+/*-------------------------------------------------------------------------
+ gen.c - source file for code generation for DS80C390
+
+ Written By - Sandeep Dutta . sandeep.dutta@usa.net (1998)
+ and - Jean-Louis VERN.jlvern@writeme.com (1999)
+ Bug Fixes - Wojciech Stryjewski wstryj1@tiger.lsu.edu (1999 v2.1.9a)
+ DS390 adaptation by Kevin Vigor <kevin@vigor.nu>
+
+ This program is free software; you can redistribute it and/or modify it
+ under the terms of the GNU General Public License as published by the
+ Free Software Foundation; either version 2, or (at your option) any
+ later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+ In other words, you are welcome to use, share and improve this program.
+ You are forbidden to forbid anyone else to use, share and improve
+ what you give them. Help stamp out software-hoarding!
+-------------------------------------------------------------------------*/
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "common.h"
+#include "main.h"
+#include "ralloc.h"
+#include "gen.h"
+#include "SDCCglobl.h"
+#include "newalloc.h"
+
+#define BETTER_LITERAL_SHIFT
+
+char *aopLiteral (value * val, int offset);
+extern int allocInfo;
+
+/* this is the down and dirty file with all kinds of
+ kludgy & hacky stuff. This is what it is all about
+ CODE GENERATION for a specific MCU . some of the
+ routines may be reusable, will have to see */
+
+static char *zero = "#0";
+static char *one = "#1";
+static char *spname;
+
+#define D(x) x
+
+#define TR_DPTR(s) if (options.model != MODEL_FLAT24) { emitcode(";", " Use_DPTR1 %s ", s); }
+#define TR_AP(s) if (options.model != MODEL_FLAT24) { emitcode(";", " Use_AP %s ", s); }
+
+short fReturnSizeDS390 = 5;
+static char *fReturn24[] =
+{"dpl", "dph", "dpx", "b", "a"};
+static char *fReturn16[] =
+{"dpl", "dph", "b", "a"};
+static char **fReturn = fReturn24;
+static char *accUse[] =
+{"a", "b"};
+static char *dptrn[2][3];
+static char *javaRet[] = { "r0","r1","r2","r3"};
+static short rbank = -1;
+
+static struct
+ {
+ short r0Pushed;
+ short r1Pushed;
+ short accInUse;
+ short bInUse;
+ short inLine;
+ short debugLine;
+ short nRegsSaved;
+ short dptrInUse;
+ short dptr1InUse;
+ set *sendSet;
+ iCode *current_iCode;
+ }
+_G;
+
+static char *rb1regs[] = {
+ "b1_0","b1_1","b1_2","b1_3","b1_4","b1_5","b1_6","b1_7"
+};
+
+static void saveRBank (int, iCode *, bool);
+
+#define RESULTONSTACK(x) \
+ (IC_RESULT(x) && IC_RESULT(x)->aop && \
+ IC_RESULT(x)->aop->type == AOP_STK )
+
+#define MOVA(x) _movA(x)
+#define MOVB(x) _movB(x)
+
+#define CLRC emitcode("clr","c")
+#define SETC emitcode("setb","c")
+
+// A scratch register which will be used to hold
+// result bytes from operands in far space via DPTR2.
+#define DP2_RESULT_REG "_ap"
+
+static lineNode *lineHead = NULL;
+static lineNode *lineCurr = NULL;
+
+static unsigned char SLMask[] =
+{0xFF, 0xFE, 0xFC, 0xF8, 0xF0,
+ 0xE0, 0xC0, 0x80, 0x00};
+static unsigned char SRMask[] =
+{0xFF, 0x7F, 0x3F, 0x1F, 0x0F,
+ 0x07, 0x03, 0x01, 0x00};
+
+#define LSB 0
+#define MSB16 1
+#define MSB24 2
+#define MSB32 3
+#define PROTECT_SP {if (options.protect_sp_update) { \
+ symbol *lbl = newiTempLabel(NULL); \
+ emitcode ("setb","F1"); \
+ emitcode ("jbc","EA,!tlabel",lbl->key+100); \
+ emitcode ("clr","F1"); \
+ emitcode ("","!tlabeldef",lbl->key+100); \
+ }}
+#define UNPROTECT_SP { if (options.protect_sp_update) { \
+ symbol *lbl = newiTempLabel(NULL); \
+ emitcode ("jnb","F1,!tlabel",lbl->key+100); \
+ emitcode ("setb","EA"); \
+ emitcode ("","!tlabeldef",lbl->key+100); \
+ }}
+
+static int _currentDPS; /* Current processor DPS. */
+static int _desiredDPS; /* DPS value compiler thinks we should be using. */
+static int _lazyDPS = 0; /* if non-zero, we are doing lazy evaluation of DPS changes. */
+
+/*-----------------------------------------------------------------*/
+/* emitcode - writes the code into a file : for now it is simple */
+/*-----------------------------------------------------------------*/
+static void
+emitcode (char *inst, const char *fmt,...)
+{
+ va_list ap;
+ char lb[INITIAL_INLINEASM];
+ char *lbp = lb;
+
+ va_start (ap, fmt);
+
+ if (inst && *inst)
+ {
+ if (fmt && *fmt)
+ {
+ SNPRINTF (lb, sizeof(lb), "%s\t", inst);
+ }
+ else
+ {
+ SNPRINTF (lb, sizeof(lb), "%s", inst);
+ }
+
+ tvsprintf (lb + strlen(lb), sizeof(lb) - strlen(lb), fmt, ap);
+ }
+ else
+ {
+ tvsprintf (lb, sizeof(lb), fmt, ap);
+ }
+
+ while (isspace (*lbp))
+ {
+ lbp++;
+ }
+
+ if (lbp && *lbp)
+ {
+ lineCurr = (lineCurr ?
+ connectLine (lineCurr, newLineNode (lb)) :
+ (lineHead = newLineNode (lb)));
+ }
+
+ lineCurr->isInline = _G.inLine;
+ lineCurr->isDebug = _G.debugLine;
+ lineCurr->ic = _G.current_iCode;
+ lineCurr->aln = ds390newAsmLineNode(_currentDPS);
+ va_end (ap);
+}
+
+/*-----------------------------------------------------------------*/
+/* ds390_emitDebuggerSymbol - associate the current code location */
+/* with a debugger symbol */
+/*-----------------------------------------------------------------*/
+void
+ds390_emitDebuggerSymbol (char * debugSym)
+{
+ _G.debugLine = 1;
+ emitcode ("", "%s ==.", debugSym);
+ _G.debugLine = 0;
+}
+
+//
+// Move the passed value into A unless it is already there.
+//
+static void
+_movA(const char *s)
+{
+ if (strcmp(s,"a") && strcmp(s,"acc"))
+ {
+ emitcode("mov","a,%s",s);
+ }
+}
+
+//
+// Move the passed value into B unless it is already there.
+//
+static void
+_movB(const char *s)
+{
+ if (strcmp(s,"b"))
+ {
+ emitcode("mov","b,%s",s);
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* getFreePtr - returns r0 or r1 whichever is free or can be pushed */
+/*-----------------------------------------------------------------*/
+static regs *
+getFreePtr (iCode * ic, asmop ** aopp, bool result)
+{
+ bool r0iu, r1iu;
+ bool r0ou, r1ou;
+
+ /* the logic: if r0 & r1 used in the instruction
+ then we are in trouble otherwise */
+
+ /* first check if r0 & r1 are used by this
+ instruction, in which case we are in trouble */
+ r0iu = bitVectBitValue (ic->rUsed, R0_IDX);
+ r1iu = bitVectBitValue (ic->rUsed, R1_IDX);
+ if (r0iu && r1iu) {
+ goto endOfWorld;
+ }
+
+ r0ou = bitVectBitValue (ic->rMask, R0_IDX);
+ r1ou = bitVectBitValue (ic->rMask, R1_IDX);
+
+ /* if no usage of r0 then return it */
+ if (!r0iu && !r0ou)
+ {
+ ic->rUsed = bitVectSetBit (ic->rUsed, R0_IDX);
+ (*aopp)->type = AOP_R0;
+
+ return (*aopp)->aopu.aop_ptr = ds390_regWithIdx (R0_IDX);
+ }
+
+ /* if no usage of r1 then return it */
+ if (!r1iu && !r1ou)
+ {
+ ic->rUsed = bitVectSetBit (ic->rUsed, R1_IDX);
+ (*aopp)->type = AOP_R1;
+
+ return (*aopp)->aopu.aop_ptr = ds390_regWithIdx (R1_IDX);
+ }
+
+ /* now we know they both have usage */
+ /* if r0 not used in this instruction */
+ if (!r0iu)
+ {
+ /* push it if not already pushed */
+ if (!_G.r0Pushed)
+ {
+ emitcode ("push", "%s",
+ ds390_regWithIdx (R0_IDX)->dname);
+ _G.r0Pushed++;
+ }
+
+ ic->rUsed = bitVectSetBit (ic->rUsed, R0_IDX);
+ (*aopp)->type = AOP_R0;
+
+ return (*aopp)->aopu.aop_ptr = ds390_regWithIdx (R0_IDX);
+ }
+
+ /* if r1 not used then */
+
+ if (!r1iu)
+ {
+ /* push it if not already pushed */
+ if (!_G.r1Pushed)
+ {
+ emitcode ("push", "%s",
+ ds390_regWithIdx (R1_IDX)->dname);
+ _G.r1Pushed++;
+ }
+
+ ic->rUsed = bitVectSetBit (ic->rUsed, R1_IDX);
+ (*aopp)->type = AOP_R1;
+ return ds390_regWithIdx (R1_IDX);
+ }
+
+endOfWorld:
+ /* I said end of world but not quite end of world yet */
+ /* if this is a result then we can push it on the stack */
+ if (result)
+ {
+ (*aopp)->type = AOP_STK;
+ return NULL;
+ }
+
+ /* other wise this is true end of the world */
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "getFreePtr should never reach here");
+ exit (1);
+
+ return NULL; // notreached, but makes compiler happy.
+}
+
+/*-----------------------------------------------------------------*/
+/* newAsmop - creates a new asmOp */
+/*-----------------------------------------------------------------*/
+static asmop *
+newAsmop (short type)
+{
+ asmop *aop;
+
+ aop = Safe_calloc (1, sizeof (asmop));
+ aop->type = type;
+ return aop;
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genSetDPTR: generate code to select which DPTR is in use (zero */
+/* selects standard DPTR (DPL/DPH/DPX), non-zero selects DS390 */
+/* alternate DPTR (DPL1/DPH1/DPX1). */
+/*-----------------------------------------------------------------*/
+static void
+genSetDPTR (int n)
+{
+
+ /* If we are doing lazy evaluation, simply note the desired
+ * change, but don't emit any code yet.
+ */
+ if (_lazyDPS)
+ {
+ _desiredDPS = n;
+ return;
+ }
+
+ if (!n)
+ {
+ emitcode ("mov", "dps,#0");
+ }
+ else
+ {
+ TR_DPTR("#1");
+ emitcode ("mov", "dps,#1");
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* _startLazyDPSEvaluation: call to start doing lazy DPS evaluation */
+/* */
+/* Any code that operates on DPTR (NB: not on the individual */
+/* components, like DPH) *must* call _flushLazyDPS() before using */
+/* DPTR within a lazy DPS evaluation block. */
+/* */
+/* Note that aopPut and aopGet already contain the proper calls to */
+/* _flushLazyDPS, so it is safe to use these calls within a lazy */
+/* DPS evaluation block. */
+/* */
+/* Also, _flushLazyDPS must be called before any flow control */
+/* operations that could potentially branch out of the block. */
+/* */
+/* Lazy DPS evaluation is simply an optimization (though an */
+/* important one), so if in doubt, leave it out. */
+/*-----------------------------------------------------------------*/
+static void
+_startLazyDPSEvaluation (void)
+{
+ _currentDPS = 0;
+ _desiredDPS = 0;
+#ifdef BETTER_LITERAL_SHIFT
+ _lazyDPS++;
+#else
+ _lazyDPS = 1;
+#endif
+}
+
+/*-----------------------------------------------------------------*/
+/* _flushLazyDPS: emit code to force the actual DPS setting to the */
+/* desired one. Call before using DPTR within a lazy DPS evaluation */
+/* block. */
+/*-----------------------------------------------------------------*/
+static void
+_flushLazyDPS (void)
+{
+ if (!_lazyDPS)
+ {
+ /* nothing to do. */
+ return;
+ }
+
+ if (_desiredDPS != _currentDPS)
+ {
+ if (_desiredDPS)
+ {
+ emitcode ("inc", "dps");
+ }
+ else
+ {
+ emitcode ("dec", "dps");
+ }
+ _currentDPS = _desiredDPS;
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* _endLazyDPSEvaluation: end lazy DPS evaluation block. */
+/* */
+/* Forces us back to the safe state (standard DPTR selected). */
+/*-----------------------------------------------------------------*/
+static void
+_endLazyDPSEvaluation (void)
+{
+#ifdef BETTER_LITERAL_SHIFT
+ _lazyDPS--;
+#else
+ _lazyDPS = 0;
+#endif
+ if (!_lazyDPS)
+ {
+ if (_currentDPS)
+ {
+ genSetDPTR (0);
+ _flushLazyDPS ();
+ }
+ _currentDPS = 0;
+ _desiredDPS = 0;
+ }
+}
+
+
+
+/*-----------------------------------------------------------------*/
+/* pointerCode - returns the code for a pointer type */
+/*-----------------------------------------------------------------*/
+static int
+pointerCode (sym_link * etype)
+{
+
+ return PTR_TYPE (SPEC_OCLS (etype));
+
+}
+
+/*-----------------------------------------------------------------*/
+/* leftRightUseAcc - returns size of accumulator use by operands */
+/*-----------------------------------------------------------------*/
+static int
+leftRightUseAcc(iCode *ic)
+{
+ operand *op;
+ int size;
+ int accuseSize = 0;
+ int accuse = 0;
+
+ if (!ic)
+ {
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "null iCode pointer");
+ return 0;
+ }
+
+ if (ic->op == IFX)
+ {
+ op = IC_COND (ic);
+ if (IS_SYMOP (op) && OP_SYMBOL (op) && OP_SYMBOL (op)->accuse)
+ {
+ accuse = 1;
+ size = getSize (OP_SYMBOL (op)->type);
+ if (size>accuseSize)
+ accuseSize = size;
+ }
+ }
+ else if (ic->op == JUMPTABLE)
+ {
+ op = IC_JTCOND (ic);
+ if (IS_SYMOP (op) && OP_SYMBOL (op) && OP_SYMBOL (op)->accuse)
+ {
+ accuse = 1;
+ size = getSize (OP_SYMBOL (op)->type);
+ if (size>accuseSize)
+ accuseSize = size;
+ }
+ }
+ else
+ {
+ op = IC_LEFT (ic);
+ if (IS_SYMOP (op) && OP_SYMBOL (op) && OP_SYMBOL (op)->accuse)
+ {
+ accuse = 1;
+ size = getSize (OP_SYMBOL (op)->type);
+ if (size>accuseSize)
+ accuseSize = size;
+ }
+ op = IC_RIGHT (ic);
+ if (IS_SYMOP (op) && OP_SYMBOL (op) && OP_SYMBOL (op)->accuse)
+ {
+ accuse = 1;
+ size = getSize (OP_SYMBOL (op)->type);
+ if (size>accuseSize)
+ accuseSize = size;
+ }
+ }
+
+ if (accuseSize)
+ return accuseSize;
+ else
+ return accuse;
+}
+
+/*-----------------------------------------------------------------*/
+/* aopForSym - for a true symbol */
+/*-----------------------------------------------------------------*/
+static asmop *
+aopForSym (iCode * ic, symbol * sym, bool result, bool useDP2)
+{
+ asmop *aop;
+ memmap *space = SPEC_OCLS (sym->etype);
+ int accuse = leftRightUseAcc (ic);
+
+ /* if already has one */
+ if (sym->aop)
+ {
+ if ((sym->aop->type == AOP_DPTR && useDP2)
+ || (sym->aop->type == AOP_DPTR2 && !useDP2))
+ sym->aop = NULL;
+ else
+ return sym->aop;
+ }
+
+ /* assign depending on the storage class */
+ /* if it is on the stack or indirectly addressable */
+ /* space we need to assign either r0 or r1 to it */
+ if ((sym->onStack && !options.stack10bit) || sym->iaccess)
+ {
+ sym->aop = aop = newAsmop (0);
+ aop->aopu.aop_ptr = getFreePtr (ic, &aop, result);
+ aop->size = getSize (sym->type);
+
+ /* now assign the address of the variable to
+ the pointer register */
+ if (aop->type != AOP_STK)
+ {
+
+ if (sym->onStack)
+ {
+ if (_G.accInUse || accuse)
+ emitcode ("push", "acc");
+
+ if (_G.bInUse || (accuse>1))
+ emitcode ("push", "b");
+
+ emitcode ("mov", "a,_bp");
+ emitcode ("add", "a,#!constbyte",
+ ((sym->stack < 0) ?
+ ((char) (sym->stack - _G.nRegsSaved)) :
+ ((char) sym->stack)) & 0xff);
+ emitcode ("mov", "%s,a",
+ aop->aopu.aop_ptr->name);
+
+ if (_G.bInUse || (accuse>1))
+ emitcode ("pop", "b");
+
+ if (_G.accInUse || accuse)
+ emitcode ("pop", "acc");
+ }
+ else
+ emitcode ("mov", "%s,#%s",
+ aop->aopu.aop_ptr->name,
+ sym->rname);
+ aop->paged = space->paged;
+ }
+ else
+ aop->aopu.aop_stk = sym->stack;
+ return aop;
+ }
+
+ if (sym->onStack && options.stack10bit)
+ {
+ short stack_val = -((sym->stack < 0) ?
+ ((short) (sym->stack - _G.nRegsSaved)) :
+ ((short) sym->stack)) ;
+ if (useDP2 && _G.dptr1InUse) {
+ emitcode ("push","dpl1");
+ emitcode ("push","dph1");
+ emitcode ("push","dpx1");
+ } else if (_G.dptrInUse ) {
+ emitcode ("push","dpl");
+ emitcode ("push","dph");
+ emitcode ("push","dpx");
+ }
+ /* It's on the 10 bit stack, which is located in
+ * far data space.
+ */
+ if (stack_val < 0 && stack_val > -5) { /* between -5 & -1 */
+ if (useDP2) {
+ if (options.model == MODEL_FLAT24)
+ {
+ emitcode ("mov", "dpx1,#!constbyte",
+ (options.stack_loc >> 16) & 0xff);
+ }
+ emitcode ("mov", "dph1,_bpx+1");
+
+ emitcode ("mov", "dpl1,_bpx");
+ emitcode ("mov","dps,#1");
+ } else {
+ if (options.model == MODEL_FLAT24)
+ {
+ emitcode ("mov", "dpx,#!constbyte",
+ (options.stack_loc >> 16) & 0xff);
+ }
+ emitcode ("mov", "dph,_bpx+1");
+ emitcode ("mov", "dpl,_bpx");
+ }
+ stack_val = -stack_val;
+ while (stack_val--) {
+ emitcode ("inc","dptr");
+ }
+ if (useDP2) {
+ emitcode("mov","dps,#0");
+ }
+ } else {
+ if (_G.accInUse || accuse)
+ emitcode ("push", "acc");
+
+ if (_G.bInUse || (accuse>1))
+ emitcode ("push", "b");
+
+ emitcode ("mov", "a,_bpx");
+ emitcode ("clr","c");
+ emitcode ("subb", "a,#!constbyte", stack_val & 0xff);
+ emitcode ("mov","b,a");
+ emitcode ("mov","a,_bpx+1");
+ emitcode ("subb","a,#!constbyte",(stack_val >> 8) & 0xff);
+ if (useDP2) {
+ if (options.model == MODEL_FLAT24)
+ {
+ emitcode ("mov", "dpx1,#!constbyte",
+ (options.stack_loc >> 16) & 0xff);
+ }
+ emitcode ("mov", "dph1,a");
+ emitcode ("mov", "dpl1,b");
+ } else {
+ if (options.model == MODEL_FLAT24)
+ {
+ emitcode ("mov", "dpx,#!constbyte",
+ (options.stack_loc >> 16) & 0xff);
+ }
+ emitcode ("mov", "dph,a");
+ emitcode ("mov", "dpl,b");
+ }
+
+ if (_G.bInUse || (accuse>1))
+ emitcode ("pop", "b");
+
+ if (_G.accInUse || accuse)
+ emitcode ("pop", "acc");
+ }
+ sym->aop = aop = newAsmop ((short) (useDP2 ? AOP_DPTR2 : AOP_DPTR));
+ aop->size = getSize (sym->type);
+ return aop;
+ }
+
+ /* if in bit space */
+ if (IN_BITSPACE (space))
+ {
+ sym->aop = aop = newAsmop (AOP_CRY);
+ aop->aopu.aop_dir = sym->rname;
+ aop->size = getSize (sym->type);
+ return aop;
+ }
+ /* if it is in direct space */
+ if (IN_DIRSPACE (space))
+ {
+ sym->aop = aop = newAsmop (AOP_DIR);
+ aop->aopu.aop_dir = sym->rname;
+ aop->size = getSize (sym->type);
+ return aop;
+ }
+
+ /* special case for a function */
+ if (IS_FUNC (sym->type) && !(sym->isitmp))
+ {
+ sym->aop = aop = newAsmop (AOP_IMMD);
+ aop->aopu.aop_immd.aop_immd1 = Safe_strdup(sym->rname);
+ aop->size = FPTRSIZE;
+ return aop;
+ }
+
+ /* only remaining is far space */
+ /* in which case DPTR gets the address */
+ sym->aop = aop = newAsmop ((short) (useDP2 ? AOP_DPTR2 : AOP_DPTR));
+ if (useDP2)
+ {
+ genSetDPTR (1);
+ _flushLazyDPS ();
+ emitcode ("mov", "dptr,#%s", sym->rname);
+ genSetDPTR (0);
+ }
+ else
+ {
+ emitcode ("mov", "dptr,#%s", sym->rname);
+ }
+ aop->size = getSize (sym->type);
+
+ /* if it is in code space */
+ if (IN_CODESPACE (space))
+ aop->code = 1;
+
+ return aop;
+}
+
+/*-----------------------------------------------------------------*/
+/* aopForRemat - rematerialzes an object */
+/*-----------------------------------------------------------------*/
+static asmop *
+aopForRemat (symbol * sym)
+{
+ iCode *ic = sym->rematiCode;
+ asmop *aop = newAsmop (AOP_IMMD);
+ int ptr_type = 0;
+ int val = 0;
+
+ for (;;)
+ {
+ if (ic->op == '+')
+ val += (int) operandLitValue (IC_RIGHT (ic));
+ else if (ic->op == '-')
+ val -= (int) operandLitValue (IC_RIGHT (ic));
+ else if (IS_CAST_ICODE(ic)) {
+ sym_link *from_type = operandType(IC_RIGHT(ic));
+ aop->aopu.aop_immd.from_cast_remat = 1;
+ ic = OP_SYMBOL (IC_RIGHT (ic))->rematiCode;
+ ptr_type = pointerTypeToGPByte (DCL_TYPE(from_type), NULL, NULL);
+ continue ;
+ } else break;
+
+ ic = OP_SYMBOL (IC_LEFT (ic))->rematiCode;
+ }
+
+ if (val)
+ {
+ SNPRINTF (buffer, sizeof(buffer),
+ "(%s %c 0x%04x)",
+ OP_SYMBOL (IC_LEFT (ic))->rname,
+ val >= 0 ? '+' : '-',
+ abs (val) & 0xffffff);
+ }
+ else
+ {
+ if (IS_ASSIGN_ICODE(ic) && isOperandLiteral(IC_RIGHT(ic)))
+ {
+ SNPRINTF(buffer, sizeof(buffer),
+ "0x%x",(int) operandLitValue (IC_RIGHT (ic)));
+ }
+ else
+ {
+ strncpyz (buffer, OP_SYMBOL (IC_LEFT (ic))->rname, sizeof(buffer));
+ }
+ }
+
+ aop->aopu.aop_immd.aop_immd1 = Safe_strdup(buffer);
+ /* set immd2 field if required */
+ if (aop->aopu.aop_immd.from_cast_remat)
+ {
+ tsprintf(buffer, sizeof(buffer), "#!constbyte",ptr_type);
+ aop->aopu.aop_immd.aop_immd2 = Safe_strdup(buffer);
+ }
+
+ return aop;
+}
+
+/*-----------------------------------------------------------------*/
+/* aopHasRegs - returns true if aop has regs between from-to */
+/*-----------------------------------------------------------------*/
+static int aopHasRegs(asmop *aop, int from, int to)
+{
+ int size =0;
+
+ if (aop->type != AOP_REG) return 0; /* if not assigned to regs */
+
+ for (; size < aop->size ; size++) {
+ int reg;
+ for (reg = from ; reg <= to ; reg++)
+ if (aop->aopu.aop_reg[size] == ds390_regWithIdx(reg)) return 1;
+ }
+ return 0;
+}
+
+/*-----------------------------------------------------------------*/
+/* regsInCommon - two operands have some registers in common */
+/*-----------------------------------------------------------------*/
+static bool
+regsInCommon (operand * op1, operand * op2)
+{
+ symbol *sym1, *sym2;
+ int i;
+
+ /* if they have registers in common */
+ if (!IS_SYMOP (op1) || !IS_SYMOP (op2))
+ return FALSE;
+
+ sym1 = OP_SYMBOL (op1);
+ sym2 = OP_SYMBOL (op2);
+
+ if (sym1->nRegs == 0 || sym2->nRegs == 0)
+ return FALSE;
+
+ for (i = 0; i < sym1->nRegs; i++)
+ {
+ int j;
+ if (!sym1->regs[i])
+ continue;
+
+ for (j = 0; j < sym2->nRegs; j++)
+ {
+ if (!sym2->regs[j])
+ continue;
+
+ if (sym2->regs[j] == sym1->regs[i])
+ return TRUE;
+ }
+ }
+
+ return FALSE;
+}
+
+/*-----------------------------------------------------------------*/
+/* operandsEqu - equivalent */
+/*-----------------------------------------------------------------*/
+static bool
+operandsEqu (operand * op1, operand * op2)
+{
+ symbol *sym1, *sym2;
+
+ /* if they not symbols */
+ if (!IS_SYMOP (op1) || !IS_SYMOP (op2))
+ return FALSE;
+
+ sym1 = OP_SYMBOL (op1);
+ sym2 = OP_SYMBOL (op2);
+
+ /* if both are itemps & one is spilt
+ and the other is not then false */
+ if (IS_ITEMP (op1) && IS_ITEMP (op2) &&
+ sym1->isspilt != sym2->isspilt)
+ return FALSE;
+
+ /* if they are the same */
+ if (sym1 == sym2)
+ return TRUE;
+
+ if (sym1->rname[0] && sym2->rname[0]
+ && strcmp (sym1->rname, sym2->rname) == 0)
+ return TRUE;
+
+ /* if left is a tmp & right is not */
+ if (IS_ITEMP (op1) &&
+ !IS_ITEMP (op2) &&
+ sym1->isspilt &&
+ (sym1->usl.spillLoc == sym2))
+ return TRUE;
+
+ if (IS_ITEMP (op2) &&
+ !IS_ITEMP (op1) &&
+ sym2->isspilt &&
+ sym1->level > 0 &&
+ (sym2->usl.spillLoc == sym1))
+ return TRUE;
+
+ /* are they spilt to the same location */
+ if (IS_ITEMP (op2) &&
+ IS_ITEMP (op1) &&
+ sym2->isspilt &&
+ sym1->isspilt &&
+ (sym1->usl.spillLoc == sym2->usl.spillLoc))
+ return TRUE;
+
+ return FALSE;
+}
+
+/*-----------------------------------------------------------------*/
+/* sameRegs - two asmops have the same registers */
+/*-----------------------------------------------------------------*/
+static bool
+sameRegs (asmop * aop1, asmop * aop2)
+{
+ int i;
+
+ if (aop1 == aop2)
+ {
+ if (aop1->type == AOP_DPTR || aop1->type == AOP_DPTR2)
+ {
+ return FALSE;
+ }
+ return TRUE;
+ }
+
+ if (aop1->type != AOP_REG ||
+ aop2->type != AOP_REG)
+ return FALSE;
+
+ if (aop1->size != aop2->size)
+ return FALSE;
+
+ for (i = 0; i < aop1->size; i++)
+ if (aop1->aopu.aop_reg[i] !=
+ aop2->aopu.aop_reg[i])
+ return FALSE;
+
+ return TRUE;
+}
+
+/*-----------------------------------------------------------------*/
+/* aopOp - allocates an asmop for an operand : */
+/*-----------------------------------------------------------------*/
+static void
+aopOp (operand * op, iCode * ic, bool result, bool useDP2)
+{
+ asmop *aop;
+ symbol *sym;
+ int i;
+
+ if (!op)
+ return;
+
+ /* if this a literal */
+ if (IS_OP_LITERAL (op))
+ {
+ op->aop = aop = newAsmop (AOP_LIT);
+ aop->aopu.aop_lit = op->operand.valOperand;
+ aop->size = getSize (operandType (op));
+ return;
+ }
+
+ /* if already has a asmop then continue */
+ if (op->aop)
+ {
+ if ((op->aop->type == AOP_DPTR && useDP2)
+ || (op->aop->type == AOP_DPTR2 && !useDP2))
+ op->aop = NULL;
+ else
+ return;
+ }
+
+ /* if the underlying symbol has a aop */
+ if (IS_SYMOP (op) && OP_SYMBOL (op)->aop)
+ {
+ op->aop = OP_SYMBOL (op)->aop;
+ if ((op->aop->type == AOP_DPTR && useDP2)
+ || (op->aop->type == AOP_DPTR2 && !useDP2))
+ op->aop = NULL;
+ else
+ return;
+ }
+
+ /* if this is a true symbol */
+ if (IS_TRUE_SYMOP (op))
+ {
+ op->aop = aopForSym (ic, OP_SYMBOL (op), result, useDP2);
+ return;
+ }
+
+ /* this is a temporary : this has
+ only four choices :
+ a) register
+ b) spillocation
+ c) rematerialize
+ d) conditional
+ e) can be a return use only */
+
+ sym = OP_SYMBOL (op);
+
+ /* if the type is a conditional */
+ if (sym->regType == REG_CND)
+ {
+ aop = op->aop = sym->aop = newAsmop (AOP_CRY);
+ aop->size = 0;
+ return;
+ }
+
+ /* if it is spilt then two situations
+ a) is rematerialize
+ b) has a spill location */
+ if (sym->isspilt || sym->nRegs == 0)
+ {
+
+ /* rematerialize it NOW */
+ if (sym->remat)
+ {
+ sym->aop = op->aop = aop =
+ aopForRemat (sym);
+ aop->size = getSize (sym->type);
+ return;
+ }
+
+ if (sym->accuse)
+ {
+ int i;
+ aop = op->aop = sym->aop = newAsmop (AOP_ACC);
+ aop->size = getSize (sym->type);
+ for (i = 0; i < 2; i++)
+ aop->aopu.aop_str[i] = accUse[i];
+ return;
+ }
+
+ if (sym->ruonly)
+ {
+ int i;
+
+ if (useDP2)
+ {
+ /* a AOP_STR uses DPTR, but DPTR is already in use;
+ * we're just hosed.
+ */
+ werror(E_INTERNAL_ERROR,__FILE__,__LINE__,"AOP_STR with DPTR in use!");
+ }
+
+ aop = op->aop = sym->aop = newAsmop (AOP_STR);
+ aop->size = getSize (sym->type);
+ for (i = 0; i < fReturnSizeDS390; i++)
+ aop->aopu.aop_str[i] = fReturn[i];
+ return;
+ }
+
+ if (sym->dptr) { /* has been allocated to a DPTRn */
+ aop = op->aop = sym->aop = newAsmop (AOP_DPTRn);
+ aop->size = getSize (sym->type);
+ aop->aopu.dptr = sym->dptr;
+ return ;
+ }
+
+ if (sym->usl.spillLoc)
+ {
+ if (getSize(sym->type) != getSize(sym->usl.spillLoc->type))
+ {
+ /* force a new aop if sizes differ */
+ sym->usl.spillLoc->aop = NULL;
+ }
+ sym->aop = op->aop = aop =
+ aopForSym (ic, sym->usl.spillLoc, result, useDP2);
+ aop->size = getSize (sym->type);
+ return;
+ }
+
+ /* else must be a dummy iTemp */
+ sym->aop = op->aop = aop = newAsmop (AOP_DUMMY);
+ aop->size = getSize (sym->type);
+ return;
+ }
+
+ /* must be in a register */
+ sym->aop = op->aop = aop = newAsmop (AOP_REG);
+ aop->size = sym->nRegs;
+ for (i = 0; i < sym->nRegs; i++)
+ aop->aopu.aop_reg[i] = sym->regs[i];
+}
+
+/*-----------------------------------------------------------------*/
+/* freeAsmop - free up the asmop given to an operand */
+/*----------------------------------------------------------------*/
+static void
+freeAsmop (operand * op, asmop * aaop, iCode * ic, bool pop)
+{
+ asmop *aop;
+
+ if (!op)
+ aop = aaop;
+ else
+ aop = op->aop;
+
+ if (!aop)
+ return;
+
+ if (aop->freed)
+ goto dealloc;
+
+ aop->freed = 1;
+
+ /* depending on the asmop type only three cases need work AOP_RO
+ , AOP_R1 && AOP_STK */
+ switch (aop->type)
+ {
+ case AOP_R0:
+ if (_G.r0Pushed)
+ {
+ if (pop)
+ {
+ emitcode ("pop", "ar0");
+ _G.r0Pushed--;
+ }
+ }
+ bitVectUnSetBit (ic->rUsed, R0_IDX);
+ break;
+
+ case AOP_R1:
+ if (_G.r1Pushed)
+ {
+ if (pop)
+ {
+ emitcode ("pop", "ar1");
+ _G.r1Pushed--;
+ }
+ }
+ bitVectUnSetBit (ic->rUsed, R1_IDX);
+ break;
+
+ case AOP_STK:
+ {
+ int sz = aop->size;
+ int stk = aop->aopu.aop_stk + aop->size;
+ bitVectUnSetBit (ic->rUsed, R0_IDX);
+ bitVectUnSetBit (ic->rUsed, R1_IDX);
+
+ getFreePtr (ic, &aop, FALSE);
+
+ if (options.stack10bit)
+ {
+ /* I'm not sure what to do here yet... */
+ /* #STUB */
+ fprintf (stderr,
+ "*** Warning: probably generating bad code for "
+ "10 bit stack mode.\n");
+ }
+
+ if (stk)
+ {
+ emitcode ("mov", "a,_bp");
+ emitcode ("add", "a,#!constbyte", ((char) stk) & 0xff);
+ emitcode ("mov", "%s,a", aop->aopu.aop_ptr->name);
+ }
+ else
+ {
+ emitcode ("mov", "%s,_bp", aop->aopu.aop_ptr->name);
+ }
+
+ while (sz--)
+ {
+ emitcode ("pop", "acc");
+ emitcode ("mov", "@%s,a", aop->aopu.aop_ptr->name);
+ if (!sz)
+ break;
+ emitcode ("dec", "%s", aop->aopu.aop_ptr->name);
+ }
+ op->aop = aop;
+ freeAsmop (op, NULL, ic, TRUE);
+ if (_G.r0Pushed)
+ {
+ emitcode ("pop", "ar0");
+ _G.r0Pushed--;
+ }
+
+ if (_G.r1Pushed)
+ {
+ emitcode ("pop", "ar1");
+ _G.r1Pushed--;
+ }
+ }
+ case AOP_DPTR2:
+ if (_G.dptr1InUse) {
+ emitcode ("pop","dpx1");
+ emitcode ("pop","dph1");
+ emitcode ("pop","dpl1");
+ }
+ break;
+ case AOP_DPTR:
+ if (_G.dptrInUse) {
+ emitcode ("pop","dpx");
+ emitcode ("pop","dph");
+ emitcode ("pop","dpl");
+ }
+ break;
+ }
+dealloc:
+ /* all other cases just dealloc */
+ if (op)
+ {
+ op->aop = NULL;
+ if (IS_SYMOP (op))
+ {
+ OP_SYMBOL (op)->aop = NULL;
+ /* if the symbol has a spill */
+ if (SPIL_LOC (op))
+ SPIL_LOC (op)->aop = NULL;
+ }
+ }
+}
+
+#define DEFAULT_ACC_WARNING 0
+static int saveAccWarn = DEFAULT_ACC_WARNING;
+
+/*-------------------------------------------------------------------*/
+/* aopGet - for fetching value of the aop */
+/* */
+/* Set saveAcc to NULL if you are sure it is OK to clobber the value */
+/* in the accumulator. Set it to the name of a free register */
+/* if acc must be preserved; the register will be used to preserve */
+/* acc temporarily and to return the result byte. */
+/*-------------------------------------------------------------------*/
+
+static char *
+aopGet (asmop *aop,
+ int offset,
+ bool bit16,
+ bool dname,
+ char *saveAcc)
+{
+ /* offset is greater than
+ size then zero */
+ if (offset > (aop->size - 1) &&
+ aop->type != AOP_LIT)
+ return zero;
+
+ /* depending on type */
+ switch (aop->type)
+ {
+ case AOP_DUMMY:
+ return zero;
+
+ case AOP_R0:
+ case AOP_R1:
+ /* if we need to increment it */
+ while (offset > aop->coff)
+ {
+ emitcode ("inc", "%s", aop->aopu.aop_ptr->name);
+ aop->coff++;
+ }
+
+ while (offset < aop->coff)
+ {
+ emitcode ("dec", "%s", aop->aopu.aop_ptr->name);
+ aop->coff--;
+ }
+
+ aop->coff = offset;
+ if (aop->paged)
+ {
+ emitcode ("movx", "a,@%s", aop->aopu.aop_ptr->name);
+ return (dname ? "acc" : "a");
+ }
+ SNPRINTF (buffer, sizeof(buffer), "@%s", aop->aopu.aop_ptr->name);
+ return Safe_strdup(buffer);
+
+ case AOP_DPTRn:
+ assert(offset <= 3);
+ return dptrn[aop->aopu.dptr][offset];
+
+ case AOP_DPTR:
+ case AOP_DPTR2:
+
+ if (aop->type == AOP_DPTR2)
+ {
+ genSetDPTR (1);
+ }
+
+ if (saveAcc)
+ {
+ TR_AP("#1");
+// if (aop->type != AOP_DPTR2)
+// {
+// if (saveAccWarn) { fprintf(stderr, "saveAcc for DPTR...\n"); }
+// emitcode(";", "spanky: saveAcc for DPTR");
+// }
+
+ emitcode ("xch", "a, %s", saveAcc);
+ }
+
+ _flushLazyDPS ();
+
+ while (offset > aop->coff)
+ {
+ emitcode ("inc", "dptr");
+ aop->coff++;
+ }
+
+ while (offset < aop->coff)
+ {
+ emitcode ("lcall", "__decdptr");
+ aop->coff--;
+ }
+
+ aop->coff = offset;
+ if (aop->code)
+ {
+ emitcode ("clr", "a");
+ emitcode ("movc", "a,@a+dptr");
+ }
+ else
+ {
+ emitcode ("movx", "a,@dptr");
+ }
+
+ if (aop->type == AOP_DPTR2)
+ {
+ genSetDPTR (0);
+ }
+
+ if (saveAcc)
+ {
+ TR_AP("#2");
+ emitcode ("xch", "a, %s", saveAcc);
+// if (strcmp(saveAcc, "_ap"))
+// {
+// emitcode(";", "spiffy: non _ap return from aopGet.");
+// }
+
+ return saveAcc;
+ }
+ return (dname ? "acc" : "a");
+
+ case AOP_IMMD:
+ if (aop->aopu.aop_immd.from_cast_remat && (offset == (aop->size-1)))
+ {
+ SNPRINTF(buffer, sizeof(buffer),
+ "%s",aop->aopu.aop_immd.aop_immd2);
+ }
+ else if (bit16)
+ {
+ SNPRINTF(buffer, sizeof(buffer),
+ "#%s", aop->aopu.aop_immd.aop_immd1);
+ }
+ else if (offset)
+ {
+ switch (offset) {
+ case 1:
+ tsprintf(buffer, sizeof(buffer),
+ "#!his",aop->aopu.aop_immd.aop_immd1);
+ break;
+ case 2:
+ tsprintf(buffer, sizeof(buffer),
+ "#!hihis",aop->aopu.aop_immd.aop_immd1);
+ break;
+ case 3:
+ tsprintf(buffer, sizeof(buffer),
+ "#!hihihis",aop->aopu.aop_immd.aop_immd1);
+ break;
+ default: /* should not need this (just in case) */
+ SNPRINTF (buffer, sizeof(buffer),
+ "#(%s >> %d)",
+ aop->aopu.aop_immd.aop_immd1,
+ offset * 8);
+ }
+ }
+ else
+ {
+ SNPRINTF (buffer, sizeof(buffer),
+ "#%s", aop->aopu.aop_immd.aop_immd1);
+ }
+ return Safe_strdup(buffer);
+
+ case AOP_DIR:
+ if (offset)
+ {
+ SNPRINTF (buffer, sizeof(buffer),
+ "(%s + %d)",
+ aop->aopu.aop_dir,
+ offset);
+ }
+ else
+ {
+ SNPRINTF(buffer, sizeof(buffer),
+ "%s", aop->aopu.aop_dir);
+ }
+
+ return Safe_strdup(buffer);
+
+ case AOP_REG:
+ if (dname)
+ return aop->aopu.aop_reg[offset]->dname;
+ else
+ return aop->aopu.aop_reg[offset]->name;
+
+ case AOP_CRY:
+ emitcode ("clr", "a");
+ emitcode ("mov", "c,%s", aop->aopu.aop_dir);
+ emitcode ("rlc", "a");
+ return (dname ? "acc" : "a");
+
+ case AOP_ACC:
+ if (!offset && dname)
+ return "acc";
+ return aop->aopu.aop_str[offset];
+
+ case AOP_LIT:
+ return aopLiteral (aop->aopu.aop_lit, offset);
+
+ case AOP_STR:
+ aop->coff = offset;
+ if (strcmp (aop->aopu.aop_str[offset], "a") == 0 &&
+ dname)
+ return "acc";
+
+ return aop->aopu.aop_str[offset];
+
+ }
+
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "aopget got unsupported aop->type");
+ exit (1);
+
+ return NULL; // not reached, but makes compiler happy.
+}
+/*-----------------------------------------------------------------*/
+/* aopPut - puts a string for a aop */
+/*-----------------------------------------------------------------*/
+static void
+aopPut (asmop * aop, char *s, int offset)
+{
+ if (aop->size && offset > (aop->size - 1))
+ {
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "aopPut got offset > aop->size");
+ exit (1);
+ }
+
+ /* will assign value to value */
+ /* depending on where it is ofcourse */
+ switch (aop->type)
+ {
+ case AOP_DUMMY:
+ MOVA (s); /* read s in case it was volatile */
+ break;
+
+ case AOP_DIR:
+ if (offset)
+ {
+ SNPRINTF (buffer, sizeof(buffer),
+ "(%s + %d)",
+ aop->aopu.aop_dir, offset);
+ }
+ else
+ {
+ SNPRINTF (buffer, sizeof(buffer),
+ "%s", aop->aopu.aop_dir);
+ }
+
+
+ if (strcmp (buffer, s))
+ {
+ emitcode ("mov", "%s,%s", buffer, s);
+ }
+ break;
+
+ case AOP_REG:
+ if (strcmp (aop->aopu.aop_reg[offset]->name, s) != 0 &&
+ strcmp (aop->aopu.aop_reg[offset]->dname, s) != 0)
+ {
+ if (*s == '@' ||
+ strcmp (s, "r0") == 0 ||
+ strcmp (s, "r1") == 0 ||
+ strcmp (s, "r2") == 0 ||
+ strcmp (s, "r3") == 0 ||
+ strcmp (s, "r4") == 0 ||
+ strcmp (s, "r5") == 0 ||
+ strcmp (s, "r6") == 0 ||
+ strcmp (s, "r7") == 0)
+ {
+ emitcode ("mov", "%s,%s",
+ aop->aopu.aop_reg[offset]->dname, s);
+ }
+ else
+ {
+ emitcode ("mov", "%s,%s",
+ aop->aopu.aop_reg[offset]->name, s);
+ }
+ }
+ break;
+
+ case AOP_DPTRn:
+ emitcode ("mov","%s,%s",dptrn[aop->aopu.dptr][offset],s);
+ break;
+
+ case AOP_DPTR:
+ case AOP_DPTR2:
+
+ if (aop->type == AOP_DPTR2)
+ {
+ genSetDPTR (1);
+ }
+ _flushLazyDPS ();
+
+ if (aop->code)
+ {
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "aopPut writting to code space");
+ exit (1);
+ }
+
+ while (offset > aop->coff)
+ {
+ aop->coff++;
+ emitcode ("inc", "dptr");
+ }
+
+ while (offset < aop->coff)
+ {
+ aop->coff--;
+ emitcode ("lcall", "__decdptr");
+ }
+
+ aop->coff = offset;
+
+ /* if not in accumulater */
+ MOVA (s);
+
+ emitcode ("movx", "@dptr,a");
+
+ if (aop->type == AOP_DPTR2)
+ {
+ genSetDPTR (0);
+ }
+ break;
+
+ case AOP_R0:
+ case AOP_R1:
+ while (offset > aop->coff)
+ {
+ aop->coff++;
+ emitcode ("inc", "%s", aop->aopu.aop_ptr->name);
+ }
+ while (offset < aop->coff)
+ {
+ aop->coff--;
+ emitcode ("dec", "%s", aop->aopu.aop_ptr->name);
+ }
+ aop->coff = offset;
+
+ if (aop->paged)
+ {
+ MOVA (s);
+ emitcode ("movx", "@%s,a", aop->aopu.aop_ptr->name);
+
+ }
+ else if (*s == '@')
+ {
+ MOVA (s);
+ emitcode ("mov", "@%s,a", aop->aopu.aop_ptr->name);
+ }
+ else if (strcmp (s, "r0") == 0 ||
+ strcmp (s, "r1") == 0 ||
+ strcmp (s, "r2") == 0 ||
+ strcmp (s, "r3") == 0 ||
+ strcmp (s, "r4") == 0 ||
+ strcmp (s, "r5") == 0 ||
+ strcmp (s, "r6") == 0 ||
+ strcmp (s, "r7") == 0)
+ {
+ char buff[10];
+ SNPRINTF(buff, sizeof(buff),
+ "a%s", s);
+ emitcode ("mov", "@%s,%s",
+ aop->aopu.aop_ptr->name, buff);
+ }
+ else
+ {
+ emitcode ("mov", "@%s,%s", aop->aopu.aop_ptr->name, s);
+ }
+ break;
+
+ case AOP_STK:
+ if (strcmp (s, "a") == 0)
+ emitcode ("push", "acc");
+ else
+ if (*s=='@') {
+ MOVA(s);
+ emitcode ("push", "acc");
+ } else {
+ emitcode ("push", s);
+ }
+
+ break;
+
+ case AOP_CRY:
+ /* if bit variable */
+ if (!aop->aopu.aop_dir)
+ {
+ emitcode ("clr", "a");
+ emitcode ("rlc", "a");
+ }
+ else
+ {
+ if (s == zero)
+ emitcode ("clr", "%s", aop->aopu.aop_dir);
+ else if (s == one)
+ emitcode ("setb", "%s", aop->aopu.aop_dir);
+ else if (!strcmp (s, "c"))
+ emitcode ("mov", "%s,c", aop->aopu.aop_dir);
+ else
+ {
+ if (strcmp (s, "a"))
+ {
+ MOVA (s);
+ }
+ {
+ /* set C, if a >= 1 */
+ emitcode ("add", "a,#!constbyte",0xff);
+ emitcode ("mov", "%s,c", aop->aopu.aop_dir);
+ }
+ }
+ }
+ break;
+
+ case AOP_STR:
+ aop->coff = offset;
+ if (strcmp (aop->aopu.aop_str[offset], s))
+ emitcode ("mov", "%s,%s", aop->aopu.aop_str[offset], s);
+ break;
+
+ case AOP_ACC:
+ aop->coff = offset;
+ if (!offset && (strcmp (s, "acc") == 0))
+ break;
+
+ if (strcmp (aop->aopu.aop_str[offset], s))
+ emitcode ("mov", "%s,%s", aop->aopu.aop_str[offset], s);
+ break;
+
+ default:
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "aopPut got unsupported aop->type");
+ exit (1);
+ }
+
+}
+
+
+/*--------------------------------------------------------------------*/
+/* reAdjustPreg - points a register back to where it should (coff==0) */
+/*--------------------------------------------------------------------*/
+static void
+reAdjustPreg (asmop * aop)
+{
+ if ((aop->coff==0) || (aop->size <= 1)) {
+ return;
+ }
+
+ switch (aop->type)
+ {
+ case AOP_R0:
+ case AOP_R1:
+ while (aop->coff--)
+ emitcode ("dec", "%s", aop->aopu.aop_ptr->name);
+ break;
+ case AOP_DPTR:
+ case AOP_DPTR2:
+ if (aop->type == AOP_DPTR2)
+ {
+ genSetDPTR (1);
+ _flushLazyDPS ();
+ }
+ while (aop->coff--)
+ {
+ emitcode ("lcall", "__decdptr");
+ }
+
+ if (aop->type == AOP_DPTR2)
+ {
+ genSetDPTR (0);
+ }
+ break;
+
+ }
+ aop->coff=0;
+}
+
+#define AOP(op) op->aop
+#define AOP_TYPE(op) AOP(op)->type
+#define AOP_SIZE(op) AOP(op)->size
+#define IS_AOP_PREG(x) (AOP(x) && (AOP_TYPE(x) == AOP_R1 || \
+ AOP_TYPE(x) == AOP_R0))
+
+#define AOP_NEEDSACC(x) (AOP(x) && (AOP_TYPE(x) == AOP_CRY || \
+ AOP_TYPE(x) == AOP_DPTR || AOP_TYPE(x) == AOP_DPTR2 || \
+ AOP(x)->paged))
+
+#define AOP_INPREG(x) (x && (x->type == AOP_REG && \
+ (x->aopu.aop_reg[0] == ds390_regWithIdx(R0_IDX) || \
+ x->aopu.aop_reg[0] == ds390_regWithIdx(R1_IDX) )))
+#define AOP_INDPTRn(x) (AOP_TYPE(x) == AOP_DPTRn)
+#define AOP_USESDPTR(x) ((AOP_TYPE(x) == AOP_DPTR) || (AOP_TYPE(x) == AOP_STR))
+#define AOP_USESDPTR2(x) ((AOP_TYPE(x) == AOP_DPTR2) || (AOP_TYPE(x) == AOP_DPTRn))
+
+// The following two macros can be used even if the aop has not yet been aopOp'd.
+#define AOP_IS_STR(x) (IS_SYMOP(x) && OP_SYMBOL(x)->ruonly)
+#define AOP_IS_DPTRn(x) (IS_SYMOP(x) && OP_SYMBOL(x)->dptr)
+
+/* Workaround for DS80C390 bug: div ab may return bogus results
+ * if A is accessed in instruction immediately before the div.
+ *
+ * Will be fixed in B4 rev of processor, Dallas claims.
+ */
+
+#define LOAD_AB_FOR_DIV(LEFT, RIGHT, L) \
+ if (!AOP_NEEDSACC(RIGHT)) \
+ { \
+ /* We can load A first, then B, since \
+ * B (the RIGHT operand) won't clobber A, \
+ * thus avoiding touching A right before the div. \
+ */ \
+ D(emitcode(";", "DS80C390 div bug: rearranged ops.");); \
+ L = aopGet(AOP(LEFT),0,FALSE,FALSE,NULL); \
+ MOVA(L); \
+ L = aopGet(AOP(RIGHT),0,FALSE,FALSE,"b"); \
+ MOVB(L); \
+ } \
+ else \
+ { \
+ /* Just stuff in a nop after loading A. */ \
+ emitcode("mov","b,%s",aopGet(AOP(RIGHT),0,FALSE,FALSE,NULL));\
+ L = aopGet(AOP(LEFT),0,FALSE,FALSE,NULL); \
+ MOVA(L); \
+ emitcode("nop", "; workaround for DS80C390 div bug."); \
+ }
+
+
+/*-----------------------------------------------------------------*/
+/* opIsGptr: returns non-zero if the passed operand is */
+/* a generic pointer type. */
+/*-----------------------------------------------------------------*/
+static int
+opIsGptr (operand * op)
+{
+ sym_link *type = operandType (op);
+
+ if ((AOP_SIZE (op) == GPTRSIZE) && IS_GENPTR (type))
+ {
+ return 1;
+ }
+ return 0;
+}
+
+/*-----------------------------------------------------------------*/
+/* getDataSize - get the operand data size */
+/*-----------------------------------------------------------------*/
+static int
+getDataSize (operand * op)
+{
+ int size;
+ size = AOP_SIZE (op);
+ if (size == GPTRSIZE)
+ {
+ sym_link *type = operandType (op);
+ if (IS_GENPTR (type))
+ {
+ /* generic pointer; arithmetic operations
+ * should ignore the high byte (pointer type).
+ */
+ size--;
+ }
+ }
+ return size;
+}
+
+/*-----------------------------------------------------------------*/
+/* outAcc - output Acc */
+/*-----------------------------------------------------------------*/
+static void
+outAcc (operand * result)
+{
+ int size, offset;
+ size = getDataSize (result);
+ if (size)
+ {
+ aopPut (AOP (result), "a", 0);
+ size--;
+ offset = 1;
+ /* unsigned or positive */
+ while (size--)
+ {
+ aopPut (AOP (result), zero, offset++);
+ }
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* outBitC - output a bit C */
+/*-----------------------------------------------------------------*/
+static void
+outBitC (operand * result)
+{
+ /* if the result is bit */
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ aopPut (AOP (result), "c", 0);
+ }
+ else
+ {
+ emitcode ("clr", "a");
+ emitcode ("rlc", "a");
+ outAcc (result);
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* toBoolean - emit code for orl a,operator(sizeop) */
+/*-----------------------------------------------------------------*/
+static void
+toBoolean (operand * oper)
+{
+ int size = AOP_SIZE (oper) - 1;
+ int offset = 1;
+ bool usedB = FALSE;
+
+ /* The generic part of a generic pointer should
+ * not participate in it's truth value.
+ *
+ * i.e. 0x10000000 is zero.
+ */
+ if (opIsGptr (oper))
+ {
+ D (emitcode (";", "toBoolean: generic ptr special case."););
+ size--;
+ }
+
+ _startLazyDPSEvaluation ();
+ if (AOP_NEEDSACC (oper) && size)
+ {
+ usedB = TRUE;
+ if (_G.bInUse)
+ {
+ emitcode ("push", "b");
+ }
+ MOVB (aopGet (AOP (oper), 0, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ MOVA (aopGet (AOP (oper), 0, FALSE, FALSE, NULL));
+ }
+
+ while (size--)
+ {
+ if (usedB)
+ {
+ emitcode ("orl", "b,%s",
+ aopGet (AOP (oper), offset++, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (oper), offset++, FALSE, FALSE, NULL));
+ }
+ }
+ _endLazyDPSEvaluation ();
+
+ if (usedB)
+ {
+ emitcode ("mov", "a,b");
+ if (_G.bInUse)
+ {
+ emitcode ("pop", "b");
+ }
+
+ }
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genNot - generate code for ! operation */
+/*-----------------------------------------------------------------*/
+static void
+genNot (iCode * ic)
+{
+ symbol *tlbl;
+
+ D (emitcode (";", "genNot "););
+
+ /* assign asmOps to operand & result */
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+ aopOp (IC_RESULT (ic), ic, TRUE, AOP_USESDPTR(IC_LEFT (ic)));
+
+ /* if in bit space then a special case */
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", IC_LEFT (ic)->aop->aopu.aop_dir);
+ emitcode ("cpl", "c");
+ outBitC (IC_RESULT (ic));
+ goto release;
+ }
+
+ toBoolean (IC_LEFT (ic));
+
+ tlbl = newiTempLabel (NULL);
+ emitcode ("cjne", "a,#1,!tlabel", tlbl->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ outBitC (IC_RESULT (ic));
+
+release:
+ /* release the aops */
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genCpl - generate code for complement */
+/*-----------------------------------------------------------------*/
+static void
+genCpl (iCode * ic)
+{
+ int offset = 0;
+ int size;
+ symbol *tlbl;
+ sym_link *letype = getSpec (operandType (IC_LEFT (ic)));
+
+ D(emitcode (";", "genCpl"));
+
+ /* assign asmOps to operand & result */
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+ aopOp (IC_RESULT (ic), ic, TRUE, AOP_USESDPTR(IC_LEFT (ic)));
+
+ /* special case if in bit space */
+ if (AOP_TYPE (IC_RESULT (ic)) == AOP_CRY)
+ {
+ char *l;
+
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_CRY ||
+ (SPEC_USIGN (letype) && IS_CHAR (letype)))
+ {
+ /* promotion rules are responsible for this strange result:
+ bit -> int -> ~int -> bit
+ uchar -> int -> ~int -> bit
+ */
+ werror(W_COMPLEMENT);
+ emitcode ("setb", "%s", IC_RESULT (ic)->aop->aopu.aop_dir);
+ goto release;
+ }
+ tlbl=newiTempLabel(NULL);
+ l = aopGet (AOP (IC_LEFT (ic)), offset++, FALSE, FALSE,NULL);
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_ACC ||
+ AOP_TYPE (IC_LEFT (ic)) == AOP_REG ||
+ IS_AOP_PREG (IC_LEFT (ic)))
+ {
+ emitcode ("cjne", "%s,#0xFF,%05d$", l, tlbl->key + 100);
+ }
+ else
+ {
+ MOVA (l);
+ emitcode ("cjne", "a,#0xFF,%05d$", tlbl->key + 100);
+ }
+ emitcode ("", "%05d$:", tlbl->key+100);
+ outBitC (IC_RESULT(ic));
+ goto release;
+ }
+
+ size = AOP_SIZE (IC_RESULT (ic));
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ MOVA (aopGet (AOP (IC_LEFT (ic)), offset, FALSE, FALSE, NULL));
+ emitcode ("cpl", "a");
+ aopPut (AOP (IC_RESULT (ic)), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+
+
+release:
+ /* release the aops */
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genUminusFloat - unary minus for floating points */
+/*-----------------------------------------------------------------*/
+static void
+genUminusFloat (operand * op, operand * result)
+{
+ int size, offset = 0;
+
+ D(emitcode (";", "genUminusFloat"););
+
+ /* for this we just copy and then flip the bit */
+
+ _startLazyDPSEvaluation ();
+ size = AOP_SIZE (op) - 1;
+
+ while (size--)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (op), offset, FALSE, FALSE, NULL),
+ offset);
+ offset++;
+ }
+
+ MOVA(aopGet (AOP (op), offset, FALSE, FALSE, NULL));
+
+ emitcode ("cpl", "acc.7");
+ aopPut (AOP (result), "a", offset);
+ _endLazyDPSEvaluation ();
+}
+
+/*-----------------------------------------------------------------*/
+/* genUminus - unary minus code generation */
+/*-----------------------------------------------------------------*/
+static void
+genUminus (iCode * ic)
+{
+ int offset, size;
+ sym_link *optype;
+
+ D (emitcode (";", "genUminus "););
+
+ /* assign asmops */
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+ aopOp (IC_RESULT (ic), ic, TRUE, (AOP_TYPE(IC_LEFT (ic)) == AOP_DPTR));
+
+ /* if both in bit space then special
+ case */
+ if (AOP_TYPE (IC_RESULT (ic)) == AOP_CRY &&
+ AOP_TYPE (IC_LEFT (ic)) == AOP_CRY)
+ {
+
+ emitcode ("mov", "c,%s", IC_LEFT (ic)->aop->aopu.aop_dir);
+ emitcode ("cpl", "c");
+ emitcode ("mov", "%s,c", IC_RESULT (ic)->aop->aopu.aop_dir);
+ goto release;
+ }
+
+ optype = operandType (IC_LEFT (ic));
+
+ /* if float then do float stuff */
+ if (IS_FLOAT (optype))
+ {
+ genUminusFloat (IC_LEFT (ic), IC_RESULT (ic));
+ goto release;
+ }
+
+ /* otherwise subtract from zero */
+ size = AOP_SIZE (IC_LEFT (ic));
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ char *l = aopGet (AOP (IC_LEFT (ic)), offset, FALSE, FALSE, NULL);
+ if (!strcmp (l, "a"))
+ {
+ if (offset == 0)
+ SETC;
+ emitcode ("cpl", "a");
+ emitcode ("addc", "a,#0");
+ }
+ else
+ {
+ if (offset == 0)
+ CLRC;
+ emitcode ("clr", "a");
+ emitcode ("subb", "a,%s", l);
+ }
+ aopPut (AOP (IC_RESULT (ic)), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+
+ /* if any remaining bytes in the result */
+ /* we just need to propagate the sign */
+ if ((size = (AOP_SIZE(IC_RESULT(ic)) - AOP_SIZE(IC_LEFT(ic)))) != 0)
+ {
+ emitcode ("rlc", "a");
+ emitcode ("subb", "a,acc");
+ while (size--)
+ aopPut (AOP (IC_RESULT (ic)), "a", offset++);
+ }
+
+release:
+ /* release the aops */
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? 0 : 1));
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* savermask - saves registers in the mask */
+/*-----------------------------------------------------------------*/
+static void savermask(bitVect *rs_mask)
+{
+ int i;
+ if (options.useXstack) {
+ if (bitVectBitValue (rs_mask, R0_IDX))
+ emitcode ("mov", "b,r0");
+ emitcode ("mov", "r0,%s", spname);
+ for (i = 0; i < ds390_nRegs; i++) {
+ if (bitVectBitValue (rs_mask, i)) {
+ if (i == R0_IDX)
+ emitcode ("mov", "a,b");
+ else
+ emitcode ("mov", "a,%s", ds390_regWithIdx (i)->name);
+ emitcode ("movx", "@r0,a");
+ emitcode ("inc", "r0");
+ }
+ }
+ emitcode ("mov", "%s,r0", spname);
+ if (bitVectBitValue (rs_mask, R0_IDX))
+ emitcode ("mov", "r0,b");
+ } else {
+ for (i = 0; i < ds390_nRegs; i++) {
+ if (bitVectBitValue (rs_mask, i))
+ emitcode ("push", "%s", ds390_regWithIdx (i)->dname);
+ }
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* saveRegisters - will look for a call and save the registers */
+/*-----------------------------------------------------------------*/
+static void
+saveRegisters (iCode * lic)
+{
+ iCode *ic;
+ bitVect *rsave;
+
+ /* look for call */
+ for (ic = lic; ic; ic = ic->next)
+ if (ic->op == CALL || ic->op == PCALL)
+ break;
+
+ if (!ic)
+ {
+ fprintf (stderr, "found parameter push with no function call\n");
+ return;
+ }
+
+ /* if the registers have been saved already then
+ do nothing */
+ if (ic->regsSaved
+ || (IS_SYMOP(IC_LEFT(ic)) && IFFUNC_ISNAKED(OP_SYM_TYPE(IC_LEFT(ic))) && !TARGET_IS_DS400) )
+ return ;
+
+ /* special case if DPTR alive across a function call then must save it
+ even though callee saves */
+ if (IS_SYMOP(IC_LEFT(ic)) &&
+ IFFUNC_CALLEESAVES(OP_SYMBOL (IC_LEFT (ic))->type)) {
+ int i;
+ rsave = newBitVect(ic->rMask->size);
+ for (i = DPL_IDX ; i <= B_IDX ; i++ ) {
+ if (bitVectBitValue(ic->rMask,i))
+ rsave = bitVectSetBit(rsave,i);
+ }
+ rsave = bitVectCplAnd(rsave,ds390_rUmaskForOp (IC_RESULT(ic)));
+ } else {
+ /* safe the registers in use at this time but skip the
+ ones for the result */
+ rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic)));
+ }
+ ic->regsSaved = 1;
+ savermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* usavermask - restore registers with mask */
+/*-----------------------------------------------------------------*/
+static void unsavermask(bitVect *rs_mask)
+{
+ int i;
+ if (options.useXstack) {
+ emitcode ("mov", "r0,%s", spname);
+ for (i = ds390_nRegs; i >= 0; i--) {
+ if (bitVectBitValue (rs_mask, i)) {
+ emitcode ("dec", "r0");
+ emitcode ("movx", "a,@r0");
+ if (i == R0_IDX)
+ emitcode ("mov", "b,a");
+ else
+ emitcode ("mov", "%s,a", ds390_regWithIdx (i)->name);
+ }
+ }
+ emitcode ("mov", "%s,r0", spname);
+ if (bitVectBitValue (rs_mask, R0_IDX))
+ emitcode ("mov", "r0,b");
+ } else {
+ for (i = ds390_nRegs; i >= 0; i--) {
+ if (bitVectBitValue (rs_mask, i))
+ emitcode ("pop", "%s", ds390_regWithIdx (i)->dname);
+ }
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* unsaveRegisters - pop the pushed registers */
+/*-----------------------------------------------------------------*/
+static void
+unsaveRegisters (iCode * ic)
+{
+ bitVect *rsave;
+
+ if (IFFUNC_CALLEESAVES(OP_SYMBOL (IC_LEFT (ic))->type)) {
+ int i;
+ rsave = newBitVect(ic->rMask->size);
+ for (i = DPL_IDX ; i <= B_IDX ; i++ ) {
+ if (bitVectBitValue(ic->rMask,i))
+ rsave = bitVectSetBit(rsave,i);
+ }
+ rsave = bitVectCplAnd(rsave,ds390_rUmaskForOp (IC_RESULT(ic)));
+ } else {
+ /* restore the registers in use at this time but skip the
+ ones for the result */
+ rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic)));
+ }
+ unsavermask(rsave);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* pushSide - */
+/*-----------------------------------------------------------------*/
+static void
+pushSide (operand * oper, int size)
+{
+ int offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ char *l = aopGet (AOP (oper), offset++, FALSE, TRUE, NULL);
+ if (AOP_TYPE (oper) != AOP_REG &&
+ AOP_TYPE (oper) != AOP_DIR &&
+ strcmp (l, "a"))
+ {
+ emitcode ("mov", "a,%s", l);
+ emitcode ("push", "acc");
+ }
+ else
+ emitcode ("push", "%s", l);
+ }
+ _endLazyDPSEvaluation ();
+}
+
+/*-----------------------------------------------------------------*/
+/* assignResultValue - */
+/*-----------------------------------------------------------------*/
+static void
+assignResultValue (operand * oper)
+{
+ int offset = 0;
+ int size = AOP_SIZE (oper);
+ bool pushedAcc = FALSE;
+
+ if (size == fReturnSizeDS390)
+ {
+ /* I don't think this case can ever happen... */
+ /* ACC is the last part of this. If writing the result
+ * uses AC, we must preserve it.
+ */
+ if (AOP_NEEDSACC(oper))
+ {
+ emitcode(";", "assignResultValue special case for ACC.");
+ emitcode("push", "acc");
+ pushedAcc = TRUE;
+ size--;
+ }
+ }
+
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ aopPut (AOP (oper), fReturn[offset], offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+
+ if (pushedAcc)
+ {
+ emitcode("pop", "acc");
+ aopPut(AOP(oper), "a", offset);
+ }
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genXpush - pushes onto the external stack */
+/*-----------------------------------------------------------------*/
+static void
+genXpush (iCode * ic)
+{
+ asmop *aop = newAsmop (0);
+ regs *r;
+ int size, offset = 0;
+
+ D (emitcode (";", "genXpush ");
+ );
+
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+ r = getFreePtr (ic, &aop, FALSE);
+
+
+ emitcode ("mov", "%s,_spx", r->name);
+
+ size = AOP_SIZE (IC_LEFT (ic));
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+
+ MOVA (aopGet (AOP (IC_LEFT (ic)),
+ offset++, FALSE, FALSE, NULL));
+ emitcode ("movx", "@%s,a", r->name);
+ emitcode ("inc", "%s", r->name);
+
+ }
+ _endLazyDPSEvaluation ();
+
+
+ emitcode ("mov", "_spx,%s", r->name);
+
+ freeAsmop (NULL, aop, ic, TRUE);
+ freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genIpush - generate code for pushing this gets a little complex */
+/*-----------------------------------------------------------------*/
+static void
+genIpush (iCode * ic)
+{
+ int size, offset = 0;
+ char *l;
+
+ D (emitcode (";", "genIpush ");
+ );
+
+ /* if this is not a parm push : ie. it is spill push
+ and spill push is always done on the local stack */
+ if (!ic->parmPush)
+ {
+
+ /* and the item is spilt then do nothing */
+ if (OP_SYMBOL (IC_LEFT (ic))->isspilt || OP_SYMBOL(IC_LEFT(ic))->dptr)
+ return;
+
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+ size = AOP_SIZE (IC_LEFT (ic));
+ /* push it on the stack */
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ l = aopGet (AOP (IC_LEFT (ic)), offset++, FALSE, TRUE, NULL);
+ if (*l == '#')
+ {
+ MOVA (l);
+ l = "acc";
+ }
+ emitcode ("push", "%s", l);
+ }
+ _endLazyDPSEvaluation ();
+ return;
+ }
+
+ /* this is a paramter push: in this case we call
+ the routine to find the call and save those
+ registers that need to be saved */
+ saveRegisters (ic);
+
+ /* if use external stack then call the external
+ stack pushing routine */
+ if (options.useXstack)
+ {
+ genXpush (ic);
+ return;
+ }
+
+ /* then do the push */
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+
+ // pushSide(IC_LEFT(ic), AOP_SIZE(IC_LEFT(ic)));
+ size = AOP_SIZE (IC_LEFT (ic));
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ l = aopGet (AOP (IC_LEFT (ic)), offset++, FALSE, TRUE, NULL);
+ if (AOP_TYPE (IC_LEFT (ic)) != AOP_REG &&
+ AOP_TYPE (IC_LEFT (ic)) != AOP_DIR &&
+ strcmp (l, "acc"))
+ {
+ emitcode ("mov", "a,%s", l);
+ emitcode ("push", "acc");
+ }
+ else
+ {
+ emitcode ("push", "%s", l);
+ }
+ }
+ _endLazyDPSEvaluation ();
+
+ freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genIpop - recover the registers: can happen only for spilling */
+/*-----------------------------------------------------------------*/
+static void
+genIpop (iCode * ic)
+{
+ int size, offset;
+
+ D (emitcode (";", "genIpop ");
+ );
+
+
+ /* if the temp was not pushed then */
+ if (OP_SYMBOL (IC_LEFT (ic))->isspilt || OP_SYMBOL (IC_LEFT (ic))->dptr)
+ return;
+
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+ size = AOP_SIZE (IC_LEFT (ic));
+ offset = (size - 1);
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ emitcode ("pop", "%s", aopGet (AOP (IC_LEFT (ic)), offset--,
+ FALSE, TRUE, NULL));
+ }
+ _endLazyDPSEvaluation ();
+
+ freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* unsaveRBank - restores the resgister bank from stack */
+/*-----------------------------------------------------------------*/
+static void
+unsaveRBank (int bank, iCode * ic, bool popPsw)
+{
+ int i;
+ asmop *aop = NULL;
+ regs *r = NULL;
+
+ if (options.useXstack)
+ {
+ if (!ic)
+ {
+ /* Assume r0 is available for use. */
+ r = ds390_regWithIdx (R0_IDX);;
+ }
+ else
+ {
+ aop = newAsmop (0);
+ r = getFreePtr (ic, &aop, FALSE);
+ }
+ emitcode ("mov", "%s,_spx", r->name);
+ }
+
+ if (popPsw)
+ {
+ if (options.useXstack)
+ {
+ emitcode ("movx", "a,@%s", r->name);
+ emitcode ("mov", "psw,a");
+ emitcode ("dec", "%s", r->name);
+ }
+ else
+ {
+ emitcode ("pop", "psw");
+ }
+ }
+
+ for (i = 7; i >= 0; i--) /* only R7-R0 needs to be popped */
+ {
+ if (options.useXstack)
+ {
+ emitcode ("movx", "a,@%s", r->name);
+ emitcode ("mov", "(%s+%d),a",
+ regs390[i].base, 8 * bank + regs390[i].offset);
+ emitcode ("dec", "%s", r->name);
+
+ }
+ else
+ emitcode ("pop", "(%s+%d)",
+ regs390[i].base, 8 * bank + regs390[i].offset);
+ }
+
+ if (options.useXstack)
+ {
+ emitcode ("mov", "_spx,%s", r->name);
+ }
+
+ if (aop)
+ {
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* saveRBank - saves an entire register bank on the stack */
+/*-----------------------------------------------------------------*/
+static void
+saveRBank (int bank, iCode * ic, bool pushPsw)
+{
+ int i;
+ asmop *aop = NULL;
+ regs *r = NULL;
+
+ if (options.useXstack)
+ {
+ if (!ic)
+ {
+ /* Assume r0 is available for use. */
+ r = ds390_regWithIdx (R0_IDX);;
+ }
+ else
+ {
+ aop = newAsmop (0);
+ r = getFreePtr (ic, &aop, FALSE);
+ }
+ emitcode ("mov", "%s,_spx", r->name);
+ }
+
+ for (i = 0; i < 8 ; i++) /* only R0-R7 needs saving */
+ {
+ if (options.useXstack)
+ {
+ emitcode ("inc", "%s", r->name);
+ emitcode ("mov", "a,(%s+%d)",
+ regs390[i].base, 8 * bank + regs390[i].offset);
+ emitcode ("movx", "@%s,a", r->name);
+ }
+ else
+ emitcode ("push", "(%s+%d)",
+ regs390[i].base, 8 * bank + regs390[i].offset);
+ }
+
+ if (pushPsw)
+ {
+ if (options.useXstack)
+ {
+ emitcode ("mov", "a,psw");
+ emitcode ("movx", "@%s,a", r->name);
+ emitcode ("inc", "%s", r->name);
+ emitcode ("mov", "_spx,%s", r->name);
+ }
+ else
+ {
+ emitcode ("push", "psw");
+ }
+
+ emitcode ("mov", "psw,#!constbyte", (bank << 3) & 0x00ff);
+ }
+
+ if (aop)
+ {
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
+
+ if (ic)
+ {
+ ic->bankSaved = 1;
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genSend - gen code for SEND */
+/*-----------------------------------------------------------------*/
+static void genSend(set *sendSet)
+{
+ iCode *sic;
+ int sendCount = 0 ;
+ static int rb1_count = 0;
+
+ for (sic = setFirstItem (sendSet); sic;
+ sic = setNextItem (sendSet)) {
+ int size, offset = 0;
+
+ size=getSize(operandType(IC_LEFT(sic)));
+ D (emitcode (";", "genSend argreg = %d, size = %d ",sic->argreg,size));
+ if (sendCount == 0) { /* first parameter */
+ // we know that dpl(hxb) is the result, so
+ rb1_count = 0 ;
+ _startLazyDPSEvaluation ();
+ if (size>1) {
+ aopOp (IC_LEFT (sic), sic, FALSE,
+ (AOP_IS_STR(IC_LEFT(sic)) ? FALSE : TRUE));
+ } else {
+ aopOp (IC_LEFT (sic), sic, FALSE, FALSE);
+ }
+ while (size--) {
+ char *l = aopGet (AOP (IC_LEFT (sic)), offset,
+ FALSE, FALSE, NULL);
+ if (strcmp (l, fReturn[offset])) {
+ emitcode ("mov", "%s,%s",
+ fReturn[offset],
+ l);
+ }
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ freeAsmop (IC_LEFT (sic), NULL, sic, TRUE);
+ rb1_count =0;
+ } else { /* if more parameter in registers */
+ aopOp (IC_LEFT (sic), sic, FALSE, TRUE);
+ while (size--) {
+ emitcode ("mov","b1_%d,%s",rb1_count++,aopGet (AOP (IC_LEFT (sic)), offset++,
+ FALSE, FALSE, NULL));
+ }
+ freeAsmop (IC_LEFT (sic), NULL, sic, TRUE);
+ }
+ sendCount++;
+ }
+}
+
+static void
+adjustEsp(const char *reg)
+{
+ emitcode ("anl","%s,#3", reg);
+ if (TARGET_IS_DS400)
+ {
+ emitcode ("orl","%s,#!constbyte",
+ reg,
+ (options.stack_loc >> 8) & 0xff);
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genCall - generates a call statement */
+/*-----------------------------------------------------------------*/
+static void
+genCall (iCode * ic)
+{
+ sym_link *dtype;
+ bool restoreBank = FALSE;
+ bool swapBanks = FALSE;
+
+ D (emitcode (";", "genCall "););
+
+ /* if we are calling a not _naked function that is not using
+ the same register bank then we need to save the
+ destination registers on the stack */
+ dtype = operandType (IC_LEFT (ic));
+ if (currFunc && dtype && (!IFFUNC_ISNAKED(dtype) || TARGET_IS_DS400) &&
+ (FUNC_REGBANK (currFunc->type) != FUNC_REGBANK (dtype)) &&
+ IFFUNC_ISISR (currFunc->type))
+ {
+ if (!ic->bankSaved)
+ {
+ /* This is unexpected; the bank should have been saved in
+ * genFunction.
+ */
+ saveRBank (FUNC_REGBANK (dtype), ic, FALSE);
+ restoreBank = TRUE;
+ }
+ swapBanks = TRUE;
+ }
+
+ /* if caller saves & we have not saved then */
+ if (!ic->regsSaved)
+ saveRegisters (ic);
+
+ /* if send set is not empty then assign */
+ /* We've saved all the registers we care about;
+ * therefore, we may clobber any register not used
+ * in the calling convention (i.e. anything not in
+ * fReturn.
+ */
+ if (_G.sendSet)
+ {
+ if (IFFUNC_ISREENT(dtype)) { /* need to reverse the send set */
+ genSend(reverseSet(_G.sendSet));
+ } else {
+ genSend(_G.sendSet);
+ }
+ _G.sendSet = NULL;
+ }
+
+ if (swapBanks)
+ {
+ emitcode ("mov", "psw,#!constbyte",
+ ((FUNC_REGBANK(dtype)) << 3) & 0xff);
+ }
+
+ /* make the call */
+ emitcode ("lcall", "%s", (OP_SYMBOL (IC_LEFT (ic))->rname[0] ?
+ OP_SYMBOL (IC_LEFT (ic))->rname :
+ OP_SYMBOL (IC_LEFT (ic))->name));
+
+ if (swapBanks)
+ {
+ emitcode ("mov", "psw,#!constbyte",
+ ((FUNC_REGBANK(currFunc->type)) << 3) & 0xff);
+ }
+
+ /* if we need assign a result value */
+ if ((IS_ITEMP (IC_RESULT (ic)) &&
+ (OP_SYMBOL (IC_RESULT (ic))->nRegs ||
+ OP_SYMBOL (IC_RESULT (ic))->accuse ||
+ OP_SYMBOL (IC_RESULT (ic))->spildir)) ||
+ IS_TRUE_SYMOP (IC_RESULT (ic)))
+ {
+ if (isOperandInFarSpace (IC_RESULT (ic))
+ && getSize (operandType (IC_RESULT (ic))) <= 2)
+ {
+ int size = getSize (operandType (IC_RESULT (ic)));
+
+ /* Special case for 1 or 2 byte return in far space. */
+ MOVA (fReturn[0]);
+ if (size > 1)
+ {
+ emitcode ("mov", "b,%s", fReturn[1]);
+ _G.bInUse++;
+ }
+
+ _G.accInUse++;
+ aopOp (IC_RESULT (ic), ic, FALSE, FALSE);
+ _G.accInUse--;
+
+ if (size > 1)
+ _G.bInUse--;
+
+ aopPut (AOP (IC_RESULT (ic)), "a", 0);
+
+ if (size > 1)
+ {
+ aopPut (AOP (IC_RESULT (ic)), "b", 1);
+ }
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ }
+ else
+ {
+ _G.bInUse++;
+ aopOp (IC_RESULT (ic), ic, FALSE, TRUE);
+ _G.bInUse--;
+
+ assignResultValue (IC_RESULT (ic));
+
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ }
+ }
+
+ /* adjust the stack for parameters if
+ required */
+ if (ic->parmBytes) {
+ int i;
+ if (options.stack10bit) {
+ if (ic->parmBytes <= 10) {
+ emitcode(";","stack adjustment for parms");
+ for (i=0; i < ic->parmBytes ; i++) {
+ emitcode("pop","acc");
+ }
+ } else {
+ PROTECT_SP;
+ emitcode ("clr","c");
+ emitcode ("mov","a,sp");
+ emitcode ("subb","a,#!constbyte",ic->parmBytes & 0xff);
+ emitcode ("mov","sp,a");
+ emitcode ("mov","a,esp");
+ adjustEsp("a");
+ emitcode ("subb","a,#!constbyte",(ic->parmBytes >> 8) & 0xff);
+ emitcode ("mov","esp,a");
+ UNPROTECT_SP;
+ }
+ } else {
+ if (ic->parmBytes > 3) {
+ emitcode ("mov", "a,%s", spname);
+ emitcode ("add", "a,#!constbyte", (-ic->parmBytes) & 0xff);
+ emitcode ("mov", "%s,a", spname);
+ } else
+ for (i = 0; i < ic->parmBytes; i++)
+ emitcode ("dec", "%s", spname);
+ }
+ }
+
+ /* if we hade saved some registers then unsave them */
+ if (ic->regsSaved)
+ unsaveRegisters (ic);
+
+ /* if register bank was saved then pop them */
+ if (restoreBank)
+ unsaveRBank (FUNC_REGBANK (dtype), ic, FALSE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genPcall - generates a call by pointer statement */
+/*-----------------------------------------------------------------*/
+static void
+genPcall (iCode * ic)
+{
+ sym_link *dtype;
+ symbol *rlbl = newiTempLabel (NULL);
+ bool restoreBank=FALSE;
+
+ D (emitcode (";", "genPcall ");
+ );
+
+
+ /* if caller saves & we have not saved then */
+ if (!ic->regsSaved)
+ saveRegisters (ic);
+
+ /* if we are calling a function that is not using
+ the same register bank then we need to save the
+ destination registers on the stack */
+ dtype = operandType (IC_LEFT (ic));
+ if (currFunc && dtype && (!IFFUNC_ISNAKED(dtype) || TARGET_IS_DS400) &&
+ IFFUNC_ISISR (currFunc->type) &&
+ (FUNC_REGBANK (currFunc->type) != FUNC_REGBANK (dtype))) {
+ saveRBank (FUNC_REGBANK (dtype), ic, TRUE);
+ restoreBank=TRUE;
+ }
+
+ /* push the return address on to the stack */
+ emitcode ("mov", "a,#!tlabel", (rlbl->key + 100));
+ emitcode ("push", "acc");
+ emitcode ("mov", "a,#!hil", (rlbl->key + 100));
+ emitcode ("push", "acc");
+
+ if (options.model == MODEL_FLAT24)
+ {
+ emitcode ("mov", "a,#!hihil", (rlbl->key + 100));
+ emitcode ("push", "acc");
+ }
+
+ /* now push the calling address */
+ aopOp (IC_LEFT (ic), ic, FALSE, FALSE);
+
+ pushSide (IC_LEFT (ic), FPTRSIZE);
+
+ freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+
+ /* if send set is not empty the assign */
+ if (_G.sendSet)
+ {
+ genSend(reverseSet(_G.sendSet));
+ _G.sendSet = NULL;
+ }
+
+ emitcode ("ret", "");
+ emitcode ("", "!tlabeldef", (rlbl->key + 100));
+
+
+ /* if we need assign a result value */
+ if ((IS_ITEMP (IC_RESULT (ic)) &&
+ (OP_SYMBOL (IC_RESULT (ic))->nRegs ||
+ OP_SYMBOL (IC_RESULT (ic))->spildir)) ||
+ IS_TRUE_SYMOP (IC_RESULT (ic)))
+ {
+
+ _G.accInUse++;
+ aopOp (IC_RESULT (ic), ic, FALSE, TRUE);
+ _G.accInUse--;
+
+ assignResultValue (IC_RESULT (ic));
+
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ }
+
+ /* adjust the stack for parameters if
+ required */
+ if (ic->parmBytes)
+ {
+ int i;
+ if (options.stack10bit) {
+ if (ic->parmBytes <= 10) {
+ emitcode(";","stack adjustment for parms");
+ for (i=0; i < ic->parmBytes ; i++) {
+ emitcode("pop","acc");
+ }
+ } else {
+ PROTECT_SP;
+ emitcode ("clr","c");
+ emitcode ("mov","a,sp");
+ emitcode ("subb","a,#!constbyte",ic->parmBytes & 0xff);
+ emitcode ("mov","sp,a");
+ emitcode ("mov","a,esp");
+ adjustEsp("a");
+ emitcode ("subb","a,#!constbyte",(ic->parmBytes >> 8) & 0xff);
+ emitcode ("mov","esp,a");
+ UNPROTECT_SP;
+ }
+ } else {
+ if (ic->parmBytes > 3) {
+ emitcode ("mov", "a,%s", spname);
+ emitcode ("add", "a,#!constbyte", (-ic->parmBytes) & 0xff);
+ emitcode ("mov", "%s,a", spname);
+ }
+ else
+ for (i = 0; i < ic->parmBytes; i++)
+ emitcode ("dec", "%s", spname);
+
+ }
+ }
+ /* if register bank was saved then unsave them */
+ if (restoreBank)
+ unsaveRBank (FUNC_REGBANK (dtype), ic, TRUE);
+
+ /* if we hade saved some registers then
+ unsave them */
+ if (ic->regsSaved)
+ unsaveRegisters (ic);
+
+}
+
+/*-----------------------------------------------------------------*/
+/* resultRemat - result is rematerializable */
+/*-----------------------------------------------------------------*/
+static int
+resultRemat (iCode * ic)
+{
+ if (SKIP_IC (ic) || ic->op == IFX)
+ return 0;
+
+ if (IC_RESULT (ic) && IS_ITEMP (IC_RESULT (ic)))
+ {
+ symbol *sym = OP_SYMBOL (IC_RESULT (ic));
+ if (sym->remat && !POINTER_SET (ic))
+ return 1;
+ }
+
+ return 0;
+}
+
+#if defined(__BORLANDC__) || defined(_MSC_VER)
+#define STRCASECMP stricmp
+#else
+#define STRCASECMP strcasecmp
+#endif
+
+/*-----------------------------------------------------------------*/
+/* inExcludeList - return 1 if the string is in exclude Reg list */
+/*-----------------------------------------------------------------*/
+static int
+regsCmp(void *p1, void *p2)
+{
+ return (STRCASECMP((char *)p1, (char *)(p2)) == 0);
+}
+
+static bool
+inExcludeList (char *s)
+{
+ const char *p = setFirstItem(options.excludeRegsSet);
+
+ if (p == NULL || STRCASECMP(p, "none") == 0)
+ return FALSE;
+
+
+ return isinSetWith(options.excludeRegsSet, s, regsCmp);
+}
+
+/*-----------------------------------------------------------------*/
+/* genFunction - generated code for function entry */
+/*-----------------------------------------------------------------*/
+static void
+genFunction (iCode * ic)
+{
+ symbol *sym;
+ sym_link *ftype;
+ bool switchedPSW = FALSE;
+
+ D (emitcode (";", "genFunction "););
+
+ _G.nRegsSaved = 0;
+ /* create the function header */
+ emitcode (";", "-----------------------------------------");
+ emitcode (";", " function %s", (sym = OP_SYMBOL (IC_LEFT (ic)))->name);
+ emitcode (";", "-----------------------------------------");
+
+ emitcode ("", "%s:", sym->rname);
+ ftype = operandType (IC_LEFT (ic));
+
+ if (IFFUNC_ISNAKED(ftype))
+ {
+ emitcode(";", "naked function: no prologue.");
+ return;
+ }
+
+ if (options.stack_probe)
+ emitcode ("lcall","__stack_probe");
+
+ /* here we need to generate the equates for the
+ register bank if required */
+ if (FUNC_REGBANK (ftype) != rbank)
+ {
+ int i;
+
+ rbank = FUNC_REGBANK (ftype);
+ for (i = 0; i < ds390_nRegs; i++)
+ {
+ if (regs390[i].print) {
+ if (strcmp (regs390[i].base, "0") == 0)
+ emitcode ("", "%s !equ !constbyte",
+ regs390[i].dname,
+ 8 * rbank + regs390[i].offset);
+ else
+ emitcode ("", "%s !equ %s + !constbyte",
+ regs390[i].dname,
+ regs390[i].base,
+ 8 * rbank + regs390[i].offset);
+ }
+ }
+ }
+
+ /* if this is an interrupt service routine then
+ save acc, b, dpl, dph */
+ if (IFFUNC_ISISR (sym->type))
+ { /* is ISR */
+ if (!inExcludeList ("acc"))
+ emitcode ("push", "acc");
+ if (!inExcludeList ("b"))
+ emitcode ("push", "b");
+ if (!inExcludeList ("dpl"))
+ emitcode ("push", "dpl");
+ if (!inExcludeList ("dph"))
+ emitcode ("push", "dph");
+ if (options.model == MODEL_FLAT24 && !inExcludeList ("dpx"))
+ {
+ emitcode ("push", "dpx");
+ /* Make sure we're using standard DPTR */
+ emitcode ("push", "dps");
+ emitcode ("mov", "dps,#0");
+ if (options.stack10bit)
+ {
+ /* This ISR could conceivably use DPTR2. Better save it. */
+ emitcode ("push", "dpl1");
+ emitcode ("push", "dph1");
+ emitcode ("push", "dpx1");
+ emitcode ("push", DP2_RESULT_REG);
+ }
+ }
+ /* if this isr has no bank i.e. is going to
+ run with bank 0 , then we need to save more
+ registers :-) */
+ if (!FUNC_REGBANK (sym->type))
+ {
+ int i;
+
+ /* if this function does not call any other
+ function then we can be economical and
+ save only those registers that are used */
+ if (!IFFUNC_HASFCALL(sym->type))
+ {
+
+ /* if any registers used */
+ if (sym->regsUsed)
+ {
+ /* save the registers used */
+ for (i = 0; i < sym->regsUsed->size; i++)
+ {
+ if (bitVectBitValue (sym->regsUsed, i))
+ emitcode ("push", "%s", ds390_regWithIdx (i)->dname);
+ }
+ }
+ }
+ else
+ {
+ /* this function has a function call cannot
+ determines register usage so we will have to push the
+ entire bank */
+ saveRBank (0, ic, FALSE);
+ if (options.parms_in_bank1) {
+ for (i=0; i < 8 ; i++ ) {
+ emitcode ("push","%s",rb1regs[i]);
+ }
+ }
+ }
+ }
+ else
+ {
+ /* This ISR uses a non-zero bank.
+ *
+ * We assume that the bank is available for our
+ * exclusive use.
+ *
+ * However, if this ISR calls a function which uses some
+ * other bank, we must save that bank entirely.
+ */
+ unsigned long banksToSave = 0;
+
+ if (IFFUNC_HASFCALL(sym->type))
+ {
+
+#define MAX_REGISTER_BANKS 4
+
+ iCode *i;
+ int ix;
+
+ for (i = ic; i; i = i->next)
+ {
+ if (i->op == ENDFUNCTION)
+ {
+ /* we got to the end OK. */
+ break;
+ }
+
+ if (i->op == CALL)
+ {
+ sym_link *dtype;
+
+ dtype = operandType (IC_LEFT(i));
+ if (dtype
+ && FUNC_REGBANK(dtype) != FUNC_REGBANK(sym->type))
+ {
+ /* Mark this bank for saving. */
+ if (FUNC_REGBANK(dtype) >= MAX_REGISTER_BANKS)
+ {
+ werror(E_NO_SUCH_BANK, FUNC_REGBANK(dtype));
+ }
+ else
+ {
+ banksToSave |= (1 << FUNC_REGBANK(dtype));
+ }
+
+ /* And note that we don't need to do it in
+ * genCall.
+ */
+ i->bankSaved = 1;
+ }
+ }
+ if (i->op == PCALL)
+ {
+ /* This is a mess; we have no idea what
+ * register bank the called function might
+ * use.
+ *
+ * The only thing I can think of to do is
+ * throw a warning and hope.
+ */
+ werror(W_FUNCPTR_IN_USING_ISR);
+ }
+ }
+
+ if (banksToSave && options.useXstack)
+ {
+ /* Since we aren't passing it an ic,
+ * saveRBank will assume r0 is available to abuse.
+ *
+ * So switch to our (trashable) bank now, so
+ * the caller's R0 isn't trashed.
+ */
+ emitcode ("push", "psw");
+ emitcode ("mov", "psw,#!constbyte",
+ (FUNC_REGBANK (sym->type) << 3) & 0x00ff);
+ switchedPSW = TRUE;
+ }
+
+ for (ix = 0; ix < MAX_REGISTER_BANKS; ix++)
+ {
+ if (banksToSave & (1 << ix))
+ {
+ saveRBank(ix, NULL, FALSE);
+ }
+ }
+ }
+ // TODO: this needs a closer look
+ SPEC_ISR_SAVED_BANKS(currFunc->etype) = banksToSave;
+ }
+ }
+ else
+ {
+ /* if callee-save to be used for this function
+ then save the registers being used in this function */
+ if (IFFUNC_CALLEESAVES(sym->type))
+ {
+ int i;
+
+ /* if any registers used */
+ if (sym->regsUsed)
+ {
+ /* save the registers used */
+ for (i = 0; i < sym->regsUsed->size; i++)
+ {
+ if (bitVectBitValue (sym->regsUsed, i))
+ {
+ emitcode ("push", "%s", ds390_regWithIdx (i)->dname);
+ _G.nRegsSaved++;
+ }
+ }
+ }
+ }
+ }
+
+ /* set the register bank to the desired value */
+ if ((FUNC_REGBANK (sym->type) || FUNC_ISISR (sym->type))
+ && !switchedPSW)
+ {
+ emitcode ("push", "psw");
+ emitcode ("mov", "psw,#!constbyte", (FUNC_REGBANK (sym->type) << 3) & 0x00ff);
+ }
+
+ if ( (IFFUNC_ISREENT (sym->type) || options.stackAuto) &&
+ (sym->stack || FUNC_HASSTACKPARM(sym->type))) {
+ if (options.stack10bit) {
+ emitcode ("push","_bpx");
+ emitcode ("push","_bpx+1");
+ emitcode ("mov","_bpx,%s",spname);
+ emitcode ("mov","_bpx+1,esp");
+ adjustEsp("_bpx+1");
+ } else {
+ if (options.useXstack) {
+ emitcode ("mov", "r0,%s", spname);
+ emitcode ("mov", "a,_bp");
+ emitcode ("movx", "@r0,a");
+ emitcode ("inc", "%s", spname);
+ } else {
+ /* set up the stack */
+ emitcode ("push", "_bp"); /* save the callers stack */
+ }
+ emitcode ("mov", "_bp,%s", spname);
+ }
+ }
+
+ /* adjust the stack for the function */
+ if (sym->stack) {
+ int i = sym->stack;
+ if (options.stack10bit) {
+ if ( i > 1024) werror (W_STACK_OVERFLOW, sym->name);
+ assert (sym->recvSize <= 4);
+ if (sym->stack <= 8) {
+ while (i--) emitcode ("push","acc");
+ } else {
+ PROTECT_SP;
+ emitcode ("mov","a,sp");
+ emitcode ("add","a,#!constbyte", ((short) sym->stack & 0xff));
+ emitcode ("mov","sp,a");
+ emitcode ("mov","a,esp");
+ adjustEsp("a");
+ emitcode ("addc","a,#!constbyte", (((short) sym->stack) >> 8) & 0xff);
+ emitcode ("mov","esp,a");
+ UNPROTECT_SP;
+ }
+ } else {
+ if (i > 256)
+ werror (W_STACK_OVERFLOW, sym->name);
+
+ if (i > 3 && sym->recvSize < 4) {
+
+ emitcode ("mov", "a,sp");
+ emitcode ("add", "a,#!constbyte", ((char) sym->stack & 0xff));
+ emitcode ("mov", "sp,a");
+
+ } else
+ while (i--)
+ emitcode ("inc", "sp");
+ }
+ }
+
+ if (sym->xstack)
+ {
+
+ emitcode ("mov", "a,_spx");
+ emitcode ("add", "a,#!constbyte", ((char) sym->xstack & 0xff));
+ emitcode ("mov", "_spx,a");
+ }
+
+ /* if critical function then turn interrupts off */
+ if (IFFUNC_ISCRITICAL (ftype))
+ {
+ symbol *tlbl = newiTempLabel (NULL);
+ emitcode ("setb", "c");
+ emitcode ("jbc", "ea,%05d$", (tlbl->key + 100)); /* atomic test & clear */
+ emitcode ("clr", "c");
+ emitcode ("", "%05d$:", (tlbl->key + 100));
+ emitcode ("push", "psw"); /* save old ea via c in psw */
+ }
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genEndFunction - generates epilogue for functions */
+/*-----------------------------------------------------------------*/
+static void
+genEndFunction (iCode * ic)
+{
+ symbol *sym = OP_SYMBOL (IC_LEFT (ic));
+ lineNode *lnp = lineCurr;
+ bitVect *regsUsed;
+ bitVect *regsUsedPrologue;
+ bitVect *regsUnneeded;
+ int idx;
+
+ D (emitcode (";", "genEndFunction "););
+
+ if (IFFUNC_ISNAKED(sym->type))
+ {
+ emitcode(";", "naked function: no epilogue.");
+ if (options.debug && currFunc)
+ debugFile->writeEndFunction (currFunc, ic, 0);
+ return;
+ }
+
+ if (IFFUNC_ISCRITICAL (sym->type))
+ {
+ emitcode ("pop", "psw"); /* restore ea via c in psw */
+ emitcode ("mov", "ea,c");
+ }
+
+ if ((IFFUNC_ISREENT (sym->type) || options.stackAuto) &&
+ (sym->stack || FUNC_HASSTACKPARM(sym->type))) {
+
+ if (options.stack10bit) {
+ PROTECT_SP;
+ emitcode ("mov", "sp,_bpx", spname);
+ emitcode ("mov", "esp,_bpx+1", spname);
+ UNPROTECT_SP;
+ } else {
+ emitcode ("mov", "%s,_bp", spname);
+ }
+ }
+
+ /* if use external stack but some variables were
+ added to the local stack then decrement the
+ local stack */
+ if (options.useXstack && sym->stack) {
+ emitcode ("mov", "a,sp");
+ emitcode ("add", "a,#!constbyte", ((char) -sym->stack) & 0xff);
+ emitcode ("mov", "sp,a");
+ }
+
+
+ if ((IFFUNC_ISREENT (sym->type) || options.stackAuto) &&
+ (sym->stack || FUNC_HASSTACKPARM(sym->type))) {
+
+ if (options.useXstack) {
+ emitcode ("mov", "r0,%s", spname);
+ emitcode ("movx", "a,@r0");
+ emitcode ("mov", "_bp,a");
+ emitcode ("dec", "%s", spname);
+ } else {
+ if (options.stack10bit) {
+ emitcode ("pop", "_bpx+1");
+ emitcode ("pop", "_bpx");
+ } else {
+ emitcode ("pop", "_bp");
+ }
+ }
+ }
+
+ /* restore the register bank */
+ if (FUNC_REGBANK (sym->type) || IFFUNC_ISISR (sym->type))
+ {
+ if (!FUNC_REGBANK (sym->type) || !IFFUNC_ISISR (sym->type)
+ || !options.useXstack)
+ {
+ /* Special case of ISR using non-zero bank with useXstack
+ * is handled below.
+ */
+ emitcode ("pop", "psw");
+ }
+ }
+
+ if (IFFUNC_ISISR (sym->type))
+ { /* is ISR */
+
+ /* now we need to restore the registers */
+ /* if this isr has no bank i.e. is going to
+ run with bank 0 , then we need to save more
+ registers :-) */
+ if (!FUNC_REGBANK (sym->type))
+ {
+ int i;
+ /* if this function does not call any other
+ function then we can be economical and
+ save only those registers that are used */
+ if (!IFFUNC_HASFCALL(sym->type))
+ {
+
+ /* if any registers used */
+ if (sym->regsUsed)
+ {
+ /* save the registers used */
+ for (i = sym->regsUsed->size; i >= 0; i--)
+ {
+ if (bitVectBitValue (sym->regsUsed, i))
+ emitcode ("pop", "%s", ds390_regWithIdx (i)->dname);
+ }
+ }
+ }
+ else
+ {
+ /* this function has a function call cannot
+ determines register usage so we will have to pop the
+ entire bank */
+ if (options.parms_in_bank1) {
+ for (i = 7 ; i >= 0 ; i-- ) {
+ emitcode ("pop","%s",rb1regs[i]);
+ }
+ }
+ unsaveRBank (0, ic, FALSE);
+ }
+ }
+ else
+ {
+ /* This ISR uses a non-zero bank.
+ *
+ * Restore any register banks saved by genFunction
+ * in reverse order.
+ */
+ unsigned savedBanks = SPEC_ISR_SAVED_BANKS(currFunc->etype);
+ int ix;
+
+ for (ix = MAX_REGISTER_BANKS - 1; ix >= 0; ix--)
+ {
+ if (savedBanks & (1 << ix))
+ {
+ unsaveRBank(ix, NULL, FALSE);
+ }
+ }
+
+ if (options.useXstack)
+ {
+ /* Restore bank AFTER calling unsaveRBank,
+ * since it can trash r0.
+ */
+ emitcode ("pop", "psw");
+ }
+ }
+
+ if (options.model == MODEL_FLAT24 && !inExcludeList ("dpx"))
+ {
+ if (options.stack10bit)
+ {
+ emitcode ("pop", DP2_RESULT_REG);
+ emitcode ("pop", "dpx1");
+ emitcode ("pop", "dph1");
+ emitcode ("pop", "dpl1");
+ }
+ emitcode ("pop", "dps");
+ emitcode ("pop", "dpx");
+ }
+ if (!inExcludeList ("dph"))
+ emitcode ("pop", "dph");
+ if (!inExcludeList ("dpl"))
+ emitcode ("pop", "dpl");
+ if (!inExcludeList ("b"))
+ emitcode ("pop", "b");
+ if (!inExcludeList ("acc"))
+ emitcode ("pop", "acc");
+
+ /* if debug then send end of function */
+ if (options.debug && currFunc) {
+ debugFile->writeEndFunction (currFunc, ic, 1);
+ }
+
+ emitcode ("reti", "");
+ }
+ else
+ {
+ if (IFFUNC_CALLEESAVES(sym->type))
+ {
+ int i;
+
+ /* if any registers used */
+ if (sym->regsUsed)
+ {
+ /* save the registers used */
+ for (i = sym->regsUsed->size; i >= 0; i--)
+ {
+ if (bitVectBitValue (sym->regsUsed, i))
+ emitcode ("pop", "%s", ds390_regWithIdx (i)->dname);
+ }
+ }
+ }
+
+ /* if debug then send end of function */
+ if (options.debug && currFunc)
+ {
+ debugFile->writeEndFunction (currFunc, ic, 1);
+ }
+
+ emitcode ("ret", "");
+ }
+
+ if (!port->peep.getRegsRead || !port->peep.getRegsWritten || options.nopeep)
+ return;
+
+ /* If this was an interrupt handler using bank 0 that called another */
+ /* function, then all registers must be saved; nothing to optimized. */
+ if (IFFUNC_ISISR (sym->type) && IFFUNC_HASFCALL(sym->type)
+ && !FUNC_REGBANK(sym->type))
+ return;
+
+ /* There are no push/pops to optimize if not callee-saves or ISR */
+ if (!(FUNC_CALLEESAVES (sym->type) || FUNC_ISISR (sym->type)))
+ return;
+
+ /* If there were stack parameters, we cannot optimize without also */
+ /* fixing all of the stack offsets; this is too dificult to consider. */
+ if (FUNC_HASSTACKPARM(sym->type))
+ return;
+
+ /* Compute the registers actually used */
+ regsUsed = newBitVect (ds390_nRegs);
+ regsUsedPrologue = newBitVect (ds390_nRegs);
+ while (lnp)
+ {
+ if (lnp->ic && lnp->ic->op == FUNCTION)
+ regsUsedPrologue = bitVectUnion (regsUsedPrologue, port->peep.getRegsWritten(lnp));
+ else
+ regsUsed = bitVectUnion (regsUsed, port->peep.getRegsWritten(lnp));
+
+ if (lnp->ic && lnp->ic->op == FUNCTION && lnp->prev
+ && lnp->prev->ic && lnp->prev->ic->op == ENDFUNCTION)
+ break;
+ if (!lnp->prev)
+ break;
+ lnp = lnp->prev;
+ }
+
+ if (bitVectBitValue (regsUsedPrologue, DPS_IDX)
+ && !bitVectBitValue (regsUsed, DPS_IDX))
+ {
+ bitVectUnSetBit (regsUsedPrologue, DPS_IDX);
+ }
+
+ if (bitVectBitValue (regsUsedPrologue, CND_IDX)
+ && !bitVectBitValue (regsUsed, CND_IDX))
+ {
+ regsUsed = bitVectUnion (regsUsed, regsUsedPrologue);
+ if (IFFUNC_ISISR (sym->type) && !FUNC_REGBANK (sym->type)
+ && !sym->stack && !FUNC_ISCRITICAL (sym->type))
+ bitVectUnSetBit (regsUsed, CND_IDX);
+ }
+ else
+ regsUsed = bitVectUnion (regsUsed, regsUsedPrologue);
+
+ /* If this was an interrupt handler that called another function */
+ /* function, then assume working registers may be modified by it. */
+ if (IFFUNC_ISISR (sym->type) && IFFUNC_HASFCALL(sym->type))
+ {
+ regsUsed = bitVectSetBit (regsUsed, AP_IDX);
+ regsUsed = bitVectSetBit (regsUsed, DPX1_IDX);
+ regsUsed = bitVectSetBit (regsUsed, DPL1_IDX);
+ regsUsed = bitVectSetBit (regsUsed, DPH1_IDX);
+ regsUsed = bitVectSetBit (regsUsed, DPX_IDX);
+ regsUsed = bitVectSetBit (regsUsed, DPL_IDX);
+ regsUsed = bitVectSetBit (regsUsed, DPH_IDX);
+ regsUsed = bitVectSetBit (regsUsed, DPS_IDX);
+ regsUsed = bitVectSetBit (regsUsed, B_IDX);
+ regsUsed = bitVectSetBit (regsUsed, A_IDX);
+ regsUsed = bitVectSetBit (regsUsed, CND_IDX);
+ }
+
+ /* Remove the unneeded push/pops */
+ regsUnneeded = newBitVect (ds390_nRegs);
+ while (lnp)
+ {
+ if (lnp->ic && (lnp->ic->op == FUNCTION || lnp->ic->op == ENDFUNCTION))
+ {
+ if (!strncmp(lnp->line, "push", 4))
+ {
+ idx = bitVectFirstBit (port->peep.getRegsRead(lnp));
+ if (idx>=0 && !bitVectBitValue (regsUsed, idx))
+ {
+ connectLine (lnp->prev, lnp->next);
+ regsUnneeded = bitVectSetBit (regsUnneeded, idx);
+ }
+ }
+ if (!strncmp(lnp->line, "pop", 3) || !strncmp(lnp->line, "mov", 3))
+ {
+ idx = bitVectFirstBit (port->peep.getRegsWritten(lnp));
+ if (idx>=0 && !bitVectBitValue (regsUsed, idx))
+ {
+ connectLine (lnp->prev, lnp->next);
+ regsUnneeded = bitVectSetBit (regsUnneeded, idx);
+ }
+ }
+ }
+ lnp = lnp->next;
+ }
+
+ for (idx = 0; idx < regsUnneeded->size; idx++)
+ if (bitVectBitValue (regsUnneeded, idx))
+ emitcode ("", ";\teliminated unneeded push/pop %s", ds390_regWithIdx (idx)->dname);
+
+ freeBitVect (regsUnneeded);
+ freeBitVect (regsUsed);
+ freeBitVect (regsUsedPrologue);
+}
+
+/*-----------------------------------------------------------------*/
+/* genJavaNativeRet - generate code for return JavaNative */
+/*-----------------------------------------------------------------*/
+static void genJavaNativeRet(iCode *ic)
+{
+ int i, size;
+
+ aopOp (IC_LEFT (ic), ic, FALSE,
+ AOP_IS_STR(IC_LEFT(ic)) ? FALSE :TRUE);
+ size = AOP_SIZE (IC_LEFT (ic));
+
+ assert (size <= 4);
+
+ /* it is assigned to GPR0-R3 then push them */
+ if (aopHasRegs(AOP(IC_LEFT(ic)),R0_IDX,R1_IDX) ||
+ aopHasRegs(AOP(IC_LEFT(ic)),R2_IDX,R3_IDX)) {
+ for (i = 0 ; i < size ; i++ ) {
+ emitcode ("push","%s",
+ aopGet(AOP(IC_LEFT(ic)),i,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ for (i = (size-1) ; i >= 0 ; i--) {
+ emitcode ("pop","a%s",javaRet[i]);
+ }
+ } else {
+ for (i = 0 ; i < size ; i++)
+ emitcode ("mov","%s,%s",javaRet[i],
+ aopGet(AOP(IC_LEFT(ic)),i,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ for (i = size ; i < 4 ; i++ )
+ emitcode ("mov","%s,#0",javaRet[i]);
+ return;
+}
+
+/*-----------------------------------------------------------------*/
+/* genRet - generate code for return statement */
+/*-----------------------------------------------------------------*/
+static void
+genRet (iCode * ic)
+{
+ int size, offset = 0, pushed = 0;
+
+ D (emitcode (";", "genRet "););
+
+ /* if we have no return value then
+ just generate the "ret" */
+ if (!IC_LEFT (ic))
+ goto jumpret;
+
+ /* if this is a JavaNative function then return
+ value in different register */
+ if (IFFUNC_ISJAVANATIVE(currFunc->type)) {
+ genJavaNativeRet(ic);
+ goto jumpret;
+ }
+ /* we have something to return then
+ move the return value into place */
+ aopOp (IC_LEFT (ic), ic, FALSE,
+ (AOP_IS_STR(IC_LEFT(ic)) ? FALSE :TRUE));
+ size = AOP_SIZE (IC_LEFT (ic));
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ char *l;
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_DPTR)
+ {
+ l = aopGet (AOP (IC_LEFT (ic)), offset++,
+ FALSE, TRUE, NULL);
+ emitcode ("push", "%s", l);
+ pushed++;
+ }
+ else
+ {
+ /* Since A is the last element of fReturn,
+ * is is OK to clobber it in the aopGet.
+ */
+ l = aopGet (AOP (IC_LEFT (ic)), offset,
+ FALSE, FALSE, NULL);
+ if (strcmp (fReturn[offset], l))
+ emitcode ("mov", "%s,%s", fReturn[offset++], l);
+ }
+ }
+ _endLazyDPSEvaluation ();
+
+ if (pushed)
+ {
+ while (pushed)
+ {
+ pushed--;
+ if (strcmp (fReturn[pushed], "a"))
+ emitcode ("pop", fReturn[pushed]);
+ else
+ emitcode ("pop", "acc");
+ }
+ }
+ freeAsmop (IC_LEFT (ic), NULL, ic, TRUE);
+
+jumpret:
+ /* generate a jump to the return label
+ if the next is not the return statement */
+ if (!(ic->next && ic->next->op == LABEL &&
+ IC_LABEL (ic->next) == returnLabel))
+
+ emitcode ("ljmp", "!tlabel", (returnLabel->key + 100));
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genLabel - generates a label */
+/*-----------------------------------------------------------------*/
+static void
+genLabel (iCode * ic)
+{
+ /* special case never generate */
+ if (IC_LABEL (ic) == entryLabel)
+ return;
+
+ D (emitcode (";", "genLabel ");
+ );
+
+ emitcode ("", "!tlabeldef", (IC_LABEL (ic)->key + 100));
+}
+
+/*-----------------------------------------------------------------*/
+/* genGoto - generates a ljmp */
+/*-----------------------------------------------------------------*/
+static void
+genGoto (iCode * ic)
+{
+ D (emitcode (";", "genGoto ");
+ );
+ emitcode ("ljmp", "!tlabel", (IC_LABEL (ic)->key + 100));
+}
+
+/*-----------------------------------------------------------------*/
+/* findLabelBackwards: walks back through the iCode chain looking */
+/* for the given label. Returns number of iCode instructions */
+/* between that label and given ic. */
+/* Returns zero if label not found. */
+/*-----------------------------------------------------------------*/
+static int
+findLabelBackwards (iCode * ic, int key)
+{
+ int count = 0;
+
+ while (ic->prev)
+ {
+ ic = ic->prev;
+ count++;
+
+ /* If we have any pushes or pops, we cannot predict the distance.
+ I don't like this at all, this should be dealt with in the
+ back-end */
+ if (ic->op == IPUSH || ic->op == IPOP) {
+ return 0;
+ }
+
+ if (ic->op == LABEL && IC_LABEL (ic)->key == key)
+ {
+ /* printf("findLabelBackwards = %d\n", count); */
+ return count;
+ }
+ }
+
+ return 0;
+}
+
+/*-----------------------------------------------------------------*/
+/* genPlusIncr :- does addition with increment if possible */
+/*-----------------------------------------------------------------*/
+static bool
+genPlusIncr (iCode * ic)
+{
+ unsigned int icount;
+ unsigned int size = getDataSize (IC_RESULT (ic));
+
+ /* will try to generate an increment */
+ /* if the right side is not a literal
+ we cannot */
+ if (AOP_TYPE (IC_RIGHT (ic)) != AOP_LIT)
+ return FALSE;
+
+ /* if the literal value of the right hand side
+ is greater than 4 then it is not worth it */
+ if ((icount = (unsigned int) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit)) > 4)
+ return FALSE;
+
+ if (size == 1 && AOP(IC_LEFT(ic)) == AOP(IC_RESULT(ic)) &&
+ AOP_TYPE(IC_LEFT(ic)) == AOP_DIR ) {
+ while (icount--) {
+ emitcode("inc","%s",aopGet(AOP(IC_RESULT(ic)),0,FALSE,FALSE,NULL));
+ }
+ return TRUE;
+ }
+ /* if increment 16 bits in register */
+ if (
+ AOP_TYPE (IC_LEFT (ic)) == AOP_REG &&
+ AOP_TYPE (IC_RESULT (ic)) == AOP_REG &&
+ sameRegs (AOP (IC_LEFT (ic)), AOP (IC_RESULT (ic))) &&
+ (size > 1) &&
+ (icount == 1))
+ {
+ symbol *tlbl;
+ int emitTlbl;
+ int labelRange;
+ char *l;
+
+ /* If the next instruction is a goto and the goto target
+ * is <= 5 instructions previous to this, we can generate
+ * jumps straight to that target.
+ */
+ if (ic->next && ic->next->op == GOTO
+ && (labelRange = findLabelBackwards (ic, IC_LABEL (ic->next)->key)) != 0
+ && labelRange <= 5)
+ {
+ D(emitcode (";", "tail increment optimized (range %d)", labelRange););
+ tlbl = IC_LABEL (ic->next);
+ emitTlbl = 0;
+ }
+ else
+ {
+ tlbl = newiTempLabel (NULL);
+ emitTlbl = 1;
+ }
+
+ l = aopGet (AOP (IC_RESULT (ic)), LSB, FALSE, FALSE, NULL);
+ emitcode ("inc", "%s", l);
+
+ if (AOP_TYPE (IC_RESULT (ic)) == AOP_REG ||
+ IS_AOP_PREG (IC_RESULT (ic)))
+ {
+ emitcode ("cjne", "%s,#0,!tlabel", l, tlbl->key + 100);
+ }
+ else
+ {
+ emitcode ("clr", "a");
+ emitcode ("cjne", "a,%s,!tlabel", l, tlbl->key + 100);
+ }
+
+ l = aopGet (AOP (IC_RESULT (ic)), MSB16, FALSE, FALSE, NULL);
+ emitcode ("inc", "%s", l);
+ if (size > 2)
+ {
+ if (!strcmp(l, "acc"))
+ {
+ emitcode("jnz", "!tlabel", tlbl->key + 100);
+ }
+ else if (AOP_TYPE (IC_RESULT (ic)) == AOP_REG ||
+ IS_AOP_PREG (IC_RESULT (ic)))
+ {
+ emitcode ("cjne", "%s,#0,!tlabel", l, tlbl->key + 100);
+ }
+ else
+ {
+ emitcode ("cjne", "a,%s,!tlabel", l, tlbl->key + 100);
+ }
+
+ l = aopGet (AOP (IC_RESULT (ic)), MSB24, FALSE, FALSE, NULL);
+ emitcode ("inc", "%s", l);
+ }
+ if (size > 3)
+ {
+ if (!strcmp(l, "acc"))
+ {
+ emitcode("jnz", "!tlabel", tlbl->key + 100);
+ }
+ else if (AOP_TYPE (IC_RESULT (ic)) == AOP_REG ||
+ IS_AOP_PREG (IC_RESULT (ic)))
+ {
+ emitcode ("cjne", "%s,#0,!tlabel", l, tlbl->key + 100);
+ }
+ else
+ {
+ emitcode ("cjne", "a,%s,!tlabel", l, tlbl->key + 100);
+ }
+
+ l = aopGet (AOP (IC_RESULT (ic)), MSB32, FALSE, FALSE, NULL);
+ emitcode ("inc", "%s", l);
+ }
+
+ if (emitTlbl)
+ {
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ return TRUE;
+ }
+
+ if (AOP_TYPE(IC_RESULT(ic))==AOP_STR && IS_ITEMP(IC_RESULT(ic)) &&
+ !AOP_USESDPTR(IC_LEFT(ic)) && icount <= 5 && size <= 3 &&
+ options.model == MODEL_FLAT24 )
+ {
+ if (IC_RESULT(ic)->isGptr)
+ {
+ emitcode ("mov","b,%s",aopGet(AOP (IC_LEFT (ic)), 3, FALSE, FALSE, NULL));
+ }
+ switch (size) {
+ case 3:
+ emitcode ("mov","dpx,%s",aopGet(AOP (IC_LEFT (ic)), 2, FALSE, FALSE, NULL));
+ case 2:
+ emitcode ("mov","dph,%s",aopGet(AOP (IC_LEFT (ic)), 1, FALSE, FALSE, NULL));
+ case 1:
+ emitcode ("mov","dpl,%s",aopGet(AOP (IC_LEFT (ic)), 0, FALSE, FALSE, NULL));
+ break;
+ }
+ while (icount--) emitcode ("inc","dptr");
+ return TRUE;
+ }
+
+ if (AOP_INDPTRn(IC_LEFT(ic)) && AOP_INDPTRn(IC_RESULT(ic)) &&
+ AOP(IC_LEFT(ic))->aopu.dptr == AOP(IC_RESULT(ic))->aopu.dptr &&
+ icount <= 5 ) {
+ emitcode ("mov","dps,#!constbyte",AOP(IC_LEFT(ic))->aopu.dptr);
+ while (icount--) emitcode ("inc","dptr");
+ emitcode ("mov","dps,#0");
+ return TRUE;
+ }
+
+ /* if the sizes are greater than 1 then we cannot */
+ if (AOP_SIZE (IC_RESULT (ic)) > 1 ||
+ AOP_SIZE (IC_LEFT (ic)) > 1)
+ return FALSE;
+
+ /* we can if the aops of the left & result match or
+ if they are in registers and the registers are the
+ same */
+ if (
+ AOP_TYPE (IC_LEFT (ic)) == AOP_REG &&
+ AOP_TYPE (IC_RESULT (ic)) == AOP_REG &&
+ sameRegs (AOP (IC_LEFT (ic)), AOP (IC_RESULT (ic))))
+ {
+
+ if (icount > 3)
+ {
+ MOVA (aopGet (AOP (IC_LEFT (ic)), 0, FALSE, FALSE, NULL));
+ emitcode ("add", "a,#!constbyte", ((char) icount) & 0xff);
+ aopPut (AOP (IC_RESULT (ic)), "a", 0);
+ }
+ else
+ {
+
+ _startLazyDPSEvaluation ();
+ while (icount--)
+ {
+ emitcode ("inc", "%s", aopGet (AOP (IC_LEFT (ic)), 0, FALSE, FALSE, NULL));
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+ return TRUE;
+ }
+
+ return FALSE;
+}
+
+/*-----------------------------------------------------------------*/
+/* outBitAcc - output a bit in acc */
+/*-----------------------------------------------------------------*/
+static void
+outBitAcc (operand * result)
+{
+ symbol *tlbl = newiTempLabel (NULL);
+ /* if the result is a bit */
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ aopPut (AOP (result), "a", 0);
+ }
+ else
+ {
+ emitcode ("jz", "!tlabel", tlbl->key + 100);
+ emitcode ("mov", "a,%s", one);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ outAcc (result);
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genPlusBits - generates code for addition of two bits */
+/*-----------------------------------------------------------------*/
+static void
+genPlusBits (iCode * ic)
+{
+ D (emitcode (";", "genPlusBits "););
+
+ if (AOP_TYPE (IC_RESULT (ic)) == AOP_CRY)
+ {
+ symbol *lbl = newiTempLabel (NULL);
+ emitcode ("mov", "c,%s", AOP (IC_LEFT (ic))->aopu.aop_dir);
+ emitcode ("jnb", "%s,!tlabel", AOP (IC_RIGHT (ic))->aopu.aop_dir, (lbl->key + 100));
+ emitcode ("cpl", "c");
+ emitcode ("", "!tlabeldef", (lbl->key + 100));
+ outBitC (IC_RESULT (ic));
+ }
+ else
+ {
+ emitcode ("clr", "a");
+ emitcode ("mov", "c,%s", AOP (IC_LEFT (ic))->aopu.aop_dir);
+ emitcode ("rlc", "a");
+ emitcode ("mov", "c,%s", AOP (IC_RIGHT (ic))->aopu.aop_dir);
+ emitcode ("addc", "a,#0");
+ outAcc (IC_RESULT (ic));
+ }
+}
+
+static void
+adjustArithmeticResult (iCode * ic)
+{
+ if (opIsGptr (IC_RESULT (ic)) &&
+ opIsGptr (IC_LEFT (ic)) &&
+ !sameRegs (AOP (IC_RESULT (ic)), AOP (IC_LEFT (ic))))
+ {
+ aopPut (AOP (IC_RESULT (ic)),
+ aopGet (AOP (IC_LEFT (ic)), GPTRSIZE - 1, FALSE, FALSE, NULL),
+ GPTRSIZE - 1);
+ }
+
+ if (opIsGptr (IC_RESULT (ic)) &&
+ opIsGptr (IC_RIGHT (ic)) &&
+ !sameRegs (AOP (IC_RESULT (ic)), AOP (IC_RIGHT (ic))))
+ {
+ aopPut (AOP (IC_RESULT (ic)),
+ aopGet (AOP (IC_RIGHT (ic)), GPTRSIZE - 1, FALSE, FALSE, NULL),
+ GPTRSIZE - 1);
+ }
+
+ if (opIsGptr (IC_RESULT (ic)) &&
+ AOP_SIZE (IC_LEFT (ic)) < GPTRSIZE &&
+ AOP_SIZE (IC_RIGHT (ic)) < GPTRSIZE &&
+ !sameRegs (AOP (IC_RESULT (ic)), AOP (IC_LEFT (ic))) &&
+ !sameRegs (AOP (IC_RESULT (ic)), AOP (IC_RIGHT (ic))))
+ {
+ char buff[5];
+ SNPRINTF (buff, sizeof(buff),
+ "#%d", pointerTypeToGPByte (pointerCode (getSpec (operandType (IC_LEFT (ic)))), NULL, NULL));
+ aopPut (AOP (IC_RESULT (ic)), buff, GPTRSIZE - 1);
+ }
+}
+
+// The guts of AOP_OP_3_NOFATAL. Generates the left & right opcodes of an IC,
+// generates the result if possible. If result is generated, returns TRUE; otherwise
+// returns false and caller must deal with fact that result isn't aopOp'd.
+bool aopOp3(iCode * ic)
+{
+ bool dp1InUse, dp2InUse;
+ bool useDp2;
+
+ // First, generate the right opcode. DPTR may be used if neither left nor result are
+ // of type AOP_STR.
+
+// D(emitcode(";", "aopOp3: AOP_IS_STR left: %s right: %s result: %s",
+// AOP_IS_STR(IC_LEFT(ic)) ? "true" : "false",
+// AOP_IS_STR(IC_RIGHT(ic)) ? "true" : "false",
+// AOP_IS_STR(IC_RESULT(ic)) ? "true" : "false");
+// );
+// D(emitcode(";", "aopOp3: AOP_IS_DPTRn left: %s right: %s result: %s",
+// AOP_IS_DPTRn(IC_LEFT(ic)) ? "true" : "false",
+// AOP_IS_DPTRn(IC_RIGHT(ic)) ? "true" : "false",
+// AOP_IS_DPTRn(IC_RESULT(ic)) ? "true" : "false");
+// );
+
+ // Right uses DPTR unless left or result is an AOP_STR; however,
+ // if right is an AOP_STR, it must use DPTR regardless.
+ if ((AOP_IS_STR(IC_LEFT(ic)) || AOP_IS_STR(IC_RESULT(ic)))
+ && !AOP_IS_STR(IC_RIGHT(ic)))
+ {
+ useDp2 = TRUE;
+ }
+ else
+ {
+ useDp2 = FALSE;
+ }
+
+ aopOp (IC_RIGHT(ic),ic,FALSE, useDp2);
+
+ // if the right used DPTR, left MUST use DPTR2.
+ // if the right used DPTR2, left MUST use DPTR.
+ // if both are still available, we prefer to use DPTR. But if result is an AOP_STR
+ // and left is not an AOP_STR, then we will get better code if we use DP2 for left,
+ // enabling us to assign DPTR to result.
+
+ if (AOP_USESDPTR(IC_RIGHT(ic)))
+ {
+ useDp2 = TRUE;
+ }
+ else if (AOP_USESDPTR2(IC_RIGHT(ic)))
+ {
+ useDp2 = FALSE;
+ }
+ else
+ {
+ if (AOP_IS_STR(IC_RESULT(ic)) && !AOP_IS_STR(IC_LEFT(ic)))
+ {
+ useDp2 = TRUE;
+ }
+ else
+ {
+ useDp2 = FALSE;
+ }
+ }
+
+ aopOp(IC_LEFT(ic), ic, FALSE, useDp2);
+
+
+ // We've op'd the left & right. So, if left or right are the same operand as result,
+ // we know aopOp will succeed, and we can just do it & bail.
+ if (isOperandEqual(IC_LEFT(ic),IC_RESULT(ic)))
+ {
+ aopOp (IC_RESULT (ic), ic, TRUE, AOP_USESDPTR2 (IC_LEFT (ic)));
+ return TRUE;
+ }
+ if (isOperandEqual(IC_RIGHT(ic),IC_RESULT(ic)))
+ {
+// D(emitcode(";", "aopOp3: (left | right) & result equal"););
+ aopOp(IC_RESULT(ic),ic,TRUE, AOP_USESDPTR2 (IC_RIGHT (ic)));
+ return TRUE;
+ }
+
+ // Operands may be equivalent (but not equal) if they share a spill location. If
+ // so, use the same DPTR or DPTR2.
+ if (operandsEqu (IC_LEFT(ic), IC_RESULT(ic)))
+ {
+ aopOp (IC_RESULT (ic), ic, TRUE, AOP_USESDPTR2 (IC_LEFT (ic)));
+ return TRUE;
+ }
+ if (operandsEqu (IC_RIGHT(ic), IC_RESULT(ic)))
+ {
+ aopOp (IC_RESULT (ic), ic, TRUE, AOP_USESDPTR2 (IC_RIGHT (ic)));
+ return TRUE;
+ }
+
+ // Note which dptrs are currently in use.
+ dp1InUse = AOP_USESDPTR(IC_LEFT(ic)) || AOP_USESDPTR(IC_RIGHT(ic));
+ dp2InUse = AOP_USESDPTR2(IC_LEFT(ic)) || AOP_USESDPTR2(IC_RIGHT(ic));
+
+ // OK, now if either left or right uses DPTR and the result is an AOP_STR, we cannot
+ // generate it.
+ if (dp1InUse && AOP_IS_STR(IC_RESULT(ic)))
+ {
+ return FALSE;
+ }
+
+ // Likewise, if left or right uses DPTR2 and the result is a DPTRn, we cannot generate it.
+ if (dp2InUse && AOP_IS_DPTRn(IC_RESULT(ic)))
+ {
+ return FALSE;
+ }
+
+ // or, if both dp1 & dp2 are in use and the result needs a dptr, we're out of luck
+ if (dp1InUse && dp2InUse && isOperandInFarSpace(IC_RESULT(ic)))
+ {
+ return FALSE;
+ }
+
+ aopOp (IC_RESULT(ic),ic,TRUE, dp1InUse);
+
+ // Some sanity checking...
+ if (dp1InUse && AOP_USESDPTR(IC_RESULT(ic)))
+ {
+ fprintf(stderr,
+ "Internal error: got unexpected DPTR (%s:%d %s:%d)\n",
+ __FILE__, __LINE__, ic->filename, ic->lineno);
+ emitcode(";", ">>> unexpected DPTR here.");
+ }
+
+ if (dp2InUse && AOP_USESDPTR2(IC_RESULT(ic)))
+ {
+ fprintf(stderr,
+ "Internal error: got unexpected DPTR2 (%s:%d %s:%d)\n",
+ __FILE__, __LINE__, ic->filename, ic->lineno);
+ emitcode(";", ">>> unexpected DPTR2 here.");
+ }
+
+ return TRUE;
+}
+
+// Macro to aopOp all three operands of an ic. If this cannot be done,
+// the IC_LEFT and IC_RIGHT operands will be aopOp'd, and the rc parameter
+// will be set TRUE. The caller must then handle the case specially, noting
+// that the IC_RESULT operand is not aopOp'd.
+//
+#define AOP_OP_3_NOFATAL(ic, rc) \
+ do { rc = !aopOp3(ic); } while (0)
+
+// aopOp the left & right operands of an ic.
+#define AOP_OP_2(ic) \
+ aopOp (IC_RIGHT(ic),ic,FALSE, AOP_IS_STR(IC_LEFT(ic))); \
+ aopOp (IC_LEFT(ic),ic,FALSE, AOP_USESDPTR(IC_RIGHT(ic)));
+
+// convienience macro.
+#define AOP_SET_LOCALS(ic) \
+ left = IC_LEFT(ic); \
+ right = IC_RIGHT(ic); \
+ result = IC_RESULT(ic);
+
+
+// Given an integer value of pushedSize bytes on the stack,
+// adjust it to be resultSize bytes, either by discarding
+// the most significant bytes or by zero-padding.
+//
+// On exit from this macro, pushedSize will have been adjusted to
+// equal resultSize, and ACC may be trashed.
+#define ADJUST_PUSHED_RESULT(pushedSize, resultSize) \
+ /* If the pushed data is bigger than the result, \
+ * simply discard unused bytes. Icky, but works. \
+ */ \
+ while (pushedSize > resultSize) \
+ { \
+ D (emitcode (";", "discarding unused result byte."););\
+ emitcode ("pop", "acc"); \
+ pushedSize--; \
+ } \
+ if (pushedSize < resultSize) \
+ { \
+ emitcode ("clr", "a"); \
+ /* Conversly, we haven't pushed enough here. \
+ * just zero-pad, and all is well. \
+ */ \
+ while (pushedSize < resultSize) \
+ { \
+ emitcode("push", "acc"); \
+ pushedSize++; \
+ } \
+ } \
+ assert(pushedSize == resultSize);
+
+/*-----------------------------------------------------------------*/
+/* genPlus - generates code for addition */
+/*-----------------------------------------------------------------*/
+static void
+genPlus (iCode * ic)
+{
+ int size, offset = 0;
+ bool pushResult;
+ int rSize;
+
+ D (emitcode (";", "genPlus "););
+
+ /* special cases :- */
+ if ( AOP_IS_STR(IC_LEFT(ic)) &&
+ isOperandLiteral(IC_RIGHT(ic)) && OP_SYMBOL(IC_RESULT(ic))->ruonly) {
+ aopOp (IC_RIGHT (ic), ic, TRUE, FALSE);
+ size = (int)floatFromVal (AOP (IC_RIGHT(ic))->aopu.aop_lit);
+ if (size <= 9) {
+ while (size--) emitcode ("inc","dptr");
+ } else {
+ emitcode ("mov","a,dpl");
+ emitcode ("add","a,#!constbyte",size & 0xff);
+ emitcode ("mov","dpl,a");
+ emitcode ("mov","a,dph");
+ emitcode ("addc","a,#!constbyte",(size >> 8) & 0xff);
+ emitcode ("mov","dph,a");
+ emitcode ("mov","a,dpx");
+ emitcode ("addc","a,#!constbyte",(size >> 16) & 0xff);
+ emitcode ("mov","dpx,a");
+ }
+ freeAsmop (IC_RIGHT (ic), NULL, ic, FALSE);
+ return ;
+ }
+ if ( IS_SYMOP(IC_LEFT(ic)) &&
+ OP_SYMBOL(IC_LEFT(ic))->remat &&
+ isOperandInFarSpace(IC_RIGHT(ic))) {
+ operand *op = IC_RIGHT(ic);
+ IC_RIGHT(ic) = IC_LEFT(ic);
+ IC_LEFT(ic) = op;
+ }
+
+ AOP_OP_3_NOFATAL (ic, pushResult);
+
+ if (pushResult)
+ {
+ D (emitcode (";", "genPlus: must push result: 3 ops in far space"););
+ }
+
+ if (!pushResult)
+ {
+ /* if literal, literal on the right or
+ if left requires ACC or right is already
+ in ACC */
+ if ((AOP_TYPE (IC_LEFT (ic)) == AOP_LIT)
+ || ((AOP_NEEDSACC (IC_LEFT (ic))) && !(AOP_NEEDSACC (IC_RIGHT (ic))))
+ || AOP_TYPE (IC_RIGHT (ic)) == AOP_ACC)
+ {
+ operand *t = IC_RIGHT (ic);
+ IC_RIGHT (ic) = IC_LEFT (ic);
+ IC_LEFT (ic) = t;
+ emitcode (";", "Swapped plus args.");
+ }
+
+ /* if both left & right are in bit
+ space */
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_CRY &&
+ AOP_TYPE (IC_RIGHT (ic)) == AOP_CRY)
+ {
+ genPlusBits (ic);
+ goto release;
+ }
+
+ /* if left in bit space & right literal */
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_CRY &&
+ AOP_TYPE (IC_RIGHT (ic)) == AOP_LIT)
+ {
+ emitcode ("mov", "c,%s", AOP (IC_LEFT (ic))->aopu.aop_dir);
+ /* if result in bit space */
+ if (AOP_TYPE (IC_RESULT (ic)) == AOP_CRY)
+ {
+ if ((unsigned long) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit) != 0L)
+ emitcode ("cpl", "c");
+ outBitC (IC_RESULT (ic));
+ }
+ else
+ {
+ size = getDataSize (IC_RESULT (ic));
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ MOVA (aopGet (AOP (IC_RIGHT (ic)), offset, FALSE, FALSE, NULL));
+ emitcode ("addc", "a,#0");
+ aopPut (AOP (IC_RESULT (ic)), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+ }
+ goto release;
+ }
+
+ /* if I can do an increment instead
+ of add then GOOD for ME */
+ if (genPlusIncr (ic) == TRUE)
+ {
+ emitcode (";", "did genPlusIncr");
+ goto release;
+ }
+
+ }
+ size = getDataSize (pushResult ? IC_LEFT (ic) : IC_RESULT (ic));
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ if (AOP_TYPE(IC_LEFT(ic)) == AOP_ACC && !AOP_NEEDSACC(IC_RIGHT(ic)))
+ {
+ MOVA (aopGet (AOP (IC_LEFT (ic)), offset, FALSE, FALSE, NULL));
+ if (offset == 0)
+ emitcode ("add", "a,%s",
+ aopGet (AOP (IC_RIGHT (ic)), offset, FALSE, FALSE, NULL));
+ else
+ emitcode ("addc", "a,%s",
+ aopGet (AOP (IC_RIGHT (ic)), offset, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ if (AOP_TYPE(IC_LEFT(ic)) == AOP_ACC && (offset == 0))
+ {
+ /* right is going to use ACC or we would have taken the
+ * above branch.
+ */
+ assert(AOP_NEEDSACC(IC_RIGHT(ic)));
+ TR_AP("#3");
+ D(emitcode(";", "+ AOP_ACC special case."););
+ emitcode("xch", "a, %s", DP2_RESULT_REG);
+ }
+ MOVA (aopGet (AOP (IC_RIGHT (ic)), offset, FALSE, FALSE, NULL));
+ if (offset == 0)
+ {
+ if (AOP_TYPE(IC_LEFT(ic)) == AOP_ACC)
+ {
+ TR_AP("#4");
+ emitcode("add", "a, %s", DP2_RESULT_REG);
+ }
+ else
+ {
+ emitcode ("add", "a,%s",
+ aopGet (AOP(IC_LEFT(ic)), offset, FALSE, FALSE,
+ DP2_RESULT_REG));
+ }
+ }
+ else
+ {
+ emitcode ("addc", "a,%s",
+ aopGet (AOP (IC_LEFT (ic)), offset, FALSE, FALSE,
+ DP2_RESULT_REG));
+ }
+ }
+ if (!pushResult)
+ {
+ aopPut (AOP (IC_RESULT (ic)), "a", offset);
+ }
+ else
+ {
+ emitcode ("push", "acc");
+ }
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+
+ if (pushResult)
+ {
+ aopOp (IC_RESULT (ic), ic, TRUE, FALSE);
+
+ size = getDataSize (IC_LEFT (ic));
+ rSize = getDataSize (IC_RESULT (ic));
+
+ ADJUST_PUSHED_RESULT(size, rSize);
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ emitcode ("pop", "acc");
+ aopPut (AOP (IC_RESULT (ic)), "a", size);
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+ adjustArithmeticResult (ic);
+
+release:
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (IC_RIGHT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genMinusDec :- does subtraction with deccrement if possible */
+/*-----------------------------------------------------------------*/
+static bool
+genMinusDec (iCode * ic)
+{
+ unsigned int icount;
+ unsigned int size = getDataSize (IC_RESULT (ic));
+
+ /* will try to generate an increment */
+ /* if the right side is not a literal
+ we cannot */
+ if (AOP_TYPE (IC_RIGHT (ic)) != AOP_LIT)
+ return FALSE;
+
+ /* if the literal value of the right hand side
+ is greater than 4 then it is not worth it */
+ if ((icount = (unsigned int) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit)) > 4)
+ return FALSE;
+
+ if (size == 1 && AOP(IC_LEFT(ic)) == AOP(IC_RESULT(ic)) &&
+ AOP_TYPE(IC_LEFT(ic)) == AOP_DIR ) {
+ while (icount--) {
+ emitcode("dec","%s",aopGet(AOP(IC_RESULT(ic)),0,FALSE,FALSE,NULL));
+ }
+ return TRUE;
+ }
+ /* if decrement 16 bits in register */
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_REG &&
+ AOP_TYPE (IC_RESULT (ic)) == AOP_REG &&
+ sameRegs (AOP (IC_LEFT (ic)), AOP (IC_RESULT (ic))) &&
+ (size > 1) &&
+ (icount == 1))
+ {
+ symbol *tlbl;
+ int emitTlbl;
+ int labelRange;
+ char *l;
+
+ /* If the next instruction is a goto and the goto target
+ * is <= 5 instructions previous to this, we can generate
+ * jumps straight to that target.
+ */
+ if (ic->next && ic->next->op == GOTO
+ && (labelRange = findLabelBackwards (ic, IC_LABEL (ic->next)->key)) != 0
+ && labelRange <= 5)
+ {
+ emitcode (";", "tail decrement optimized (range %d)", labelRange);
+ tlbl = IC_LABEL (ic->next);
+ emitTlbl = 0;
+ }
+ else
+ {
+ tlbl = newiTempLabel (NULL);
+ emitTlbl = 1;
+ }
+
+ l = aopGet (AOP (IC_RESULT (ic)), LSB, FALSE, FALSE, NULL);
+ emitcode ("dec", "%s", l);
+
+ if (AOP_TYPE (IC_RESULT (ic)) == AOP_REG ||
+ AOP_TYPE (IC_RESULT (ic)) == AOP_DPTR ||
+ IS_AOP_PREG (IC_RESULT (ic)))
+ {
+ emitcode ("cjne", "%s,#!constbyte,!tlabel", l, 0xff, tlbl->key + 100);
+ }
+ else
+ {
+ emitcode ("mov", "a,#!constbyte",0xff);
+ emitcode ("cjne", "a,%s,!tlabel", l, tlbl->key + 100);
+ }
+ l = aopGet (AOP (IC_RESULT (ic)), MSB16, FALSE, FALSE, NULL);
+ emitcode ("dec", "%s", l);
+ if (size > 2)
+ {
+ if (!strcmp(l, "acc"))
+ {
+ emitcode("jnz", "!tlabel", tlbl->key + 100);
+ }
+ else if (AOP_TYPE (IC_RESULT (ic)) == AOP_REG ||
+ AOP_TYPE (IC_RESULT (ic)) == AOP_DPTR ||
+ IS_AOP_PREG (IC_RESULT (ic)))
+ {
+ emitcode ("cjne", "%s,#!constbyte,!tlabel", l, 0xff, tlbl->key + 100);
+ }
+ else
+ {
+ emitcode ("mov", "a,#!constbyte",0xff);
+ emitcode ("cjne", "a,%s,!tlabel", l, tlbl->key + 100);
+ }
+ l = aopGet (AOP (IC_RESULT (ic)), MSB24, FALSE, FALSE, NULL);
+ emitcode ("dec", "%s", l);
+ }
+ if (size > 3)
+ {
+ if (!strcmp(l, "acc"))
+ {
+ emitcode("jnz", "!tlabel", tlbl->key + 100);
+ }
+ else if (AOP_TYPE (IC_RESULT (ic)) == AOP_REG ||
+ AOP_TYPE (IC_RESULT (ic)) == AOP_DPTR ||
+ IS_AOP_PREG (IC_RESULT (ic)))
+ {
+ emitcode ("cjne", "%s,#!constbyte,!tlabel", l, 0xff, tlbl->key + 100);
+ }
+ else
+ {
+ emitcode ("mov", "a,#!constbyte",0xff);
+ emitcode ("cjne", "a,%s,!tlabel", l, tlbl->key + 100);
+ }
+ l = aopGet (AOP (IC_RESULT (ic)), MSB32, FALSE, FALSE, NULL);
+ emitcode ("dec", "%s", l);
+ }
+ if (emitTlbl)
+ {
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ return TRUE;
+ }
+
+ /* if the sizes are greater than 1 then we cannot */
+ if (AOP_SIZE (IC_RESULT (ic)) > 1 ||
+ AOP_SIZE (IC_LEFT (ic)) > 1)
+ return FALSE;
+
+ /* we can if the aops of the left & result match or
+ if they are in registers and the registers are the
+ same */
+ if (
+ AOP_TYPE (IC_LEFT (ic)) == AOP_REG &&
+ AOP_TYPE (IC_RESULT (ic)) == AOP_REG &&
+ sameRegs (AOP (IC_LEFT (ic)), AOP (IC_RESULT (ic))))
+ {
+
+ _startLazyDPSEvaluation ();
+ while (icount--)
+ {
+ emitcode ("dec", "%s",
+ aopGet (AOP (IC_RESULT (ic)), 0, FALSE, FALSE, NULL));
+ }
+ _endLazyDPSEvaluation ();
+
+ return TRUE;
+ }
+
+ return FALSE;
+}
+
+/*-----------------------------------------------------------------*/
+/* addSign - complete with sign */
+/*-----------------------------------------------------------------*/
+static void
+addSign (operand * result, int offset, int sign)
+{
+ int size = (getDataSize (result) - offset);
+ if (size > 0)
+ {
+ _startLazyDPSEvaluation();
+ if (sign)
+ {
+ emitcode ("rlc", "a");
+ emitcode ("subb", "a,acc");
+ while (size--)
+ {
+ aopPut (AOP (result), "a", offset++);
+ }
+ }
+ else
+ {
+ while (size--)
+ {
+ aopPut (AOP (result), zero, offset++);
+ }
+ }
+ _endLazyDPSEvaluation();
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genMinusBits - generates code for subtraction of two bits */
+/*-----------------------------------------------------------------*/
+static void
+genMinusBits (iCode * ic)
+{
+ symbol *lbl = newiTempLabel (NULL);
+
+ D (emitcode (";", "genMinusBits "););
+
+ if (AOP_TYPE (IC_RESULT (ic)) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", AOP (IC_LEFT (ic))->aopu.aop_dir);
+ emitcode ("jnb", "%s,!tlabel", AOP (IC_RIGHT (ic))->aopu.aop_dir, (lbl->key + 100));
+ emitcode ("cpl", "c");
+ emitcode ("", "!tlabeldef", (lbl->key + 100));
+ outBitC (IC_RESULT (ic));
+ }
+ else
+ {
+ emitcode ("mov", "c,%s", AOP (IC_RIGHT (ic))->aopu.aop_dir);
+ emitcode ("subb", "a,acc");
+ emitcode ("jnb", "%s,!tlabel", AOP (IC_LEFT (ic))->aopu.aop_dir, (lbl->key + 100));
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", (lbl->key + 100));
+ aopPut (AOP (IC_RESULT (ic)), "a", 0);
+ addSign (IC_RESULT (ic), MSB16, SPEC_USIGN (getSpec (operandType (IC_RESULT (ic)))));
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genMinus - generates code for subtraction */
+/*-----------------------------------------------------------------*/
+static void
+genMinus (iCode * ic)
+{
+ int size, offset = 0;
+ int rSize;
+ long lit = 0L;
+ bool pushResult;
+
+ D (emitcode (";", "genMinus "););
+
+ AOP_OP_3_NOFATAL(ic, pushResult);
+
+ if (!pushResult)
+ {
+ /* special cases :- */
+ /* if both left & right are in bit space */
+ if (AOP_TYPE (IC_LEFT (ic)) == AOP_CRY &&
+ AOP_TYPE (IC_RIGHT (ic)) == AOP_CRY)
+ {
+ genMinusBits (ic);
+ goto release;
+ }
+
+ /* if I can do an decrement instead
+ of subtract then GOOD for ME */
+ if (genMinusDec (ic) == TRUE)
+ goto release;
+
+ }
+
+ size = getDataSize (pushResult ? IC_LEFT (ic) : IC_RESULT (ic));
+
+ if (AOP_TYPE (IC_RIGHT (ic)) != AOP_LIT)
+ {
+ CLRC;
+ }
+ else
+ {
+ lit = (long) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit);
+ lit = -lit;
+ }
+
+
+ /* if literal, add a,#-lit, else normal subb */
+ _startLazyDPSEvaluation ();
+ while (size--) {
+ if (AOP_TYPE (IC_RIGHT (ic)) != AOP_LIT) {
+ if (AOP_USESDPTR(IC_RIGHT(ic))) {
+ emitcode ("mov","b,%s",
+ aopGet (AOP (IC_RIGHT (ic)), offset, FALSE, FALSE, NULL));
+ MOVA(aopGet (AOP (IC_LEFT (ic)), offset, FALSE, FALSE, NULL));
+ emitcode ("subb","a,b");
+ } else {
+ MOVA (aopGet (AOP (IC_LEFT (ic)), offset, FALSE, FALSE, NULL));
+ emitcode ("subb", "a,%s",
+ aopGet (AOP (IC_RIGHT (ic)), offset, FALSE, FALSE,
+ DP2_RESULT_REG));
+ }
+ } else {
+ MOVA (aopGet (AOP (IC_LEFT (ic)), offset, FALSE, FALSE, NULL));
+ /* first add without previous c */
+ if (!offset) {
+ if (!size && lit==-1) {
+ emitcode ("dec", "a");
+ } else {
+ emitcode ("add", "a,#!constbyte",
+ (unsigned int) (lit & 0x0FFL));
+ }
+ } else {
+ emitcode ("addc", "a,#!constbyte",
+ (unsigned int) ((lit >> (offset * 8)) & 0x0FFL));
+ }
+ }
+
+ if (pushResult) {
+ emitcode ("push", "acc");
+ } else {
+ aopPut (AOP (IC_RESULT (ic)), "a", offset);
+ }
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+
+ if (pushResult)
+ {
+ aopOp (IC_RESULT (ic), ic, TRUE, FALSE);
+
+ size = getDataSize (IC_LEFT (ic));
+ rSize = getDataSize (IC_RESULT (ic));
+
+ ADJUST_PUSHED_RESULT(size, rSize);
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ emitcode ("pop", "acc");
+ aopPut (AOP (IC_RESULT (ic)), "a", size);
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+ adjustArithmeticResult (ic);
+
+release:
+ freeAsmop (IC_LEFT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (IC_RIGHT (ic), NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genMultbits :- multiplication of bits */
+/*-----------------------------------------------------------------*/
+static void
+genMultbits (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic)
+{
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("anl", "c,%s", AOP (right)->aopu.aop_dir);
+ aopOp(result, ic, TRUE, FALSE);
+ outBitC (result);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genMultOneByte : 8*8=8/16 bit multiplication */
+/*-----------------------------------------------------------------*/
+static void
+genMultOneByte (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic)
+{
+ int size;
+ symbol *lbl;
+ bool runtimeSign, compiletimeSign;
+ bool lUnsigned, rUnsigned;
+
+
+ /* (if two literals: the value is computed before) */
+ /* if one literal, literal on the right */
+ if (AOP_TYPE (left) == AOP_LIT)
+ {
+ operand *t = right;
+ right = left;
+ left = t;
+ emitcode (";", "swapped left and right");
+ }
+
+ /* (if two literals: the value is computed before) */
+ /* if one literal, literal on the right */
+ if (AOP_TYPE (left) == AOP_LIT)
+ {
+ operand *t = right;
+ right = left;
+ left = t;
+ /* emitcode (";", "swapped left and right"); */
+ }
+ /* if no literal, unsigned on the right: shorter code */
+ if ( AOP_TYPE (right) != AOP_LIT
+ && SPEC_USIGN (getSpec (operandType (left))))
+ {
+ operand *t = right;
+ right = left;
+ left = t;
+ }
+
+ lUnsigned = SPEC_USIGN (getSpec (operandType (left)));
+ rUnsigned = SPEC_USIGN (getSpec (operandType (right)));
+
+ if ((lUnsigned && rUnsigned)
+/* sorry, I don't know how to get size
+ without calling aopOp (result,...);
+ see Feature Request */
+ /* || size == 1 */ ) /* no, this is not a bug; with a 1 byte result there's
+ no need to take care about the signedness! */
+ {
+ /* just an unsigned 8 * 8 = 8 multiply
+ or 8u * 8u = 16u */
+ /* emitcode (";","unsigned"); */
+ emitcode ("mov", "b,%s", aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("mul", "ab");
+
+ _G.accInUse++; _G.bInUse++;
+ aopOp (result, ic, TRUE, FALSE);
+ size = AOP_SIZE (result);
+
+ if (size < 1 || size > 2)
+ {
+ /* this should never happen */
+ fprintf (stderr, "size!=1||2 (%d) in %s at line:%d \n",
+ size, __FILE__, lineno);
+ exit (1);
+ }
+
+ aopPut (AOP (result), "a", 0);
+ _G.accInUse--; _G.bInUse--;
+ if (size == 2)
+ aopPut (AOP (result), "b", 1);
+ return;
+ }
+
+ /* we have to do a signed multiply */
+ /* emitcode (";", "signed"); */
+
+ /* now sign adjust for both left & right */
+
+ /* let's see what's needed: */
+ /* apply negative sign during runtime */
+ runtimeSign = FALSE;
+ /* negative sign from literals */
+ compiletimeSign = FALSE;
+
+ if (!lUnsigned)
+ {
+ if (AOP_TYPE(left) == AOP_LIT)
+ {
+ /* signed literal */
+ signed char val = (char) floatFromVal (AOP (left)->aopu.aop_lit);
+ if (val < 0)
+ compiletimeSign = TRUE;
+ }
+ else
+ /* signed but not literal */
+ runtimeSign = TRUE;
+ }
+
+ if (!rUnsigned)
+ {
+ if (AOP_TYPE(right) == AOP_LIT)
+ {
+ /* signed literal */
+ signed char val = (char) floatFromVal (AOP (right)->aopu.aop_lit);
+ if (val < 0)
+ compiletimeSign ^= TRUE;
+ }
+ else
+ /* signed but not literal */
+ runtimeSign = TRUE;
+ }
+
+ /* initialize F0, which stores the runtime sign */
+ if (runtimeSign)
+ {
+ if (compiletimeSign)
+ emitcode ("setb", "F0"); /* set sign flag */
+ else
+ emitcode ("clr", "F0"); /* reset sign flag */
+ }
+
+ /* save the signs of the operands */
+ if (AOP_TYPE(right) == AOP_LIT)
+ {
+ signed char val = (char) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ if (!rUnsigned && val < 0)
+ emitcode ("mov", "b,#!constbyte", -val);
+ else
+ emitcode ("mov", "b,#!constbyte", (unsigned char) val);
+ }
+ else /* ! literal */
+ {
+ if (rUnsigned) /* emitcode (";", "signed"); */
+ emitcode ("mov", "b,%s", aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ else
+ {
+ MOVA (aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ lbl = newiTempLabel (NULL);
+ emitcode ("jnb", "acc.7,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "F0"); /* complement sign flag */
+ emitcode ("cpl", "a"); /* 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ emitcode ("mov", "b,a");
+ }
+ }
+
+ if (AOP_TYPE(left) == AOP_LIT)
+ {
+ signed char val = (char) floatFromVal (AOP (left)->aopu.aop_lit);
+
+ if (!lUnsigned && val < 0)
+ emitcode ("mov", "a,#!constbyte", -val);
+ else
+ emitcode ("mov", "a,#!constbyte", (unsigned char) val);
+ }
+ else /* ! literal */
+ {
+ if (lUnsigned) /* emitcode (";", "signed"); */
+
+ emitcode ("mov", "a,%s", aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ else
+ {
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ lbl = newiTempLabel (NULL);
+ emitcode ("jnb", "acc.7,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "F0"); /* complement sign flag */
+ emitcode ("cpl", "a"); /* 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ }
+ }
+
+ /* now the multiplication */
+ emitcode ("mul", "ab");
+ _G.accInUse++;_G.bInUse++;
+ aopOp(result, ic, TRUE, FALSE);
+ size = AOP_SIZE (result);
+
+ if (size < 1 || size > 2)
+ {
+ /* this should never happen */
+ fprintf (stderr, "size!=1||2 (%d) in %s at line:%d \n",
+ size, __FILE__, lineno);
+ exit (1);
+ }
+
+ if (runtimeSign || compiletimeSign)
+ {
+ lbl = newiTempLabel (NULL);
+ if (runtimeSign)
+ emitcode ("jnb", "F0,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "a"); /* lsb 2's complement */
+ if (size != 2)
+ emitcode ("inc", "a"); /* inc doesn't set carry flag */
+ else
+ {
+ emitcode ("add", "a,#1"); /* this sets carry flag */
+ emitcode ("xch", "a,b");
+ emitcode ("cpl", "a"); /* msb 2's complement */
+ emitcode ("addc", "a,#0");
+ emitcode ("xch", "a,b");
+ }
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ }
+ aopPut (AOP (result), "a", 0);
+ _G.accInUse--;_G.bInUse--;
+ if (size == 2)
+ aopPut (AOP (result), "b", 1);
+}
+
+/*-----------------------------------------------------------------*/
+/* genMultTwoByte - use the DS390 MAC unit to do 16*16 multiply */
+/*-----------------------------------------------------------------*/
+static void genMultTwoByte (operand *left, operand *right,
+ operand *result, iCode *ic)
+{
+ sym_link *retype = getSpec(operandType(right));
+ sym_link *letype = getSpec(operandType(left));
+ int umult = SPEC_USIGN(retype) | SPEC_USIGN(letype);
+ symbol *lbl;
+
+ if (AOP_TYPE (left) == AOP_LIT) {
+ operand *t = right;
+ right = left;
+ left = t;
+ }
+ /* save EA bit in F1 */
+ lbl = newiTempLabel(NULL);
+ emitcode ("setb","F1");
+ emitcode ("jbc","EA,!tlabel",lbl->key+100);
+ emitcode ("clr","F1");
+ emitcode("","!tlabeldef",lbl->key+100);
+
+ /* load up MB with right */
+ if (!umult) {
+ emitcode("clr","F0");
+ if (AOP_TYPE(right) == AOP_LIT) {
+ int val=(int)floatFromVal (AOP (right)->aopu.aop_lit);
+ if (val < 0) {
+ emitcode("setb","F0");
+ val = -val;
+ }
+ emitcode ("mov","mb,#!constbyte",val & 0xff);
+ emitcode ("mov","mb,#!constbyte",(val >> 8) & 0xff);
+ } else {
+ lbl = newiTempLabel(NULL);
+ emitcode ("mov","b,%s",aopGet(AOP(right),0,FALSE,FALSE,NULL));
+ emitcode ("mov","a,%s",aopGet(AOP(right),1,FALSE,FALSE,NULL));
+ emitcode ("jnb","acc.7,!tlabel",lbl->key+100);
+ emitcode ("xch", "a,b");
+ emitcode ("cpl","a");
+ emitcode ("add", "a,#1");
+ emitcode ("xch", "a,b");
+ emitcode ("cpl", "a"); // msb
+ emitcode ("addc", "a,#0");
+ emitcode ("setb","F0");
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("mov","mb,b");
+ emitcode ("mov","mb,a");
+ }
+ } else {
+ emitcode ("mov","mb,%s",aopGet(AOP(right),0,FALSE,FALSE,NULL));
+ emitcode ("mov","mb,%s",aopGet(AOP(right),1,FALSE,FALSE,NULL));
+ }
+ /* load up MA with left */
+ if (!umult) {
+ lbl = newiTempLabel(NULL);
+ emitcode ("mov","b,%s",aopGet(AOP(left),0,FALSE,FALSE,NULL));
+ emitcode ("mov","a,%s",aopGet(AOP(left),1,FALSE,FALSE,NULL));
+ emitcode ("jnb","acc.7,!tlabel",lbl->key+100);
+ emitcode ("xch", "a,b");
+ emitcode ("cpl","a");
+ emitcode ("add", "a,#1");
+ emitcode ("xch", "a,b");
+ emitcode ("cpl", "a"); // msb
+ emitcode ("addc","a,#0");
+ emitcode ("jbc","F0,!tlabel",lbl->key+100);
+ emitcode ("setb","F0");
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("mov","ma,b");
+ emitcode ("mov","ma,a");
+ } else {
+ emitcode ("mov","ma,%s",aopGet(AOP(left),0,FALSE,FALSE,NULL));
+ emitcode ("mov","ma,%s",aopGet(AOP(left),1,FALSE,FALSE,NULL));
+ }
+ /* wait for multiplication to finish */
+ lbl = newiTempLabel(NULL);
+ emitcode("","!tlabeldef", lbl->key+100);
+ emitcode("mov","a,mcnt1");
+ emitcode("anl","a,#!constbyte",0x80);
+ emitcode("jnz","!tlabel",lbl->key+100);
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic,TRUE);
+ aopOp(result, ic, TRUE, FALSE);
+
+ /* if unsigned then simple */
+ if (umult) {
+ emitcode ("mov","a,ma");
+ if (AOP_SIZE(result) >= 4) aopPut(AOP(result),"a",3);
+ emitcode ("mov","a,ma");
+ if (AOP_SIZE(result) >= 3) aopPut(AOP(result),"a",2);
+ aopPut(AOP(result),"ma",1);
+ aopPut(AOP(result),"ma",0);
+ } else {
+ emitcode("push","ma");
+ emitcode("push","ma");
+ emitcode("push","ma");
+ MOVA("ma");
+ /* negate result if needed */
+ lbl = newiTempLabel(NULL);
+ emitcode("jnb","F0,!tlabel",lbl->key+100);
+ emitcode("cpl","a");
+ emitcode("add","a,#1");
+ emitcode("","!tlabeldef", lbl->key+100);
+ if (AOP_TYPE(result) == AOP_ACC)
+ {
+ D(emitcode(";", "ACC special case."););
+ /* We know result is the only live aop, and
+ * it's obviously not a DPTR2, so AP is available.
+ */
+ emitcode("mov", "%s,acc", DP2_RESULT_REG);
+ }
+ else
+ {
+ aopPut(AOP(result),"a",0);
+ }
+
+ emitcode("pop","acc");
+ lbl = newiTempLabel(NULL);
+ emitcode("jnb","F0,!tlabel",lbl->key+100);
+ emitcode("cpl","a");
+ emitcode("addc","a,#0");
+ emitcode("","!tlabeldef", lbl->key+100);
+ aopPut(AOP(result),"a",1);
+ emitcode("pop","acc");
+ if (AOP_SIZE(result) >= 3) {
+ lbl = newiTempLabel(NULL);
+ emitcode("jnb","F0,!tlabel",lbl->key+100);
+ emitcode("cpl","a");
+ emitcode("addc","a,#0");
+ emitcode("","!tlabeldef", lbl->key+100);
+ aopPut(AOP(result),"a",2);
+ }
+ emitcode("pop","acc");
+ if (AOP_SIZE(result) >= 4) {
+ lbl = newiTempLabel(NULL);
+ emitcode("jnb","F0,!tlabel",lbl->key+100);
+ emitcode("cpl","a");
+ emitcode("addc","a,#0");
+ emitcode("","!tlabeldef", lbl->key+100);
+ aopPut(AOP(result),"a",3);
+ }
+ if (AOP_TYPE(result) == AOP_ACC)
+ {
+ /* We stashed the result away above. */
+ emitcode("mov", "acc,%s", DP2_RESULT_REG);
+ }
+
+ }
+ freeAsmop (result, NULL, ic, TRUE);
+
+ /* restore EA bit in F1 */
+ lbl = newiTempLabel(NULL);
+ emitcode ("jnb","F1,!tlabel",lbl->key+100);
+ emitcode ("setb","EA");
+ emitcode("","!tlabeldef",lbl->key+100);
+ return ;
+}
+
+/*-----------------------------------------------------------------*/
+/* genMult - generates code for multiplication */
+/*-----------------------------------------------------------------*/
+static void
+genMult (iCode * ic)
+{
+ operand *left = IC_LEFT (ic);
+ operand *right = IC_RIGHT (ic);
+ operand *result = IC_RESULT (ic);
+
+ D (emitcode (";", "genMult "););
+
+ /* assign the amsops */
+ AOP_OP_2 (ic);
+
+ /* special cases first */
+ /* both are bits */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ AOP_TYPE (right) == AOP_CRY)
+ {
+ genMultbits (left, right, result, ic);
+ goto release;
+ }
+
+ /* if both are of size == 1 */
+ if (AOP_SIZE (left) == 1 &&
+ AOP_SIZE (right) == 1)
+ {
+ genMultOneByte (left, right, result, ic);
+ goto release;
+ }
+
+ if (AOP_SIZE (left) == 2 && AOP_SIZE(right) == 2) {
+ /* use the ds390 ARITHMETIC accel UNIT */
+ genMultTwoByte (left, right, result, ic);
+ return ;
+ }
+ /* should have been converted to function call */
+ assert (0);
+
+release:
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genDivbits :- division of bits */
+/*-----------------------------------------------------------------*/
+static void
+genDivbits (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic)
+{
+
+ char *l;
+
+ /* the result must be bit */
+ LOAD_AB_FOR_DIV (left, right, l);
+ emitcode ("div", "ab");
+ emitcode ("rrc", "a");
+ aopOp(result, ic, TRUE, FALSE);
+
+ aopPut (AOP (result), "c", 0);
+}
+
+/*-----------------------------------------------------------------*/
+/* genDivOneByte : 8 bit division */
+/*-----------------------------------------------------------------*/
+static void
+genDivOneByte (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic)
+{
+ bool lUnsigned, rUnsigned;
+ bool runtimeSign, compiletimeSign;
+ char *l;
+ symbol *lbl;
+ int size, offset;
+
+ offset = 1;
+ lUnsigned = SPEC_USIGN (getSpec (operandType (left)));
+ rUnsigned = SPEC_USIGN (getSpec (operandType (right)));
+
+ /* signed or unsigned */
+ if (lUnsigned && rUnsigned)
+ {
+ /* unsigned is easy */
+ LOAD_AB_FOR_DIV (left, right, l);
+ emitcode ("div", "ab");
+
+ _G.accInUse++;
+ aopOp (result, ic, TRUE, FALSE);
+ aopPut (AOP (result), "a", 0);
+ _G.accInUse--;
+
+ size = AOP_SIZE (result) - 1;
+
+ while (size--)
+ aopPut (AOP (result), zero, offset++);
+ return;
+ }
+
+ /* signed is a little bit more difficult */
+
+ /* now sign adjust for both left & right */
+
+ /* let's see what's needed: */
+ /* apply negative sign during runtime */
+ runtimeSign = FALSE;
+ /* negative sign from literals */
+ compiletimeSign = FALSE;
+
+ if (!lUnsigned)
+ {
+ if (AOP_TYPE(left) == AOP_LIT)
+ {
+ /* signed literal */
+ signed char val = (char) floatFromVal (AOP (left)->aopu.aop_lit);
+ if (val < 0)
+ compiletimeSign = TRUE;
+ }
+ else
+ /* signed but not literal */
+ runtimeSign = TRUE;
+ }
+
+ if (!rUnsigned)
+ {
+ if (AOP_TYPE(right) == AOP_LIT)
+ {
+ /* signed literal */
+ signed char val = (char) floatFromVal (AOP (right)->aopu.aop_lit);
+ if (val < 0)
+ compiletimeSign ^= TRUE;
+ }
+ else
+ /* signed but not literal */
+ runtimeSign = TRUE;
+ }
+
+ /* initialize F0, which stores the runtime sign */
+ if (runtimeSign)
+ {
+ if (compiletimeSign)
+ emitcode ("setb", "F0"); /* set sign flag */
+ else
+ emitcode ("clr", "F0"); /* reset sign flag */
+ }
+
+ /* save the signs of the operands */
+ if (AOP_TYPE(right) == AOP_LIT)
+ {
+ signed char val = (char) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ if (!rUnsigned && val < 0)
+ emitcode ("mov", "b,#0x%02x", -val);
+ else
+ emitcode ("mov", "b,#0x%02x", (unsigned char) val);
+ }
+ else /* ! literal */
+ {
+ if (rUnsigned)
+ emitcode ("mov", "b,%s", aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ else
+ {
+ MOVA (aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ lbl = newiTempLabel (NULL);
+ emitcode ("jnb", "acc.7,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "F0"); /* complement sign flag */
+ emitcode ("cpl", "a"); /* 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ emitcode ("mov", "b,a");
+ }
+ }
+
+ if (AOP_TYPE(left) == AOP_LIT)
+ {
+ signed char val = (char) floatFromVal (AOP (left)->aopu.aop_lit);
+
+ if (!lUnsigned && val < 0)
+ emitcode ("mov", "a,#0x%02x", -val);
+ else
+ emitcode ("mov", "a,#0x%02x", (unsigned char) val);
+ }
+ else /* ! literal */
+ {
+ if (lUnsigned)
+ emitcode ("mov", "a,%s", aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ else
+ {
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ lbl = newiTempLabel (NULL);
+ emitcode ("jnb", "acc.7,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "F0"); /* complement sign flag */
+ emitcode ("cpl", "a"); /* 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ }
+ }
+
+ /* now the division */
+ emitcode ("nop", "; workaround for DS80C390 div bug.");
+ emitcode ("div", "ab");
+
+ if (runtimeSign || compiletimeSign)
+ {
+ lbl = newiTempLabel (NULL);
+ if (runtimeSign)
+ emitcode ("jnb", "F0,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "a"); /* lsb 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+
+ _G.accInUse++; _G.bInUse++;
+ aopOp (result, ic, TRUE, FALSE);
+ size = AOP_SIZE (result) - 1;
+
+ if (size > 0)
+ {
+ /* 123 look strange, but if (OP_SYMBOL (op)->accuse == 1)
+ then the result will be in b, a */
+ emitcode ("mov", "b,a"); /* 1 */
+ /* msb is 0x00 or 0xff depending on the sign */
+ if (runtimeSign)
+ {
+ emitcode ("mov", "c,F0");
+ emitcode ("subb", "a,acc");
+ emitcode ("xch", "a,b"); /* 2 */
+ while (size--)
+ aopPut (AOP (result), "b", offset++); /* write msb's */
+ }
+ else /* compiletimeSign */
+ while (size--)
+ aopPut (AOP (result), "#0xff", offset++); /* write msb's */
+ }
+ aopPut (AOP (result), "a", 0); /* 3: write lsb */
+ }
+ else
+ {
+ _G.accInUse++; _G.bInUse++;
+ aopOp(result, ic, TRUE, FALSE);
+ size = AOP_SIZE (result) - 1;
+
+ aopPut (AOP (result), "a", 0);
+ while (size--)
+ aopPut (AOP (result), zero, offset++);
+ }
+ _G.accInUse--; _G.bInUse--;
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genDivTwoByte - use the DS390 MAC unit to do 16/16 divide */
+/*-----------------------------------------------------------------*/
+static void genDivTwoByte (operand *left, operand *right,
+ operand *result, iCode *ic)
+{
+ sym_link *retype = getSpec(operandType(right));
+ sym_link *letype = getSpec(operandType(left));
+ int umult = SPEC_USIGN(retype) | SPEC_USIGN(letype);
+ symbol *lbl;
+
+ /* save EA bit in F1 */
+ lbl = newiTempLabel(NULL);
+ emitcode ("setb","F1");
+ emitcode ("jbc","EA,!tlabel",lbl->key+100);
+ emitcode ("clr","F1");
+ emitcode("","!tlabeldef",lbl->key+100);
+
+ /* load up MA with left */
+ if (!umult) {
+ emitcode("clr","F0");
+ lbl = newiTempLabel(NULL);
+ emitcode ("mov","b,%s",aopGet(AOP(left),0,FALSE,FALSE,NULL));
+ emitcode ("mov","a,%s",aopGet(AOP(left),1,FALSE,FALSE,NULL));
+ emitcode ("jnb","acc.7,!tlabel",lbl->key+100);
+ emitcode ("xch", "a,b");
+ emitcode ("cpl","a");
+ emitcode ("add", "a,#1");
+ emitcode ("xch", "a,b");
+ emitcode ("cpl", "a"); // msb
+ emitcode ("addc","a,#0");
+ emitcode ("setb","F0");
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("mov","ma,b");
+ emitcode ("mov","ma,a");
+ } else {
+ emitcode ("mov","ma,%s",aopGet(AOP(left),0,FALSE,FALSE,NULL));
+ emitcode ("mov","ma,%s",aopGet(AOP(left),1,FALSE,FALSE,NULL));
+ }
+
+ /* load up MB with right */
+ if (!umult) {
+ if (AOP_TYPE(right) == AOP_LIT) {
+ int val=(int)floatFromVal (AOP (right)->aopu.aop_lit);
+ if (val < 0) {
+ lbl = newiTempLabel(NULL);
+ emitcode ("jbc","F0,!tlabel",lbl->key+100);
+ emitcode("setb","F0");
+ emitcode ("","!tlabeldef",lbl->key+100);
+ val = -val;
+ }
+ emitcode ("mov","mb,#!constbyte",val & 0xff);
+ emitcode ("mov","mb,#!constbyte",(val >> 8) & 0xff);
+ } else {
+ lbl = newiTempLabel(NULL);
+ emitcode ("mov","b,%s",aopGet(AOP(right),0,FALSE,FALSE,NULL));
+ emitcode ("mov","a,%s",aopGet(AOP(right),1,FALSE,FALSE,NULL));
+ emitcode ("jnb","acc.7,!tlabel",lbl->key+100);
+ emitcode ("xch", "a,b");
+ emitcode ("cpl","a");
+ emitcode ("add", "a,#1");
+ emitcode ("xch", "a,b");
+ emitcode ("cpl", "a"); // msb
+ emitcode ("addc", "a,#0");
+ emitcode ("jbc","F0,!tlabel",lbl->key+100);
+ emitcode ("setb","F0");
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("mov","mb,b");
+ emitcode ("mov","mb,a");
+ }
+ } else {
+ emitcode ("mov","mb,%s",aopGet(AOP(right),0,FALSE,FALSE,NULL));
+ emitcode ("mov","mb,%s",aopGet(AOP(right),1,FALSE,FALSE,NULL));
+ }
+
+ /* wait for multiplication to finish */
+ lbl = newiTempLabel(NULL);
+ emitcode("","!tlabeldef", lbl->key+100);
+ emitcode("mov","a,mcnt1");
+ emitcode("anl","a,#!constbyte",0x80);
+ emitcode("jnz","!tlabel",lbl->key+100);
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic,TRUE);
+ aopOp(result, ic, TRUE, FALSE);
+
+ /* if unsigned then simple */
+ if (umult) {
+ aopPut(AOP(result),"ma",1);
+ aopPut(AOP(result),"ma",0);
+ } else {
+ emitcode("push","ma");
+ MOVA("ma");
+ /* negate result if needed */
+ lbl = newiTempLabel(NULL);
+ emitcode("jnb","F0,!tlabel",lbl->key+100);
+ emitcode("cpl","a");
+ emitcode("add","a,#1");
+ emitcode("","!tlabeldef", lbl->key+100);
+ aopPut(AOP(result),"a",0);
+ emitcode("pop","acc");
+ lbl = newiTempLabel(NULL);
+ emitcode("jnb","F0,!tlabel",lbl->key+100);
+ emitcode("cpl","a");
+ emitcode("addc","a,#0");
+ emitcode("","!tlabeldef", lbl->key+100);
+ aopPut(AOP(result),"a",1);
+ }
+ freeAsmop (result, NULL, ic, TRUE);
+ /* restore EA bit in F1 */
+ lbl = newiTempLabel(NULL);
+ emitcode ("jnb","F1,!tlabel",lbl->key+100);
+ emitcode ("setb","EA");
+ emitcode("","!tlabeldef",lbl->key+100);
+ return ;
+}
+
+/*-----------------------------------------------------------------*/
+/* genDiv - generates code for division */
+/*-----------------------------------------------------------------*/
+static void
+genDiv (iCode * ic)
+{
+ operand *left = IC_LEFT (ic);
+ operand *right = IC_RIGHT (ic);
+ operand *result = IC_RESULT (ic);
+
+ D (emitcode (";", "genDiv "););
+
+ /* assign the amsops */
+ AOP_OP_2 (ic);
+
+ /* special cases first */
+ /* both are bits */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ AOP_TYPE (right) == AOP_CRY)
+ {
+ genDivbits (left, right, result, ic);
+ goto release;
+ }
+
+ /* if both are of size == 1 */
+ if (AOP_SIZE (left) == 1 &&
+ AOP_SIZE (right) == 1)
+ {
+ genDivOneByte (left, right, result, ic);
+ goto release;
+ }
+
+ if (AOP_SIZE (left) == 2 && AOP_SIZE(right) == 2) {
+ /* use the ds390 ARITHMETIC accel UNIT */
+ genDivTwoByte (left, right, result, ic);
+ return ;
+ }
+ /* should have been converted to function call */
+ assert (0);
+release:
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genModbits :- modulus of bits */
+/*-----------------------------------------------------------------*/
+static void
+genModbits (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic)
+{
+
+ char *l;
+
+ /* the result must be bit */
+ LOAD_AB_FOR_DIV (left, right, l);
+ emitcode ("div", "ab");
+ emitcode ("mov", "a,b");
+ emitcode ("rrc", "a");
+ aopOp(result, ic, TRUE, FALSE);
+ aopPut (AOP (result), "c", 0);
+}
+
+/*-----------------------------------------------------------------*/
+/* genModOneByte : 8 bit modulus */
+/*-----------------------------------------------------------------*/
+static void
+genModOneByte (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic)
+{
+ bool lUnsigned, rUnsigned;
+ bool runtimeSign, compiletimeSign;
+ char *l;
+ symbol *lbl;
+ int size, offset;
+
+ offset = 1;
+ lUnsigned = SPEC_USIGN (getSpec (operandType (left)));
+ rUnsigned = SPEC_USIGN (getSpec (operandType (right)));
+
+ /* signed or unsigned */
+ if (lUnsigned && rUnsigned)
+ {
+ /* unsigned is easy */
+ LOAD_AB_FOR_DIV (left, right, l);
+ emitcode ("div", "ab");
+ aopOp (result, ic, TRUE, FALSE);
+ aopPut (AOP (result), "b", 0);
+
+ for (size = AOP_SIZE (result) - 1; size--;)
+ aopPut (AOP (result), zero, offset++);
+ return;
+ }
+
+ /* signed is a little bit more difficult */
+
+ /* now sign adjust for both left & right */
+
+ /* modulus: sign of the right operand has no influence on the result! */
+ if (AOP_TYPE(right) == AOP_LIT)
+ {
+ signed char val = (char) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ if (!rUnsigned && val < 0)
+ emitcode ("mov", "b,#0x%02x", -val);
+ else
+ emitcode ("mov", "b,#0x%02x", (unsigned char) val);
+ }
+ else /* ! literal */
+ {
+ if (rUnsigned)
+ emitcode ("mov", "b,%s", aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ else
+ {
+ MOVA (aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ lbl = newiTempLabel (NULL);
+ emitcode ("jnb", "acc.7,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "a"); /* 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ emitcode ("mov", "b,a");
+ }
+ }
+
+ /* let's see what's needed: */
+ /* apply negative sign during runtime */
+ runtimeSign = FALSE;
+ /* negative sign from literals */
+ compiletimeSign = FALSE;
+
+ /* sign adjust left side */
+ if (AOP_TYPE(left) == AOP_LIT)
+ {
+ signed char val = (char) floatFromVal (AOP (left)->aopu.aop_lit);
+
+ if (!lUnsigned && val < 0)
+ {
+ compiletimeSign = TRUE; /* set sign flag */
+ emitcode ("mov", "a,#0x%02x", -val);
+ }
+ else
+ emitcode ("mov", "a,#0x%02x", (unsigned char) val);
+ }
+ else /* ! literal */
+ {
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+
+ if (!lUnsigned)
+ {
+ runtimeSign = TRUE;
+ emitcode ("clr", "F0"); /* clear sign flag */
+
+ lbl = newiTempLabel (NULL);
+ emitcode ("jnb", "acc.7,!tlabel", lbl->key + 100);
+ emitcode ("setb", "F0"); /* set sign flag */
+ emitcode ("cpl", "a"); /* 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ }
+ }
+
+ /* now the modulus */
+ emitcode ("nop", "; workaround for DS80C390 div bug.");
+ emitcode ("div", "ab");
+
+ if (runtimeSign || compiletimeSign)
+ {
+ emitcode ("mov", "a,b");
+ lbl = newiTempLabel (NULL);
+ if (runtimeSign)
+ emitcode ("jnb", "F0,!tlabel", lbl->key + 100);
+ emitcode ("cpl", "a"); /* lsb 2's complement */
+ emitcode ("inc", "a");
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+
+ _G.accInUse++; _G.bInUse++;
+ aopOp (result, ic, TRUE, FALSE);
+ size = AOP_SIZE (result) - 1;
+
+ if (size > 0)
+ {
+ /* 123 look strange, but if (OP_SYMBOL (op)->accuse == 1)
+ then the result will be in b, a */
+ emitcode ("mov", "b,a"); /* 1 */
+ /* msb is 0x00 or 0xff depending on the sign */
+ if (runtimeSign)
+ {
+ emitcode ("mov", "c,F0");
+ emitcode ("subb", "a,acc");
+ emitcode ("xch", "a,b"); /* 2 */
+ while (size--)
+ aopPut (AOP (result), "b", offset++); /* write msb's */
+ }
+ else /* compiletimeSign */
+ while (size--)
+ aopPut (AOP (result), "#0xff", offset++); /* write msb's */
+ }
+ aopPut (AOP (result), "a", 0); /* 3: write lsb */
+ }
+ else
+ {
+ _G.accInUse++; _G.bInUse++;
+ aopOp(result, ic, TRUE, FALSE);
+ size = AOP_SIZE (result) - 1;
+
+ aopPut (AOP (result), "b", 0);
+ while (size--)
+ aopPut (AOP (result), zero, offset++);
+ }
+ _G.accInUse--; _G.bInUse--;
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genModTwoByte - use the DS390 MAC unit to do 16%16 modulus */
+/*-----------------------------------------------------------------*/
+static void genModTwoByte (operand *left, operand *right,
+ operand *result, iCode *ic)
+{
+ sym_link *retype = getSpec(operandType(right));
+ sym_link *letype = getSpec(operandType(left));
+ int umult = SPEC_USIGN(retype) | SPEC_USIGN(letype);
+ symbol *lbl;
+
+ /* load up MA with left */
+ /* save EA bit in F1 */
+ lbl = newiTempLabel(NULL);
+ emitcode ("setb","F1");
+ emitcode ("jbc","EA,!tlabel",lbl->key+100);
+ emitcode ("clr","F1");
+ emitcode("","!tlabeldef",lbl->key+100);
+
+ if (!umult) {
+ lbl = newiTempLabel(NULL);
+ emitcode ("mov","b,%s",aopGet(AOP(left),0,FALSE,FALSE,NULL));
+ emitcode ("mov","a,%s",aopGet(AOP(left),1,FALSE,FALSE,NULL));
+ emitcode ("jnb","acc.7,!tlabel",lbl->key+100);
+ emitcode ("xch", "a,b");
+ emitcode ("cpl","a");
+ emitcode ("add", "a,#1");
+ emitcode ("xch", "a,b");
+ emitcode ("cpl", "a"); // msb
+ emitcode ("addc","a,#0");
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("mov","ma,b");
+ emitcode ("mov","ma,a");
+ } else {
+ emitcode ("mov","ma,%s",aopGet(AOP(left),0,FALSE,FALSE,NULL));
+ emitcode ("mov","ma,%s",aopGet(AOP(left),1,FALSE,FALSE,NULL));
+ }
+
+ /* load up MB with right */
+ if (!umult) {
+ if (AOP_TYPE(right) == AOP_LIT) {
+ int val=(int)floatFromVal (AOP (right)->aopu.aop_lit);
+ if (val < 0) {
+ val = -val;
+ }
+ emitcode ("mov","mb,#!constbyte",val & 0xff);
+ emitcode ("mov","mb,#!constbyte",(val >> 8) & 0xff);
+ } else {
+ lbl = newiTempLabel(NULL);
+ emitcode ("mov","b,%s",aopGet(AOP(right),0,FALSE,FALSE,NULL));
+ emitcode ("mov","a,%s",aopGet(AOP(right),1,FALSE,FALSE,NULL));
+ emitcode ("jnb","acc.7,!tlabel",lbl->key+100);
+ emitcode ("xch", "a,b");
+ emitcode ("cpl","a");
+ emitcode ("add", "a,#1");
+ emitcode ("xch", "a,b");
+ emitcode ("cpl", "a"); // msb
+ emitcode ("addc", "a,#0");
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("mov","mb,b");
+ emitcode ("mov","mb,a");
+ }
+ } else {
+ emitcode ("mov","mb,%s",aopGet(AOP(right),0,FALSE,FALSE,NULL));
+ emitcode ("mov","mb,%s",aopGet(AOP(right),1,FALSE,FALSE,NULL));
+ }
+
+ /* wait for multiplication to finish */
+ lbl = newiTempLabel(NULL);
+ emitcode("","!tlabeldef", lbl->key+100);
+ emitcode("mov","a,mcnt1");
+ emitcode("anl","a,#!constbyte",0x80);
+ emitcode("jnz","!tlabel",lbl->key+100);
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic,TRUE);
+ aopOp(result, ic, TRUE, FALSE);
+
+ aopPut(AOP(result),"mb",1);
+ aopPut(AOP(result),"mb",0);
+ freeAsmop (result, NULL, ic, TRUE);
+
+ /* restore EA bit in F1 */
+ lbl = newiTempLabel(NULL);
+ emitcode ("jnb","F1,!tlabel",lbl->key+100);
+ emitcode ("setb","EA");
+ emitcode("","!tlabeldef",lbl->key+100);
+ return ;
+}
+
+/*-----------------------------------------------------------------*/
+/* genMod - generates code for division */
+/*-----------------------------------------------------------------*/
+static void
+genMod (iCode * ic)
+{
+ operand *left = IC_LEFT (ic);
+ operand *right = IC_RIGHT (ic);
+ operand *result = IC_RESULT (ic);
+
+ D (emitcode (";", "genMod "); );
+
+ /* assign the amsops */
+ AOP_OP_2 (ic);
+
+ /* special cases first */
+ /* both are bits */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ AOP_TYPE (right) == AOP_CRY)
+ {
+ genModbits (left, right, result, ic);
+ goto release;
+ }
+
+ /* if both are of size == 1 */
+ if (AOP_SIZE (left) == 1 &&
+ AOP_SIZE (right) == 1)
+ {
+ genModOneByte (left, right, result, ic);
+ goto release;
+ }
+
+ if (AOP_SIZE (left) == 2 && AOP_SIZE(right) == 2) {
+ /* use the ds390 ARITHMETIC accel UNIT */
+ genModTwoByte (left, right, result, ic);
+ return ;
+ }
+
+ /* should have been converted to function call */
+ assert (0);
+
+release:
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genIfxJump :- will create a jump depending on the ifx */
+/*-----------------------------------------------------------------*/
+static void
+genIfxJump (iCode * ic, char *jval)
+{
+ symbol *jlbl;
+ symbol *tlbl = newiTempLabel (NULL);
+ char *inst;
+
+ D (emitcode (";", "genIfxJump"););
+
+ /* if true label then we jump if condition
+ supplied is true */
+ if (IC_TRUE (ic))
+ {
+ jlbl = IC_TRUE (ic);
+ inst = ((strcmp (jval, "a") == 0 ? "jz" :
+ (strcmp (jval, "c") == 0 ? "jnc" : "jnb")));
+ }
+ else
+ {
+ /* false label is present */
+ jlbl = IC_FALSE (ic);
+ inst = ((strcmp (jval, "a") == 0 ? "jnz" :
+ (strcmp (jval, "c") == 0 ? "jc" : "jb")));
+ }
+ if (strcmp (inst, "jb") == 0 || strcmp (inst, "jnb") == 0)
+ emitcode (inst, "%s,!tlabel", jval, (tlbl->key + 100));
+ else
+ emitcode (inst, "!tlabel", tlbl->key + 100);
+ emitcode ("ljmp", "!tlabel", jlbl->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+
+ /* mark the icode as generated */
+ ic->generated = 1;
+}
+
+/*-----------------------------------------------------------------*/
+/* genCmp :- greater or less than comparison */
+/*-----------------------------------------------------------------*/
+static void
+genCmp (operand * left, operand * right,
+ iCode * ic, iCode * ifx, int sign)
+{
+ int size, offset = 0;
+ unsigned long lit = 0L;
+ operand *result;
+
+ D (emitcode (";", "genCmp"););
+
+ result = IC_RESULT (ic);
+
+ /* if left & right are bit variables */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ AOP_TYPE (right) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", AOP (right)->aopu.aop_dir);
+ emitcode ("anl", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ else
+ {
+ /* subtract right from left if at the
+ end the carry flag is set then we know that
+ left is greater than right */
+ size = max (AOP_SIZE (left), AOP_SIZE (right));
+
+ /* if unsigned char cmp with lit, do cjne left,#right,zz */
+ if ((size == 1) && !sign
+ && (AOP_TYPE (right) == AOP_LIT && AOP_TYPE (left) != AOP_DIR && AOP_TYPE (left) != AOP_STR))
+ {
+ symbol *lbl = newiTempLabel (NULL);
+ emitcode ("cjne", "%s,%s,!tlabel",
+ aopGet (AOP (left), offset, FALSE, FALSE, NULL),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ lbl->key + 100);
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ }
+ else
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ lit = (unsigned long) floatFromVal (AOP (right)->aopu.aop_lit);
+ /* optimize if(x < 0) or if(x >= 0) */
+ if (lit == 0L)
+ {
+ if (!sign)
+ {
+ CLRC;
+ }
+ else
+ {
+ MOVA (aopGet (AOP (left), AOP_SIZE (left) - 1, FALSE, FALSE, NULL));
+
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result, ic, FALSE, FALSE);
+
+ if (!(AOP_TYPE (result) == AOP_CRY && AOP_SIZE (result)) && ifx)
+ {
+ freeAsmop (result, NULL, ic, TRUE);
+ genIfxJump (ifx, "acc.7");
+ return;
+ }
+ else
+ {
+ emitcode ("rlc", "a");
+ }
+ goto release_freedLR;
+ }
+ goto release;
+ }
+ }
+ CLRC;
+ while (size--)
+ {
+ // emitcode (";", "genCmp #1: %d/%d/%d", size, sign, offset);
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ // emitcode (";", "genCmp #2");
+ if (sign && (size == 0))
+ {
+ // emitcode (";", "genCmp #3");
+ emitcode ("xrl", "a,#!constbyte",0x80);
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ unsigned long lit = (unsigned long)
+ floatFromVal (AOP (right)->aopu.aop_lit);
+ // emitcode (";", "genCmp #3.1");
+ emitcode ("subb", "a,#!constbyte",
+ 0x80 ^ (unsigned int) ((lit >> (offset * 8)) & 0x0FFL));
+ }
+ else
+ {
+ // emitcode (";", "genCmp #3.2");
+ saveAccWarn = 0;
+ MOVB(aopGet (AOP (right), offset++, FALSE, FALSE, "b"));
+ saveAccWarn = DEFAULT_ACC_WARNING;
+ emitcode ("xrl", "b,#!constbyte",0x80);
+ emitcode ("subb", "a,b");
+ }
+ }
+ else
+ {
+ const char *s;
+
+ // emitcode (";", "genCmp #4");
+ saveAccWarn = 0;
+ s = aopGet (AOP (right), offset++, FALSE, FALSE, "b");
+ saveAccWarn = DEFAULT_ACC_WARNING;
+
+ emitcode ("subb", "a,%s", s);
+ }
+ }
+ }
+ }
+
+release:
+/* Don't need the left & right operands any more; do need the result. */
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result, ic, FALSE, FALSE);
+
+release_freedLR:
+
+ if (AOP_TYPE (result) == AOP_CRY && AOP_SIZE (result))
+ {
+ outBitC (result);
+ }
+ else
+ {
+ /* if the result is used in the next
+ ifx conditional branch then generate
+ code a little differently */
+ if (ifx)
+ {
+ genIfxJump (ifx, "c");
+ }
+ else
+ {
+ outBitC (result);
+ }
+ /* leave the result in acc */
+ }
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genCmpGt :- greater than comparison */
+/*-----------------------------------------------------------------*/
+static void
+genCmpGt (iCode * ic, iCode * ifx)
+{
+ operand *left, *right;
+ sym_link *letype, *retype;
+ int sign;
+
+ D (emitcode (";", "genCmpGt ");
+ );
+
+ left = IC_LEFT (ic);
+ right = IC_RIGHT (ic);
+
+ letype = getSpec (operandType (left));
+ retype = getSpec (operandType (right));
+ sign = !(SPEC_USIGN (letype) | SPEC_USIGN (retype));
+
+ /* assign the left & right amsops */
+ AOP_OP_2 (ic);
+
+ genCmp (right, left, ic, ifx, sign);
+}
+
+/*-----------------------------------------------------------------*/
+/* genCmpLt - less than comparisons */
+/*-----------------------------------------------------------------*/
+static void
+genCmpLt (iCode * ic, iCode * ifx)
+{
+ operand *left, *right;
+ sym_link *letype, *retype;
+ int sign;
+
+ D (emitcode (";", "genCmpLt "););
+
+ left = IC_LEFT (ic);
+ right = IC_RIGHT (ic);
+
+ letype = getSpec (operandType (left));
+ retype = getSpec (operandType (right));
+ sign = !(SPEC_USIGN (letype) | SPEC_USIGN (retype));
+
+ /* assign the left & right amsops */
+ AOP_OP_2 (ic);
+
+ genCmp (left, right, ic, ifx, sign);
+}
+
+/*-----------------------------------------------------------------*/
+/* gencjneshort - compare and jump if not equal */
+/*-----------------------------------------------------------------*/
+static void
+gencjneshort (operand * left, operand * right, symbol * lbl)
+{
+ int size = max (AOP_SIZE (left), AOP_SIZE (right));
+ int offset = 0;
+ unsigned long lit = 0L;
+
+ D (emitcode (";", "gencjneshort");
+ );
+
+ /* if the left side is a literal or
+ if the right is in a pointer register and left
+ is not */
+ if ((AOP_TYPE (left) == AOP_LIT) ||
+ (AOP_TYPE (left) == AOP_IMMD) ||
+ (IS_AOP_PREG (right) && !IS_AOP_PREG (left)))
+ {
+ operand *t = right;
+ right = left;
+ left = t;
+ }
+
+ if (AOP_TYPE (right) == AOP_LIT)
+ lit = (unsigned long) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ if (opIsGptr (left) || opIsGptr (right))
+ {
+ /* We are comparing a generic pointer to something.
+ * Exclude the generic type byte from the comparison.
+ */
+ size--;
+ D (emitcode (";", "cjneshort: generic ptr special case."););
+ }
+
+
+ /* if the right side is a literal then anything goes */
+ if (AOP_TYPE (right) == AOP_LIT &&
+ AOP_TYPE (left) != AOP_DIR)
+ {
+ while (size--)
+ {
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("cjne", "a,%s,!tlabel",
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ lbl->key + 100);
+ offset++;
+ }
+ }
+
+ /* if the right side is in a register or in direct space or
+ if the left is a pointer register & right is not */
+ else if (AOP_TYPE (right) == AOP_REG ||
+ AOP_TYPE (right) == AOP_DIR ||
+ AOP_TYPE (right) == AOP_LIT ||
+ AOP_TYPE (right) == AOP_IMMD ||
+ (AOP_TYPE (left) == AOP_DIR && AOP_TYPE (right) == AOP_LIT) ||
+ (IS_AOP_PREG (left) && !IS_AOP_PREG (right)))
+ {
+ while (size--)
+ {
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ if ((AOP_TYPE (left) == AOP_DIR && AOP_TYPE (right) == AOP_LIT) &&
+ ((unsigned int) ((lit >> (offset * 8)) & 0x0FFL) == 0))
+ emitcode ("jnz", "!tlabel", lbl->key + 100);
+ else
+ emitcode ("cjne", "a,%s,!tlabel",
+ aopGet (AOP (right), offset, FALSE, TRUE, DP2_RESULT_REG),
+ lbl->key + 100);
+ offset++;
+ }
+ }
+ else
+ {
+ /* right is a pointer reg need both a & b */
+ while (size--)
+ {
+ MOVB (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ emitcode ("cjne", "a,b,!tlabel", lbl->key + 100);
+ offset++;
+ }
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* gencjne - compare and jump if not equal */
+/*-----------------------------------------------------------------*/
+static void
+gencjne (operand * left, operand * right, symbol * lbl)
+{
+ symbol *tlbl = newiTempLabel (NULL);
+
+ D (emitcode (";", "gencjne");
+ );
+
+ gencjneshort (left, right, lbl);
+
+ emitcode ("mov", "a,%s", one);
+ emitcode ("sjmp", "!tlabel", tlbl->key + 100);
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ emitcode ("clr", "a");
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+}
+
+/*-----------------------------------------------------------------*/
+/* genCmpEq - generates code for equal to */
+/*-----------------------------------------------------------------*/
+static void
+genCmpEq (iCode * ic, iCode * ifx)
+{
+ operand *left, *right, *result;
+
+ D (emitcode (";", "genCmpEq ");
+ );
+
+ AOP_OP_2 (ic);
+ AOP_SET_LOCALS (ic);
+
+ /* if literal, literal on the right or
+ if the right is in a pointer register and left
+ is not */
+ if ((AOP_TYPE (IC_LEFT (ic)) == AOP_LIT) ||
+ (IS_AOP_PREG (right) && !IS_AOP_PREG (left)))
+ {
+ operand *t = IC_RIGHT (ic);
+ IC_RIGHT (ic) = IC_LEFT (ic);
+ IC_LEFT (ic) = t;
+ }
+
+ if (ifx && /* !AOP_SIZE(result) */
+ OP_SYMBOL (result) &&
+ OP_SYMBOL (result)->regType == REG_CND)
+ {
+ symbol *tlbl;
+ /* if they are both bit variables */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ ((AOP_TYPE (right) == AOP_CRY) || (AOP_TYPE (right) == AOP_LIT)))
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ unsigned long lit = (unsigned long) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit);
+ if (lit == 0L)
+ {
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("cpl", "c");
+ }
+ else if (lit == 1L)
+ {
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ else
+ {
+ emitcode ("clr", "c");
+ }
+ /* AOP_TYPE(right) == AOP_CRY */
+ }
+ else
+ {
+ symbol *lbl = newiTempLabel (NULL);
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("jb", "%s,!tlabel", AOP (right)->aopu.aop_dir, (lbl->key + 100));
+ emitcode ("cpl", "c");
+ emitcode ("", "!tlabeldef", (lbl->key + 100));
+ }
+ /* if true label then we jump if condition
+ supplied is true */
+ tlbl = newiTempLabel (NULL);
+ if (IC_TRUE (ifx))
+ {
+ emitcode ("jnc", "!tlabel", tlbl->key + 100);
+ emitcode ("ljmp", "!tlabel", IC_TRUE (ifx)->key + 100);
+ }
+ else
+ {
+ emitcode ("jc", "!tlabel", tlbl->key + 100);
+ emitcode ("ljmp", "!tlabel", IC_FALSE (ifx)->key + 100);
+ }
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ else
+ {
+ tlbl = newiTempLabel (NULL);
+ gencjneshort (left, right, tlbl);
+ if (IC_TRUE (ifx))
+ {
+ emitcode ("ljmp", "!tlabel", IC_TRUE (ifx)->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ else
+ {
+ symbol *lbl = newiTempLabel (NULL);
+ emitcode ("sjmp", "!tlabel", lbl->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ emitcode ("ljmp", "!tlabel", IC_FALSE (ifx)->key + 100);
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ }
+ }
+ /* mark the icode as generated */
+ ifx->generated = 1;
+
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ return;
+ }
+
+ /* if they are both bit variables */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ ((AOP_TYPE (right) == AOP_CRY) || (AOP_TYPE (right) == AOP_LIT)))
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ unsigned long lit = (unsigned long) floatFromVal (AOP (IC_RIGHT (ic))->aopu.aop_lit);
+ if (lit == 0L)
+ {
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("cpl", "c");
+ }
+ else if (lit == 1L)
+ {
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ else
+ {
+ emitcode ("clr", "c");
+ }
+ /* AOP_TYPE(right) == AOP_CRY */
+ }
+ else
+ {
+ symbol *lbl = newiTempLabel (NULL);
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("jb", "%s,!tlabel", AOP (right)->aopu.aop_dir, (lbl->key + 100));
+ emitcode ("cpl", "c");
+ emitcode ("", "!tlabeldef", (lbl->key + 100));
+ }
+
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result, ic, TRUE, FALSE);
+
+ /* c = 1 if egal */
+ if (AOP_TYPE (result) == AOP_CRY && AOP_SIZE (result))
+ {
+ outBitC (result);
+ goto release;
+ }
+ if (ifx)
+ {
+ genIfxJump (ifx, "c");
+ goto release;
+ }
+ /* if the result is used in an arithmetic operation
+ then put the result in place */
+ outBitC (result);
+ }
+ else
+ {
+ gencjne (left, right, newiTempLabel (NULL));
+
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result, ic, TRUE, FALSE);
+
+ if (AOP_TYPE (result) == AOP_CRY && AOP_SIZE (result))
+ {
+ aopPut (AOP (result), "a", 0);
+ goto release;
+ }
+ if (ifx)
+ {
+ genIfxJump (ifx, "a");
+ goto release;
+ }
+ /* if the result is used in an arithmetic operation
+ then put the result in place */
+ if (AOP_TYPE (result) != AOP_CRY)
+ outAcc (result);
+ /* leave the result in acc */
+ }
+
+release:
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* ifxForOp - returns the icode containing the ifx for operand */
+/*-----------------------------------------------------------------*/
+static iCode *
+ifxForOp (operand * op, iCode * ic)
+{
+ /* if true symbol then needs to be assigned */
+ if (IS_TRUE_SYMOP (op))
+ return NULL;
+
+ /* if this has register type condition and
+ the next instruction is ifx with the same operand
+ and live to of the operand is upto the ifx only then */
+ if (ic->next &&
+ ic->next->op == IFX &&
+ IC_COND (ic->next)->key == op->key &&
+ OP_SYMBOL (op)->liveTo <= ic->next->seq)
+ return ic->next;
+
+ return NULL;
+}
+/*-----------------------------------------------------------------*/
+/* hasInc - operand is incremented before any other use */
+/*-----------------------------------------------------------------*/
+static iCode *
+hasInc (operand *op, iCode *ic, int osize)
+{
+ sym_link *type = operandType(op);
+ sym_link *retype = getSpec (type);
+ iCode *lic = ic->next;
+ int isize ;
+
+ /* this could from a cast, e.g.: "(char xdata *) 0x7654;" */
+ if (!IS_SYMOP(op)) return NULL;
+
+ if (IS_BITVAR(retype)||!IS_PTR(type)) return NULL;
+ if (IS_AGGREGATE(type->next)) return NULL;
+ if (osize != (isize = getSize(type->next))) return NULL;
+
+ while (lic) {
+ /* if operand of the form op = op + <sizeof *op> */
+ if (lic->op == '+' && isOperandEqual(IC_LEFT(lic),op) &&
+ isOperandEqual(IC_RESULT(lic),op) &&
+ isOperandLiteral(IC_RIGHT(lic)) &&
+ operandLitValue(IC_RIGHT(lic)) == isize) {
+ return lic;
+ }
+ /* if the operand used or deffed */
+ if (bitVectBitValue(OP_USES(op),lic->key) || lic->defKey == op->key) {
+ return NULL;
+ }
+ /* if GOTO or IFX */
+ if (lic->op == IFX || lic->op == GOTO || lic->op == LABEL) break;
+ lic = lic->next;
+ }
+ return NULL;
+}
+
+/*-----------------------------------------------------------------*/
+/* genAndOp - for && operation */
+/*-----------------------------------------------------------------*/
+static void
+genAndOp (iCode * ic)
+{
+ operand *left, *right, *result;
+ symbol *tlbl;
+
+ D (emitcode (";", "genAndOp "););
+
+ /* note here that && operations that are in an
+ if statement are taken away by backPatchLabels
+ only those used in arthmetic operations remain */
+ AOP_OP_2 (ic);
+ AOP_SET_LOCALS (ic);
+
+ /* if both are bit variables */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ AOP_TYPE (right) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("anl", "c,%s", AOP (right)->aopu.aop_dir);
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result,ic,FALSE, FALSE);
+ outBitC (result);
+ }
+ else
+ {
+ tlbl = newiTempLabel (NULL);
+ toBoolean (left);
+ emitcode ("jz", "!tlabel", tlbl->key + 100);
+ toBoolean (right);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result,ic,FALSE, FALSE);
+ outBitAcc (result);
+ }
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genOrOp - for || operation */
+/*-----------------------------------------------------------------*/
+static void
+genOrOp (iCode * ic)
+{
+ operand *left, *right, *result;
+ symbol *tlbl;
+
+ D (emitcode (";", "genOrOp "););
+
+ /* note here that || operations that are in an
+ if statement are taken away by backPatchLabels
+ only those used in arthmetic operations remain */
+ AOP_OP_2 (ic);
+ AOP_SET_LOCALS (ic);
+
+ /* if both are bit variables */
+ if (AOP_TYPE (left) == AOP_CRY &&
+ AOP_TYPE (right) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("orl", "c,%s", AOP (right)->aopu.aop_dir);
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result,ic,FALSE, FALSE);
+
+ outBitC (result);
+ }
+ else
+ {
+ tlbl = newiTempLabel (NULL);
+ toBoolean (left);
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ toBoolean (right);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+
+ aopOp (result,ic,FALSE, FALSE);
+
+ outBitAcc (result);
+ }
+
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* isLiteralBit - test if lit == 2^n */
+/*-----------------------------------------------------------------*/
+static int
+isLiteralBit (unsigned long lit)
+{
+ unsigned long pw[32] =
+ {1L, 2L, 4L, 8L, 16L, 32L, 64L, 128L,
+ 0x100L, 0x200L, 0x400L, 0x800L,
+ 0x1000L, 0x2000L, 0x4000L, 0x8000L,
+ 0x10000L, 0x20000L, 0x40000L, 0x80000L,
+ 0x100000L, 0x200000L, 0x400000L, 0x800000L,
+ 0x1000000L, 0x2000000L, 0x4000000L, 0x8000000L,
+ 0x10000000L, 0x20000000L, 0x40000000L, 0x80000000L};
+ int idx;
+
+ for (idx = 0; idx < 32; idx++)
+ if (lit == pw[idx])
+ return idx + 1;
+ return 0;
+}
+
+/*-----------------------------------------------------------------*/
+/* continueIfTrue - */
+/*-----------------------------------------------------------------*/
+static void
+continueIfTrue (iCode * ic)
+{
+ if (IC_TRUE (ic))
+ emitcode ("ljmp", "!tlabel", IC_TRUE (ic)->key + 100);
+ ic->generated = 1;
+}
+
+/*-----------------------------------------------------------------*/
+/* jmpIfTrue - */
+/*-----------------------------------------------------------------*/
+static void
+jumpIfTrue (iCode * ic)
+{
+ if (!IC_TRUE (ic))
+ emitcode ("ljmp", "!tlabel", IC_FALSE (ic)->key + 100);
+ ic->generated = 1;
+}
+
+/*-----------------------------------------------------------------*/
+/* jmpTrueOrFalse - */
+/*-----------------------------------------------------------------*/
+static void
+jmpTrueOrFalse (iCode * ic, symbol * tlbl)
+{
+ // ugly but optimized by peephole
+ if (IC_TRUE (ic))
+ {
+ symbol *nlbl = newiTempLabel (NULL);
+ emitcode ("sjmp", "!tlabel", nlbl->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ emitcode ("ljmp", "!tlabel", IC_TRUE (ic)->key + 100);
+ emitcode ("", "!tlabeldef", nlbl->key + 100);
+ }
+ else
+ {
+ emitcode ("ljmp", "!tlabel", IC_FALSE (ic)->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ ic->generated = 1;
+}
+
+// Generate code to perform a bit-wise logic operation
+// on two operands in far space (assumed to already have been
+// aopOp'd by the AOP_OP_3_NOFATAL macro), storing the result
+// in far space. This requires pushing the result on the stack
+// then popping it into the result.
+static void
+genFarFarLogicOp(iCode *ic, char *logicOp)
+{
+ int size, resultSize, compSize;
+ int offset = 0;
+
+ TR_AP("#5");
+ D(emitcode(";", "%s special case for 3 far operands.", logicOp););
+ compSize = AOP_SIZE(IC_LEFT(ic)) < AOP_SIZE(IC_RIGHT(ic)) ?
+ AOP_SIZE(IC_LEFT(ic)) : AOP_SIZE(IC_RIGHT(ic));
+
+ _startLazyDPSEvaluation();
+ for (size = compSize; (size--); offset++)
+ {
+ MOVA (aopGet (AOP (IC_LEFT(ic)), offset, FALSE, FALSE, NULL));
+ emitcode ("mov", "%s, acc", DP2_RESULT_REG);
+ MOVA (aopGet (AOP (IC_RIGHT(ic)), offset, FALSE, FALSE, NULL));
+
+ emitcode (logicOp, "a,%s", DP2_RESULT_REG);
+ emitcode ("push", "acc");
+ }
+ _endLazyDPSEvaluation();
+
+ freeAsmop (IC_LEFT(ic), NULL, ic, RESULTONSTACK (ic) ? FALSE : TRUE);
+ freeAsmop (IC_RIGHT(ic), NULL, ic, RESULTONSTACK (ic) ? FALSE : TRUE);
+ aopOp (IC_RESULT(ic),ic,TRUE, FALSE);
+
+ resultSize = AOP_SIZE(IC_RESULT(ic));
+
+ ADJUST_PUSHED_RESULT(compSize, resultSize);
+
+ _startLazyDPSEvaluation();
+ while (compSize--)
+ {
+ emitcode ("pop", "acc");
+ aopPut (AOP (IC_RESULT (ic)), "a", compSize);
+ }
+ _endLazyDPSEvaluation();
+ freeAsmop(IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genAnd - code for and */
+/*-----------------------------------------------------------------*/
+static void
+genAnd (iCode * ic, iCode * ifx)
+{
+ operand *left, *right, *result;
+ int size, offset = 0;
+ unsigned long lit = 0L;
+ int bytelit;
+ char buff[10];
+ bool pushResult;
+
+ D (emitcode (";", "genAnd "););
+
+ AOP_OP_3_NOFATAL (ic, pushResult);
+ AOP_SET_LOCALS (ic);
+
+ if (pushResult)
+ {
+ genFarFarLogicOp(ic, "anl");
+ return;
+ }
+
+#ifdef DEBUG_TYPE
+ emitcode ("", "; Type res[%d] = l[%d]&r[%d]",
+ AOP_TYPE (result),
+ AOP_TYPE (left), AOP_TYPE (right));
+ emitcode ("", "; Size res[%d] = l[%d]&r[%d]",
+ AOP_SIZE (result),
+ AOP_SIZE (left), AOP_SIZE (right));
+#endif
+
+ /* if left is a literal & right is not then exchange them */
+ if ((AOP_TYPE (left) == AOP_LIT && AOP_TYPE (right) != AOP_LIT)
+#ifdef LOGIC_OPS_BROKEN
+ || AOP_NEEDSACC (left)
+#endif
+ )
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+
+ /* if result = right then exchange left and right */
+ if (sameRegs (AOP (result), AOP (right)))
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+
+ /* if right is bit then exchange them */
+ if (AOP_TYPE (right) == AOP_CRY &&
+ AOP_TYPE (left) != AOP_CRY)
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+ if (AOP_TYPE (right) == AOP_LIT)
+ lit = (unsigned long) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ size = AOP_SIZE (result);
+
+ // if(bit & yy)
+ // result = bit & yy;
+ if (AOP_TYPE (left) == AOP_CRY)
+ {
+ // c = bit & literal;
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ if (lit & 1)
+ {
+ if (size && sameRegs (AOP (result), AOP (left)))
+ // no change
+ goto release;
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ else
+ {
+ // bit(result) = 0;
+ if (size && (AOP_TYPE (result) == AOP_CRY))
+ {
+ emitcode ("clr", "%s", AOP (result)->aopu.aop_dir);
+ goto release;
+ }
+ if ((AOP_TYPE (result) == AOP_CRY) && ifx)
+ {
+ jumpIfTrue (ifx);
+ goto release;
+ }
+ emitcode ("clr", "c");
+ }
+ }
+ else
+ {
+ if (AOP_TYPE (right) == AOP_CRY)
+ {
+ // c = bit & bit;
+ emitcode ("mov", "c,%s", AOP (right)->aopu.aop_dir);
+ emitcode ("anl", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ else
+ {
+ // c = bit & val;
+ MOVA (aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ // c = lsb
+ emitcode ("rrc", "a");
+ emitcode ("anl", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ }
+ // bit = c
+ // val = c
+ if (size)
+ outBitC (result);
+ // if(bit & ...)
+ else if ((AOP_TYPE (result) == AOP_CRY) && ifx)
+ genIfxJump (ifx, "c");
+ goto release;
+ }
+
+ // if(val & 0xZZ) - size = 0, ifx != FALSE -
+ // bit = val & 0xZZ - size = 1, ifx = FALSE -
+ if ((AOP_TYPE (right) == AOP_LIT) &&
+ (AOP_TYPE (result) == AOP_CRY) &&
+ (AOP_TYPE (left) != AOP_CRY))
+ {
+ int posbit = isLiteralBit (lit);
+ /* left & 2^n */
+ if (posbit)
+ {
+ posbit--;
+ MOVA (aopGet (AOP (left), posbit >> 3, FALSE, FALSE, NULL));
+ // bit = left & 2^n
+ if (size)
+ emitcode ("mov", "c,acc.%d", posbit & 0x07);
+ // if(left & 2^n)
+ else
+ {
+ if (ifx)
+ {
+ SNPRINTF (buff, sizeof(buff),
+ "acc.%d", posbit & 0x07);
+ genIfxJump (ifx, buff);
+ }
+ else
+ {
+ emitcode ("anl","a,#!constbyte",1 << (posbit & 0x07));
+ }
+ goto release;
+ }
+ }
+ else
+ {
+ symbol *tlbl = newiTempLabel (NULL);
+ int sizel = AOP_SIZE (left);
+ if (size)
+ emitcode ("setb", "c");
+ while (sizel--)
+ {
+ if ((bytelit = ((lit >> (offset * 8)) & 0x0FFL)) != 0x0L)
+ {
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ // byte == 2^n ?
+ if ((posbit = isLiteralBit (bytelit)) != 0)
+ emitcode ("jb", "acc.%d,!tlabel", (posbit - 1) & 0x07, tlbl->key + 100);
+ else
+ {
+ if (bytelit != 0x0FFL)
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, TRUE, DP2_RESULT_REG));
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ }
+ }
+ offset++;
+ }
+ // bit = left & literal
+ if (size)
+ {
+ emitcode ("clr", "c");
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ // if(left & literal)
+ else
+ {
+ if (ifx)
+ jmpTrueOrFalse (ifx, tlbl);
+ else
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ goto release;
+ }
+ }
+ outBitC (result);
+ goto release;
+ }
+
+ /* if left is same as result */
+ if (sameRegs (AOP (result), AOP (left)))
+ {
+ for (; size--; offset++)
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ bytelit = (int) ((lit >> (offset * 8)) & 0x0FFL);
+ if (bytelit == 0x0FF)
+ {
+ /* dummy read of volatile operand */
+ if (isOperandVolatile (left, FALSE))
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ else
+ continue;
+ }
+ else if (bytelit == 0)
+ {
+ aopPut (AOP (result), zero, offset);
+ }
+ else if (IS_AOP_PREG (result))
+ {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ emitcode ("anl", "%s,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, NULL),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ if (AOP_TYPE (left) == AOP_ACC)
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ else
+ {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ if (IS_AOP_PREG (result))
+ {
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ emitcode ("anl", "%s,a",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ }
+ }
+ }
+ }
+ else
+ {
+ // left & result in different registers
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ // result = bit
+ // if(size), result in bit
+ // if(!size && ifx), conditional oper: if(left & right)
+ symbol *tlbl = newiTempLabel (NULL);
+ int sizer = min (AOP_SIZE (left), AOP_SIZE (right));
+ if (size)
+ emitcode ("setb", "c");
+ while (sizer--)
+ {
+ if (AOP_TYPE(right)==AOP_REG && AOP_TYPE(left)==AOP_ACC) {
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ } else {
+ if (AOP_TYPE(left)==AOP_ACC) {
+ emitcode("mov", "b,a");
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ emitcode("anl", "a,b");
+ }else {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ }
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ offset++;
+ }
+ if (size)
+ {
+ CLRC;
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ outBitC (result);
+ }
+ else if (ifx)
+ jmpTrueOrFalse (ifx, tlbl);
+ else
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ else
+ {
+ for (; (size--); offset++)
+ {
+ // normal case
+ // result = left & right
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ bytelit = (int) ((lit >> (offset * 8)) & 0x0FFL);
+ if (bytelit == 0x0FF)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (left), offset, FALSE, FALSE, NULL),
+ offset);
+ continue;
+ }
+ else if (bytelit == 0)
+ {
+ /* dummy read of volatile operand */
+ if (isOperandVolatile (left, FALSE))
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ aopPut (AOP (result), zero, offset);
+ continue;
+ }
+ D (emitcode (";", "better literal AND."););
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("anl", "a, %s", aopGet (AOP (right), offset,
+ FALSE, FALSE, DP2_RESULT_REG));
+
+ }
+ else
+ {
+ // faster than result <- left, anl result,right
+ // and better if result is SFR
+ if (AOP_TYPE (left) == AOP_ACC)
+ {
+ emitcode ("anl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ else
+ {
+ char *rOp = aopGet (AOP (right), offset, FALSE, FALSE, NULL);
+ if (!strcmp(rOp, "a") || !strcmp(rOp, "acc"))
+ {
+ emitcode("mov", "b,a");
+ rOp = "b";
+ }
+
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("anl", "a,%s", rOp);
+ }
+ }
+ aopPut (AOP (result), "a", offset);
+ }
+ }
+ }
+
+release:
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genOr - code for or */
+/*-----------------------------------------------------------------*/
+static void
+genOr (iCode * ic, iCode * ifx)
+{
+ operand *left, *right, *result;
+ int size, offset = 0;
+ unsigned long lit = 0L;
+ int bytelit = 0;
+ bool pushResult;
+
+ D (emitcode (";", "genOr "););
+
+ AOP_OP_3_NOFATAL (ic, pushResult);
+ AOP_SET_LOCALS (ic);
+
+ if (pushResult)
+ {
+ genFarFarLogicOp(ic, "orl");
+ return;
+ }
+
+
+#ifdef DEBUG_TYPE
+ emitcode ("", "; Type res[%d] = l[%d]&r[%d]",
+ AOP_TYPE (result),
+ AOP_TYPE (left), AOP_TYPE (right));
+ emitcode ("", "; Size res[%d] = l[%d]&r[%d]",
+ AOP_SIZE (result),
+ AOP_SIZE (left), AOP_SIZE (right));
+#endif
+
+ /* if left is a literal & right is not then exchange them */
+ if ((AOP_TYPE (left) == AOP_LIT && AOP_TYPE (right) != AOP_LIT)
+#ifdef LOGIC_OPS_BROKEN
+ || AOP_NEEDSACC (left) // I think this is a net loss now.
+#endif
+ )
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+
+ /* if result = right then exchange them */
+ if (sameRegs (AOP (result), AOP (right)))
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+
+ /* if right is bit then exchange them */
+ if (AOP_TYPE (right) == AOP_CRY &&
+ AOP_TYPE (left) != AOP_CRY)
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+ if (AOP_TYPE (right) == AOP_LIT)
+ lit = (unsigned long) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ size = AOP_SIZE (result);
+
+ // if(bit | yy)
+ // xx = bit | yy;
+ if (AOP_TYPE (left) == AOP_CRY)
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ // c = bit & literal;
+ if (lit)
+ {
+ // lit != 0 => result = 1
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ if (size)
+ emitcode ("setb", "%s", AOP (result)->aopu.aop_dir);
+ else if (ifx)
+ continueIfTrue (ifx);
+ goto release;
+ }
+ emitcode ("setb", "c");
+ }
+ else
+ {
+ // lit == 0 => result = left
+ if (size && sameRegs (AOP (result), AOP (left)))
+ goto release;
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ }
+ else
+ {
+ if (AOP_TYPE (right) == AOP_CRY)
+ {
+ // c = bit | bit;
+ emitcode ("mov", "c,%s", AOP (right)->aopu.aop_dir);
+ emitcode ("orl", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ else
+ {
+ // c = bit | val;
+ symbol *tlbl = newiTempLabel (NULL);
+ if (!((AOP_TYPE (result) == AOP_CRY) && ifx))
+ emitcode ("setb", "c");
+ emitcode ("jb", "%s,!tlabel",
+ AOP (left)->aopu.aop_dir, tlbl->key + 100);
+ toBoolean (right);
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ if ((AOP_TYPE (result) == AOP_CRY) && ifx)
+ {
+ jmpTrueOrFalse (ifx, tlbl);
+ goto release;
+ }
+ else
+ {
+ CLRC;
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ }
+ }
+ // bit = c
+ // val = c
+ if (size)
+ outBitC (result);
+ // if(bit | ...)
+ else if ((AOP_TYPE (result) == AOP_CRY) && ifx)
+ genIfxJump (ifx, "c");
+ goto release;
+ }
+
+ // if(val | 0xZZ) - size = 0, ifx != FALSE -
+ // bit = val | 0xZZ - size = 1, ifx = FALSE -
+ if ((AOP_TYPE (right) == AOP_LIT) &&
+ (AOP_TYPE (result) == AOP_CRY) &&
+ (AOP_TYPE (left) != AOP_CRY))
+ {
+ if (lit)
+ {
+ // result = 1
+ if (size)
+ emitcode ("setb", "%s", AOP (result)->aopu.aop_dir);
+ else
+ continueIfTrue (ifx);
+ goto release;
+ }
+ else
+ {
+ // lit = 0, result = boolean(left)
+ if (size)
+ emitcode ("setb", "c");
+ toBoolean (right);
+ if (size)
+ {
+ symbol *tlbl = newiTempLabel (NULL);
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ CLRC;
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ else
+ {
+ genIfxJump (ifx, "a");
+ goto release;
+ }
+ }
+ outBitC (result);
+ goto release;
+ }
+
+ /* if left is same as result */
+ if (sameRegs (AOP (result), AOP (left)))
+ {
+ for (; size--; offset++)
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ bytelit = (int)((lit >> (offset * 8)) & 0x0FFL);
+ if (bytelit == 0x00L)
+ {
+ /* dummy read of volatile operand */
+ if (isOperandVolatile (left, FALSE))
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ else
+ continue;
+ }
+ else if (bytelit == 0x0FF)
+ {
+ aopPut (AOP (result), "#0xFF", offset);
+ }
+ else if (IS_AOP_PREG (left))
+ {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ {
+ emitcode ("orl", "%s,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, NULL),
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ }
+ else
+ {
+ if (AOP_TYPE (left) == AOP_ACC)
+ {
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ else
+ {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ if (IS_AOP_PREG (left))
+ {
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ {
+ emitcode ("orl", "%s,a",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ }
+ }
+ }
+ }
+ }
+ else
+ {
+ // left & result in different registers
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ // result = bit
+ // if(size), result in bit
+ // if(!size && ifx), conditional oper: if(left | right)
+ symbol *tlbl = newiTempLabel (NULL);
+ int sizer = max (AOP_SIZE (left), AOP_SIZE (right));
+ if (size)
+ emitcode ("setb", "c");
+ while (sizer--)
+ {
+ if (AOP_TYPE(right)==AOP_REG && AOP_TYPE(left)==AOP_ACC) {
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ } else {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ offset++;
+ }
+ if (size)
+ {
+ CLRC;
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ outBitC (result);
+ }
+ else if (ifx)
+ jmpTrueOrFalse (ifx, tlbl);
+ else
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ else
+ {
+ _startLazyDPSEvaluation();
+ for (; (size--); offset++)
+ {
+ // normal case
+ // result = left & right
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ bytelit = (int)((lit >> (offset * 8)) & 0x0FFL);
+ if (bytelit == 0x00L)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (left), offset, FALSE, FALSE, NULL),
+ offset);
+ continue;
+ }
+ else if (bytelit == 0x0FF)
+ {
+ /* dummy read of volatile operand */
+ if (isOperandVolatile (left, FALSE))
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ aopPut (AOP (result), "#0xFF", offset);
+ continue;
+ }
+ D (emitcode (";", "better literal OR."););
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("orl", "a, %s",
+ aopGet (AOP (right), offset,
+ FALSE, FALSE, DP2_RESULT_REG));
+
+ }
+ else
+ {
+ // faster than result <- left, anl result,right
+ // and better if result is SFR
+ if (AOP_TYPE (left) == AOP_ACC)
+ {
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (right), offset,
+ FALSE, FALSE, DP2_RESULT_REG));
+ }
+ else
+ {
+ char *rOp = aopGet (AOP (right), offset, FALSE, FALSE, NULL);
+
+ if (!strcmp(rOp, "a") || !strcmp(rOp, "acc"))
+ {
+ emitcode("mov", "b,a");
+ rOp = "b";
+ }
+
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("orl", "a,%s", rOp);
+ }
+ }
+ aopPut (AOP (result), "a", offset);
+ }
+ _endLazyDPSEvaluation();
+ }
+ }
+
+release:
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genXor - code for xclusive or */
+/*-----------------------------------------------------------------*/
+static void
+genXor (iCode * ic, iCode * ifx)
+{
+ operand *left, *right, *result;
+ int size, offset = 0;
+ unsigned long lit = 0L;
+ int bytelit = 0;
+ bool pushResult;
+
+ D (emitcode (";", "genXor "););
+
+ AOP_OP_3_NOFATAL (ic, pushResult);
+ AOP_SET_LOCALS (ic);
+
+ if (pushResult)
+ {
+ genFarFarLogicOp(ic, "xrl");
+ return;
+ }
+
+#ifdef DEBUG_TYPE
+ emitcode ("", "; Type res[%d] = l[%d]&r[%d]",
+ AOP_TYPE (result),
+ AOP_TYPE (left), AOP_TYPE (right));
+ emitcode ("", "; Size res[%d] = l[%d]&r[%d]",
+ AOP_SIZE (result),
+ AOP_SIZE (left), AOP_SIZE (right));
+#endif
+
+ /* if left is a literal & right is not ||
+ if left needs acc & right does not */
+ if ((AOP_TYPE (left) == AOP_LIT && AOP_TYPE (right) != AOP_LIT)
+#ifdef LOGIC_OPS_BROKEN
+ || (AOP_NEEDSACC (left) && !AOP_NEEDSACC (right))
+#endif
+ )
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+
+ /* if result = right then exchange them */
+ if (sameRegs (AOP (result), AOP (right)))
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+
+ /* if right is bit then exchange them */
+ if (AOP_TYPE (right) == AOP_CRY &&
+ AOP_TYPE (left) != AOP_CRY)
+ {
+ operand *tmp = right;
+ right = left;
+ left = tmp;
+ }
+ if (AOP_TYPE (right) == AOP_LIT)
+ lit = (unsigned long) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ size = AOP_SIZE (result);
+
+ // if(bit ^ yy)
+ // xx = bit ^ yy;
+ if (AOP_TYPE (left) == AOP_CRY)
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ // c = bit & literal;
+ if (lit >> 1)
+ {
+ // lit>>1 != 0 => result = 1
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ if (size)
+ emitcode ("setb", "%s", AOP (result)->aopu.aop_dir);
+ else if (ifx)
+ continueIfTrue (ifx);
+ goto release;
+ }
+ emitcode ("setb", "c");
+ }
+ else
+ {
+ // lit == (0 or 1)
+ if (lit == 0)
+ {
+ // lit == 0, result = left
+ if (size && sameRegs (AOP (result), AOP (left)))
+ goto release;
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ }
+ else
+ {
+ // lit == 1, result = not(left)
+ if (size && sameRegs (AOP (result), AOP (left)))
+ {
+ emitcode ("cpl", "%s", AOP (result)->aopu.aop_dir);
+ goto release;
+ }
+ else
+ {
+ emitcode ("mov", "c,%s", AOP (left)->aopu.aop_dir);
+ emitcode ("cpl", "c");
+ }
+ }
+ }
+
+ }
+ else
+ {
+ // right != literal
+ symbol *tlbl = newiTempLabel (NULL);
+ if (AOP_TYPE (right) == AOP_CRY)
+ {
+ // c = bit ^ bit;
+ emitcode ("mov", "c,%s", AOP (right)->aopu.aop_dir);
+ }
+ else
+ {
+ int sizer = AOP_SIZE (right);
+ // c = bit ^ val
+ // if val>>1 != 0, result = 1
+ emitcode ("setb", "c");
+ while (sizer)
+ {
+ MOVA (aopGet (AOP (right), sizer - 1, FALSE, FALSE, NULL));
+ if (sizer == 1)
+ // test the msb of the lsb
+ emitcode ("anl", "a,#!constbyte",0xfe);
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ sizer--;
+ }
+ // val = (0,1)
+ emitcode ("rrc", "a");
+ }
+ emitcode ("jnb", "%s,!tlabel", AOP (left)->aopu.aop_dir, (tlbl->key + 100));
+ emitcode ("cpl", "c");
+ emitcode ("", "!tlabeldef", (tlbl->key + 100));
+ }
+ // bit = c
+ // val = c
+ if (size)
+ outBitC (result);
+ // if(bit | ...)
+ else if ((AOP_TYPE (result) == AOP_CRY) && ifx)
+ genIfxJump (ifx, "c");
+ goto release;
+ }
+
+ /* if left is same as result */
+ if (sameRegs (AOP (result), AOP (left)))
+ {
+ for (; size--; offset++)
+ {
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ bytelit = (int) ((lit >> (offset * 8)) & 0x0FFL);
+ if (bytelit == 0x00L)
+ {
+ /* dummy read of volatile operand */
+ if (isOperandVolatile (left, FALSE))
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ else
+ continue;
+ }
+ else if (IS_AOP_PREG (left))
+ {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ emitcode ("xrl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ {
+ emitcode ("xrl", "%s,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, NULL),
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ }
+ else
+ {
+ if (AOP_TYPE (left) == AOP_ACC)
+ emitcode ("xrl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ else
+ {
+ MOVA (aopGet (AOP (right), offset, FALSE, FALSE, NULL));
+ if (IS_AOP_PREG (left))
+ {
+ emitcode ("xrl", "a,%s",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ emitcode ("xrl", "%s,a",
+ aopGet (AOP (left), offset, FALSE, TRUE, DP2_RESULT_REG));
+ }
+ }
+ }
+ }
+ else
+ {
+ // left & result in different registers
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ // result = bit
+ // if(size), result in bit
+ // if(!size && ifx), conditional oper: if(left ^ right)
+ symbol *tlbl = newiTempLabel (NULL);
+ int sizer = max (AOP_SIZE (left), AOP_SIZE (right));
+
+ if (size)
+ emitcode ("setb", "c");
+ while (sizer--)
+ {
+ if ((AOP_TYPE (right) == AOP_LIT) &&
+ (((lit >> (offset * 8)) & 0x0FFL) == 0x00L))
+ {
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ if (AOP_TYPE(right)==AOP_REG && AOP_TYPE(left)==AOP_ACC) {
+ emitcode ("xrl", "a,%s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ } else {
+ char *rOp = aopGet (AOP (right), offset, FALSE, FALSE, NULL);
+ if (!strcmp(rOp, "a") || !strcmp(rOp, "acc"))
+ {
+ emitcode("mov", "b,a");
+ rOp = "b";
+ }
+
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("xrl", "a,%s", rOp);
+ }
+ }
+ emitcode ("jnz", "!tlabel", tlbl->key + 100);
+ offset++;
+ }
+ if (size)
+ {
+ CLRC;
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ outBitC (result);
+ }
+ else if (ifx)
+ jmpTrueOrFalse (ifx, tlbl);
+ }
+ else
+ {
+ for (; (size--); offset++)
+ {
+ // normal case
+ // result = left & right
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ if (((lit >> (offset * 8)) & 0x0FFL) == 0x00L)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (left), offset, FALSE, FALSE, NULL),
+ offset);
+ continue;
+ }
+ D (emitcode (";", "better literal XOR."););
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("xrl", "a, %s",
+ aopGet (AOP (right), offset, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ else
+ {
+ // faster than result <- left, anl result,right
+ // and better if result is SFR
+ if (AOP_TYPE (left) == AOP_ACC)
+ {
+ emitcode ("xrl", "a,%s",
+ aopGet (AOP (right), offset,
+ FALSE, FALSE, DP2_RESULT_REG));
+ }
+ else
+ {
+ char *rOp = aopGet (AOP (right), offset, FALSE, FALSE, NULL);
+ if (!strcmp(rOp, "a") || !strcmp(rOp, "acc"))
+ {
+ emitcode("mov", "b,a");
+ rOp = "b";
+ }
+
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("xrl", "a,%s", rOp);
+ }
+ }
+ aopPut (AOP (result), "a", offset);
+ }
+ }
+
+ }
+
+release:
+ freeAsmop (left, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (right, NULL, ic, (RESULTONSTACK (ic) ? FALSE : TRUE));
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genInline - write the inline code out */
+/*-----------------------------------------------------------------*/
+static void
+genInline (iCode * ic)
+{
+ char *buffer, *bp, *bp1;
+
+ D (emitcode (";", "genInline "); );
+
+ _G.inLine += (!options.asmpeep);
+
+ buffer = Safe_strdup(IC_INLINE(ic));
+ bp = buffer;
+ bp1 = buffer;
+
+ /* emit each line as a code */
+ while (*bp)
+ {
+ if (*bp == '\n')
+ {
+ *bp++ = '\0';
+ emitcode (bp1, "");
+ bp1 = bp;
+ }
+ else
+ {
+ if (*bp == ':')
+ {
+ bp++;
+ *bp = '\0';
+ bp++;
+ emitcode (bp1, "");
+ bp1 = bp;
+ }
+ else
+ bp++;
+ }
+ }
+ if (bp1 != bp)
+ emitcode (bp1, "");
+ /* emitcode("",buffer); */
+ _G.inLine -= (!options.asmpeep);
+}
+
+/*-----------------------------------------------------------------*/
+/* genRRC - rotate right with carry */
+/*-----------------------------------------------------------------*/
+static void
+genRRC (iCode * ic)
+{
+ operand *left, *result;
+ int size, offset;
+
+ D (emitcode (";", "genRRC "););
+
+ /* rotate right with carry */
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+ /* move it to the result */
+ size = AOP_SIZE (result);
+ offset = size - 1;
+ CLRC;
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("rrc", "a");
+ if (AOP_SIZE (result) > 1)
+ aopPut (AOP (result), "a", offset--);
+ }
+ _endLazyDPSEvaluation ();
+
+ /* now we need to put the carry into the
+ highest order byte of the result */
+ if (AOP_SIZE (result) > 1)
+ {
+ MOVA (aopGet (AOP (result), AOP_SIZE (result) - 1, FALSE, FALSE, NULL));
+ }
+ emitcode ("mov", "acc.7,c");
+ aopPut (AOP (result), "a", AOP_SIZE (result) - 1);
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genRLC - generate code for rotate left with carry */
+/*-----------------------------------------------------------------*/
+static void
+genRLC (iCode * ic)
+{
+ operand *left, *result;
+ int size, offset;
+ char *l;
+
+ D (emitcode (";", "genRLC "););
+
+ /* rotate right with carry */
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+ /* move it to the result */
+ size = AOP_SIZE (result);
+ offset = 0;
+ if (size--)
+ {
+ l = aopGet (AOP (left), offset, FALSE, FALSE, NULL);
+ MOVA (l);
+ emitcode ("add", "a,acc");
+ if (AOP_SIZE (result) > 1)
+ {
+ aopPut (AOP (result), "a", offset++);
+ }
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ l = aopGet (AOP (left), offset, FALSE, FALSE, NULL);
+ MOVA (l);
+ emitcode ("rlc", "a");
+ if (AOP_SIZE (result) > 1)
+ aopPut (AOP (result), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+ }
+ /* now we need to put the carry into the
+ highest order byte of the result */
+ if (AOP_SIZE (result) > 1)
+ {
+ l = aopGet (AOP (result), 0, FALSE, FALSE, NULL);
+ MOVA (l);
+ }
+ emitcode ("mov", "acc.0,c");
+ aopPut (AOP (result), "a", 0);
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genGetHbit - generates code get highest order bit */
+/*-----------------------------------------------------------------*/
+static void
+genGetHbit (iCode * ic)
+{
+ operand *left, *result;
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+ D (emitcode (";", "genGetHbit "););
+
+ /* get the highest order byte into a */
+ MOVA (aopGet (AOP (left), AOP_SIZE (left) - 1, FALSE, FALSE, NULL));
+ if (AOP_TYPE (result) == AOP_CRY)
+ {
+ emitcode ("rlc", "a");
+ outBitC (result);
+ }
+ else
+ {
+ emitcode ("rl", "a");
+ emitcode ("anl", "a,#1");
+ outAcc (result);
+ }
+
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSwap - generates code to swap nibbles or bytes */
+/*-----------------------------------------------------------------*/
+static void
+genSwap (iCode * ic)
+{
+ operand *left, *result;
+
+ D(emitcode ("; genSwap",""));
+
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+ _startLazyDPSEvaluation ();
+ switch (AOP_SIZE (left))
+ {
+ case 1: /* swap nibbles in byte */
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("swap", "a");
+ aopPut (AOP (result), "a", 0);
+ break;
+ case 2: /* swap bytes in word */
+ if (AOP_TYPE(left) == AOP_REG && sameRegs(AOP(left), AOP(result)))
+ {
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ aopPut (AOP (result), aopGet (AOP (left), 1, FALSE, FALSE, NULL), 0);
+ aopPut (AOP (result), "a", 1);
+ }
+ else if (operandsEqu (left, result))
+ {
+ char * reg = "a";
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ if (AOP_NEEDSACC (left) || AOP_NEEDSACC (result))
+ {
+ emitcode ("mov", "b,a");
+ reg = "b";
+ _G.bInUse=1;
+ }
+ aopPut (AOP (result), aopGet (AOP (left), 1, FALSE, FALSE, NULL), 0);
+ aopPut (AOP (result), reg, 1);
+ _G.bInUse=0;
+ }
+ else
+ {
+ aopPut (AOP (result), aopGet (AOP (left), 1, FALSE, FALSE, NULL), 0);
+ aopPut (AOP (result), aopGet (AOP (left), 0, FALSE, FALSE, NULL), 1);
+ }
+ break;
+ default:
+ wassertl(FALSE, "unsupported SWAP operand size");
+ }
+ _endLazyDPSEvaluation ();
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* AccRol - rotate left accumulator by known count */
+/*-----------------------------------------------------------------*/
+static void
+AccRol (int shCount)
+{
+ shCount &= 0x0007; // shCount : 0..7
+
+ switch (shCount)
+ {
+ case 0:
+ break;
+ case 1:
+ emitcode ("rl", "a");
+ break;
+ case 2:
+ emitcode ("rl", "a");
+ emitcode ("rl", "a");
+ break;
+ case 3:
+ emitcode ("swap", "a");
+ emitcode ("rr", "a");
+ break;
+ case 4:
+ emitcode ("swap", "a");
+ break;
+ case 5:
+ emitcode ("swap", "a");
+ emitcode ("rl", "a");
+ break;
+ case 6:
+ emitcode ("rr", "a");
+ emitcode ("rr", "a");
+ break;
+ case 7:
+ emitcode ("rr", "a");
+ break;
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* AccLsh - left shift accumulator by known count */
+/*-----------------------------------------------------------------*/
+static void
+AccLsh (int shCount)
+{
+ if (shCount != 0)
+ {
+ if (shCount == 1)
+ emitcode ("add", "a,acc");
+ else if (shCount == 2)
+ {
+ emitcode ("add", "a,acc");
+ emitcode ("add", "a,acc");
+ }
+ else
+ {
+ /* rotate left accumulator */
+ AccRol (shCount);
+ /* and kill the lower order bits */
+ emitcode ("anl", "a,#!constbyte", SLMask[shCount]);
+ }
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* AccRsh - right shift accumulator by known count */
+/*-----------------------------------------------------------------*/
+static void
+AccRsh (int shCount)
+{
+ if (shCount != 0)
+ {
+ if (shCount == 1)
+ {
+ CLRC;
+ emitcode ("rrc", "a");
+ }
+ else
+ {
+ /* rotate right accumulator */
+ AccRol (8 - shCount);
+ /* and kill the higher order bits */
+ emitcode ("anl", "a,#!constbyte", SRMask[shCount]);
+ }
+ }
+}
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* AccSRsh - signed right shift accumulator by known count */
+/*-----------------------------------------------------------------*/
+static void
+AccSRsh (int shCount)
+{
+ symbol *tlbl;
+ if (shCount != 0)
+ {
+ if (shCount == 1)
+ {
+ emitcode ("mov", "c,acc.7");
+ emitcode ("rrc", "a");
+ }
+ else if (shCount == 2)
+ {
+ emitcode ("mov", "c,acc.7");
+ emitcode ("rrc", "a");
+ emitcode ("mov", "c,acc.7");
+ emitcode ("rrc", "a");
+ }
+ else
+ {
+ tlbl = newiTempLabel (NULL);
+ /* rotate right accumulator */
+ AccRol (8 - shCount);
+ /* and kill the higher order bits */
+ emitcode ("anl", "a,#!constbyte", SRMask[shCount]);
+ emitcode ("jnb", "acc.%d,!tlabel", 7 - shCount, tlbl->key + 100);
+ emitcode ("orl", "a,#!constbyte",
+ (unsigned char) ~SRMask[shCount]);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+ }
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* shiftR1Left2Result - shift right one byte from left to result */
+/*-----------------------------------------------------------------*/
+static void
+shiftR1Left2Result (operand * left, int offl,
+ operand * result, int offr,
+ int shCount, int sign)
+{
+ MOVA (aopGet (AOP (left), offl, FALSE, FALSE, NULL));
+ /* shift right accumulator */
+ if (sign)
+ AccSRsh (shCount);
+ else
+ AccRsh (shCount);
+ aopPut (AOP (result), "a", offr);
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* shiftL1Left2Result - shift left one byte from left to result */
+/*-----------------------------------------------------------------*/
+static void
+shiftL1Left2Result (operand * left, int offl,
+ operand * result, int offr, int shCount)
+{
+ MOVA(aopGet (AOP (left), offl, FALSE, FALSE, NULL));
+ /* shift left accumulator */
+ AccLsh (shCount);
+ aopPut (AOP (result), "a", offr);
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* movLeft2Result - move byte from left to result */
+/*-----------------------------------------------------------------*/
+static void
+movLeft2Result (operand * left, int offl,
+ operand * result, int offr, int sign)
+{
+ char *l;
+ if (!sameRegs (AOP (left), AOP (result)) || (offl != offr))
+ {
+ l = aopGet (AOP (left), offl, FALSE, FALSE, NULL);
+
+ if (*l == '@' && (IS_AOP_PREG (result)))
+ {
+ emitcode ("mov", "a,%s", l);
+ aopPut (AOP (result), "a", offr);
+ }
+ else
+ {
+ if (!sign)
+ {
+ aopPut (AOP (result), l, offr);
+ }
+ else
+ {
+ /* MSB sign in acc.7 ! */
+ if (getDataSize (left) == offl + 1)
+ {
+ emitcode ("mov", "a,%s", l);
+ aopPut (AOP (result), "a", offr);
+ }
+ }
+ }
+ }
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* AccAXRrl1 - right rotate c->a:x->c by 1 */
+/*-----------------------------------------------------------------*/
+static void
+AccAXRrl1 (char *x)
+{
+ emitcode ("rrc", "a");
+ emitcode ("xch", "a,%s", x);
+ emitcode ("rrc", "a");
+ emitcode ("xch", "a,%s", x);
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+//REMOVE ME!!!
+/*-----------------------------------------------------------------*/
+/* AccAXLrl1 - left rotate c<-a:x<-c by 1 */
+/*-----------------------------------------------------------------*/
+static void
+AccAXLrl1 (char *x)
+{
+ emitcode ("xch", "a,%s", x);
+ emitcode ("rlc", "a");
+ emitcode ("xch", "a,%s", x);
+ emitcode ("rlc", "a");
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* AccAXLsh1 - left shift a:x<-0 by 1 */
+/*-----------------------------------------------------------------*/
+static void
+AccAXLsh1 (char *x)
+{
+ emitcode ("xch", "a,%s", x);
+ emitcode ("add", "a,acc");
+ emitcode ("xch", "a,%s", x);
+ emitcode ("rlc", "a");
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* AccAXLsh - left shift a:x by known count (0..7) */
+/*-----------------------------------------------------------------*/
+static void
+AccAXLsh (char *x, int shCount)
+{
+ switch (shCount)
+ {
+ case 0:
+ break;
+ case 1:
+ AccAXLsh1 (x);
+ break;
+ case 2:
+ AccAXLsh1 (x);
+ AccAXLsh1 (x);
+ break;
+ case 3:
+ case 4:
+ case 5: // AAAAABBB:CCCCCDDD
+
+ AccRol (shCount); // BBBAAAAA:CCCCCDDD
+
+ emitcode ("anl", "a,#!constbyte",
+ SLMask[shCount]); // BBB00000:CCCCCDDD
+
+ emitcode ("xch", "a,%s", x); // CCCCCDDD:BBB00000
+
+ AccRol (shCount); // DDDCCCCC:BBB00000
+
+ emitcode ("xch", "a,%s", x); // BBB00000:DDDCCCCC
+
+ emitcode ("xrl", "a,%s", x); // (BBB^DDD)CCCCC:DDDCCCCC
+
+ emitcode ("xch", "a,%s", x); // DDDCCCCC:(BBB^DDD)CCCCC
+
+ emitcode ("anl", "a,#!constbyte",
+ SLMask[shCount]); // DDD00000:(BBB^DDD)CCCCC
+
+ emitcode ("xch", "a,%s", x); // (BBB^DDD)CCCCC:DDD00000
+
+ emitcode ("xrl", "a,%s", x); // BBBCCCCC:DDD00000
+
+ break;
+ case 6: // AAAAAABB:CCCCCCDD
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 000000BB:CCCCCCDD
+ emitcode ("mov", "c,acc.0"); // c = B
+ emitcode ("xch", "a,%s", x); // CCCCCCDD:000000BB
+#if 0
+ AccAXRrl1 (x); // BCCCCCCD:D000000B
+ AccAXRrl1 (x); // BBCCCCCC:DD000000
+#else
+ emitcode("rrc","a");
+ emitcode("xch","a,%s", x);
+ emitcode("rrc","a");
+ emitcode("mov","c,acc.0"); //<< get correct bit
+ emitcode("xch","a,%s", x);
+
+ emitcode("rrc","a");
+ emitcode("xch","a,%s", x);
+ emitcode("rrc","a");
+ emitcode("xch","a,%s", x);
+#endif
+ break;
+ case 7: // a:x <<= 7
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 0000000B:CCCCCCCD
+
+ emitcode ("mov", "c,acc.0"); // c = B
+
+ emitcode ("xch", "a,%s", x); // CCCCCCCD:0000000B
+
+ AccAXRrl1 (x); // BCCCCCCC:D0000000
+
+ break;
+ default:
+ break;
+ }
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+//REMOVE ME!!!
+/*-----------------------------------------------------------------*/
+/* AccAXRsh - right shift a:x known count (0..7) */
+/*-----------------------------------------------------------------*/
+static void
+AccAXRsh (char *x, int shCount)
+{
+ switch (shCount)
+ {
+ case 0:
+ break;
+ case 1:
+ CLRC;
+ AccAXRrl1 (x); // 0->a:x
+
+ break;
+ case 2:
+ CLRC;
+ AccAXRrl1 (x); // 0->a:x
+
+ CLRC;
+ AccAXRrl1 (x); // 0->a:x
+
+ break;
+ case 3:
+ case 4:
+ case 5: // AAAAABBB:CCCCCDDD = a:x
+
+ AccRol (8 - shCount); // BBBAAAAA:DDDCCCCC
+
+ emitcode ("xch", "a,%s", x); // CCCCCDDD:BBBAAAAA
+
+ AccRol (8 - shCount); // DDDCCCCC:BBBAAAAA
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 000CCCCC:BBBAAAAA
+
+ emitcode ("xrl", "a,%s", x); // BBB(CCCCC^AAAAA):BBBAAAAA
+
+ emitcode ("xch", "a,%s", x); // BBBAAAAA:BBB(CCCCC^AAAAA)
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 000AAAAA:BBB(CCCCC^AAAAA)
+
+ emitcode ("xch", "a,%s", x); // BBB(CCCCC^AAAAA):000AAAAA
+
+ emitcode ("xrl", "a,%s", x); // BBBCCCCC:000AAAAA
+
+ emitcode ("xch", "a,%s", x); // 000AAAAA:BBBCCCCC
+
+ break;
+ case 6: // AABBBBBB:CCDDDDDD
+
+ emitcode ("mov", "c,acc.7");
+ AccAXLrl1 (x); // ABBBBBBC:CDDDDDDA
+
+ AccAXLrl1 (x); // BBBBBBCC:DDDDDDAA
+
+ emitcode ("xch", "a,%s", x); // DDDDDDAA:BBBBBBCC
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 000000AA:BBBBBBCC
+
+ break;
+ case 7: // ABBBBBBB:CDDDDDDD
+
+ emitcode ("mov", "c,acc.7"); // c = A
+
+ AccAXLrl1 (x); // BBBBBBBC:DDDDDDDA
+
+ emitcode ("xch", "a,%s", x); // DDDDDDDA:BBBBBBCC
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 0000000A:BBBBBBBC
+
+ break;
+ default:
+ break;
+ }
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* AccAXRshS - right shift signed a:x known count (0..7) */
+/*-----------------------------------------------------------------*/
+static void
+AccAXRshS (char *x, int shCount)
+{
+ symbol *tlbl;
+ switch (shCount)
+ {
+ case 0:
+ break;
+ case 1:
+ emitcode ("mov", "c,acc.7");
+ AccAXRrl1 (x); // s->a:x
+
+ break;
+ case 2:
+ emitcode ("mov", "c,acc.7");
+ AccAXRrl1 (x); // s->a:x
+
+ emitcode ("mov", "c,acc.7");
+ AccAXRrl1 (x); // s->a:x
+
+ break;
+ case 3:
+ case 4:
+ case 5: // AAAAABBB:CCCCCDDD = a:x
+
+ tlbl = newiTempLabel (NULL);
+ AccRol (8 - shCount); // BBBAAAAA:CCCCCDDD
+
+ emitcode ("xch", "a,%s", x); // CCCCCDDD:BBBAAAAA
+
+ AccRol (8 - shCount); // DDDCCCCC:BBBAAAAA
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 000CCCCC:BBBAAAAA
+
+ emitcode ("xrl", "a,%s", x); // BBB(CCCCC^AAAAA):BBBAAAAA
+
+ emitcode ("xch", "a,%s", x); // BBBAAAAA:BBB(CCCCC^AAAAA)
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 000AAAAA:BBB(CCCCC^AAAAA)
+
+ emitcode ("xch", "a,%s", x); // BBB(CCCCC^AAAAA):000AAAAA
+
+ emitcode ("xrl", "a,%s", x); // BBBCCCCC:000AAAAA
+
+ emitcode ("xch", "a,%s", x); // 000SAAAA:BBBCCCCC
+
+ emitcode ("jnb", "acc.%d,!tlabel", 7 - shCount, tlbl->key + 100);
+ emitcode ("orl", "a,#!constbyte",
+ (unsigned char) ~SRMask[shCount]); // 111AAAAA:BBBCCCCC
+
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ break; // SSSSAAAA:BBBCCCCC
+
+ case 6: // AABBBBBB:CCDDDDDD
+
+ tlbl = newiTempLabel (NULL);
+ emitcode ("mov", "c,acc.7");
+ AccAXLrl1 (x); // ABBBBBBC:CDDDDDDA
+
+ AccAXLrl1 (x); // BBBBBBCC:DDDDDDAA
+
+ emitcode ("xch", "a,%s", x); // DDDDDDAA:BBBBBBCC
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 000000AA:BBBBBBCC
+
+ emitcode ("jnb", "acc.%d,!tlabel", 7 - shCount, tlbl->key + 100);
+ emitcode ("orl", "a,#!constbyte",
+ (unsigned char) ~SRMask[shCount]); // 111111AA:BBBBBBCC
+
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ break;
+ case 7: // ABBBBBBB:CDDDDDDD
+
+ tlbl = newiTempLabel (NULL);
+ emitcode ("mov", "c,acc.7"); // c = A
+
+ AccAXLrl1 (x); // BBBBBBBC:DDDDDDDA
+
+ emitcode ("xch", "a,%s", x); // DDDDDDDA:BBBBBBCC
+
+ emitcode ("anl", "a,#!constbyte",
+ SRMask[shCount]); // 0000000A:BBBBBBBC
+
+ emitcode ("jnb", "acc.%d,!tlabel", 7 - shCount, tlbl->key + 100);
+ emitcode ("orl", "a,#!constbyte",
+ (unsigned char) ~SRMask[shCount]); // 1111111A:BBBBBBBC
+
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ break;
+ default:
+ break;
+ }
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+static void
+_loadLeftIntoAx(char **lsb,
+ operand *left,
+ operand *result,
+ int offl,
+ int offr)
+{
+ // Get the initial value from left into a pair of registers.
+ // MSB must be in A, LSB can be any register.
+ //
+ // If the result is held in registers, it is an optimization
+ // if the LSB can be held in the register which will hold the,
+ // result LSB since this saves us from having to copy it into
+ // the result following AccAXLsh.
+ //
+ // If the result is addressed indirectly, this is not a gain.
+ if (AOP_NEEDSACC(result))
+ {
+ char *leftByte;
+
+ _startLazyDPSEvaluation();
+ if (AOP_TYPE(left) == AOP_DPTR2)
+ {
+ // Get MSB in A.
+ MOVA(aopGet(AOP(left), offl + MSB16, FALSE, FALSE, NULL));
+ // get LSB in DP2_RESULT_REG.
+ leftByte = aopGet(AOP(left), offl, FALSE, FALSE, DP2_RESULT_REG);
+ assert(!strcmp(leftByte, DP2_RESULT_REG));
+ }
+ else
+ {
+ // get LSB into DP2_RESULT_REG
+ leftByte = aopGet (AOP(left), offl, FALSE, FALSE, NULL);
+ if (strcmp(leftByte, DP2_RESULT_REG))
+ {
+ TR_AP("#7");
+ emitcode("mov","%s,%s", DP2_RESULT_REG, leftByte);
+ }
+ // And MSB in A.
+ leftByte = aopGet(AOP(left), offl + MSB16, FALSE, FALSE, NULL);
+ assert(strcmp(leftByte, DP2_RESULT_REG));
+ MOVA(leftByte);
+ }
+ _endLazyDPSEvaluation();
+ *lsb = DP2_RESULT_REG;
+ }
+ else
+ {
+ if (sameRegs (AOP (result), AOP (left)) &&
+ ((offl + MSB16) == offr))
+ {
+ /* don't crash result[offr] */
+ MOVA(aopGet(AOP(left), offl, FALSE, FALSE, NULL));
+ emitcode ("xch", "a,%s",
+ aopGet(AOP(left), offl + MSB16, FALSE, FALSE, DP2_RESULT_REG));
+ }
+ else
+ {
+ movLeft2Result (left, offl, result, offr, 0);
+ MOVA (aopGet (AOP (left), offl + MSB16, FALSE, FALSE, NULL));
+ }
+ *lsb = aopGet(AOP (result), offr, FALSE, FALSE, DP2_RESULT_REG);
+ assert(strcmp(*lsb,"a"));
+ }
+}
+
+static void
+_storeAxResults(char *lsb,
+ operand *result,
+ int offr)
+{
+ _startLazyDPSEvaluation();
+ if (AOP_NEEDSACC(result))
+ {
+ /* We have to explicitly update the result LSB.
+ */
+ emitcode("xch","a,%s", lsb);
+ aopPut(AOP(result), "a", offr);
+ emitcode("mov","a,%s", lsb);
+ }
+ if (getDataSize (result) > 1)
+ {
+ aopPut (AOP (result), "a", offr + MSB16);
+ }
+ _endLazyDPSEvaluation();
+}
+
+/*-----------------------------------------------------------------*/
+/* shiftL2Left2Result - shift left two bytes from left to result */
+/*-----------------------------------------------------------------*/
+static void
+shiftL2Left2Result (operand * left, int offl,
+ operand * result, int offr, int shCount)
+{
+ char *lsb;
+
+ _loadLeftIntoAx(&lsb, left, result, offl, offr);
+
+ AccAXLsh (lsb, shCount);
+
+ _storeAxResults(lsb, result, offr);
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* shiftR2Left2Result - shift right two bytes from left to result */
+/*-----------------------------------------------------------------*/
+static void
+shiftR2Left2Result (operand * left, int offl,
+ operand * result, int offr,
+ int shCount, int sign)
+{
+ char *lsb;
+
+ _loadLeftIntoAx(&lsb, left, result, offl, offr);
+
+ /* a:x >> shCount (x = lsb(result)) */
+ if (sign)
+ {
+ AccAXRshS(lsb, shCount);
+ }
+ else
+ {
+ AccAXRsh(lsb, shCount);
+ }
+
+ _storeAxResults(lsb, result, offr);
+}
+#endif
+
+/*-----------------------------------------------------------------*/
+/* shiftLLeftOrResult - shift left one byte from left, or to result */
+/*-----------------------------------------------------------------*/
+static void
+shiftLLeftOrResult (operand * left, int offl,
+ operand * result, int offr, int shCount)
+{
+ MOVA (aopGet (AOP (left), offl, FALSE, FALSE, NULL));
+ /* shift left accumulator */
+ AccLsh (shCount);
+ /* or with result */
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (result), offr, FALSE, FALSE, DP2_RESULT_REG));
+ /* back to result */
+ aopPut (AOP (result), "a", offr);
+}
+
+#if 0
+//REMOVE ME!!!
+/*-----------------------------------------------------------------*/
+/* shiftRLeftOrResult - shift right one byte from left,or to result */
+/*-----------------------------------------------------------------*/
+static void
+shiftRLeftOrResult (operand * left, int offl,
+ operand * result, int offr, int shCount)
+{
+ MOVA (aopGet (AOP (left), offl, FALSE, FALSE, NULL));
+ /* shift right accumulator */
+ AccRsh (shCount);
+ /* or with result */
+ emitcode ("orl", "a,%s",
+ aopGet (AOP (result), offr, FALSE, FALSE, DP2_RESULT_REG));
+ /* back to result */
+ aopPut (AOP (result), "a", offr);
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* genlshOne - left shift a one byte quantity by known count */
+/*-----------------------------------------------------------------*/
+static void
+genlshOne (operand * result, operand * left, int shCount)
+{
+ D (emitcode (";", "genlshOne "););
+ shiftL1Left2Result (left, LSB, result, LSB, shCount);
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* genlshTwo - left shift two bytes by known amount != 0 */
+/*-----------------------------------------------------------------*/
+static void
+genlshTwo (operand * result, operand * left, int shCount)
+{
+ int size;
+
+ D (emitcode (";", "genlshTwo "););
+
+ size = getDataSize (result);
+
+ /* if shCount >= 8 */
+ if (shCount >= 8)
+ {
+ shCount -= 8;
+
+ _startLazyDPSEvaluation();
+
+ if (size > 1)
+ {
+ if (shCount)
+ {
+ _endLazyDPSEvaluation();
+ shiftL1Left2Result (left, LSB, result, MSB16, shCount);
+ aopPut (AOP (result), zero, LSB);
+ }
+ else
+ {
+ movLeft2Result (left, LSB, result, MSB16, 0);
+ aopPut (AOP (result), zero, LSB);
+ _endLazyDPSEvaluation();
+ }
+ }
+ else
+ {
+ aopPut (AOP (result), zero, LSB);
+ _endLazyDPSEvaluation();
+ }
+ }
+
+ /* 1 <= shCount <= 7 */
+ else
+ {
+ if (size == 1)
+ {
+ shiftL1Left2Result (left, LSB, result, LSB, shCount);
+ }
+ else
+ {
+ shiftL2Left2Result (left, LSB, result, LSB, shCount);
+ }
+ }
+}
+#endif
+
+#if 0
+//REMOVE ME!!!
+/*-----------------------------------------------------------------*/
+/* shiftLLong - shift left one long from left to result */
+/* offl = LSB or MSB16 */
+/*-----------------------------------------------------------------*/
+static void
+shiftLLong (operand * left, operand * result, int offr)
+{
+ char *l;
+ int size = AOP_SIZE (result);
+
+ if (size >= LSB + offr)
+ {
+ l = aopGet (AOP (left), LSB, FALSE, FALSE, NULL);
+ MOVA (l);
+ emitcode ("add", "a,acc");
+ if (sameRegs (AOP (left), AOP (result)) &&
+ size >= MSB16 + offr && offr != LSB)
+ emitcode ("xch", "a,%s",
+ aopGet (AOP (left), LSB + offr, FALSE, FALSE, DP2_RESULT_REG));
+ else
+ aopPut (AOP (result), "a", LSB + offr);
+ }
+
+ if (size >= MSB16 + offr)
+ {
+ if (!(sameRegs (AOP (result), AOP (left)) && size >= MSB16 + offr && offr != LSB))
+ {
+ MOVA (aopGet (AOP (left), MSB16, FALSE, FALSE, TRUE));
+ }
+ emitcode ("rlc", "a");
+ if (sameRegs (AOP (left), AOP (result)) &&
+ size >= MSB24 + offr && offr != LSB)
+ emitcode ("xch", "a,%s",
+ aopGet (AOP (left), MSB16 + offr, FALSE, FALSE, DP2_RESULT_REG));
+ else
+ aopPut (AOP (result), "a", MSB16 + offr);
+ }
+
+ if (size >= MSB24 + offr)
+ {
+ if (!(sameRegs (AOP (left), AOP (left)) && size >= MSB24 + offr && offr != LSB))
+ {
+ MOVA (aopGet (AOP (left), MSB24, FALSE, FALSE, NULL));
+ }
+ emitcode ("rlc", "a");
+ if (sameRegs (AOP (left), AOP (result)) &&
+ size >= MSB32 + offr && offr != LSB)
+ emitcode ("xch", "a,%s",
+ aopGet (AOP (left), MSB24 + offr, FALSE, FALSE, DP2_RESULT_REG));
+ else
+ aopPut (AOP (result), "a", MSB24 + offr);
+ }
+
+ if (size > MSB32 + offr)
+ {
+ if (!(sameRegs (AOP (result), AOP (left)) && size >= MSB32 + offr && offr != LSB))
+ {
+ MOVA (aopGet (AOP (left), MSB32, FALSE, FALSE, NULL));
+ }
+ emitcode ("rlc", "a");
+ aopPut (AOP (result), "a", MSB32 + offr);
+ }
+ if (offr != LSB)
+ aopPut (AOP (result), zero, LSB);
+}
+#endif
+
+#if 0
+//REMOVE ME!!!
+/*-----------------------------------------------------------------*/
+/* genlshFour - shift four byte by a known amount != 0 */
+/*-----------------------------------------------------------------*/
+static void
+genlshFour (operand * result, operand * left, int shCount)
+{
+ int size;
+
+ D (emitcode (";", "genlshFour ");
+ );
+
+ size = AOP_SIZE (result);
+
+ /* if shifting more that 3 bytes */
+ if (shCount >= 24)
+ {
+ shCount -= 24;
+ if (shCount)
+ /* lowest order of left goes to the highest
+ order of the destination */
+ shiftL1Left2Result (left, LSB, result, MSB32, shCount);
+ else
+ movLeft2Result (left, LSB, result, MSB32, 0);
+ aopPut (AOP (result), zero, LSB);
+ aopPut (AOP (result), zero, MSB16);
+ aopPut (AOP (result), zero, MSB24);
+ return;
+ }
+
+ /* more than two bytes */
+ else if (shCount >= 16)
+ {
+ /* lower order two bytes goes to higher order two bytes */
+ shCount -= 16;
+ /* if some more remaining */
+ if (shCount)
+ shiftL2Left2Result (left, LSB, result, MSB24, shCount);
+ else
+ {
+ movLeft2Result (left, MSB16, result, MSB32, 0);
+ movLeft2Result (left, LSB, result, MSB24, 0);
+ }
+ aopPut (AOP (result), zero, MSB16);
+ aopPut (AOP (result), zero, LSB);
+ return;
+ }
+
+ /* if more than 1 byte */
+ else if (shCount >= 8)
+ {
+ /* lower order three bytes goes to higher order three bytes */
+ shCount -= 8;
+ if (size == 2)
+ {
+ if (shCount)
+ shiftL1Left2Result (left, LSB, result, MSB16, shCount);
+ else
+ movLeft2Result (left, LSB, result, MSB16, 0);
+ }
+ else
+ { /* size = 4 */
+ if (shCount == 0)
+ {
+ movLeft2Result (left, MSB24, result, MSB32, 0);
+ movLeft2Result (left, MSB16, result, MSB24, 0);
+ movLeft2Result (left, LSB, result, MSB16, 0);
+ aopPut (AOP (result), zero, LSB);
+ }
+ else if (shCount == 1)
+ shiftLLong (left, result, MSB16);
+ else
+ {
+ shiftL2Left2Result (left, MSB16, result, MSB24, shCount);
+ shiftL1Left2Result (left, LSB, result, MSB16, shCount);
+ shiftRLeftOrResult (left, LSB, result, MSB24, 8 - shCount);
+ aopPut (AOP (result), zero, LSB);
+ }
+ }
+ }
+
+ /* 1 <= shCount <= 7 */
+ else if (shCount <= 2)
+ {
+ shiftLLong (left, result, LSB);
+ if (shCount == 2)
+ shiftLLong (result, result, LSB);
+ }
+ /* 3 <= shCount <= 7, optimize */
+ else
+ {
+ shiftL2Left2Result (left, MSB24, result, MSB24, shCount);
+ shiftRLeftOrResult (left, MSB16, result, MSB24, 8 - shCount);
+ shiftL2Left2Result (left, LSB, result, LSB, shCount);
+ }
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* genLeftShiftLiteral - left shifting by known count */
+/*-----------------------------------------------------------------*/
+static bool
+genLeftShiftLiteral (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic)
+{
+ int shCount = (int) floatFromVal (AOP (right)->aopu.aop_lit);
+ int size;
+
+ size = getSize (operandType (result));
+
+ D(emitcode (";", "genLeftShiftLiteral (%d), size %d", shCount, size););
+
+ /* We only handle certain easy cases so far. */
+ if ((shCount != 0)
+ && (shCount < (size * 8))
+ && (size != 1)
+ && (size != 2))
+ {
+ D(emitcode (";", "genLeftShiftLiteral wimping out"););
+ return FALSE;
+ }
+
+ freeAsmop (right, NULL, ic, TRUE);
+
+ aopOp(left, ic, FALSE, FALSE);
+ aopOp(result, ic, FALSE, AOP_USESDPTR(left));
+
+#if 0 // debug spew
+ if (IS_SYMOP(left) && OP_SYMBOL(left)->aop)
+ {
+ emitcode(";", "left (%s) is %d", OP_SYMBOL(left)->rname, AOP_TYPE(left));
+ if (!IS_TRUE_SYMOP(left) && OP_SYMBOL(left)->usl.spillLoc)
+ {
+ emitcode(";", "\taka %s", OP_SYMBOL(left)->usl.spillLoc->rname);
+ }
+ }
+ if (IS_SYMOP(result) && OP_SYMBOL(result)->aop)
+ {
+ emitcode(";", "result (%s) is %d", OP_SYMBOL(result)->rname, AOP_TYPE(result));
+ if (!IS_TRUE_SYMOP(result) && OP_SYMBOL(result)->usl.spillLoc)
+ {
+ emitcode(";", "\taka %s", OP_SYMBOL(result)->usl.spillLoc->rname);
+ }
+ }
+#endif
+
+#if VIEW_SIZE
+ emitcode ("; shift left ", "result %d, left %d", size,
+ AOP_SIZE (left));
+#endif
+
+ /* I suppose that the left size >= result size */
+ if (shCount == 0)
+ {
+ _startLazyDPSEvaluation();
+ while (size--)
+ {
+ movLeft2Result (left, size, result, size, 0);
+ }
+ _endLazyDPSEvaluation();
+ }
+ else if (shCount >= (size * 8))
+ {
+ _startLazyDPSEvaluation();
+ while (size--)
+ {
+ aopPut (AOP (result), zero, size);
+ }
+ _endLazyDPSEvaluation();
+ }
+ else
+ {
+ switch (size)
+ {
+ case 1:
+ genlshOne (result, left, shCount);
+ break;
+
+ case 2:
+ genlshTwo (result, left, shCount);
+ break;
+#if 0
+ case 4:
+ genlshFour (result, left, shCount);
+ break;
+#endif
+ default:
+ fprintf(stderr, "*** ack! mystery literal shift!\n");
+ break;
+ }
+ }
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+ return TRUE;
+}
+#endif
+
+/*-----------------------------------------------------------------*/
+/* genLeftShift - generates code for left shifting */
+/*-----------------------------------------------------------------*/
+static void
+genLeftShift (iCode * ic)
+{
+ operand *left, *right, *result;
+ int size, offset;
+ char *l;
+ symbol *tlbl, *tlbl1;
+
+ D (emitcode (";", "genLeftShift "););
+
+ right = IC_RIGHT (ic);
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+
+ aopOp (right, ic, FALSE, FALSE);
+
+
+#ifdef BETTER_LITERAL_SHIFT
+ /* if the shift count is known then do it
+ as efficiently as possible */
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ if (genLeftShiftLiteral (left, right, result, ic))
+ {
+ return;
+ }
+ }
+#endif
+
+ /* shift count is unknown then we have to form
+ a loop get the loop count in B : Note: we take
+ only the lower order byte since shifting
+ more that 32 bits make no sense anyway, ( the
+ largest size of an object can be only 32 bits ) */
+
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ /* Really should be handled by genLeftShiftLiteral,
+ * but since I'm too lazy to fix that today, at least we can make
+ * some small improvement.
+ */
+ emitcode("mov", "b,#!constbyte",
+ ((int) floatFromVal (AOP (right)->aopu.aop_lit)) + 1);
+ }
+ else
+ {
+ MOVB(aopGet (AOP (right), 0, FALSE, FALSE, "b"));
+ emitcode ("inc", "b");
+ }
+ freeAsmop (right, NULL, ic, TRUE);
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+ /* now move the left to the result if they are not the
+ same */
+ if (!sameRegs (AOP (left), AOP (result)) &&
+ AOP_SIZE (result) > 1)
+ {
+
+ size = AOP_SIZE (result);
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ l = aopGet (AOP (left), offset, FALSE, TRUE, NULL);
+ if (*l == '@' && (IS_AOP_PREG (result)))
+ {
+
+ emitcode ("mov", "a,%s", l);
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ aopPut (AOP (result), l, offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+ tlbl = newiTempLabel (NULL);
+ size = AOP_SIZE (result);
+ offset = 0;
+ tlbl1 = newiTempLabel (NULL);
+
+ /* if it is only one byte then */
+ if (size == 1)
+ {
+ symbol *tlbl1 = newiTempLabel (NULL);
+
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("sjmp", "!tlabel", tlbl1->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ emitcode ("add", "a,acc");
+ emitcode ("", "!tlabeldef", tlbl1->key + 100);
+ emitcode ("djnz", "b,!tlabel", tlbl->key + 100);
+ aopPut (AOP (result), "a", 0);
+ goto release;
+ }
+
+ reAdjustPreg (AOP (result));
+
+ emitcode ("sjmp", "!tlabel", tlbl1->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ MOVA (aopGet (AOP (result), offset, FALSE, FALSE, NULL));
+ emitcode ("add", "a,acc");
+ aopPut (AOP (result), "a", offset++);
+ _startLazyDPSEvaluation ();
+ while (--size)
+ {
+ MOVA (aopGet (AOP (result), offset, FALSE, FALSE, NULL));
+ emitcode ("rlc", "a");
+ aopPut (AOP (result), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+ reAdjustPreg (AOP (result));
+
+ emitcode ("", "!tlabeldef", tlbl1->key + 100);
+ emitcode ("djnz", "b,!tlabel", tlbl->key + 100);
+release:
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* genrshOne - right shift a one byte quantity by known count */
+/*-----------------------------------------------------------------*/
+static void
+genrshOne (operand * result, operand * left,
+ int shCount, int sign)
+{
+ D (emitcode (";", "genrshOne"););
+ shiftR1Left2Result (left, LSB, result, LSB, shCount, sign);
+}
+#endif
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* genrshTwo - right shift two bytes by known amount != 0 */
+/*-----------------------------------------------------------------*/
+static void
+genrshTwo (operand * result, operand * left,
+ int shCount, int sign)
+{
+ D (emitcode (";", "genrshTwo"););
+
+ /* if shCount >= 8 */
+ if (shCount >= 8)
+ {
+ shCount -= 8;
+ _startLazyDPSEvaluation();
+ if (shCount)
+ {
+ shiftR1Left2Result (left, MSB16, result, LSB,
+ shCount, sign);
+ }
+ else
+ {
+ movLeft2Result (left, MSB16, result, LSB, sign);
+ }
+ addSign (result, MSB16, sign);
+ _endLazyDPSEvaluation();
+ }
+
+ /* 1 <= shCount <= 7 */
+ else
+ {
+ shiftR2Left2Result (left, LSB, result, LSB, shCount, sign);
+ }
+}
+#endif
+
+/*-----------------------------------------------------------------*/
+/* shiftRLong - shift right one long from left to result */
+/* offl = LSB or MSB16 */
+/*-----------------------------------------------------------------*/
+static void
+shiftRLong (operand * left, int offl,
+ operand * result, int sign)
+{
+ int isSameRegs=sameRegs(AOP(left),AOP(result));
+
+ if (isSameRegs && offl>1) {
+ // we are in big trouble, but this shouldn't happen
+ werror(E_INTERNAL_ERROR, __FILE__, __LINE__);
+ }
+
+ MOVA (aopGet (AOP (left), MSB32, FALSE, FALSE, NULL));
+
+ if (offl==MSB16) {
+ // shift is > 8
+ if (sign) {
+ emitcode ("rlc", "a");
+ emitcode ("subb", "a,acc");
+ emitcode ("xch", "a,%s",
+ aopGet(AOP(left), MSB32, FALSE, FALSE, DP2_RESULT_REG));
+ } else {
+ aopPut (AOP(result), zero, MSB32);
+ }
+ }
+
+ if (!sign) {
+ emitcode ("clr", "c");
+ } else {
+ emitcode ("mov", "c,acc.7");
+ }
+
+ emitcode ("rrc", "a");
+
+ if (isSameRegs && offl==MSB16) {
+ emitcode ("xch",
+ "a,%s",aopGet (AOP (left), MSB24, FALSE, FALSE, DP2_RESULT_REG));
+ } else {
+ aopPut (AOP (result), "a", MSB32);
+ MOVA (aopGet (AOP (left), MSB24, FALSE, FALSE, NULL));
+ }
+
+ emitcode ("rrc", "a");
+ if (isSameRegs && offl==1) {
+ emitcode ("xch", "a,%s",
+ aopGet (AOP (left), MSB16, FALSE, FALSE, DP2_RESULT_REG));
+ } else {
+ aopPut (AOP (result), "a", MSB24);
+ MOVA (aopGet (AOP (left), MSB16, FALSE, FALSE, NULL));
+ }
+ emitcode ("rrc", "a");
+ aopPut (AOP (result), "a", MSB16 - offl);
+
+ if (offl == LSB)
+ {
+ MOVA (aopGet (AOP (left), LSB, FALSE, FALSE, NULL));
+ emitcode ("rrc", "a");
+ aopPut (AOP (result), "a", LSB);
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genrshFour - shift four byte by a known amount != 0 */
+/*-----------------------------------------------------------------*/
+static void
+genrshFour (operand * result, operand * left,
+ int shCount, int sign)
+{
+ D (emitcode (";", "genrshFour"););
+
+ /* if shifting more that 3 bytes */
+ if (shCount >= 24)
+ {
+ shCount -= 24;
+ _startLazyDPSEvaluation();
+ if (shCount)
+ shiftR1Left2Result (left, MSB32, result, LSB, shCount, sign);
+ else
+ movLeft2Result (left, MSB32, result, LSB, sign);
+ addSign (result, MSB16, sign);
+ _endLazyDPSEvaluation();
+ }
+ else if (shCount >= 16)
+ {
+ shCount -= 16;
+ _startLazyDPSEvaluation();
+ if (shCount)
+ shiftR2Left2Result (left, MSB24, result, LSB, shCount, sign);
+ else
+ {
+ movLeft2Result (left, MSB24, result, LSB, 0);
+ movLeft2Result (left, MSB32, result, MSB16, sign);
+ }
+ addSign (result, MSB24, sign);
+ _endLazyDPSEvaluation();
+ }
+ else if (shCount >= 8)
+ {
+ shCount -= 8;
+ _startLazyDPSEvaluation();
+ if (shCount == 1)
+ {
+ shiftRLong (left, MSB16, result, sign);
+ }
+ else if (shCount == 0)
+ {
+ movLeft2Result (left, MSB16, result, LSB, 0);
+ movLeft2Result (left, MSB24, result, MSB16, 0);
+ movLeft2Result (left, MSB32, result, MSB24, sign);
+ addSign (result, MSB32, sign);
+ }
+ else
+ {
+ shiftR2Left2Result (left, MSB16, result, LSB, shCount, 0);
+ shiftLLeftOrResult (left, MSB32, result, MSB16, 8 - shCount);
+ /* the last shift is signed */
+ shiftR1Left2Result (left, MSB32, result, MSB24, shCount, sign);
+ addSign (result, MSB32, sign);
+ }
+ _endLazyDPSEvaluation();
+ }
+ else
+ {
+ /* 1 <= shCount <= 7 */
+ if (shCount <= 2)
+ {
+ shiftRLong (left, LSB, result, sign);
+ if (shCount == 2)
+ shiftRLong (result, LSB, result, sign);
+ }
+ else
+ {
+ shiftR2Left2Result (left, LSB, result, LSB, shCount, 0);
+ shiftLLeftOrResult (left, MSB24, result, MSB16, 8 - shCount);
+ shiftR2Left2Result (left, MSB24, result, MSB24, shCount, sign);
+ }
+ }
+}
+
+#ifdef BETTER_LITERAL_SHIFT
+/*-----------------------------------------------------------------*/
+/* genRightShiftLiteral - right shifting by known count */
+/*-----------------------------------------------------------------*/
+static bool
+genRightShiftLiteral (operand * left,
+ operand * right,
+ operand * result,
+ iCode * ic,
+ int sign)
+{
+ int shCount = (int) floatFromVal (AOP (right)->aopu.aop_lit);
+ int size;
+
+ size = getSize (operandType (result));
+
+ D(emitcode (";", "genRightShiftLiteral (%d), size %d", shCount, size););
+
+ /* We only handle certain easy cases so far. */
+ if ((shCount != 0)
+ && (shCount < (size * 8))
+ && (size != 1)
+ && (size != 2)
+ && (size != 4))
+ {
+ D(emitcode (";", "genRightShiftLiteral wimping out"););
+ return FALSE;
+ }
+
+ freeAsmop (right, NULL, ic, TRUE);
+
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+#if VIEW_SIZE
+ emitcode ("; shift right ", "result %d, left %d", AOP_SIZE (result),
+ AOP_SIZE (left));
+#endif
+
+ /* test the LEFT size !!! */
+
+ /* I suppose that the left size >= result size */
+ if (shCount == 0)
+ {
+ size = getDataSize (result);
+ _startLazyDPSEvaluation();
+ while (size--)
+ {
+ movLeft2Result (left, size, result, size, 0);
+ }
+ _endLazyDPSEvaluation();
+ }
+ else if (shCount >= (size * 8))
+ {
+ if (sign)
+ {
+ /* get sign in acc.7 */
+ MOVA (aopGet (AOP (left), size - 1, FALSE, FALSE, NULL));
+ }
+ addSign (result, LSB, sign);
+ }
+ else
+ {
+ switch (size)
+ {
+ case 1:
+ genrshOne (result, left, shCount, sign);
+ break;
+
+ case 2:
+ genrshTwo (result, left, shCount, sign);
+ break;
+#if 1
+ case 4:
+ genrshFour (result, left, shCount, sign);
+ break;
+#endif
+ default:
+ break;
+ }
+ }
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+
+ return TRUE;
+}
+#endif
+
+/*-----------------------------------------------------------------*/
+/* genSignedRightShift - right shift of signed number */
+/*-----------------------------------------------------------------*/
+static void
+genSignedRightShift (iCode * ic)
+{
+ operand *right, *left, *result;
+ int size, offset;
+ char *l;
+ symbol *tlbl, *tlbl1;
+
+ D (emitcode (";", "genSignedRightShift "););
+
+ /* we do it the hard way put the shift count in b
+ and loop thru preserving the sign */
+
+ right = IC_RIGHT (ic);
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+
+ aopOp (right, ic, FALSE, FALSE);
+
+#ifdef BETTER_LITERAL_SHIFT
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ if (genRightShiftLiteral (left, right, result, ic, 1))
+ {
+ return;
+ }
+ }
+#endif
+ /* shift count is unknown then we have to form
+ a loop get the loop count in B : Note: we take
+ only the lower order byte since shifting
+ more that 32 bits make no sense anyway, ( the
+ largest size of an object can be only 32 bits ) */
+
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ /* Really should be handled by genRightShiftLiteral,
+ * but since I'm too lazy to fix that today, at least we can make
+ * some small improvement.
+ */
+ emitcode("mov", "b,#!constbyte",
+ ((int) floatFromVal (AOP (right)->aopu.aop_lit)) + 1);
+ }
+ else
+ {
+ MOVB(aopGet (AOP (right), 0, FALSE, FALSE, "b"));
+ emitcode ("inc", "b");
+ }
+ freeAsmop (right, NULL, ic, TRUE);
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+ /* now move the left to the result if they are not the
+ same */
+ if (!sameRegs (AOP (left), AOP (result)) &&
+ AOP_SIZE (result) > 1)
+ {
+
+ size = AOP_SIZE (result);
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ l = aopGet (AOP (left), offset, FALSE, TRUE, NULL);
+ if (*l == '@' && IS_AOP_PREG (result))
+ {
+
+ emitcode ("mov", "a,%s", l);
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ aopPut (AOP (result), l, offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+ /* mov the highest order bit to OVR */
+ tlbl = newiTempLabel (NULL);
+ tlbl1 = newiTempLabel (NULL);
+
+ size = AOP_SIZE (result);
+ offset = size - 1;
+ MOVA (aopGet (AOP (left), offset, FALSE, FALSE, NULL));
+ emitcode ("rlc", "a");
+ emitcode ("mov", "ov,c");
+ /* if it is only one byte then */
+ if (size == 1)
+ {
+ MOVA( aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("sjmp", "!tlabel", tlbl1->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ emitcode ("mov", "c,ov");
+ emitcode ("rrc", "a");
+ emitcode ("", "!tlabeldef", tlbl1->key + 100);
+ emitcode ("djnz", "b,!tlabel", tlbl->key + 100);
+ aopPut (AOP (result), "a", 0);
+ goto release;
+ }
+
+ reAdjustPreg (AOP (result));
+ emitcode ("sjmp", "!tlabel", tlbl1->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ emitcode ("mov", "c,ov");
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ MOVA (aopGet (AOP (result), offset, FALSE, FALSE, NULL));
+ emitcode ("rrc", "a");
+ aopPut (AOP (result), "a", offset--);
+ }
+ _endLazyDPSEvaluation ();
+ reAdjustPreg (AOP (result));
+ emitcode ("", "!tlabeldef", tlbl1->key + 100);
+ emitcode ("djnz", "b,!tlabel", tlbl->key + 100);
+
+release:
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genRightShift - generate code for right shifting */
+/*-----------------------------------------------------------------*/
+static void
+genRightShift (iCode * ic)
+{
+ operand *right, *left, *result;
+ sym_link *letype;
+ int size, offset;
+ char *l;
+ symbol *tlbl, *tlbl1;
+
+ D (emitcode (";", "genRightShift "););
+
+ /* if signed then we do it the hard way preserve the
+ sign bit moving it inwards */
+ letype = getSpec (operandType (IC_LEFT (ic)));
+
+ if (!SPEC_USIGN (letype))
+ {
+ genSignedRightShift (ic);
+ return;
+ }
+
+ /* signed & unsigned types are treated the same : i.e. the
+ signed is NOT propagated inwards : quoting from the
+ ANSI - standard : "for E1 >> E2, is equivalent to division
+ by 2**E2 if unsigned or if it has a non-negative value,
+ otherwise the result is implementation defined ", MY definition
+ is that the sign does not get propagated */
+
+ right = IC_RIGHT (ic);
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+
+ aopOp (right, ic, FALSE, FALSE);
+
+#ifdef BETTER_LITERAL_SHIFT
+ /* if the shift count is known then do it
+ as efficiently as possible */
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ if (genRightShiftLiteral (left, right, result, ic, 0))
+ {
+ return;
+ }
+ }
+#endif
+
+ /* shift count is unknown then we have to form
+ a loop get the loop count in B : Note: we take
+ only the lower order byte since shifting
+ more that 32 bits make no sense anyway, ( the
+ largest size of an object can be only 32 bits ) */
+
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ /* Really should be handled by genRightShiftLiteral,
+ * but since I'm too lazy to fix that today, at least we can make
+ * some small improvement.
+ */
+ emitcode("mov", "b,#!constbyte",
+ ((int) floatFromVal (AOP (right)->aopu.aop_lit)) + 1);
+ }
+ else
+ {
+ MOVB(aopGet (AOP (right), 0, FALSE, FALSE, "b"));
+ emitcode ("inc", "b");
+ }
+ freeAsmop (right, NULL, ic, TRUE);
+ aopOp (left, ic, FALSE, FALSE);
+ aopOp (result, ic, FALSE, AOP_USESDPTR(left));
+
+ /* now move the left to the result if they are not the
+ same */
+ if (!sameRegs (AOP (left), AOP (result)) &&
+ AOP_SIZE (result) > 1)
+ {
+
+ size = AOP_SIZE (result);
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ l = aopGet (AOP (left), offset, FALSE, TRUE, NULL);
+ if (*l == '@' && IS_AOP_PREG (result))
+ {
+
+ emitcode ("mov", "a,%s", l);
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ aopPut (AOP (result), l, offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+ tlbl = newiTempLabel (NULL);
+ tlbl1 = newiTempLabel (NULL);
+ size = AOP_SIZE (result);
+ offset = size - 1;
+
+ /* if it is only one byte then */
+ if (size == 1)
+ {
+ MOVA (aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("sjmp", "!tlabel", tlbl1->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ CLRC;
+ emitcode ("rrc", "a");
+ emitcode ("", "!tlabeldef", tlbl1->key + 100);
+ emitcode ("djnz", "b,!tlabel", tlbl->key + 100);
+ aopPut (AOP (result), "a", 0);
+ goto release;
+ }
+
+ reAdjustPreg (AOP (result));
+ emitcode ("sjmp", "!tlabel", tlbl1->key + 100);
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ CLRC;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ MOVA (aopGet (AOP (result), offset, FALSE, FALSE, NULL));
+ emitcode ("rrc", "a");
+ aopPut (AOP (result), "a", offset--);
+ }
+ _endLazyDPSEvaluation ();
+ reAdjustPreg (AOP (result));
+
+ emitcode ("", "!tlabeldef", tlbl1->key + 100);
+ emitcode ("djnz", "b,!tlabel", tlbl->key + 100);
+
+release:
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+
+/*-----------------------------------------------------------------*/
+/* emitPtrByteGet - emits code to get a byte into A through a */
+/* pointer register (R0, R1, or DPTR). The */
+/* original value of A can be preserved in B. */
+/*-----------------------------------------------------------------*/
+static void
+emitPtrByteGet (char *rname, int p_type, bool preserveAinB)
+{
+ switch (p_type)
+ {
+ case IPOINTER:
+ case POINTER:
+ if (preserveAinB)
+ emitcode ("mov", "b,a");
+ emitcode ("mov", "a,@%s", rname);
+ break;
+
+ case PPOINTER:
+ if (preserveAinB)
+ emitcode ("mov", "b,a");
+ emitcode ("movx", "a,@%s", rname);
+ break;
+
+ case FPOINTER:
+ if (preserveAinB)
+ emitcode ("mov", "b,a");
+ emitcode ("movx", "a,@dptr");
+ break;
+
+ case CPOINTER:
+ if (preserveAinB)
+ emitcode ("mov", "b,a");
+ emitcode ("clr", "a");
+ emitcode ("movc", "a,@a+dptr");
+ break;
+
+ case GPOINTER:
+ if (preserveAinB)
+ {
+ emitcode ("push", "b");
+ emitcode ("push", "acc");
+ }
+ emitcode ("lcall", "__gptrget");
+ if (preserveAinB)
+ emitcode ("pop", "b");
+ break;
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* emitPtrByteSet - emits code to set a byte from src through a */
+/* pointer register (R0, R1, or DPTR). */
+/*-----------------------------------------------------------------*/
+static void
+emitPtrByteSet (char *rname, int p_type, char *src)
+{
+ switch (p_type)
+ {
+ case IPOINTER:
+ case POINTER:
+ if (*src=='@')
+ {
+ MOVA (src);
+ emitcode ("mov", "@%s,a", rname);
+ }
+ else
+ emitcode ("mov", "@%s,%s", rname, src);
+ break;
+
+ case PPOINTER:
+ MOVA (src);
+ emitcode ("movx", "@%s,a", rname);
+ break;
+
+ case FPOINTER:
+ MOVA (src);
+ emitcode ("movx", "@dptr,a");
+ break;
+
+ case GPOINTER:
+ MOVA (src);
+ emitcode ("lcall", "__gptrput");
+ break;
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genUnpackBits - generates code for unpacking bits */
+/*-----------------------------------------------------------------*/
+static void
+genUnpackBits (operand * result, char *rname, int ptype)
+{
+ int offset = 0; /* result byte offset */
+ int rsize; /* result size */
+ int rlen = 0; /* remaining bitfield length */
+ sym_link *etype; /* bitfield type information */
+ int blen; /* bitfield length */
+ int bstr; /* bitfield starting bit within byte */
+
+ D(emitcode ("; genUnpackBits",""));
+
+ etype = getSpec (operandType (result));
+ rsize = getSize (operandType (result));
+ blen = SPEC_BLEN (etype);
+ bstr = SPEC_BSTR (etype);
+
+ /* If the bitfield length is less than a byte */
+ if (blen < 8)
+ {
+ emitPtrByteGet (rname, ptype, FALSE);
+ AccRsh (bstr);
+ emitcode ("anl", "a,#!constbyte", ((unsigned char) -1) >> (8 - blen));
+ aopPut (AOP (result), "a", offset++);
+ goto finish;
+ }
+
+ /* Bit field did not fit in a byte. Copy all
+ but the partial byte at the end. */
+ for (rlen=blen;rlen>=8;rlen-=8)
+ {
+ emitPtrByteGet (rname, ptype, FALSE);
+ aopPut (AOP (result), "a", offset++);
+ if (rlen>8)
+ emitcode ("inc", "%s", rname);
+ }
+
+ /* Handle the partial byte at the end */
+ if (rlen)
+ {
+ emitPtrByteGet (rname, ptype, FALSE);
+ emitcode ("anl", "a,#!constbyte", ((unsigned char) -1) >> (8-rlen));
+ aopPut (AOP (result), "a", offset++);
+ }
+
+finish:
+ if (offset < rsize)
+ {
+ rsize -= offset;
+ while (rsize--)
+ aopPut (AOP (result), zero, offset++);
+ }
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genDataPointerGet - generates code when ptr offset is known */
+/*-----------------------------------------------------------------*/
+static void
+genDataPointerGet (operand * left,
+ operand * result,
+ iCode * ic)
+{
+ char *l;
+ char buff[256];
+ int size, offset = 0;
+ aopOp (result, ic, TRUE, FALSE);
+
+ /* get the string representation of the name */
+ l = aopGet (AOP (left), 0, FALSE, TRUE, NULL);
+ size = AOP_SIZE (result);
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ if (offset)
+ {
+ SNPRINTF (buff, sizeof(buff),
+ "(%s + %d)", l + 1, offset);
+ }
+ else
+ {
+ SNPRINTF (buff, sizeof(buff),
+ "%s", l + 1);
+ }
+ aopPut (AOP (result), buff, offset++);
+ }
+ _endLazyDPSEvaluation ();
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genNearPointerGet - emitcode for near pointer fetch */
+/*-----------------------------------------------------------------*/
+static void
+genNearPointerGet (operand * left,
+ operand * result,
+ iCode * ic,
+ iCode *pi)
+{
+ asmop *aop = NULL;
+ regs *preg;
+ char *rname;
+ sym_link *rtype, *retype, *letype;
+ sym_link *ltype = operandType (left);
+ char buff[80];
+
+ rtype = operandType (result);
+ retype = getSpec (rtype);
+ letype = getSpec (ltype);
+
+ aopOp (left, ic, FALSE, FALSE);
+
+ /* if left is rematerialisable and
+ result is not bitfield variable type and
+ the left is pointer to data space i.e
+ lower 128 bytes of space */
+ if (AOP_TYPE (left) == AOP_IMMD &&
+ !IS_BITFIELD (retype) &&
+ !IS_BITFIELD (letype) &&
+ DCL_TYPE (ltype) == POINTER)
+ {
+ genDataPointerGet (left, result, ic);
+ return;
+ }
+
+ /* if the value is already in a pointer register
+ then don't need anything more */
+ if (!AOP_INPREG (AOP (left)))
+ {
+ /* otherwise get a free pointer register */
+ aop = newAsmop (0);
+ preg = getFreePtr (ic, &aop, FALSE);
+ emitcode ("mov", "%s,%s",
+ preg->name,
+ aopGet (AOP (left), 0, FALSE, TRUE, DP2_RESULT_REG));
+ rname = preg->name;
+ }
+ else
+ rname = aopGet (AOP (left), 0, FALSE, FALSE, DP2_RESULT_REG);
+
+ freeAsmop (left, NULL, ic, TRUE);
+ aopOp (result, ic, FALSE, FALSE);
+
+ /* if bitfield then unpack the bits */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype))
+ genUnpackBits (result, rname, POINTER);
+ else
+ {
+ /* we have can just get the values */
+ int size = AOP_SIZE (result);
+ int offset = 0;
+
+ while (size--)
+ {
+ if (IS_AOP_PREG (result) || AOP_TYPE (result) == AOP_STK)
+ {
+
+ emitcode ("mov", "a,@%s", rname);
+ aopPut (AOP (result), "a", offset);
+ }
+ else
+ {
+ SNPRINTF (buff, sizeof(buff), "@%s", rname);
+ aopPut (AOP (result), buff, offset);
+ }
+ offset++;
+ if (size || pi)
+ {
+ emitcode ("inc", "%s", rname);
+ }
+ }
+ }
+
+ /* now some housekeeping stuff */
+ if (aop)
+ {
+ /* we had to allocate for this iCode */
+ if (pi) { /* post increment present */
+ aopPut(AOP ( left ),rname,0);
+ }
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
+ else
+ {
+ /* we did not allocate which means left
+ already in a pointer register, then
+ if size > 0 && this could be used again
+ we have to point it back to where it
+ belongs */
+ if (AOP_SIZE (result) > 1 &&
+ !OP_SYMBOL (left)->remat &&
+ (OP_SYMBOL (left)->liveTo > ic->seq ||
+ ic->depth) &&
+ !pi)
+ {
+ int size = AOP_SIZE (result) - 1;
+ while (size--)
+ emitcode ("dec", "%s", rname);
+ }
+ }
+
+ /* done */
+ freeAsmop (result, NULL, ic, TRUE);
+ if (pi) pi->generated = 1;
+}
+
+/*-----------------------------------------------------------------*/
+/* genPagedPointerGet - emitcode for paged pointer fetch */
+/*-----------------------------------------------------------------*/
+static void
+genPagedPointerGet (operand * left,
+ operand * result,
+ iCode * ic,
+ iCode * pi)
+{
+ asmop *aop = NULL;
+ regs *preg;
+ char *rname;
+ sym_link *rtype, *retype, *letype;
+
+ rtype = operandType (result);
+ retype = getSpec (rtype);
+ letype = getSpec (operandType (left));
+ aopOp (left, ic, FALSE, FALSE);
+
+ /* if the value is already in a pointer register
+ then don't need anything more */
+ if (!AOP_INPREG (AOP (left)))
+ {
+ /* otherwise get a free pointer register */
+ aop = newAsmop (0);
+ preg = getFreePtr (ic, &aop, FALSE);
+ emitcode ("mov", "%s,%s",
+ preg->name,
+ aopGet (AOP (left), 0, FALSE, TRUE, NULL));
+ rname = preg->name;
+ }
+ else
+ rname = aopGet (AOP (left), 0, FALSE, FALSE, NULL);
+
+ freeAsmop (left, NULL, ic, TRUE);
+ aopOp (result, ic, FALSE, FALSE);
+
+ /* if bitfield then unpack the bits */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype))
+ genUnpackBits (result, rname, PPOINTER);
+ else
+ {
+ /* we have can just get the values */
+ int size = AOP_SIZE (result);
+ int offset = 0;
+
+ while (size--)
+ {
+
+ emitcode ("movx", "a,@%s", rname);
+ aopPut (AOP (result), "a", offset);
+
+ offset++;
+
+ if (size || pi)
+ emitcode ("inc", "%s", rname);
+ }
+ }
+
+ /* now some housekeeping stuff */
+ if (aop)
+ {
+ /* we had to allocate for this iCode */
+ if (pi) aopPut ( AOP (left), rname, 0);
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
+ else
+ {
+ /* we did not allocate which means left
+ already in a pointer register, then
+ if size > 0 && this could be used again
+ we have to point it back to where it
+ belongs */
+ if (AOP_SIZE (result) > 1 &&
+ !OP_SYMBOL (left)->remat &&
+ (OP_SYMBOL (left)->liveTo > ic->seq ||
+ ic->depth) &&
+ !pi)
+ {
+ int size = AOP_SIZE (result) - 1;
+ while (size--)
+ emitcode ("dec", "%s", rname);
+ }
+ }
+
+ /* done */
+ freeAsmop (result, NULL, ic, TRUE);
+ if (pi) pi->generated = 1;
+}
+
+/*-----------------------------------------------------------------*/
+/* genFarPointerGet - gget value from far space */
+/*-----------------------------------------------------------------*/
+static void
+genFarPointerGet (operand * left,
+ operand * result, iCode * ic, iCode *pi)
+{
+ int size, offset, dopi=1;
+ sym_link *retype = getSpec (operandType (result));
+ sym_link *letype = getSpec (operandType (left));
+ D (emitcode (";", "genFarPointerGet"););
+
+ aopOp (left, ic, FALSE, FALSE);
+
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (left) != AOP_STR && !AOP_INDPTRn(left) )
+ {
+ /* if this is remateriazable */
+ if (AOP_TYPE (left) == AOP_IMMD)
+ {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (left), 0, TRUE, FALSE, NULL));
+ }
+ else
+ {
+ /* we need to get it byte by byte */
+ _startLazyDPSEvaluation ();
+ if (AOP_TYPE (left) != AOP_DPTR)
+ {
+ emitcode ("mov", "dpl,%s", aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (left), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (left), 2, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ /* We need to generate a load to DPTR indirect through DPTR. */
+ D (emitcode (";", "genFarPointerGet -- indirection special case."););
+ emitcode ("push", "%s", aopGet (AOP (left), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (left), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (left), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ dopi =0;
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ /* so dptr know contains the address */
+ aopOp (result, ic, FALSE, (AOP_INDPTRn(left) ? FALSE : TRUE));
+
+ /* if bit then unpack */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype)) {
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ }
+ genUnpackBits (result, "dptr", FPOINTER);
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(0);
+ }
+ } else
+ {
+ size = AOP_SIZE (result);
+ offset = 0;
+
+ if (AOP_INDPTRn(left) && AOP_USESDPTR(result)) {
+ while (size--) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ emitcode ("movx", "a,@dptr");
+ if (size || (dopi && pi && AOP_TYPE (left) != AOP_IMMD))
+ emitcode ("inc", "dptr");
+ genSetDPTR (0);
+ aopPut (AOP (result), "a", offset++);
+ }
+ } else {
+ _startLazyDPSEvaluation ();
+ while (size--) {
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ } else {
+ genSetDPTR (0);
+ }
+ _flushLazyDPS ();
+
+ emitcode ("movx", "a,@dptr");
+ if (size || (dopi && pi && AOP_TYPE (left) != AOP_IMMD))
+ emitcode ("inc", "dptr");
+
+ aopPut (AOP (result), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ if (dopi && pi && AOP_TYPE (left) != AOP_IMMD) {
+ if (!AOP_INDPTRn(left)) {
+ _startLazyDPSEvaluation ();
+ aopPut ( AOP (left), "dpl", 0);
+ aopPut ( AOP (left), "dph", 1);
+ if (options.model == MODEL_FLAT24)
+ aopPut ( AOP (left), "dpx", 2);
+ _endLazyDPSEvaluation ();
+ }
+ pi->generated = 1;
+ } else if ((AOP_IS_STR(left) || AOP_INDPTRn(left)) &&
+ AOP_SIZE(result) > 1 &&
+ IS_SYMOP(left) &&
+ (OP_SYMBOL(left)->liveTo > ic->seq || ic->depth)) {
+
+ size = AOP_SIZE (result) - 1;
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ }
+ while (size--) emitcode ("lcall","__decdptr");
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(0);
+ }
+ }
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genCodePointerGet - get value from code space */
+/*-----------------------------------------------------------------*/
+static void
+genCodePointerGet (operand * left,
+ operand * result, iCode * ic, iCode *pi)
+{
+ int size, offset, dopi=1;
+ sym_link *retype = getSpec (operandType (result));
+
+ aopOp (left, ic, FALSE, FALSE);
+
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (left) != AOP_STR && !AOP_INDPTRn(left))
+ {
+ /* if this is remateriazable */
+ if (AOP_TYPE (left) == AOP_IMMD)
+ {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (left), 0, TRUE, FALSE, NULL));
+ }
+ else
+ { /* we need to get it byte by byte */
+ _startLazyDPSEvaluation ();
+ if (AOP_TYPE (left) != AOP_DPTR)
+ {
+ emitcode ("mov", "dpl,%s", aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (left), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (left), 2, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ /* We need to generate a load to DPTR indirect through DPTR. */
+ D (emitcode (";", "gencodePointerGet -- indirection special case."););
+ emitcode ("push", "%s", aopGet (AOP (left), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (left), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (left), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ dopi=0;
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ /* so dptr know contains the address */
+ aopOp (result, ic, FALSE, (AOP_INDPTRn(left) ? FALSE : TRUE));
+
+ /* if bit then unpack */
+ if (IS_BITFIELD (retype)) {
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ }
+ genUnpackBits (result, "dptr", CPOINTER);
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(0);
+ }
+ } else
+ {
+ size = AOP_SIZE (result);
+ offset = 0;
+ if (AOP_INDPTRn(left) && AOP_USESDPTR(result)) {
+ while (size--) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ emitcode ("clr", "a");
+ emitcode ("movc", "a,@a+dptr");
+ if (size || (dopi && pi && AOP_TYPE (left) != AOP_IMMD))
+ emitcode ("inc", "dptr");
+ genSetDPTR (0);
+ aopPut (AOP (result), "a", offset++);
+ }
+ } else {
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ } else {
+ genSetDPTR (0);
+ }
+ _flushLazyDPS ();
+
+ emitcode ("clr", "a");
+ emitcode ("movc", "a,@a+dptr");
+ if (size || (dopi && pi && AOP_TYPE (left) != AOP_IMMD))
+ emitcode ("inc", "dptr");
+ aopPut (AOP (result), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ if (dopi && pi && AOP_TYPE (left) != AOP_IMMD) {
+ if (!AOP_INDPTRn(left)) {
+ _startLazyDPSEvaluation ();
+
+ aopPut ( AOP (left), "dpl", 0);
+ aopPut ( AOP (left), "dph", 1);
+ if (options.model == MODEL_FLAT24)
+ aopPut ( AOP (left), "dpx", 2);
+
+ _endLazyDPSEvaluation ();
+ }
+ pi->generated = 1;
+ } else if ((OP_SYMBOL(left)->ruonly || AOP_INDPTRn(left)) &&
+ AOP_SIZE(result) > 1 &&
+ (OP_SYMBOL (left)->liveTo > ic->seq || ic->depth)) {
+
+ size = AOP_SIZE (result) - 1;
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(AOP(left)->aopu.dptr);
+ }
+ while (size--) emitcode ("lcall","__decdptr");
+ if (AOP_INDPTRn(left)) {
+ genSetDPTR(0);
+ }
+ }
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genGenPointerGet - gget value from generic pointer space */
+/*-----------------------------------------------------------------*/
+static void
+genGenPointerGet (operand * left,
+ operand * result, iCode * ic, iCode * pi)
+{
+ int size, offset;
+ sym_link *retype = getSpec (operandType (result));
+ sym_link *letype = getSpec (operandType (left));
+
+ D (emitcode (";", "genGenPointerGet "); );
+
+ aopOp (left, ic, FALSE, (AOP_IS_STR(left) ? FALSE : TRUE));
+
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (left) != AOP_STR)
+ {
+ /* if this is rematerializable */
+ if (AOP_TYPE (left) == AOP_IMMD)
+ {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (left), 0, TRUE, FALSE, NULL));
+ if (AOP(left)->aopu.aop_immd.from_cast_remat)
+ {
+ MOVB(aopGet(AOP (left), AOP_SIZE(left)-1, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ emitcode ("mov", "b,#%d", pointerCode (retype));
+ }
+ }
+ else
+ { /* we need to get it byte by byte */
+ _startLazyDPSEvaluation ();
+ emitcode ("mov", "dpl,%s", aopGet (AOP(left),0,FALSE,FALSE,NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP(left),1,FALSE,FALSE,NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx,%s", aopGet (AOP(left),2,FALSE,FALSE,NULL));
+ emitcode ("mov", "b,%s", aopGet (AOP(left),3,FALSE,FALSE,NULL));
+ } else {
+ emitcode ("mov", "b,%s", aopGet (AOP(left),2,FALSE,FALSE,NULL));
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+
+ /* so dptr-b now contains the address */
+ _G.bInUse++;
+ aopOp (result, ic, FALSE, TRUE);
+ _G.bInUse--;
+
+ /* if bit then unpack */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype))
+ {
+ genUnpackBits (result, "dptr", GPOINTER);
+ }
+ else
+ {
+ size = AOP_SIZE (result);
+ offset = 0;
+
+ while (size--)
+ {
+ if (size)
+ {
+ // Get two bytes at a time, results in _AP & A.
+ // dptr will be incremented ONCE by __gptrgetWord.
+ //
+ // Note: any change here must be coordinated
+ // with the implementation of __gptrgetWord
+ // in device/lib/_gptrget.c
+ emitcode ("lcall", "__gptrgetWord");
+ aopPut (AOP (result), DP2_RESULT_REG, offset++);
+ aopPut (AOP (result), "a", offset++);
+ size--;
+ }
+ else
+ {
+ // Only one byte to get.
+ emitcode ("lcall", "__gptrget");
+ aopPut (AOP (result), "a", offset++);
+ }
+
+ if (size || (pi && AOP_TYPE (left) != AOP_IMMD))
+ {
+ emitcode ("inc", "dptr");
+ }
+ }
+ }
+
+ if (pi && AOP_TYPE (left) != AOP_IMMD) {
+ _startLazyDPSEvaluation ();
+
+ aopPut ( AOP (left), "dpl", 0);
+ aopPut ( AOP (left), "dph", 1);
+ if (options.model == MODEL_FLAT24) {
+ aopPut ( AOP (left), "dpx", 2);
+ aopPut ( AOP (left), "b", 3);
+ } else aopPut ( AOP (left), "b", 2);
+
+ _endLazyDPSEvaluation ();
+
+ pi->generated = 1;
+ } else if (OP_SYMBOL(left)->ruonly && AOP_SIZE(result) > 1 &&
+ (OP_SYMBOL (left)->liveTo > ic->seq || ic->depth)) {
+
+ size = AOP_SIZE (result) - 1;
+ while (size--) emitcode ("lcall","__decdptr");
+ }
+
+ freeAsmop (left, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genPointerGet - generate code for pointer get */
+/*-----------------------------------------------------------------*/
+static void
+genPointerGet (iCode * ic, iCode *pi)
+{
+ operand *left, *result;
+ sym_link *type, *etype;
+ int p_type;
+
+ D (emitcode (";", "genPointerGet ");
+ );
+
+ left = IC_LEFT (ic);
+ result = IC_RESULT (ic);
+
+ /* depending on the type of pointer we need to
+ move it to the correct pointer register */
+ type = operandType (left);
+ etype = getSpec (type);
+ /* if left is of type of pointer then it is simple */
+ if (IS_PTR (type) && !IS_FUNC (type->next))
+ p_type = DCL_TYPE (type);
+ else
+ {
+ /* we have to go by the storage class */
+ p_type = PTR_TYPE (SPEC_OCLS (etype));
+ }
+ /* special case when cast remat */
+ if (p_type == GPOINTER && OP_SYMBOL(left)->remat &&
+ IS_CAST_ICODE(OP_SYMBOL(left)->rematiCode))
+ {
+ left = IC_RIGHT(OP_SYMBOL(left)->rematiCode);
+ type = operandType (left);
+ p_type = DCL_TYPE (type);
+ }
+ /* now that we have the pointer type we assign
+ the pointer values */
+ switch (p_type)
+ {
+
+ case POINTER:
+ case IPOINTER:
+ genNearPointerGet (left, result, ic, pi);
+ break;
+
+ case PPOINTER:
+ genPagedPointerGet (left, result, ic, pi);
+ break;
+
+ case FPOINTER:
+ genFarPointerGet (left, result, ic, pi);
+ break;
+
+ case CPOINTER:
+ genCodePointerGet (left, result, ic, pi);
+ break;
+
+ case GPOINTER:
+ genGenPointerGet (left, result, ic, pi);
+ break;
+ }
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genPackBits - generates code for packed bit storage */
+/*-----------------------------------------------------------------*/
+static void
+genPackBits (sym_link * etype,
+ operand * right,
+ char *rname, int p_type)
+{
+ int offset = 0; /* source byte offset */
+ int rlen = 0; /* remaining bitfield length */
+ int blen; /* bitfield length */
+ int bstr; /* bitfield starting bit within byte */
+ int litval; /* source literal value (if AOP_LIT) */
+ unsigned char mask; /* bitmask within current byte */
+
+ D(emitcode ("; genPackBits",""));
+
+ blen = SPEC_BLEN (etype);
+ bstr = SPEC_BSTR (etype);
+
+ /* If the bitfield length is less than a byte */
+ if (blen < 8)
+ {
+ mask = ((unsigned char) (0xFF << (blen + bstr)) |
+ (unsigned char) (0xFF >> (8 - bstr)));
+
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ /* Case with a bitfield length <8 and literal source
+ */
+ litval = (int) floatFromVal (AOP (right)->aopu.aop_lit);
+ litval <<= bstr;
+ litval &= (~mask) & 0xff;
+ emitPtrByteGet (rname, p_type, FALSE);
+ if ((mask|litval)!=0xff)
+ emitcode ("anl","a,#!constbyte", mask);
+ if (litval)
+ emitcode ("orl","a,#!constbyte", litval);
+ }
+ else
+ {
+ if ((blen==1) && (p_type!=GPOINTER))
+ {
+ /* Case with a bitfield length == 1 and no generic pointer
+ */
+ if (AOP_TYPE (right) == AOP_CRY)
+ emitcode ("mov", "c,%s", AOP(right)->aopu.aop_dir);
+ else
+ {
+ MOVA (aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ emitcode ("rrc","a");
+ }
+ emitPtrByteGet (rname, p_type, FALSE);
+ emitcode ("mov","acc.%d,c",bstr);
+ }
+ else
+ {
+ /* Case with a bitfield length < 8 and arbitrary source
+ */
+ MOVA (aopGet (AOP (right), 0, FALSE, FALSE, NULL));
+ /* shift and mask source value */
+ AccLsh (bstr);
+ emitcode ("anl", "a,#!constbyte", (~mask) & 0xff);
+
+ /* transfer A to B and get next byte */
+ emitPtrByteGet (rname, p_type, TRUE);
+
+ emitcode ("anl", "a,#!constbyte", mask);
+ emitcode ("orl", "a,b");
+ if (p_type == GPOINTER)
+ emitcode ("pop", "b");
+ }
+ }
+
+ emitPtrByteSet (rname, p_type, "a");
+ return;
+ }
+
+ /* Bit length is greater than 7 bits. In this case, copy */
+ /* all except the partial byte at the end */
+ for (rlen=blen;rlen>=8;rlen-=8)
+ {
+ emitPtrByteSet (rname, p_type,
+ aopGet (AOP (right), offset++, FALSE, TRUE, NULL) );
+ if (rlen>8)
+ emitcode ("inc", "%s", rname);
+ }
+
+ /* If there was a partial byte at the end */
+ if (rlen)
+ {
+ mask = (((unsigned char) -1 << rlen) & 0xff);
+
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ /* Case with partial byte and literal source
+ */
+ litval = (int) floatFromVal (AOP (right)->aopu.aop_lit);
+ litval >>= (blen-rlen);
+ litval &= (~mask) & 0xff;
+ emitPtrByteGet (rname, p_type, FALSE);
+ if ((mask|litval)!=0xff)
+ emitcode ("anl","a,#!constbyte", mask);
+ if (litval)
+ emitcode ("orl","a,#!constbyte", litval);
+ }
+ else
+ {
+ /* Case with partial byte and arbitrary source
+ */
+ MOVA (aopGet (AOP (right), offset++, FALSE, FALSE, NULL));
+ emitcode ("anl", "a,#!constbyte", (~mask) & 0xff);
+
+ /* transfer A to B and get next byte */
+ emitPtrByteGet (rname, p_type, TRUE);
+
+ emitcode ("anl", "a,#!constbyte", mask);
+ emitcode ("orl", "a,b");
+ if (p_type == GPOINTER)
+ emitcode ("pop", "b");
+ }
+ emitPtrByteSet (rname, p_type, "a");
+ }
+
+}
+
+
+/*-----------------------------------------------------------------*/
+/* genDataPointerSet - remat pointer to data space */
+/*-----------------------------------------------------------------*/
+static void
+genDataPointerSet (operand * right,
+ operand * result,
+ iCode * ic)
+{
+ int size, offset = 0;
+ char *l, buff[256];
+
+ aopOp (right, ic, FALSE, FALSE);
+
+ l = aopGet (AOP (result), 0, FALSE, TRUE, NULL);
+ size = AOP_SIZE (right);
+ while (size--)
+ {
+ if (offset)
+ {
+ SNPRINTF (buff, sizeof(buff), "(%s + %d)", l + 1, offset);
+ }
+ else
+ {
+ SNPRINTF (buff, sizeof(buff), "%s", l + 1);
+ }
+
+ emitcode ("mov", "%s,%s", buff,
+ aopGet (AOP (right), offset++, FALSE, FALSE, NULL));
+ }
+
+ freeAsmop (right, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genNearPointerSet - emitcode for near pointer put */
+/*-----------------------------------------------------------------*/
+static void
+genNearPointerSet (operand * right,
+ operand * result,
+ iCode * ic,
+ iCode * pi)
+{
+ asmop *aop = NULL;
+ char *rname, *l;
+ sym_link *retype, *letype;
+ sym_link *ptype = operandType (result);
+
+ retype = getSpec (operandType (right));
+ letype = getSpec (ptype);
+
+ aopOp (result, ic, FALSE, FALSE);
+
+ /* if the result is rematerializable &
+ in data space & not a bit variable */
+ if (AOP_TYPE (result) == AOP_IMMD &&
+ DCL_TYPE (ptype) == POINTER &&
+ !IS_BITVAR (retype) &&
+ !IS_BITVAR (letype))
+ {
+ genDataPointerSet (right, result, ic);
+ return;
+ }
+
+ /* if the value is already in a pointer register
+ then don't need anything more */
+ if (!AOP_INPREG (AOP (result)))
+ {
+ /* otherwise get a free pointer register */
+ regs *preg;
+
+ aop = newAsmop (0);
+ preg = getFreePtr (ic, &aop, FALSE);
+ emitcode ("mov", "%s,%s",
+ preg->name,
+ aopGet (AOP (result), 0, FALSE, TRUE, NULL));
+ rname = preg->name;
+ }
+ else
+ rname = aopGet (AOP (result), 0, FALSE, FALSE, NULL);
+
+ aopOp (right, ic, FALSE, FALSE);
+
+ /* if bitfield then unpack the bits */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype))
+ genPackBits ((IS_BITFIELD (retype) ? retype : letype), right, rname, POINTER);
+ else
+ {
+ /* we have can just get the values */
+ int size = AOP_SIZE (right);
+ int offset = 0;
+
+ while (size--)
+ {
+ l = aopGet (AOP (right), offset, FALSE, TRUE, NULL);
+ if (*l == '@')
+ {
+ MOVA (l);
+ emitcode ("mov", "@%s,a", rname);
+ }
+ else
+ emitcode ("mov", "@%s,%s", rname, l);
+ if (size || pi)
+ emitcode ("inc", "%s", rname);
+ offset++;
+ }
+ }
+
+ /* now some housekeeping stuff */
+ if (aop)
+ {
+ /* we had to allocate for this iCode */
+ if (pi) aopPut (AOP (result),rname,0);
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
+ else
+ {
+ /* we did not allocate which means left
+ already in a pointer register, then
+ if size > 0 && this could be used again
+ we have to point it back to where it
+ belongs */
+ if (AOP_SIZE (right) > 1 &&
+ !OP_SYMBOL (result)->remat &&
+ (OP_SYMBOL (result)->liveTo > ic->seq ||
+ ic->depth) &&
+ !pi)
+ {
+ int size = AOP_SIZE (right) - 1;
+ while (size--)
+ emitcode ("dec", "%s", rname);
+ }
+ }
+
+ /* done */
+ if (pi) pi->generated = 1;
+ freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
+
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genPagedPointerSet - emitcode for Paged pointer put */
+/*-----------------------------------------------------------------*/
+static void
+genPagedPointerSet (operand * right,
+ operand * result,
+ iCode * ic,
+ iCode *pi)
+{
+ asmop *aop = NULL;
+ char *rname;
+ sym_link *retype, *letype;
+
+ retype = getSpec (operandType (right));
+ letype = getSpec (operandType (result));
+
+ aopOp (result, ic, FALSE, FALSE);
+
+ /* if the value is already in a pointer register
+ then don't need anything more */
+ if (!AOP_INPREG (AOP (result)))
+ {
+ /* otherwise get a free pointer register */
+ regs *preg;
+
+ aop = newAsmop (0);
+ preg = getFreePtr (ic, &aop, FALSE);
+ emitcode ("mov", "%s,%s",
+ preg->name,
+ aopGet (AOP (result), 0, FALSE, TRUE, NULL));
+ rname = preg->name;
+ }
+ else
+ rname = aopGet (AOP (result), 0, FALSE, FALSE, NULL);
+
+ aopOp (right, ic, FALSE, FALSE);
+
+ /* if bitfield then unpack the bits */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype))
+ genPackBits ((IS_BITFIELD (retype) ? retype : letype), right, rname, PPOINTER);
+ else
+ {
+ /* we have can just get the values */
+ int size = AOP_SIZE (right);
+ int offset = 0;
+
+ while (size--)
+ {
+ MOVA (aopGet (AOP (right), offset, FALSE, TRUE, NULL));
+
+ emitcode ("movx", "@%s,a", rname);
+
+ if (size || pi)
+ emitcode ("inc", "%s", rname);
+
+ offset++;
+ }
+ }
+
+ /* now some housekeeping stuff */
+ if (aop)
+ {
+ if (pi) aopPut (AOP (result),rname,0);
+ /* we had to allocate for this iCode */
+ freeAsmop (NULL, aop, ic, TRUE);
+ }
+ else
+ {
+ /* we did not allocate which means left
+ already in a pointer register, then
+ if size > 0 && this could be used again
+ we have to point it back to where it
+ belongs */
+ if (AOP_SIZE (right) > 1 &&
+ !OP_SYMBOL (result)->remat &&
+ (OP_SYMBOL (result)->liveTo > ic->seq ||
+ ic->depth) &&
+ !pi)
+ {
+ int size = AOP_SIZE (right) - 1;
+ while (size--)
+ emitcode ("dec", "%s", rname);
+ }
+ }
+
+ /* done */
+ if (pi) pi->generated = 1;
+ freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
+
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genFarPointerSet - set value from far space */
+/*-----------------------------------------------------------------*/
+static void
+genFarPointerSet (operand * right,
+ operand * result, iCode * ic, iCode *pi)
+{
+ int size, offset, dopi=1;
+ sym_link *retype = getSpec (operandType (right));
+ sym_link *letype = getSpec (operandType (result));
+
+ aopOp (result, ic, FALSE, FALSE);
+
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (result) != AOP_STR && !AOP_INDPTRn(result))
+ {
+ /* if this is remateriazable */
+ if (AOP_TYPE (result) == AOP_IMMD)
+ emitcode ("mov", "dptr,%s",
+ aopGet (AOP (result), 0, TRUE, FALSE, NULL));
+ else
+ {
+ /* we need to get it byte by byte */
+ _startLazyDPSEvaluation ();
+ if (AOP_TYPE (result) != AOP_DPTR)
+ {
+ emitcode ("mov", "dpl,%s", aopGet (AOP (result), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (result), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (result), 2, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ /* We need to generate a load to DPTR indirect through DPTR. */
+ D (emitcode (";", "genFarPointerSet -- indirection special case."););
+
+ emitcode ("push", "%s", aopGet (AOP (result), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (result), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (result), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ dopi=0;
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ /* so dptr know contains the address */
+ aopOp (right, ic, FALSE, (AOP_INDPTRn(result) ? FALSE : TRUE));
+
+ /* if bit then unpack */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype)) {
+ if (AOP_INDPTRn(result)) {
+ genSetDPTR(AOP(result)->aopu.dptr);
+ }
+ genPackBits ((IS_BITFIELD (retype) ? retype : letype), right, "dptr", FPOINTER);
+ if (AOP_INDPTRn(result)) {
+ genSetDPTR(0);
+ }
+ } else {
+ size = AOP_SIZE (right);
+ offset = 0;
+ if (AOP_INDPTRn(result) && AOP_USESDPTR(right)) {
+ while (size--) {
+ MOVA (aopGet (AOP (right), offset++, FALSE, FALSE, NULL));
+
+ genSetDPTR(AOP(result)->aopu.dptr);
+ emitcode ("movx", "@dptr,a");
+ if (size || (dopi && pi && AOP_TYPE (result) != AOP_IMMD))
+ emitcode ("inc", "dptr");
+ genSetDPTR (0);
+ }
+ } else {
+ _startLazyDPSEvaluation ();
+ while (size--) {
+ MOVA (aopGet (AOP (right), offset++, FALSE, FALSE, NULL));
+
+ if (AOP_INDPTRn(result)) {
+ genSetDPTR(AOP(result)->aopu.dptr);
+ } else {
+ genSetDPTR (0);
+ }
+ _flushLazyDPS ();
+
+ emitcode ("movx", "@dptr,a");
+ if (size || (dopi && pi && AOP_TYPE (result) != AOP_IMMD))
+ emitcode ("inc", "dptr");
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+
+ if (dopi && pi && AOP_TYPE (result) != AOP_IMMD) {
+ if (!AOP_INDPTRn(result)) {
+ _startLazyDPSEvaluation ();
+
+ aopPut (AOP(result),"dpl",0);
+ aopPut (AOP(result),"dph",1);
+ if (options.model == MODEL_FLAT24)
+ aopPut (AOP(result),"dpx",2);
+
+ _endLazyDPSEvaluation ();
+ }
+ pi->generated=1;
+ } else if ((OP_SYMBOL(result)->ruonly || AOP_INDPTRn(result)) &&
+ AOP_SIZE(right) > 1 &&
+ (OP_SYMBOL (result)->liveTo > ic->seq || ic->depth)) {
+
+ size = AOP_SIZE (right) - 1;
+ if (AOP_INDPTRn(result)) {
+ genSetDPTR(AOP(result)->aopu.dptr);
+ }
+ while (size--) emitcode ("lcall","__decdptr");
+ if (AOP_INDPTRn(result)) {
+ genSetDPTR(0);
+ }
+ }
+ freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genGenPointerSet - set value from generic pointer space */
+/*-----------------------------------------------------------------*/
+static void
+genGenPointerSet (operand * right,
+ operand * result, iCode * ic, iCode *pi)
+{
+ int size, offset;
+ sym_link *retype = getSpec (operandType (right));
+ sym_link *letype = getSpec (operandType (result));
+
+ aopOp (result, ic, FALSE, AOP_IS_STR(result) ? FALSE : TRUE);
+
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (result) != AOP_STR)
+ {
+ _startLazyDPSEvaluation ();
+ /* if this is remateriazable */
+ if (AOP_TYPE (result) == AOP_IMMD)
+ {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (result), 0, TRUE, FALSE, NULL));
+ if (AOP(result)->aopu.aop_immd.from_cast_remat)
+ {
+ MOVB(aopGet(AOP (result), AOP_SIZE(result)-1, FALSE, FALSE, NULL));
+ }
+ else
+ {
+ emitcode ("mov",
+ "b,%s + 1", aopGet (AOP (result), 0, TRUE, FALSE, NULL));
+ }
+ }
+ else
+ { /* we need to get it byte by byte */
+ emitcode ("mov", "dpl,%s", aopGet (AOP (result), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (result), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx,%s", aopGet (AOP (result), 2, FALSE, FALSE, NULL));
+ emitcode ("mov", "b,%s", aopGet (AOP (result), 3, FALSE, FALSE, NULL));
+ } else {
+ emitcode ("mov", "b,%s", aopGet (AOP (result), 2, FALSE, FALSE, NULL));
+ }
+ }
+ _endLazyDPSEvaluation ();
+ }
+ /* so dptr + b now contains the address */
+ _G.bInUse++;
+ aopOp (right, ic, FALSE, TRUE);
+ _G.bInUse--;
+
+
+ /* if bit then unpack */
+ if (IS_BITFIELD (retype) || IS_BITFIELD (letype))
+ {
+ genPackBits ((IS_BITFIELD (retype) ? retype : letype), right, "dptr", GPOINTER);
+ }
+ else
+ {
+ size = AOP_SIZE (right);
+ offset = 0;
+
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ if (size)
+ {
+ // Set two bytes at a time, passed in _AP & A.
+ // dptr will be incremented ONCE by __gptrputWord.
+ //
+ // Note: any change here must be coordinated
+ // with the implementation of __gptrputWord
+ // in device/lib/_gptrput.c
+ emitcode("mov", "_ap, %s",
+ aopGet (AOP (right), offset++, FALSE, FALSE, NULL));
+ MOVA (aopGet (AOP (right), offset++, FALSE, FALSE, NULL));
+
+ genSetDPTR (0);
+ _flushLazyDPS ();
+ emitcode ("lcall", "__gptrputWord");
+ size--;
+ }
+ else
+ {
+ // Only one byte to put.
+ MOVA (aopGet (AOP (right), offset++, FALSE, FALSE, NULL));
+
+ genSetDPTR (0);
+ _flushLazyDPS ();
+ emitcode ("lcall", "__gptrput");
+ }
+
+ if (size || (pi && AOP_TYPE (result) != AOP_IMMD))
+ {
+ emitcode ("inc", "dptr");
+ }
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+ if (pi && AOP_TYPE (result) != AOP_IMMD) {
+ _startLazyDPSEvaluation ();
+
+ aopPut (AOP(result),"dpl",0);
+ aopPut (AOP(result),"dph",1);
+ if (options.model == MODEL_FLAT24) {
+ aopPut (AOP(result),"dpx",2);
+ aopPut (AOP(result),"b",3);
+ } else {
+ aopPut (AOP(result),"b",2);
+ }
+ _endLazyDPSEvaluation ();
+
+ pi->generated=1;
+ } else if (OP_SYMBOL(result)->ruonly && AOP_SIZE(right) > 1 &&
+ (OP_SYMBOL (result)->liveTo > ic->seq || ic->depth)) {
+
+ size = AOP_SIZE (right) - 1;
+ while (size--) emitcode ("lcall","__decdptr");
+ }
+ freeAsmop (result, NULL, ic, TRUE);
+ freeAsmop (right, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genPointerSet - stores the value into a pointer location */
+/*-----------------------------------------------------------------*/
+static void
+genPointerSet (iCode * ic, iCode *pi)
+{
+ operand *right, *result;
+ sym_link *type, *etype;
+ int p_type;
+
+ D (emitcode (";", "genPointerSet "););
+
+ right = IC_RIGHT (ic);
+ result = IC_RESULT (ic);
+
+ /* depending on the type of pointer we need to
+ move it to the correct pointer register */
+ type = operandType (result);
+ etype = getSpec (type);
+ /* if left is of type of pointer then it is simple */
+ if (IS_PTR (type) && !IS_FUNC (type->next))
+ {
+ p_type = DCL_TYPE (type);
+ }
+ else
+ {
+ /* we have to go by the storage class */
+ p_type = PTR_TYPE (SPEC_OCLS (etype));
+ }
+ /* special case when cast remat */
+ if (p_type == GPOINTER && OP_SYMBOL(result)->remat &&
+ IS_CAST_ICODE(OP_SYMBOL(result)->rematiCode)) {
+ result = IC_RIGHT(OP_SYMBOL(result)->rematiCode);
+ type = operandType (result);
+ p_type = DCL_TYPE (type);
+ }
+
+ /* now that we have the pointer type we assign
+ the pointer values */
+ switch (p_type)
+ {
+
+ case POINTER:
+ case IPOINTER:
+ genNearPointerSet (right, result, ic, pi);
+ break;
+
+ case PPOINTER:
+ genPagedPointerSet (right, result, ic, pi);
+ break;
+
+ case FPOINTER:
+ genFarPointerSet (right, result, ic, pi);
+ break;
+
+ case GPOINTER:
+ genGenPointerSet (right, result, ic, pi);
+ break;
+
+ default:
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "genPointerSet: illegal pointer type");
+ }
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genIfx - generate code for Ifx statement */
+/*-----------------------------------------------------------------*/
+static void
+genIfx (iCode * ic, iCode * popIc)
+{
+ operand *cond = IC_COND (ic);
+ int isbit = 0;
+
+ D (emitcode (";", "genIfx "););
+
+ aopOp (cond, ic, FALSE, FALSE);
+
+ /* get the value into acc */
+ if (AOP_TYPE (cond) != AOP_CRY)
+ {
+ toBoolean (cond);
+ }
+ else
+ {
+ isbit = 1;
+ }
+
+ /* the result is now in the accumulator */
+ freeAsmop (cond, NULL, ic, TRUE);
+
+ /* if there was something to be popped then do it */
+ if (popIc)
+ genIpop (popIc);
+
+ /* if the condition is a bit variable */
+ if (isbit && IS_ITEMP (cond) &&
+ SPIL_LOC (cond))
+ {
+ genIfxJump (ic, SPIL_LOC (cond)->rname);
+ }
+ else if (isbit && !IS_ITEMP (cond))
+ {
+ genIfxJump (ic, OP_SYMBOL (cond)->rname);
+ }
+ else
+ {
+ genIfxJump (ic, "a");
+ }
+
+ ic->generated = 1;
+}
+
+/*-----------------------------------------------------------------*/
+/* genAddrOf - generates code for address of */
+/*-----------------------------------------------------------------*/
+static void
+genAddrOf (iCode * ic)
+{
+ symbol *sym = OP_SYMBOL (IC_LEFT (ic));
+ int size, offset;
+
+ D (emitcode (";", "genAddrOf ");
+ );
+
+ aopOp (IC_RESULT (ic), ic, FALSE, FALSE);
+
+ /* if the operand is on the stack then we
+ need to get the stack offset of this
+ variable */
+ if (sym->onStack) {
+
+ /* if 10 bit stack */
+ if (options.stack10bit) {
+ char buff[10];
+ int offset;
+
+ tsprintf(buff, sizeof(buff),
+ "#!constbyte",(options.stack_loc >> 16) & 0xff);
+ /* if it has an offset then we need to compute it */
+/* emitcode ("subb", "a,#!constbyte", */
+/* -((sym->stack < 0) ? */
+/* ((short) (sym->stack - _G.nRegsSaved)) : */
+/* ((short) sym->stack)) & 0xff); */
+/* emitcode ("mov","b,a"); */
+/* emitcode ("mov","a,#!constbyte",(-((sym->stack < 0) ? */
+/* ((short) (sym->stack - _G.nRegsSaved)) : */
+/* ((short) sym->stack)) >> 8) & 0xff); */
+ if (sym->stack) {
+ emitcode ("mov", "a,_bpx");
+ emitcode ("add", "a,#!constbyte", ((sym->stack < 0) ?
+ ((char) (sym->stack - _G.nRegsSaved)) :
+ ((char) sym->stack )) & 0xff);
+ emitcode ("mov", "b,a");
+ emitcode ("mov", "a,_bpx+1");
+
+ offset = (((sym->stack < 0) ?
+ ((short) (sym->stack - _G.nRegsSaved)) :
+ ((short) sym->stack )) >> 8) & 0xff;
+
+ emitcode ("addc","a,#!constbyte", offset);
+
+ aopPut (AOP (IC_RESULT (ic)), "b", 0);
+ aopPut (AOP (IC_RESULT (ic)), "a", 1);
+ aopPut (AOP (IC_RESULT (ic)), buff, 2);
+ } else {
+ /* we can just move _bp */
+ aopPut (AOP (IC_RESULT (ic)), "_bpx", 0);
+ aopPut (AOP (IC_RESULT (ic)), "_bpx+1", 1);
+ aopPut (AOP (IC_RESULT (ic)), buff, 2);
+ }
+ } else {
+ /* if it has an offset then we need to compute it */
+ if (sym->stack) {
+ emitcode ("mov", "a,_bp");
+ emitcode ("add", "a,#!constbyte", ((char) sym->stack & 0xff));
+ aopPut (AOP (IC_RESULT (ic)), "a", 0);
+ } else {
+ /* we can just move _bp */
+ aopPut (AOP (IC_RESULT (ic)), "_bp", 0);
+ }
+ /* fill the result with zero */
+ size = AOP_SIZE (IC_RESULT (ic)) - 1;
+
+
+ if (options.stack10bit && size < (FPTRSIZE - 1)) {
+ fprintf (stderr,
+ "*** warning: pointer to stack var truncated.\n");
+ }
+
+ offset = 1;
+ while (size--) {
+ aopPut (AOP (IC_RESULT (ic)), zero, offset++);
+ }
+ }
+ goto release;
+ }
+
+ /* object not on stack then we need the name */
+ size = AOP_SIZE (IC_RESULT (ic));
+ offset = 0;
+
+ while (size--)
+ {
+ char s[SDCC_NAME_MAX];
+ if (offset) {
+ switch (offset) {
+ case 1:
+ tsprintf(s, sizeof(s), "#!his",sym->rname);
+ break;
+ case 2:
+ tsprintf(s, sizeof(s), "#!hihis",sym->rname);
+ break;
+ case 3:
+ tsprintf(s, sizeof(s), "#!hihihis",sym->rname);
+ break;
+ default: /* should not need this (just in case) */
+ SNPRINTF (s, sizeof(s), "#(%s >> %d)",
+ sym->rname,
+ offset * 8);
+ }
+ }
+ else
+ {
+ SNPRINTF (s, sizeof(s), "#%s", sym->rname);
+ }
+
+ aopPut (AOP (IC_RESULT (ic)), s, offset++);
+ }
+
+release:
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+
+}
+
+#if 0 // obsolete, and buggy for != xdata
+/*-----------------------------------------------------------------*/
+/* genArrayInit - generates code for address of */
+/*-----------------------------------------------------------------*/
+static void
+genArrayInit (iCode * ic)
+{
+ literalList *iLoop;
+ int ix, count;
+ int elementSize = 0, eIndex;
+ unsigned val, lastVal;
+ sym_link *type;
+ operand *left=IC_LEFT(ic);
+
+ D (emitcode (";", "genArrayInit "););
+
+ aopOp (IC_LEFT(ic), ic, FALSE, FALSE);
+
+ if (AOP_TYPE(IC_LEFT(ic)) == AOP_IMMD)
+ {
+ // Load immediate value into DPTR.
+ emitcode("mov", "dptr, %s",
+ aopGet(AOP(IC_LEFT(ic)), 0, TRUE, FALSE, NULL));
+ }
+ else if (AOP_TYPE(IC_LEFT(ic)) != AOP_DPTR)
+ {
+#if 0
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "Unexpected operand to genArrayInit.\n");
+ exit(1);
+#else
+ // a regression because of SDCCcse.c:1.52
+ emitcode ("mov", "dpl,%s", aopGet (AOP (left), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (left), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (left), 2, FALSE, FALSE, NULL));
+#endif
+ }
+
+ type = operandType(IC_LEFT(ic));
+
+ if (type && type->next)
+ {
+ elementSize = getSize(type->next);
+ }
+ else
+ {
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "can't determine element size in genArrayInit.\n");
+ exit(1);
+ }
+
+ iLoop = IC_ARRAYILIST(ic);
+ lastVal = 0xffff;
+
+ while (iLoop)
+ {
+ bool firstpass = TRUE;
+
+ emitcode(";", "store %d x 0x%x to DPTR (element size %d)",
+ iLoop->count, (int)iLoop->literalValue, elementSize);
+
+ ix = iLoop->count;
+
+ while (ix)
+ {
+ symbol *tlbl = NULL;
+
+ count = ix > 256 ? 256 : ix;
+
+ if (count > 1)
+ {
+ tlbl = newiTempLabel (NULL);
+ if (firstpass || (count & 0xff))
+ {
+ emitcode("mov", "b, #!constbyte", count & 0xff);
+ }
+
+ emitcode ("", "!tlabeldef", tlbl->key + 100);
+ }
+
+ firstpass = FALSE;
+
+ for (eIndex = 0; eIndex < elementSize; eIndex++)
+ {
+ val = (((int)iLoop->literalValue) >> (eIndex * 8)) & 0xff;
+ if (val != lastVal)
+ {
+ emitcode("mov", "a, #!constbyte", val);
+ lastVal = val;
+ }
+
+ emitcode("movx", "@dptr, a");
+ emitcode("inc", "dptr");
+ }
+
+ if (count > 1)
+ {
+ emitcode("djnz", "b, !tlabel", tlbl->key + 100);
+ }
+
+ ix -= count;
+ }
+
+ iLoop = iLoop->next;
+ }
+
+ freeAsmop (IC_LEFT(ic), NULL, ic, TRUE);
+}
+#endif
+
+/*-----------------------------------------------------------------*/
+/* genFarFarAssign - assignment when both are in far space */
+/*-----------------------------------------------------------------*/
+static void
+genFarFarAssign (operand * result, operand * right, iCode * ic)
+{
+ int size = AOP_SIZE (right);
+ int offset = 0;
+ symbol *rSym = NULL;
+
+ if (size == 1)
+ {
+ /* quick & easy case. */
+ D(emitcode(";","genFarFarAssign (1 byte case)"););
+ MOVA(aopGet(AOP(right), 0, FALSE, FALSE, NULL));
+ freeAsmop (right, NULL, ic, FALSE);
+ /* now assign DPTR to result */
+ _G.accInUse++;
+ aopOp(result, ic, FALSE, FALSE);
+ _G.accInUse--;
+ aopPut(AOP(result), "a", 0);
+ freeAsmop(result, NULL, ic, FALSE);
+ return;
+ }
+
+ /* See if we've got an underlying symbol to abuse. */
+ if (IS_SYMOP(result) && OP_SYMBOL(result))
+ {
+ if (IS_TRUE_SYMOP(result))
+ {
+ rSym = OP_SYMBOL(result);
+ }
+ else if (IS_ITEMP(result) && OP_SYMBOL(result)->isspilt && OP_SYMBOL(result)->usl.spillLoc)
+ {
+ rSym = OP_SYMBOL(result)->usl.spillLoc;
+ }
+ }
+
+ if (size > 1 && rSym && rSym->rname && !rSym->onStack)
+ {
+ /* We can use the '390 auto-toggle feature to good effect here. */
+
+ D(emitcode(";","genFarFarAssign (390 auto-toggle fun)"););
+ emitcode("mov", "dps,#!constbyte",0x21); /* Select DPTR2 & auto-toggle. */
+ emitcode ("mov", "dptr,#%s", rSym->rname);
+ /* DP2 = result, DP1 = right, DP1 is current. */
+ while (size)
+ {
+ emitcode("movx", "a,@dptr");
+ emitcode("movx", "@dptr,a");
+ if (--size)
+ {
+ emitcode("inc", "dptr");
+ emitcode("inc", "dptr");
+ }
+ }
+ emitcode("mov", "dps,#0");
+ freeAsmop (right, NULL, ic, FALSE);
+#if 0
+some alternative code for processors without auto-toggle
+no time to test now, so later well put in...kpb
+ D(emitcode(";","genFarFarAssign (dual-dptr fun)"););
+ emitcode("mov", "dps,#1"); /* Select DPTR2. */
+ emitcode ("mov", "dptr,#%s", rSym->rname);
+ /* DP2 = result, DP1 = right, DP1 is current. */
+ while (size)
+ {
+ --size;
+ emitcode("movx", "a,@dptr");
+ if (size)
+ emitcode("inc", "dptr");
+ emitcode("inc", "dps");
+ emitcode("movx", "@dptr,a");
+ if (size)
+ emitcode("inc", "dptr");
+ emitcode("inc", "dps");
+ }
+ emitcode("mov", "dps,#0");
+ freeAsmop (right, NULL, ic, FALSE);
+#endif
+ }
+ else
+ {
+ D (emitcode (";", "genFarFarAssign"););
+ aopOp (result, ic, TRUE, TRUE);
+
+ _startLazyDPSEvaluation ();
+
+ while (size--)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL), offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ freeAsmop (result, NULL, ic, FALSE);
+ freeAsmop (right, NULL, ic, FALSE);
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genAssign - generate code for assignment */
+/*-----------------------------------------------------------------*/
+static void
+genAssign (iCode * ic)
+{
+ operand *result, *right;
+ int size, offset;
+ unsigned long lit = 0L;
+
+ D (emitcode (";", "genAssign ");
+ );
+
+ result = IC_RESULT (ic);
+ right = IC_RIGHT (ic);
+
+ /* if they are the same */
+ if (operandsEqu (IC_RESULT (ic), IC_RIGHT (ic)))
+ return;
+
+ aopOp (right, ic, FALSE, FALSE);
+
+ emitcode (";", "genAssign: resultIsFar = %s",
+ isOperandInFarSpace (result) ?
+ "TRUE" : "FALSE");
+
+ /* special case both in far space */
+ if ((AOP_TYPE (right) == AOP_DPTR ||
+ AOP_TYPE (right) == AOP_DPTR2) &&
+ /* IS_TRUE_SYMOP(result) && */
+ isOperandInFarSpace (result))
+ {
+ genFarFarAssign (result, right, ic);
+ return;
+ }
+
+ aopOp (result, ic, TRUE, FALSE);
+
+ /* if they are the same registers */
+ if (sameRegs (AOP (right), AOP (result)))
+ goto release;
+
+ /* if the result is a bit */
+ if (AOP_TYPE (result) == AOP_CRY) /* works only for true symbols */
+ {
+ /* if the right size is a literal then
+ we know what the value is */
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ if (((int) operandLitValue (right)))
+ aopPut (AOP (result), one, 0);
+ else
+ aopPut (AOP (result), zero, 0);
+ goto release;
+ }
+
+ /* the right is also a bit variable */
+ if (AOP_TYPE (right) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", AOP (right)->aopu.aop_dir);
+ aopPut (AOP (result), "c", 0);
+ goto release;
+ }
+
+ /* we need to or */
+ toBoolean (right);
+ aopPut (AOP (result), "a", 0);
+ goto release;
+ }
+
+ /* bit variables done */
+ /* general case */
+ size = AOP_SIZE (result);
+ offset = 0;
+ if (AOP_TYPE (right) == AOP_LIT)
+ lit = (unsigned long) floatFromVal (AOP (right)->aopu.aop_lit);
+
+ if ((size > 1) &&
+ (AOP_TYPE (result) != AOP_REG) &&
+ (AOP_TYPE (right) == AOP_LIT) &&
+ !IS_FLOAT (operandType (right)))
+ {
+ _startLazyDPSEvaluation ();
+ while (size && ((unsigned int) (lit >> (offset * 8)) != 0))
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ offset);
+ offset++;
+ size--;
+ }
+ /* And now fill the rest with zeros. */
+ if (size)
+ {
+ emitcode ("clr", "a");
+ }
+ while (size--)
+ {
+ aopPut (AOP (result), "a", offset++);
+ }
+ _endLazyDPSEvaluation ();
+ }
+ else
+ {
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ }
+
+release:
+ freeAsmop (right, NULL, ic, FALSE);
+ freeAsmop (result, NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genJumpTab - generates code for jump table */
+/*-----------------------------------------------------------------*/
+static void
+genJumpTab (iCode * ic)
+{
+ symbol *jtab;
+ char *l;
+
+ D (emitcode (";", "genJumpTab ");
+ );
+
+ aopOp (IC_JTCOND (ic), ic, FALSE, FALSE);
+ /* get the condition into accumulator */
+ l = aopGet (AOP (IC_JTCOND (ic)), 0, FALSE, FALSE, NULL);
+ MOVA (l);
+ /* multiply by four! */
+ emitcode ("add", "a,acc");
+ emitcode ("add", "a,acc");
+ freeAsmop (IC_JTCOND (ic), NULL, ic, TRUE);
+
+ jtab = newiTempLabel (NULL);
+ emitcode ("mov", "dptr,#!tlabel", jtab->key + 100);
+ emitcode ("jmp", "@a+dptr");
+ emitcode ("", "!tlabeldef", jtab->key + 100);
+ /* now generate the jump labels */
+ for (jtab = setFirstItem (IC_JTLABELS (ic)); jtab;
+ jtab = setNextItem (IC_JTLABELS (ic)))
+ emitcode ("ljmp", "!tlabel", jtab->key + 100);
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genCast - gen code for casting */
+/*-----------------------------------------------------------------*/
+static void
+genCast (iCode * ic)
+{
+ operand *result = IC_RESULT (ic);
+ sym_link *ctype = operandType (IC_LEFT (ic));
+ sym_link *rtype = operandType (IC_RIGHT (ic));
+ operand *right = IC_RIGHT (ic);
+ int size, offset;
+
+ D (emitcode (";", "genCast "););
+
+ /* if they are equivalent then do nothing */
+ if (operandsEqu (IC_RESULT (ic), IC_RIGHT (ic)))
+ return;
+
+ aopOp (right, ic, FALSE, AOP_IS_STR (result));
+ aopOp (result, ic, FALSE, (AOP_TYPE(right) == AOP_DPTR));
+
+ /* if the result is a bit */
+ if (IS_BITVAR (OP_SYMBOL (result)->type)
+ && !IS_BITFIELD (OP_SYMBOL (result)->type) )
+ {
+ /* if the right size is a literal then
+ we know what the value is */
+ if (AOP_TYPE (right) == AOP_LIT)
+ {
+ if (((int) operandLitValue (right)))
+ aopPut (AOP (result), one, 0);
+ else
+ aopPut (AOP (result), zero, 0);
+
+ goto release;
+ }
+
+ /* the right is also a bit variable */
+ if (AOP_TYPE (right) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", AOP (right)->aopu.aop_dir);
+ aopPut (AOP (result), "c", 0);
+ goto release;
+ }
+
+ /* we need to or */
+ toBoolean (right);
+ aopPut (AOP (result), "a", 0);
+ goto release;
+ }
+
+ /* if they are the same size : or less */
+ if (AOP_SIZE (result) <= AOP_SIZE (right))
+ {
+
+ /* if they are in the same place */
+ if (sameRegs (AOP (right), AOP (result)))
+ goto release;
+
+ /* if they in different places then copy */
+ size = AOP_SIZE (result);
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ goto release;
+ }
+
+
+ /* if the result is of type pointer */
+ if (IS_PTR (ctype))
+ {
+
+ int p_type;
+ sym_link *type = operandType (right);
+
+ /* pointer to generic pointer */
+ if (IS_GENPTR (ctype))
+ {
+ if (IS_PTR (type))
+ {
+ p_type = DCL_TYPE (type);
+ }
+ else
+ {
+#if OLD_CAST_BEHAVIOR
+ /* KV: we are converting a non-pointer type to
+ * a generic pointer. This (ifdef'd out) code
+ * says that the resulting generic pointer
+ * should have the same class as the storage
+ * location of the non-pointer variable.
+ *
+ * For example, converting an int (which happens
+ * to be stored in DATA space) to a pointer results
+ * in a DATA generic pointer; if the original int
+ * in XDATA space, so will be the resulting pointer.
+ *
+ * I don't like that behavior, and thus this change:
+ * all such conversions will be forced to XDATA and
+ * throw a warning. If you want some non-XDATA
+ * type, or you want to suppress the warning, you
+ * must go through an intermediate cast, like so:
+ *
+ * char _generic *gp = (char _xdata *)(intVar);
+ */
+ sym_link *etype = getSpec (type);
+
+ /* we have to go by the storage class */
+ if (SPEC_OCLS (etype) != generic)
+ {
+ p_type = PTR_TYPE (SPEC_OCLS (etype));
+ }
+ else
+#endif
+ {
+ /* Converting unknown class (i.e. register variable)
+ * to generic pointer. This is not good, but
+ * we'll make a guess (and throw a warning).
+ */
+ p_type = FPOINTER;
+ werror (W_INT_TO_GEN_PTR_CAST);
+ }
+ }
+
+ /* the first two bytes are known */
+ size = GPTRSIZE - 1;
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+
+ /* the last byte depending on type */
+ {
+ int gpVal = pointerTypeToGPByte(p_type, NULL, NULL);
+ char gpValStr[10];
+
+ if (gpVal == -1)
+ {
+ // pointerTypeToGPByte will have bitched.
+ exit(1);
+ }
+
+ SNPRINTF(gpValStr, sizeof(gpValStr), "#0x%x", gpVal);
+ aopPut (AOP (result), gpValStr, GPTRSIZE - 1);
+ }
+ goto release;
+ }
+
+ /* just copy the pointers */
+ size = AOP_SIZE (result);
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+ goto release;
+ }
+
+ /* so we now know that the size of destination is greater
+ than the size of the source */
+ /* we move to result for the size of source */
+ size = AOP_SIZE (right);
+ offset = 0;
+ _startLazyDPSEvaluation ();
+ while (size--)
+ {
+ aopPut (AOP (result),
+ aopGet (AOP (right), offset, FALSE, FALSE, NULL),
+ offset);
+ offset++;
+ }
+ _endLazyDPSEvaluation ();
+
+ /* now depending on the sign of the source && destination */
+ size = AOP_SIZE (result) - AOP_SIZE (right);
+ /* if unsigned or not an integral type */
+ /* also, if the source is a bit, we don't need to sign extend, because
+ * it can't possibly have set the sign bit.
+ */
+ if (!IS_SPEC (rtype) || SPEC_USIGN (rtype) || AOP_TYPE (right) == AOP_CRY)
+ {
+ while (size--)
+ {
+ aopPut (AOP (result), zero, offset++);
+ }
+ }
+ else
+ {
+ /* we need to extend the sign :{ */
+ MOVA (aopGet (AOP (right), AOP_SIZE (right) - 1,
+ FALSE, FALSE, NULL));
+ emitcode ("rlc", "a");
+ emitcode ("subb", "a,acc");
+ while (size--)
+ aopPut (AOP (result), "a", offset++);
+ }
+
+ /* we are done hurray !!!! */
+
+release:
+ freeAsmop (right, NULL, ic, TRUE);
+ freeAsmop (result, NULL, ic, TRUE);
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genDjnz - generate decrement & jump if not zero instrucion */
+/*-----------------------------------------------------------------*/
+static int
+genDjnz (iCode * ic, iCode * ifx)
+{
+ symbol *lbl, *lbl1;
+ if (!ifx)
+ return 0;
+
+ /* if the if condition has a false label
+ then we cannot save */
+ if (IC_FALSE (ifx))
+ return 0;
+
+ /* if the minus is not of the form
+ a = a - 1 */
+ if (!isOperandEqual (IC_RESULT (ic), IC_LEFT (ic)) ||
+ !IS_OP_LITERAL (IC_RIGHT (ic)))
+ return 0;
+
+ if (operandLitValue (IC_RIGHT (ic)) != 1)
+ return 0;
+
+ /* if the size of this greater than one then no
+ saving */
+ if (getSize (operandType (IC_RESULT (ic))) > 1)
+ return 0;
+
+ /* otherwise we can save BIG */
+ D(emitcode(";", "genDjnz"););
+
+ lbl = newiTempLabel (NULL);
+ lbl1 = newiTempLabel (NULL);
+
+ aopOp (IC_RESULT (ic), ic, FALSE, FALSE);
+
+ if (AOP_NEEDSACC(IC_RESULT(ic)))
+ {
+ /* If the result is accessed indirectly via
+ * the accumulator, we must explicitly write
+ * it back after the decrement.
+ */
+ char *rByte = aopGet(AOP(IC_RESULT(ic)), 0, FALSE, FALSE, NULL);
+
+ if (strcmp(rByte, "a"))
+ {
+ /* Something is hopelessly wrong */
+ fprintf(stderr, "*** warning: internal error at %s:%d\n",
+ __FILE__, __LINE__);
+ /* We can just give up; the generated code will be inefficient,
+ * but what the hey.
+ */
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ return 0;
+ }
+ emitcode ("dec", "%s", rByte);
+ aopPut(AOP(IC_RESULT(ic)), rByte, 0);
+ emitcode ("jnz", "!tlabel", lbl->key + 100);
+ }
+ else if (IS_AOP_PREG (IC_RESULT (ic)))
+ {
+ emitcode ("dec", "%s",
+ aopGet (AOP (IC_RESULT (ic)), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "a,%s", aopGet (AOP (IC_RESULT (ic)), 0, FALSE, FALSE, NULL));
+ emitcode ("jnz", "!tlabel", lbl->key + 100);
+ }
+ else
+ {
+ emitcode ("djnz", "%s,!tlabel", aopGet (AOP (IC_RESULT (ic)), 0, FALSE, TRUE, NULL),
+ lbl->key + 100);
+ }
+ emitcode ("sjmp", "!tlabel", lbl1->key + 100);
+ emitcode ("", "!tlabeldef", lbl->key + 100);
+ emitcode ("ljmp", "!tlabel", IC_TRUE (ifx)->key + 100);
+ emitcode ("", "!tlabeldef", lbl1->key + 100);
+
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+ ifx->generated = 1;
+ return 1;
+}
+
+/*-----------------------------------------------------------------*/
+/* genReceive - generate code for a receive iCode */
+/*-----------------------------------------------------------------*/
+static void
+genReceive (iCode * ic)
+{
+ int size = getSize (operandType (IC_RESULT (ic)));
+ int offset = 0;
+ int rb1off ;
+
+ D (emitcode (";", "genReceive "););
+
+ if (ic->argreg == 1)
+ {
+ /* first parameter */
+ if (AOP_IS_STR(IC_RESULT(ic)))
+ {
+ /* Nothing to do: it's already in the proper place. */
+ return;
+ }
+ else
+ {
+ bool useDp2;
+
+ useDp2 = isOperandInFarSpace (IC_RESULT (ic)) &&
+ (OP_SYMBOL (IC_RESULT (ic))->isspilt ||
+ IS_TRUE_SYMOP (IC_RESULT (ic)));
+
+ _G.accInUse++;
+ aopOp (IC_RESULT (ic), ic, FALSE, useDp2);
+ _G.accInUse--;
+
+ /* Sanity checking... */
+ if (AOP_USESDPTR(IC_RESULT(ic)))
+ {
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "genReceive got unexpected DPTR.");
+ }
+ assignResultValue (IC_RESULT (ic));
+ }
+ }
+ else
+ {
+ /* second receive onwards */
+ /* this gets a little tricky since unused recevies will be
+ eliminated, we have saved the reg in the type field . and
+ we use that to figure out which register to use */
+ aopOp (IC_RESULT (ic), ic, FALSE, FALSE);
+ rb1off = ic->argreg;
+ while (size--)
+ {
+ aopPut (AOP (IC_RESULT (ic)), rb1regs[rb1off++ -5], offset++);
+ }
+ }
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genMemcpyX2X - gen code for memcpy xdata to xdata */
+/*-----------------------------------------------------------------*/
+static void genMemcpyX2X( iCode *ic, int nparms, operand **parms, int fromc)
+{
+ operand *from , *to , *count;
+ symbol *lbl;
+ bitVect *rsave;
+ int i;
+
+ /* we know it has to be 3 parameters */
+ assert (nparms == 3);
+
+ rsave = newBitVect(16);
+ /* save DPTR if it needs to be saved */
+ for (i = DPL_IDX ; i <= B_IDX ; i++ ) {
+ if (bitVectBitValue(ic->rMask,i))
+ rsave = bitVectSetBit(rsave,i);
+ }
+ rsave = bitVectIntersect(rsave,bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+ savermask(rsave);
+
+ to = parms[0];
+ from = parms[1];
+ count = parms[2];
+
+ aopOp (from, ic->next, FALSE, FALSE);
+
+ /* get from into DPTR1 */
+ emitcode ("mov", "dpl1,%s", aopGet (AOP (from), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph1,%s", aopGet (AOP (from), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx1,%s", aopGet (AOP (from), 2, FALSE, FALSE, NULL));
+ }
+
+ freeAsmop (from, NULL, ic, FALSE);
+ aopOp (to, ic, FALSE, FALSE);
+ /* get "to" into DPTR */
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (to) != AOP_STR) {
+ /* if already in DPTR then we need to push */
+ if (AOP_TYPE(to) == AOP_DPTR) {
+ emitcode ("push", "%s", aopGet (AOP (to), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (to), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ } else {
+ _startLazyDPSEvaluation ();
+ /* if this is remateriazable */
+ if (AOP_TYPE (to) == AOP_IMMD) {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (to), 0, TRUE, FALSE, NULL));
+ } else { /* we need to get it byte by byte */
+ emitcode ("mov", "dpl,%s", aopGet (AOP (to), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (to), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ }
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ freeAsmop (to, NULL, ic, FALSE);
+ _G.dptrInUse = _G.dptr1InUse = 1;
+ aopOp (count, ic->next->next, FALSE,FALSE);
+ lbl =newiTempLabel(NULL);
+
+ /* now for the actual copy */
+ if (AOP_TYPE(count) == AOP_LIT &&
+ (int)floatFromVal (AOP(count)->aopu.aop_lit) <= 256) {
+ emitcode ("mov", "b,%s",aopGet(AOP(count),0,FALSE,FALSE,NULL));
+ if (fromc) {
+ emitcode ("lcall","__bi_memcpyc2x_s");
+ } else {
+ emitcode ("lcall","__bi_memcpyx2x_s");
+ }
+ freeAsmop (count, NULL, ic, FALSE);
+ } else {
+ symbol *lbl1 = newiTempLabel(NULL);
+
+ emitcode (";"," Auto increment but no djnz");
+ emitcode ("mov","_ap,%s",aopGet (AOP (count), 0, FALSE, TRUE, NULL));
+ emitcode ("mov","b,%s",aopGet (AOP (count), 1, FALSE, TRUE, NULL));
+ freeAsmop (count, NULL, ic, FALSE);
+ emitcode ("mov", "dps,#!constbyte",0x21); /* Select DPTR2 & auto-toggle. */
+ emitcode ("","!tlabeldef",lbl->key+100);
+ if (fromc) {
+ emitcode ("clr","a");
+ emitcode ("movc", "a,@a+dptr");
+ } else
+ emitcode ("movx", "a,@dptr");
+ emitcode ("movx", "@dptr,a");
+ emitcode ("inc", "dptr");
+ emitcode ("inc", "dptr");
+ emitcode ("mov","a,b");
+ emitcode ("orl","a,_ap");
+ emitcode ("jz","!tlabel",lbl1->key+100);
+ emitcode ("mov","a,_ap");
+ emitcode ("add","a,#!constbyte",0xFF);
+ emitcode ("mov","_ap,a");
+ emitcode ("mov","a,b");
+ emitcode ("addc","a,#!constbyte",0xFF);
+ emitcode ("mov","b,a");
+ emitcode ("sjmp","!tlabel",lbl->key+100);
+ emitcode ("","!tlabeldef",lbl1->key+100);
+ }
+ emitcode ("mov", "dps,#0");
+ _G.dptrInUse = _G.dptr1InUse = 0;
+ unsavermask(rsave);
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genMemcmpX2X - gen code for memcmp xdata to xdata */
+/*-----------------------------------------------------------------*/
+static void genMemcmpX2X( iCode *ic, int nparms, operand **parms, int fromc)
+{
+ operand *from , *to , *count;
+ symbol *lbl,*lbl2;
+ bitVect *rsave;
+ int i;
+
+ /* we know it has to be 3 parameters */
+ assert (nparms == 3);
+
+ rsave = newBitVect(16);
+ /* save DPTR if it needs to be saved */
+ for (i = DPL_IDX ; i <= B_IDX ; i++ ) {
+ if (bitVectBitValue(ic->rMask,i))
+ rsave = bitVectSetBit(rsave,i);
+ }
+ rsave = bitVectIntersect(rsave,bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+ savermask(rsave);
+
+ to = parms[0];
+ from = parms[1];
+ count = parms[2];
+
+ aopOp (from, ic->next, FALSE, FALSE);
+
+ /* get from into DPTR1 */
+ emitcode ("mov", "dpl1,%s", aopGet (AOP (from), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph1,%s", aopGet (AOP (from), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx1,%s", aopGet (AOP (from), 2, FALSE, FALSE, NULL));
+ }
+
+ freeAsmop (from, NULL, ic, FALSE);
+ aopOp (to, ic, FALSE, FALSE);
+ /* get "to" into DPTR */
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (to) != AOP_STR) {
+ /* if already in DPTR then we need to push */
+ if (AOP_TYPE(to) == AOP_DPTR) {
+ emitcode ("push", "%s", aopGet (AOP (to), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (to), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ } else {
+ _startLazyDPSEvaluation ();
+ /* if this is remateriazable */
+ if (AOP_TYPE (to) == AOP_IMMD) {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (to), 0, TRUE, FALSE, NULL));
+ } else { /* we need to get it byte by byte */
+ emitcode ("mov", "dpl,%s", aopGet (AOP (to), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (to), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ }
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ freeAsmop (to, NULL, ic, FALSE);
+ _G.dptrInUse = _G.dptr1InUse = 1;
+ aopOp (count, ic->next->next, FALSE,FALSE);
+ lbl =newiTempLabel(NULL);
+ lbl2 =newiTempLabel(NULL);
+
+ /* now for the actual compare */
+ if (AOP_TYPE(count) == AOP_LIT &&
+ (int)floatFromVal (AOP(count)->aopu.aop_lit) <= 256) {
+ emitcode ("mov", "b,%s",aopGet(AOP(count),0,FALSE,FALSE,NULL));
+ if (fromc)
+ emitcode("lcall","__bi_memcmpc2x_s");
+ else
+ emitcode("lcall","__bi_memcmpx2x_s");
+ freeAsmop (count, NULL, ic, FALSE);
+ aopOp (IC_RESULT(ic), ic, FALSE,FALSE);
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ } else {
+ symbol *lbl1 = newiTempLabel(NULL);
+
+ emitcode("push","ar0");
+ emitcode (";"," Auto increment but no djnz");
+ emitcode ("mov","_ap,%s",aopGet (AOP (count), 0, FALSE, TRUE, NULL));
+ emitcode ("mov","b,%s",aopGet (AOP (count), 1, FALSE, TRUE, NULL));
+ freeAsmop (count, NULL, ic, FALSE);
+ emitcode ("mov", "dps,#!constbyte",0x21); /* Select DPTR2 & auto-toggle. */
+ emitcode ("","!tlabeldef",lbl->key+100);
+ if (fromc) {
+ emitcode ("clr","a");
+ emitcode ("movc", "a,@a+dptr");
+ } else
+ emitcode ("movx", "a,@dptr");
+ emitcode ("mov","r0,a");
+ emitcode ("movx", "a,@dptr");
+ emitcode ("clr","c");
+ emitcode ("subb","a,r0");
+ emitcode ("jnz","!tlabel",lbl2->key+100);
+ emitcode ("inc", "dptr");
+ emitcode ("inc", "dptr");
+ emitcode ("mov","a,b");
+ emitcode ("orl","a,_ap");
+ emitcode ("jz","!tlabel",lbl1->key+100);
+ emitcode ("mov","a,_ap");
+ emitcode ("add","a,#!constbyte",0xFF);
+ emitcode ("mov","_ap,a");
+ emitcode ("mov","a,b");
+ emitcode ("addc","a,#!constbyte",0xFF);
+ emitcode ("mov","b,a");
+ emitcode ("sjmp","!tlabel",lbl->key+100);
+ emitcode ("","!tlabeldef",lbl1->key+100);
+ emitcode ("clr","a");
+ emitcode ("","!tlabeldef",lbl2->key+100);
+ aopOp (IC_RESULT(ic), ic, FALSE,FALSE);
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ emitcode("pop","ar0");
+ emitcode ("mov", "dps,#0");
+ }
+ _G.dptrInUse = _G.dptr1InUse = 0;
+ unsavermask(rsave);
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genInp - gen code for __builtin_inp read data from a mem mapped */
+/* port, first parameter output area second parameter pointer to */
+/* port third parameter count */
+/*-----------------------------------------------------------------*/
+static void genInp( iCode *ic, int nparms, operand **parms)
+{
+ operand *from , *to , *count;
+ symbol *lbl;
+ bitVect *rsave;
+ int i;
+
+ /* we know it has to be 3 parameters */
+ assert (nparms == 3);
+
+ rsave = newBitVect(16);
+ /* save DPTR if it needs to be saved */
+ for (i = DPL_IDX ; i <= B_IDX ; i++ ) {
+ if (bitVectBitValue(ic->rMask,i))
+ rsave = bitVectSetBit(rsave,i);
+ }
+ rsave = bitVectIntersect(rsave,bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+ savermask(rsave);
+
+ to = parms[0];
+ from = parms[1];
+ count = parms[2];
+
+ aopOp (from, ic->next, FALSE, FALSE);
+
+ /* get from into DPTR1 */
+ emitcode ("mov", "dpl1,%s", aopGet (AOP (from), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph1,%s", aopGet (AOP (from), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx1,%s", aopGet (AOP (from), 2, FALSE, FALSE, NULL));
+ }
+
+ freeAsmop (from, NULL, ic, FALSE);
+ aopOp (to, ic, FALSE, FALSE);
+ /* get "to" into DPTR */
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (to) != AOP_STR) {
+ /* if already in DPTR then we need to push */
+ if (AOP_TYPE(to) == AOP_DPTR) {
+ emitcode ("push", "%s", aopGet (AOP (to), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (to), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ } else {
+ _startLazyDPSEvaluation ();
+ /* if this is remateriazable */
+ if (AOP_TYPE (to) == AOP_IMMD) {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (to), 0, TRUE, FALSE, NULL));
+ } else { /* we need to get it byte by byte */
+ emitcode ("mov", "dpl,%s", aopGet (AOP (to), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (to), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ }
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ freeAsmop (to, NULL, ic, FALSE);
+
+ _G.dptrInUse = _G.dptr1InUse = 1;
+ aopOp (count, ic->next->next, FALSE,FALSE);
+ lbl =newiTempLabel(NULL);
+
+ /* now for the actual copy */
+ if (AOP_TYPE(count) == AOP_LIT &&
+ (int)floatFromVal (AOP(count)->aopu.aop_lit) <= 256) {
+ emitcode (";","OH JOY auto increment with djnz (very fast)");
+ emitcode ("mov", "dps,#!constbyte",0x1); /* Select DPTR2 */
+ emitcode ("mov", "b,%s",aopGet(AOP(count),0,FALSE,FALSE,NULL));
+ freeAsmop (count, NULL, ic, FALSE);
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("movx", "a,@dptr"); /* read data from port */
+ emitcode ("dec","dps"); /* switch to DPTR */
+ emitcode ("movx", "@dptr,a"); /* save into location */
+ emitcode ("inc", "dptr"); /* point to next area */
+ emitcode ("inc","dps"); /* switch to DPTR2 */
+ emitcode ("djnz","b,!tlabel",lbl->key+100);
+ } else {
+ symbol *lbl1 = newiTempLabel(NULL);
+
+ emitcode (";"," Auto increment but no djnz");
+ emitcode ("mov","_ap,%s",aopGet (AOP (count), 0, FALSE, TRUE, NULL));
+ emitcode ("mov","b,%s",aopGet (AOP (count), 1, FALSE, TRUE, NULL));
+ freeAsmop (count, NULL, ic, FALSE);
+ emitcode ("mov", "dps,#!constbyte",0x1); /* Select DPTR2 */
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("movx", "a,@dptr");
+ emitcode ("dec","dps"); /* switch to DPTR */
+ emitcode ("movx", "@dptr,a");
+ emitcode ("inc", "dptr");
+ emitcode ("inc","dps"); /* switch to DPTR2 */
+/* emitcode ("djnz","b,!tlabel",lbl->key+100); */
+/* emitcode ("djnz","_ap,!tlabel",lbl->key+100); */
+ emitcode ("mov","a,b");
+ emitcode ("orl","a,_ap");
+ emitcode ("jz","!tlabel",lbl1->key+100);
+ emitcode ("mov","a,_ap");
+ emitcode ("add","a,#!constbyte",0xFF);
+ emitcode ("mov","_ap,a");
+ emitcode ("mov","a,b");
+ emitcode ("addc","a,#!constbyte",0xFF);
+ emitcode ("mov","b,a");
+ emitcode ("sjmp","!tlabel",lbl->key+100);
+ emitcode ("","!tlabeldef",lbl1->key+100);
+ }
+ emitcode ("mov", "dps,#0");
+ _G.dptrInUse = _G.dptr1InUse = 0;
+ unsavermask(rsave);
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genOutp - gen code for __builtin_inp write data to a mem mapped */
+/* port, first parameter output area second parameter pointer to */
+/* port third parameter count */
+/*-----------------------------------------------------------------*/
+static void genOutp( iCode *ic, int nparms, operand **parms)
+{
+ operand *from , *to , *count;
+ symbol *lbl;
+ bitVect *rsave;
+ int i;
+
+ /* we know it has to be 3 parameters */
+ assert (nparms == 3);
+
+ rsave = newBitVect(16);
+ /* save DPTR if it needs to be saved */
+ for (i = DPL_IDX ; i <= B_IDX ; i++ ) {
+ if (bitVectBitValue(ic->rMask,i))
+ rsave = bitVectSetBit(rsave,i);
+ }
+ rsave = bitVectIntersect(rsave,bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+ savermask(rsave);
+
+ to = parms[0];
+ from = parms[1];
+ count = parms[2];
+
+ aopOp (from, ic->next, FALSE, FALSE);
+
+ /* get from into DPTR1 */
+ emitcode ("mov", "dpl1,%s", aopGet (AOP (from), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph1,%s", aopGet (AOP (from), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx1,%s", aopGet (AOP (from), 2, FALSE, FALSE, NULL));
+ }
+
+ freeAsmop (from, NULL, ic, FALSE);
+ aopOp (to, ic, FALSE, FALSE);
+ /* get "to" into DPTR */
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (to) != AOP_STR) {
+ /* if already in DPTR then we need to push */
+ if (AOP_TYPE(to) == AOP_DPTR) {
+ emitcode ("push", "%s", aopGet (AOP (to), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (to), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ } else {
+ _startLazyDPSEvaluation ();
+ /* if this is remateriazable */
+ if (AOP_TYPE (to) == AOP_IMMD) {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (to), 0, TRUE, FALSE, NULL));
+ } else { /* we need to get it byte by byte */
+ emitcode ("mov", "dpl,%s", aopGet (AOP (to), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (to), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ }
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ freeAsmop (to, NULL, ic, FALSE);
+
+ _G.dptrInUse = _G.dptr1InUse = 1;
+ aopOp (count, ic->next->next, FALSE,FALSE);
+ lbl =newiTempLabel(NULL);
+
+ /* now for the actual copy */
+ if (AOP_TYPE(count) == AOP_LIT &&
+ (int)floatFromVal (AOP(count)->aopu.aop_lit) <= 256) {
+ emitcode (";","OH JOY auto increment with djnz (very fast)");
+ emitcode ("mov", "dps,#!constbyte",0x0); /* Select DPTR */
+ emitcode ("mov", "b,%s",aopGet(AOP(count),0,FALSE,FALSE,NULL));
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("movx", "a,@dptr"); /* read data from port */
+ emitcode ("inc","dps"); /* switch to DPTR2 */
+ emitcode ("movx", "@dptr,a"); /* save into location */
+ emitcode ("inc", "dptr"); /* point to next area */
+ emitcode ("dec","dps"); /* switch to DPTR */
+ emitcode ("djnz","b,!tlabel",lbl->key+100);
+ freeAsmop (count, NULL, ic, FALSE);
+ } else {
+ symbol *lbl1 = newiTempLabel(NULL);
+
+ emitcode (";"," Auto increment but no djnz");
+ emitcode ("mov","_ap,%s",aopGet (AOP (count), 0, FALSE, TRUE, NULL));
+ emitcode ("mov","b,%s",aopGet (AOP (count), 1, FALSE, TRUE, NULL));
+ freeAsmop (count, NULL, ic, FALSE);
+ emitcode ("mov", "dps,#!constbyte",0x0); /* Select DPTR */
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("movx", "a,@dptr");
+ emitcode ("inc", "dptr");
+ emitcode ("inc","dps"); /* switch to DPTR2 */
+ emitcode ("movx", "@dptr,a");
+ emitcode ("dec","dps"); /* switch to DPTR */
+ emitcode ("mov","a,b");
+ emitcode ("orl","a,_ap");
+ emitcode ("jz","!tlabel",lbl1->key+100);
+ emitcode ("mov","a,_ap");
+ emitcode ("add","a,#!constbyte",0xFF);
+ emitcode ("mov","_ap,a");
+ emitcode ("mov","a,b");
+ emitcode ("addc","a,#!constbyte",0xFF);
+ emitcode ("mov","b,a");
+ emitcode ("sjmp","!tlabel",lbl->key+100);
+ emitcode ("","!tlabeldef",lbl1->key+100);
+ }
+ emitcode ("mov", "dps,#0");
+ _G.dptrInUse = _G.dptr1InUse = 0;
+ unsavermask(rsave);
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genSwapW - swap lower & high order bytes */
+/*-----------------------------------------------------------------*/
+static void genSwapW(iCode *ic, int nparms, operand **parms)
+{
+ operand *dest;
+ operand *src;
+ assert (nparms==1);
+
+ src = parms[0];
+ dest=IC_RESULT(ic);
+
+ assert(getSize(operandType(src))==2);
+
+ aopOp (src, ic, FALSE, FALSE);
+ emitcode ("mov","a,%s",aopGet(AOP(src),0,FALSE,FALSE,NULL));
+ _G.accInUse++;
+ MOVB(aopGet(AOP(src),1,FALSE,FALSE,"b"));
+ _G.accInUse--;
+ freeAsmop (src, NULL, ic, FALSE);
+
+ aopOp (dest,ic, FALSE, FALSE);
+ aopPut(AOP(dest),"b",0);
+ aopPut(AOP(dest),"a",1);
+ freeAsmop (dest, NULL, ic, FALSE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genMemsetX - gencode for memSetX data */
+/*-----------------------------------------------------------------*/
+static void genMemsetX(iCode *ic, int nparms, operand **parms)
+{
+ operand *to , *val , *count;
+ symbol *lbl;
+ char *l;
+ int i;
+ bitVect *rsave;
+
+ /* we know it has to be 3 parameters */
+ assert (nparms == 3);
+
+ to = parms[0];
+ val = parms[1];
+ count = parms[2];
+
+ /* save DPTR if it needs to be saved */
+ rsave = newBitVect(16);
+ for (i = DPL_IDX ; i <= B_IDX ; i++ ) {
+ if (bitVectBitValue(ic->rMask,i))
+ rsave = bitVectSetBit(rsave,i);
+ }
+ rsave = bitVectIntersect(rsave,bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+ savermask(rsave);
+
+ aopOp (to, ic, FALSE, FALSE);
+ /* get "to" into DPTR */
+ /* if the operand is already in dptr
+ then we do nothing else we move the value to dptr */
+ if (AOP_TYPE (to) != AOP_STR) {
+ /* if already in DPTR then we need to push */
+ if (AOP_TYPE(to) == AOP_DPTR) {
+ emitcode ("push", "%s", aopGet (AOP (to), 0, FALSE, TRUE, NULL));
+ emitcode ("push", "%s", aopGet (AOP (to), 1, FALSE, TRUE, NULL));
+ if (options.model == MODEL_FLAT24)
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ emitcode ("pop", "dph");
+ emitcode ("pop", "dpl");
+ } else {
+ _startLazyDPSEvaluation ();
+ /* if this is remateriazable */
+ if (AOP_TYPE (to) == AOP_IMMD) {
+ emitcode ("mov", "dptr,%s", aopGet (AOP (to), 0, TRUE, FALSE, NULL));
+ } else { /* we need to get it byte by byte */
+ emitcode ("mov", "dpl,%s", aopGet (AOP (to), 0, FALSE, FALSE, NULL));
+ emitcode ("mov", "dph,%s", aopGet (AOP (to), 1, FALSE, FALSE, NULL));
+ if (options.model == MODEL_FLAT24) {
+ emitcode ("mov", "dpx,%s", aopGet (AOP (to), 2, FALSE, FALSE, NULL));
+ }
+ }
+ _endLazyDPSEvaluation ();
+ }
+ }
+ freeAsmop (to, NULL, ic, FALSE);
+
+ aopOp (val, ic->next->next, FALSE,FALSE);
+ aopOp (count, ic->next->next, FALSE,FALSE);
+ lbl =newiTempLabel(NULL);
+ /* now for the actual copy */
+ if (AOP_TYPE(count) == AOP_LIT &&
+ (int)floatFromVal (AOP(count)->aopu.aop_lit) <= 256) {
+ l = aopGet(AOP (val), 0, FALSE, FALSE, NULL);
+ emitcode ("mov", "b,%s",aopGet(AOP(count),0,FALSE,FALSE,NULL));
+ MOVA(l);
+ emitcode ("","!tlabeldef",lbl->key+100);
+ emitcode ("movx", "@dptr,a");
+ emitcode ("inc", "dptr");
+ emitcode ("djnz","b,!tlabel",lbl->key+100);
+ } else {
+ symbol *lbl1 = newiTempLabel(NULL);
+
+ emitcode ("mov","_ap,%s",aopGet (AOP (count), 0, FALSE, TRUE, NULL));
+ emitcode ("mov","b,%s",aopGet (AOP (count), 1, FALSE, TRUE, NULL));
+ emitcode ("","!tlabeldef",lbl->key+100);
+ MOVA (aopGet(AOP (val), 0, FALSE, FALSE, NULL));
+ emitcode ("movx", "@dptr,a");
+ emitcode ("inc", "dptr");
+ emitcode ("mov","a,b");
+ emitcode ("orl","a,_ap");
+ emitcode ("jz","!tlabel",lbl1->key+100);
+ emitcode ("mov","a,_ap");
+ emitcode ("add","a,#!constbyte",0xFF);
+ emitcode ("mov","_ap,a");
+ emitcode ("mov","a,b");
+ emitcode ("addc","a,#!constbyte",0xFF);
+ emitcode ("mov","b,a");
+ emitcode ("sjmp","!tlabel",lbl->key+100);
+ emitcode ("","!tlabeldef",lbl1->key+100);
+ }
+ freeAsmop (count, NULL, ic, FALSE);
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genNatLibLoadPrimitive - calls TINI api function to load primitive */
+/*-----------------------------------------------------------------*/
+static void genNatLibLoadPrimitive(iCode *ic, int nparms, operand **parms,int size)
+{
+ bitVect *rsave ;
+ operand *pnum, *result;
+ int i;
+
+ assert (nparms==1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ pnum = parms[0];
+ aopOp (pnum, ic, FALSE, FALSE);
+ emitcode ("mov","a,%s",aopGet(AOP(pnum),0,FALSE,FALSE,DP2_RESULT_REG));
+ freeAsmop (pnum, NULL, ic, FALSE);
+ emitcode ("lcall","NatLib_LoadPrimitive");
+ aopOp (result=IC_RESULT(ic), ic, FALSE, FALSE);
+ if (aopHasRegs(AOP(result),R0_IDX,R1_IDX) ||
+ aopHasRegs(AOP(result),R2_IDX,R3_IDX) ) {
+ for (i = (size-1) ; i >= 0 ; i-- ) {
+ emitcode ("push","a%s",javaRet[i]);
+ }
+ for (i=0; i < size ; i++ ) {
+ emitcode ("pop","a%s",
+ aopGet(AOP(result),i,FALSE,FALSE,DP2_RESULT_REG));
+ }
+ } else {
+ for (i = 0 ; i < size ; i++ ) {
+ aopPut(AOP(result),javaRet[i],i);
+ }
+ }
+ freeAsmop (result, NULL, ic, FALSE);
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genNatLibLoadPointer - calls TINI api function to load pointer */
+/*-----------------------------------------------------------------*/
+static void genNatLibLoadPointer(iCode *ic, int nparms, operand **parms)
+{
+ bitVect *rsave ;
+ operand *pnum, *result;
+ int size = 3;
+ int i;
+
+ assert (nparms==1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ pnum = parms[0];
+ aopOp (pnum, ic, FALSE, FALSE);
+ emitcode ("mov","a,%s",aopGet(AOP(pnum),0,FALSE,FALSE,DP2_RESULT_REG));
+ freeAsmop (pnum, NULL, ic, FALSE);
+ emitcode ("lcall","NatLib_LoadPointer");
+ aopOp (result=IC_RESULT(ic), ic, FALSE, FALSE);
+ if (AOP_TYPE(result)!=AOP_STR) {
+ for (i = 0 ; i < size ; i++ ) {
+ aopPut(AOP(result),fReturn[i],i);
+ }
+ }
+ freeAsmop (result, NULL, ic, FALSE);
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genNatLibInstallStateBlock - */
+/*-----------------------------------------------------------------*/
+static void genNatLibInstallStateBlock(iCode *ic, int nparms,
+ operand **parms, const char *name)
+{
+ bitVect *rsave ;
+ operand *psb, *handle;
+ assert (nparms==2);
+
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+ psb = parms[0];
+ handle = parms[1];
+
+ /* put pointer to state block into DPTR1 */
+ aopOp (psb, ic, FALSE, FALSE);
+ if (AOP_TYPE (psb) == AOP_IMMD) {
+ emitcode ("mov","dps,#1");
+ emitcode ("mov", "dptr,%s",
+ aopGet (AOP (psb), 0, TRUE, FALSE, DP2_RESULT_REG));
+ emitcode ("mov","dps,#0");
+ } else {
+ emitcode ("mov","dpl1,%s",aopGet(AOP(psb),0,FALSE,FALSE,DP2_RESULT_REG));
+ emitcode ("mov","dph1,%s",aopGet(AOP(psb),1,FALSE,FALSE,DP2_RESULT_REG));
+ emitcode ("mov","dpx1,%s",aopGet(AOP(psb),2,FALSE,FALSE,DP2_RESULT_REG));
+ }
+ freeAsmop (psb, NULL, ic, FALSE);
+
+ /* put libraryID into DPTR */
+ emitcode ("mov","dptr,#LibraryID");
+
+ /* put handle into r3:r2 */
+ aopOp (handle, ic, FALSE, FALSE);
+ if (aopHasRegs(AOP(handle),R2_IDX,R3_IDX)) {
+ emitcode ("push","%s",aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("push","%s",aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("pop","ar3");
+ emitcode ("pop","ar2");
+ } else {
+ emitcode ("mov","r2,%s",aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r3,%s",aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ freeAsmop (psb, NULL, ic, FALSE);
+
+ /* make the call */
+ emitcode ("lcall","NatLib_Install%sStateBlock",name);
+
+ /* put return value into place*/
+ _G.accInUse++;
+ aopOp (IC_RESULT(ic), ic, FALSE, FALSE);
+ _G.accInUse--;
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genNatLibRemoveStateBlock - */
+/*-----------------------------------------------------------------*/
+static void genNatLibRemoveStateBlock(iCode *ic,int nparms,const char *name)
+{
+ bitVect *rsave ;
+
+ assert(nparms==0);
+
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ /* put libraryID into DPTR */
+ emitcode ("mov","dptr,#LibraryID");
+ /* make the call */
+ emitcode ("lcall","NatLib_Remove%sStateBlock",name);
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genNatLibGetStateBlock - */
+/*-----------------------------------------------------------------*/
+static void genNatLibGetStateBlock(iCode *ic,int nparms,
+ operand **parms,const char *name)
+{
+ bitVect *rsave ;
+ symbol *lbl = newiTempLabel(NULL);
+
+ assert(nparms==0);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ /* put libraryID into DPTR */
+ emitcode ("mov","dptr,#LibraryID");
+ /* make the call */
+ emitcode ("lcall","NatLib_Remove%sStateBlock",name);
+ emitcode ("jnz","!tlabel",lbl->key+100);
+
+ /* put return value into place */
+ aopOp(IC_RESULT(ic),ic,FALSE,FALSE);
+ if (aopHasRegs(AOP(IC_RESULT(ic)),R2_IDX,R3_IDX)) {
+ emitcode ("push","ar3");
+ emitcode ("push","ar2");
+ emitcode ("pop","%s",
+ aopGet(AOP(IC_RESULT(ic)),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("pop","%s",
+ aopGet(AOP(IC_RESULT(ic)),1,FALSE,TRUE,DP2_RESULT_REG));
+ } else {
+ aopPut(AOP(IC_RESULT(ic)),"r2",0);
+ aopPut(AOP(IC_RESULT(ic)),"r3",1);
+ }
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ emitcode ("","!tlabeldef",lbl->key+100);
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genMMMalloc - */
+/*-----------------------------------------------------------------*/
+static void genMMMalloc (iCode *ic,int nparms, operand **parms,
+ int size, const char *name)
+{
+ bitVect *rsave ;
+ operand *bsize;
+ symbol *rsym;
+ symbol *lbl = newiTempLabel(NULL);
+
+ assert (nparms == 1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ bsize=parms[0];
+ aopOp (bsize,ic,FALSE,FALSE);
+
+ /* put the size in R4-R2 */
+ if (aopHasRegs(AOP(bsize),R2_IDX, (size==3 ? R4_IDX: R3_IDX))) {
+ emitcode("push","%s",aopGet(AOP(bsize),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("push","%s",aopGet(AOP(bsize),1,FALSE,TRUE,DP2_RESULT_REG));
+ if (size==3) {
+ emitcode("push","%s",aopGet(AOP(bsize),2,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("pop","ar4");
+ }
+ emitcode("pop","ar3");
+ emitcode("pop","ar2");
+ } else {
+ emitcode ("mov","r2,%s",aopGet(AOP(bsize),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r3,%s",aopGet(AOP(bsize),1,FALSE,TRUE,DP2_RESULT_REG));
+ if (size==3) {
+ emitcode("mov","r4,%s",aopGet(AOP(bsize),2,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ }
+ freeAsmop (bsize, NULL, ic, FALSE);
+
+ /* make the call */
+ emitcode ("lcall","MM_%s",name);
+ emitcode ("jz","!tlabel",lbl->key+100);
+ emitcode ("mov","r2,#!constbyte",0xff);
+ emitcode ("mov","r3,#!constbyte",0xff);
+ emitcode ("","!tlabeldef",lbl->key+100);
+ /* we don't care about the pointer : we just save the handle */
+ rsym = OP_SYMBOL(IC_RESULT(ic));
+ if (rsym->liveFrom != rsym->liveTo) {
+ aopOp(IC_RESULT(ic),ic,FALSE,FALSE);
+ if (aopHasRegs(AOP(IC_RESULT(ic)),R2_IDX,R3_IDX)) {
+ emitcode ("push","ar3");
+ emitcode ("push","ar2");
+ emitcode ("pop","%s",
+ aopGet(AOP(IC_RESULT(ic)),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("pop","%s",
+ aopGet(AOP(IC_RESULT(ic)),1,FALSE,TRUE,DP2_RESULT_REG));
+ } else {
+ aopPut(AOP(IC_RESULT(ic)),"r2",0);
+ aopPut(AOP(IC_RESULT(ic)),"r3",1);
+ }
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ }
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genMMDeref - */
+/*-----------------------------------------------------------------*/
+static void genMMDeref (iCode *ic,int nparms, operand **parms)
+{
+ bitVect *rsave ;
+ operand *handle;
+
+ assert (nparms == 1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ handle=parms[0];
+ aopOp (handle,ic,FALSE,FALSE);
+
+ /* put the size in R4-R2 */
+ if (aopHasRegs(AOP(handle),R2_IDX,R3_IDX)) {
+ emitcode("push","%s",
+ aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("push","%s",
+ aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("pop","ar3");
+ emitcode("pop","ar2");
+ } else {
+ emitcode ("mov","r2,%s",
+ aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r3,%s",
+ aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ freeAsmop (handle, NULL, ic, FALSE);
+
+ /* make the call */
+ emitcode ("lcall","MM_Deref");
+
+ {
+ symbol *rsym = OP_SYMBOL(IC_RESULT(ic));
+ if (rsym->liveFrom != rsym->liveTo) {
+ aopOp (IC_RESULT(ic),ic,FALSE,FALSE);
+ if (AOP_TYPE(IC_RESULT(ic)) != AOP_STR) {
+ _startLazyDPSEvaluation ();
+
+ aopPut(AOP(IC_RESULT(ic)),"dpl",0);
+ aopPut(AOP(IC_RESULT(ic)),"dph",1);
+ aopPut(AOP(IC_RESULT(ic)),"dpx",2);
+
+ _endLazyDPSEvaluation ();
+
+ }
+ }
+ }
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genMMUnrestrictedPersist - */
+/*-----------------------------------------------------------------*/
+static void genMMUnrestrictedPersist(iCode *ic,int nparms, operand **parms)
+{
+ bitVect *rsave ;
+ operand *handle;
+
+ assert (nparms == 1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ handle=parms[0];
+ aopOp (handle,ic,FALSE,FALSE);
+
+ /* put the size in R3-R2 */
+ if (aopHasRegs(AOP(handle),R2_IDX,R3_IDX)) {
+ emitcode("push","%s",
+ aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("push","%s",
+ aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("pop","ar3");
+ emitcode("pop","ar2");
+ } else {
+ emitcode ("mov","r2,%s",
+ aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r3,%s",
+ aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ freeAsmop (handle, NULL, ic, FALSE);
+
+ /* make the call */
+ emitcode ("lcall","MM_UnrestrictedPersist");
+
+ {
+ symbol *rsym = OP_SYMBOL(IC_RESULT(ic));
+ if (rsym->liveFrom != rsym->liveTo) {
+ aopOp (IC_RESULT(ic),ic,FALSE,FALSE);
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ }
+ }
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystemExecJavaProcess - */
+/*-----------------------------------------------------------------*/
+static void genSystemExecJavaProcess(iCode *ic,int nparms, operand **parms)
+{
+ bitVect *rsave ;
+ operand *handle, *pp;
+
+ assert (nparms==2);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ pp = parms[0];
+ handle = parms[1];
+
+ /* put the handle in R3-R2 */
+ aopOp (handle,ic,FALSE,FALSE);
+ if (aopHasRegs(AOP(handle),R2_IDX,R3_IDX)) {
+ emitcode("push","%s",
+ aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("push","%s",
+ aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode("pop","ar3");
+ emitcode("pop","ar2");
+ } else {
+ emitcode ("mov","r2,%s",
+ aopGet(AOP(handle),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r3,%s",
+ aopGet(AOP(handle),1,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ freeAsmop (handle, NULL, ic, FALSE);
+
+ /* put pointer in DPTR */
+ aopOp (pp,ic,FALSE,FALSE);
+ if (AOP_TYPE(pp) == AOP_IMMD) {
+ emitcode ("mov", "dptr,%s",
+ aopGet (AOP (pp), 0, TRUE, FALSE, NULL));
+ } else if (AOP_TYPE(pp) != AOP_STR) { /* not already in dptr */
+ emitcode ("mov","dpl,%s",aopGet(AOP(pp),0,FALSE,FALSE,NULL));
+ emitcode ("mov","dph,%s",aopGet(AOP(pp),1,FALSE,FALSE,NULL));
+ emitcode ("mov","dpx,%s",aopGet(AOP(pp),2,FALSE,FALSE,NULL));
+ }
+ freeAsmop (handle, NULL, ic, FALSE);
+
+ /* make the call */
+ emitcode ("lcall","System_ExecJavaProcess");
+
+ /* put result in place */
+ {
+ symbol *rsym = OP_SYMBOL(IC_RESULT(ic));
+ if (rsym->liveFrom != rsym->liveTo) {
+ aopOp (IC_RESULT(ic),ic,FALSE,FALSE);
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ }
+ }
+
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystemRTCRegisters - */
+/*-----------------------------------------------------------------*/
+static void genSystemRTCRegisters(iCode *ic,int nparms, operand **parms,
+ char *name)
+{
+ bitVect *rsave ;
+ operand *pp;
+
+ assert (nparms==1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ pp=parms[0];
+ /* put pointer in DPTR */
+ aopOp (pp,ic,FALSE,FALSE);
+ if (AOP_TYPE (pp) == AOP_IMMD) {
+ emitcode ("mov","dps,#1");
+ emitcode ("mov", "dptr,%s",
+ aopGet (AOP (pp), 0, TRUE, FALSE, NULL));
+ emitcode ("mov","dps,#0");
+ } else {
+ emitcode ("mov","dpl1,%s",
+ aopGet(AOP(pp),0,FALSE,FALSE,DP2_RESULT_REG));
+ emitcode ("mov","dph1,%s",
+ aopGet(AOP(pp),1,FALSE,FALSE,DP2_RESULT_REG));
+ emitcode ("mov","dpx1,%s",
+ aopGet(AOP(pp),2,FALSE,FALSE,DP2_RESULT_REG));
+ }
+ freeAsmop (pp, NULL, ic, FALSE);
+
+ /* make the call */
+ emitcode ("lcall","System_%sRTCRegisters",name);
+
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystemThreadSleep - */
+/*-----------------------------------------------------------------*/
+static void genSystemThreadSleep(iCode *ic,int nparms, operand **parms, char *name)
+{
+ bitVect *rsave ;
+ operand *to, *s;
+
+ assert (nparms==1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ to = parms[0];
+ aopOp(to,ic,FALSE,FALSE);
+ if (aopHasRegs(AOP(to),R2_IDX,R3_IDX) ||
+ aopHasRegs(AOP(to),R0_IDX,R1_IDX) ) {
+ emitcode ("push","%s",
+ aopGet(AOP(to),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("push","%s",
+ aopGet(AOP(to),1,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("push","%s",
+ aopGet(AOP(to),2,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("push","%s",
+ aopGet(AOP(to),3,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("pop","ar3");
+ emitcode ("pop","ar2");
+ emitcode ("pop","ar1");
+ emitcode ("pop","ar0");
+ } else {
+ emitcode ("mov","r0,%s",
+ aopGet(AOP(to),0,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r1,%s",
+ aopGet(AOP(to),1,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r2,%s",
+ aopGet(AOP(to),2,FALSE,TRUE,DP2_RESULT_REG));
+ emitcode ("mov","r3,%s",
+ aopGet(AOP(to),3,FALSE,TRUE,DP2_RESULT_REG));
+ }
+ freeAsmop (to, NULL, ic, FALSE);
+
+ /* suspend in acc */
+ s = parms[1];
+ aopOp(s,ic,FALSE,FALSE);
+ emitcode ("mov","a,%s",
+ aopGet(AOP(s),0,FALSE,TRUE,NULL));
+ freeAsmop (s, NULL, ic, FALSE);
+
+ /* make the call */
+ emitcode ("lcall","System_%s",name);
+
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystemThreadResume - */
+/*-----------------------------------------------------------------*/
+static void genSystemThreadResume(iCode *ic,int nparms, operand **parms)
+{
+ bitVect *rsave ;
+ operand *tid,*pid;
+
+ assert (nparms==2);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ tid = parms[0];
+ pid = parms[1];
+
+ /* PID in R0 */
+ aopOp(pid,ic,FALSE,FALSE);
+ emitcode ("mov","r0,%s",
+ aopGet(AOP(pid),0,FALSE,TRUE,DP2_RESULT_REG));
+ freeAsmop (pid, NULL, ic, FALSE);
+
+ /* tid into ACC */
+ aopOp(tid,ic,FALSE,FALSE);
+ emitcode ("mov","a,%s",
+ aopGet(AOP(tid),0,FALSE,TRUE,DP2_RESULT_REG));
+ freeAsmop (tid, NULL, ic, FALSE);
+
+ emitcode ("lcall","System_ThreadResume");
+
+ /* put result into place */
+ {
+ symbol *rsym = OP_SYMBOL(IC_RESULT(ic));
+ if (rsym->liveFrom != rsym->liveTo) {
+ aopOp (IC_RESULT(ic),ic,FALSE,FALSE);
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ }
+ }
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystemProcessResume - */
+/*-----------------------------------------------------------------*/
+static void genSystemProcessResume(iCode *ic,int nparms, operand **parms)
+{
+ bitVect *rsave ;
+ operand *pid;
+
+ assert (nparms==1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ pid = parms[0];
+
+ /* pid into ACC */
+ aopOp(pid,ic,FALSE,FALSE);
+ emitcode ("mov","a,%s",
+ aopGet(AOP(pid),0,FALSE,TRUE,DP2_RESULT_REG));
+ freeAsmop (pid, NULL, ic, FALSE);
+
+ emitcode ("lcall","System_ProcessResume");
+
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystem - */
+/*-----------------------------------------------------------------*/
+static void genSystem (iCode *ic,int nparms,char *name)
+{
+ assert(nparms == 0);
+
+ emitcode ("lcall","System_%s",name);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystemPoll - */
+/*-----------------------------------------------------------------*/
+static void genSystemPoll(iCode *ic,int nparms, operand **parms,char *name)
+{
+ bitVect *rsave ;
+ operand *fp;
+
+ assert (nparms==1);
+ /* save registers that need to be saved */
+ savermask(rsave = bitVectCplAnd (bitVectCopy (ic->rMask),
+ ds390_rUmaskForOp (IC_RESULT(ic))));
+
+ fp = parms[0];
+ aopOp (fp,ic,FALSE,FALSE);
+ if (AOP_TYPE (fp) == AOP_IMMD) {
+ emitcode ("mov", "dptr,%s",
+ aopGet (AOP (fp), 0, TRUE, FALSE, DP2_RESULT_REG));
+ } else if (AOP_TYPE(fp) != AOP_STR) { /* not already in dptr */
+ emitcode ("mov","dpl,%s",
+ aopGet(AOP(fp),0,FALSE,FALSE,DP2_RESULT_REG));
+ emitcode ("mov","dph,%s",
+ aopGet(AOP(fp),1,FALSE,FALSE,DP2_RESULT_REG));
+ emitcode ("mov","dpx,%s",
+ aopGet(AOP(fp),2,FALSE,FALSE,DP2_RESULT_REG));
+ }
+ freeAsmop (fp, NULL, ic, FALSE);
+
+ emitcode ("lcall","System_%sPoll",name);
+
+ /* put result into place */
+ {
+ symbol *rsym = OP_SYMBOL(IC_RESULT(ic));
+ if (rsym->liveFrom != rsym->liveTo) {
+ aopOp (IC_RESULT(ic),ic,FALSE,FALSE);
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ }
+ }
+ unsavermask(rsave);
+}
+
+/*-----------------------------------------------------------------*/
+/* genSystemGetCurrentID - */
+/*-----------------------------------------------------------------*/
+static void genSystemGetCurrentID(iCode *ic,int nparms, operand **parms,char *name)
+{
+ assert (nparms==0);
+
+ emitcode ("lcall","System_GetCurrent%sId",name);
+ /* put result into place */
+ {
+ symbol *rsym = OP_SYMBOL(IC_RESULT(ic));
+ if (rsym->liveFrom != rsym->liveTo) {
+ aopOp (IC_RESULT(ic),ic,FALSE,FALSE);
+ aopPut(AOP(IC_RESULT(ic)),"a",0);
+ freeAsmop (IC_RESULT(ic), NULL, ic, FALSE);
+ }
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* genDummyRead - generate code for dummy read of volatiles */
+/*-----------------------------------------------------------------*/
+static void
+genDummyRead (iCode * ic)
+{
+ operand *op;
+ int size, offset;
+
+ D(emitcode("; genDummyRead",""));
+
+ op = IC_RIGHT (ic);
+ if (op && IS_SYMOP (op))
+ {
+ aopOp (op, ic, FALSE, FALSE);
+
+ /* if the result is a bit */
+ if (AOP_TYPE (op) == AOP_CRY)
+ emitcode ("mov", "c,%s", AOP (op)->aopu.aop_dir);
+ else
+ {
+ /* bit variables done */
+ /* general case */
+ size = AOP_SIZE (op);
+ offset = 0;
+ while (size--)
+ {
+ MOVA (aopGet (AOP (op), offset, FALSE, FALSE, FALSE));
+ offset++;
+ }
+ }
+
+ freeAsmop (op, NULL, ic, TRUE);
+ }
+
+ op = IC_LEFT (ic);
+ if (op && IS_SYMOP (op))
+ {
+ aopOp (op, ic, FALSE, FALSE);
+
+ /* if the result is a bit */
+ if (AOP_TYPE (op) == AOP_CRY)
+ emitcode ("mov", "c,%s", AOP (op)->aopu.aop_dir);
+ else
+ {
+ /* bit variables done */
+ /* general case */
+ size = AOP_SIZE (op);
+ offset = 0;
+ while (size--)
+ {
+ MOVA (aopGet (AOP (op), offset, FALSE, FALSE, FALSE));
+ offset++;
+ }
+ }
+
+ freeAsmop (op, NULL, ic, TRUE);
+ }
+
+}
+
+/*-----------------------------------------------------------------*/
+/* genCritical - generate code for start of a critical sequence */
+/*-----------------------------------------------------------------*/
+static void
+genCritical (iCode *ic)
+{
+ symbol *tlbl = newiTempLabel (NULL);
+
+ D(emitcode("; genCritical",""));
+
+ if (IC_RESULT (ic))
+ aopOp (IC_RESULT (ic), ic, TRUE, FALSE);
+
+ emitcode ("setb", "c");
+ emitcode ("jbc", "ea,%05d$", (tlbl->key + 100)); /* atomic test & clear */
+ emitcode ("clr", "c");
+ emitcode ("", "%05d$:", (tlbl->key + 100));
+
+ if (IC_RESULT (ic))
+ outBitC (IC_RESULT (ic)); /* save old ea in an operand */
+ else
+ emitcode ("push", "psw"); /* save old ea via c in psw on top of stack*/
+
+ if (IC_RESULT (ic))
+ freeAsmop (IC_RESULT (ic), NULL, ic, TRUE);
+}
+
+/*-----------------------------------------------------------------*/
+/* genEndCritical - generate code for end of a critical sequence */
+/*-----------------------------------------------------------------*/
+static void
+genEndCritical (iCode *ic)
+{
+ D(emitcode("; genEndCritical",""));
+
+ if (IC_RIGHT (ic))
+ {
+ aopOp (IC_RIGHT (ic), ic, FALSE, FALSE);
+ if (AOP_TYPE (IC_RIGHT (ic)) == AOP_CRY)
+ {
+ emitcode ("mov", "c,%s", IC_RIGHT (ic)->aop->aopu.aop_dir);
+ emitcode ("mov", "ea,c");
+ }
+ else
+ {
+ MOVA (aopGet (AOP (IC_RIGHT (ic)), 0, FALSE, FALSE, FALSE));
+ emitcode ("rrc", "a");
+ emitcode ("mov", "ea,c");
+ }
+ freeAsmop (IC_RIGHT (ic), NULL, ic, TRUE);
+ }
+ else
+ {
+ emitcode ("pop", "psw"); /* restore ea via c in psw on top of stack */
+ emitcode ("mov", "ea,c");
+ }
+}
+
+
+
+/*-----------------------------------------------------------------*/
+/* genBuiltIn - calls the appropriate function to generating code */
+/* for a built in function */
+/*-----------------------------------------------------------------*/
+static void genBuiltIn (iCode *ic)
+{
+ operand *bi_parms[MAX_BUILTIN_ARGS];
+ int nbi_parms;
+ iCode *bi_iCode;
+ symbol *bif;
+
+ /* get all the arguments for a built in function */
+ bi_iCode = getBuiltinParms(ic,&nbi_parms,bi_parms);
+
+ /* which function is it */
+ bif = OP_SYMBOL(IC_LEFT(bi_iCode));
+ if (strcmp(bif->name,"__builtin_memcpy_x2x")==0) {
+ genMemcpyX2X(bi_iCode,nbi_parms,bi_parms,0);
+ } else if (strcmp(bif->name,"__builtin_memcpy_c2x")==0) {
+ genMemcpyX2X(bi_iCode,nbi_parms,bi_parms,1);
+ } else if (strcmp(bif->name,"__builtin_memcmp_x2x")==0) {
+ genMemcmpX2X(bi_iCode,nbi_parms,bi_parms,0);
+ } else if (strcmp(bif->name,"__builtin_memcmp_c2x")==0) {
+ genMemcmpX2X(bi_iCode,nbi_parms,bi_parms,1);
+ } else if (strcmp(bif->name,"__builtin_memset_x")==0) {
+ genMemsetX(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"__builtin_inp")==0) {
+ genInp(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"__builtin_outp")==0) {
+ genOutp(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"__builtin_swapw")==0) {
+ genSwapW(bi_iCode,nbi_parms,bi_parms);
+ /* JavaNative builtIns */
+ } else if (strcmp(bif->name,"NatLib_LoadByte")==0) {
+ genNatLibLoadPrimitive(bi_iCode,nbi_parms,bi_parms,1);
+ } else if (strcmp(bif->name,"NatLib_LoadShort")==0) {
+ genNatLibLoadPrimitive(bi_iCode,nbi_parms,bi_parms,2);
+ } else if (strcmp(bif->name,"NatLib_LoadInt")==0) {
+ genNatLibLoadPrimitive(bi_iCode,nbi_parms,bi_parms,4);
+ } else if (strcmp(bif->name,"NatLib_LoadPointer")==0) {
+ genNatLibLoadPointer(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"NatLib_InstallImmutableStateBlock")==0) {
+ genNatLibInstallStateBlock(bi_iCode,nbi_parms,bi_parms,"Immutable");
+ } else if (strcmp(bif->name,"NatLib_InstallEphemeralStateBlock")==0) {
+ genNatLibInstallStateBlock(bi_iCode,nbi_parms,bi_parms,"Ephemeral");
+ } else if (strcmp(bif->name,"NatLib_RemoveImmutableStateBlock")==0) {
+ genNatLibRemoveStateBlock(bi_iCode,nbi_parms,"Immutable");
+ } else if (strcmp(bif->name,"NatLib_RemoveEphemeralStateBlock")==0) {
+ genNatLibRemoveStateBlock(bi_iCode,nbi_parms,"Ephemeral");
+ } else if (strcmp(bif->name,"NatLib_GetImmutableStateBlock")==0) {
+ genNatLibGetStateBlock(bi_iCode,nbi_parms,bi_parms,"Immutable");
+ } else if (strcmp(bif->name,"NatLib_GetEphemeralStateBlock")==0) {
+ genNatLibGetStateBlock(bi_iCode,nbi_parms,bi_parms,"Ephemeral");
+ } else if (strcmp(bif->name,"MM_XMalloc")==0) {
+ genMMMalloc(bi_iCode,nbi_parms,bi_parms,3,"XMalloc");
+ } else if (strcmp(bif->name,"MM_Malloc")==0) {
+ genMMMalloc(bi_iCode,nbi_parms,bi_parms,2,"Malloc");
+ } else if (strcmp(bif->name,"MM_ApplicationMalloc")==0) {
+ genMMMalloc(bi_iCode,nbi_parms,bi_parms,2,"ApplicationMalloc");
+ } else if (strcmp(bif->name,"MM_Free")==0) {
+ genMMMalloc(bi_iCode,nbi_parms,bi_parms,2,"Free");
+ } else if (strcmp(bif->name,"MM_Deref")==0) {
+ genMMDeref(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"MM_UnrestrictedPersist")==0) {
+ genMMUnrestrictedPersist(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"System_ExecJavaProcess")==0) {
+ genSystemExecJavaProcess(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"System_GetRTCRegisters")==0) {
+ genSystemRTCRegisters(bi_iCode,nbi_parms,bi_parms,"Get");
+ } else if (strcmp(bif->name,"System_SetRTCRegisters")==0) {
+ genSystemRTCRegisters(bi_iCode,nbi_parms,bi_parms,"Set");
+ } else if (strcmp(bif->name,"System_ThreadSleep")==0) {
+ genSystemThreadSleep(bi_iCode,nbi_parms,bi_parms,"ThreadSleep");
+ } else if (strcmp(bif->name,"System_ThreadSleep_ExitCriticalSection")==0) {
+ genSystemThreadSleep(bi_iCode,nbi_parms,bi_parms,"ThreadSleep_ExitCriticalSection");
+ } else if (strcmp(bif->name,"System_ProcessSleep")==0) {
+ genSystemThreadSleep(bi_iCode,nbi_parms,bi_parms,"ProcessSleep");
+ } else if (strcmp(bif->name,"System_ProcessSleep_ExitCriticalSection")==0) {
+ genSystemThreadSleep(bi_iCode,nbi_parms,bi_parms,"ProcessSleep_ExitCriticalSection");
+ } else if (strcmp(bif->name,"System_ThreadResume")==0) {
+ genSystemThreadResume(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"System_SaveThread")==0) {
+ genSystemThreadResume(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"System_ThreadResume")==0) {
+ genSystemThreadResume(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"System_ProcessResume")==0) {
+ genSystemProcessResume(bi_iCode,nbi_parms,bi_parms);
+ } else if (strcmp(bif->name,"System_SaveJavaThreadState")==0) {
+ genSystem(bi_iCode,nbi_parms,"SaveJavaThreadState");
+ } else if (strcmp(bif->name,"System_RestoreJavaThreadState")==0) {
+ genSystem(bi_iCode,nbi_parms,"RestoreJavaThreadState");
+ } else if (strcmp(bif->name,"System_ProcessYield")==0) {
+ genSystem(bi_iCode,nbi_parms,"ProcessYield");
+ } else if (strcmp(bif->name,"System_ProcessSuspend")==0) {
+ genSystem(bi_iCode,nbi_parms,"ProcessSuspend");
+ } else if (strcmp(bif->name,"System_RegisterPoll")==0) {
+ genSystemPoll(bi_iCode,nbi_parms,bi_parms,"Register");
+ } else if (strcmp(bif->name,"System_RemovePoll")==0) {
+ genSystemPoll(bi_iCode,nbi_parms,bi_parms,"Remove");
+ } else if (strcmp(bif->name,"System_GetCurrentThreadId")==0) {
+ genSystemGetCurrentID(bi_iCode,nbi_parms,bi_parms,"Thread");
+ } else if (strcmp(bif->name,"System_GetCurrentProcessId")==0) {
+ genSystemGetCurrentID(bi_iCode,nbi_parms,bi_parms,"Process");
+ } else {
+ werror(E_INTERNAL_ERROR,__FILE__,__LINE__,"unknown builtin function encountered\n");
+ return ;
+ }
+ return ;
+}
+
+/*-----------------------------------------------------------------*/
+/* gen390Code - generate code for Dallas 390 based controllers */
+/*-----------------------------------------------------------------*/
+void
+gen390Code (iCode * lic)
+{
+ iCode *ic;
+ int cln = 0;
+
+ lineHead = lineCurr = NULL;
+ dptrn[1][0] = "dpl1";
+ dptrn[1][1] = "dph1";
+ dptrn[1][2] = "dpx1";
+
+ if (options.model == MODEL_FLAT24) {
+ fReturnSizeDS390 = 5;
+ fReturn = fReturn24;
+ } else {
+ fReturnSizeDS390 = 4;
+ fReturn = fReturn16;
+ options.stack10bit=0;
+ }
+#if 1
+ /* print the allocation information */
+ if (allocInfo && currFunc)
+ printAllocInfo (currFunc, codeOutFile);
+#endif
+ /* if debug information required */
+ if (options.debug && currFunc)
+ {
+ debugFile->writeFunction (currFunc, lic);
+ }
+ /* stack pointer name */
+ if (options.useXstack)
+ spname = "_spx";
+ else
+ spname = "sp";
+
+
+ for (ic = lic; ic; ic = ic->next)
+ {
+ _G.current_iCode = ic;
+
+ if (ic->lineno && cln != ic->lineno)
+ {
+ if (options.debug)
+ {
+ debugFile->writeCLine (ic);
+ }
+ if (!options.noCcodeInAsm) {
+ emitcode ("", ";\t%s:%d: %s", ic->filename, ic->lineno,
+ printCLine(ic->filename, ic->lineno));
+ }
+ cln = ic->lineno;
+ }
+ if (options.iCodeInAsm) {
+ emitcode("", ";ic:%d: %s", ic->key, printILine(ic));
+ }
+ /* if the result is marked as
+ spilt and rematerializable or code for
+ this has already been generated then
+ do nothing */
+ if (resultRemat (ic) || ic->generated)
+ continue;
+
+ /* depending on the operation */
+ switch (ic->op)
+ {
+ case '!':
+ genNot (ic);
+ break;
+
+ case '~':
+ genCpl (ic);
+ break;
+
+ case UNARYMINUS:
+ genUminus (ic);
+ break;
+
+ case IPUSH:
+ genIpush (ic);
+ break;
+
+ case IPOP:
+ /* IPOP happens only when trying to restore a
+ spilt live range, if there is an ifx statement
+ following this pop then the if statement might
+ be using some of the registers being popped which
+ would destory the contents of the register so
+ we need to check for this condition and handle it */
+ if (ic->next &&
+ ic->next->op == IFX &&
+ regsInCommon (IC_LEFT (ic), IC_COND (ic->next)))
+ genIfx (ic->next, ic);
+ else
+ genIpop (ic);
+ break;
+
+ case CALL:
+ genCall (ic);
+ break;
+
+ case PCALL:
+ genPcall (ic);
+ break;
+
+ case FUNCTION:
+ genFunction (ic);
+ break;
+
+ case ENDFUNCTION:
+ genEndFunction (ic);
+ break;
+
+ case RETURN:
+ genRet (ic);
+ break;
+
+ case LABEL:
+ genLabel (ic);
+ break;
+
+ case GOTO:
+ genGoto (ic);
+ break;
+
+ case '+':
+ genPlus (ic);
+ break;
+
+ case '-':
+ if (!genDjnz (ic, ifxForOp (IC_RESULT (ic), ic)))
+ genMinus (ic);
+ break;
+
+ case '*':
+ genMult (ic);
+ break;
+
+ case '/':
+ genDiv (ic);
+ break;
+
+ case '%':
+ genMod (ic);
+ break;
+
+ case '>':
+ genCmpGt (ic, ifxForOp (IC_RESULT (ic), ic));
+ break;
+
+ case '<':
+ genCmpLt (ic, ifxForOp (IC_RESULT (ic), ic));
+ break;
+
+ case LE_OP:
+ case GE_OP:
+ case NE_OP:
+
+ /* note these two are xlated by algebraic equivalence
+ during parsing SDCC.y */
+ werror (E_INTERNAL_ERROR, __FILE__, __LINE__,
+ "got '>=' or '<=' shouldn't have come here");
+ break;
+
+ case EQ_OP:
+ genCmpEq (ic, ifxForOp (IC_RESULT (ic), ic));
+ break;
+
+ case AND_OP:
+ genAndOp (ic);
+ break;
+
+ case OR_OP:
+ genOrOp (ic);
+ break;
+
+ case '^':
+ genXor (ic, ifxForOp (IC_RESULT (ic), ic));
+ break;
+
+ case '|':
+ genOr (ic, ifxForOp (IC_RESULT (ic), ic));
+ break;
+
+ case BITWISEAND:
+ genAnd (ic, ifxForOp (IC_RESULT (ic), ic));
+ break;
+
+ case INLINEASM:
+ genInline (ic);
+ break;
+
+ case RRC:
+ genRRC (ic);
+ break;
+
+ case RLC:
+ genRLC (ic);
+ break;
+
+ case GETHBIT:
+ genGetHbit (ic);
+ break;
+
+ case LEFT_OP:
+ genLeftShift (ic);
+ break;
+
+ case RIGHT_OP:
+ genRightShift (ic);
+ break;
+
+ case GET_VALUE_AT_ADDRESS:
+ genPointerGet (ic,hasInc(IC_LEFT(ic),ic, getSize(operandType(IC_RESULT(ic)))));
+ break;
+
+ case '=':
+ if (POINTER_SET (ic))
+ genPointerSet (ic,hasInc(IC_RESULT(ic),ic,getSize(operandType(IC_RIGHT(ic)))));
+ else
+ genAssign (ic);
+ break;
+
+ case IFX:
+ genIfx (ic, NULL);
+ break;
+
+ case ADDRESS_OF:
+ genAddrOf (ic);
+ break;
+
+ case JUMPTABLE:
+ genJumpTab (ic);
+ break;
+
+ case CAST:
+ genCast (ic);
+ break;
+
+ case RECEIVE:
+ genReceive (ic);
+ break;
+
+ case SEND:
+ if (ic->builtinSEND) genBuiltIn(ic);
+ else addSet (&_G.sendSet, ic);
+ break;
+
+ case DUMMY_READ_VOLATILE:
+ genDummyRead (ic);
+ break;
+
+ case CRITICAL:
+ genCritical (ic);
+ break;
+
+ case ENDCRITICAL:
+ genEndCritical (ic);
+ break;
+
+ case SWAP:
+ genSwap (ic);
+ break;
+
+#if 0 // obsolete, and buggy for != xdata
+ case ARRAYINIT:
+ genArrayInit(ic);
+ break;
+#endif
+
+ default:
+ ic = ic;
+ }
+ }
+
+
+ /* now we are ready to call the
+ peep hole optimizer */
+ if (!options.nopeep)
+ peepHole (&lineHead);
+
+ /* now do the actual printing */
+ printLine (lineHead, codeOutFile);
+ return;
+}