunOptFunc (S, &DOptCmp7, 1);
+ C += RunOptFunc (S, &DOptCmp8, 1);
+ C += RunOptFunc (S, &DOptTest1, 1);
+ C += RunOptFunc (S, &DOptLoad1, 1);
+ C += RunOptFunc (S, &DOptUnusedLoads, 1);
+ C += RunOptFunc (S, &DOptUnusedStores, 1);
+ C += RunOptFunc (S, &DOptDupLoads, 1);
+ C += RunOptFunc (S, &DOptStoreLoad, 1);
+ C += RunOptFunc (S, &DOptTransfers1, 1);
+ C += RunOptFunc (S, &DOptPushPop, 1);
+ C += RunOptFunc (S, &DOptPrecalc, 1);
+
+ Changes += C;
+
+ } while (C);
+
+ /* Return the number of changes */
+ return Changes;
+}
+
+
+
+static unsigned RunOptGroup4 (CodeSeg* S)
+/* 65C02 specific optimizations. */
+{
+ unsigned Changes = 0;
+
+ if (CPUIsets[CPU] & CPU_ISET_65SC02) {
+ Changes += RunOptFunc (S, &DOpt65C02BitOps, 1);
+ Changes += RunOptFunc (S, &DOpt65C02Ind, 1);
+ Changes += RunOptFunc (S, &DOpt65C02Stores, 1);
+ if (Changes) {
+ /* The 65C02 replacement codes do often make the use of a register
+ * value unnecessary, so if we have changes, run another load
+ * removal pass.
+ */
+ Changes += RunOptFunc (S, &DOptUnusedLoads, 1);
+ }
+ }
+
+ /* Return the number of changes */
+ return Changes;
+}
+
+
+
+static unsigned RunOptGroup5 (CodeSeg* S)
+/* Run another round of pattern replacements. These are done late, since there
+ * may be better replacements before.
+ */
+{
+ unsigned Changes = 0;
+
+ Changes += RunOptFunc (S, &DOptPush1, 1);
+ Changes += RunOptFunc (S, &DOptPush2, 1);
+ Changes += RunOptFunc (S, &DOptUnusedLoads, 1);
+ Changes += RunOptFunc (S, &DOptTransfers2, 1);
+
+ /* Return the number of changes */
+ return Changes;
+}
+
+
+
+static unsigned RunOptGroup6 (CodeSeg* S)
+/* The last group of optimization steps. Adjust branches, do size optimizations.
+ */
+{
+ unsigned Changes = 0;
+ unsigned C;
+
+ if (S->CodeSizeFactor <= 100) {
+ /* Optimize for size, that is replace operations by shorter ones, even
+ * if this does hinder further optimizations (no problem since we're
+ * done soon).
+ */
+ C = RunOptFunc (S, &DOptSize1, 1);
+ if (C) {
+ Changes += C;
+ /* Run some optimization passes again, since the size optimizations
+ * may have opened new oportunities.
+ */
+ Changes += RunOptFunc (S, &DOptUnusedLoads, 1);
+ Changes += RunOptFunc (S, &DOptJumpTarget, 5);
+ }
+ }
+ C = RunOptFunc (S, &DOptSize2, 1);
+ if (C) {
+ Changes += C;
+ /* Run some optimization passes again, since the size optimizations
+ * may have opened new oportunities.
+ */
+ Changes += RunOptFunc (S, &DOptUnusedLoads, 1);
+ Changes += RunOptFunc (S, &DOptJumpTarget, 5);
+ }
+
+ /* Adjust branch distances */
+ Changes += RunOptFunc (S, &DOptBranchDist, 3);
+
+ /* Replace conditional branches to RTS. If we had changes, we must run dead
+ * code elimination again, since the change may have introduced dead code.
+ */
+ C = RunOptFunc (S, &DOptRTSJumps2, 1);
+ Changes += C;
+ if (C) {
+ Changes += RunOptFunc (S, &DOptDeadCode, 1);
+ }
+
+ /* Return the number of changes */
+ return Changes;
}
void RunOpt (CodeSeg* S)
/* Run the optimizer */
{
- unsigned I;
- unsigned Pass = 0;
- unsigned OptChanges;
+ const char* StatFileName;
/* If we shouldn't run the optimizer, bail out */
- if (!Optimize) {
- return;
+ if (!S->Optimize) {
+ return;
+ }
+
+ /* Check if we are requested to write optimizer statistics */
+ StatFileName = getenv ("CC65_OPTSTATS");
+ if (StatFileName) {
+ ReadOptStats (StatFileName);
}
/* Print the name of the function we are working on */
Print (stdout, 1, "Running optimizer for global code segment\n");
}
- /* Repeat all steps until there are no more changes */
- do {
- /* Reset the number of changes */
- OptChanges = 0;
-
- /* Keep the user hapy */
- Print (stdout, 1, " Optimizer pass %u:\n", ++Pass);
-
- /* Run all optimization steps */
- for (I = 0; I < sizeof(OptFuncs)/sizeof(OptFuncs[0]); ++I) {
-
- /* Print the name of the following optimizer step */
- Print (stdout, 1, " %s:%*s", OptFuncs[I].Name,
- (int) (30-strlen(OptFuncs[I].Name)), "");
-
- /* Check if the step is disabled */
- if (OptFuncs[I].Disabled) {
- Print (stdout, 1, "Disabled\n");
- } else {
- unsigned Changes = OptFuncs[I].Func (S);
- OptChanges += Changes;
- Print (stdout, 1, "%u Changes\n", Changes);
- }
- }
-
- } while (OptChanges > 0);
+ /* Run groups of optimizations */
+ RunOptGroup1 (S);
+ RunOptGroup2 (S);
+ RunOptGroup3 (S);
+ RunOptGroup4 (S);
+ RunOptGroup5 (S);
+ RunOptGroup6 (S);
+
+ /* Write statistics */
+ if (StatFileName) {
+ WriteOptStats (StatFileName);
+ }
}
projects / cc65 / blobdiff