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.
extern char *pic16_aopGet (struct asmop *aop, int offset, bool bit16, bool dname);
#if defined(__BORLANDC__) || defined(_MSC_VER)
-#define STRCASECMP stricmp
#define inline
-#else
-#define STRCASECMP strcasecmp
#endif
#define DUMP_DF_GRAPHS 0
pCodeOpReg pic16_pc_tblptru = {{PO_SFR_REGISTER, "TBLPTRU"}, -1, NULL,0,NULL}; //
pCodeOpReg pic16_pc_tablat = {{PO_SFR_REGISTER, "TABLAT"}, -1, NULL,0,NULL}; // patch 15
-//pCodeOpReg pic16_pc_fsr0 = {{PO_FSR0, "FSR0"}, -1, NULL,0,NULL}; //deprecated !
+//pCodeOpReg pic16_pc_fsr0 = {{PO_FSR0, "FSR0"}, -1, NULL,0,NULL}; //deprecated !
-pCodeOpReg pic16_pc_fsr0l = {{PO_FSR0, "FSR0L"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_fsr0h = {{PO_FSR0, "FSR0H"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_fsr1l = {{PO_FSR0, "FSR1L"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_fsr1h = {{PO_FSR0, "FSR1H"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_fsr2l = {{PO_FSR0, "FSR2L"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_fsr2h = {{PO_FSR0, "FSR2H"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_fsr0l = {{PO_FSR0, "FSR0L"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_fsr0h = {{PO_FSR0, "FSR0H"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_fsr1l = {{PO_FSR0, "FSR1L"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_fsr1h = {{PO_FSR0, "FSR1H"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_fsr2l = {{PO_FSR0, "FSR2L"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_fsr2h = {{PO_FSR0, "FSR2H"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_indf0 = {{PO_INDF0, "INDF0"}, -1, NULL,0,NULL};
-pCodeOpReg pic16_pc_postinc0 = {{PO_INDF0, "POSTINC0"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_postdec0 = {{PO_INDF0, "POSTDEC0"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_preinc0 = {{PO_INDF0, "PREINC0"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_plusw0 = {{PO_INDF0, "PLUSW0"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_indf0 = {{PO_INDF0, "INDF0"}, -1, NULL,0,NULL};
+pCodeOpReg pic16_pc_postinc0 = {{PO_INDF0, "POSTINC0"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_postdec0 = {{PO_INDF0, "POSTDEC0"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_preinc0 = {{PO_INDF0, "PREINC0"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_plusw0 = {{PO_INDF0, "PLUSW0"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_indf1 = {{PO_INDF0, "INDF1"}, -1, NULL,0,NULL};
-pCodeOpReg pic16_pc_postinc1 = {{PO_INDF0, "POSTINC1"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_postdec1 = {{PO_INDF0, "POSTDEC1"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_preinc1 = {{PO_INDF0, "PREINC1"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_plusw1 = {{PO_INDF0, "PLUSW1"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_indf1 = {{PO_INDF0, "INDF1"}, -1, NULL,0,NULL};
+pCodeOpReg pic16_pc_postinc1 = {{PO_INDF0, "POSTINC1"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_postdec1 = {{PO_INDF0, "POSTDEC1"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_preinc1 = {{PO_INDF0, "PREINC1"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_plusw1 = {{PO_INDF0, "PLUSW1"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_indf2 = {{PO_INDF0, "INDF2"}, -1, NULL,0,NULL};
-pCodeOpReg pic16_pc_postinc2 = {{PO_INDF0, "POSTINC2"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_postdec2 = {{PO_INDF0, "POSTDEC2"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_preinc2 = {{PO_INDF0, "PREINC2"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_plusw2 = {{PO_INDF0, "PLUSW2"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_indf2 = {{PO_INDF0, "INDF2"}, -1, NULL,0,NULL};
+pCodeOpReg pic16_pc_postinc2 = {{PO_INDF0, "POSTINC2"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_postdec2 = {{PO_INDF0, "POSTDEC2"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_preinc2 = {{PO_INDF0, "PREINC2"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_plusw2 = {{PO_INDF0, "PLUSW2"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_prodl = {{PO_PRODL, "PRODL"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_prodh = {{PO_PRODH, "PRODH"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_prodl = {{PO_PRODL, "PRODL"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_prodh = {{PO_PRODH, "PRODH"}, -1, NULL, 0, NULL};
/* EEPROM registers */
-pCodeOpReg pic16_pc_eecon1 = {{PO_SFR_REGISTER, "EECON1"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_eecon2 = {{PO_SFR_REGISTER, "EECON2"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_eedata = {{PO_SFR_REGISTER, "EEDATA"}, -1, NULL, 0, NULL};
-pCodeOpReg pic16_pc_eeadr = {{PO_SFR_REGISTER, "EEADR"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_eecon1 = {{PO_SFR_REGISTER, "EECON1"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_eecon2 = {{PO_SFR_REGISTER, "EECON2"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_eedata = {{PO_SFR_REGISTER, "EEDATA"}, -1, NULL, 0, NULL};
+pCodeOpReg pic16_pc_eeadr = {{PO_SFR_REGISTER, "EEADR"}, -1, NULL, 0, NULL};
pCodeOpReg pic16_pc_kzero = {{PO_GPR_REGISTER, "KZ"}, -1, NULL,0,NULL};
pCodeOpReg pic16_pc_wsave = {{PO_GPR_REGISTER, "WSAVE"}, -1, NULL,0,NULL};
extern void pic16_RegsUnMapLiveRanges(void);
extern void pic16_BuildFlowTree(pBlock *pb);
extern void pic16_pCodeRegOptimizeRegUsage(int level);
-extern int pic16_picIsInitialized(void);
-extern void SAFE_snprintf(char **str, size_t *size, const char *format, ...);
-extern int mnem2key(unsigned char const *mnem);
/****************************************************************/
/* Forward declarations */
/****************************************************************/
pCodeInstruction pic16_pciADDWF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_REGISTER | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciADDFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciADDWFC = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER | PCC_C), // inCond
(PCC_REGISTER | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciADDFWC = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER | PCC_C), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciADDLW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_LITERAL), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciANDLW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_LITERAL), // inCond
(PCC_W | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciANDWF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_REGISTER | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciANDFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_W | PCC_Z | PCC_N) // outCond
};
pCodeInstruction pic16_pciBC = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_C), // inCond
PCC_NONE, // outCond
};
pCodeInstruction pic16_pciBCF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,1, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
+ 0, // second memory operand
0, // second literal operand
POC_BSF,
(PCC_REGISTER | PCC_EXAMINE_PCOP), // inCond
};
pCodeInstruction pic16_pciBN = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_N), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciBNC = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_C), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciBNN = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_N), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciBNOV = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_OV), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciBNZ = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_Z), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciBOV = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_OV), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciBRA = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REL_ADDR, // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciBSF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,1, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
+ 0, // second memory operand
0, // second literal operand
POC_BCF,
(PCC_REGISTER | PCC_EXAMINE_PCOP), // inCond
};
pCodeInstruction pic16_pciBTFSC = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,1, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
+ 0, // second memory operand
0, // second literal operand
POC_BTFSS,
(PCC_REGISTER | PCC_EXAMINE_PCOP), // inCond
};
pCodeInstruction pic16_pciBTFSS = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,1, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
+ 0, // second memory operand
0, // second literal operand
POC_BTFSC,
(PCC_REGISTER | PCC_EXAMINE_PCOP), // inCond
};
pCodeInstruction pic16_pciBTG = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,1, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REGISTER | PCC_EXAMINE_PCOP), // inCond
(PCC_REGISTER | PCC_EXAMINE_PCOP), // outCond
};
pCodeInstruction pic16_pciBZ = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REL_ADDR | PCC_Z), // inCond
PCC_NONE, // outCond
};
pCodeInstruction pic16_pciCALL = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
1, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE, // outCond
};
pCodeInstruction pic16_pciCOMF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_REGISTER | PCC_Z | PCC_N) , // outCond
};
pCodeInstruction pic16_pciCOMFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_W | PCC_Z | PCC_N) , // outCond
};
pCodeInstruction pic16_pciCLRF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
(PCC_REGISTER | PCC_Z), // outCond
};
pCodeInstruction pic16_pciCLRWDT = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciCPFSEQ = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciCPFSGT = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciCPFSLT = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
1,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciDAW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_W, // inCond
(PCC_W | PCC_C), // outCond
};
pCodeInstruction pic16_pciDCFSNZ = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
PCC_REGISTER , // outCond
};
pCodeInstruction pic16_pciDCFSNZW = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
PCC_W , // outCond
};
pCodeInstruction pic16_pciDECF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_REGISTER | PCC_STATUS) , // outCond
};
pCodeInstruction pic16_pciDECFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_W | PCC_STATUS) , // outCond
};
pCodeInstruction pic16_pciDECFSZ = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
PCC_REGISTER , // outCond
};
pCodeInstruction pic16_pciDECFSZW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
PCC_W , // outCond
};
pCodeInstruction pic16_pciGOTO = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeGOTO,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REL_ADDR, // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciINCF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_REGISTER | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciINCFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_W | PCC_STATUS) , // outCond
};
pCodeInstruction pic16_pciINCFSZ = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_INFSNZ,
PCC_REGISTER, // inCond
PCC_REGISTER , // outCond
};
pCodeInstruction pic16_pciINCFSZW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_INFSNZW,
PCC_REGISTER, // inCond
PCC_W , // outCond
};
pCodeInstruction pic16_pciINFSNZ = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_INCFSZ,
PCC_REGISTER, // inCond
PCC_REGISTER , // outCond
};
pCodeInstruction pic16_pciINFSNZW = { // vrokas - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeSKIP,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_INCFSZW,
PCC_REGISTER, // inCond
PCC_W , // outCond
};
pCodeInstruction pic16_pciIORWF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_REGISTER | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciIORFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_W | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciIORLW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_LITERAL), // inCond
(PCC_W | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciLFSR = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 1, // second literal operand
+ 0, // second memory operand
+ 1, // second literal operand
POC_NOP,
PCC_LITERAL, // inCond
PCC_NONE, // outCond
};
pCodeInstruction pic16_pciMOVF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciMOVFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_W | PCC_N | PCC_Z), // outCond
};
pCodeInstruction pic16_pciMOVFF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 1, // second memory operand
- 0, // second literal operand
+ 1, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
PCC_REGISTER2, // outCond
};
pCodeInstruction pic16_pciMOVLB = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_MOVLB,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_NONE | PCC_LITERAL), // inCond
PCC_REGISTER, // outCond - BSR
};
pCodeInstruction pic16_pciMOVLW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_MOVLW,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_NONE | PCC_LITERAL), // inCond
PCC_W, // outCond
};
pCodeInstruction pic16_pciMOVWF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_W, // inCond
PCC_REGISTER, // outCond
};
pCodeInstruction pic16_pciMULLW = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_MULLW,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_LITERAL), // inCond
PCC_NONE, // outCond - PROD
};
pCodeInstruction pic16_pciMULWF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_MULWF,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
PCC_REGISTER, // outCond - PROD
};
pCodeInstruction pic16_pciNEGF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_NEGF,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_REGISTER | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciNOP = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_NOP,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE, // outCond
};
pCodeInstruction pic16_pciPOP = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_POP,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciPUSH = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_PUSH,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciRCALL = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_RCALL,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REL_ADDR, // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciRETFIE = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeRETURN,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
1, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE, // outCond (not true... affects the GIE bit too)
};
pCodeInstruction pic16_pciRETLW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeRETURN,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_LITERAL, // inCond
PCC_W, // outCond
};
pCodeInstruction pic16_pciRETURN = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// AnalyzeRETURN,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
1,0, // branch, skip
0, // literal operand
0, // RAM access bit
1, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE, // outCond
PCI_MAGIC
};
pCodeInstruction pic16_pciRLCF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_C | PCC_REGISTER), // inCond
(PCC_REGISTER | PCC_C | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciRLCFW = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_C | PCC_REGISTER), // inCond
(PCC_W | PCC_C | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciRLNCF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_REGISTER | PCC_Z | PCC_N), // outCond
PCI_MAGIC
};
pCodeInstruction pic16_pciRLNCFW = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_W | PCC_Z | PCC_N), // outCond
PCI_MAGIC
};
pCodeInstruction pic16_pciRRCF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_C | PCC_REGISTER), // inCond
(PCC_REGISTER | PCC_C | PCC_Z | PCC_N), // outCond
PCI_MAGIC
};
pCodeInstruction pic16_pciRRCFW = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_C | PCC_REGISTER), // inCond
(PCC_W | PCC_C | PCC_Z | PCC_N), // outCond
PCI_MAGIC
};
pCodeInstruction pic16_pciRRNCF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_REGISTER | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciRRNCFW = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
(PCC_W | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciSETF = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_REGISTER , // outCond
};
pCodeInstruction pic16_pciSUBLW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_LITERAL), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSUBFWB = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER | PCC_C), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSUBWF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_REGISTER | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSUBFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSUBFWB_D1 = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER | PCC_C), // inCond
(PCC_REGISTER | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSUBFWB_D0 = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER | PCC_C), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSUBWFB_D1 = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER | PCC_C), // inCond
(PCC_REGISTER | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSUBWFB_D0 = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER | PCC_C), // inCond
(PCC_W | PCC_STATUS), // outCond
};
pCodeInstruction pic16_pciSWAPF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REGISTER), // inCond
(PCC_REGISTER), // outCond
};
pCodeInstruction pic16_pciSWAPFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_REGISTER), // inCond
(PCC_W), // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLRD = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLRD = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLRD,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLRD_POSTINC = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLRD_POSTINC = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLRD_POSTINC,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLRD_POSTDEC = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLRD_POSTDEC = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLRD_POSTDEC,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLRD_PREINC = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLRD_PREINC = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLRD_PREINC,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLWT = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLWT = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLWT,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLWT_POSTINC = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLWT_POSTINC = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLWT_POSTINC,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLWT_POSTDEC = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLWT_POSTDEC = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLWT_POSTDEC,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
PCI_MAGIC
};
-pCodeInstruction pic16_pciTBLWT_PREINC = { // patch 15
- {PC_OPCODE, NULL, NULL, 0, NULL,
+pCodeInstruction pic16_pciTBLWT_PREINC = { // patch 15
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_TBLWT_PREINC,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE , // outCond
};
pCodeInstruction pic16_pciTSTFSZ = { // mdubuc - New
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
2, // num ops
0,0, // dest, bit instruction
1,1, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_REGISTER, // inCond
PCC_NONE, // outCond
};
pCodeInstruction pic16_pciXORWF = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
1,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_REGISTER | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciXORFW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
3, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_REGISTER), // inCond
(PCC_W | PCC_Z | PCC_N), // outCond
};
pCodeInstruction pic16_pciXORLW = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
// genericAnalyze,
genericDestruct,
genericPrint},
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
1, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
1, // literal operand
1, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
(PCC_W | PCC_LITERAL), // inCond
(PCC_W | PCC_Z | PCC_N), // outCond
pCodeInstruction pic16_pciBANKSEL = {
- {PC_OPCODE, NULL, NULL, 0, NULL,
+ {PC_OPCODE, NULL, NULL, 0, NULL,
genericDestruct,
genericPrint},
POC_BANKSEL,
NULL, // label
NULL, // operand
NULL, // flow block
- NULL, // C source
+ NULL, // C source
0, // num ops
0,0, // dest, bit instruction
0,0, // branch, skip
0, // literal operand
0, // RAM access bit
0, // fast call/return mode select bit
- 0, // second memory operand
- 0, // second literal operand
+ 0, // second memory operand
+ 0, // second literal operand
POC_NOP,
PCC_NONE, // inCond
PCC_NONE, // outCond
#define MAX_PIC16MNEMONICS 100
pCodeInstruction *pic16Mnemonics[MAX_PIC16MNEMONICS];
-//#define USE_VSNPRINTF
-#if OPT_DISABLE_PIC
-
-#ifdef USE_VSNPRINTF
- // Alas, vsnprintf is not ANSI standard, and does not exist
- // on Solaris (and probably other non-Gnu flavored Unixes).
-
-/*-----------------------------------------------------------------*/
-/* SAFE_snprintf - like snprintf except the string pointer is */
-/* after the string has been printed to. This is */
-/* useful for printing to string as though if it */
-/* were a stream. */
-/*-----------------------------------------------------------------*/
-void SAFE_snprintf(char **str, size_t *size, const char *format, ...)
-{
- va_list val;
- int len;
-
- if(!str || !*str)
- return;
-
- va_start(val, format);
-
- vsnprintf(*str, *size, format, val);
-
- va_end (val);
-
- len = strlen(*str);
- if(len > *size) {
- fprintf(stderr,"WARNING, it looks like %s has overflowed\n",__FUNCTION__);
- fprintf(stderr,"len = %d is > str size %d\n",len,*size);
- }
-
- *str += len;
- *size -= len;
-
-}
-
-#else
-// This version is *not* safe, despite the name.
-
-void SAFE_snprintf(char **str, size_t *size, const char *format, ...)
-{
- va_list val;
- int len;
- static char buffer[1024]; /* grossly conservative, but still not inherently safe */
-
- if(!str || !*str)
- return;
-
- va_start(val, format);
-
- vsprintf(buffer, format, val);
- va_end (val);
-
- len = strlen(buffer);
- if(len > *size) {
- fprintf(stderr,"WARNING, it looks like %s has overflowed\n",__FUNCTION__);
- fprintf(stderr,"len = %d is > str size %d\n",len, (int) *size);
- }
-
- strcpy(*str, buffer);
- *str += len;
- *size -= len;
-
-}
-
-#endif // USE_VSNPRINTF
-#endif
-
extern set *externs;
-extern void pic16_initStack(int base_address, int size);
extern regs *pic16_allocProcessorRegister(int rIdx, char * name, short po_type, int alias);
extern regs *pic16_allocInternalRegister(int rIdx, char * name, short po_type, int alias);
-extern void pic16_init_pic(char *);
void pic16_pCodeInitRegisters(void)
{
static int initialized=0;
- if(initialized)
- return;
-
- initialized = 1;
-
-// pic16_initStack(0xfff, 8);
- pic16_init_pic(port->processor);
-
- pic16_pc_status.r = pic16_allocProcessorRegister(IDX_STATUS,"STATUS", PO_STATUS, 0x80);
- pic16_pc_pcl.r = pic16_allocProcessorRegister(IDX_PCL,"PCL", PO_PCL, 0x80);
- pic16_pc_pclath.r = pic16_allocProcessorRegister(IDX_PCLATH,"PCLATH", PO_PCLATH, 0x80);
- pic16_pc_pclatu.r = pic16_allocProcessorRegister(IDX_PCLATU,"PCLATU", PO_PCLATU, 0x80);
- pic16_pc_intcon.r = pic16_allocProcessorRegister(IDX_INTCON,"INTCON", PO_INTCON, 0x80);
- pic16_pc_wreg.r = pic16_allocProcessorRegister(IDX_WREG,"WREG", PO_WREG, 0x80);
- pic16_pc_bsr.r = pic16_allocProcessorRegister(IDX_BSR,"BSR", PO_BSR, 0x80);
-
- pic16_pc_tosl.r = pic16_allocProcessorRegister(IDX_TOSL,"TOSL", PO_SFR_REGISTER, 0x80);
- pic16_pc_tosh.r = pic16_allocProcessorRegister(IDX_TOSH,"TOSH", PO_SFR_REGISTER, 0x80);
- pic16_pc_tosu.r = pic16_allocProcessorRegister(IDX_TOSU,"TOSU", PO_SFR_REGISTER, 0x80);
-
- pic16_pc_tblptrl.r = pic16_allocProcessorRegister(IDX_TBLPTRL,"TBLPTRL", PO_SFR_REGISTER, 0x80);
- pic16_pc_tblptrh.r = pic16_allocProcessorRegister(IDX_TBLPTRH,"TBLPTRH", PO_SFR_REGISTER, 0x80);
- pic16_pc_tblptru.r = pic16_allocProcessorRegister(IDX_TBLPTRU,"TBLPTRU", PO_SFR_REGISTER, 0x80);
- pic16_pc_tablat.r = pic16_allocProcessorRegister(IDX_TABLAT,"TABLAT", PO_SFR_REGISTER, 0x80);
-
- pic16_pc_fsr0l.r = pic16_allocProcessorRegister(IDX_FSR0L, "FSR0L", PO_FSR0, 0x80);
- pic16_pc_fsr0h.r = pic16_allocProcessorRegister(IDX_FSR0H, "FSR0H", PO_FSR0, 0x80);
- pic16_pc_fsr1l.r = pic16_allocProcessorRegister(IDX_FSR1L, "FSR1L", PO_FSR0, 0x80);
- pic16_pc_fsr1h.r = pic16_allocProcessorRegister(IDX_FSR1H, "FSR1H", PO_FSR0, 0x80);
- pic16_pc_fsr2l.r = pic16_allocProcessorRegister(IDX_FSR2L, "FSR2L", PO_FSR0, 0x80);
- pic16_pc_fsr2h.r = pic16_allocProcessorRegister(IDX_FSR2H, "FSR2H", PO_FSR0, 0x80);
-
- pic16_stackpnt_lo = &pic16_pc_fsr1l;
- pic16_stackpnt_hi = &pic16_pc_fsr1h;
- pic16_stack_postdec = &pic16_pc_postdec1;
- pic16_stack_postinc = &pic16_pc_postinc1;
- pic16_stack_preinc = &pic16_pc_preinc1;
- pic16_stack_plusw = &pic16_pc_plusw1;
-
- pic16_framepnt_lo = &pic16_pc_fsr2l;
- pic16_framepnt_hi = &pic16_pc_fsr2h;
- pic16_frame_postdec = &pic16_pc_postdec2;
- pic16_frame_postinc = &pic16_pc_postinc2;
- pic16_frame_preinc = &pic16_pc_preinc2;
- pic16_frame_plusw = &pic16_pc_plusw2;
-
- pic16_pc_indf0.r = pic16_allocProcessorRegister(IDX_INDF0,"INDF0", PO_INDF0, 0x80);
- pic16_pc_postinc0.r = pic16_allocProcessorRegister(IDX_POSTINC0, "POSTINC0", PO_INDF0, 0x80);
- pic16_pc_postdec0.r = pic16_allocProcessorRegister(IDX_POSTDEC0, "POSTDEC0", PO_INDF0, 0x80);
- pic16_pc_preinc0.r = pic16_allocProcessorRegister(IDX_PREINC0, "PREINC0", PO_INDF0, 0x80);
- pic16_pc_plusw0.r = pic16_allocProcessorRegister(IDX_PLUSW0, "PLUSW0", PO_INDF0, 0x80);
-
- pic16_pc_indf1.r = pic16_allocProcessorRegister(IDX_INDF1,"INDF1", PO_INDF0, 0x80);
- pic16_pc_postinc1.r = pic16_allocProcessorRegister(IDX_POSTINC1, "POSTINC1", PO_INDF0, 0x80);
- pic16_pc_postdec1.r = pic16_allocProcessorRegister(IDX_POSTDEC1, "POSTDEC1", PO_INDF0, 0x80);
- pic16_pc_preinc1.r = pic16_allocProcessorRegister(IDX_PREINC1, "PREINC1", PO_INDF0, 0x80);
- pic16_pc_plusw1.r = pic16_allocProcessorRegister(IDX_PLUSW1, "PLUSW1", PO_INDF0, 0x80);
-
- pic16_pc_indf2.r = pic16_allocProcessorRegister(IDX_INDF2,"INDF2", PO_INDF0, 0x80);
- pic16_pc_postinc2.r = pic16_allocProcessorRegister(IDX_POSTINC2, "POSTINC2", PO_INDF0, 0x80);
- pic16_pc_postdec2.r = pic16_allocProcessorRegister(IDX_POSTDEC2, "POSTDEC2", PO_INDF0, 0x80);
- pic16_pc_preinc2.r = pic16_allocProcessorRegister(IDX_PREINC2, "PREINC2", PO_INDF0, 0x80);
- pic16_pc_plusw2.r = pic16_allocProcessorRegister(IDX_PLUSW2, "PLUSW2", PO_INDF0, 0x80);
-
- pic16_pc_prodl.r = pic16_allocProcessorRegister(IDX_PRODL, "PRODL", PO_PRODL, 0x80);
- pic16_pc_prodh.r = pic16_allocProcessorRegister(IDX_PRODH, "PRODH", PO_PRODH, 0x80);
-
-
- pic16_pc_eecon1.r = pic16_allocProcessorRegister(IDX_EECON1, "EECON1", PO_SFR_REGISTER, 0x80);
- pic16_pc_eecon2.r = pic16_allocProcessorRegister(IDX_EECON2, "EECON2", PO_SFR_REGISTER, 0x80);
- pic16_pc_eedata.r = pic16_allocProcessorRegister(IDX_EEDATA, "EEDATA", PO_SFR_REGISTER, 0x80);
- pic16_pc_eeadr.r = pic16_allocProcessorRegister(IDX_EEADR, "EEADR", PO_SFR_REGISTER, 0x80);
-
-
- pic16_pc_status.rIdx = IDX_STATUS;
- pic16_pc_intcon.rIdx = IDX_INTCON;
- pic16_pc_pcl.rIdx = IDX_PCL;
- pic16_pc_pclath.rIdx = IDX_PCLATH;
- pic16_pc_pclatu.rIdx = IDX_PCLATU;
- pic16_pc_wreg.rIdx = IDX_WREG;
- pic16_pc_bsr.rIdx = IDX_BSR;
-
- pic16_pc_tosl.rIdx = IDX_TOSL;
- pic16_pc_tosh.rIdx = IDX_TOSH;
- pic16_pc_tosu.rIdx = IDX_TOSU;
-
- pic16_pc_tblptrl.rIdx = IDX_TBLPTRL;
- pic16_pc_tblptrh.rIdx = IDX_TBLPTRH;
- pic16_pc_tblptru.rIdx = IDX_TBLPTRU;
- pic16_pc_tablat.rIdx = IDX_TABLAT;
-
- pic16_pc_fsr0l.rIdx = IDX_FSR0L;
- pic16_pc_fsr0h.rIdx = IDX_FSR0H;
- pic16_pc_fsr1l.rIdx = IDX_FSR1L;
- pic16_pc_fsr1h.rIdx = IDX_FSR1H;
- pic16_pc_fsr2l.rIdx = IDX_FSR2L;
- pic16_pc_fsr2h.rIdx = IDX_FSR2H;
- pic16_pc_indf0.rIdx = IDX_INDF0;
- pic16_pc_postinc0.rIdx = IDX_POSTINC0;
- pic16_pc_postdec0.rIdx = IDX_POSTDEC0;
- pic16_pc_preinc0.rIdx = IDX_PREINC0;
- pic16_pc_plusw0.rIdx = IDX_PLUSW0;
- pic16_pc_indf1.rIdx = IDX_INDF1;
- pic16_pc_postinc1.rIdx = IDX_POSTINC1;
- pic16_pc_postdec1.rIdx = IDX_POSTDEC1;
- pic16_pc_preinc1.rIdx = IDX_PREINC1;
- pic16_pc_plusw1.rIdx = IDX_PLUSW1;
- pic16_pc_indf2.rIdx = IDX_INDF2;
- pic16_pc_postinc2.rIdx = IDX_POSTINC2;
- pic16_pc_postdec2.rIdx = IDX_POSTDEC2;
- pic16_pc_preinc2.rIdx = IDX_PREINC2;
- pic16_pc_plusw2.rIdx = IDX_PLUSW2;
- pic16_pc_prodl.rIdx = IDX_PRODL;
- pic16_pc_prodh.rIdx = IDX_PRODH;
-
- pic16_pc_kzero.r = pic16_allocInternalRegister(IDX_KZ,"KZ",PO_GPR_REGISTER,0);
- pic16_pc_ssave.r = pic16_allocInternalRegister(IDX_SSAVE,"SSAVE", PO_GPR_REGISTER, 0);
- pic16_pc_wsave.r = pic16_allocInternalRegister(IDX_WSAVE,"WSAVE", PO_GPR_REGISTER, 0);
-
- pic16_pc_kzero.rIdx = IDX_KZ;
- pic16_pc_wsave.rIdx = IDX_WSAVE;
- pic16_pc_ssave.rIdx = IDX_SSAVE;
-
- pic16_pc_eecon1.rIdx = IDX_EECON1;
- pic16_pc_eecon2.rIdx = IDX_EECON2;
- pic16_pc_eedata.rIdx = IDX_EEDATA;
- pic16_pc_eeadr.rIdx = IDX_EEADR;
-
-
- pic16_pc_gpsimio.r = pic16_allocProcessorRegister(IDX_GPSIMIO, "GPSIMIO", PO_GPR_REGISTER, 0x80);
- pic16_pc_gpsimio2.r = pic16_allocProcessorRegister(IDX_GPSIMIO2, "GPSIMIO2", PO_GPR_REGISTER, 0x80);
-
- pic16_pc_gpsimio.rIdx = IDX_GPSIMIO;
- pic16_pc_gpsimio2.rIdx = IDX_GPSIMIO2;
-
- /* probably should put this in a separate initialization routine */
- pb_dead_pcodes = newpBlock();
-
-}
-
-#if OPT_DISABLE_PIC
+ if(initialized)
+ return;
+
+ initialized = 1;
+
+ pic16_pc_status.r = pic16_allocProcessorRegister(IDX_STATUS,"STATUS", PO_STATUS, 0x80);
+ pic16_pc_pcl.r = pic16_allocProcessorRegister(IDX_PCL,"PCL", PO_PCL, 0x80);
+ pic16_pc_pclath.r = pic16_allocProcessorRegister(IDX_PCLATH,"PCLATH", PO_PCLATH, 0x80);
+ pic16_pc_pclatu.r = pic16_allocProcessorRegister(IDX_PCLATU,"PCLATU", PO_PCLATU, 0x80);
+ pic16_pc_intcon.r = pic16_allocProcessorRegister(IDX_INTCON,"INTCON", PO_INTCON, 0x80);
+ pic16_pc_wreg.r = pic16_allocProcessorRegister(IDX_WREG,"WREG", PO_WREG, 0x80);
+ pic16_pc_bsr.r = pic16_allocProcessorRegister(IDX_BSR,"BSR", PO_BSR, 0x80);
+
+ pic16_pc_tosl.r = pic16_allocProcessorRegister(IDX_TOSL,"TOSL", PO_SFR_REGISTER, 0x80);
+ pic16_pc_tosh.r = pic16_allocProcessorRegister(IDX_TOSH,"TOSH", PO_SFR_REGISTER, 0x80);
+ pic16_pc_tosu.r = pic16_allocProcessorRegister(IDX_TOSU,"TOSU", PO_SFR_REGISTER, 0x80);
+
+ pic16_pc_tblptrl.r = pic16_allocProcessorRegister(IDX_TBLPTRL,"TBLPTRL", PO_SFR_REGISTER, 0x80);
+ pic16_pc_tblptrh.r = pic16_allocProcessorRegister(IDX_TBLPTRH,"TBLPTRH", PO_SFR_REGISTER, 0x80);
+ pic16_pc_tblptru.r = pic16_allocProcessorRegister(IDX_TBLPTRU,"TBLPTRU", PO_SFR_REGISTER, 0x80);
+ pic16_pc_tablat.r = pic16_allocProcessorRegister(IDX_TABLAT,"TABLAT", PO_SFR_REGISTER, 0x80);
+
+ pic16_pc_fsr0l.r = pic16_allocProcessorRegister(IDX_FSR0L, "FSR0L", PO_FSR0, 0x80);
+ pic16_pc_fsr0h.r = pic16_allocProcessorRegister(IDX_FSR0H, "FSR0H", PO_FSR0, 0x80);
+ pic16_pc_fsr1l.r = pic16_allocProcessorRegister(IDX_FSR1L, "FSR1L", PO_FSR0, 0x80);
+ pic16_pc_fsr1h.r = pic16_allocProcessorRegister(IDX_FSR1H, "FSR1H", PO_FSR0, 0x80);
+ pic16_pc_fsr2l.r = pic16_allocProcessorRegister(IDX_FSR2L, "FSR2L", PO_FSR0, 0x80);
+ pic16_pc_fsr2h.r = pic16_allocProcessorRegister(IDX_FSR2H, "FSR2H", PO_FSR0, 0x80);
+
+ pic16_stackpnt_lo = &pic16_pc_fsr1l;
+ pic16_stackpnt_hi = &pic16_pc_fsr1h;
+ pic16_stack_postdec = &pic16_pc_postdec1;
+ pic16_stack_postinc = &pic16_pc_postinc1;
+ pic16_stack_preinc = &pic16_pc_preinc1;
+ pic16_stack_plusw = &pic16_pc_plusw1;
+
+ pic16_framepnt_lo = &pic16_pc_fsr2l;
+ pic16_framepnt_hi = &pic16_pc_fsr2h;
+ pic16_frame_postdec = &pic16_pc_postdec2;
+ pic16_frame_postinc = &pic16_pc_postinc2;
+ pic16_frame_preinc = &pic16_pc_preinc2;
+ pic16_frame_plusw = &pic16_pc_plusw2;
+
+ pic16_pc_indf0.r = pic16_allocProcessorRegister(IDX_INDF0,"INDF0", PO_INDF0, 0x80);
+ pic16_pc_postinc0.r = pic16_allocProcessorRegister(IDX_POSTINC0, "POSTINC0", PO_INDF0, 0x80);
+ pic16_pc_postdec0.r = pic16_allocProcessorRegister(IDX_POSTDEC0, "POSTDEC0", PO_INDF0, 0x80);
+ pic16_pc_preinc0.r = pic16_allocProcessorRegister(IDX_PREINC0, "PREINC0", PO_INDF0, 0x80);
+ pic16_pc_plusw0.r = pic16_allocProcessorRegister(IDX_PLUSW0, "PLUSW0", PO_INDF0, 0x80);
+
+ pic16_pc_indf1.r = pic16_allocProcessorRegister(IDX_INDF1,"INDF1", PO_INDF0, 0x80);
+ pic16_pc_postinc1.r = pic16_allocProcessorRegister(IDX_POSTINC1, "POSTINC1", PO_INDF0, 0x80);
+ pic16_pc_postdec1.r = pic16_allocProcessorRegister(IDX_POSTDEC1, "POSTDEC1", PO_INDF0, 0x80);
+ pic16_pc_preinc1.r = pic16_allocProcessorRegister(IDX_PREINC1, "PREINC1", PO_INDF0, 0x80);
+ pic16_pc_plusw1.r = pic16_allocProcessorRegister(IDX_PLUSW1, "PLUSW1", PO_INDF0, 0x80);
+
+ pic16_pc_indf2.r = pic16_allocProcessorRegister(IDX_INDF2,"INDF2", PO_INDF0, 0x80);
+ pic16_pc_postinc2.r = pic16_allocProcessorRegister(IDX_POSTINC2, "POSTINC2", PO_INDF0, 0x80);
+ pic16_pc_postdec2.r = pic16_allocProcessorRegister(IDX_POSTDEC2, "POSTDEC2", PO_INDF0, 0x80);
+ pic16_pc_preinc2.r = pic16_allocProcessorRegister(IDX_PREINC2, "PREINC2", PO_INDF0, 0x80);
+ pic16_pc_plusw2.r = pic16_allocProcessorRegister(IDX_PLUSW2, "PLUSW2", PO_INDF0, 0x80);
+
+ pic16_pc_prodl.r = pic16_allocProcessorRegister(IDX_PRODL, "PRODL", PO_PRODL, 0x80);
+ pic16_pc_prodh.r = pic16_allocProcessorRegister(IDX_PRODH, "PRODH", PO_PRODH, 0x80);
+
+
+ pic16_pc_eecon1.r = pic16_allocProcessorRegister(IDX_EECON1, "EECON1", PO_SFR_REGISTER, 0x80);
+ pic16_pc_eecon2.r = pic16_allocProcessorRegister(IDX_EECON2, "EECON2", PO_SFR_REGISTER, 0x80);
+ pic16_pc_eedata.r = pic16_allocProcessorRegister(IDX_EEDATA, "EEDATA", PO_SFR_REGISTER, 0x80);
+ pic16_pc_eeadr.r = pic16_allocProcessorRegister(IDX_EEADR, "EEADR", PO_SFR_REGISTER, 0x80);
+
+
+ pic16_pc_status.rIdx = IDX_STATUS;
+ pic16_pc_intcon.rIdx = IDX_INTCON;
+ pic16_pc_pcl.rIdx = IDX_PCL;
+ pic16_pc_pclath.rIdx = IDX_PCLATH;
+ pic16_pc_pclatu.rIdx = IDX_PCLATU;
+ pic16_pc_wreg.rIdx = IDX_WREG;
+ pic16_pc_bsr.rIdx = IDX_BSR;
+
+ pic16_pc_tosl.rIdx = IDX_TOSL;
+ pic16_pc_tosh.rIdx = IDX_TOSH;
+ pic16_pc_tosu.rIdx = IDX_TOSU;
+
+ pic16_pc_tblptrl.rIdx = IDX_TBLPTRL;
+ pic16_pc_tblptrh.rIdx = IDX_TBLPTRH;
+ pic16_pc_tblptru.rIdx = IDX_TBLPTRU;
+ pic16_pc_tablat.rIdx = IDX_TABLAT;
+
+ pic16_pc_fsr0l.rIdx = IDX_FSR0L;
+ pic16_pc_fsr0h.rIdx = IDX_FSR0H;
+ pic16_pc_fsr1l.rIdx = IDX_FSR1L;
+ pic16_pc_fsr1h.rIdx = IDX_FSR1H;
+ pic16_pc_fsr2l.rIdx = IDX_FSR2L;
+ pic16_pc_fsr2h.rIdx = IDX_FSR2H;
+ pic16_pc_indf0.rIdx = IDX_INDF0;
+ pic16_pc_postinc0.rIdx = IDX_POSTINC0;
+ pic16_pc_postdec0.rIdx = IDX_POSTDEC0;
+ pic16_pc_preinc0.rIdx = IDX_PREINC0;
+ pic16_pc_plusw0.rIdx = IDX_PLUSW0;
+ pic16_pc_indf1.rIdx = IDX_INDF1;
+ pic16_pc_postinc1.rIdx = IDX_POSTINC1;
+ pic16_pc_postdec1.rIdx = IDX_POSTDEC1;
+ pic16_pc_preinc1.rIdx = IDX_PREINC1;
+ pic16_pc_plusw1.rIdx = IDX_PLUSW1;
+ pic16_pc_indf2.rIdx = IDX_INDF2;
+ pic16_pc_postinc2.rIdx = IDX_POSTINC2;
+ pic16_pc_postdec2.rIdx = IDX_POSTDEC2;
+ pic16_pc_preinc2.rIdx = IDX_PREINC2;
+ pic16_pc_plusw2.rIdx = IDX_PLUSW2;
+ pic16_pc_prodl.rIdx = IDX_PRODL;
+ pic16_pc_prodh.rIdx = IDX_PRODH;
+
+ pic16_pc_kzero.r = pic16_allocInternalRegister(IDX_KZ,"KZ",PO_GPR_REGISTER,0);
+ pic16_pc_ssave.r = pic16_allocInternalRegister(IDX_SSAVE,"SSAVE", PO_GPR_REGISTER, 0);
+ pic16_pc_wsave.r = pic16_allocInternalRegister(IDX_WSAVE,"WSAVE", PO_GPR_REGISTER, 0);
+
+ pic16_pc_kzero.rIdx = IDX_KZ;
+ pic16_pc_wsave.rIdx = IDX_WSAVE;
+ pic16_pc_ssave.rIdx = IDX_SSAVE;
+
+ pic16_pc_eecon1.rIdx = IDX_EECON1;
+ pic16_pc_eecon2.rIdx = IDX_EECON2;
+ pic16_pc_eedata.rIdx = IDX_EEDATA;
+ pic16_pc_eeadr.rIdx = IDX_EEADR;
+
+
+ pic16_pc_gpsimio.r = pic16_allocProcessorRegister(IDX_GPSIMIO, "GPSIMIO", PO_GPR_REGISTER, 0x80);
+ pic16_pc_gpsimio2.r = pic16_allocProcessorRegister(IDX_GPSIMIO2, "GPSIMIO2", PO_GPR_REGISTER, 0x80);
+
+ pic16_pc_gpsimio.rIdx = IDX_GPSIMIO;
+ pic16_pc_gpsimio2.rIdx = IDX_GPSIMIO2;
+
+ /* probably should put this in a separate initialization routine */
+ pb_dead_pcodes = newpBlock();
+
+}
+
/*-----------------------------------------------------------------*/
/* mnem2key - convert a pic mnemonic into a hash key */
/* (BTW - this spreads the mnemonics quite well) */
/* */
/*-----------------------------------------------------------------*/
-int mnem2key(unsigned char const *mnem)
+static int mnem2key(unsigned char const *mnem)
{
int key = 0;
return (key & 0x1f);
}
-#endif
void pic16initMnemonics(void)
{
for(i=0; i<MAX_PIC16MNEMONICS; i++)
if(pic16Mnemonics[i])
- hTabAddItem(&pic16MnemonicsHash, mnem2key(pic16Mnemonics[i]->mnemonic), pic16Mnemonics[i]);
+ hTabAddItem(&pic16MnemonicsHash, mnem2key((const unsigned char *)pic16Mnemonics[i]->mnemonic), pic16Mnemonics[i]);
pci = hTabFirstItem(pic16MnemonicsHash, &key);
while(pci) {
{
pCodeInstruction *pci;
- int key = mnem2key(mnem);
+ int key = mnem2key((unsigned char *)mnem);
if(!mnemonics_initialized)
pic16initMnemonics();
if(STRCASECMP(pci->mnemonic, mnem) == 0) {
if((pci->num_ops <= 1)
- || (pci->isModReg == dest)
- || (pci->isBitInst)
- || (pci->num_ops <= 2 && pci->isAccess)
- || (pci->num_ops <= 2 && pci->isFastCall)
- || (pci->num_ops <= 2 && pci->is2MemOp)
- || (pci->num_ops <= 2 && pci->is2LitOp) )
- return(pci->op);
+ || (pci->isModReg == dest)
+ || (pci->isBitInst)
+ || (pci->num_ops <= 2 && pci->isAccess)
+ || (pci->num_ops <= 2 && pci->isFastCall)
+ || (pci->num_ops <= 2 && pci->is2MemOp)
+ || (pci->num_ops <= 2 && pci->is2LitOp) )
+ return(pci->op);
}
pci = hTabNextItemWK (pic16MnemonicsHash);
-
+
}
return -1;
i = 0;
do {
- hTabAddItem(&pic16pCodePeepCommandsHash,
- mnem2key(peepCommands[i].cmd), &peepCommands[i]);
+ hTabAddItem(&pic16pCodePeepCommandsHash,
+ mnem2key((const unsigned char *)peepCommands[i].cmd), &peepCommands[i]);
i++;
} while (peepCommands[i].cmd);
{
peepCommand *pcmd;
- int key = mnem2key(cmd);
+ int key = mnem2key((unsigned char *)cmd);
pcmd = hTabFirstItemWK(pic16pCodePeepCommandsHash, key);
}
pcmd = hTabNextItemWK (pic16pCodePeepCommandsHash);
-
+
}
return -1;
}
void pic16_pBlockConvert2ISR(pBlock *pb)
{
- if(!pb)return;
+ if(!pb)return;
- if(pb->cmemmap)pb->cmemmap = NULL;
+ if(pb->cmemmap)pb->cmemmap = NULL;
- pb->dbName = 'I';
+ pb->dbName = 'I';
- if(pic16_pcode_verbose)
- fprintf(stderr, "%s:%d converting to 'I'interrupt pBlock\n", __FILE__, __LINE__);
+ if(pic16_pcode_verbose)
+ fprintf(stderr, "%s:%d converting to 'I'interrupt pBlock\n", __FILE__, __LINE__);
}
void pic16_pBlockConvert2Absolute(pBlock *pb)
{
- if(!pb)return;
- if(pb->cmemmap)pb->cmemmap = NULL;
-
- pb->dbName = 'A';
-
- if(pic16_pcode_verbose)
- fprintf(stderr, "%s:%d converting to 'A'bsolute pBlock\n", __FILE__, __LINE__);
+ if(!pb)return;
+ if(pb->cmemmap)pb->cmemmap = NULL;
+
+ pb->dbName = 'A';
+
+ if(pic16_pcode_verbose)
+ fprintf(stderr, "%s:%d converting to 'A'bsolute pBlock\n", __FILE__, __LINE__);
}
-
+
/*-----------------------------------------------------------------*/
/* pic16_movepBlock2Head - given the dbname of a pBlock, move all */
/* instances to the front of the doubly linked */
the_pFile->pbHead = pb;
if(pb->prev)
- pb->prev->next = pbn;
+ pb->prev->next = pbn;
// If the pBlock that we just moved was the last
// one in the link of all of the pBlocks, then we
// need to point the tail to the block just before
// the one we moved.
- // Note: if pb->next is NULL, then pb must have
+ // Note: if pb->next is NULL, then pb must have
// been the last pBlock in the chain.
if(pbn)
- pbn->prev = pb->prev;
+ pbn->prev = pb->prev;
else
- the_pFile->pbTail = pb->prev;
+ the_pFile->pbTail = pb->prev;
pb = pbn;
{
pBlock *pb;
- if(!of || !the_pFile)
- return;
+ if(!of || !the_pFile)
+ return;
- for(pb = the_pFile->pbHead; pb; pb = pb->next) {
- if(getpBlock_dbName(pb) == dbName) {
-// fprintf(stderr, "%s:%d: output of pb= 0x%p\n", __FILE__, __LINE__, pb);
- pBlockStats(of,pb);
- pic16_printpBlock(of,pb);
- }
- }
+ for(pb = the_pFile->pbHead; pb; pb = pb->next) {
+ if(getpBlock_dbName(pb) == dbName) {
+// fprintf(stderr, "%s:%d: output of pb= 0x%p\n", __FILE__, __LINE__, pb);
+ pBlockStats(of,pb);
+ pic16_printpBlock(of,pb);
+ }
+ }
}
void pic16_pcode_test(void)
for(pb = the_pFile->pbHead; pb; pb = pb->next) {
fprintf(pFile,"\n\tNew pBlock\n\n");
if(pb->cmemmap)
- fprintf(pFile,"%s",pb->cmemmap->sname);
+ fprintf(pFile,"%s",pb->cmemmap->sname);
else
- fprintf(pFile,"internal pblock");
+ fprintf(pFile,"internal pblock");
fprintf(pFile,", dbName =%c\n",getpBlock_dbName(pb));
pic16_printpBlock(pFile,pb);
unsigned long isize=0;
if(!the_pFile)return -1;
-
+
for(pb = the_pFile->pbHead; pb; pb = pb->next) {
for(pc = pb->pcHead; pc; pc = pc->next) {
if(isPCI(pc) || isPCAD(pc))isize += PCI(pc)->isize;
case PIC_C_BIT:
return PCC_C;
case PIC_DC_BIT:
- return PCC_DC;
+ return PCC_DC;
case PIC_Z_BIT:
return PCC_Z;
}
return 0;
}
+
/*-----------------------------------------------------------------*/
/* pic16_newpCode - create and return a newly initialized pCode */
/* */
if(!mnemonics_initialized)
pic16initMnemonics();
-
+
pci = Safe_calloc(1, sizeof(pCodeInstruction));
if((op>=0) && (op < MAX_PIC16MNEMONICS) && pic16Mnemonics[op]) {
exit(1);
return NULL;
-}
+}
/*-----------------------------------------------------------------*/
/* pic16_newpCodeWild - create a "wild" as in wild card pCode */
{
pCodeWild *pcw;
-
+
pcw = Safe_calloc(1,sizeof(pCodeWild));
pcw->pci.pc.type = PC_WILD;
pcw->invertBitSkipInst = 0;
return ( (pCode *)pcw);
-
+
}
/*-----------------------------------------------------------------*/
{
pCodeComment *pcc ;
-
+
pcc = Safe_calloc(1,sizeof(pCodeComment));
pcc->pc.type = PC_INLINE;
{
pCodeComment *pcc ;
-
+
pcc = Safe_calloc(1,sizeof(pCodeComment));
pcc->pc.type = PC_COMMENT;
pcf->ncalled = 0;
pcf->absblock = 0;
-
+
if(mod) {
pcf->modname = Safe_calloc(1,strlen(mod)+1);
strcpy(pcf->modname,mod);
/* pic16_newpCodeCSource - create a new pCode Source Symbol */
/*-----------------------------------------------------------------*/
-pCode *pic16_newpCodeCSource(int ln, char *f, char *l)
+pCode *pic16_newpCodeCSource(int ln, const char *f, const char *l)
{
pCodeCSource *pccs;
-
+
pccs = Safe_calloc(1,sizeof(pCodeCSource));
pccs->pc.type = PC_CSOURCE;
/*******************************************************************/
/* pic16_newpCodeAsmDir - create a new pCode Assembler Directive */
-/* added by VR 6-Jun-2003 */
+/* added by VR 6-Jun-2003 */
/*******************************************************************/
pCode *pic16_newpCodeAsmDir(char *asdir, char *argfmt, ...)
va_list ap;
char buffer[512];
char *lbp=buffer;
-
- pcad = Safe_calloc(1, sizeof(pCodeAsmDir));
- pcad->pci.pc.type = PC_ASMDIR;
- pcad->pci.pc.prev = pcad->pci.pc.next = NULL;
- pcad->pci.pc.pb = NULL;
- pcad->pci.isize = 2;
- pcad->pci.pc.destruct = genericDestruct;
- pcad->pci.pc.print = genericPrint;
-
- if(asdir && *asdir) {
-
- while(isspace((unsigned char)*asdir))asdir++; // strip any white space from the beginning
-
- pcad->directive = Safe_strdup( asdir );
- }
-
- va_start(ap, argfmt);
-
- memset(buffer, 0, sizeof(buffer));
- if(argfmt && *argfmt)
- vsprintf(buffer, argfmt, ap);
-
- va_end(ap);
-
- while(isspace((unsigned char)*lbp))lbp++;
-
- if(lbp && *lbp)
- pcad->arg = Safe_strdup( lbp );
+
+ pcad = Safe_calloc(1, sizeof(pCodeAsmDir));
+ pcad->pci.pc.type = PC_ASMDIR;
+ pcad->pci.pc.prev = pcad->pci.pc.next = NULL;
+ pcad->pci.pc.pb = NULL;
+ pcad->pci.isize = 2;
+ pcad->pci.pc.destruct = genericDestruct;
+ pcad->pci.pc.print = genericPrint;
+
+ if(asdir && *asdir) {
+
+ while(isspace((unsigned char)*asdir))asdir++; // strip any white space from the beginning
+
+ pcad->directive = Safe_strdup( asdir );
+ }
+
+ va_start(ap, argfmt);
+
+ memset(buffer, 0, sizeof(buffer));
+ if(argfmt && *argfmt)
+ vsprintf(buffer, argfmt, ap);
+
+ va_end(ap);
+
+ while(isspace((unsigned char)*lbp))lbp++;
+
+ if(lbp && *lbp)
+ pcad->arg = Safe_strdup( lbp );
return ((pCode *)pcad);
}
if(!pc)
return;
+ pic16_unlinkpCode(pc);
+
// if((pc->type == PC_LABEL) && PCL(pc)->label)
// Safe_free(PCL(pc)->label);
char *s = buffer;
pCodeLabel *pcl;
-
+
pcl = Safe_calloc(1,sizeof(pCodeLabel) );
pcl->pc.type = PC_LABEL;
pcl->key = key;
pcl->force = 0;
-
+
pcl->label = NULL;
if(key>0) {
sprintf(s,"_%05d_DS_",key);
pcl->label = Safe_strdup(s);
// if(pic16_pcode_verbose)
-// fprintf(stderr, "%s:%d label name: %s\n", __FILE__, __LINE__, pcl->label);
+// fprintf(stderr, "%s:%d label name: %s\n", __FILE__, __LINE__, pcl->label);
return ( (pCode *)pcl);
pCode *pic16_newpCodeLabelFORCE(char *name, int key)
{
pCodeLabel *pcl = (pCodeLabel *)pic16_newpCodeLabel(name, key);
-
- pcl->force = 1;
-
+
+ pcl->force = 1;
+
return ( (pCode *)pcl );
}
pci->pci.pc.prev = pci->pci.pc.next = NULL;
pci->pci.pc.pb = NULL;
pci->pci.label = NULL;
-
+
pci->pci.pc.destruct = genericDestruct;
pci->pci.pc.print = genericPrint;
-
+
pci->type = type;
pci->oper1 = pcop;
-
+
return ((pCode *)pci);
}
if(key>0)
sprintf(s=buffer,"_%05d_DS_",key);
- else
+ else
s = name, key = label_key--;
if(s)
sprintf(s,"0x%02hhx", (unsigned char)lit);
//else
// sprintf(s, "%i", lit);
-
+
+ if(s)
+ pcop->name = Safe_strdup(s);
+
+ ((pCodeOpLit *)pcop)->lit = lit;
+
+ return pcop;
+}
+
+/* Allow for 12 bit literals, required for LFSR */
+pCodeOp *pic16_newpCodeOpLit12(int lit)
+{
+ char *s = buffer;
+ pCodeOp *pcop;
+
+
+ pcop = Safe_calloc(1,sizeof(pCodeOpLit) );
+ pcop->type = PO_LITERAL;
+
+ pcop->name = NULL;
+ //if(lit>=0)
+ sprintf(s,"0x%03x", ((unsigned int)lit) & 0x0fff);
+ //else
+ // sprintf(s, "%i", lit);
+
if(s)
pcop->name = Safe_strdup(s);
{
pCodeOp *pcop;
- pcop = Safe_calloc(1,sizeof(pCodeOpImmd) );
- pcop->type = PO_IMMEDIATE;
- if(name) {
- regs *r = pic16_dirregWithName(name);
- pcop->name = Safe_strdup(name);
- PCOI(pcop)->r = r;
-
- if(r) {
-// fprintf(stderr, "%s:%d %s reg %s exists (r: %p)\n",__FILE__, __LINE__, __FUNCTION__, name, r);
- PCOI(pcop)->rIdx = r->rIdx;
- } else {
-// fprintf(stderr, "%s:%d %s reg %s doesn't exist\n", __FILE__, __LINE__, __FUNCTION__, name);
- PCOI(pcop)->rIdx = -1;
- }
-// fprintf(stderr,"%s %s %d\n",__FUNCTION__,name,offset);
- } else {
- pcop->name = NULL;
- }
-
- PCOI(pcop)->index = index;
- PCOI(pcop)->offset = offset;
- PCOI(pcop)->_const = code_space;
+ pcop = Safe_calloc(1,sizeof(pCodeOpImmd) );
+ pcop->type = PO_IMMEDIATE;
+ if(name) {
+ regs *r = pic16_dirregWithName(name);
+ pcop->name = Safe_strdup(name);
+ PCOI(pcop)->r = r;
+
+ if(r) {
+// fprintf(stderr, "%s:%d %s reg %s exists (r: %p)\n",__FILE__, __LINE__, __FUNCTION__, name, r);
+ PCOI(pcop)->rIdx = r->rIdx;
+ } else {
+// fprintf(stderr, "%s:%d %s reg %s doesn't exist\n", __FILE__, __LINE__, __FUNCTION__, name);
+ PCOI(pcop)->rIdx = -1;
+ }
+// fprintf(stderr,"%s %s %d\n",__FUNCTION__,name,offset);
+ } else {
+ pcop->name = NULL;
+ PCOI(pcop)->rIdx = -1;
+ }
+
+ PCOI(pcop)->index = index;
+ PCOI(pcop)->offset = offset;
+ PCOI(pcop)->_const = code_space;
return pcop;
}
PCOW(pcop)->matched = NULL;
PCOW(pcop)->pcop2 = NULL;
-
+
return pcop;
}
pCodeOp *pcop;
- if(!pcwb || !subtype || !subtype2) {
- fprintf(stderr, "Wild opcode declaration error: %s-%d\n",__FILE__,__LINE__);
- exit(1);
- }
+ if(!pcwb || !subtype || !subtype2) {
+ fprintf(stderr, "Wild opcode declaration error: %s-%d\n",__FILE__,__LINE__);
+ exit(1);
+ }
+
+ pcop = Safe_calloc(1,sizeof(pCodeOpWild));
+ pcop->type = PO_WILD;
+ sprintf(s,"%%%d",id);
+ pcop->name = Safe_strdup(s);
- pcop = Safe_calloc(1,sizeof(pCodeOpWild));
- pcop->type = PO_WILD;
- sprintf(s,"%%%d",id);
- pcop->name = Safe_strdup(s);
+ PCOW(pcop)->id = id;
+ PCOW(pcop)->pcwb = pcwb;
+ PCOW(pcop)->subtype = subtype;
+ PCOW(pcop)->matched = NULL;
- PCOW(pcop)->id = id;
- PCOW(pcop)->pcwb = pcwb;
- PCOW(pcop)->subtype = subtype;
- PCOW(pcop)->matched = NULL;
+ PCOW(pcop)->pcop2 = Safe_calloc(1, sizeof(pCodeOpWild));
- PCOW(pcop)->pcop2 = Safe_calloc(1, sizeof(pCodeOpWild));
+ if(!subtype2->name) {
+ PCOW(pcop)->pcop2 = Safe_calloc(1, sizeof(pCodeOpWild));
+ PCOW2(pcop)->pcop.type = PO_WILD;
+ sprintf(s, "%%%d", id2);
+ PCOW2(pcop)->pcop.name = Safe_strdup(s);
+ PCOW2(pcop)->id = id2;
+ PCOW2(pcop)->subtype = subtype2;
- if(!subtype2->name) {
- PCOW(pcop)->pcop2 = Safe_calloc(1, sizeof(pCodeOpWild));
- PCOW2(pcop)->pcop.type = PO_WILD;
- sprintf(s, "%%%d", id2);
- PCOW2(pcop)->pcop.name = Safe_strdup(s);
- PCOW2(pcop)->id = id2;
- PCOW2(pcop)->subtype = subtype2;
+// fprintf(stderr, "%s:%d %s [wild,wild] for name: %s (%d)\tname2: %s (%d)\n", __FILE__, __LINE__, __FUNCTION__,
+// pcop->name, id, PCOW2(pcop)->pcop.name, id2);
+ } else {
+ PCOW2(pcop)->pcop2 = pic16_pCodeOpCopy( subtype2 );
-// fprintf(stderr, "%s:%d %s [wild,wild] for name: %s (%d)\tname2: %s (%d)\n", __FILE__, __LINE__, __FUNCTION__,
-// pcop->name, id, PCOW2(pcop)->pcop.name, id2);
- } else {
- PCOW2(pcop)->pcop2 = pic16_pCodeOpCopy( subtype2 );
+// fprintf(stderr, "%s:%d %s [wild,str] for name: %s (%d)\tname2: %s (%d)\n", __FILE__, __LINE__, __FUNCTION__,
+// pcop->name, id, PCOW2(pcop)->pcop.name, id2);
+ }
-// fprintf(stderr, "%s:%d %s [wild,str] for name: %s (%d)\tname2: %s (%d)\n", __FILE__, __LINE__, __FUNCTION__,
-// pcop->name, id, PCOW2(pcop)->pcop.name, id2);
- }
-
return pcop;
pCodeOp *pic16_newpCodeOpBit(char *s, int bit, int inBitSpace, PIC_OPTYPE subt)
{
pCodeOp *pcop;
-
+
pcop = Safe_calloc(1,sizeof(pCodeOpRegBit) );
pcop->type = PO_GPR_BIT;
if(s)
- pcop->name = Safe_strdup(s);
+ pcop->name = Safe_strdup(s);
else
pcop->name = NULL;
PCORB(pcop)->subtype = subt;
/* pCodeOpBit is derived from pCodeOpReg. We need to init this too */
- PCOR(pcop)->r = pic16_regWithName(s); //NULL;
+ PCOR(pcop)->r = pic16_regWithName(s); //NULL;
// fprintf(stderr, "%s:%d %s for reg: %s\treg= %p\n", __FILE__, __LINE__, __FUNCTION__, s, PCOR(pcop)->r);
// PCOR(pcop)->rIdx = 0;
return pcop;
pCodeOp *pic16_newpCodeOpBit_simple (struct asmop *op, int offs, int bit)
{
return pic16_newpCodeOpBit (pic16_aopGet(op,offs,FALSE,FALSE),
- bit, 0, PO_GPR_REGISTER);
+ bit, 0, PO_GPR_REGISTER);
}
pcop->name = NULL;
if(rIdx >= 0) {
- r = pic16_regWithIdx(rIdx);
- if(!r)
- r = pic16_allocWithIdx(rIdx);
+ r = pic16_regWithIdx(rIdx);
+ if(!r)
+ r = pic16_allocWithIdx(rIdx);
} else {
r = pic16_findFreeReg(REG_GPR);
if(!r) {
- fprintf(stderr, "%s:%d Could not find a free GPR register\n",
- __FUNCTION__, __LINE__);
- exit(-1);
+ fprintf(stderr, "%s:%d Could not find a free GPR register\n",
+ __FUNCTION__, __LINE__);
+ exit(EXIT_FAILURE);
}
}
{
pCodeOp *pcop;
regs *r;
-
+
pcop = Safe_calloc(1, sizeof(pCodeOpReg));
pcop->name = NULL;
-
+
r = pic16_findFreeReg(REG_GPR);
while(r) {
pcop->type = r->pc_type;
return (pcop);
}
-
+
r = pic16_findFreeRegNext(REG_GPR, r);
}
-
+
return NULL;
}
-
+
pCodeOp *pic16_newpCodeOpRegFromStr(char *name)
{
pCodeOp *pcop;
regs *r;
- pcop = Safe_calloc(1,sizeof(pCodeOpReg) );
- PCOR(pcop)->r = r = pic16_allocRegByName(name, 1, NULL);
- PCOR(pcop)->rIdx = PCOR(pcop)->r->rIdx;
- pcop->type = PCOR(pcop)->r->pc_type;
- pcop->name = PCOR(pcop)->r->name;
+ pcop = Safe_calloc(1,sizeof(pCodeOpReg) );
+ PCOR(pcop)->r = r = pic16_allocRegByName(name, 1, NULL);
+ PCOR(pcop)->rIdx = PCOR(pcop)->r->rIdx;
+ pcop->type = PCOR(pcop)->r->pc_type;
+ pcop->name = PCOR(pcop)->r->name;
-// if(pic16_pcode_verbose) {
-// fprintf(stderr, "%s:%d %s allocates register %s rIdx:0x%02x\n",
-// __FILE__, __LINE__, __FUNCTION__, r->name, r->rIdx);
-// }
+// if(pic16_pcode_verbose) {
+// fprintf(stderr, "%s:%d %s allocates register %s rIdx:0x%02x\n",
+// __FILE__, __LINE__, __FUNCTION__, r->name, r->rIdx);
+// }
return pcop;
}
{
pCodeOpOpt *pcop;
- pcop = Safe_calloc(1, sizeof(pCodeOpOpt));
-
- pcop->type = type;
- pcop->key = Safe_strdup( key );
+ pcop = Safe_calloc(1, sizeof(pCodeOpOpt));
+
+ pcop->type = type;
+ pcop->key = Safe_strdup( key );
return (PCOP(pcop));
}
{
pCodeOpLocalReg *pcop;
- pcop = Safe_calloc(1, sizeof(pCodeOpLocalReg));
-
- pcop->type = type;
+ pcop = Safe_calloc(1, sizeof(pCodeOpLocalReg));
+
+ pcop->type = type;
return (PCOP(pcop));
}
pcop = pic16_newpCodeOpReg(-1);
break;
+ case PO_TWO_OPS:
+ assert( !"Cannot create PO_TWO_OPS from string!" );
+ pcop = NULL;
+ break;
+
default:
pcop = Safe_calloc(1,sizeof(pCodeOp) );
pcop->type = type;
if(name)
- pcop->name = Safe_strdup(name);
+ pcop->name = Safe_strdup(name);
else
pcop->name = NULL;
}
return pcop;
}
+pCodeOp *pic16_newpCodeOp2(pCodeOp *src, pCodeOp *dst)
+{
+ pCodeOp2 *pcop2 = Safe_calloc(1, sizeof(pCodeOp2));
+ pcop2->pcop.type = PO_TWO_OPS;
+ pcop2->pcopL = src;
+ pcop2->pcopR = dst;
+ return PCOP(pcop2);
+}
+
/* This is a multiple of two as gpasm pads DB directives to even length,
* thus the data would be interleaved with \0 bytes...
* This is a multiple of three in order to have arrays of 3-byte pointers
* continuously in memory (without 0-padding at the lines' end).
* This is rather 12 than 6 in order not to split up 4-byte data types
* in arrays right in the middle of a 4-byte word. */
-#define DB_ITEMS_PER_LINE 12
+#define DB_ITEMS_PER_LINE 12
typedef struct DBdata
{
/*-----------------------------------------------------------------*/
void pic16_initDB(void)
{
- DBd_init = -1;
+ DBd_init = -1;
}
/*-----------------------------------------------------------------*/
void pic16_flushDB(char ptype, void *p)
{
- if (DBd.count>0) {
- if(ptype == 'p')
- pic16_addpCode2pBlock(((pBlock *)p),pic16_newpCodeAsmDir("DB", "%s", DBd.buffer));
- else
- if(ptype == 'f')
- fprintf(((FILE *)p), "\tdb\t%s\n", DBd.buffer);
+ if (DBd.count>0) {
+ if(ptype == 'p')
+ pic16_addpCode2pBlock(((pBlock *)p),pic16_newpCodeAsmDir("DB", "%s", DBd.buffer));
+ else
+ if(ptype == 'f')
+ fprintf(((FILE *)p), "\tdb\t%s\n", DBd.buffer);
else {
- /* sanity check */
- fprintf(stderr, "PIC16 port error: could not emit initial value data\n");
+ /* sanity check */
+ fprintf(stderr, "PIC16 port error: could not emit initial value data\n");
}
- DBd.count = 0;
- DBd.buffer[0] = '\0';
- }
+ DBd.count = 0;
+ DBd.buffer[0] = '\0';
+ }
}
/*-----------------------------------------------------------------*/
/* Add "DB" directives to a pBlock */
/*-----------------------------------------------------------------*/
-void pic16_emitDB(char c, char ptype, void *p)
+void pic16_emitDB(int c, char ptype, void *p)
{
int l;
- if (DBd_init<0) {
- // we need to initialize
- DBd_init = 0;
- DBd.count = 0;
- DBd.buffer[0] = '\0';
- }
+ if (DBd_init<0) {
+ // we need to initialize
+ DBd_init = 0;
+ DBd.count = 0;
+ DBd.buffer[0] = '\0';
+ }
+
+ l = strlen(DBd.buffer);
+ sprintf(DBd.buffer+l,"%s0x%02x", (DBd.count>0?", ":""), c & 0xff);
- l = strlen(DBd.buffer);
- sprintf(DBd.buffer+l,"%s0x%02x", (DBd.count>0?", ":""), c & 0xff);
+// fprintf(stderr, "%s:%d DBbuffer: '%s'\n", __FILE__, __LINE__, DBd.buffer);
-// fprintf(stderr, "%s:%d DBbuffer: '%s'\n", __FILE__, __LINE__, DBd.buffer);
-
- DBd.count++;
- if (DBd.count>= DB_ITEMS_PER_LINE)
- pic16_flushDB(ptype, p);
+ DBd.count++;
+ if (DBd.count>= DB_ITEMS_PER_LINE)
+ pic16_flushDB(ptype, p);
}
void pic16_emitDS(char *s, char ptype, void *p)
{
int l;
- if (DBd_init<0) {
- // we need to initialize
- DBd_init = 0;
- DBd.count = 0;
- DBd.buffer[0] = '\0';
- }
+ if (DBd_init<0) {
+ // we need to initialize
+ DBd_init = 0;
+ DBd.count = 0;
+ DBd.buffer[0] = '\0';
+ }
- l = strlen(DBd.buffer);
- sprintf(DBd.buffer+l,"%s%s", (DBd.count>0?", ":""), s);
+ l = strlen(DBd.buffer);
+ sprintf(DBd.buffer+l,"%s%s", (DBd.count>0?", ":""), s);
-// fprintf(stderr, "%s:%d DBbuffer: '%s'\n", __FILE__, __LINE__, DBd.buffer);
+// fprintf(stderr, "%s:%d DBbuffer: '%s'\n", __FILE__, __LINE__, DBd.buffer);
- DBd.count++; //=strlen(s);
- if (DBd.count>=DB_ITEMS_PER_LINE)
- pic16_flushDB(ptype, p);
+ DBd.count++; //=strlen(s);
+ if (DBd.count>=DB_ITEMS_PER_LINE)
+ pic16_flushDB(ptype, p);
}
/*-----------------------------------------------------------------*/
/*-----------------------------------------------------------------*/
-void pic16_pCodeConstString(char *name, char *value)
+void pic16_pCodeConstString(char *name, char *value, unsigned length)
{
pBlock *pb;
char *item;
// pic16_addpCode2pBlock(pb,pic16_newpCodeCharP(buffer));
pic16_addpCode2pBlock(pb,pic16_newpCodeLabel(name,-1));
- do {
- pic16_emitDB(*value, 'p', (void *)pb);
- }while (*value++);
+ while (length--)
+ pic16_emitDB(*value++, 'p', (void *)pb);
+
pic16_flushDB('p', (void *)pb);
}
if(pbs == pb) {
if(pbs == the_pFile->pbHead)
- the_pFile->pbHead = pbs->next;
+ the_pFile->pbHead = pbs->next;
- if (pbs == the_pFile->pbTail)
- the_pFile->pbTail = pbs->prev;
+ if (pbs == the_pFile->pbTail)
+ the_pFile->pbTail = pbs->prev;
if(pbs->next)
- pbs->next->prev = pbs->prev;
+ pbs->next->prev = pbs->prev;
if(pbs->prev)
- pbs->prev->next = pbs->next;
+ pbs->prev->next = pbs->next;
return;
{
pCode *pc;
- if(!pb)return;
+ if(!pb)return;
- if(!of)of=stderr;
+ if(!of)of=stderr;
- for(pc = pb->pcHead; pc; pc = pc->next) {
- if(isPCF(pc) && PCF(pc)->fname) {
- fprintf(of, "S_%s_%s\tcode", PCF(pc)->modname, PCF(pc)->fname);
- if(pb->dbName == 'A') {
- absSym *ab;
- for(ab=setFirstItem(absSymSet); ab; ab=setNextItem(absSymSet)) {
-// fprintf(stderr, "%s:%d testing %s <-> %s\n", __FILE__, __LINE__, PCF(pc)->fname, ab->name);
- if(!strcmp(ab->name, PCF(pc)->fname)) {
-// fprintf(stderr, "%s:%d address = %x\n", __FILE__, __LINE__, ab->address);
+ for(pc = pb->pcHead; pc; pc = pc->next) {
+ if(isPCF(pc) && PCF(pc)->fname) {
+ fprintf(of, "S_%s_%s\tcode", PCF(pc)->modname, PCF(pc)->fname);
+ if(pb->dbName == 'A') {
+ absSym *ab;
+ for(ab=setFirstItem(absSymSet); ab; ab=setNextItem(absSymSet)) {
+// fprintf(stderr, "%s:%d testing %s <-> %s\n", __FILE__, __LINE__, PCF(pc)->fname, ab->name);
+ if(!strcmp(ab->name, PCF(pc)->fname)) {
+// fprintf(stderr, "%s:%d address = %x\n", __FILE__, __LINE__, ab->address);
if(ab->address != -1)
fprintf(of, "\t0X%06X", ab->address);
- break;
- }
- }
- }
- fprintf(of, "\n");
- }
- printpCode(of,pc);
- }
+ break;
+ }
+ }
+ }
+ fprintf(of, "\n");
+ }
+ printpCode(of,pc);
+ }
}
/*-----------------------------------------------------------------*/
fprintf(stderr,"Unlinking: ");
printpCode(stderr, pc);
#endif
- if(pc->prev)
+ if(pc->prev) {
pc->prev->next = pc->next;
- if(pc->next)
+ } else if (pc->pb && (pc->pb->pcHead == pc)) {
+ pc->pb->pcHead = pc->next;
+ }
+ if(pc->next) {
pc->next->prev = pc->prev;
+ } else if (pc->pb && (pc->pb->pcTail == pc)) {
+ pc->pb->pcTail = pc->prev;
+ }
/* move C source line down (or up) */
if (isPCI(pc) && PCI(pc)->cline) {
if(reg)
deleteSetItem (&(reg->reglives.usedpCodes),pc);
- if(PCI(pc)->is2MemOp) {
- reg = pic16_getRegFromInstruction2(pc);
- if(reg)
- deleteSetItem(&(reg->reglives.usedpCodes), pc);
- }
+ if(PCI(pc)->is2MemOp) {
+ reg = pic16_getRegFromInstruction2(pc);
+ if(reg)
+ deleteSetItem(&(reg->reglives.usedpCodes), pc);
+ }
}
/* Instead of deleting the memory used by this pCode, mark
char *pic16_get_op(pCodeOp *pcop,char *buffer, size_t size)
{
- regs *r;
- static char b[128];
- char *s;
- int use_buffer = 1; // copy the string to the passed buffer pointer
-
- if(!buffer) {
- buffer = b;
- size = sizeof(b);
- use_buffer = 0; // Don't bother copying the string to the buffer.
- }
-
- if(pcop) {
- switch(pcop->type) {
- case PO_W:
- case PO_WREG:
- case PO_PRODL:
- case PO_PRODH:
- case PO_INDF0:
- case PO_FSR0:
- if(use_buffer) {
- SAFE_snprintf(&buffer,&size,"%s",PCOR(pcop)->r->name);
- return buffer;
- }
- return PCOR(pcop)->r->name;
- break;
- case PO_GPR_TEMP:
- r = pic16_regWithIdx(PCOR(pcop)->r->rIdx);
- if(use_buffer) {
- SAFE_snprintf(&buffer,&size,"%s",r->name);
- return buffer;
- }
- return r->name;
-
- case PO_IMMEDIATE:
- s = buffer;
- if(PCOI(pcop)->offset && PCOI(pcop)->offset<4) {
- if(PCOI(pcop)->index) {
- SAFE_snprintf(&s,&size, "%s(%s + %d)",
- immdmod[ PCOI(pcop)->offset ],
- pcop->name,
- PCOI(pcop)->index);
- } else {
- SAFE_snprintf(&s,&size,"%s(%s)",
- immdmod[ PCOI(pcop)->offset ],
- pcop->name);
- }
- } else {
- if(PCOI(pcop)->index) {
- SAFE_snprintf(&s,&size, "%s(%s + %d)",
- immdmod[ 0 ],
- pcop->name,
- PCOI(pcop)->index);
- } else {
- SAFE_snprintf(&s,&size, "%s(%s)",
- immdmod[ 0 ],
- pcop->name);
- }
- }
- return buffer;
-
- case PO_GPR_REGISTER:
- case PO_DIR:
- s = buffer;
-// size = sizeof(buffer);
- if( PCOR(pcop)->instance) {
- SAFE_snprintf(&s,&size,"(%s + %d)",
- pcop->name,
- PCOR(pcop)->instance );
- } else {
- SAFE_snprintf(&s,&size,"%s",pcop->name);
- }
- return buffer;
- case PO_GPR_BIT:
- s = buffer;
- if(PCORB(pcop)->subtype == PO_GPR_TEMP) {
- SAFE_snprintf(&s, &size, "%s", pcop->name);
- } else {
- if(PCORB(pcop)->pcor.instance)
- SAFE_snprintf(&s, &size, "(%s + %d)", pcop->name, PCORB(pcop)->pcor.instance);
- else
- SAFE_snprintf(&s, &size, "%s", pcop->name);
- }
-
- return (buffer);
- default:
- if(pcop->name) {
- if(use_buffer) {
- SAFE_snprintf(&buffer,&size,"%s",pcop->name);
- return buffer;
- }
- return pcop->name;
- }
-
- }
- }
-
- return "NO operand1";
+ regs *r;
+ static char b[128];
+ char *s;
+ int use_buffer = 1; // copy the string to the passed buffer pointer
+
+ if(!buffer) {
+ buffer = b;
+ size = sizeof(b);
+ use_buffer = 0; // Don't bother copying the string to the buffer.
+ }
+
+ if(pcop) {
+
+ switch(pcop->type) {
+ case PO_W:
+ case PO_WREG:
+ case PO_PRODL:
+ case PO_PRODH:
+ case PO_INDF0:
+ case PO_FSR0:
+ if(use_buffer) {
+ SNPRINTF(buffer,size,"%s",PCOR(pcop)->r->name);
+ return (buffer);
+ }
+ return (PCOR(pcop)->r->name);
+ break;
+ case PO_GPR_TEMP:
+ r = pic16_regWithIdx(PCOR(pcop)->r->rIdx);
+ if(use_buffer) {
+ SNPRINTF(buffer,size,"%s",r->name);
+ return (buffer);
+ }
+ return (r->name);
+ break;
+
+ case PO_IMMEDIATE:
+ s = buffer;
+ if(PCOI(pcop)->offset && PCOI(pcop)->offset<4) {
+ if(PCOI(pcop)->index) {
+ SNPRINTF(s,size, "%s(%s + %d)",
+ immdmod[ PCOI(pcop)->offset ],
+ pcop->name,
+ PCOI(pcop)->index);
+ } else {
+ SNPRINTF(s,size,"%s(%s)",
+ immdmod[ PCOI(pcop)->offset ],
+ pcop->name);
+ }
+ } else {
+ if(PCOI(pcop)->index) {
+ SNPRINTF(s,size, "%s(%s + %d)",
+ immdmod[ 0 ],
+ pcop->name,
+ PCOI(pcop)->index);
+ } else {
+ SNPRINTF(s,size, "%s(%s)",
+ immdmod[ 0 ],
+ pcop->name);
+ }
+ }
+ return (buffer);
+ break;
+
+ case PO_GPR_REGISTER:
+ case PO_DIR:
+ s = buffer;
+ //size = sizeof(buffer);
+ if( PCOR(pcop)->instance) {
+ SNPRINTF(s,size,"(%s + %d)",
+ pcop->name,
+ PCOR(pcop)->instance );
+ } else {
+ SNPRINTF(s,size,"%s",pcop->name);
+ }
+ return (buffer);
+ break;
+
+ case PO_GPR_BIT:
+ s = buffer;
+ if(PCORB(pcop)->subtype == PO_GPR_TEMP) {
+ SNPRINTF(s, size, "%s", pcop->name);
+ } else {
+ if(PCORB(pcop)->pcor.instance)
+ SNPRINTF(s, size, "(%s + %d)", pcop->name, PCORB(pcop)->pcor.instance);
+ else
+ SNPRINTF(s, size, "%s", pcop->name);
+ }
+ return (buffer);
+ break;
+
+ case PO_TWO_OPS:
+ return (pic16_get_op( PCOP2(pcop)->pcopL, use_buffer ? buffer : NULL, size ));
+ break;
+
+ default:
+ if(pcop->name) {
+ if(use_buffer) {
+ SNPRINTF(buffer,size,"%s",pcop->name);
+ return (buffer);
+ }
+ return (pcop->name);
+ }
+
+ }
+ return ("unhandled type for op1");
+ }
+
+ return ("NO operand1");
}
/*-----------------------------------------------------------------*/
/*-----------------------------------------------------------------*/
char *pic16_get_op2(pCodeOp *pcop,char *buffer, size_t size)
{
- regs *r;
- static char b[128];
- char *s;
- int use_buffer = 1; // copy the string to the passed buffer pointer
-
- if(!buffer) {
- buffer = b;
- size = sizeof(b);
- use_buffer = 0; // Don't bother copying the string to the buffer.
- }
-#if 0
- fprintf(stderr, "%s:%d second operand %s is %d\tPO_DIR(%d) PO_GPR_TEMP(%d) PO_IMMEDIATE(%d) PO_INDF0(%d) PO_FSR0(%d)\n",
- __FUNCTION__, __LINE__, PCOR(PCOR2(pcop)->pcop2)->r->name, PCOR2(pcop)->pcop2->type,
- PO_DIR, PO_GPR_TEMP, PO_IMMEDIATE, PO_INDF0, PO_FSR0);
-#endif
-
- if(pcop) {
- switch(PCOR2(pcop)->pcop2->type) {
- case PO_W:
- case PO_WREG:
- case PO_PRODL:
- case PO_PRODH:
- case PO_INDF0:
- case PO_FSR0:
- if(use_buffer) {
- SAFE_snprintf(&buffer,&size,"%s",PCOR(PCOR2(pcop)->pcop2)->r->name);
- return buffer;
- }
- return PCOR(PCOR2(pcop)->pcop2)->r->name;
- break;
- case PO_GPR_TEMP:
- r = pic16_regWithIdx(PCOR(PCOR2(pcop)->pcop2)->r->rIdx);
-
- if(use_buffer) {
- SAFE_snprintf(&buffer,&size,"%s",r->name);
- return buffer;
- }
- return r->name;
-
- case PO_IMMEDIATE:
- assert( 0 );
- break;
-#if 0
- s = buffer;
-
- if(PCOI(pcop)->_const) {
- if( PCOI(pcop)->offset && PCOI(pcop)->offset<4) {
- SAFE_snprintf(&s,&size,"(((%s+%d) >> %d)&0xff)",
- pcop->name,
- PCOI(pcop)->index,
- 8 * PCOI(pcop)->offset );
- } else
- SAFE_snprintf(&s,&size,"LOW(%s+%d)",pcop->name,PCOI(pcop)->index);
- } else {
- if( PCOI(pcop)->index) {
- SAFE_snprintf(&s,&size,"(%s + %d)",
- pcop->name,
- PCOI(pcop)->index );
- } else {
- if(PCOI(pcop)->offset)
- SAFE_snprintf(&s,&size,"(%s >> %d)&0xff",pcop->name, 8*PCOI(pcop)->offset);
- else
- SAFE_snprintf(&s,&size,"%s",pcop->name);
- }
- }
- return buffer;
-#endif
- case PO_DIR:
- s = buffer;
- if( PCOR(PCOR2(pcop)->pcop2)->instance) {
- SAFE_snprintf(&s,&size,"(%s + %d)",
- PCOR(PCOR2(pcop)->pcop2)->r->name,
- PCOR(PCOR2(pcop)->pcop2)->instance );
- } else {
- SAFE_snprintf(&s,&size,"%s",PCOR(PCOR2(pcop)->pcop2)->r->name);
- }
- return buffer;
-
- default:
- if(PCOR(PCOR2(pcop)->pcop2)->r->name) {
- if(use_buffer) {
- SAFE_snprintf(&buffer,&size,"%s",PCOR(PCOR2(pcop)->pcop2)->r->name);
- return buffer;
- }
- return PCOR(PCOR2(pcop)->pcop2)->r->name;
- }
- }
- }
+ if(pcop && pcop->type == PO_TWO_OPS) {
+ return pic16_get_op( PCOP2(pcop)->pcopR, buffer, size );
+ }
return "NO operand2";
}
if(pcc )
return pic16_get_op(pcc->pcop,NULL,0);
- /* gcc 3.2: warning: concatenation of string literals with __FUNCTION__ is deprecated
+ /* gcc 3.2: warning: concatenation of string literals with __FUNCTION__ is deprecated
* return ("ERROR Null: "__FUNCTION__);
*/
return ("ERROR Null: pic16_get_op_from_instruction");
/*-----------------------------------------------------------------*/
char *pic16_pCode2str(char *str, size_t size, pCode *pc)
{
- char *s = str;
- regs *r;
+ char *s = str;
+ regs *r;
#if 0
- if(isPCI(pc) && (PCI(pc)->pci_magic != PCI_MAGIC)) {
- fprintf(stderr, "%s:%d: pCodeInstruction initialization error in instruction %s, magic is %x (defaut: %x)\n",
- __FILE__, __LINE__, PCI(pc)->mnemonic, PCI(pc)->pci_magic, PCI_MAGIC);
-// exit(-1);
- }
+ if(isPCI(pc) && (PCI(pc)->pci_magic != PCI_MAGIC)) {
+ fprintf(stderr, "%s:%d: pCodeInstruction initialization error in instruction %s, magic is %x (defaut: %x)\n",
+ __FILE__, __LINE__, PCI(pc)->mnemonic, PCI(pc)->pci_magic, PCI_MAGIC);
+ // exit(EXIT_FAILURE);
+ }
#endif
- switch(pc->type) {
+ switch(pc->type) {
+
+ case PC_OPCODE:
+ SNPRINTF(s, size, "\t%s\t", PCI(pc)->mnemonic);
+ size -= strlen(s);
+ s += strlen(s);
+
+ if( (PCI(pc)->num_ops >= 1) && (PCI(pc)->pcop)) {
+
+ if (PCI(pc)->pcop->type == PO_TWO_OPS)
+ {
+ /* split into two phases due to static buffer in pic16_get_op() */
+ SNPRINTF(s, size, "%s",
+ pic16_get_op((PCI(pc)->pcop), NULL, 0));
+ size -= strlen(s);
+ s += strlen(s);
+ SNPRINTF(s, size, ", %s",
+ pic16_get_op2((PCI(pc)->pcop), NULL, 0));
+ break;
+ }
- case PC_OPCODE:
- SAFE_snprintf(&s,&size, "\t%s\t", PCI(pc)->mnemonic);
-
- if( (PCI(pc)->num_ops >= 1) && (PCI(pc)->pcop)) {
-
- if(PCI(pc)->is2MemOp) {
- SAFE_snprintf(&s,&size, "%s, %s",
- pic16_get_op(PCOP(PCI(pc)->pcop), NULL, 0),
- pic16_get_op2(PCOP(PCI(pc)->pcop), NULL, 0));
- break;
- }
-
- if(PCI(pc)->is2LitOp) {
- SAFE_snprintf(&s,&size, "%s", PCOP(PCI(pc)->pcop)->name);
- break;
- }
-
- if(PCI(pc)->isBitInst) {
- if(PCI(pc)->pcop->type != PO_GPR_BIT) {
- if( (((pCodeOpRegBit *)(PCI(pc)->pcop))->inBitSpace) )
- SAFE_snprintf(&s,&size,"(%s >> 3), (%s & 7)",
- PCI(pc)->pcop->name ,
- PCI(pc)->pcop->name );
- else
- SAFE_snprintf(&s,&size,"%s,%d", pic16_get_op_from_instruction(PCI(pc)),
-// (((pCodeOpRegBit *)(PCI(pc)->pcop))->pcor.instance),
- (((pCodeOpRegBit *)(PCI(pc)->pcop))->bit ));
-
- } else if(PCI(pc)->pcop->type == PO_GPR_BIT) {
- SAFE_snprintf(&s,&size,"%s, %d", pic16_get_op_from_instruction(PCI(pc)),PCORB(PCI(pc)->pcop)->bit);
- } else
- SAFE_snprintf(&s,&size,"%s,0 ; ?bug", pic16_get_op_from_instruction(PCI(pc)));
- //PCI(pc)->pcop->t.bit );
- } else {
+ if(PCI(pc)->is2LitOp) {
+ SNPRINTF(s,size, "%s", PCOP(PCI(pc)->pcop)->name);
+ break;
+ }
- if(PCI(pc)->pcop->type == PO_GPR_BIT) {
- if( PCI(pc)->num_ops == 3)
- SAFE_snprintf(&s,&size,"(%s >> 3),%c",pic16_get_op_from_instruction(PCI(pc)),((PCI(pc)->isModReg) ? 'F':'W'));
- else
- SAFE_snprintf(&s,&size,"(1 << (%s & 7))",pic16_get_op_from_instruction(PCI(pc)));
+ if(PCI(pc)->isBitInst) {
+ if(PCI(pc)->pcop->type != PO_GPR_BIT) {
+ if( (((pCodeOpRegBit *)(PCI(pc)->pcop))->inBitSpace) )
+ SNPRINTF(s,size,"(%s >> 3), (%s & 7)",
+ PCI(pc)->pcop->name ,
+ PCI(pc)->pcop->name );
+ else
+ SNPRINTF(s,size,"%s,%d", pic16_get_op_from_instruction(PCI(pc)),
+ (((pCodeOpRegBit *)(PCI(pc)->pcop))->bit ));
+
+ } else if(PCI(pc)->pcop->type == PO_GPR_BIT) {
+ SNPRINTF(s,size,"%s, %d", pic16_get_op_from_instruction(PCI(pc)),PCORB(PCI(pc)->pcop)->bit);
+ } else
+ SNPRINTF(s,size,"%s,0 ; ?bug", pic16_get_op_from_instruction(PCI(pc)));
+ } else {
+
+ if(PCI(pc)->pcop->type == PO_GPR_BIT) {
+ if( PCI(pc)->num_ops == 3)
+ SNPRINTF(s,size,"(%s >> 3),%c",pic16_get_op_from_instruction(PCI(pc)),((PCI(pc)->isModReg) ? 'F':'W'));
+ else
+ SNPRINTF(s,size,"(1 << (%s & 7))",pic16_get_op_from_instruction(PCI(pc)));
+ } else {
+ SNPRINTF(s,size,"%s", pic16_get_op_from_instruction(PCI(pc)));
+ }
+ }
- }
- else
- {
- SAFE_snprintf(&s,&size,"%s", pic16_get_op_from_instruction(PCI(pc)));
- }
- }
- if( PCI(pc)->num_ops == 3 || ((PCI(pc)->num_ops == 2) && (PCI(pc)->isAccess))) {
- if(PCI(pc)->num_ops == 3 && !PCI(pc)->isBitInst)
- SAFE_snprintf(&s,&size,", %c", ( (PCI(pc)->isModReg) ? 'F':'W'));
-
- r = pic16_getRegFromInstruction(pc);
-// fprintf(stderr, "%s:%d reg = %p\tname= %s, accessBank= %d\n",
-// __FUNCTION__, __LINE__, r, (r)?r->name:"<null>", (r)?r->accessBank:-1);
-
- if(PCI(pc)->isAccess) {
- static char *bank_spec[2][2] = {
- { "", ", ACCESS" }, /* gpasm uses access bank by default */
- { ", B", ", BANKED" }/* MPASM (should) use BANKED by default */
- };
-
- SAFE_snprintf(&s,&size,"%s", bank_spec[(r && !r->accessBank) ? 1 : 0][pic16_mplab_comp ? 1 : 0]);
- }
- }
-//
+ if( PCI(pc)->num_ops == 3 || ((PCI(pc)->num_ops == 2) && (PCI(pc)->isAccess))) {
+ size -= strlen(s);
+ s += strlen(s);
+ if(PCI(pc)->num_ops == 3 && !PCI(pc)->isBitInst) {
+ SNPRINTF(s,size,", %c", ( (PCI(pc)->isModReg) ? 'F':'W'));
+ size -= strlen(s);
+ s += strlen(s);
+ }
+
+ r = pic16_getRegFromInstruction(pc);
+
+ if(PCI(pc)->isAccess) {
+ static char *bank_spec[2][2] = {
+ { "", ", ACCESS" }, /* gpasm uses access bank by default */
+ { ", B", ", BANKED" }/* MPASM (should) use BANKED by default */
+ };
+
+ SNPRINTF(s,size,"%s", bank_spec[(r && !isACCESS_BANK(r)) ? 1 : 0][pic16_mplab_comp ? 1 : 0]);
+ }
+ }
+ }
+ break;
+
+ case PC_COMMENT:
+ /* assuming that comment ends with a \n */
+ SNPRINTF(s,size,";%s", ((pCodeComment *)pc)->comment);
+ break;
+
+ case PC_INFO:
+ SNPRINTF(s,size,"; info ==>");
+ size -= strlen(s);
+ s += strlen(s);
+ switch( PCINF(pc)->type ) {
+ case INF_OPTIMIZATION:
+ SNPRINTF(s,size, " [optimization] %s\n", OPT_TYPE_STR[ PCOO(PCINF(pc)->oper1)->type ]);
+ break;
+ case INF_LOCALREGS:
+ SNPRINTF(s,size, " [localregs] %s\n", LR_TYPE_STR[ PCOLR(PCINF(pc)->oper1)->type ]);
+ break;
+ }; break;
+
+ case PC_INLINE:
+ /* assuming that inline code ends with a \n */
+ SNPRINTF(s,size,"%s", ((pCodeComment *)pc)->comment);
+ break;
+
+ case PC_LABEL:
+ SNPRINTF(s,size,";label=%s, key=%d\n",PCL(pc)->label,PCL(pc)->key);
+ break;
+ case PC_FUNCTION:
+ SNPRINTF(s,size,";modname=%s,function=%s: id=%d\n",PCF(pc)->modname,PCF(pc)->fname);
+ break;
+ case PC_WILD:
+ SNPRINTF(s,size,";\tWild opcode: id=%d\n",PCW(pc)->id);
+ break;
+ case PC_FLOW:
+ SNPRINTF(s,size,";\t--FLOW change\n");
+ break;
+ case PC_CSOURCE:
+ SNPRINTF(s,size,"%s\t.line\t%d; %s\t%s\n", ((pic16_mplab_comp || !options.debug)?";":""),
+ PCCS(pc)->line_number, PCCS(pc)->file_name, PCCS(pc)->line);
+ break;
+ case PC_ASMDIR:
+ if(PCAD(pc)->directive) {
+ SNPRINTF(s,size,"\t%s%s%s\n", PCAD(pc)->directive, PCAD(pc)->arg?"\t":"", PCAD(pc)->arg?PCAD(pc)->arg:"");
+ } else
+ if(PCAD(pc)->arg) {
+ /* special case to handle inline labels without a tab */
+ SNPRINTF(s,size,"%s\n", PCAD(pc)->arg);
+ }
+ break;
+ case PC_BAD:
+ SNPRINTF(s,size,";A bad pCode is being used\n");
+ break;
}
- break;
-
- case PC_COMMENT:
- /* assuming that comment ends with a \n */
- SAFE_snprintf(&s,&size,";%s", ((pCodeComment *)pc)->comment);
- break;
-
- case PC_INFO:
- SAFE_snprintf(&s,&size,"; info ==>");
- switch( PCINF(pc)->type ) {
- case INF_OPTIMIZATION:
- SAFE_snprintf(&s,&size, " [optimization] %s\n", OPT_TYPE_STR[ PCOO(PCINF(pc)->oper1)->type ]);
- break;
- case INF_LOCALREGS:
- SAFE_snprintf(&s,&size, " [localregs] %s\n", LR_TYPE_STR[ PCOLR(PCINF(pc)->oper1)->type ]);
- break;
- }; break;
-
- case PC_INLINE:
- /* assuming that inline code ends with a \n */
- SAFE_snprintf(&s,&size,"%s", ((pCodeComment *)pc)->comment);
- break;
-
- case PC_LABEL:
- SAFE_snprintf(&s,&size,";label=%s, key=%d\n",PCL(pc)->label,PCL(pc)->key);
- break;
- case PC_FUNCTION:
- SAFE_snprintf(&s,&size,";modname=%s,function=%s: id=%d\n",PCF(pc)->modname,PCF(pc)->fname);
- break;
- case PC_WILD:
- SAFE_snprintf(&s,&size,";\tWild opcode: id=%d\n",PCW(pc)->id);
- break;
- case PC_FLOW:
- SAFE_snprintf(&s,&size,";\t--FLOW change\n");
- break;
- case PC_CSOURCE:
-// SAFE_snprintf(&s,&size,";#CSRC\t%s %d\t%s\n", PCCS(pc)->file_name, PCCS(pc)->line_number, PCCS(pc)->line);
- SAFE_snprintf(&s,&size,"%s\t.line\t%d; %s\t%s\n", ((pic16_mplab_comp || !options.debug)?";":""),
- PCCS(pc)->line_number, PCCS(pc)->file_name, PCCS(pc)->line);
- break;
- case PC_ASMDIR:
- if(PCAD(pc)->directive) {
- SAFE_snprintf(&s,&size,"\t%s%s%s\n", PCAD(pc)->directive, PCAD(pc)->arg?"\t":"", PCAD(pc)->arg?PCAD(pc)->arg:"");
- } else
- if(PCAD(pc)->arg) {
- /* special case to handle inline labels without a tab */
- SAFE_snprintf(&s,&size,"%s\n", PCAD(pc)->arg);
- }
- break;
-
- case PC_BAD:
- SAFE_snprintf(&s,&size,";A bad pCode is being used\n");
- break;
- }
-
- return str;
+ return str;
}
/*-----------------------------------------------------------------*/
pbl = pbl->next;
}
}
-
+
if(pic16_pcode_verbose) {
fprintf(of, "; info ==>");
switch(((pCodeInfo *)pc)->type) {
- case INF_OPTIMIZATION:
- fprintf(of, " [optimization] %s\n", OPT_TYPE_STR[ PCOO(PCINF(pc)->oper1)->type ]);
+ case INF_OPTIMIZATION:
+ fprintf(of, " [optimization] %s\n", OPT_TYPE_STR[ PCOO(PCINF(pc)->oper1)->type ]);
break;
case INF_LOCALREGS:
fprintf(of, " [localregs] %s\n", LR_TYPE_STR[ PCOLR(PCINF(pc)->oper1)->type ]);
break;
}
};
-
+
break;
case PC_INLINE:
{
pBranch *pbl = PCI(pc)->label;
while(pbl && pbl->pc) {
- if(pbl->pc->type == PC_LABEL)
- pCodePrintLabel(of, pbl->pc);
- pbl = pbl->next;
+ if(pbl->pc->type == PC_LABEL)
+ pCodePrintLabel(of, pbl->pc);
+ pbl = pbl->next;
}
}
- if(PCI(pc)->cline)
+ if(PCI(pc)->cline)
genericPrint(of,PCODE(PCI(pc)->cline));
{
char str[256];
-
+
pic16_pCode2str(str, 256, pc);
fprintf(of,"%s",str);
/* Debug */
if(pic16_debug_verbose) {
- fprintf(of, "\t;key=%03x",pc->seq);
- if(PCI(pc)->pcflow)
- fprintf(of,", flow seq=%03x",PCI(pc)->pcflow->pc.seq);
+ fprintf(of, "\t;key=%03x",pc->seq);
+ if(PCI(pc)->pcflow)
+ fprintf(of,", flow seq=%03x",PCI(pc)->pcflow->pc.seq);
}
}
fprintf(of, "\n");
break;
-
+
case PC_WILD:
fprintf(of,";\tWild opcode: id=%d\n",PCW(pc)->id);
if(PCW(pc)->pci.label)
if(pic16_debug_verbose) {
fprintf(of,";<>Start of new flow, seq=0x%x",pc->seq);
if(PCFL(pc)->ancestor)
- fprintf(of," ancestor = 0x%x", PCODE(PCFL(pc)->ancestor)->seq);
+ fprintf(of," ancestor = 0x%x", PCODE(PCFL(pc)->ancestor)->seq);
fprintf(of,"\n");
}
case PC_CSOURCE:
// fprintf(of,";#CSRC\t%s %d\t\t%s\n", PCCS(pc)->file_name, PCCS(pc)->line_number, PCCS(pc)->line);
fprintf(of,"%s\t.line\t%d; %s\t%s\n", ((pic16_mplab_comp || !options.debug)?";":""),
- PCCS(pc)->line_number, PCCS(pc)->file_name, PCCS(pc)->line);
-
+ PCCS(pc)->line_number, PCCS(pc)->file_name, PCCS(pc)->line);
+
break;
case PC_ASMDIR:
- {
- pBranch *pbl = PCAD(pc)->pci.label;
- while(pbl && pbl->pc) {
- if(pbl->pc->type == PC_LABEL)
- pCodePrintLabel(of, pbl->pc);
- pbl = pbl->next;
- }
- }
- if(PCAD(pc)->directive) {
- fprintf(of, "\t%s%s%s\n", PCAD(pc)->directive, PCAD(pc)->arg?"\t":"", PCAD(pc)->arg?PCAD(pc)->arg:"");
- } else
- if(PCAD(pc)->arg) {
- /* special case to handle inline labels without tab */
- fprintf(of, "%s\n", PCAD(pc)->arg);
- }
- break;
-
+ {
+ pBranch *pbl = PCAD(pc)->pci.label;
+ while(pbl && pbl->pc) {
+ if(pbl->pc->type == PC_LABEL)
+ pCodePrintLabel(of, pbl->pc);
+ pbl = pbl->next;
+ }
+ }
+ if(PCAD(pc)->directive) {
+ fprintf(of, "\t%s%s%s\n", PCAD(pc)->directive, PCAD(pc)->arg?"\t":"", PCAD(pc)->arg?PCAD(pc)->arg:"");
+ } else
+ if(PCAD(pc)->arg) {
+ /* special case to handle inline labels without tab */
+ fprintf(of, "%s\n", PCAD(pc)->arg);
+ }
+ break;
+
case PC_LABEL:
default:
fprintf(of,"unknown pCode type %d\n",pc->type);
return;
#if 0
- if( ((pCodeFunction *)pc)->modname)
+ if( ((pCodeFunction *)pc)->modname)
fprintf(of,"F_%s",((pCodeFunction *)pc)->modname);
#endif
int i=0;
fprintf(of,"%s:", PCF(pc)->fname);
-
+
if(pic16_pcode_verbose)
fprintf(of, "\t;Function start");
-
+
fprintf(of, "\n");
-
+
while(exits) {
i++;
exits = exits->next;
if(pic16_pcode_verbose)
fprintf(of,"; %d exit point%c\n",i, ((i==1) ? ' ':'s'));
-
+
} else {
- if((PCF(pc)->from &&
- PCF(pc)->from->pc->type == PC_FUNCTION &&
- PCF(PCF(pc)->from->pc)->fname) ) {
-
- if(pic16_pcode_verbose)
- fprintf(of,"; exit point of %s\n",PCF(PCF(pc)->from->pc)->fname);
- } else {
- if(pic16_pcode_verbose)
- fprintf(of,"; exit point [can't find entry point]\n");
- }
- fprintf(of, "\n");
+ if((PCF(pc)->from &&
+ PCF(pc)->from->pc->type == PC_FUNCTION &&
+ PCF(PCF(pc)->from->pc)->fname) ) {
+
+ if(pic16_pcode_verbose)
+ fprintf(of,"; exit point of %s\n",PCF(PCF(pc)->from->pc)->fname);
+ } else {
+ if(pic16_pcode_verbose)
+ fprintf(of,"; exit point [can't find entry point]\n");
+ }
+ fprintf(of, "\n");
}
}
}
if(!pc || !of)
return;
- if(PCL(pc)->label)
+ if(PCL(pc)->label)
fprintf(of,"%s:\n",PCL(pc)->label);
- else if (PCL(pc)->key >=0)
+ else if (PCL(pc)->key >=0)
fprintf(of,"_%05d_DS_:\n",PCL(pc)->key);
else
fprintf(of,";wild card label: id=%d\n",-PCL(pc)->key);
/* Found a label */
if(bprev) {
- bprev->next = b->next; /* Not first pCode in chain */
-// Safe_free(b);
+ bprev->next = b->next; /* Not first pCode in chain */
+// Safe_free(b);
} else {
- pc->destruct(pc);
- PCI(pcl)->label = b->next; /* First pCode in chain */
-// Safe_free(b);
+ pc->destruct(pc);
+ PCI(pcl)->label = b->next; /* First pCode in chain */
+// Safe_free(b);
}
return; /* A label can't occur more than once */
}
b->next = n;
return h;
-
-}
+
+}
/*-----------------------------------------------------------------*/
/* pBranchLink - given two pcodes, this function will link them */
/* together through their pBranches */
b->next = NULL;
t->from = pic16_pBranchAppend(t->from,b);
-
+
}
#if 1
pBranch *pb1,*pb2;
pCode *pc1;
- if(!pc->prev || !pc->next) {
- fprintf(stderr,"unlinking bad pCode in %s:%d\n",__FILE__,__LINE__);
- exit(1);
- }
-
- /* move C source line down (or up) */
- if (isPCI(pc) && PCI(pc)->cline) {
- pc1 = pic16_findNextInstruction (pc->next);
- if (pc1 && isPCI(pc1) && !PCI(pc1)->cline) {
- PCI(pc1)->cline = PCI(pc)->cline;
- } else {
- pc1 = pic16_findPrevInstruction (pc->prev);
- if (pc1 && isPCI(pc1) && !PCI(pc1)->cline)
- PCI(pc1)->cline = PCI(pc)->cline;
- }
+ if (!pc) {
+ return;
}
- /* first remove the pCode from the chain */
- pc->prev->next = pc->next;
- pc->next->prev = pc->prev;
-
- pc->prev = pc->next = NULL;
-
- /* Now for the hard part... */
-
/* Remove the branches */
pb1 = PCI(pc)->from;
while(pb1) {
pc1 = pb1->pc; /* Get the pCode that branches to the
- * one we're unlinking */
+ * one we're unlinking */
/* search for the link back to this pCode (the one we're
* unlinking) */
* branches (e.g. this a skip instruction) then we need
* to copy these extra branches to the chain. */
if(PCI(pc)->to->next)
- pic16_pBranchAppend(pb2, PCI(pc)->to->next);
+ pic16_pBranchAppend(pb2, PCI(pc)->to->next);
}
-
+
pb1 = pb1->next;
}
+ pic16_unlinkpCode (pc);
}
#endif
{
// Go through the pCodes that are in pCode chain and link
// them together through the pBranches. Note, the pCodes
- // are linked together as a contiguous stream like the
+ // are linked together as a contiguous stream like the
// assembly source code lines. The linking here mimics this
// except that comments are not linked in.
- //
+ //
pCode *npc = pc->next;
while(npc) {
- if(npc->type == PC_OPCODE || npc->type == PC_LABEL) {
- pBranchLink(pc,npc);
- return;
- } else
- npc = npc->next;
+ if(npc->type == PC_OPCODE || npc->type == PC_LABEL) {
+ pBranchLink(pc,npc);
+ return;
+ } else
+ npc = npc->next;
}
/* reached the end of the pcode chain without finding
* an instruction we could link to. */
return TRUE;
}
if((pc->type == PC_OPCODE)
- || (pc->type == PC_ASMDIR)
- ) {
+ || (pc->type == PC_ASMDIR)
+ ) {
pbr = PCI(pc)->label;
while(pbr) {
if(pbr->pc->type == PC_LABEL) {
- if( ((pCodeLabel *)(pbr->pc))->key == pcop_label->key)
- return TRUE;
+ if( ((pCodeLabel *)(pbr->pc))->key == pcop_label->key)
+ return TRUE;
}
pbr = pbr->next;
}
pbr = PCI(pc)->label;
while(pbr) {
if(isPCL(pbr->pc) && (PCL(pbr->pc)->key >= 0))
- return TRUE;
+ return TRUE;
pbr = pbr->next;
}
if(!pb)
return NULL;
- for(pc = pb->pcHead; pc; pc = pc->next)
+ for(pc = pb->pcHead; pc; pc = pc->next)
if(compareLabel(pc,pcop_label))
return pc;
-
+
return NULL;
}
#if 0
while(pc) {
if((pc->type == PC_OPCODE)
- || (pc->type == PC_WILD)
- || (pc->type == PC_ASMDIR)
- )
+ || (pc->type == PC_WILD)
+ || (pc->type == PC_ASMDIR)
+ )
return pc;
#ifdef PCODE_DEBUG
while(pc) {
if((pc->type == PC_OPCODE)
- || (pc->type == PC_WILD)
- || (pc->type == PC_ASMDIR)
- )
+ || (pc->type == PC_WILD)
+ || (pc->type == PC_ASMDIR)
+ )
return pc;
-
+
#ifdef PCODE_DEBUG
fprintf(stderr,"pic16_findPrevInstruction: ");
regs * pic16_getRegFrompCodeOp (pCodeOp *pcop) {
if (!pcop) return NULL;
-
+
switch(pcop->type) {
case PO_PRODL:
case PO_PRODH:
case PO_BIT:
case PO_GPR_TEMP:
-// fprintf(stderr, "pic16_getRegFromInstruction - bit or temp\n");
+// fprintf(stderr, "pic16_getRegFromInstruction - bit or temp\n");
return PCOR(pcop)->r;
case PO_IMMEDIATE:
return (PCOI(pcop)->r);
else
return NULL;
-
+
case PO_GPR_BIT:
return PCOR(pcop)->r;
case PO_GPR_REGISTER:
case PO_DIR:
-// fprintf(stderr, "pic16_getRegFromInstruction - dir\n");
+// fprintf(stderr, "pic16_getRegFromInstruction - dir\n");
return PCOR(pcop)->r;
case PO_LITERAL:
case PO_LABEL:
//fprintf (stderr, "%s - label or address: %d (%s)\n", __FUNCTION__, pcop->type, dumpPicOptype(pcop->type));
break;
-
+
case PO_CRY:
case PO_STR:
/* this should never turn up */
//fprintf (stderr, "%s - unused pCodeOp->type: %d (%s)\n", __FUNCTION__, pcop->type, dumpPicOptype(pcop->type));
break;
-
+
case PO_WILD:
break;
-
+
+ case PO_TWO_OPS:
+ return pic16_getRegFrompCodeOp( PCOP2(pcop)->pcopL );
+ break;
+
default:
- fprintf(stderr, "pic16_getRegFromInstruction - unknown reg type %d (%s)\n",pcop->type, dumpPicOptype (pcop->type));
-// assert( 0 );
- break;
+ fprintf(stderr, "pic16_getRegFrompCodeOp - unknown reg type %d (%s)\n",pcop->type, dumpPicOptype (pcop->type));
+// assert( 0 );
+ break;
}
return NULL;
/*-----------------------------------------------------------------*/
regs * pic16_getRegFromInstruction(pCode *pc)
{
-
- if(!pc ||
+ if(!pc ||
!isPCI(pc) ||
!PCI(pc)->pcop ||
PCI(pc)->num_ops == 0 ||
#if 0
fprintf(stderr, "pic16_getRegFromInstruction - reg type %s (%d)\n",
- dumpPicOptype( PCI(pc)->pcop->type), PCI(pc)->pcop->type);
+ dumpPicOptype( PCI(pc)->pcop->type), PCI(pc)->pcop->type);
#endif
- return pic16_getRegFrompCodeOp (PCI(pc)->pcop);
+ return( pic16_getRegFrompCodeOp (PCI(pc)->pcop) );
}
/*-------------------------------------------------------------------------------*/
regs * pic16_getRegFromInstruction2(pCode *pc)
{
- if(!pc ||
+ if(!pc ||
!isPCI(pc) ||
!PCI(pc)->pcop ||
PCI(pc)->num_ops == 0 ||
- (PCI(pc)->num_ops == 1)) // accept only 2 operand commands
+ (PCI(pc)->num_ops == 1)) // accept only 2 operand commands
return NULL;
+ if (PCI(pc)->pcop->type != PO_TWO_OPS)
+ return NULL;
#if 0
fprintf(stderr, "pic16_getRegFromInstruction2 - reg type %s (%d)\n",
- dumpPicOptype( PCI(pc)->pcop->type), PCI(pc)->pcop->type);
+ dumpPicOptype( PCI(pc)->pcop->type), PCI(pc)->pcop->type);
#endif
- return pic16_getRegFrompCodeOp (PCOR2(PCI(pc)->pcop)->pcop2);
+ return pic16_getRegFrompCodeOp (PCOP2(PCI(pc)->pcop)->pcopR);
}
/*-----------------------------------------------------------------*/
if(!pb)
return;
- /* Find all of the registers used in this pBlock
+ /* Find all of the registers used in this pBlock
* by looking at each instruction and examining it's
* operands
*/
if(PCI(pc)->pcop->type == PO_GPR_TEMP) {
- /* Loop through all of the registers declared so far in
- this block and see if we find this one there */
-
- regs *r = setFirstItem(pb->tregisters);
-
- while(r) {
- if(r->rIdx == PCOR(PCI(pc)->pcop)->r->rIdx) {
- PCOR(PCI(pc)->pcop)->r = r;
- break;
- }
- r = setNextItem(pb->tregisters);
- }
-
- if(!r) {
- /* register wasn't found */
- //r = Safe_calloc(1, sizeof(regs));
- //memcpy(r,PCOR(PCI(pc)->pcop)->r, sizeof(regs));
- //addSet(&pb->tregisters, r);
- addSet(&pb->tregisters, PCOR(PCI(pc)->pcop)->r);
- //PCOR(PCI(pc)->pcop)->r = r;
- //fprintf(stderr,"added register to pblock: reg %d\n",r->rIdx);
- }/* else
- fprintf(stderr,"found register in pblock: reg %d\n",r->rIdx);
- */
+ /* Loop through all of the registers declared so far in
+ this block and see if we find this one there */
+
+ regs *r = setFirstItem(pb->tregisters);
+
+ while(r) {
+ if(r->rIdx == PCOR(PCI(pc)->pcop)->r->rIdx) {
+ PCOR(PCI(pc)->pcop)->r = r;
+ break;
+ }
+ r = setNextItem(pb->tregisters);
+ }
+
+ if(!r) {
+ /* register wasn't found */
+ //r = Safe_calloc(1, sizeof(regs));
+ //memcpy(r,PCOR(PCI(pc)->pcop)->r, sizeof(regs));
+ //addSet(&pb->tregisters, r);
+ addSet(&pb->tregisters, PCOR(PCI(pc)->pcop)->r);
+ //PCOR(PCI(pc)->pcop)->r = r;
+ //fprintf(stderr,"added register to pblock: reg %d\n",r->rIdx);
+ }/* else
+ fprintf(stderr,"found register in pblock: reg %d\n",r->rIdx);
+ */
}
if(PCI(pc)->pcop->type == PO_GPR_REGISTER) {
- if(PCOR(PCI(pc)->pcop)->r) {
- pic16_allocWithIdx(PCOR(PCI(pc)->pcop)->r->rIdx); /* FIXME! - VR */
- DFPRINTF((stderr,"found register in pblock: reg 0x%x\n",PCOR(PCI(pc)->pcop)->r->rIdx));
- } else {
- if(PCI(pc)->pcop->name)
- fprintf(stderr,"ERROR: %s is a NULL register\n",PCI(pc)->pcop->name );
- else
- fprintf(stderr,"ERROR: NULL register\n");
- }
+ if(PCOR(PCI(pc)->pcop)->r) {
+ pic16_allocWithIdx(PCOR(PCI(pc)->pcop)->r->rIdx); /* FIXME! - VR */
+ DFPRINTF((stderr,"found register in pblock: reg 0x%x\n",PCOR(PCI(pc)->pcop)->r->rIdx));
+ } else {
+ if(PCI(pc)->pcop->name)
+ fprintf(stderr,"ERROR: %s is a NULL register\n",PCI(pc)->pcop->name );
+ else
+ fprintf(stderr,"ERROR: NULL register\n");
+ }
}
}
/* the flow blocks. */
/*
* pic16_BuildFlow inserts pCodeFlow objects into the pCode chain at each
- * point the instruction flow changes.
+ * point the instruction flow changes.
*/
/*-----------------------------------------------------------------*/
void pic16_BuildFlow(pBlock *pb)
for( pc = pic16_findNextInstruction(pb->pcHead);
pc != NULL;
- pc=pic16_findNextInstruction(pc)) {
+ pc=pic16_findNextInstruction(pc)) {
pc->seq = seq++;
PCI(pc)->pcflow = PCFL(pflow);
//fprintf(stderr," build: ");
//pflow->print(stderr,pflow);
- if (checkLabel(pc)) {
+ if (checkLabel(pc)) {
/* This instruction marks the beginning of a
* new flow segment */
pc->seq = 0;
seq = 1;
- /* If the previous pCode is not a flow object, then
- * insert a new flow object. (This check prevents
+ /* If the previous pCode is not a flow object, then
+ * insert a new flow object. (This check prevents
* two consecutive flow objects from being insert in
* the case where a skip instruction preceeds an
* instruction containing a label.) */
if(last_pci && (PCI(last_pci)->pcflow == PCFL(pflow)))
- InsertpFlow(pic16_findPrevInstruction(pc->prev), &pflow);
+ InsertpFlow(pic16_findPrevInstruction(pc->prev), &pflow);
PCI(pc)->pcflow = PCFL(pflow);
-
+
}
if( PCI(pc)->isSkip) {
- /* The two instructions immediately following this one
+ /* The two instructions immediately following this one
* mark the beginning of a new flow segment */
while(pc && PCI(pc)->isSkip) {
- PCI(pc)->pcflow = PCFL(pflow);
- pc->seq = seq-1;
- seq = 1;
+ PCI(pc)->pcflow = PCFL(pflow);
+ pc->seq = seq-1;
+ seq = 1;
- InsertpFlow(pc, &pflow);
- pc=pic16_findNextInstruction(pc->next);
+ InsertpFlow(pc, &pflow);
+ pc=pic16_findNextInstruction(pc->next);
}
seq = 0;
if(!pc)
- break;
+ break;
PCI(pc)->pcflow = PCFL(pflow);
pc->seq = 0;
pc->seq = 0;
if(PCI(pc)->pcflow) {
- //Safe_free(PCI(pc)->pcflow);
- PCI(pc)->pcflow = NULL;
+ //Safe_free(PCI(pc)->pcflow);
+ PCI(pc)->pcflow = NULL;
}
} else if(isPCFL(pc) )
fprintf(stderr, " FlowStats - flow block (seq=%d)\n", pcflow->pc.seq);
- pc = pic16_findNextpCode(PCODE(pcflow), PC_OPCODE);
+ pc = pic16_findNextpCode(PCODE(pcflow), PC_OPCODE);
if(!pc) {
fprintf(stderr, " FlowStats - empty flow (seq=%d)\n", pcflow->pc.seq);
#endif
/*-----------------------------------------------------------------*
* int isBankInstruction(pCode *pc) - examine the pCode *pc to determine
- * if it affects the banking bits.
- *
+ * if it affects the banking bits.
+ *
* return: -1 == Banking bits are unaffected by this pCode.
*
* return: > 0 == Banking bits are affected.
// fprintf(stderr, " FillFlow - flow block (seq=%d)\n", pcflow->pc.seq);
- pc = pic16_findNextpCode(PCODE(pcflow), PC_OPCODE);
+ pc = pic16_findNextpCode(PCODE(pcflow), PC_OPCODE);
if(!pc) {
//fprintf(stderr, " FillFlow - empty flow (seq=%d)\n", pcflow->pc.seq);
switch (PCOO(PCINF(pcinf)->oper1)->type) {
case OPT_JUMPTABLE_BEGIN:
/* leading begin of jump table -- in one */
- pcinf = pic16_findPrevInstruction (pcinf);
- return pcinf;
+ pcinf = pic16_findPrevInstruction (pcinf);
+ return pcinf;
break;
-
+
case OPT_JUMPTABLE_END:
/* leading end of jumptable -- not in one */
return NULL;
break;
-
+
default:
- /* ignore all other PCInfos */
+ /* ignore all other PCInfos */
break;
}
}
//fprintf(stderr,"linkflow \n");
- for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
+ for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
pcflow != NULL;
pcflow = pic16_findNextpCode(pcflow->next, PC_FLOW) ) {
/* handle GOTOs in jumptables */
if ((jumptab_pre = pic16_getJumptabpCode (pc)) != NULL) {
- /* link to previous flow */
- //fprintf (stderr, "linked jumptable GOTO to predecessor %p\n", PCI(jumptab_pre)->pcflow);
- LinkFlow_pCode (PCI(jumptab_pre), PCI(pc));
+ /* link to previous flow */
+ //fprintf (stderr, "linked jumptable GOTO to predecessor %p\n", PCI(jumptab_pre)->pcflow);
+ LinkFlow_pCode (PCI(jumptab_pre), PCI(pc));
}
switch (PCI(pc)->op) {
case POC_RETURN:
case POC_RETLW:
case POC_RETFIE:
- /* unconditional branches -- do not link to next instruction */
- //fprintf (stderr, "%s: flow ended by unconditional branch\n", __FUNCTION__);
- break;
-
+ /* unconditional branches -- do not link to next instruction */
+ //fprintf (stderr, "%s: flow ended by unconditional branch\n", __FUNCTION__);
+ break;
+
case POC_CALL:
case POC_RCALL:
- /* unconditional calls -- link to next instruction */
- //fprintf (stderr, "%s: flow ended by CALL\n", __FUNCTION__);
- LinkFlow_pCode(PCI(pc),PCI(pic16_findNextInstruction(pc->next)));
- break;
-
+ /* unconditional calls -- link to next instruction */
+ //fprintf (stderr, "%s: flow ended by CALL\n", __FUNCTION__);
+ LinkFlow_pCode(PCI(pc),PCI(pic16_findNextInstruction(pc->next)));
+ break;
+
case POC_BC:
case POC_BN:
case POC_BNC:
case POC_BNZ:
case POC_BOV:
case POC_BZ:
- /* conditional branches -- also link to next instruction */
- //fprintf (stderr, "%s: flow ended by conditional branch\n", __FUNCTION__);
- LinkFlow_pCode(PCI(pc),PCI(pic16_findNextInstruction(pc->next)));
- break;
-
+ /* conditional branches -- also link to next instruction */
+ //fprintf (stderr, "%s: flow ended by conditional branch\n", __FUNCTION__);
+ LinkFlow_pCode(PCI(pc),PCI(pic16_findNextInstruction(pc->next)));
+ break;
+
default:
- fprintf (stderr, "%s: unhandled op %u (%s)\n", __FUNCTION__, PCI(pc)->op , PCI(pc)->mnemonic);
- assert (0 && "unhandled branching instruction");
- break;
+ fprintf (stderr, "%s: unhandled op %u (%s)\n", __FUNCTION__, PCI(pc)->op , PCI(pc)->mnemonic);
+ assert (0 && "unhandled branching instruction");
+ break;
}
//fprintf(stderr, "ends with branch\n ");
//pc->print(stderr,pc);
if(!(pcol && isPCOLAB(pcol))) {
- if((PCI(pc)->op != POC_RETLW)
- && (PCI(pc)->op != POC_RETURN) && (PCI(pc)->op != POC_CALL) && (PCI(pc)->op != POC_RCALL) && (PCI(pc)->op != POC_RETFIE) ) {
-
- /* continue if label is '$' which assembler knows how to parse */
- if(((PCI(pc)->pcop->type == PO_STR) && !strcmp(PCI(pc)->pcop->name, "$")))continue;
-
- if(pic16_pcode_verbose) {
- pc->print(stderr,pc);
- fprintf(stderr, "ERROR: %s, branch instruction doesn't have label\n",__FUNCTION__);
- }
- }
- continue;
+ if((PCI(pc)->op != POC_RETLW)
+ && (PCI(pc)->op != POC_RETURN) && (PCI(pc)->op != POC_CALL) && (PCI(pc)->op != POC_RCALL) && (PCI(pc)->op != POC_RETFIE) ) {
+
+ /* continue if label is '$' which assembler knows how to parse */
+ if(((PCI(pc)->pcop->type == PO_STR) && !strcmp(PCI(pc)->pcop->name, "$")))continue;
+
+ if(pic16_pcode_verbose) {
+ pc->print(stderr,pc);
+ fprintf(stderr, "ERROR: %s, branch instruction doesn't have label\n",__FUNCTION__);
+ }
+ }
+ continue;
}
if( (pct = findLabelinpBlock(pb,pcol)) != NULL)
- LinkFlow_pCode(PCI(pc),PCI(pct));
+ LinkFlow_pCode(PCI(pc),PCI(pct));
else
- fprintf(stderr, "ERROR: %s, couldn't find label. key=%d,lab=%s\n",
- __FUNCTION__,pcol->key,((PCOP(pcol)->name)?PCOP(pcol)->name:"-"));
+ fprintf(stderr, "ERROR: %s, couldn't find label. key=%d,lab=%s\n",
+ __FUNCTION__,pcol->key,((PCOP(pcol)->name)?PCOP(pcol)->name:"-"));
-// fprintf(stderr,"pic16_newpCodeOpLabel: key=%d, name=%s\n",pcol->key,(PCOP(pcol)->name)?(PCOP(pcol)->name):"<unknown>");
+// fprintf(stderr,"pic16_newpCodeOpLabel: key=%d, name=%s\n",pcol->key,(PCOP(pcol)->name)?(PCOP(pcol)->name):"<unknown>");
continue;
}
}
//fprintf(stderr, "ends with nothing: ERROR\n");
-
+
}
}
/*-----------------------------------------------------------------*/
{
pCode *new_pc;
- if(!pc)
- return;
+ if(!pc)
+ return;
+
+ /* emit BANKSEL [symbol] */
- /* emit BANKSEL [symbol] */
+ new_pc = pic16_newpCodeAsmDir("BANKSEL", "%s", pic16_get_op_from_instruction(PCI(pc)));
- new_pc = pic16_newpCodeAsmDir("BANKSEL", "%s", pic16_get_op_from_instruction(PCI(pc)));
-
-// position = 0; // position is always before (sanity check!)
+// position = 0; // position is always before (sanity check!)
#if 0
- fprintf(stderr, "%s:%d: inserting bank switch (pos: %d)\n", __FUNCTION__, __LINE__, position);
- pc->print(stderr, pc);
+ fprintf(stderr, "%s:%d: inserting bank switch (pos: %d)\n", __FUNCTION__, __LINE__, position);
+ pc->print(stderr, pc);
#endif
- switch(position) {
- case 1: {
- /* insert the bank switch after this pc instruction */
- pCode *pcnext = pic16_findNextInstruction(pc);
-
- pic16_pCodeInsertAfter(pc, new_pc);
- if(pcnext)pc = pcnext;
- }; break;
-
- case 0:
- /* insert the bank switch BEFORE this pc instruction */
- pic16_pCodeInsertAfter(pc->prev, new_pc);
- break;
-
- case 2: {
- symbol *tlbl;
- pCode *pcnext, *pcprev, *npci, *ppc;
- PIC_OPCODE ipci;
- int ofs1=0, ofs2=0, len=0;
-
- /* just like 0, but previous was a skip instruction,
- * so some care should be taken */
-
- pic16_labelOffset += 10000;
- tlbl = newiTempLabel(NULL);
-
- /* invert skip instruction */
- pcprev = pic16_findPrevInstruction(pc->prev);
- ipci = PCI(pcprev)->inverted_op;
- npci = pic16_newpCode(ipci, PCI(pcprev)->pcop);
-
-// fprintf(stderr, "%s:%d old OP: %d\tnew OP: %d\n", __FILE__, __LINE__, PCI(pcprev)->op, ipci);
-
- /* copy info from old pCode */
- ofs1 = ofs2 = sizeof( pCode ) + sizeof(PIC_OPCODE);
- len = sizeof(pCodeInstruction) - ofs1 - sizeof( char const * const *);
- ofs1 += strlen( PCI(pcprev)->mnemonic) + 1;
- ofs2 += strlen( PCI(npci)->mnemonic) + 1;
- memcpy(&PCI(npci)->from, &PCI(pcprev)->from, (char *)(&(PCI(npci)->pci_magic)) - (char *)(&(PCI(npci)->from)));
- PCI(npci)->op = PCI(pcprev)->inverted_op;
-
- /* unlink old pCode */
- ppc = pcprev->prev;
- ppc->next = pcprev->next;
- pcprev->next->prev = ppc;
- pic16_pCodeInsertAfter(ppc, npci);
-
- /* extra instructions to handle invertion */
- pcnext = pic16_newpCode(POC_BRA, pic16_popGetLabel(tlbl->key));
- pic16_pCodeInsertAfter(npci, pcnext);
- pic16_pCodeInsertAfter(pc->prev, new_pc);
-
- pcnext = pic16_newpCodeLabel(NULL,tlbl->key+100+pic16_labelOffset);
- pic16_pCodeInsertAfter(pc, pcnext);
- }; break;
- }
-
-
- /* Move the label, if there is one */
- if(PCI(pc)->label) {
-// fprintf(stderr, "%s:%d: moving label due to bank switch directive src= 0x%p dst= 0x%p\n",
-// __FILE__, __LINE__, pc, new_pc);
- PCAD(new_pc)->pci.label = PCI(pc)->label;
- PCI(pc)->label = NULL;
- }
+ switch(position) {
+ case 1: {
+ /* insert the bank switch after this pc instruction */
+ pCode *pcnext = pic16_findNextInstruction(pc);
+
+ pic16_pCodeInsertAfter(pc, new_pc);
+ if(pcnext)pc = pcnext;
+ }; break;
+
+ case 0:
+ /* insert the bank switch BEFORE this pc instruction */
+ pic16_pCodeInsertAfter(pc->prev, new_pc);
+ break;
+
+ case 2: {
+ symbol *tlbl;
+ pCode *pcnext, *pcprev, *npci, *ppc;
+ PIC_OPCODE ipci;
+ int ofs1=0, ofs2=0, len=0;
+
+ /* just like 0, but previous was a skip instruction,
+ * so some care should be taken */
+
+ pic16_labelOffset += 10000;
+ tlbl = newiTempLabel(NULL);
+
+ /* invert skip instruction */
+ pcprev = pic16_findPrevInstruction(pc->prev);
+ ipci = PCI(pcprev)->inverted_op;
+ npci = pic16_newpCode(ipci, PCI(pcprev)->pcop);
+
+// fprintf(stderr, "%s:%d old OP: %d\tnew OP: %d\n", __FILE__, __LINE__, PCI(pcprev)->op, ipci);
+
+ /* copy info from old pCode */
+ ofs1 = ofs2 = sizeof( pCode ) + sizeof(PIC_OPCODE);
+ len = sizeof(pCodeInstruction) - ofs1 - sizeof( char const * const *);
+ ofs1 += strlen( PCI(pcprev)->mnemonic) + 1;
+ ofs2 += strlen( PCI(npci)->mnemonic) + 1;
+ memcpy(&PCI(npci)->from, &PCI(pcprev)->from, (char *)(&(PCI(npci)->pci_magic)) - (char *)(&(PCI(npci)->from)));
+ PCI(npci)->op = PCI(pcprev)->inverted_op;
+
+ /* unlink old pCode */
+ ppc = pcprev->prev;
+ ppc->next = pcprev->next;
+ pcprev->next->prev = ppc;
+ pic16_pCodeInsertAfter(ppc, npci);
+
+ /* extra instructions to handle invertion */
+ pcnext = pic16_newpCode(POC_BRA, pic16_popGetLabel(tlbl->key));
+ pic16_pCodeInsertAfter(npci, pcnext);
+ pic16_pCodeInsertAfter(pc->prev, new_pc);
+
+ pcnext = pic16_newpCodeLabel(NULL,tlbl->key+100+pic16_labelOffset);
+ pic16_pCodeInsertAfter(pc, pcnext);
+ }; break;
+ }
+
+
+ /* Move the label, if there is one */
+ if(PCI(pc)->label) {
+// fprintf(stderr, "%s:%d: moving label due to bank switch directive src= 0x%p dst= 0x%p\n",
+// __FILE__, __LINE__, pc, new_pc);
+ PCAD(new_pc)->pci.label = PCI(pc)->label;
+ PCI(pc)->label = NULL;
+ }
}
+#if 0
/*-----------------------------------------------------------------*/
/*int compareBankFlow - compare the banking requirements between */
/* flow objects. */
if(pcflowLink->pcflow->firstBank == -1) {
- pCodeFlowLink *pctl = setFirstItem( toORfrom ?
- pcflowLink->pcflow->to :
- pcflowLink->pcflow->from);
+ pCodeFlowLink *pctl = setFirstItem( toORfrom ?
+ pcflowLink->pcflow->to :
+ pcflowLink->pcflow->from);
return compareBankFlow(pcflow, pctl, toORfrom);
}
pcflowLink->pcflow->FromConflicts++;
pcflow->ToConflicts++;
} else {
-
+
if(pcflow->firstBank == pcflowLink->pcflow->lastBank)
return 0;
}
/*
fprintf(stderr,"compare flow found conflict: seq %d from conflicts %d, to conflicts %d\n",
- pcflowLink->pcflow->pc.seq,
- pcflowLink->pcflow->FromConflicts,
- pcflowLink->pcflow->ToConflicts);
+ pcflowLink->pcflow->pc.seq,
+ pcflowLink->pcflow->FromConflicts,
+ pcflowLink->pcflow->ToConflicts);
*/
return 1;
}
+#endif
#if 0
/*-----------------------------------------------------------------*/
pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
pcflow->print(stderr,pcflow);
- for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
+ for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
pcflow != NULL;
pcflow = pic16_findNextpCode(pcflow->next, PC_FLOW) ) {
fprintf(stderr, " from seq %d:\n",pc->seq);
if(!isPCFL(pc)) {
- fprintf(stderr,"oops dumpflow - from is not a pcflow\n");
- pc->print(stderr,pc);
+ fprintf(stderr,"oops dumpflow - from is not a pcflow\n");
+ pc->print(stderr,pc);
}
}
fprintf(stderr, " to seq %d:\n",pc->seq);
if(!isPCFL(pc)) {
- fprintf(stderr,"oops dumpflow - to is not a pcflow\n");
- pc->print(stderr,pc);
+ fprintf(stderr,"oops dumpflow - to is not a pcflow\n");
+ pc->print(stderr,pc);
}
}
matches++;
if(pcprev)
- pc = pic16_findNextInstruction(pcprev->next);
- else
- pc = pic16_findNextInstruction(pb->pcHead);
+ pc = pic16_findNextInstruction(pcprev->next);
+ else
+ pc = pic16_findNextInstruction(pb->pcHead);
} else
pc = pic16_findNextInstruction(pc->next);
} while(pc);
for(pc = pcs; pc; pc = pc->next) {
- if(((pc->type == PC_OPCODE) || (pc->type == PC_INLINE) || (pc->type == PC_ASMDIR)) &&
- (PCI(pc)->pcop) &&
+ if(((pc->type == PC_OPCODE) || (pc->type == PC_INLINE) || (pc->type == PC_ASMDIR)) &&
+ (PCI(pc)->pcop) &&
(PCI(pc)->pcop->type == PO_LABEL) &&
(PCOLAB(PCI(pc)->pcop)->key == pcl->key))
return pc;
}
-
+
return NULL;
}
char *s=NULL;
- if(isPCI(pc) &&
- (PCI(pc)->pcop) &&
+ if(isPCI(pc) &&
+ (PCI(pc)->pcop) &&
(PCI(pc)->pcop->type == PO_LABEL)) {
pCodeOpLabel *pcol = PCOLAB(PCI(pc)->pcop);
-// fprintf(stderr,"changing label key from %d to %d\n",pcol->key, pcl->key);
+// fprintf(stderr,"changing label key from %d to %d\n",pcol->key, pcl->key);
// if(pcol->pcop.name)
// Safe_free(pcol->pcop.name);
/* If the key is negative, then we (probably) have a label to
* a function and the name is already defined */
-
+
if(pcl->key>0)
sprintf(s=buffer,"_%05d_DS_",pcl->key);
- else
+ else
s = pcl->label;
//sprintf(buffer,"_%05d_DS_",pcl->key);
{
pCode *pc; pCodeLabel *pcl;
- if(!pb)
+ if(!pb || !pb->pcHead)
return;
for(pc = pb->pcHead; (pc=pic16_findNextInstruction(pc->next)) != NULL; ) {
if(pbr && pbr->next) {
pCode *pcd = pb->pcHead;
-// fprintf(stderr, "multiple labels\n");
-// pc->print(stderr,pc);
+// fprintf(stderr, "multiple labels\n");
+// pc->print(stderr,pc);
pbr = pbr->next;
while(pbr) {
- while ( (pcd = findInstructionUsingLabel(PCL(PCI(pc)->label->pc), pcd)) != NULL) {
- //fprintf(stderr,"Used by:\n");
- //pcd->print(stderr,pcd);
+ while ( (pcd = findInstructionUsingLabel(PCL(PCI(pc)->label->pc), pcd)) != NULL) {
+ //fprintf(stderr,"Used by:\n");
+ //pcd->print(stderr,pcd);
- exchangeLabels(PCL(pbr->pc),pcd);
+ exchangeLabels(PCL(pbr->pc),pcd);
- pcd = pcd->next;
- }
- pbr = pbr->next;
+ pcd = pcd->next;
+ }
+ pbr = pbr->next;
}
}
}
pcl = PCL(PCI(pc)->label->pc);
else continue;
-// fprintf(stderr," found A LABEL !!! key = %d, %s\n", pcl->key,pcl->label);
+// fprintf(stderr," found A LABEL !!! key = %d, %s\n", pcl->key,pcl->label);
/* This pCode is a label, so search the pBlock to see if anyone
* refers to it */
if( (pcl->key>0) && (!findInstructionUsingLabel(pcl, pb->pcHead))
- && (!pcl->force)) {
+ && (!pcl->force)) {
//if( !findInstructionUsingLabel(pcl, pb->pcHead)) {
/* Couldn't find an instruction that refers to this label
* So, unlink the pCode label from it's pCode chain
* and destroy the label */
-// fprintf(stderr," removed A LABEL !!! key = %d, %s\n", pcl->key,pcl->label);
+// fprintf(stderr," removed A LABEL !!! key = %d, %s\n", pcl->key,pcl->label);
DFPRINTF((stderr," !!! REMOVED A LABEL !!! key = %d, %s\n", pcl->key,pcl->label));
if(pc->type == PC_LABEL) {
- pic16_unlinkpCode(pc);
- pCodeLabelDestruct(pc);
+ pic16_unlinkpCode(pc);
+ pCodeLabelDestruct(pc);
} else {
- unlinkpCodeFromBranch(pc, PCODE(pcl));
- /*if(pc->label->next == NULL && pc->label->pc == NULL) {
- Safe_free(pc->label);
- }*/
+ unlinkpCodeFromBranch(pc, PCODE(pcl));
+ /*if(pc->label->next == NULL && pc->label->pc == NULL) {
+ Safe_free(pc->label);
+ }*/
}
}
if(pc->type == PC_LABEL) {
-// fprintf(stderr," checking merging label %s\n",PCL(pc)->label);
-// fprintf(stderr,"Checking label key = %d\n",PCL(pc)->key);
+// fprintf(stderr," checking merging label %s\n",PCL(pc)->label);
+// fprintf(stderr,"Checking label key = %d\n",PCL(pc)->key);
if((pcnext = pic16_findNextInstruction(pc) )) {
-// pcnext->print(stderr, pcnext);
+// pcnext->print(stderr, pcnext);
- // Unlink the pCode label from it's pCode chain
- pic16_unlinkpCode(pc);
-
-// fprintf(stderr,"Merged label key = %d\n",PCL(pc)->key);
- // And link it into the instruction's pBranch labels. (Note, since
- // it's possible to have multiple labels associated with one instruction
- // we must provide a means to accomodate the additional labels. Thus
- // the labels are placed into the singly-linked list "label" as
- // opposed to being a single member of the pCodeInstruction.)
+ // Unlink the pCode label from it's pCode chain
+ pic16_unlinkpCode(pc);
- //_ALLOC(pbr,sizeof(pBranch));
+// fprintf(stderr,"Merged label key = %d\n",PCL(pc)->key);
+ // And link it into the instruction's pBranch labels. (Note, since
+ // it's possible to have multiple labels associated with one instruction
+ // we must provide a means to accomodate the additional labels. Thus
+ // the labels are placed into the singly-linked list "label" as
+ // opposed to being a single member of the pCodeInstruction.)
+
+ //_ALLOC(pbr,sizeof(pBranch));
#if 1
- pbr = Safe_calloc(1,sizeof(pBranch));
- pbr->pc = pc;
- pbr->next = NULL;
+ pbr = Safe_calloc(1,sizeof(pBranch));
+ pbr->pc = pc;
+ pbr->next = NULL;
- PCI(pcnext)->label = pic16_pBranchAppend(PCI(pcnext)->label,pbr);
+ PCI(pcnext)->label = pic16_pBranchAppend(PCI(pcnext)->label,pbr);
#endif
} else {
- if(pic16_pcode_verbose)
- fprintf(stderr, "WARNING: couldn't associate label %s with an instruction\n",PCL(pc)->label);
+ if(pic16_pcode_verbose)
+ fprintf(stderr, "WARNING: couldn't associate label %s with an instruction\n",PCL(pc)->label);
}
} else if(pc->type == PC_CSOURCE) {
/* merge the source line symbolic info into the next instruction */
if((pcnext = pic16_findNextInstruction(pc) )) {
- // Unlink the pCode label from it's pCode chain
- pic16_unlinkpCode(pc);
- PCI(pcnext)->cline = PCCS(pc);
- //fprintf(stderr, "merging CSRC\n");
- //genericPrint(stderr,pcnext);
+ // Unlink the pCode label from it's pCode chain
+ pic16_unlinkpCode(pc);
+ PCI(pcnext)->cline = PCCS(pc);
+ //fprintf(stderr, "merging CSRC\n");
+ //genericPrint(stderr,pcnext);
}
}
matches = 0;
for(pb = the_pFile->pbHead; pb; pb = pb->next) {
if('*' == dbName || getpBlock_dbName(pb) == dbName)
- matches += OptimizepBlock(pb);
+ matches += OptimizepBlock(pb);
}
}
while(matches && ++passes < MAX_PASSES);
// fprintf(stderr, "%s:%d pc type: %s\tname: %s\n", __FILE__, __LINE__, pic16_pCodeOpType(pc), pc->name);
if(pc->name) {
- pcop = pic16_newpCodeOpBit(pc->name, bitval, 0, pc->type);
+ pcop = pic16_newpCodeOpBit(pc->name, bitval, 0, pc->type);
} else {
if(PCOR(pc)->r)pcop = pic16_newpCodeOpBit(PCOR(pc)->r->name, bitval, 0, pc->type);
}
assert(pcop != NULL);
if( !( (pcop->type == PO_LABEL) ||
- (pcop->type == PO_LITERAL) ||
- (pcop->type == PO_STR) ))
+ (pcop->type == PO_LITERAL) ||
+ (pcop->type == PO_STR) ))
PCOR(pcop)->r = PCOR(pc)->r; /* This is dangerous... */
PCOR(pcop)->r->wasUsed = 1;
PCOR(pcop)->instance = PCOR(pc)->instance;
*----------------------------------------------------------------------*/
int pic16_areRegsSame(regs *r1, regs *r2)
{
- if(!strcmp(r1->name, r2->name))return 1;
+ if(!strcmp(r1->name, r2->name))return 1;
return 0;
}
pCode *pcprev=NULL;
regs *reg, *prevreg;
unsigned char flag=0;
-
- if(!pb)
- return;
- pc = pic16_findNextpCode(pb->pcHead, PC_OPCODE);
- if(!pc)return;
+ if(!pb)
+ return;
+
+ pc = pic16_findNextpCode(pb->pcHead, PC_OPCODE);
+ if(!pc)return;
- /* loop through all of the flow blocks with in one pblock */
+ /* loop through all of the flow blocks with in one pblock */
-// fprintf(stderr,"%s:%d: Register banking\n", __FUNCTION__, __LINE__);
+// fprintf(stderr,"%s:%d: Register banking\n", __FUNCTION__, __LINE__);
- prevreg = NULL;
- do {
- /* at this point, pc should point to a PC_FLOW object */
- /* for each flow block, determine the register banking
- * requirements */
+ prevreg = NULL;
+ do {
+ /* at this point, pc should point to a PC_FLOW object */
+ /* for each flow block, determine the register banking
+ * requirements */
-
- /* if label, then might come from other point, force banksel */
- if(isPCL(pc))prevreg = NULL;
-
- if(!isPCI(pc))goto loop;
- if(PCI(pc)->label)prevreg = NULL;
+ /* if label, then might come from other point, force banksel */
+ if(isPCL(pc))prevreg = NULL;
- if(PCI(pc)->is2MemOp)goto loop;
+ if(!isPCI(pc))goto loop;
- /* if goto, then force banksel */
-// if(PCI(pc)->op == POC_GOTO)prevreg = NULL;
-
- reg = pic16_getRegFromInstruction(pc);
+ if(PCI(pc)->label)prevreg = NULL;
+
+ if(PCI(pc)->is2MemOp)goto loop;
+
+ /* if goto, then force banksel */
+// if(PCI(pc)->op == POC_GOTO)prevreg = NULL;
+
+ reg = pic16_getRegFromInstruction(pc);
#if 0
- pc->print(stderr, pc);
- fprintf(stderr, "reg = %p\n", reg);
-
- if(reg) {
- fprintf(stderr, "%s:%d: %s %d\n",__FUNCTION__, __LINE__, reg->name, reg->rIdx);
- fprintf(stderr, "addr = 0x%03x, bit=%d\tfix=%d\n",
- reg->address,reg->isBitField, reg->isFixed);
- }
+ pc->print(stderr, pc);
+ fprintf(stderr, "reg = %p\n", reg);
+
+ if(reg) {
+ fprintf(stderr, "%s:%d: %s %d\n",__FUNCTION__, __LINE__, reg->name, reg->rIdx);
+ fprintf(stderr, "addr = 0x%03x, bit=%d\tfix=%d\n",
+ reg->address,reg->isBitField, reg->isFixed);
+ }
#endif
- /* now make some tests to make sure that instruction needs bank switch */
-
- /* if no register exists, and if not a bit opcode goto loop */
- if(!reg) {
- if(!(PCI(pc)->pcop && PCI(pc)->pcop->type == PO_GPR_BIT))goto loop;
- }
-
- if(isPCI_SKIP(pc)) {
-// fprintf(stderr, "instruction is SKIP instruction\n");
-// prevreg = NULL;
- }
- if(reg && isACCESS_BANK(reg))goto loop;
-
- if(!isBankInstruction(pc))goto loop;
-
- if(isPCI_LIT(pc))goto loop;
-
- if(PCI(pc)->op == POC_CALL)goto loop;
-
- /* Examine the instruction before this one to make sure it is
- * not a skip type instruction */
- pcprev = findPrevpCode(pc->prev, PC_OPCODE);
-
- flag = 0; /* add before this instruction */
-
- /* if previous instruction is a skip one, then set flag
- * to 2 and call insertBankSwitch */
- if(pcprev && isPCI_SKIP(pcprev)) {
- flag=2; //goto loop
-// prevreg = NULL;
- }
-
- if(pic16_options.opt_banksel>0) {
- char op1[128], op2[128];
-
- if(prevreg) {
- strcpy(op1, pic16_get_op_from_instruction(PCI(pc)));
- strcpy(op2, pic16_get_op_from_instruction(PCI(pcprev)));
- if(!strcmp(op1, op2))goto loop;
- }
- }
- prevreg = reg;
- insertBankSwitch(flag, pc);
-
-// fprintf(stderr, "BANK SWITCH inserted\n");
-
+ /* now make some tests to make sure that instruction needs bank switch */
+
+ /* if no register exists, and if not a bit opcode goto loop */
+ if(!reg) {
+ if(!(PCI(pc)->pcop && PCI(pc)->pcop->type == PO_GPR_BIT))goto loop;
+ }
+
+ if(isPCI_SKIP(pc)) {
+// fprintf(stderr, "instruction is SKIP instruction\n");
+// prevreg = NULL;
+ }
+ if(reg && isACCESS_BANK(reg))goto loop;
+
+ if(!isBankInstruction(pc))goto loop;
+
+ if(isPCI_LIT(pc))goto loop;
+
+ if(PCI(pc)->op == POC_CALL)goto loop;
+
+ /* Examine the instruction before this one to make sure it is
+ * not a skip type instruction */
+ pcprev = findPrevpCode(pc->prev, PC_OPCODE);
+
+ flag = 0; /* add before this instruction */
+
+ /* if previous instruction is a skip one, then set flag
+ * to 2 and call insertBankSwitch */
+ if(pcprev && isPCI_SKIP(pcprev)) {
+ flag=2; //goto loop
+// prevreg = NULL;
+ }
+
+ if(pic16_options.opt_banksel>0) {
+ char op1[128], op2[128];
+
+ if(prevreg) {
+ strcpy(op1, pic16_get_op_from_instruction(PCI(pc)));
+ strcpy(op2, pic16_get_op_from_instruction(PCI(pcprev)));
+ if(!strcmp(op1, op2))goto loop;
+ }
+ }
+ prevreg = reg;
+ insertBankSwitch(flag, pc);
+
+// fprintf(stderr, "BANK SWITCH inserted\n");
+
loop:
- pcprev = pc;
- pc = pc->next;
- } while (pc);
+ pcprev = pc;
+ pc = pc->next;
+ } while (pc);
}
/** ADDITIONS BY RAPHAEL NEIDER, 2004-11-16: GOTO OPTIMIZATIONS **/
{
if (!pc) return 0;
- // label attached to the pCode?
+ // label attached to the pCode?
if (isPCI(pc) || isPCAD(pc) || isPCW(pc) || pc->type == PC_INFO) {
pBranch *lab = NULL;
lab = PCI(pc)->label;
while (lab) {
if (isPCL(lab->pc) && strcmp(PCL(lab->pc)->label, label) == 0) {
- return 1;
+ return 1;
}
lab = lab->next;
} // while
return 1;
}
} // if
-
+
// is pCodeLabel?
if (isPCL(pc)) {
if (strcmp(PCL(pc)->label,label) == 0) {
return 1;
}
} // if
-
+
// no label/no label attached/wrong label(s)
return 0;
}
/* Returns -1 if pc does NOT denote an instruction like
* BTFS[SC] STATUS,i
- * Otherwise we return
+ * Otherwise we return
* (a) 0x10 + i for BTFSS
* (b) 0x00 + i for BTFSC
*/
while (pc && pc != prev) {
// pCode with attached label?
if ((isPCI(pc) || isPCAD(pc) || isPCW(pc) || pc->type == PC_INFO)
- && PCI(pc)->label) {
+ && PCI(pc)->label) {
return 0;
}
// is inline assembly label?
/* first move all labels from old to new */
PCI(newPC)->label = pic16_pBranchAppend (PCI(oldPC)->label, PCI(newPC)->label);
PCI(oldPC)->label = NULL;
-
+
#if 0
/* move C source line (if possible) */
if (PCI(oldPC)->cline && !PCI(newPC)->cline)
pic16_InsertCommentAfter (oldPC->prev, "%s: replaced %s", __FUNCTION__, pc_str);
}
#endif
-
+
/* insert new pCode into pBlock */
pic16_pCodeInsertAfter (oldPC, newPC);
pic16_unlinkpCode (oldPC);
-
+
/* destruct replaced pCode */
oldPC->destruct (oldPC);
}
}
#define MAX_DIST_GOTO 0x7FFFFFFF
-#define MAX_DIST_BRA 1020 // maximum offset (in bytes) possible with BRA
-#define MAX_DIST_BCC 120 // maximum offset (in bytes) possible with Bcc
-#define MAX_JUMPCHAIN_DEPTH 16 // number of GOTOs to follow in resolveJumpChain() (to prevent endless loops)
+#define MAX_DIST_BRA 1020 // maximum offset (in bytes) possible with BRA
+#define MAX_DIST_BCC 120 // maximum offset (in bytes) possible with Bcc
+#define MAX_JUMPCHAIN_DEPTH 16 // number of GOTOs to follow in resolveJumpChain() (to prevent endless loops)
#define IS_GOTO(arg) ((arg) && isPCI(arg) && (PCI(arg)->op == POC_GOTO || PCI(arg)->op == POC_BRA))
/* Follows GOTO/BRA instructions to their target instructions, stores the
* the distance from the original pc to *target.
*/
int resolveJumpChain (pCode *pc, pCode **target, pCodeOp **pcop) {
- pCode *curr = pc;
- pCode *last = NULL;
- pCodeOp *lastPCOP = NULL;
- int dist = 0;
- int depth = 0;
-
- //fprintf (stderr, "%s:%d: -=-", __FUNCTION__, __LINE__);
-
- /* only follow unconditional branches, except for the initial pCode (which may be a conditional branch) */
- while (curr && (last != curr) && (depth++ < MAX_JUMPCHAIN_DEPTH) && isPCI(curr)
- && (PCI(curr)->op == POC_GOTO || PCI(curr)->op == POC_BRA || (curr == pc && isConditionalBranch(curr)))) {
- last = curr;
- lastPCOP = PCI(curr)->pcop;
- dist = findpCodeLabel (pc, PCI(curr)->pcop->name, MAX_DIST_GOTO, &curr);
- //fprintf (stderr, "last:%p, curr:%p, label:%s\n", last, curr, PCI(last)->pcop->name);
- } // while
+ pCode *curr = pc;
+ pCode *last = NULL;
+ pCodeOp *lastPCOP = NULL;
+ int dist = 0;
+ int depth = 0;
+
+ //fprintf (stderr, "%s:%d: -=-", __FUNCTION__, __LINE__);
+
+ /* only follow unconditional branches, except for the initial pCode (which may be a conditional branch) */
+ while (curr && (last != curr) && (depth++ < MAX_JUMPCHAIN_DEPTH) && isPCI(curr)
+ && (PCI(curr)->op == POC_GOTO || PCI(curr)->op == POC_BRA || (curr == pc && isConditionalBranch(curr)))) {
+ last = curr;
+ lastPCOP = PCI(curr)->pcop;
+ dist = findpCodeLabel (pc, PCI(curr)->pcop->name, MAX_DIST_GOTO, &curr);
+ //fprintf (stderr, "last:%p, curr:%p, label:%s\n", last, curr, PCI(last)->pcop->name);
+ } // while
- if (target) *target = last;
- if (pcop) *pcop = lastPCOP;
- return dist;
+ if (target) *target = last;
+ if (pcop) *pcop = lastPCOP;
+ return dist;
}
/* Returns pc if it is not a OPT_JUMPTABLE_BEGIN INFO pCode.
{
*isJumptable = 0;
if (!pc) return NULL;
-
+
while (pc->type == PC_INFO && PCINF(pc)->type == INF_OPTIMIZATION && PCOO(PCINF(pc)->oper1)->type == OPT_JUMPTABLE_BEGIN) {
*isJumptable = 1;
//fprintf (stderr, "SKIPPING jumptable\n");
//pc->print(stderr, pc);
pc = pc->next;
} while (pc && (pc->type != PC_INFO || PCINF(pc)->type != INF_OPTIMIZATION
- || PCOO(PCINF(pc)->oper1)->type != OPT_JUMPTABLE_END));
+ || PCOO(PCINF(pc)->oper1)->type != OPT_JUMPTABLE_END));
//fprintf (stderr, "<<JUMPTAB:\n");
// skip OPT_END as well
if (pc) pc = pc->next;
pc = skipJumptables (pc, &isJumptab);
if (isJumptab) {
// pc is the first pCode after the jumptable
- *isJumptable = 1;
+ *isJumptable = 1;
} else {
// pc has not been changed by skipJumptables()
- pc = pc->next;
+ pc = pc->next;
}
} // while
-
+
return pc;
}
int isHandled = 0;
char *label;
int opt=0, toofar=0, opt_cond = 0, cond_toofar=0, opt_reorder = 0, opt_gotonext = 0, opt_gotochain = 0;
-
+
if (!the_pFile) return;
-
+
//fprintf (stderr, "%s:%d: %s\n", __FILE__, __LINE__, __FUNCTION__);
-
+
for (pb = the_pFile->pbHead; pb != NULL; pb = pb->next) {
int matchedInvertRule = 1;
iteration = 1;
//fprintf (stderr, "%s:%d: iterating over pBlock %p\n", __FUNCTION__, __LINE__, pb);
change = 0;
pc = pic16_findNextInstruction (pb->pcHead);
-
+
while (pc) {
- pc_next = pic16_findNextInstructionSkipJumptables (pc->next, &isJumptab);
- if (isJumptab) {
- // skip jumptable, i.e. start over with no pc_prev!
- pc_prev = NULL;
- pc = pc_next;
- continue;
- } // if
-
- /* (1) resolve chained jumps
- * Do not perform this until pattern (4) is no longer present! Otherwise we will
- * (a) leave dead code in and
- * (b) skip over the dead code with an (unneccessary) jump.
- */
- if (!matchedInvertRule && (IS_GOTO(pc) || isConditionalBranch(pc))) {
- pCodeOp *lastTargetOp = NULL;
- int newDist = resolveJumpChain (pc, &target, &lastTargetOp);
- int maxDist = MAX_DIST_BCC;
- if (PCI(pc)->op == POC_BRA) maxDist = MAX_DIST_BRA;
- if (PCI(pc)->op == POC_GOTO) maxDist = MAX_DIST_GOTO;
-
- /* be careful NOT to make the jump instruction longer (might break previously shortened jumps!) */
- if (lastTargetOp && newDist <= maxDist && lastTargetOp != PCI(pc)->pcop
- && strcmp (lastTargetOp->name, PCI(pc)->pcop->name) != 0) {
- //fprintf (stderr, "(1) ");pc->print(stderr, pc); fprintf (stderr, " --> %s\n", lastTargetOp->name);
- if (pic16_pcode_verbose) { pic16_pCodeInsertAfter (pc->prev, pic16_newpCodeCharP("(1) jump chain resolved")); }
- PCI(pc)->pcop->name = lastTargetOp->name;
- change++;
- opt_gotochain++;
- } // if
- } // if
-
-
- if (IS_GOTO(pc)) {
- int dist;
- int condBraType = isSkipOnStatus(pc_prev);
- label = PCI(pc)->pcop->name;
- dist = findpCodeLabel(pc, label, MAX_DIST_BRA, &target);
- if (dist < 0) dist = -dist;
- //fprintf (stderr, "distance: %d (", dist); pc->print(stderr, pc);fprintf (stderr, ")\n");
- isHandled = 0;
-
-
- /* (2) remove "GOTO label; label:" */
- if (isLabel (pc_next, label)) {
- //fprintf (stderr, "(2) GOTO next instruction: ");pc->print(stderr, pc);fprintf (stderr, " --> ");pc_next->print(stderr, pc_next); fprintf(stderr, "\n");
- // first remove all preceeding SKIP instructions
- while (pc_prev && isPCI_SKIP(pc_prev)) {
- // attach labels on this instruction to pc_next
- //fprintf (stderr, "(2) preceeding SKIP removed: ");pc_prev->print(stderr, pc_prev);fprintf(stderr, "\n");
- PCI(pc_next)->label = pic16_pBranchAppend (PCI(pc_prev)->label, PCI(pc_next)->label);
- PCI(pc_prev)->label = NULL;
- if (pic16_pcode_verbose) { pic16_pCodeInsertAfter (pc->prev, pic16_newpCodeCharP("(2) SKIP removed")); }
- pic16_unlinkpCode (pc_prev);
- pc_prev = pic16_findPrevInstruction (pc);
- } // while
- // now remove the redundant goto itself
- PCI(pc_next)->label = pic16_pBranchAppend (PCI(pc)->label, PCI(pc_next)->label);
- if (pic16_pcode_verbose) { pic16_pCodeInsertAfter (pc, pic16_newpCodeCharP("(2) GOTO next instruction removed")); }
- pic16_unlinkpCode (pc);
- pc = pic16_findPrevInstruction(pc_next->prev);
- isHandled = 1; // do not perform further optimizations
- opt_gotonext++;
- change++;
- } // if
-
-
- /* (3) turn BTFSx STATUS,i; GOTO label into Bcc label if possible */
- if (!isHandled && condBraType != -1 && hasNoLabel(pc)) {
- if (dist < MAX_DIST_BCC) {
- pCode *bcc = NULL;
- switch (condBraType) {
- case 0x00: bcc = pic16_newpCode (POC_BC, PCI(pc)->pcop);break;
- // no BDC on DIGIT CARRY available
- case 0x02: bcc = pic16_newpCode (POC_BZ, PCI(pc)->pcop);break;
- case 0x03: bcc = pic16_newpCode (POC_BOV, PCI(pc)->pcop);break;
- case 0x04: bcc = pic16_newpCode (POC_BN, PCI(pc)->pcop);break;
- case 0x10: bcc = pic16_newpCode (POC_BNC, PCI(pc)->pcop);break;
- // no BNDC on DIGIT CARRY available
- case 0x12: bcc = pic16_newpCode (POC_BNZ, PCI(pc)->pcop);break;
- case 0x13: bcc = pic16_newpCode (POC_BNOV, PCI(pc)->pcop);break;
- case 0x14: bcc = pic16_newpCode (POC_BNN, PCI(pc)->pcop);break;
- default:
- // no replacement possible
- bcc = NULL;
- break;
- } // switch
- if (bcc) {
- // ATTENTION: keep labels attached to BTFSx!
- // HINT: GOTO is label free (checked above)
- //fprintf (stderr, "%s:%d: (3) turning %s %s into %s %s\n", __FUNCTION__, __LINE__, PCI(pc)->mnemonic, label, PCI(bcc)->mnemonic, label);
- isHandled = 1; // do not perform further optimizations
- if (pic16_pcode_verbose) { pic16_pCodeInsertAfter(pc_prev->prev, pic16_newpCodeCharP("(3) conditional branch introduced")); }
- pic16_pCodeReplace (pc_prev, bcc);
- pc->destruct(pc);
- pc = bcc;
- opt_cond++;
- change++;
- } // if
- } else {
- //fprintf (stderr, "(%d, too far for Bcc)\n", dist);
- cond_toofar++;
- } // if
- } // if
-
- if (!isHandled) {
- // (4) eliminate the following (common) tripel:
- // <pred.>;
- // labels1: Bcc label2;
- // GOTO somewhere; ; <-- instruction referenced by pc
- // label2: <cont.>
- // and replace it by
- // labels1: B#(cc) somewhere; ; #(cc) is the negated condition cc
- // label2: <cont.>
- // ATTENTION: all labels pointing to "Bcc label2" must be attached
- // to <cont.> instead
- // ATTENTION: This optimization is only valid if <pred.> is
- // not a skip operation!
- // ATTENTION: somewhere must be within MAX_DIST_BCC bytes!
- // ATTENTION: no label may be attached to the GOTO instruction!
- if (isConditionalBranch(pc_prev)
- && (!isPCI_SKIP(pic16_findPrevInstruction(pc_prev->prev)))
- && (dist < MAX_DIST_BCC)
- && isLabel(pc_next,PCI(pc_prev)->pcop->name)
- && hasNoLabel(pc)) {
- pCode *newBcc = getNegatedBcc (pc_prev, PCI(pc)->pcop);
-
- if (newBcc) {
- //fprintf (stderr, "%s:%d: (4) turning %s %s into %s %s\n", __FUNCTION__, __LINE__, PCI(pc)->mnemonic, label, PCI(newBcc)->mnemonic, label);
- isHandled = 1; // do not perform further optimizations
- if (pic16_pcode_verbose) { pic16_pCodeInsertAfter(pc_prev->prev, pic16_newpCodeCharP("(4) conditional skipping branch inverted")); }
- pic16_pCodeReplace (pc_prev, newBcc);
- pc->destruct(pc);
- pc = newBcc;
- opt_reorder++;
- change++;
- matchedInvertRule++;
- }
- }
- }
-
- /* (5) now just turn GOTO into BRA */
- if (!isHandled && (PCI(pc)->op == POC_GOTO)) {
- if (dist < MAX_DIST_BRA) {
- pCode *newBra = pic16_newpCode (POC_BRA, PCI(pc)->pcop);
- //fprintf (stderr, "%s:%d: (5) turning %s %s into %s %s\n", __FUNCTION__, __LINE__, PCI(pc)->mnemonic, label, PCI(newBra)->mnemonic, label);
- if (pic16_pcode_verbose) { pic16_pCodeInsertAfter(pc->prev, pic16_newpCodeCharP("(5) GOTO replaced by BRA")); }
- pic16_pCodeReplace (pc, newBra);
- pc = newBra;
- opt++;
- change++;
- } else {
- //fprintf (stderr, "(%d, too far for BRA)\n", dist);
- toofar++;
- }
- } // if (!isHandled)
- } // if
-
- pc_prev = pc;
- pc = pc_next;
+ pc_next = pic16_findNextInstructionSkipJumptables (pc->next, &isJumptab);
+ if (isJumptab) {
+ // skip jumptable, i.e. start over with no pc_prev!
+ pc_prev = NULL;
+ pc = pc_next;
+ continue;
+ } // if
+
+ /* (1) resolve chained jumps
+ * Do not perform this until pattern (4) is no longer present! Otherwise we will
+ * (a) leave dead code in and
+ * (b) skip over the dead code with an (unneccessary) jump.
+ */
+ if (!matchedInvertRule && (IS_GOTO(pc) || isConditionalBranch(pc))) {
+ pCodeOp *lastTargetOp = NULL;
+ int newDist = resolveJumpChain (pc, &target, &lastTargetOp);
+ int maxDist = MAX_DIST_BCC;
+ if (PCI(pc)->op == POC_BRA) maxDist = MAX_DIST_BRA;
+ if (PCI(pc)->op == POC_GOTO) maxDist = MAX_DIST_GOTO;
+
+ /* be careful NOT to make the jump instruction longer (might break previously shortened jumps!) */
+ if (lastTargetOp && newDist <= maxDist && lastTargetOp != PCI(pc)->pcop
+ && strcmp (lastTargetOp->name, PCI(pc)->pcop->name) != 0) {
+ //fprintf (stderr, "(1) ");pc->print(stderr, pc); fprintf (stderr, " --> %s\n", lastTargetOp->name);
+ if (pic16_pcode_verbose) { pic16_pCodeInsertAfter (pc->prev, pic16_newpCodeCharP("(1) jump chain resolved")); }
+ PCI(pc)->pcop->name = lastTargetOp->name;
+ change++;
+ opt_gotochain++;
+ } // if
+ } // if
+
+
+ if (IS_GOTO(pc)) {
+ int dist;
+ int condBraType = isSkipOnStatus(pc_prev);
+ label = PCI(pc)->pcop->name;
+ dist = findpCodeLabel(pc, label, MAX_DIST_BRA, &target);
+ if (dist < 0) dist = -dist;
+ //fprintf (stderr, "distance: %d (", dist); pc->print(stderr, pc);fprintf (stderr, ")\n");
+ isHandled = 0;
+
+
+ /* (2) remove "GOTO label; label:" */
+ if (isLabel (pc_next, label)) {
+ //fprintf (stderr, "(2) GOTO next instruction: ");pc->print(stderr, pc);fprintf (stderr, " --> ");pc_next->print(stderr, pc_next); fprintf(stderr, "\n");
+ // first remove all preceeding SKIP instructions
+ while (pc_prev && isPCI_SKIP(pc_prev)) {
+ // attach labels on this instruction to pc_next
+ //fprintf (stderr, "(2) preceeding SKIP removed: ");pc_prev->print(stderr, pc_prev);fprintf(stderr, "\n");
+ PCI(pc_next)->label = pic16_pBranchAppend (PCI(pc_prev)->label, PCI(pc_next)->label);
+ PCI(pc_prev)->label = NULL;
+ if (pic16_pcode_verbose) { pic16_pCodeInsertAfter (pc->prev, pic16_newpCodeCharP("(2) SKIP removed")); }
+ pic16_unlinkpCode (pc_prev);
+ pc_prev = pic16_findPrevInstruction (pc);
+ } // while
+ // now remove the redundant goto itself
+ PCI(pc_next)->label = pic16_pBranchAppend (PCI(pc)->label, PCI(pc_next)->label);
+ if (pic16_pcode_verbose) { pic16_pCodeInsertAfter (pc, pic16_newpCodeCharP("(2) GOTO next instruction removed")); }
+ pic16_unlinkpCode (pc);
+ pc = pic16_findPrevInstruction(pc_next->prev);
+ isHandled = 1; // do not perform further optimizations
+ opt_gotonext++;
+ change++;
+ } // if
+
+
+ /* (3) turn BTFSx STATUS,i; GOTO label into Bcc label if possible */
+ if (!isHandled && condBraType != -1 && hasNoLabel(pc)) {
+ if (dist < MAX_DIST_BCC) {
+ pCode *bcc = NULL;
+ switch (condBraType) {
+ case 0x00: bcc = pic16_newpCode (POC_BC, PCI(pc)->pcop);break;
+ // no BDC on DIGIT CARRY available
+ case 0x02: bcc = pic16_newpCode (POC_BZ, PCI(pc)->pcop);break;
+ case 0x03: bcc = pic16_newpCode (POC_BOV, PCI(pc)->pcop);break;
+ case 0x04: bcc = pic16_newpCode (POC_BN, PCI(pc)->pcop);break;
+ case 0x10: bcc = pic16_newpCode (POC_BNC, PCI(pc)->pcop);break;
+ // no BNDC on DIGIT CARRY available
+ case 0x12: bcc = pic16_newpCode (POC_BNZ, PCI(pc)->pcop);break;
+ case 0x13: bcc = pic16_newpCode (POC_BNOV, PCI(pc)->pcop);break;
+ case 0x14: bcc = pic16_newpCode (POC_BNN, PCI(pc)->pcop);break;
+ default:
+ // no replacement possible
+ bcc = NULL;
+ break;
+ } // switch
+ if (bcc) {
+ // ATTENTION: keep labels attached to BTFSx!
+ // HINT: GOTO is label free (checked above)
+ //fprintf (stderr, "%s:%d: (3) turning %s %s into %s %s\n", __FUNCTION__, __LINE__, PCI(pc)->mnemonic, label, PCI(bcc)->mnemonic, label);
+ isHandled = 1; // do not perform further optimizations
+ if (pic16_pcode_verbose) { pic16_pCodeInsertAfter(pc_prev->prev, pic16_newpCodeCharP("(3) conditional branch introduced")); }
+ pic16_pCodeReplace (pc_prev, bcc);
+ pc->destruct(pc);
+ pc = bcc;
+ opt_cond++;
+ change++;
+ } // if
+ } else {
+ //fprintf (stderr, "(%d, too far for Bcc)\n", dist);
+ cond_toofar++;
+ } // if
+ } // if
+
+ if (!isHandled) {
+ // (4) eliminate the following (common) tripel:
+ // <pred.>;
+ // labels1: Bcc label2;
+ // GOTO somewhere; ; <-- instruction referenced by pc
+ // label2: <cont.>
+ // and replace it by
+ // labels1: B#(cc) somewhere; ; #(cc) is the negated condition cc
+ // label2: <cont.>
+ // ATTENTION: all labels pointing to "Bcc label2" must be attached
+ // to <cont.> instead
+ // ATTENTION: This optimization is only valid if <pred.> is
+ // not a skip operation!
+ // ATTENTION: somewhere must be within MAX_DIST_BCC bytes!
+ // ATTENTION: no label may be attached to the GOTO instruction!
+ if (isConditionalBranch(pc_prev)
+ && (!isPCI_SKIP(pic16_findPrevInstruction(pc_prev->prev)))
+ && (dist < MAX_DIST_BCC)
+ && isLabel(pc_next,PCI(pc_prev)->pcop->name)
+ && hasNoLabel(pc)) {
+ pCode *newBcc = getNegatedBcc (pc_prev, PCI(pc)->pcop);
+
+ if (newBcc) {
+ //fprintf (stderr, "%s:%d: (4) turning %s %s into %s %s\n", __FUNCTION__, __LINE__, PCI(pc)->mnemonic, label, PCI(newBcc)->mnemonic, label);
+ isHandled = 1; // do not perform further optimizations
+ if (pic16_pcode_verbose) { pic16_pCodeInsertAfter(pc_prev->prev, pic16_newpCodeCharP("(4) conditional skipping branch inverted")); }
+ pic16_pCodeReplace (pc_prev, newBcc);
+ pc->destruct(pc);
+ pc = newBcc;
+ opt_reorder++;
+ change++;
+ matchedInvertRule++;
+ }
+ }
+ }
+
+ /* (5) now just turn GOTO into BRA */
+ if (!isHandled && (PCI(pc)->op == POC_GOTO)) {
+ if (dist < MAX_DIST_BRA) {
+ pCode *newBra = pic16_newpCode (POC_BRA, PCI(pc)->pcop);
+ //fprintf (stderr, "%s:%d: (5) turning %s %s into %s %s\n", __FUNCTION__, __LINE__, PCI(pc)->mnemonic, label, PCI(newBra)->mnemonic, label);
+ if (pic16_pcode_verbose) { pic16_pCodeInsertAfter(pc->prev, pic16_newpCodeCharP("(5) GOTO replaced by BRA")); }
+ pic16_pCodeReplace (pc, newBra);
+ pc = newBra;
+ opt++;
+ change++;
+ } else {
+ //fprintf (stderr, "(%d, too far for BRA)\n", dist);
+ toofar++;
+ }
+ } // if (!isHandled)
+ } // if
+
+ pc_prev = pc;
+ pc = pc_next;
} // while (pc)
-
+
pBlockRemoveUnusedLabels (pb);
-
+
// This line enables goto chain resolution!
if (matchedInvertRule > 1) matchedInvertRule = 1; else matchedInvertRule = 0;
iteration++;
} while (change); /* fixpoint iteration per pBlock */
} // for (pb)
-
+
// emit some statistics concerning goto-optimization
#if 0
if (pic16_debug_verbose || pic16_pcode_verbose) {
fprintf (stderr, "optimize-goto:\n"
- "\t%5d GOTO->BRA; (%d GOTOs too far)\n"
- "\t%5d BTFSx, GOTO->Bcc (%d too far)\n"
- "\t%5d conditional \"skipping\" jumps inverted\n"
- "\t%5d GOTOs to next instruction removed\n"
- "\t%5d chained GOTOs resolved\n",
- opt, toofar, opt_cond, cond_toofar, opt_reorder, opt_gotonext, opt_gotochain);
+ "\t%5d GOTO->BRA; (%d GOTOs too far)\n"
+ "\t%5d BTFSx, GOTO->Bcc (%d too far)\n"
+ "\t%5d conditional \"skipping\" jumps inverted\n"
+ "\t%5d GOTOs to next instruction removed\n"
+ "\t%5d chained GOTOs resolved\n",
+ opt, toofar, opt_cond, cond_toofar, opt_reorder, opt_gotonext, opt_gotochain);
} // if
#endif
//fprintf (stderr, "%s:%d: %s\n", __FILE__, __LINE__, __FUNCTION__);
//fprintf(stderr," merged block %c\n",dbName);
if(!pbmerged) {
- pbmerged = pb;
+ pbmerged = pb;
} else {
- pic16_addpCode2pBlock(pbmerged, pb->pcHead);
- /* pic16_addpCode2pBlock doesn't handle the tail: */
- pbmerged->pcTail = pb->pcTail;
+ pic16_addpCode2pBlock(pbmerged, pb->pcHead);
+ /* pic16_addpCode2pBlock doesn't handle the tail: */
+ pbmerged->pcTail = pb->pcTail;
- pb->prev->next = pbn;
- if(pbn)
- pbn->prev = pb->prev;
+ pb->prev->next = pbn;
+ if(pbn)
+ pbn->prev = pb->prev;
- pBlockDestruct(pb);
+ pBlockDestruct(pb);
}
//pic16_printpBlock(stderr, pbmerged);
- }
+ }
pb = pbn;
}
/* Phase 2 - Flow Analysis
*
- * In this phase, the pCode is partition into pCodeFlow
+ * In this phase, the pCode is partition into pCodeFlow
* blocks. The flow blocks mark the points where a continuous
* stream of instructions changes flow (e.g. because of
* a call or goto or whatever).
LinkFlow(pb);
#if 1
- if (pic16_options.opt_flags & OF_OPTIMIZE_DF) {
- for(pb = the_pFile->pbHead; pb; pb = pb->next) {
- pic16_createDF (pb);
+ if (pic16_options.opt_flags & OF_OPTIMIZE_DF) {
+ for(pb = the_pFile->pbHead; pb; pb = pb->next) {
+ pic16_createDF (pb);
#if defined (DUMP_DF_GRAPHS) && DUMP_DF_GRAPHS > 0
- pic16_vcg_dump_default (pb);
+ pic16_vcg_dump_default (pb);
#endif
- //pic16_destructDF (pb);
- }
+ //pic16_destructDF (pb);
+ }
- pic16_df_stats ();
- if (0) releaseStack (); // releasing is costly...
- }
+ pic16_df_stats ();
+ if (0) releaseStack (); // releasing is costly...
+ }
#endif
/* Phase 3 - Flow Analysis - Flow Tree
DumpFlow(pb);
#endif
- /* debug stuff */
+ /* debug stuff */
for(pb = the_pFile->pbHead; pb; pb = pb->next) {
pCode *pcflow;
-
- for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
+
+ for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
(pcflow = pic16_findNextpCode(pcflow, PC_FLOW)) != NULL;
- pcflow = pcflow->next) {
- FillFlow(PCFL(pcflow));
+ pcflow = pcflow->next) {
+ FillFlow(PCFL(pcflow));
}
}
for(pb = the_pFile->pbHead; pb; pb = pb->next) {
pCode *pcflow;
- for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
+ for( pcflow = pic16_findNextpCode(pb->pcHead, PC_FLOW);
(pcflow = pic16_findNextpCode(pcflow, PC_FLOW)) != NULL;
pcflow = pcflow->next) {
FlowStats(PCFL(pcflow));
}
/* VR -- no need to analyze banking in flow, but left here :
- * 1. because it may be used in the future for other purposes
- * 2. because if omitted we'll miss some optimization done here
+ * 1. because it may be used in the future for other purposes
+ * 2. because if omitted we'll miss some optimization done here
*
* Perhaps I should rename it to something else
*/
/*-----------------------------------------------------------------*/
/* buildCallTree - Look at the flow and extract all of the calls. */
/*-----------------------------------------------------------------*/
+#if 0
static set *register_usage(pBlock *pb);
+#endif
static void buildCallTree(void )
{
pBlock *pb;
pCode *pc;
regs *r;
-
+
if(!the_pFile)
return;
/* Now build the call tree.
First we examine all of the pCodes for functions.
Keep in mind that the function boundaries coincide
- with pBlock boundaries.
+ with pBlock boundaries.
The algorithm goes something like this:
We have two nested loops. The outer loop iterates
of a function, is cleared. We then search for pCodes
of type PC_FUNCTION. When one is encountered, we
initialize pc_fstart to this and at the same time
- associate a new pBranch object that signifies a
+ associate a new pBranch object that signifies a
branch entry. If a return is found, then this signifies
a function exit point. We'll link the pCodes of these
returns to the matching pc_fstart.
pCode *pc_fstart=NULL;
for(pc = pb->pcHead; pc; pc = pc->next) {
- if(isPCI(pc) && pc_fstart) {
- if(PCI(pc)->is2MemOp) {
- r = pic16_getRegFromInstruction2(pc);
- if(r && !strcmp(r->name, "POSTDEC1"))
- PCF(pc_fstart)->stackusage++;
- } else {
- r = pic16_getRegFromInstruction(pc);
- if(r && !strcmp(r->name, "PREINC1"))
- PCF(pc_fstart)->stackusage--;
- }
- }
+ if(isPCI(pc) && pc_fstart) {
+ if(PCI(pc)->is2MemOp) {
+ r = pic16_getRegFromInstruction2(pc);
+ if(r && !strcmp(r->name, "POSTDEC1"))
+ PCF(pc_fstart)->stackusage++;
+ } else {
+ r = pic16_getRegFromInstruction(pc);
+ if(r && !strcmp(r->name, "PREINC1"))
+ PCF(pc_fstart)->stackusage--;
+ }
+ }
if(isPCF(pc)) {
- if (PCF(pc)->fname) {
+ if (PCF(pc)->fname) {
char buf[16];
sprintf(buf, "%smain", port->fun_prefix);
- if(STRCASECMP(PCF(pc)->fname, buf) == 0) {
- //fprintf(stderr," found main \n");
- pb->cmemmap = NULL; /* FIXME do we need to free ? */
- pb->dbName = 'M';
- }
+ if(STRCASECMP(PCF(pc)->fname, buf) == 0) {
+ //fprintf(stderr," found main \n");
+ pb->cmemmap = NULL; /* FIXME do we need to free ? */
+ pb->dbName = 'M';
+ }
- pbr = Safe_calloc(1,sizeof(pBranch));
- pbr->pc = pc_fstart = pc;
- pbr->next = NULL;
+ pbr = Safe_calloc(1,sizeof(pBranch));
+ pbr->pc = pc_fstart = pc;
+ pbr->next = NULL;
- the_pFile->functions = pic16_pBranchAppend(the_pFile->functions,pbr);
+ the_pFile->functions = pic16_pBranchAppend(the_pFile->functions,pbr);
- // Here's a better way of doing the same:
- addSet(&pb->function_entries, pc);
+ // Here's a better way of doing the same:
+ addSet(&pb->function_entries, pc);
- } else {
- // Found an exit point in a function, e.g. return
- // (Note, there may be more than one return per function)
- if(pc_fstart)
- pBranchLink(PCF(pc_fstart), PCF(pc));
+ } else {
+ // Found an exit point in a function, e.g. return
+ // (Note, there may be more than one return per function)
+ if(pc_fstart)
+ pBranchLink(PCF(pc_fstart), PCF(pc));
- addSet(&pb->function_exits, pc);
- }
+ addSet(&pb->function_exits, pc);
+ }
} else if(isCALL(pc)) {
- addSet(&pb->function_calls,pc);
+ addSet(&pb->function_calls,pc);
}
}
}
#if 0
/* This is not needed because currently all register used
* by a function are stored in stack -- VR */
-
+
/* Re-allocate the registers so that there are no collisions
* between local variables when one function call another */
* that are used in the pCode. Once that is done, the peep rules
* are applied to the code. We continue to loop until no more
* peep rule optimizations are found (or until we exceed the
- * MAX_PASSES threshold).
+ * MAX_PASSES threshold).
*
* When done, the required registers will be determined.
*
for(pb = the_pFile->pbHead; pb; pb = pb->next) {
if('*' == dbName || getpBlock_dbName(pb) == dbName) {
- DFPRINTF((stderr," analyze and merging block %c\n",dbName));
- //fprintf(stderr," analyze and merging block %c\n",dbName);
- pic16_pBlockMergeLabels(pb);
- AnalyzepBlock(pb);
+ DFPRINTF((stderr," analyze and merging block %c\n",dbName));
+ //fprintf(stderr," analyze and merging block %c\n",dbName);
+ pic16_pBlockMergeLabels(pb);
+ AnalyzepBlock(pb);
} else {
- DFPRINTF((stderr," skipping block analysis dbName=%c blockname=%c\n",dbName,getpBlock_dbName));
+ DFPRINTF((stderr," skipping block analysis dbName=%c blockname=%c\n",dbName,getpBlock_dbName));
}
}
- if(!options.nopeep)
- changes = OptimizepCode(dbName);
- else changes = 0;
+ if(!options.nopeep)
+ changes = OptimizepCode(dbName);
+ else changes = 0;
} while(changes && (i++ < MAX_PASSES));
-
+
buildCallTree();
}
pct = pic16_findNextInstruction(pcstart->next);
do {
pc = pct;
- pct = pc->next; //pic16_findNextInstruction(pc->next);
+ pct = pc->next; //pic16_findNextInstruction(pc->next);
// pc->print(stderr, pc);
if(isPCI(pc) && PCI(pc)->label) {
pbr = PCI(pc)->label;
// pic16_pCodeInsertAfter(pc, pct = pic16_newpCode(POC_MOVFF, pic16_popGet2p(
// pic16_popCopyReg(&pic16_pc_fsr0l), pic16_popCopyReg(pic16_framepnt_lo)))); pc = pct;
// }
-
+
pic16_pCodeInsertAfter(pc, pct=pic16_newpCode(POC_LFSR, pic16_popGetLit2(0, pic16_popGetWithString(r->name)))); pc = pct;
pic16_pCodeInsertAfter(pc, pct=pic16_newpCode(POC_MOVLW, pic16_popGetLit( count ))); pc = pct;
pic16_pCodeInsertAfter(pc, pct=pic16_newpCode(POC_CALL, pic16_popGetWithString( fname[ (entry==1?0:1) ] ))); pc = pct;
// pic16_popCopyReg(pic16_framepnt_lo), pic16_popCopyReg(&pic16_pc_fsr0l)))); pc = pct;
// }
-
+
{
symbol *sym;
sym = newSymbol( fname[ entry?0:1 ], 0 );
strcpy(sym->rname, fname[ entry?0:1 ]);
checkAddSym(&externs, sym);
-
+
// fprintf(stderr, "%s:%d adding extern symbol %s in externs\n", __FILE__, __LINE__, fname[ entry?0:1 ]);
}
int inEntry=0;
char *curFunc=NULL;
- /* Overview:
- * local_regs begin mark
- * MOVFF r0x01, POSTDEC1
- * MOVFF r0x02, POSTDEC1
- * ...
- * ...
- * MOVFF r0x0n, POSTDEC1
- * local_regs end mark
- *
- * convert the above to the below:
- * MOVLW starting_register_index
- * MOVWF PRODL
- * MOVLW register_count
- * call __save_registers_in_stack
- */
+ /* Overview:
+ * local_regs begin mark
+ * MOVFF r0x01, POSTDEC1
+ * MOVFF r0x02, POSTDEC1
+ * ...
+ * ...
+ * MOVFF r0x0n, POSTDEC1
+ * local_regs end mark
+ *
+ * convert the above to the below:
+ * MOVLW starting_register_index
+ * MOVWF PRODL
+ * MOVLW register_count
+ * call __save_registers_in_stack
+ */
if(!the_pFile)
return;
firstr = lastr = NULL;
for(pc = pb->pcHead; pc; pc = pc->next) {
- /* hold current function name */
- if(pc && isPCF(pc))curFunc = PCF(pc)->fname;
-
+ /* hold current function name */
+ if(pc && isPCF(pc))curFunc = PCF(pc)->fname;
+
if(pc && (pc->type == PC_INFO)) {
pci = PCINF(pc);
if(pci->type == INF_LOCALREGS) {
pclr = PCOLR(pci->oper1);
-
+
if((pclr->type == LR_ENTRY_BEGIN)
|| (pclr->type == LR_ENTRY_END))inEntry = 1;
else inEntry = 0;
-
+
switch(pclr->type) {
case LR_ENTRY_BEGIN:
case LR_EXIT_BEGIN:
- inRegCount = 1; regCount = 0;
- pcstart = pc; //pic16_findNextInstruction(pc->next);
- firstr = lastr = NULL;
- break;
-
+ inRegCount = 1; regCount = 0;
+ pcstart = pc; //pic16_findNextInstruction(pc->next);
+ firstr = lastr = NULL;
+ break;
+
case LR_ENTRY_END:
case LR_EXIT_END:
- inRegCount = -1;
- pcend = pc; //pic16_findPrevInstruction(pc->prev);
+ inRegCount = -1;
+ pcend = pc; //pic16_findPrevInstruction(pc->prev);
#if 1
- if(curFunc && inWparamList(curFunc+1)) {
- fprintf(stderr, "sdcc: %s: warning: disabling lr-support for functionn %s\n",
- filename, curFunc);
- } else {
+ if(curFunc && inWparamList(curFunc+1)) {
+ fprintf(stderr, "sdcc: %s: warning: disabling lr-support for functionn %s\n",
+ filename, curFunc);
+ } else {
if(regCount>2) {
- pic16_convertLocalRegs2Support(pcstart, pcend, regCount,
- firstr, inEntry);
+ pic16_convertLocalRegs2Support(pcstart, pcend, regCount,
+ firstr, inEntry);
}
}
#endif
firstr = lastr = NULL;
- break;
+ break;
}
-
+
if(inRegCount == -1) {
// fprintf(stderr, "%s:%d registers used [%s] %d\n", __FILE__, __LINE__, inEntry?"entry":"exit", regCount);
regCount = 0;
}
}
}
-
-
+
+
pc = setFirstItem(pb->function_entries);
while(pc) {
-
+
if((pc->type == PC_FUNCTION) &&
- (PCF(pc)->fname) &&
- (strcmp(fname, PCF(pc)->fname)==0))
- return pc;
+ (PCF(pc)->fname) &&
+ (strcmp(fname, PCF(pc)->fname)==0))
+ return pc;
pc = setNextItem(pb->function_entries);
return NULL;
}
+#if 0
static void MarkUsedRegisters(set *regset)
{
regs *r1,*r2;
for(r1=setFirstItem(regset); r1; r1=setNextItem(regset)) {
-// fprintf(stderr, "marking register = %s\t", r1->name);
+// fprintf(stderr, "marking register = %s\t", r1->name);
r2 = pic16_regWithIdx(r1->rIdx);
-// fprintf(stderr, "to register = %s\n", r2->name);
+// fprintf(stderr, "to register = %s\n", r2->name);
r2->isFree = 0;
r2->wasUsed = 1;
}
}
+#endif
static void pBlockStats(FILE *of, pBlock *pb)
{
pCode *pc;
regs *r;
- if(!pic16_pcode_verbose)return;
-
+ if(!pic16_pcode_verbose)return;
+
fprintf(of,";***\n; pBlock Stats: dbName = %c\n;***\n",getpBlock_dbName(pb));
// for now just print the first element of each set
while(pc) {
if(pc->type == PC_OPCODE && PCI(pc)->op == POC_CALL) {
- fprintf(of,"; %s\n",pic16_get_op_from_instruction(PCI(pc)));
+ fprintf(of,"; %s\n",pic16_get_op_from_instruction(PCI(pc)));
}
pc = setNextItem(pb->function_calls);
}
r = setNextItem(pb->tregisters);
}
}
-
+
fprintf(of, "; uses %d bytes of stack\n", 1+ elementsInSet(pb->tregisters));
}
}
#endif
+#if 0
/*-----------------------------------------------------------------*/
/*-----------------------------------------------------------------*/
static set *register_usage(pBlock *pb)
char *dest = pic16_get_op_from_instruction(PCI(pc));
pcn = findFunction(dest);
- if(pcn)
- registersInCallPath = register_usage(pcn->pb);
+ if(pcn)
+ registersInCallPath = register_usage(pcn->pb);
} else
fprintf(stderr,"BUG? pCode isn't a POC_CALL %d\n",__LINE__);
while(r2 && (r1->type != REG_STK)) {
- if(r2->rIdx == r1->rIdx) {
- newreg = pic16_findFreeReg(REG_GPR);
-
-
- if(!newreg) {
- DFPRINTF((stderr,"Bummer, no more registers.\n"));
- exit(1);
- }
-
- DFPRINTF((stderr,"Cool found register collision nIdx=%d moving to %d\n",
- r1->rIdx, newreg->rIdx));
- r2->rIdx = newreg->rIdx;
- //if(r2->name) Safe_free(r2->name);
- if(newreg->name)
- r2->name = Safe_strdup(newreg->name);
- else
- r2->name = NULL;
- newreg->isFree = 0;
- newreg->wasUsed = 1;
- }
- r2 = setNextItem(pb->tregisters);
+ if(r2->rIdx == r1->rIdx) {
+ newreg = pic16_findFreeReg(REG_GPR);
+
+
+ if(!newreg) {
+ DFPRINTF((stderr,"Bummer, no more registers.\n"));
+ exit(1);
+ }
+
+ DFPRINTF((stderr,"Cool found register collision nIdx=%d moving to %d\n",
+ r1->rIdx, newreg->rIdx));
+ r2->rIdx = newreg->rIdx;
+ //if(r2->name) Safe_free(r2->name);
+ if(newreg->name)
+ r2->name = Safe_strdup(newreg->name);
+ else
+ r2->name = NULL;
+ newreg->isFree = 0;
+ newreg->wasUsed = 1;
+ }
+ r2 = setNextItem(pb->tregisters);
}
r1 = setNextItem(registersInCallPath);
r1 = setFirstItem(registersInCallPath);
while(r1) {
if(r1->type != REG_STK) {
- newreg = pic16_regWithIdx(r1->rIdx);
- newreg->isFree = 1;
+ newreg = pic16_regWithIdx(r1->rIdx);
+ newreg->isFree = 1;
}
r1 = setNextItem(registersInCallPath);
}
registers = unionSets(pb->tregisters, registersInCallPath, THROW_NONE);
#ifdef PCODE_DEBUG
- if(registers)
+ if(registers)
DFPRINTF((stderr,"returning regs\n"));
else
DFPRINTF((stderr,"not returning regs\n"));
return registers;
}
+#endif
/*-----------------------------------------------------------------*/
/* pct2 - writes the call tree to a file */
return;
if(indent > 10) {
- fprintf(of, "recursive function\n");
+ fprintf(of, "recursive function\n");
return; //recursion ?
}
pb->visited = 0;
for(i=0;i<indent;i++) // Indentation
- fputs("+ ", of);
+ fputs("+ ", of);
fputs("+- ", of);
if(pc->type == PC_FUNCTION) {
char *dest = pic16_get_op_from_instruction(PCI(pc));
pcn = findFunction(dest);
- if(pcn)
- pct2(of,pcn->pb,indent+1, usedstack); // + PCF(pcn)->stackusage);
+ if(pcn)
+ pct2(of,pcn->pb,indent+1, usedstack); // + PCF(pcn)->stackusage);
} else
fprintf(of,"BUG? pCode isn't a POC_CALL %d\n",__LINE__);
if(pbr->pc) {
pc = pbr->pc;
if(!ispCodeFunction(pc))
- fprintf(of,"bug in call tree");
+ fprintf(of,"bug in call tree");
fprintf(of,"Function: %s\n", PCF(pc)->fname);
while(pc->next && !ispCodeFunction(pc->next)) {
- pc = pc->next;
- if(pc->type == PC_OPCODE && PCI(pc)->op == POC_CALL)
- fprintf(of,"\t%s\n",pic16_get_op_from_instruction(PCI(pc)));
+ pc = pc->next;
+ if(pc->type == PC_OPCODE && PCI(pc)->op == POC_CALL)
+ fprintf(of,"\t%s\n",pic16_get_op_from_instruction(PCI(pc)));
}
}
pBranch *pbr;
- if(pcn && isPCF(pcn) && (PCF(pcn)->ncalled == 0)) { /* change 0 to 1 to enable inlining */
-
- //fprintf(stderr,"Cool can inline:\n");
- //pcn->print(stderr,pcn);
+ if(pcn && isPCF(pcn) && (PCF(pcn)->ncalled == 0)) { /* change 0 to 1 to enable inlining */
- //fprintf(stderr,"recursive call Inline\n");
- InlineFunction(pcn->pb);
- //fprintf(stderr,"return from recursive call Inline\n");
+ //fprintf(stderr,"Cool can inline:\n");
+ //pcn->print(stderr,pcn);
- /*
- At this point, *pc points to a CALL mnemonic, and
- *pcn points to the function that is being called.
+ //fprintf(stderr,"recursive call Inline\n");
+ InlineFunction(pcn->pb);
+ //fprintf(stderr,"return from recursive call Inline\n");
- To in-line this call, we need to remove the CALL
- and RETURN(s), and link the function pCode in with
- the CALLee pCode.
+ /*
+ At this point, *pc points to a CALL mnemonic, and
+ *pcn points to the function that is being called.
- */
+ To in-line this call, we need to remove the CALL
+ and RETURN(s), and link the function pCode in with
+ the CALLee pCode.
+ */
- /* Remove the CALL */
- pc_call = pc;
- pc = pc->prev;
- /* remove callee pBlock from the pBlock linked list */
- removepBlock(pcn->pb);
+ /* Remove the CALL */
+ pc_call = pc;
+ pc = pc->prev;
- pce = pcn;
- while(pce) {
- pce->pb = pb;
- pce = pce->next;
- }
+ /* remove callee pBlock from the pBlock linked list */
+ removepBlock(pcn->pb);
- /* Remove the Function pCode */
- pct = pic16_findNextInstruction(pcn->next);
-
- /* Link the function with the callee */
- pc->next = pcn->next;
- pcn->next->prev = pc;
-
- /* Convert the function name into a label */
-
- pbr = Safe_calloc(1,sizeof(pBranch));
- pbr->pc = pic16_newpCodeLabel(PCF(pcn)->fname, -1);
- pbr->next = NULL;
- PCI(pct)->label = pic16_pBranchAppend(PCI(pct)->label,pbr);
- PCI(pct)->label = pic16_pBranchAppend(PCI(pct)->label,PCI(pc_call)->label);
-
- /* turn all of the return's except the last into goto's */
- /* check case for 2 instruction pBlocks */
- pce = pic16_findNextInstruction(pcn->next);
- while(pce) {
- pCode *pce_next = pic16_findNextInstruction(pce->next);
-
- if(pce_next == NULL) {
- /* found the last return */
- pCode *pc_call_next = pic16_findNextInstruction(pc_call->next);
+ pce = pcn;
+ while(pce) {
+ pce->pb = pb;
+ pce = pce->next;
+ }
- //fprintf(stderr,"found last return\n");
- //pce->print(stderr,pce);
- pce->prev->next = pc_call->next;
- pc_call->next->prev = pce->prev;
- PCI(pc_call_next)->label = pic16_pBranchAppend(PCI(pc_call_next)->label,
- PCI(pce)->label);
- }
+ /* Remove the Function pCode */
+ pct = pic16_findNextInstruction(pcn->next);
+
+ /* Link the function with the callee */
+ pc->next = pcn->next;
+ pcn->next->prev = pc;
+
+ /* Convert the function name into a label */
+
+ pbr = Safe_calloc(1,sizeof(pBranch));
+ pbr->pc = pic16_newpCodeLabel(PCF(pcn)->fname, -1);
+ pbr->next = NULL;
+ PCI(pct)->label = pic16_pBranchAppend(PCI(pct)->label,pbr);
+ PCI(pct)->label = pic16_pBranchAppend(PCI(pct)->label,PCI(pc_call)->label);
+
+ /* turn all of the return's except the last into goto's */
+ /* check case for 2 instruction pBlocks */
+ pce = pic16_findNextInstruction(pcn->next);
+ while(pce) {
+ pCode *pce_next = pic16_findNextInstruction(pce->next);
+
+ if(pce_next == NULL) {
+ /* found the last return */
+ pCode *pc_call_next = pic16_findNextInstruction(pc_call->next);
+
+ //fprintf(stderr,"found last return\n");
+ //pce->print(stderr,pce);
+ pce->prev->next = pc_call->next;
+ pc_call->next->prev = pce->prev;
+ PCI(pc_call_next)->label = pic16_pBranchAppend(PCI(pc_call_next)->label,
+ PCI(pce)->label);
+ }
- pce = pce_next;
- }
+ pce = pce_next;
+ }
}
for( ; pc; pc = setNextItem(pb->function_calls)) {
if(isCALL(pc)) {
- pCode *pcn = findFunction(pic16_get_op_from_instruction(PCI(pc)));
- if(pcn && isPCF(pcn)) {
- PCF(pcn)->ncalled++;
- }
+ pCode *pcn = findFunction(pic16_get_op_from_instruction(PCI(pc)));
+ if(pcn && isPCF(pcn)) {
+ PCF(pcn)->ncalled++;
+ }
} else
- fprintf(stderr,"BUG? pCode isn't a POC_CALL %d\n",__LINE__);
+ fprintf(stderr,"BUG? pCode isn't a POC_CALL %d\n",__LINE__);
}
}
/* Now, Loop through the function definitions again, but this
* time inline those functions that have only been called once. */
-
+
InlineFunction(the_pFile->pbHead);
//fprintf(stderr,"inlining %d\n",__LINE__);
}
char *pic_optype_names[]={
- "PO_NONE", // No operand e.g. NOP
- "PO_W", // The working register (as a destination)
- "PO_WREG", // The working register (as a file register)
- "PO_STATUS", // The 'STATUS' register
- "PO_BSR", // The 'BSR' register
- "PO_FSR0", // The "file select register" (in PIC18 family it's one
- // of three)
- "PO_INDF0", // The Indirect register
- "PO_INTCON", // Interrupt Control register
- "PO_GPR_REGISTER", // A general purpose register
- "PO_GPR_BIT", // A bit of a general purpose register
- "PO_GPR_TEMP", // A general purpose temporary register
- "PO_SFR_REGISTER", // A special function register (e.g. PORTA)
- "PO_PCL", // Program counter Low register
- "PO_PCLATH", // Program counter Latch high register
- "PO_PCLATU", // Program counter Latch upper register
- "PO_PRODL", // Product Register Low
- "PO_PRODH", // Product Register High
- "PO_LITERAL", // A constant
- "PO_REL_ADDR", // A relative address
- "PO_IMMEDIATE", // (8051 legacy)
- "PO_DIR", // Direct memory (8051 legacy)
- "PO_CRY", // bit memory (8051 legacy)
- "PO_BIT", // bit operand.
- "PO_STR", // (8051 legacy)
- "PO_LABEL",
- "PO_WILD" // Wild card operand in peep optimizer
+ "PO_NONE", // No operand e.g. NOP
+ "PO_W", // The working register (as a destination)
+ "PO_WREG", // The working register (as a file register)
+ "PO_STATUS", // The 'STATUS' register
+ "PO_BSR", // The 'BSR' register
+ "PO_FSR0", // The "file select register" (in PIC18 family it's one
+ // of three)
+ "PO_INDF0", // The Indirect register
+ "PO_INTCON", // Interrupt Control register
+ "PO_GPR_REGISTER", // A general purpose register
+ "PO_GPR_BIT", // A bit of a general purpose register
+ "PO_GPR_TEMP", // A general purpose temporary register
+ "PO_SFR_REGISTER", // A special function register (e.g. PORTA)
+ "PO_PCL", // Program counter Low register
+ "PO_PCLATH", // Program counter Latch high register
+ "PO_PCLATU", // Program counter Latch upper register
+ "PO_PRODL", // Product Register Low
+ "PO_PRODH", // Product Register High
+ "PO_LITERAL", // A constant
+ "PO_REL_ADDR", // A relative address
+ "PO_IMMEDIATE", // (8051 legacy)
+ "PO_DIR", // Direct memory (8051 legacy)
+ "PO_CRY", // bit memory (8051 legacy)
+ "PO_BIT", // bit operand.
+ "PO_STR", // (8051 legacy)
+ "PO_LABEL",
+ "PO_WILD", // Wild card operand in peep optimizer
+ "PO_TWO_OPS" // combine two operands
};
char *dumpPicOptype(PIC_OPTYPE type)
{
- return (pic_optype_names[ type ]);
+ assert( type >= 0 && type < sizeof(pic_optype_names)/sizeof( char *) );
+ return (pic_optype_names[ type ]);
}
{
char *s1 = (char*) sym1;
char *s2 = (char*) sym2;
-
+
return (strcmp (s1,s2) == 0);
}
/* getSymbolFromOperand - return a pointer to the symbol in */
/* the given operand and its length */
/*----------------------------------------------------------*/
-char *getSymbolFromOperand (char *op, unsigned int *len)
+char *getSymbolFromOperand (char *op, int *len)
{
char *sym, *curr;
*len = 0;
curr = sym;
while (((*curr >= 'A') && (*curr <= 'Z'))
- || ((*curr >= 'a') && (*curr <= 'z'))
- || ((curr != sym) && (*curr >= '0') && (*curr <= '9'))
- || (*curr == '_')) {
+ || ((*curr >= 'a') && (*curr <= 'z'))
+ || ((curr != sym) && (*curr >= '0') && (*curr <= '9'))
+ || (*curr == '_')) {
// find end of symbol [A-Za-z_]?[A-Za-z0-9]*
curr++;
(*len)++;
// check for inline assembler BANKSELs
if (isPCAD(pc) && PCAD(pc)->directive && (STRCASECMP(PCAD(pc)->directive,"BANKSEL") == 0 ||
- STRCASECMP(PCAD(pc)->directive,"MOVLB") == 0)) {
+ STRCASECMP(PCAD(pc)->directive,"MOVLB") == 0)) {
//fprintf (stderr, "%s:%d: BANKSEL found: %s %s\n", __FUNCTION__, __LINE__, PCAD(pc)->directive, PCAD(pc)->arg);
return 1;
}
pseudoBankNr getBankFromBanksel (pCode *pc)
{
char *sym;
- int data = (int)NULL;
+ int data = 0;
if (!pc) return INVALID_BANK;
-
+
if (isPCAD(pc) && PCAD(pc)->directive) {
if (STRCASECMP(PCAD(pc)->directive,"BANKSEL") == 0) {
// get symbolname from PCAD(pc)->arg
assert (0 && "not yet implemented - turn off banksel optimization for now");
}
}
-
+
if (data == 0)
// no assigned bank could be found
return UNKNOWN_BANK;
data = (pseudoBank *) hTabFindByKey (coerce, bank % coerce->size, (void *) bank, &comparePtr);
if (data) {
if (data->bank != bank)
- bank = data->bank;
+ bank = data->bank;
else
- data = NULL;
+ data = NULL;
}
} while (data);
-
+
//fprintf (stderr, "%s:%d: effective bank=%d\n", __FUNCTION__, __LINE__, bank);
return bank;
}
unsigned int prevBSR = UNKNOWN_BANK, pseudoBSR = UNKNOWN_BANK;
int isBankselect = 0;
unsigned int banksels=0;
-
+
if (!pb) return 0;
pc = pic16_findNextInstruction(pb->pcHead);
pseudoBSR = getEffectiveBank (getBankFromBanksel(pc));
//fprintf (stderr, "BANKSEL via "); pc->print (stderr, pc);
if (mod) {
- if (prevBSR == pseudoBSR && pseudoBSR >= 0) {
- //fprintf (stderr, "removing redundant "); pc->print (stderr, pc);
- if (1 || pic16_pcode_verbose) pic16_pCodeInsertAfter (pc->prev, pic16_newpCodeCharP("removed redundant BANKSEL"));
- pic16_unlinkpCode (pc);
- banksels++;
- }
+ if (prevBSR == pseudoBSR && pseudoBSR >= 0) {
+ //fprintf (stderr, "removing redundant "); pc->print (stderr, pc);
+ if (1 || pic16_pcode_verbose) pic16_pCodeInsertAfter (pc->prev, pic16_newpCodeCharP("removed redundant BANKSEL"));
+ pic16_unlinkpCode (pc);
+ banksels++;
+ }
} else {
- addGEdge2 (getOrAddGNode (adj, NULL, prevBSR), getOrAddGNode (adj, NULL, pseudoBSR), 1, 0);
- banksels++;
+ addGEdge2 (getOrAddGNode (adj, NULL, prevBSR), getOrAddGNode (adj, NULL, pseudoBSR), 1, 0);
+ banksels++;
}
} // if
/* bank so that we can make sure the bytes are laid out sequentially in memory) */
/* TODO: Symbols with an abslute address must be handled specially! */
/*------------------------------------------------------------------------------------*/
-int assignToSameBank (int bank0, int bank1, int doAbs)
+int assignToSameBank (int bank0, int bank1, int doAbs, int force)
{
int eff0, eff1, dummy;
pseudoBank *pbank0, *pbank1;
#if 0
fprintf (stderr, "bank #%d/%d & bank #%d/%d --> bank #%d: %u (%s & %s)\n", bank0, eff0, bank1, eff1,
- pbank0->bank, pbank0->size,
- getSymFromBank (eff0), getSymFromBank (eff1));
+ pbank0->bank, pbank0->size,
+ getSymFromBank (eff0), getSymFromBank (eff1));
#endif
if (pbank1) {
- if (pbank0->size + pbank1->size > MAX_COMMON_BANK_SIZE) {
+ if (!force && (pbank0->size + pbank1->size > MAX_COMMON_BANK_SIZE)) {
#if 0
fprintf (stderr, "bank #%d: %u, bank #%d: %u --> bank #%d': %u > %u (%s,%s)\n",
- pbank0->bank, pbank0->size, pbank1->bank, pbank1->size,
- pbank0->bank, pbank0->size + pbank1->size, MAX_COMMON_BANK_SIZE,
- getSymFromBank (pbank0->bank), getSymFromBank (pbank1->bank));
+ pbank0->bank, pbank0->size, pbank1->bank, pbank1->size,
+ pbank0->bank, pbank0->size + pbank1->size, MAX_COMMON_BANK_SIZE,
+ getSymFromBank (pbank0->bank), getSymFromBank (pbank1->bank));
#endif
return 1;
} // if
if (hitem)
hitem->item = pbank0;
- else
+ else
hTabAddItemLong (&coerce, eff1 % coerce->size, (void *)((char*)0+eff1), (void *) pbank0);
pbank0->ref++;
assert (node1 && node2);
assert (node1 != node2);
-
+
// add all edges starting at node2 to node1
edge = node2->edge;
while (edge) {
remGEdge (node, node2);
edge = nextedge;
} // while
-
+
// now node2 should not be referenced by any other GraphNode...
//remGNode (adj, node2->data, node2->hash);
}
} else {
size = 1;
}
-
+
fprintf (stderr, "edges from %s (bank %u, size %u) to:\n", getSymFromBank (node->hash), bankNr, size);
while (edge) {
if (edge->weight > 0)
- fprintf (stderr, " %4u x %s\n", edge->weight, getSymFromBank (edge->node->hash));
+ fprintf (stderr, " %4u x %s\n", edge->weight, getSymFromBank (edge->node->hash));
edge = edge->next;
} // while (edge)
node = node->next;
pBlock *pb;
set *set;
regs *reg;
- unsigned int bankselsTotal = 0, bankselsRemoved = 0;
+ unsigned int bankselsTotal = 0, bankselsRemoved = 0;
//fprintf (stderr, "%s:%s:%d: entered.\n", __FILE__, __FUNCTION__, __LINE__);
bankNr = reg->address >> 8;
node = getOrAddGNode (adj, NULL, bankNr);
bankNr = (pseudoBankNr) getEffectiveBank (getPseudoBankNrFromOperand(reg->name));
- assignToSameBank (node->hash, bankNr, 1);
-
+ assignToSameBank (node->hash, bankNr, 1, 1);
+
assert (bankNr >= 0);
pbank = (pseudoBank *) hTabFindByKey (coerce, bankNr % coerce->size, (void *) bankNr, &comparePtr);
if (!pbank) {
} else {
assert (pbank->bank == (reg->address >> 8));
pbank->bank = reg->address >> 8; //FIXED_BANK;
+ pbank->size++;
}
//fprintf (stderr, "ABS: %s (%d bytes) at %x in bank %u\n", reg->name, reg->size, reg->address, bankNr);
} // for reg
node1next = node1->next;
base_symbol1 = getSymbolFromOperand (getSymFromBank (getEffectiveBank (node1->hash)), &len1);
if (len0 == len1 && len0 > 0 && strncmp (base_symbol0, base_symbol1, len0) == 0) {
- // TODO: check for symbols with absolute addresses -- these might be placed across bank boundaries!
- //fprintf (stderr, "merging %s and %s\n", getSymFromBank (getEffectiveBank(node->hash)), getSymFromBank (getEffectiveBank(node1->hash)));
- if (assignToSameBank (node->hash, node1->hash, 0)) {
- fprintf (stderr, "%s(%d) == %s(%d)\n", base_symbol0, len0, base_symbol1, len1);
- assert (0 && "Could not assign a symbol to a bank!");
- }
- mergeGraphNodes (node, node1);
- /*
- if (node->hash < node1->hash)
- mergeGraphNodes (node, node1);
- else
- mergeGraphNodes (node1, node); // this removes node so node->next will fail...
- */
+ int res;
+ // TODO: check for symbols with absolute addresses -- these might be placed across bank boundaries!
+ //fprintf (stderr, "merging %s and %s\n", getSymFromBank (getEffectiveBank(node->hash)), getSymFromBank (getEffectiveBank(node1->hash)));
+ if (0 != (res = assignToSameBank (node->hash, node1->hash, 0, 1))) {
+ fprintf (stderr, "%s(%d) == %s(%d), res=%d\n", base_symbol0, len0, base_symbol1, len1, res);
+ assert (0 && "Could not assign a symbol to a bank!");
+ }
+ mergeGraphNodes (node, node1);
+ /*
+ if (node->hash < node1->hash)
+ mergeGraphNodes (node, node1);
+ else
+ mergeGraphNodes (node1, node); // this removes node so node->next will fail...
+ */
} // if
node1 = node1next;
} // while (node1)
if (curr0 < 0) { node = node->next; continue; }
edge = node->edge;
while (edge) {
- assert (edge->src == node);
- backedge = getGEdge (edge->node, edge->src);
- weight = edge->weight + (backedge ? backedge->weight : 0);
- curr1 = getEffectiveBank (edge->node->hash);
- if (curr1 < 0) { edge = edge->next; continue; }
-
- // merging is only useful if the items are not assigned to the same bank already...
- if (curr0 != curr1 && weight > maxWeight) {
- if (maxWeight > absMaxWeight) absMaxWeight = maxWeight;
- maxWeight = weight;
- max = edge;
- } // if
- edge = edge->next;
+ assert (edge->src == node);
+ backedge = getGEdge (edge->node, edge->src);
+ weight = edge->weight + (backedge ? backedge->weight : 0);
+ curr1 = getEffectiveBank (edge->node->hash);
+ if (curr1 < 0) { edge = edge->next; continue; }
+
+ // merging is only useful if the items are not assigned to the same bank already...
+ if (curr0 != curr1 && weight > maxWeight) {
+ if (maxWeight > absMaxWeight) absMaxWeight = maxWeight;
+ maxWeight = weight;
+ max = edge;
+ } // if
+ edge = edge->next;
} // while
node = node->next;
} // while
-
+
if (maxWeight > 0) {
#if 0
fprintf (stderr, "%s:%d: merging (%4u) %d(%s) and %d(%s)\n", __FUNCTION__, __LINE__, maxWeight,
- max->src->hash, getSymFromBank (max->src->hash),
- max->node->hash, getSymFromBank (max->node->hash));
+ max->src->hash, getSymFromBank (max->src->hash),
+ max->node->hash, getSymFromBank (max->node->hash));
#endif
node = getGNode (adj, max->src->data, max->src->hash);
node1 = getGNode (adj, max->node->data, max->node->hash);
- if (0 == assignToSameBank (max->src->hash, max->node->hash, 0)) {
- if (max->src->hash < max->node->hash)
- mergeGraphNodes (node, node1);
- else
- mergeGraphNodes (node1, node);
+ if (0 == assignToSameBank (max->src->hash, max->node->hash, 0, 0)) {
+ if (max->src->hash < max->node->hash)
+ mergeGraphNodes (node, node1);
+ else
+ mergeGraphNodes (node1, node);
} else {
- remGEdge (node, node1);
- remGEdge (node1, node);
- //mergeMore = 0;
+ remGEdge (node, node1);
+ remGEdge (node1, node);
+ //mergeMore = 0;
}
} else {
} // while
#endif
-#if 1
+#if 1
// remove redundant BANKSELs
//fprintf (stderr, "removing redundant BANKSELs\n");
for (pb = the_pFile->pbHead; pb; pb = pb->next) {
pCode *pcprev, *pcnext;
char buf[256], *total=NULL;
int len;
-
+
if (!comment) comment = "=DF= pCode removed by pic16_safepCodeUnlink";
pcprev = pic16_findPrevInstruction (pc->prev);
pcnext = pic16_findNextInstruction (pc->next);
-
+
/* move labels to next instruction (if possible) */
if (PCI(pc)->label && !pcnext) return 0;
/* if this is a SKIP with side-effects -- do not remove */
/* XXX: might try to replace this one with the side-effect only version */
if (isPCI_SKIP(pc)
- && ((PCI(pc)->outCond & (PCC_REGISTER | PCC_W)) != 0))
+ && ((PCI(pc)->outCond & (PCC_REGISTER | PCC_W)) != 0))
{
pCode *newpc;
switch (PCI(pc)->op)
PCI(pcnext)->label = pic16_pBranchAppend (PCI(pc)->label, PCI(pcnext)->label);
PCI(pc)->label = NULL;
}
-
+
/* update statistics */
pic16_df_removed_pcodes++;
if (isPCI(pc)) pic16_df_saved_bytes += PCI(pc)->isize;
-
+
/* remove the pCode */
pic16_pCode2str (buf, 256, pc);
//fprintf (stderr, "%s: removing pCode: %s\n", __FUNCTION__, buf);
/* === SYMBOL HANDLING ==================================================== */
/* ======================================================================== */
-static hTab *map_strToSym = NULL; /** (char *) --> symbol_t */
-static hTab *map_symToStr = NULL; /** symbol_t -> (char *) */
-static symbol_t nextSymbol = 0x2000; /** next symbol_t assigned to the next generated symbol */
+static hTab *map_strToSym = NULL; /** (char *) --> symbol_t */
+static hTab *map_symToStr = NULL; /** symbol_t -> (char *) */
+static symbol_t nextSymbol = 0x2000; /** next symbol_t assigned to the next generated symbol */
/** Calculate a hash for a given string.
* If len == 0 the string is assumed to be NUL terminated. */
}
enum { SPO_WREG=0x1000,
- SPO_STATUS,
- SPO_PRODL,
- SPO_PRODH,
- SPO_INDF0,
- SPO_POSTDEC0,
- SPO_POSTINC0,
- SPO_PREINC0,
- SPO_PLUSW0,
- SPO_INDF1,
- SPO_POSTDEC1,
- SPO_POSTINC1,
- SPO_PREINC1,
- SPO_PLUSW1,
- SPO_INDF2,
- SPO_POSTDEC2,
- SPO_POSTINC2,
- SPO_PREINC2,
- SPO_PLUSW2,
- SPO_STKPTR,
- SPO_TOSL,
- SPO_TOSH,
- SPO_TOSU,
- SPO_BSR,
- SPO_FSR0L,
- SPO_FSR0H,
- SPO_FSR1L,
- SPO_FSR1H,
- SPO_FSR2L,
- SPO_FSR2H,
- SPO_PCL,
- SPO_PCLATH,
- SPO_PCLATU,
- SPO_TABLAT,
- SPO_TBLPTRL,
- SPO_TBLPTRH,
- SPO_TBLPTRU,
- SPO_LAST
+ SPO_STATUS,
+ SPO_PRODL,
+ SPO_PRODH,
+ SPO_INDF0,
+ SPO_POSTDEC0,
+ SPO_POSTINC0,
+ SPO_PREINC0,
+ SPO_PLUSW0,
+ SPO_INDF1,
+ SPO_POSTDEC1,
+ SPO_POSTINC1,
+ SPO_PREINC1,
+ SPO_PLUSW1,
+ SPO_INDF2,
+ SPO_POSTDEC2,
+ SPO_POSTINC2,
+ SPO_PREINC2,
+ SPO_PLUSW2,
+ SPO_STKPTR,
+ SPO_TOSL,
+ SPO_TOSH,
+ SPO_TOSU,
+ SPO_BSR,
+ SPO_FSR0L,
+ SPO_FSR0H,
+ SPO_FSR1L,
+ SPO_FSR1H,
+ SPO_FSR2L,
+ SPO_FSR2H,
+ SPO_PCL,
+ SPO_PCLATH,
+ SPO_PCLATU,
+ SPO_TABLAT,
+ SPO_TBLPTRL,
+ SPO_TBLPTRH,
+ SPO_TBLPTRU,
+ SPO_LAST
};
/* Return the unique symbol_t for the given string. */
if (!map_symToStr) {
int i;
struct { char *name; symbol_t sym; } predefsyms[] = {
- {"WREG", SPO_WREG},
- {"STATUS", SPO_STATUS},
- {"PRODL", SPO_PRODL},
- {"PRODH", SPO_PRODH},
- {"INDF0", SPO_INDF0},
- {"POSTDEC0", SPO_POSTDEC0},
- {"POSTINC0", SPO_POSTINC0},
- {"PREINC0", SPO_PREINC0},
- {"PLUSW0", SPO_PLUSW0},
- {"INDF1", SPO_INDF1},
- {"POSTDEC1", SPO_POSTDEC1},
- {"POSTINC1", SPO_POSTINC1},
- {"PREINC1", SPO_PREINC1},
- {"PLUSW1", SPO_PLUSW1},
- {"INDF2", SPO_INDF2},
- {"POSTDEC2", SPO_POSTDEC2},
- {"POSTINC2", SPO_POSTINC2},
- {"PREINC2", SPO_PREINC2},
- {"PLUSW2", SPO_PLUSW2},
- {"STKPTR", SPO_STKPTR},
- {"TOSL", SPO_TOSL},
- {"TOSH", SPO_TOSH},
- {"TOSU", SPO_TOSU},
- {"BSR", SPO_BSR},
- {"FSR0L", SPO_FSR0L},
- {"FSR0H", SPO_FSR0H},
- {"FSR1L", SPO_FSR1L},
- {"FSR1H", SPO_FSR1H},
- {"FSR2L", SPO_FSR2L},
- {"FSR2H", SPO_FSR2H},
- {"PCL", SPO_PCL},
- {"PCLATH", SPO_PCLATH},
- {"PCLATU", SPO_PCLATU},
- {"TABLAT", SPO_TABLAT},
- {"TBLPTRL", SPO_TBLPTRL},
- {"TBLPTRH", SPO_TBLPTRH},
- {"TBLPTRU", SPO_TBLPTRU},
- {NULL, 0}
+ {"WREG", SPO_WREG},
+ {"STATUS", SPO_STATUS},
+ {"PRODL", SPO_PRODL},
+ {"PRODH", SPO_PRODH},
+ {"INDF0", SPO_INDF0},
+ {"POSTDEC0", SPO_POSTDEC0},
+ {"POSTINC0", SPO_POSTINC0},
+ {"PREINC0", SPO_PREINC0},
+ {"PLUSW0", SPO_PLUSW0},
+ {"INDF1", SPO_INDF1},
+ {"POSTDEC1", SPO_POSTDEC1},
+ {"POSTINC1", SPO_POSTINC1},
+ {"PREINC1", SPO_PREINC1},
+ {"PLUSW1", SPO_PLUSW1},
+ {"INDF2", SPO_INDF2},
+ {"POSTDEC2", SPO_POSTDEC2},
+ {"POSTINC2", SPO_POSTINC2},
+ {"PREINC2", SPO_PREINC2},
+ {"PLUSW2", SPO_PLUSW2},
+ {"STKPTR", SPO_STKPTR},
+ {"TOSL", SPO_TOSL},
+ {"TOSH", SPO_TOSH},
+ {"TOSU", SPO_TOSU},
+ {"BSR", SPO_BSR},
+ {"FSR0L", SPO_FSR0L},
+ {"FSR0H", SPO_FSR0H},
+ {"FSR1L", SPO_FSR1L},
+ {"FSR1H", SPO_FSR1H},
+ {"FSR2L", SPO_FSR2L},
+ {"FSR2H", SPO_FSR2H},
+ {"PCL", SPO_PCL},
+ {"PCLATH", SPO_PCLATH},
+ {"PCLATU", SPO_PCLATU},
+ {"TABLAT", SPO_TABLAT},
+ {"TBLPTRL", SPO_TBLPTRL},
+ {"TBLPTRH", SPO_TBLPTRH},
+ {"TBLPTRU", SPO_TBLPTRU},
+ {NULL, 0}
};
map_strToSym = newHashTable (128);
}
hash = symbolHash (str, 0) % map_strToSym->size;
-
+
/* find symbol in table */
sym = PTR_TO_INT(hTabFindByKey (map_strToSym, hash, str, &symcmp));
if (sym) {
hTabAddItemLong (&map_symToStr, sym % map_symToStr->size, INT_TO_PTR(sym), res);
//fprintf (stderr, "created symbol %x for %s\n", sym, res);
-
+
return sym;
}
*/
typedef struct defmap_s {
- symbol_t sym; /** symbol this item refers to */
+ symbol_t sym; /** symbol this item refers to */
union {
struct {
- unsigned int in_mask:8; /** mask leaving in accessed bits */
- unsigned int mask:8; /** mask leaving in modified bits (if isWrite) */
- int isRead:1; /** sym/mask is read */
- int isWrite:1; /** sym/mask is written */
+ unsigned int in_mask:8; /** mask leaving in accessed bits */
+ unsigned int mask:8; /** mask leaving in modified bits (if isWrite) */
+ int isRead:1; /** sym/mask is read */
+ int isWrite:1; /** sym/mask is written */
} access;
int accessmethod;
} acc;
- pCode *pc; /** pCode this symbol is refrenced at */
- valnum_t in_val; /** valnum_t of symbol's previous value (the one read at pc) */
- valnum_t val; /** new unique number for this value (if isWrite) */
- struct defmap_s *prev, *next; /** link to previous an next definition */
+ pCode *pc; /** pCode this symbol is refrenced at */
+ valnum_t in_val; /** valnum_t of symbol's previous value (the one read at pc) */
+ valnum_t val; /** new unique number for this value (if isWrite) */
+ struct defmap_s *prev, *next; /** link to previous an next definition */
} defmap_t;
-static defmap_t *defmap_free = NULL; /** list of unused defmaps */
-static int defmap_free_count = 0; /** number of released defmap items */
+static defmap_t *defmap_free = NULL; /** list of unused defmaps */
+static int defmap_free_count = 0; /** number of released defmap items */
/* Returns a defmap_t with the specified data; this will be the new list head.
* next - pointer to the current list head */
static defmap_t *newDefmap (symbol_t sym, int in_mask, int mask, int isRead, int isWrite, pCode *pc, valnum_t val, defmap_t *next) {
defmap_t *map;
-
+
if (defmap_free) {
map = defmap_free;
defmap_free = map->next;
map->prev = NULL;
map->next = next;
if (next) next->prev = map;
-
+
return map;
}
newItem->prev = ref;
ref->next = newItem;
if (newItem->next) newItem->next->prev = newItem;
-
+
return 0;
}
defmap_t *dummy;
dummy = *head;
while (dummy && (dummy->sym != item->sym
- || dummy->pc != item->pc
- || dummy->acc.accessmethod != item->acc.accessmethod
- || dummy->val != item->val
- || dummy->in_val != item->in_val)) {
+ || dummy->pc != item->pc
+ || dummy->acc.accessmethod != item->acc.accessmethod
+ || dummy->val != item->val
+ || dummy->in_val != item->in_val)) {
dummy = dummy->next;
} // while
/* item already present? */
if (dummy) return 0;
-
+
/* otherwise: insert copy of item */
dummy = copyDefmap (item);
dummy->next = *head;
/* Releases a defmap. This also removes the map from its chain -- update the head manually! */
static void deleteDefmap (defmap_t *map) {
if (!map) return;
-
+
/* unlink from chain -- fails for the first item (head is not updated!) */
if (map->next) map->next->prev = map->prev;
if (map->prev) map->prev->next = map->next;
if (!_map) return;
map = *_map;
-
+
/* find list head */
while (map && map->prev) map = map->prev;
if (!_map) return;
map = (*_map);
-
+
/* find list head */
while (map->prev) map = map->prev;
}
/* Returns the most recent definition for the given symbol preceeding pc.
- * If no definition is found, NULL is returned.
+ * If no definition is found, NULL is returned.
* If pc == NULL the whole list is scanned. */
static defmap_t *defmapFindDef (defmap_t *map, symbol_t sym, pCode *pc) {
defmap_t *curr = map;
* If pc == NULL the whole list is scanned. */
static defmap_t *defmapFindUse (defmap_t *map, symbol_t sym, pCode *pc) {
defmap_t *curr = map, *prev = NULL;
-
+
if (pc) {
/* skip all definitions up to pc */
while (curr && (curr->pc != pc)) { prev = curr; curr = curr->next; }
}
#endif
-/* Return the defmap entry for sym AT pc.
+/* Return the defmap entry for sym AT pc.
* If none is found, NULL is returned.
* If more than one entry is found an assertion is triggered. */
static defmap_t *defmapCurr (defmap_t *map, symbol_t sym, pCode *pc) {
/* find definition of sym at pc */
while (m && m->pc == pc && (!m->acc.access.isWrite || (m->sym != sym))) m = m->next;
-
+
/* no definition found */
if (!m) return 1;
} // if
if (m) m = m->prev;
} // while
-
+
return 0;
}
/* Release all stackitems. */
static void releaseStack () {
stackitem_t *i;
-
+
while (free_stackitems) {
i = free_stackitems->next;
Safe_free(free_stackitems);
static void stackPush (dynstack_t *stack, void *data) {
stackitem_t *i;
-
+
if (free_stackitems) {
i = free_stackitems;
free_stackitems = free_stackitems->next;
static void *stackPop (dynstack_t *stack) {
void *data;
stackitem_t *i;
-
+
if (stack && *stack) {
data = (*stack)->data;
i = *stack;
defmap_t *map;
pCodeFlow *pcfl;
+ assert(pb);
+
pcfl = PCI(pic16_findNextInstruction (pb->pcHead))->pcflow;
/* find initial value (assigning pc == NULL) */
#endif
}
-/* Find all reaching definitions for sym at pc.
+/* Find all reaching definitions for sym at pc.
* A new (!) list of definitions is returned.
* Returns the number of reaching definitions found.
* The defining defmap entries are returned in *chain.
pCodeFlow *curr;
pCodeFlowLink *succ;
state_t *state;
- dynstack_t *todo; /** stack of state_t */
- dynstack_t *done; /** stack of state_t */
+ dynstack_t *todo; /** stack of state_t */
+ dynstack_t *done; /** stack of state_t */
int firstState, n_defs;
-
+
assert (pc && isPCI(pc) && PCI(pc)->pcflow);
assert (chain);
/* wildcard symbol? */
if (!sym) return 0;
-
+
//fprintf (stderr, "Searching definition of sym %s(%x) @ pc %p(%p)\n", strFromSym(sym), sym, pc, pc->pb);
-
+
map = PCI(pc)->pcflow->defmap;
res = defmapFindDef (map, sym, pc);
}
#endif
-
+
#define FORWARD_FLOW_ANALYSIS 1
#if defined FORWARD_FLOW_ANALYSIS && FORWARD_FLOW_ANALYSIS
/* no definition found in pc's flow preceeding pc */
/* there are no definitions BEFORE pc in pc's flow (see above) */
if (curr == PCI(pc)->pcflow) {
if (!res) {
- //fprintf (stderr, "symbol %s(%x) might be used uninitialized at %p\n", strFromSym(sym), sym, pc);
- res = pic16_pBlockAddInval (pc->pb, sym);
- if (defmapAddCopyIfNew (chain, res)) n_defs++;
- res = NULL;
+ //fprintf (stderr, "symbol %s(%x) might be used uninitialized at %p\n", strFromSym(sym), sym, pc);
+ res = pic16_pBlockAddInval (pc->pb, sym);
+ if (defmapAddCopyIfNew (chain, res)) n_defs++;
+ res = NULL;
} else {
//fprintf (stderr, "reaching definition for %s @ %p found @ %p (val: %x)\n", strFromSym(sym), pc, res->pc, res->val);
if (defmapAddCopyIfNew (chain, res)) n_defs++;
/* save last definition of sym in this flow as initial def in successors */
res = defmapFindDef (curr->defmap, sym, NULL);
if (!res) res = state->lastdef;
-
+
/* add successors to working list */
state = newState (NULL, NULL);
succ = (pCodeFlowLink *) setFirstItem (curr->to);
deleteState (state);
} // while
-#else // !FORWARD_FLOW_ANALYSIS
+#else // !FORWARD_FLOW_ANALYSIS
/* no definition found in pc's flow preceeding pc */
todo = newStack ();
if (!succ) {
//fprintf (stder, "sym %s might be used uninitialized at %p\n", strFromSym (sym), pc);
res = newDefmap (sym, 0xff, 0, 1, NULL, 0, *chain);
- if (defmapAddCopyIfNew (chain, res)) n_defs++;
- deleteDefmap (res); res = NULL;
+ if (defmapAddCopyIfNew (chain, res)) n_defs++;
+ deleteDefmap (res); res = NULL;
}
-
+
while (succ) {
//fprintf (stderr, " %p --> %p with %x\n", curr, succ->pcflow, res ? res->val : 0);
state->flow = succ->pcflow;
symbol_t sym;
valnum_t val;
void *res;
-
+
sym = symFromStr (str);
if (!map_symToValnum) {
/* return existing valnum */
if (res) return (valnum_t) PTR_TO_INT(res);
-
+
/* create new valnum */
val = newValnum();
hTabAddItemLong (&map_symToValnum, sym % map_symToValnum->size, INT_TO_PTR(sym), INT_TO_PTR(val));
assert (pc);
addSetHead (&reached, pc);
addSetHead (&checked, pc);
-
+
/* mark all further flows in block as "need to be reached" */
pc = pb->pcHead;
do {
/* mark as reached and "not need to be reached" */
deleteSetItem (&reached, pcfl);
//fprintf (stderr, "%s - checking %p\n" ,__FUNCTION__, pcfl);
-
+
/* flow is no longer considered unreachable */
deleteSetItem (&flowInBlock, pcfl);
for (succ = setFirstItem (pcfl->to); succ; succ = setNextItem (pcfl->to)) {
if (!isinSet (checked, succ->pcflow)) {
- /* flow has never been reached before */
+ /* flow has never been reached before */
addSetHead (&reached, succ->pcflow);
addSetHead (&checked, succ->pcflow);
} // if
#if 1
if (flowInBlock) {
- fprintf (stderr, "not all flows reached in %s:\n", pic16_pBlockGetFunctionName (pb));
+ fprintf (stderr, "not all flows reached in %s:\n", pic16_pBlockGetFunctionName (pb));
while (flowInBlock) {
pcfl = indexSet (flowInBlock, 0);
fprintf (stderr, "not reached: flow %p\n", pcfl);
} // while
}
#endif
-
+
/* clean up */
deleteSet (&reached);
deleteSet (&flowInBlock);
deleteSet (&checked);
-
+
/* if we reached every flow, succ is NULL by now... */
//assert (res); // will fire on unreachable code...
return (res);
#endif
/* Checks a flow for accesses to sym AFTER pc.
- *
+ *
* Returns -1 if the symbol is read in this flow (before redefinition),
* returns 0 if the symbol is redefined in this flow or
* returns a mask [0x01 -- 0xFF] indicating the bits still alive after this flow.
mappc = map;
/* scan list for reads at this pc first */
while (map && map->pc == mappc->pc) {
- /* is the symbol (partially) read? */
+ /* is the symbol (partially) read? */
if ((map->sym == sym) && (map->acc.access.isRead && ((map->acc.access.in_mask & mask) != 0))) {
- //if (sym != SPO_STATUS) fprintf (stderr, "%s: symbol %s read at pc %p\n", __FUNCTION__, strFromSym (sym), map->pc);
- return -1;
- }
- map = map->prev;
+ //if (sym != SPO_STATUS) fprintf (stderr, "%s: symbol %s read at pc %p\n", __FUNCTION__, strFromSym (sym), map->pc);
+ return -1;
+ }
+ map = map->prev;
} // while
map = mappc;
while (map && map->pc == mappc->pc) {
- /* honor (partial) redefinitions of sym */
- if ((map->sym == sym) && (map->acc.access.isWrite)) {
- mask &= ~map->acc.access.mask;
- //if (sym != SPO_STATUS) fprintf (stderr, "%s: symbol %s redefined at pc %p, alive mask: %x\n", __FUNCTION__, strFromSym (sym), map->pc, mask);
- }
- map = map->prev;
+ /* honor (partial) redefinitions of sym */
+ if ((map->sym == sym) && (map->acc.access.isWrite)) {
+ mask &= ~map->acc.access.mask;
+ //if (sym != SPO_STATUS) fprintf (stderr, "%s: symbol %s redefined at pc %p, alive mask: %x\n", __FUNCTION__, strFromSym (sym), map->pc, mask);
+ }
+ map = map->prev;
} // while
// } // if
/* map already points to the first defmap for the next pCode */
pCodeFlowLink *succ;
mask = 0x00ff;
-
+
assert (isPCI(pc));
pcfl = PCI(pc)->pcflow;
map = pcfl->defmap;
todo = newStack ();
done = newStack ();
-
+
state = newState (pcfl, (defmap_t *) INT_TO_PTR(mask));
stackPush (todo, state);
visit = 0;
-
+
while (!stackIsEmpty (todo)) {
state = (state_t *) stackPop (todo);
pcfl = state->flow;
if (stateIsNew (state, todo, done)) {
stackPush (todo, state);
} else {
- deleteState (state);
+ deleteState (state);
}
} // for
} // while
case SPO_POSTDEC2:
case SPO_PREINC2:
case SPO_PCL:
- return 1;
+ return 1;
default:
- /* no special effects known */
- return 0;
+ /* no special effects known */
+ return 0;
} // switch
return 0;
pCodeInstruction *pci;
defmap_t *map, *lastpc;
regs *checkreg;
-
+
/* we can only handle PCIs */
if (!isPCI(pc)) return 1;
/* NEVER remove instructions with implicit side effects */
switch (pci->op) {
case POC_TBLRD:
- case POC_TBLRD_POSTINC: /* modify TBLPTRx */
+ case POC_TBLRD_POSTINC: /* modify TBLPTRx */
case POC_TBLRD_POSTDEC:
case POC_TBLRD_PREINC:
- case POC_TBLWT: /* modify program memory */
- case POC_TBLWT_POSTINC: /* modify TBLPTRx */
+ case POC_TBLWT: /* modify program memory */
+ case POC_TBLWT_POSTINC: /* modify TBLPTRx */
case POC_TBLWT_POSTDEC:
case POC_TBLWT_PREINC:
- case POC_CLRWDT: /* clear watchdog timer */
- case POC_PUSH: /* should be safe to remove though... */
- case POC_POP: /* should be safe to remove though... */
+ case POC_CLRWDT: /* clear watchdog timer */
+ case POC_PUSH: /* should be safe to remove though... */
+ case POC_POP: /* should be safe to remove though... */
case POC_CALL:
case POC_RCALL:
case POC_RETFIE:
//fprintf (stderr, "%s: dest-reg not local %s\n", __FUNCTION__, checkreg ? checkreg->name : "<unknown>");
return 1;
}
-
+
#if 1
- /* OVERKILL: prevent us from removing reads from non-local variables
- * THIS IS HERE TO AVOID PROBLEMS WITH VOLATILE OPERANDS ONLY!
+ /* OVERKILL: prevent us from removing reads from non-local variables
+ * THIS IS HERE TO AVOID PROBLEMS WITH VOLATILE OPERANDS ONLY!
* Once registers get a "isVolatile" field this might be handled more efficiently... */
checkreg = NULL;
if (PCI(pc)->inCond & PCC_REGISTER) checkreg = pic16_getRegFromInstruction (pc);
return 1;
}
#endif
-
+
/* now check that the defined symbols are not used */
map = pci->pcflow->defmap;
-
+
/* find items for pc */
while (map && map->pc != pc) map = map->next;
/* remember first item assigned to pc for later use */
lastpc = map;
-
+
/* check all symbols being modified by pc */
while (map && map->pc == pc) {
if (map->sym == 0) { map = map->next; continue; }
if (map->acc.access.isWrite) {
if (pic16_isAlive (map->sym, pc)) {
//fprintf (stderr, "%s(%s): pCode is alive (sym %s still used)\n", __FUNCTION__, pic16_pBlockGetFunctionName (pc->pb),strFromSym (map->sym));
- return 1;
+ return 1;
}
}
map = map->next;
*list = newDefmap (SPO_FSR0L, 0xff, 0xff, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR0H, 0xff, 0xff, 1, 0, pc, 0, *list);
break;
-
+
case SPO_PLUSW0:
/* reads FSR0x and WREG */
*list = newDefmap (SPO_WREG, 0xff, 0x00, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR0L, 0xff, 0xff, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR0H, 0xff, 0xff, 1, 0, pc, 0, *list);
break;
-
+
case SPO_POSTDEC0:
case SPO_POSTINC0:
case SPO_PREINC0:
*list = newDefmap (SPO_FSR1L, 0xff, 0xff, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR1H, 0xff, 0xff, 1, 0, pc, 0, *list);
break;
-
+
case SPO_PLUSW1:
/* reads FSR1x and WREG */
*list = newDefmap (SPO_WREG, 0xff, 0x00, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR1L, 0xff, 0xff, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR1H, 0xff, 0xff, 1, 0, pc, 0, *list);
break;
-
+
case SPO_POSTDEC1:
case SPO_POSTINC1:
case SPO_PREINC1:
*list = newDefmap (SPO_FSR2L, 0xff, 0xff, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR2H, 0xff, 0xff, 1, 0, pc, 0, *list);
break;
-
+
case SPO_PLUSW2:
/* reads FSR2x and WREG */
*list = newDefmap (SPO_WREG, 0xff, 0x00, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR2L, 0xff, 0xff, 1, 0, pc, 0, *list);
*list = newDefmap (SPO_FSR2H, 0xff, 0xff, 1, 0, pc, 0, *list);
break;
-
+
case SPO_POSTDEC2:
case SPO_POSTINC2:
case SPO_PREINC2:
};
/* Merge multiple defmap entries for the same symbol for list's pCode. */
-static void mergeDefmapSymbols (defmap_t *list) {
+static void mergeDefmapSymbols (defmap_t *list) {
defmap_t *ref, *curr, *temp;
/* now make sure that each symbol occurs at most once per pc */
curr = ref->next;
while (curr && (curr->pc == list->pc)) {
if (curr->sym == ref->sym) {
- //fprintf (stderr, "Merging defmap entries for symbol %s\n", strFromSym (ref->sym));
- /* found a symbol occuring twice... merge the two */
- if (curr->acc.access.isRead) {
- //if (ref->acc.access.isRead) fprintf (stderr, "symbol %s was marked twice as read at pc %p\n", strFromSym (ref->sym), ref->pc);
- ref->acc.access.isRead = 1;
- ref->acc.access.in_mask |= curr->acc.access.in_mask;
- }
- if (curr->acc.access.isWrite) {
- //if (ref->acc.access.isWrite) fprintf (stderr, "symbol %s was marked twice as written at pc %p\n", strFromSym (ref->sym), ref->pc);
- ref->acc.access.isWrite = 1;
- ref->acc.access.mask |= curr->acc.access.mask;
- }
- temp = curr;
- curr = curr->next;
- deleteDefmap (temp);
- continue; // do not skip curr!
+ //fprintf (stderr, "Merging defmap entries for symbol %s\n", strFromSym (ref->sym));
+ /* found a symbol occuring twice... merge the two */
+ if (curr->acc.access.isRead) {
+ //if (ref->acc.access.isRead) fprintf (stderr, "symbol %s was marked twice as read at pc %p\n", strFromSym (ref->sym), ref->pc);
+ ref->acc.access.isRead = 1;
+ ref->acc.access.in_mask |= curr->acc.access.in_mask;
+ }
+ if (curr->acc.access.isWrite) {
+ //if (ref->acc.access.isWrite) fprintf (stderr, "symbol %s was marked twice as written at pc %p\n", strFromSym (ref->sym), ref->pc);
+ ref->acc.access.isWrite = 1;
+ ref->acc.access.mask |= curr->acc.access.mask;
+ }
+ temp = curr;
+ curr = curr->next;
+ deleteDefmap (temp);
+ continue; // do not skip curr!
} // if
curr = curr->next;
} // while
}
assert (isPCI(pc));
pci = PCI(pc);
-
+
/* handle bit instructions */
if (pci->isBitInst) {
assert (pci->pcop->type == PO_GPR_BIT);
list = newDefmap (SPO_TOSH, 0x00, 0xff, 0, 1, pc, newValnum (), list);
list = newDefmap (SPO_TOSU, 0x00, 0xff, 0, 1, pc, newValnum (), list);
break;
-
+
case POC_PUSH: // STKPTR
list = newDefmap (SPO_STKPTR, 0xff, 0xff, 1, 1, pc, newValnum (), list);
list = newDefmap (SPO_TOSL, 0xff, 0xff, 0, 1, pc, newValnum (), list);
list = newDefmap (SPO_TOSH, 0xff, 0xff, 0, 1, pc, newValnum (), list);
list = newDefmap (SPO_TOSU, 0xff, 0xff, 0, 1, pc, newValnum (), list);
break;
-
+
case POC_CALL: // return values (and arguments?): WREG, PRODx, FSR0L
case POC_RCALL: // return values (and arguments?): WREG, PRODx, FSR0L
list = newDefmap (SPO_WREG, 0xff, 0xff, 1, 1, pc, newValnum (), list);
list = newDefmap (SPO_FSR2L, 0xff, 0x00, 1, 0, pc, 0, list);
list = newDefmap (SPO_FSR2H, 0xff, 0x00, 1, 0, pc, 0, list);
break;
-
+
case POC_TBLRD:
list = newDefmap (SPO_TBLPTRL, 0xff, 0x00, 1, 0, pc, 0, list);
list = newDefmap (SPO_TBLPTRH, 0xff, 0x00, 1, 0, pc, 0, list);
list = newDefmap (SPO_TBLPTRU, 0xff, 0x00, 1, 0, pc, 0, list);
list = newDefmap (SPO_TABLAT, 0x00, 0xff, 0, 1, pc, newValnum(), list);
break;
-
+
case POC_TBLRD_POSTINC:
case POC_TBLRD_POSTDEC:
case POC_TBLRD_PREINC:
list = newDefmap (SPO_TBLPTRU, 0xff, 0xff, 1, 1, pc, newValnum(), list);
list = newDefmap (SPO_TABLAT, 0x00, 0xff, 0, 1, pc, newValnum(), list);
break;
-
+
case POC_TBLWT:
list = newDefmap (SPO_TBLPTRL, 0xff, 0x00, 1, 0, pc, 0, list);
list = newDefmap (SPO_TBLPTRH, 0xff, 0x00, 1, 0, pc, 0, list);
list = newDefmap (SPO_TBLPTRU, 0xff, 0x00, 1, 0, pc, 0, list);
list = newDefmap (SPO_TABLAT, 0xff, 0x00, 1, 0, pc, 0, list);
break;
-
+
case POC_TBLWT_POSTINC:
case POC_TBLWT_POSTDEC:
case POC_TBLWT_PREINC:
list = newDefmap (SPO_TBLPTRU, 0xff, 0xff, 1, 1, pc, newValnum(), list);
list = newDefmap (SPO_TABLAT, 0xff, 0x00, 1, 0, pc, 0, list);
break;
-
+
default:
/* many instruction implicitly read BSR... -- THIS IS IGNORED! */
break;
list = newDefmap (symFromStr ("STATUS"), smask, 0x00, 1, 0, pc, 0, list);
//fprintf (stderr, "pc %p: def STATUS & %02x\n", pc, smask);
} // if
-
+
if (outCond & PCC_STATUS) {
smask = 0;
if (outCond & PCC_C) smask |= 1U << PIC_C_BIT;
list = newDefmap (symFromStr ("STATUS"), 0x00, smask, 0, 1, pc, newValnum (), list);
//fprintf (stderr, "pc %p: def STATUS & %02x\n", pc, smask);
} // if
-
+
isSpecial = isSpecial2 = 0;
sym = sym2 = 0;
if (cond & PCC_REGISTER) {
//fprintf (stderr, "pc %p: def REG2 %s(%x) & %02x\n", pc, name, sym2, mask);
}
-
+
/* make sure there is at least one entry for each pc (needed by list traversal routines) */
list = newDefmap (0, 0x00, 0x00, 0, 0, pc, 0, list);
mergeDefmapSymbols (list);
-
+
return list;
}
fprintf (stderr, "defmap @ %p:\n", curr);
while (curr) {
fprintf (stderr, "%s%s: %4x|%4x / %02x|%02x, sym %s(%x) @ pc %p\n",
- curr->acc.access.isRead ? "R" : " ",
- curr->acc.access.isWrite ? "W": " ",
- curr->in_val, curr->val,
- curr->acc.access.in_mask, curr->acc.access.mask,
- strFromSym(curr->sym), curr->sym,
- curr->pc);
+ curr->acc.access.isRead ? "R" : " ",
+ curr->acc.access.isWrite ? "W": " ",
+ curr->in_val, curr->val,
+ curr->acc.access.in_mask, curr->acc.access.mask,
+ strFromSym(curr->sym), curr->sym,
+ curr->pc);
curr = curr->next;
} // while
fprintf (stderr, "<EOL>\n");
/* definition found -- replace */
if (old->val != curr->val) {
old->val = curr->val;
- change++;
+ change++;
} // if
} else {
/* new definition */
}
/* Creates the in_value list of a flow by (iteratively) merging the out_value
- * lists of its predecessor flows.
+ * lists of its predecessor flows.
* Initially *combined should be NULL, alt_in will be copied to combined.
* If *combined != NULL, combined will be altered:
* - for symbols defined in *combined but not in alt_in,
* - for symbols defined in both, *combined is:
* > left unchanged if *combined->val == alt_in->val or
* > modified to 0 otherwise (value unknown, either alt or *combined).
- *
+ *
* I assume that each symbol occurs AT MOST ONCE in each list!
*/
static int defmapCombineFlows (defmap_t **combined, defmap_t *alt_in, pBlock *pb) {
valnum_t val;
//fprintf (stderr, "%s: merging %p & %p\n", __FUNCTION__, *combined, alt_in);
-
+
if (!(*combined)) {
return defmapUpdateUniqueSym (combined, alt_in);
} // if
-
+
/* merge the two */
curr = alt_in;
while (curr) {
/* definition found */
if (old->val && (old->val != curr->val)) {
old->val = 0; /* value unknown */
- change++;
+ change++;
}
} else {
/* no definition found -- can be either INIT or alt_in's value */
while (curr && curr->sym != old->sym) curr = curr->next;
if (!curr) {
/* symbol defined in *combined only -- can be either INIT or *combined */
- val = pic16_pBlockAddInval (pb, old->sym)->val;
- if (old->val != val) {
- old->val = 0;
- change++;
- }
+ val = pic16_pBlockAddInval (pb, old->sym)->val;
+ if (old->val != val) {
+ old->val = 0;
+ change++;
+ }
} // if
} // if
static int defmapCompareUnique (defmap_t *map1, defmap_t *map2) {
defmap_t *curr1, *curr2;
symbol_t sym;
-
+
/* identical maps are equal */
if (map1 == map2) return 0;
if (!map2) return 1;
//fprintf (stderr, "%s: comparing %p & %p\n", __FUNCTION__, map1, map2);
-
+
/* check length */
curr1 = map1;
curr2 = map2;
set *todo;
set *blacklist;
+ if (!pb) return;
+
/* initialize out_vals to unique'fied defmaps per pCodeFlow */
for (pc = pic16_findNextInstruction (pb->pcHead); pc; pc = pic16_findNextInstruction (pc->next)) {
if (isPCFL(pc)) {
defmapUpdateUniqueSym (&PCFL(pc)->out_vals, PCFL(pc)->defmap);
} // if
} // for
-
+
pc = pic16_findNextInstruction (pb->pcHead);
+ if (!pc) {
+ // empty function, avoid NULL pointer dereference
+ return;
+ } // if
todo = NULL; blacklist = NULL;
addSetHead (&todo, PCI(pc)->pcflow);
out_vals = NULL;
if (isinSet (blacklist, pcfl)) {
- fprintf (stderr, "ignoring blacklisted flow\n");
+ fprintf (stderr, "ignoring blacklisted flow\n");
continue;
}
-
+
/* create in_vals from predecessors out_vals */
link = setFirstItem (pcfl->from);
while (link) {
link = setNextItem (pcfl->from);
} // while
- //printDefmap (in_vals);
- //printDefmap (pcfl->in_vals);
+ //printDefmap (in_vals);
+ //printDefmap (pcfl->in_vals);
if (!pcfl->in_vals || !pcfl->out_vals || defmapCompareUnique (in_vals, pcfl->in_vals)) {
//fprintf (stderr, "in_vals changed\n");
deleteDefmapChain (&pcfl->out_vals);
pcfl->out_vals = out_vals;
- if (pcfl->out_vals == NULL && pcfl->in_vals == NULL) {
- addSet (&blacklist, pcfl);
- } // if
-
+ if (pcfl->out_vals == NULL && pcfl->in_vals == NULL) {
+ addSet (&blacklist, pcfl);
+ } // if
+
/* reschedule all successors */
link = setFirstItem (pcfl->to);
while (link) {
- //fprintf (stderr, " %p --> %p\n", pcfl, link->pcflow);
+ //fprintf (stderr, " %p --> %p\n", pcfl, link->pcflow);
addSetIfnotP (&todo, link->pcflow);
- link = setNextItem (pcfl->to);
+ link = setNextItem (pcfl->to);
} // while
} else {
- deleteDefmapChain (&out_vals);
+ deleteDefmapChain (&out_vals);
}// if
} else {
- deleteDefmapChain (&in_vals);
+ deleteDefmapChain (&in_vals);
} // if
} // while
}
static int pic16_safepCodeRemove (pCode *pc, char *comment) {
defmap_t *map, *next, **head;
int res, ispci;
-
+
ispci = isPCI(pc);
map = isPCI(pc) ? PCI(pc)->pcflow->defmap : NULL;
head = isPCI(pc) ? &PCI(pc)->pcflow->defmap : NULL;
return res;
}
-
+
void pic16_fixDefmap (pCode *pc, pCode *newpc) {
defmap_t *map;
/* This breaks the defmap chain's references to pCodes... fix it! */
map = PCI(pc)->pcflow->defmap;
while (map && map->pc != pc) map = map->next;
-
+
while (map && map->pc == pc) {
map->pc = newpc;
map = map->next;
defmap_t *copy;
if (!isPCI(pc)) return;
if (sym == newsym) return;
-
+
map = PCI(pc)->pcflow->defmap;
while (map && map->pc != pc) map = map->next;
if (map->sym == sym) {
assert ((isRead && map->acc.access.isRead) || ((!isRead) && (map->acc.access.isWrite)));
if (!(map->acc.access.isRead && map->acc.access.isWrite)) {
- /* only one kind of access handled... this is easy */
+ /* only one kind of access handled... this is easy */
map->sym = newsym;
} else {
- /* must copy defmap entry before replacing symbol... */
- copy = copyDefmap (map);
- if (isRead) {
- map->acc.access.isRead = 0;
- copy->acc.access.isWrite = 0;
- } else {
- map->acc.access.isWrite = 0;
- copy->acc.access.isRead = 0;
- }
- copy->sym = newsym;
- /* insert copy into defmap chain */
- defmapInsertAfter (map, copy);
+ /* must copy defmap entry before replacing symbol... */
+ copy = copyDefmap (map);
+ if (isRead) {
+ map->acc.access.isRead = 0;
+ copy->acc.access.isWrite = 0;
+ } else {
+ map->acc.access.isWrite = 0;
+ copy->acc.access.isRead = 0;
+ }
+ copy->sym = newsym;
+ /* insert copy into defmap chain */
+ defmapInsertAfter (map, copy);
}
}
map = map->next;
count = defmapFindAll (val->sym, pc, &oldval);
//fprintf (stderr, "%d defs for sym %s\n", count, strFromSym (val->sym));
if (count == 1) {
- if ((val->acc.access.in_mask & oldval->acc.access.mask) == val->acc.access.in_mask) {
+ if ((val->acc.access.in_mask & oldval->acc.access.mask) == val->acc.access.in_mask) {
val->in_val = oldval->val;
} else {
- val->in_val = 0;
+ val->in_val = 0;
}
} else if (count == 0) {
/* no definition found */
- val->in_val = 0;
+ val->in_val = 0;
} else {
- /* multiple definition(s) found -- value not known (unless always the same valnum) */
- assert (oldval);
- dummy = oldval->next;
- mask = oldval->acc.access.mask;
- val->in_val = oldval->val;
- while (dummy && (dummy->val == val->in_val)) {
- mask &= dummy->acc.access.mask;
- dummy = dummy->next;
- } // while
-
- /* found other values or to restictive mask */
- if (dummy || ((mask & val->acc.access.in_mask) != val->acc.access.in_mask)) {
+ /* multiple definition(s) found -- value not known (unless always the same valnum) */
+ assert (oldval);
+ dummy = oldval->next;
+ mask = oldval->acc.access.mask;
+ val->in_val = oldval->val;
+ while (dummy && (dummy->val == val->in_val)) {
+ mask &= dummy->acc.access.mask;
+ dummy = dummy->next;
+ } // while
+
+ /* found other values or to restictive mask */
+ if (dummy || ((mask & val->acc.access.in_mask) != val->acc.access.in_mask)) {
val->in_val = 0;
- }
+ }
}
if (count > 0) deleteDefmapChain (&oldval);
} // if
oldval = defmapCurr (list, sym1, pc);
if (oldval && (litFromValnum (oldval->in_val) == 0)) {
//fprintf (stderr, "%s: REG (%s) already set up correctly (%x)\n", pci->mnemonic, strFromSym(sym1), oldval->in_val);
- if (!pic16_isAlive (SPO_STATUS, pc)) pic16_safepCodeRemove (pc, "=DF= redundant CLRF removed");
+ if (!pic16_isAlive (SPO_STATUS, pc)) pic16_safepCodeRemove (pc, "=DF= redundant CLRF removed");
}
defmapUpdate (list, sym1, pc, valnumFromLit(0));
}
oldval = defmapCurr (list, sym1, pc);
if (oldval && (litFromValnum (oldval->in_val) == 0x00FF)) {
//fprintf (stderr, "%s: REG (%s) already set up correctly (%x)\n", pci->mnemonic, strFromSym(sym1), oldval->in_val);
- pic16_safepCodeRemove (pc, "=DF= redundant SETF removed");
+ pic16_safepCodeRemove (pc, "=DF= redundant SETF removed");
}
defmapUpdate (list, sym1, pc, valnumFromLit (0x00FF));
}
break;
-
+
case POC_MOVLW: /* does not touch STATUS */
oldval = defmapCurr (list, SPO_WREG, pc);
if (pci->pcop->type == PO_LITERAL) {
if (val) vallit = litFromValnum (val->in_val);
if (vallit != -1) {
/* xxxLW <literal>, WREG contains a known literal */
- //fprintf (stderr, "%s 0x%02x, WREG: 0x%x\n", pci->mnemonic, lit, vallit);
- if (pci->op == POC_ANDLW) {
- lit &= vallit;
- } else if (pci->op == POC_IORLW) {
- lit |= vallit;
- } else if (pci->op == POC_XORLW) {
- lit ^= vallit;
- } else {
- assert (0 && "invalid operation");
- }
- if (vallit == lit) {
- //fprintf (stderr, "%s: W already set up correctly (%x = val %x)\n", pci->mnemonic, vallit, val->in_val);
- if (!pic16_isAlive (SPO_STATUS, pc)) pic16_safepCodeRemove (pc, "=DF= redundant ANDLW/IORLW/XORLW removed");
- }
- defmapUpdate (list, SPO_WREG, pc, valnumFromLit (lit));
+ //fprintf (stderr, "%s 0x%02x, WREG: 0x%x\n", pci->mnemonic, lit, vallit);
+ if (pci->op == POC_ANDLW) {
+ lit &= vallit;
+ } else if (pci->op == POC_IORLW) {
+ lit |= vallit;
+ } else if (pci->op == POC_XORLW) {
+ lit ^= vallit;
+ } else {
+ assert (0 && "invalid operation");
+ }
+ if (vallit == lit) {
+ //fprintf (stderr, "%s: W already set up correctly (%x = val %x)\n", pci->mnemonic, vallit, val->in_val);
+ if (!pic16_isAlive (SPO_STATUS, pc)) pic16_safepCodeRemove (pc, "=DF= redundant ANDLW/IORLW/XORLW removed");
+ }
+ defmapUpdate (list, SPO_WREG, pc, valnumFromLit (lit));
} // if
}
break;
int lit;
int ok = 1;
assert (pci->pcop->type == PO_LITERAL);
-
+
lit = PCOL(pci->pcop)->lit;
-
+
val = defmapCurr (list, pic16_fsrsym_idx[lit][0], pc);
-
+
if (val && (val->in_val != 0) && (val->in_val == val->val)) {
//fprintf (stderr, "FSR%dL already set up correctly at %p (%x)\n", lit, pc, val->val);
} else {
- /* cannot remove this LFSR */
- ok = 0;
+ /* cannot remove this LFSR */
+ ok = 0;
} // if
-
+
val = defmapCurr (list, pic16_fsrsym_idx[lit][1], pc);
if (val && (val->in_val != 0) && (val->in_val == val->val)) {
//fprintf (stderr, "FSR%dH already set up correctly at %p (%x)\n", lit, pc, val->val);
} else {
- ok = 0;
+ ok = 0;
} // if
if (ok) {
- pic16_safepCodeRemove (pc, "=DF= redundant LFSR removed");
+ pic16_safepCodeRemove (pc, "=DF= redundant LFSR removed");
}
}
break;
-
+
case POC_MOVWF: /* does not touch flags */
/* find value of WREG */
val = defmapCurr (list, SPO_WREG, pc);
if (val) lit = litFromValnum (val->in_val);
else lit = -1;
//fprintf (stderr, "MOVWF: lit: %i (%x, %x)\n", lit, lit, val->in_val);
-
+
if ((lit == 0 || lit == 0x0ff) && !pic16_isAlive (SPO_STATUS, pc)) {
/* might replace with CLRF/SETF (will possibly make previous MOVLW 0x00/0xff unneccessary --> dead code elimination) */
//fprintf (stderr, "replacing MOVWF with CLRF/SETF\n");
defmapReplaceSymRef (pc, SPO_WREG, 0, 1);
pic16_fixDefmap (pc, newpc);
pc = newpc;
-
+
/* This breaks the defmap chain's references to pCodes... fix it! */
if (!val->prev) PCI(pc)->pcflow->defmap = val->next;
if (!val->acc.access.isWrite) {
- deleteDefmap (val); // delete reference to WREG as in value
- val = NULL;
+ deleteDefmap (val); // delete reference to WREG as in value
+ val = NULL;
} else {
- val->acc.access.isRead = 0; // delete reference to WREG as in value
+ val->acc.access.isRead = 0; // delete reference to WREG as in value
}
oldval = PCI(pc)->pcflow->defmap;
while (oldval) {
}
if (val) defmapUpdate (list, sym1, pc, val->in_val);
break;
-
+
case POC_MOVFW: /* modifies STATUS (Z,N) */
/* find value of REG */
if (!isSpecial1 && pic16_regIsLocal (reg1)) {
val = defmapCurr (list, sym1, pc);
oldval = defmapCurr (list, SPO_WREG, pc);
if (val && oldval && (val->in_val != 0) && (val->in_val == oldval->in_val)) {
- //fprintf (stderr, "MOVFW: W already set up correctly (%x) at %p\n", oldval->in_val, pc);
- if (!pic16_isAlive (SPO_STATUS, pc)) pic16_safepCodeRemove (pc, "=DF= redundant MOVFW removed");
+ //fprintf (stderr, "MOVFW: W already set up correctly (%x) at %p\n", oldval->in_val, pc);
+ if (!pic16_isAlive (SPO_STATUS, pc)) pic16_safepCodeRemove (pc, "=DF= redundant MOVFW removed");
+ } else {
+ defmap_t *pred, *predpred;
+ /* Optimize MOVLW immd; MOVWF reg1; [...]; MOVFW reg1
+ * into MOVLW immd; MOVWF reg1; [...]; MOVLW immd
+ * This might allow removal of the first two assignments. */
+ pred = defmapFindDef (list, sym1, pc);
+ predpred = pred ? defmapFindDef (list, SPO_WREG, pred->pc) : NULL;
+ if (pred && predpred && (PCI(pred->pc)->op == POC_MOVWF) && (PCI(predpred->pc)->op == POC_MOVLW)
+ && !pic16_isAlive (SPO_STATUS, pc))
+ {
+ newpc = pic16_newpCode (POC_MOVLW, pic16_pCodeOpCopy (PCI(predpred->pc)->pcop));
+
+ if (pic16_debug_verbose || pic16_pcode_verbose) {
+ pic16_InsertCommentAfter (pc->prev, "=DF= MOVFW: replaced last of MOVLW;MOVWF;MOVFW by MOVLW");
+ } // if
+ pic16_pCodeReplace (pc, newpc);
+ defmapReplaceSymRef (pc, sym1, 0, 1);
+ pic16_fixDefmap (pc, newpc);
+ pc = newpc;
+
+ /* This breaks the defmap chain's references to pCodes... fix it! */
+ if (!val->prev) PCI(pc)->pcflow->defmap = val->next;
+ if (!val->acc.access.isWrite) {
+ deleteDefmap (val); // delete reference to reg1 as in value
+ val = NULL;
+ } else {
+ val->acc.access.isRead = 0; // delete reference to reg1 as in value
+ }
+ oldval = PCI(pc)->pcflow->defmap;
+ while (oldval) {
+ if (oldval->pc == pc) oldval->pc = newpc;
+ oldval = oldval->next;
+ } // while
+ } // if
}
if (val) defmapUpdate (list, SPO_WREG, pc, val->in_val);
}
if (!isSpecial1 && pic16_regIsLocal (reg1) && val && oldval && !pic16_isAlive (SPO_STATUS, pc)) {
//pc->print (stderr, pc); fprintf (stderr, "lit: %d (%x, %x)\n", lit, lit, val->in_val);
if (lit == 0) {
- newpc = pic16_newpCode (POC_CLRF, PCOR2(pci->pcop)->pcop2);
+ newpc = pic16_newpCode (POC_CLRF, PCOP2(pci->pcop)->pcopR);
} else if (lit == 0x00ff) {
- newpc = pic16_newpCode (POC_SETF, PCOR2(pci->pcop)->pcop2);
+ newpc = pic16_newpCode (POC_SETF, PCOP2(pci->pcop)->pcopR);
} else {
newpc = NULL;
}
if (newpc) {
pic16_InsertCommentAfter (pc->prev, "=DF= MOVFF: replaced by CRLF/SETF");
pic16_df_saved_bytes += PCI(pc)->isize - PCI(newpc)->isize;
- pic16_pCodeReplace (pc, newpc);
+ pic16_pCodeReplace (pc, newpc);
defmapReplaceSymRef (pc, sym1, 0, 1);
pic16_fixDefmap (pc, newpc);
pc = newpc;
break; // do not process instruction as MOVFF...
}
- } else if (!isSpecial1 && !isSpecial2 && pic16_regIsLocal (reg1) && pic16_regIsLocal (reg2)) {
- if (val && oldval && (val->in_val != 0) && (val->in_val == oldval->in_val)) {
- //fprintf (stderr, "MOVFF: F2 (%s) already set up correctly (%x) at %p\n", strFromSym (sym2), oldval->in_val, pc);
+ } else if (!isSpecial1 && !isSpecial2
+ && pic16_regIsLocal (reg1) && pic16_regIsLocal (reg2)
+ && val && oldval && (val->in_val != 0)) {
+ if (val->in_val == oldval->in_val) {
+ //fprintf (stderr, "MOVFF: F2 (%s) already set up correctly (%x) at %p\n", strFromSym (sym2), oldval->in_val, pc);
pic16_safepCodeRemove (pc, "=DF= redundant MOVFF removed");
} else {
if (!pic16_isAlive (sym1, pc)) {
- defmap_t *copy = NULL;
+ defmap_t *copy = NULL;
/* If there is another symbol S storing sym1's value we should assign from S thus shortening the liferange of sym1.
- * This should help eliminate
- * MOVFF A,B
- * <do something not changing A or using B>
- * MOVFF B,C
- * <B is not alive anymore>
- * and turn it into
- * <do something not changing A or using B>
- * MOVFF A,C
- */
-
- /* scan defmap for symbols storing sym1's value */
- while (oldval && (oldval->pc == pc || oldval->in_val != val->in_val)) oldval = oldval->next;
- if (oldval && (oldval->sym != sym1) && defmapFindAll (oldval->sym, pc, ©) == 1) {
- /* unique reaching definition for sym found */
- if (copy->val && copy->val == val->in_val) {
- //fprintf (stderr, "found replacement symbol for %s (val %x) <-- %s (assigned %x @ %p)\n", strFromSym(sym1), val->in_val, strFromSym(copy->sym), copy->val, copy->pc);
- if (copy->sym == SPO_WREG) {
- newpc = pic16_newpCode (POC_MOVWF, pic16_pCodeOpCopy (PCOR2(pci->pcop)->pcop2));
- } else {
+ * This should help eliminate
+ * MOVFF A,B
+ * <do something not changing A or using B>
+ * MOVFF B,C
+ * <B is not alive anymore>
+ * and turn it into
+ * <do something not changing A or using B>
+ * MOVFF A,C
+ */
+
+ /* scan defmap for symbols storing sym1's value */
+ while (oldval && (oldval->pc == pc || oldval->in_val != val->in_val)) oldval = oldval->next;
+ if (oldval && (oldval->sym != sym1) && defmapFindAll (oldval->sym, pc, ©) == 1) {
+ /* unique reaching definition for sym found */
+ if (copy->val && copy->val == val->in_val) {
+ //fprintf (stderr, "found replacement symbol for %s (val %x) <-- %s (assigned %x @ %p)\n", strFromSym(sym1), val->in_val, strFromSym(copy->sym), copy->val, copy->pc);
+ if (copy->sym == SPO_WREG) {
+ newpc = pic16_newpCode (POC_MOVWF, pic16_pCodeOpCopy (PCOP2(pci->pcop)->pcopR));
+ } else {
+ pCodeOp *pcop = NULL;
+ /* the code below fails if we try to replace
+ * MOVFF PRODL, r0x03
+ * MOVFF r0x03, PCLATU
+ * with
+ * MOVFF PRODL, PCLATU
+ * as copy(PRODL) contains has pc==NULL, by name fails...
+ */
+ if (!copy->pc || !PCI(copy->pc)->pcop) break;
+
+ if (copy->pc && PCI(copy->pc)->pcop)
+ pcop = PCI(copy->pc)->pcop;
+#if 0
+ /* This code is broken--see above. */
+ else
+ {
+ const char *symname = strFromSym(copy->sym);
+
+ assert( symname );
+ pic16_InsertCommentAfter (pc->prev, "BUG-ME");
+ pic16_InsertCommentAfter (pc->prev, "=DF= MOVFF: newpCodeOpregFromStr(%s)", (char *)symname);
+ //pcop = pic16_newpCodeOpRegFromStr((char *)symname);
+ }
+#endif
+ assert( pcop );
newpc = pic16_newpCode(POC_MOVFF, pic16_popGet2p(
-// /*TODO: change to copy->pc's out symbol*/pic16_pCodeOpCopy (pci->pcop),
- pic16_pCodeOpCopy (PCI(copy->pc)->pcop),
- pic16_pCodeOpCopy (PCOR2(pci->pcop)->pcop2)));
- }
- pic16_InsertCommentAfter (pc->prev, "=DF= MOVFF: SRC op %s replaced by %s", strFromSym(sym1), strFromSym(copy->sym));
- pic16_df_saved_bytes += PCI(pc)->isize - PCI(newpc)->isize;
- pic16_pCodeReplace (pc, newpc);
- assert (val->sym == sym1 && val->acc.access.isRead && !val->acc.access.isWrite);
- defmapReplaceSymRef (pc, sym1, copy->sym, 1);
- pic16_fixDefmap (pc, newpc);
- pc = newpc;
- }
- }
- deleteDefmapChain (©);
- }
+ pcop,
+ pic16_pCodeOpCopy (PCOP2(pci->pcop)->pcopR)));
+ }
+ pic16_InsertCommentAfter (pc->prev, "=DF= MOVFF: SRC op %s replaced by %s", strFromSym(sym1), strFromSym(copy->sym));
+ pic16_df_saved_bytes += PCI(pc)->isize - PCI(newpc)->isize;
+ pic16_pCodeReplace (pc, newpc);
+ assert (val->sym == sym1 && val->acc.access.isRead && !val->acc.access.isWrite);
+ defmapReplaceSymRef (pc, sym1, copy->sym, 1);
+ pic16_fixDefmap (pc, newpc);
+ pc = newpc;
+ }
+ }
+ deleteDefmapChain (©);
+ }
}
if (val) defmapUpdate (list, sym2, pc, val->in_val);
}
static void pic16_destructDF (pBlock *pb) {
pCode *pc, *next;
+ if (!pb) return;
+
/* remove old defmaps */
pc = pic16_findNextInstruction (pb->pcHead);
while (pc) {
deleteDefmapChain (&PCI(pc)->pcflow->defmap);
deleteDefmapChain (&PCI(pc)->pcflow->in_vals);
deleteDefmapChain (&PCI(pc)->pcflow->out_vals);
-
+
pc = next;
} // while
-
+
if (defmap_free || defmap_free_count) {
//fprintf (stderr, "released defmaps: %u -- freeing up memory\n", defmap_free_count);
freeDefmap (&defmap_free);
static int pic16_pBlockHasAsmdirs (pBlock *pb) {
pCode *pc;
+ if (!pb) return 0;
+
pc = pic16_findNextInstruction (pb->pcHead);
while (pc) {
if (isPCAD(pc)) return 1;
/* no pBlocks? */
if (!the_pFile || !the_pFile->pbHead) return 0;
-
+
for (pb = the_pFile->pbHead; pb; pb = pb->next) {
//fprintf (stderr, "%s: examining function %s\n", __FUNCTION__, pic16_pBlockGetFunctionName (pb));
#if 1
/* find set of using pCodes per register */
for (pc = pic16_findNextInstruction (pb->pcHead); pc;
- pc = pic16_findNextInstruction(pc->next)) {
+ pc = pic16_findNextInstruction(pc->next)) {
cond = PCI(pc)->inCond | PCI(pc)->outCond;
reg1 = reg2 = NULL;
if (cond & PCC_REGISTER2) reg2 = pic16_getRegFromInstruction2 (pc);
if (reg1) {
- if (!isinSet (seenRegs, reg1)) reg1->reglives.usedpCodes = NULL;
+ if (!isinSet (seenRegs, reg1)) reg1->reglives.usedpCodes = NULL;
addSetIfnotP (&seenRegs, reg1);
addSetIfnotP (®1->reglives.usedpCodes, pc);
}
if (reg2) {
- if (!isinSet (seenRegs, reg2)) reg2->reglives.usedpCodes = NULL;
- addSetIfnotP (&seenRegs, reg2);
+ if (!isinSet (seenRegs, reg2)) reg2->reglives.usedpCodes = NULL;
+ addSetIfnotP (&seenRegs, reg2);
addSetIfnotP (®2->reglives.usedpCodes, pc);
}
} // for pc
islocal = (reg1->isLocal || reg1->rIdx == pic16_framepnt_lo->rIdx || reg1->rIdx == pic16_framepnt_hi->rIdx);
if (islocal && elementsInSet (reg1->reglives.usedpCodes) == 2) {
pc = pc2 = NULL;
- for (i=0; i < 2; i++) {
+ for (i=0; i < 2; i++) {
pc = (pCode *) indexSet(reg1->reglives.usedpCodes, i);
- if (!pc2) pc2 = pc;
- if (!isPCI(pc) || !PCI(pc)->op == POC_MOVFF) continue;
- reg2 = pic16_getRegFromInstruction (pc);
- reg3 = pic16_getRegFromInstruction2 (pc);
- if (!reg2 || !reg3
- || (reg2->rIdx != pic16_stack_preinc->rIdx
- && reg3->rIdx != pic16_stack_postdec->rIdx)) break;
- if (i == 1) {
- /* both pCodes are MOVFF R,POSTDEC1 / MOVFF PREINC1,R */
- //fprintf (stderr, "%s: removing local register %s from %s\n", __FUNCTION__, reg1->name, pic16_pBlockGetFunctionName (pb));
- pic16_safepCodeRemove (pc, "removed unused local reg IN");
- pic16_safepCodeRemove (pc2, "removed unused local reg OUT");
- }
- } // for
+ if (!pc2) pc2 = pc;
+ if (!isPCI(pc) || !PCI(pc)->op == POC_MOVFF) continue;
+ reg2 = pic16_getRegFromInstruction (pc);
+ reg3 = pic16_getRegFromInstruction2 (pc);
+ if (!reg2 || !reg3
+ || (reg2->rIdx != pic16_stack_preinc->rIdx
+ && reg3->rIdx != pic16_stack_postdec->rIdx)) break;
+ if (i == 1) {
+ /* both pCodes are MOVFF R,POSTDEC1 / MOVFF PREINC1,R */
+ //fprintf (stderr, "%s: removing local register %s from %s\n", __FUNCTION__, reg1->name, pic16_pBlockGetFunctionName (pb));
+ pic16_safepCodeRemove (pc, "removed unused local reg IN");
+ pic16_safepCodeRemove (pc2, "removed unused local reg OUT");
+ }
+ } // for
} // if
deleteSet (®1->reglives.usedpCodes);
} // for reg1
}
#endif
-/* Set up pCodeFlow's defmap_ts.
+/* Set up pCodeFlow's defmap_ts.
* Needs correctly set up to/from fields. */
static void pic16_createDF (pBlock *pb) {
pCode *pc, *next;
int change=0;
+ if (!pb) return;
+
//fprintf (stderr, "creating DF for pb %p (%s)\n", pb, pic16_pBlockGetFunctionName (pb));
pic16_destructDF (pb);
return;
}
#endif
-
+
/* establish new defmaps */
pc = pic16_findNextInstruction (pb->pcHead);
while (pc) {
//fprintf (stderr, "%s: creating reaching definitions...\n", __FUNCTION__);
createReachingDefinitions (pb);
-
+
#if 1
/* assign better valnums */
//fprintf (stderr, "assigning valnums for pb %p\n", pb);
fprintf (of, "edges:yes\n");
fprintf (of, "nodes:yes\n");
fprintf (of, "splines:no\n");
-
+
/* node defaults */
fprintf (of, "node.color:lightyellow\n");
fprintf (of, "node.textcolor:black\n");
fprintf (of, "edge.arrowstyle:line\n"); // none|solid|line
fprintf (of, "edge.backarrowstyle:none\n"); // none|solid|line
fprintf (of, "edge.linestyle:continuous\n"); // continuous|solid|dotted|dashed|invisible
-
+
fprintf (of, "\n");
/* prepare data structures */
}
hTabAddItemLong (&dumpedNodes, (((char *) pc - (char *) 0)>>2) % 128, pc, pc);
//fprintf (stderr, "dumping %p\n", pc);
-
+
/* only dump pCodeInstructions and Flow nodes */
if (!isPCI(pc) && !isPCAD(pc) && !isPCFL(pc)) return;
-
+
/* emit node */
fprintf (of, "node:{");
fprintf (of, "title:\"%s\" ", pcTitle(pc));
}
fprintf (of, "\" ");
fprintf (of, "}\n");
-
+
if (1 && isPCFL(pc)) {
defmap_t *map, *prev;
unsigned int i;
while (map) {
if (map->sym != 0) {
i++;
-
+
/* emit definition node */
fprintf (of, "node:{title:\"%s_def%u\" ", pcTitle(pc), i);
fprintf (of, "label:\"");
- prev = map;
- do {
+ prev = map;
+ do {
fprintf (of, "%s%c%c: val %4x|%4x & %02x|%02x, sym %s", (prev == map) ? "" : "\n", map->acc.access.isRead ? 'R' : ' ', map->acc.access.isWrite ? 'W' : ' ', map->in_val, map->val, map->acc.access.in_mask, map->acc.access.mask, strFromSym (map->sym));
- prev = map;
- map = map->next;
- } while (map && prev->pc == map->pc);
- map = prev;
-
+ prev = map;
+ map = map->next;
+ } while (map && prev->pc == map->pc);
+ map = prev;
+
fprintf (of, "\" ");
-
+
fprintf (of, "color:green ");
fprintf (of, "}\n");
fprintf (of, "color:green ");
fprintf (of, "}\n");
- if (map->pc) {
- pic16_vcg_dumpnode (map->pc, of);
+ if (map->pc) {
+ pic16_vcg_dumpnode (map->pc, of);
fprintf (of, "edge:{sourcename:\"%s_def%u\" ", pcTitle(pc), i);
fprintf (of, "targetname:\"%s\" linestyle:dashed color:lightgreen}\n", pcTitle(map->pc));
- }
+ }
}
map = map->next;
} // while
pCodeInstruction *pci;
pBranch *curr;
int i;
-
+
if (1 && isPCFL(pc)) {
/* emit edges to flow successors */
void *pcfl;
pcfl = setNextItem (PCFL(pc)->to);
} // while
} // if
-
+
if (!isPCI(pc) && !isPCAD(pc)) return;
pci = PCI(pc);
-
+
/* emit control flow edges (forward only) */
curr = pci->to;
i=0;
}
}
#endif
-
+
#if 0
/* emit flow */
if (pci->pcflow) {
fprintf (of, "targetname:\"%s\" color:lightblue linestyle:dashed}\n", pcTitle (pci->pcflow));
}
#endif
-
+
/* emit data flow edges (backward only) */
/* TODO: gather data flow information... */
}
static void pic16_vcg_dump (FILE *of, pBlock *pb) {
pCode *pc;
+ if (!pb) return;
+
/* check pBlock: do not analyze pBlocks with ASMDIRs (for now...) */
if (pic16_pBlockHasAsmdirs (pb)) {
//fprintf (stderr, "%s: pBlock contains ASMDIRs -- data flow analysis not performed!\n", __FUNCTION__);
for (pc=pb->pcHead; pc; pc = pc->next) {
pic16_vcg_dumpnode (pc, of);
} // for pc
-
+
for (pc=pb->pcHead; pc; pc = pc->next) {
pic16_vcg_dumpedges (pc, of);
} // for pc
char buf[BUF_SIZE];
pCode *pc;
+ if (!pb) return;
+
/* get function name */
pc = pb->pcHead;
while (pc && !isPCF(pc)) pc = pc->next;