Fixed up the isa description. Also added some capability to the isa_parser in the...
authorGabe Black <gblack@eecs.umich.edu>
Thu, 6 Apr 2006 18:52:44 +0000 (14:52 -0400)
committerGabe Black <gblack@eecs.umich.edu>
Thu, 6 Apr 2006 18:52:44 +0000 (14:52 -0400)
arch/isa_parser.py:
    Expanded the capability of the InstObjParams constructor to allow adding in extra keys for use in templates. These are added as key, value tuples as optional arguements.
arch/sparc/isa/base.isa:
arch/sparc/isa/formats/mem.isa:
arch/sparc/isa/formats/priv.isa:
    The genCompositeIop function is no longer needed, as this functionality is now in the InstObjParams constructor.
arch/sparc/isa/decoder.isa:
    Fixed up alot of instructions, and fixed indentation.
arch/sparc/isa/formats/integerop.isa:
    The genCompositeIop function is no longer needed, as this functionality is now in the InstObjParams constructor. Also changed the immediate values to be signed.
base/traceflags.py:
    Added SPARC traceflag
configs/test/hello_sparc:
    Recompiled without -mflat
cpu/cpu_exec_context.cc:
    Used the regfile clear function rather than memsetting to 0.

--HG--
extra : convert_revision : b9da6f264f3ebc4ce1815008dfff7f476b247ee9

arch/isa_parser.py
arch/sparc/isa/base.isa
arch/sparc/isa/decoder.isa
arch/sparc/isa/formats/integerop.isa
arch/sparc/isa/formats/mem.isa
arch/sparc/isa/formats/priv.isa
base/traceflags.py
configs/test/hello_sparc
cpu/cpu_exec_context.cc

index 6fce783b1f3fc35a470cf50719db7a88fd017c36..8279a6a5dcc23d21243052c49e4cc3626c95f8be 100755 (executable)
@@ -1618,13 +1618,27 @@ opClassRE = re.compile(r'.*Op|No_OpClass')
 
 class InstObjParams:
     def __init__(self, mnem, class_name, base_class = '',
-                 code_block = None, opt_args = []):
+                 code = None, opt_args = [], *extras):
         self.mnemonic = mnem
         self.class_name = class_name
         self.base_class = base_class
-        if code_block:
-            for code_attr in code_block.__dict__.keys():
-                setattr(self, code_attr, getattr(code_block, code_attr))
+        if code:
+            #If the user already made a CodeBlock, pick the parts from it
+            if isinstance(code, CodeBlock):
+                origCode = code.orig_code
+                codeBlock = code
+            else:
+                origCode = code
+                codeBlock = CodeBlock(code)
+            compositeCode = '\n'.join([origCode] +
+                    [pair[1] for pair in extras])
+            compositeBlock = CodeBlock(compositeCode)
+            for code_attr in compositeBlock.__dict__.keys():
+                setattr(self, code_attr, getattr(compositeBlock, code_attr))
+            for (key, snippet) in extras:
+                setattr(self, key, CodeBlock(snippet).code)
+            self.code = codeBlock.code
+            self.orig_code = origCode
         else:
             self.constructor = ''
             self.flags = []
index b9347a3d0400e62bd1e2777c171be20958a741a0..434426ffa525735e752938e4abe93ba2f3595807 100644 (file)
@@ -60,7 +60,7 @@ output header {{
 
         inline int64_t sign_ext(uint64_t data, int origWidth)
         {
-            int shiftAmount = sizeof(uint64_t) - origWidth;
+            int shiftAmount = 64 - origWidth;
             return (((int64_t)data) << shiftAmount) >> shiftAmount;
         }
 }};
@@ -84,19 +84,6 @@ let {{
         code = matcher.sub('Rs' + rOrImmMatch.group("rNum"), orig_code)
         imm_code = matcher.sub('imm', orig_code)
         return (True, code, imm_code, rString, iString)
-
-    def genCompositeIop(code, name, Name, parent, opt_flags, **extras):
-        origBlock = CodeBlock(code)
-        composite = code
-        for snippet in extras.values():
-            composite += ('\n' + snippet)
-        compositeBlock = CodeBlock(composite)
-        iop = InstObjParams(name, Name, parent, compositeBlock, opt_flags)
-        iop.code = origBlock.code
-        iop.orig_code = origBlock.orig_code
-        for (name, snippet) in extras.items():
-            exec "iop.%s = CodeBlock(snippet).code" % name
-        return iop
 }};
 
 output decoder {{
index e9a1bce976c81e34cefa0631342d95199e53c257..b4084518cfd6c871381145baeb75409cffaab569 100644 (file)
@@ -14,7 +14,6 @@ decode OP default Unknown::unknown()
             format Branch19
             {
                 0x0: bpcci({{
-                    NNPC = xc->readNextNPC();
                     if(passesCondition(CcrIcc, COND2))
                         NNPC = xc->readPC() + disp;
                 }});
@@ -64,7 +63,6 @@ decode OP default Unknown::unknown()
         0x6: Trap::fbfcc({{fault = new FpDisabled;}});
     }
     0x1: Branch30::call({{
-            //branch here
             R15 = xc->readPC();
             NNPC = R15 + disp;
     }});
@@ -74,7 +72,7 @@ decode OP default Unknown::unknown()
             0x01: and({{Rd = Rs1.udw & Rs2_or_imm13;}});
             0x02: or({{Rd = Rs1.udw | Rs2_or_imm13;}});
             0x03: xor({{Rd = Rs1.udw ^ Rs2_or_imm13;}});
-            0x04: sub({{Rd = Rs1.sdw + (~Rs2_or_imm13)+1;}});
+            0x04: sub({{Rd = Rs1.sdw - Rs2_or_imm13;}});
             0x05: andn({{Rd = Rs1.udw & ~Rs2_or_imm13;}});
             0x06: orn({{Rd = Rs1.udw | ~Rs2_or_imm13;}});
             0x07: xnor({{Rd = ~(Rs1.udw ^ Rs2_or_imm13);}});
@@ -113,7 +111,7 @@ decode OP default Unknown::unknown()
                     else if(Rd.udw<63:> && Rd.udw<62:31> != 0xFFFFFFFF)
                         Rd.udw = 0xFFFFFFFF80000000;
                 }
-            }});//SDIV
+            }});
         }
         format IntOpCc {
             0x10: addcc({{
@@ -123,19 +121,19 @@ decode OP default Unknown::unknown()
                 {{Rs1<31:> == val2<31:> && val2<31:> != resTemp<31:>}},
                 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}},
                 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}}
-                );//ADDcc
+            );
             0x11: IntOpCcRes::andcc({{Rd = Rs1 & Rs2_or_imm13;}});
             0x12: IntOpCcRes::orcc({{Rd = Rs1 | Rs2_or_imm13;}});
             0x13: IntOpCcRes::xorcc({{Rd = Rs1 ^ Rs2_or_imm13;}});
             0x14: subcc({{
                 int64_t resTemp, val2 = Rs2_or_imm13;
                 Rd = resTemp = Rs1 - val2;}},
-                {{((Rs1 & 0xFFFFFFFF + (~val2) & 0xFFFFFFFF + 1) >> 31)}},
+                {{((Rs1 & 0xFFFFFFFF - val2 & 0xFFFFFFFF) >> 31)}},
                 {{Rs1<31:> != val2<31:> && Rs1<31:> != resTemp<31:>}},
                 {{(((Rs1 >> 1) + (~val2) >> 1) +
                     ((Rs1 | ~val2) & 0x1))<63:>}},
                 {{Rs1<63:> != val2<63:> && Rs1<63:> != resTemp<63:>}}
-            );//SUBcc
+            );
             0x15: IntOpCcRes::andncc({{Rd = Rs1 & ~Rs2_or_imm13;}});
             0x16: IntOpCcRes::orncc({{Rd = Rs1 | ~Rs2_or_imm13;}});
             0x17: IntOpCcRes::xnorcc({{Rd = ~(Rs1 ^ Rs2_or_imm13);}});
@@ -149,17 +147,17 @@ decode OP default Unknown::unknown()
                 {{((Rs1 >> 1) + (val2 >> 1) +
                     ((Rs1 & val2) | (carryin & (Rs1 | val2)) & 0x1))<63:>}},
                 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}}
-            );//ADDCcc
+            );
             0x1A: umulcc({{
                 uint64_t resTemp, val2 = Rs2_or_imm13;
                 Rd = resTemp = Rs1.udw<31:0> * val2<31:0>;
                 YValue = resTemp<63:32>;}},
-                {{0}},{{0}},{{0}},{{0}});//UMULcc
+                {{0}},{{0}},{{0}},{{0}});
             0x1B: smulcc({{
                 int64_t resTemp, val2 = Rs2_or_imm13;
                 Rd = resTemp = Rs1.sdw<31:0> * val2<31:0>;
-                YValue = resTemp<63:32>;}}
-                ,{{0}},{{0}},{{0}},{{0}});//SMULcc
+                YValue = resTemp<63:32>;}},
+                {{0}},{{0}},{{0}},{{0}});
             0x1C: subccc({{
                 int64_t resTemp, val2 = Rs2_or_imm13;
                 int64_t carryin = CcrIccC;
@@ -168,11 +166,11 @@ decode OP default Unknown::unknown()
                 {{Rs1<31:> != val2<31:> && Rs1<31:> != resTemp<31:>}},
                 {{(((Rs1 >> 1) + (~(val2 + carryin)) >> 1) + ((Rs1 | ~(val2+carryin)) & 0x1))<63:>}},
                 {{Rs1<63:> != val2<63:> && Rs1<63:> != resTemp<63:>}}
-            );//SUBCcc
+            );
             0x1D: udivxcc({{
                 if(Rs2_or_imm13 == 0) fault = new DivisionByZero;
                 else Rd = Rs1.udw / Rs2_or_imm13;}}
-                ,{{0}},{{0}},{{0}},{{0}});//UDIVXcc
+                ,{{0}},{{0}},{{0}},{{0}});
             0x1E: udivcc({{
                 uint32_t resTemp, val2 = Rs2_or_imm13;
                 int32_t overflow;
@@ -188,7 +186,7 @@ decode OP default Unknown::unknown()
                 {{overflow}},
                 {{0}},
                 {{0}}
-            );//UDIVcc
+            );
             0x1F: sdivcc({{
                 int32_t resTemp, val2 = Rs2_or_imm13;
                 int32_t overflow, underflow;
@@ -206,7 +204,7 @@ decode OP default Unknown::unknown()
                 {{overflow || underflow}},
                 {{0}},
                 {{0}}
-            );//SDIVcc
+            );
             0x20: taddcc({{
                 int64_t resTemp, val2 = Rs2_or_imm13;
                 Rd = resTemp = Rs1 + val2;
@@ -215,7 +213,7 @@ decode OP default Unknown::unknown()
                 {{overflow}},
                 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}},
                 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}}
-            );//TADDcc
+            );
             0x21: tsubcc({{
                 int64_t resTemp, val2 = Rs2_or_imm13;
                 Rd = resTemp = Rs1 + val2;
@@ -224,7 +222,7 @@ decode OP default Unknown::unknown()
                 {{overflow}},
                 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}},
                 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}}
-            );//TSUBcc
+            );
             0x22: taddcctv({{
                 int64_t resTemp, val2 = Rs2_or_imm13;
                 Rd = resTemp = Rs1 + val2;
@@ -234,7 +232,7 @@ decode OP default Unknown::unknown()
                 {{overflow}},
                 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}},
                 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}}
-            );//TADDccTV
+            );
             0x23: tsubcctv({{
                 int64_t resTemp, val2 = Rs2_or_imm13;
                 Rd = resTemp = Rs1 + val2;
@@ -244,7 +242,7 @@ decode OP default Unknown::unknown()
                 {{overflow}},
                 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}},
                 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}}
-            );//TSUBccTV
+            );
             0x24: mulscc({{
                 int64_t resTemp, multiplicand = Rs2_or_imm13;
                 int32_t multiplier = Rs1<31:0>;
@@ -260,305 +258,387 @@ decode OP default Unknown::unknown()
                 {{multiplicand<31:> == multiplier<31:> && multiplier<31:> != resTemp<31:>}},
                 {{((multiplicand >> 1) + (multiplier >> 1) + (multiplicand & multiplier & 0x1))<63:>}},
                 {{multiplicand<63:> == multiplier<63:> && multiplier<63:> != resTemp<63:>}}
-            );//MULScc
+            );
+        }
+        format IntOp
+        {
+            0x25: decode X {
+                0x0: sll({{Rd = Rs1 << (I ? SHCNT32 : Rs2<4:0>);}});
+                0x1: sllx({{Rd = Rs1 << (I ? SHCNT64 : Rs2<5:0>);}});
             }
-            format IntOp
-            {
-                0x25: decode X {
-                    0x0: sll({{Rd = Rs1 << (I ? SHCNT32 : Rs2<4:0>);}});
-                    0x1: sllx({{Rd = Rs1 << (I ? SHCNT64 : Rs2<5:0>);}});
+            0x26: decode X {
+                0x0: srl({{Rd = Rs1.uw >> (I ? SHCNT32 : Rs2<4:0>);}});
+                0x1: srlx({{Rd = Rs1.udw >> (I ? SHCNT64 : Rs2<5:0>);}});
+            }
+            0x27: decode X {
+                0x0: sra({{Rd = Rs1.sw >> (I ? SHCNT32 : Rs2<4:0>);}});
+                0x1: srax({{Rd = Rs1.sdw >> (I ? SHCNT64 : Rs2<5:0>);}});
+            }
+            0x28: decode RS1 {
+                0x0: rdy({{Rd = YValue;}});
+                0x2: rdccr({{Rd = Ccr;}});
+                0x3: rdasi({{Rd = Asi;}});
+                0x4: PrivTick::rdtick({{Rd = Tick;}});
+                0x5: rdpc({{Rd = xc->readPC();}});
+                0x6: rdfprs({{Rd = Fprs;}});
+                0xF: decode I {
+                    0x0: Nop::membar({{/*Membar isn't needed yet*/}});
+                    0x1: Nop::stbar({{/*Stbar isn't needed yet*/}});
                 }
-                0x26: decode X {
-                    0x0: srl({{Rd = Rs1.uw >> (I ? SHCNT32 : Rs2<4:0>);}});
-                    0x1: srlx({{Rd = Rs1.udw >> (I ? SHCNT64 : Rs2<5:0>);}});
+            }
+            0x2A: decode RS1 {
+                format Priv
+                {
+                    0x0: rdprtpc({{
+                        Rd = xc->readMiscReg(MISCREG_TPC_BASE + Tl);
+                    }});
+                    0x1: rdprtnpc({{
+                        Rd = xc->readMiscReg(MISCREG_TNPC_BASE + Tl);
+                    }});
+                    0x2: rdprtstate({{
+                        Rd = xc->readMiscReg(MISCREG_TSTATE_BASE + Tl);
+                    }});
+                    0x3: rdprtt({{
+                        Rd = xc->readMiscReg(MISCREG_TT_BASE + Tl);
+                    }});
+                    0x4: rdprtick({{Rd = Tick;}});
+                    0x5: rdprtba({{Rd = Tba;}});
+                    0x6: rdprpstate({{Rd = Pstate;}});
+                    0x7: rdprtl({{Rd = Tl;}});
+                    0x8: rdprpil({{Rd = Pil;}});
+                    0x9: rdprcwp({{Rd = Cwp;}});
+                    0xA: rdprcansave({{Rd = Cansave;}});
+                    0xB: rdprcanrestore({{Rd = Canrestore;}});
+                    0xC: rdprcleanwin({{Rd = Cleanwin;}});
+                    0xD: rdprotherwin({{Rd = Otherwin;}});
+                    0xE: rdprwstate({{Rd = Wstate;}});
                 }
-                0x27: decode X {
-                    0x0: sra({{Rd = Rs1.sw >> (I ? SHCNT32 : Rs2<4:0>);}}); //SRA
-                    0x1: srax({{Rd = Rs1.sdw >> (I ? SHCNT64 : Rs2<5:0>);}});//SRAX
+                //The floating point queue isn't implemented right now.
+                0xF: Trap::rdprfq({{fault = new IllegalInstruction;}});
+                0x1F: Priv::rdprver({{Rd = Ver;}});
+            }
+            0x2B: BasicOperate::flushw({{
+                if(NWindows - 2 - Cansave == 0)
+                {
+                    if(Otherwin)
+                        fault = new SpillNOther(WstateOther);
+                    else
+                        fault = new SpillNNormal(WstateNormal);
                 }
-                0x28: decode RS1 {
-                    0x0: rdy({{Rd = YValue;}}); //RDY
-                    0x2: rdccr({{Rd = Ccr;}}); //RDCCR
-                    0x3: rdasi({{Rd = Asi;}}); //RDASI
-                    0x4: PrivTick::rdtick({{Rd = Tick;}});
-                    0x5: rdpc({{Rd = xc->readPC();}}); //RDPC
-                    0x6: rdfprs({{Rd = Fprs;}}); //RDFPRS
-                    0xF: decode I {
-                        0x0: Nop::membar({{/*Membar isn't needed yet*/}});
-                        0x1: Nop::stbar({{/*Stbar isn't needed yet*/}});
-                    }
+            }});
+            0x2C: decode MOVCC3
+            {
+                0x0: Trap::movccfcc({{fault = new FpDisabled;}});
+                0x1: decode CC
+                {
+                    0x0: movcci({{
+                        if(passesCondition(CcrIcc, COND4))
+                            Rd = (I ? SIMM11 : RS2);
+                    }});
+                    0x2: movccx({{
+                        if(passesCondition(CcrXcc, COND4))
+                            Rd = (I ? SIMM11 : RS2);
+                    }});
                 }
-                0x2A: decode RS1 {
-                    format Priv
+            }
+            0x2D: sdivx({{
+                if(Rs2_or_imm13 == 0) fault = new DivisionByZero;
+                else Rd.sdw = Rs1.sdw / Rs2_or_imm13;
+            }});
+            0x2E: decode RS1 {
+                0x0: IntOp::popc({{
+                    int64_t count = 0;
+                    uint64_t temp = Rs2_or_imm13;
+                    //Count the 1s in the front 4bits until none are left
+                    uint8_t oneBits[] = {0,1,1,2,1,2,2,3,1,2,2,3,2,3,3,4};
+                    while(temp)
                     {
-                        0x0: rdprtpc({{
-                            Rd = xc->readMiscReg(MISCREG_TPC_BASE + Tl);
-                            }});
-                        0x1: rdprtnpc({{
-                            Rd = xc->readMiscReg(MISCREG_TNPC_BASE + Tl);
-                            }});
-                        0x2: rdprtstate({{
-                            Rd = xc->readMiscReg(MISCREG_TSTATE_BASE + Tl);
-                            }});
-                        0x3: rdprtt({{
-                            Rd = xc->readMiscReg(MISCREG_TT_BASE + Tl);
-                            }});
-                        0x4: rdprtick({{Rd = Tick;}});
-                        0x5: rdprtba({{Rd = Tba;}});
-                        0x6: rdprpstate({{Rd = Pstate;}});
-                        0x7: rdprtl({{Rd = Tl;}});
-                        0x8: rdprpil({{Rd = Pil;}});
-                        0x9: rdprcwp({{Rd = Cwp;}});
-                        0xA: rdprcansave({{Rd = Cansave;}});
-                        0xB: rdprcanrestore({{Rd = Canrestore;}});
-                        0xC: rdprcleanwin({{Rd = Cleanwin;}});
-                        0xD: rdprotherwin({{Rd = Otherwin;}});
-                        0xE: rdprwstate({{Rd = Wstate;}});
+                            count += oneBits[temp & 0xF];
+                            temp = temp >> 4;
                     }
-                    //The floating point queue isn't implemented right now.
-                    0xF: Trap::rdprfq({{fault = new IllegalInstruction;}});
-                    0x1F: Priv::rdprver({{Rd = Ver;}});
-                }
-                0x2B: BasicOperate::flushw({{/*window toilet*/}});
-                0x2C: decode MOVCC3
+                }});
+            }
+            0x2F: decode RCOND3
+            {
+                0x1: movreq({{if(Rs1 == 0) Rd = Rs2_or_imm10;}});
+                0x2: movrle({{if(Rs1 <= 0) Rd = Rs2_or_imm10;}});
+                0x3: movrl({{if(Rs1 < 0) Rd = Rs2_or_imm10;}});
+                0x5: movrne({{if(Rs1 != 0) Rd = Rs2_or_imm10;}});
+                0x6: movrg({{if(Rs1 > 0) Rd = Rs2_or_imm10;}});
+                0x7: movrge({{if(Rs1 >= 0) Rd = Rs2_or_imm10;}});
+            }
+            0x30: decode RD {
+                0x0: wry({{Y = Rs1 ^ Rs2_or_imm13;}});
+                0x2: wrccr({{Ccr = Rs1 ^ Rs2_or_imm13;}});
+                0x3: wrasi({{Asi = Rs1 ^ Rs2_or_imm13;}});
+                0x6: wrfprs({{Asi = Rs1 ^ Rs2_or_imm13;}});
+                0xF: Trap::sir({{fault = new SoftwareInitiatedReset;}});
+            }
+            0x31: decode FCN {
+                0x0: BasicOperate::saved({{/*Boogy Boogy*/}});
+                0x1: BasicOperate::restored({{/*Boogy Boogy*/}});
+            }
+            0x32: decode RD {
+                format Priv
                 {
-                    0x0: Trap::movccfcc({{fault = new FpDisabled;}});
-                    0x1: decode CC
-                    {
-                        0x0: movcci({{
-                            if(passesCondition(CcrIcc, COND4))
-                                Rd = (I ? SIMM11 : RS2);
-                        }});
-                        0x2: movccx({{
-                            if(passesCondition(CcrXcc, COND4))
-                                Rd = (I ? SIMM11 : RS2);
-                        }});
-                    }
-                }
-                0x2D: sdivx({{
-                        if(Rs2_or_imm13 == 0) fault = new DivisionByZero;
-                        else Rd.sdw = Rs1.sdw / Rs2_or_imm13;
-                }});//SDIVX
-                0x2E: decode RS1 {
-                        0x0: IntOp::popc({{
-                        int64_t count = 0;
-                        uint64_t temp = Rs2_or_imm13;
-                        //Count the 1s in the front 4bits until none are left
-                        uint8_t oneBits[] = {0,1,1,2,1,2,2,3,1,2,2,3,2,3,3,4};
-                        while(temp)
-                        {
-                                count += oneBits[temp & 0xF];
-                                temp = temp >> 4;
-                        }
-                        }});//POPC
+                    0x0: wrprtpc({{
+                        xc->setMiscReg(MISCREG_TPC_BASE + Tl,
+                            Rs1 ^ Rs2_or_imm13);
+                    }});
+                    0x1: wrprtnpc({{
+                        xc->setMiscReg(MISCREG_TNPC_BASE + Tl,
+                            Rs1 ^ Rs2_or_imm13);
+                    }});
+                    0x2: wrprtstate({{
+                        xc->setMiscReg(MISCREG_TSTATE_BASE + Tl,
+                            Rs1 ^ Rs2_or_imm13);
+                    }});
+                    0x3: wrprtt({{
+                        xc->setMiscReg(MISCREG_TT_BASE + Tl,
+                            Rs1 ^ Rs2_or_imm13);
+                    }});
+                    0x4: wrprtick({{Tick = Rs1 ^ Rs2_or_imm13;}});
+                    0x5: wrprtba({{Tba = Rs1 ^ Rs2_or_imm13;}});
+                    0x6: wrprpstate({{Pstate = Rs1 ^ Rs2_or_imm13;}});
+                    0x7: wrprtl({{Tl = Rs1 ^ Rs2_or_imm13;}});
+                    0x8: wrprpil({{Pil = Rs1 ^ Rs2_or_imm13;}});
+                    0x9: wrprcwp({{Cwp = Rs1 ^ Rs2_or_imm13;}});
+                    0xA: wrprcansave({{Cansave = Rs1 ^ Rs2_or_imm13;}});
+                    0xB: wrprcanrestore({{Canrestore = Rs1 ^ Rs2_or_imm13;}});
+                    0xC: wrprcleanwin({{Cleanwin = Rs1 ^ Rs2_or_imm13;}});
+                    0xD: wrprotherwin({{Otherwin = Rs1 ^ Rs2_or_imm13;}});
+                    0xE: wrprwstate({{Wstate = Rs1 ^ Rs2_or_imm13;}});
                 }
-                0x2F: decode RCOND3
+            }
+            0x34: Trap::fpop1({{fault = new FpDisabled;}});
+            0x35: Trap::fpop2({{fault = new FpDisabled;}});
+            0x38: Branch::jmpl({{
+                Addr target = Rs1 + Rs2_or_imm13;
+                if(target & 0x3)
+                    fault = new MemAddressNotAligned;
+                else
                 {
-                    0x1: movreq({{if(Rs1 == 0) Rd = Rs2_or_imm10;}});
-                    0x2: movrle({{if(Rs1 <= 0) Rd = Rs2_or_imm10;}});
-                    0x3: movrl({{if(Rs1 < 0) Rd = Rs2_or_imm10;}});
-                    0x5: movrne({{if(Rs1 != 0) Rd = Rs2_or_imm10;}});
-                    0x6: movrg({{if(Rs1 > 0) Rd = Rs2_or_imm10;}});
-                    0x7: movrge({{if(Rs1 >= 0) Rd = Rs2_or_imm10;}});
-                }
-                0x30: decode RD {
-                        0x0: wry({{Y = Rs1 ^ Rs2_or_imm13;}});
-                        0x2: wrccr({{Ccr = Rs1 ^ Rs2_or_imm13;}});
-                        0x3: wrasi({{Asi = Rs1 ^ Rs2_or_imm13;}});
-                        0x6: wrfprs({{Asi = Rs1 ^ Rs2_or_imm13;}});
-                        0xF: Trap::sir({{fault = new SoftwareInitiatedReset;}});
+                    Rd = xc->readPC();
+                    NNPC = target;
                 }
-                0x31: decode FCN {
-                        0x0: BasicOperate::saved({{/*Boogy Boogy*/}});
-                        0x1: BasicOperate::restored({{/*Boogy Boogy*/}});
-                }
-                0x32: decode RD {
-                    format Priv
+            }});
+            0x39: Branch::return({{
+                Addr target = Rs1 + Rs2_or_imm13;
+                if(target & 0x3)
+                    fault = new MemAddressNotAligned;
+                else
+                    NNPC = target;
+                //This needs to change the register window
+                //like restore does
+            }});
+            0x3A: decode CC
+            {
+                0x0: Trap::tcci({{
+#if FULL_SYSTEM
+                    fault = new TrapInstruction;
+#else
+                    if(passesCondition(CcrIcc, machInst<25:28>))
                     {
-                        0x0: wrprtpc({{
-                            xc->setMiscReg(MISCREG_TPC_BASE + Tl,
-                                Rs1 ^ Rs2_or_imm13);
-                        }});
-                        0x1: wrprtnpc({{
-                            xc->setMiscReg(MISCREG_TNPC_BASE + Tl,
-                                Rs1 ^ Rs2_or_imm13);
-                        }});
-                        0x2: wrprtstate({{
-                            xc->setMiscReg(MISCREG_TSTATE_BASE + Tl,
-                                Rs1 ^ Rs2_or_imm13);
-                        }});
-                        0x3: wrprtt({{
-                            xc->setMiscReg(MISCREG_TT_BASE + Tl,
-                                Rs1 ^ Rs2_or_imm13);
-                        }});
-                        0x4: wrprtick({{Tick = Rs1 ^ Rs2_or_imm13;}});
-                        0x5: wrprtba({{Tba = Rs1 ^ Rs2_or_imm13;}});
-                        0x6: wrprpstate({{Pstate = Rs1 ^ Rs2_or_imm13;}});
-                        0x7: wrprtl({{Tl = Rs1 ^ Rs2_or_imm13;}});
-                        0x8: wrprpil({{Pil = Rs1 ^ Rs2_or_imm13;}});
-                        0x9: wrprcwp({{Cwp = Rs1 ^ Rs2_or_imm13;}});
-                        0xA: wrprcansave({{Cansave = Rs1 ^ Rs2_or_imm13;}});
-                        0xB: wrprcanrestore({{Canrestore = Rs1 ^ Rs2_or_imm13;}});
-                        0xC: wrprcleanwin({{Cleanwin = Rs1 ^ Rs2_or_imm13;}});
-                        0xD: wrprotherwin({{Otherwin = Rs1 ^ Rs2_or_imm13;}});
-                        0xE: wrprwstate({{Wstate = Rs1 ^ Rs2_or_imm13;}});
+                        // At least glibc only uses trap 0,
+                        // solaris/sunos may use others
+                        assert((I ? Rs1 + Rs2 : Rs1 + SW_TRAP) == 0);
+                        xc->syscall();
                     }
-                }
-
-                0x34: Trap::fpop1({{fault = new FpDisabled;}});
-                0x35: Trap::fpop2({{fault = new FpDisabled;}});
-
-                0x38: Branch::jmpl({{
-                    Addr target = Rs1 + Rs2_or_imm13;
-                    if(target && 0x3)
-                        fault = new MemAddressNotAligned;
-                    else
+#endif
+                }});
+                0x2: Trap::tccx({{
+#if FULL_SYSTEM
+                    fault = new TrapInstruction;
+#else
+                    if(passesCondition(CcrXcc, machInst<25:28>))
                     {
-                        Rd = xc->readPC();
-                        NNPC = target;
+                        // At least glibc only uses trap 0,
+                        // solaris/sunos may use others
+                        assert((I ? Rs1 + Rs2 : Rs1 + SW_TRAP) == 0);
+                        xc->syscall();
                     }
+#endif
                 }});
-                0x39: Branch::return({{
-                    Addr target = Rs1 + Rs2_or_imm13;
-                    if(target && 0x3)
-                        fault = new MemAddressNotAligned;
+            }
+            0x3B: Nop::flush({{/*Instruction memory flush*/}});
+            0x3C: save({{
+                //CWP should be set directly so that it always happens
+                //Also, this will allow writing to the new window and
+                //reading from the old one
+                if(Cansave == 0)
+                {
+                    if(Otherwin)
+                        fault = new SpillNOther(WstateOther);
                     else
-                        NNPC = target;
-                    //This needs to change the register window
-                    //like restore does
-                }});
-                0x3A: decode CC
+                        fault = new SpillNNormal(WstateNormal);
+                    Cwp = (Cwp + 2) % NWindows;
+                }
+                else if(Cleanwin - Canrestore == 0)
                 {
-                    0x0: Trap::tcci({{
-#if FULL_SYSTEM
-                         fault = new TrapInstruction;
-#else
-                         if(passesCondition(CcrIcc, machInst<25:28>))
-                              // At least glibc only uses trap 0,
-                              // solaris/sunos may use others
-                              assert((I ? Rs1 + Rs2 : Rs1 + SW_TRAP) == 0);
-                              xc->syscall();
-#endif
-                    }});
-                    0x2: Trap::tccx({{
-#if FULL_SYSTEM
-                         fault = new TrapInstruction;
-#else
-                         if(passesCondition(CcrXcc, machInst<25:28>))
-                              // At least glibc only uses trap 0,
-                              // solaris/sunos may use others
-                              assert((I ? Rs1 + Rs2 : Rs1 + SW_TRAP) == 0);
-                              xc->syscall();
-#endif
-                    }});
+                    Cwp = (Cwp + 1) % NWindows;
+                    fault = new CleanWindow;
+                }
+                else
+                {
+                    Cwp = (Cwp + 1) % NWindows;
+                    Rd = Rs1 + Rs2_or_imm13;
+                    Cansave--;
+                    Canrestore++;
+                }
+                //This is here to make sure the CWP is written
+                //no matter what. This ensures that the results
+                //are written in the new window as well.
+                xc->setMiscRegWithEffect(MISCREG_CWP, Cwp);
+            }});
+            0x3D: restore({{
+                //CWP should be set directly so that it always happens
+                //Also, this will allow writing to the new window and
+                //reading from the old one
+                Cwp = (Cwp - 1 + NWindows) % NWindows;
+                if(Canrestore == 0)
+                {
+                    if(Otherwin)
+                        fault = new FillNOther(WstateOther);
+                    else
+                        fault = new FillNNormal(WstateNormal);
                 }
-                0x3B: BasicOperate::flush({{/*Lala*/}});
-                0x3C: BasicOperate::save({{/*leprechauns*/}});
-                0x3D: BasicOperate::restore({{/*Eat my short int*/}});
-                0x3E: decode FCN {
-                    0x1: BasicOperate::done({{/*Done thing*/}});
-                    0x2: BasicOperate::retry({{/*Retry thing*/}});
+                else
+                {
+                    Rd = Rs1 + Rs2_or_imm13;
+                    Cansave++;
+                    Canrestore--;
                 }
+                //This is here to make sure the CWP is written
+                //no matter what. This ensures that the results
+                //are written in the new window as well.
+                xc->setMiscRegWithEffect(MISCREG_CWP, Cwp);
+            }});
+            0x3E: decode FCN {
+                0x0: Priv::done({{
+                    if(Tl == 0)
+                        return new IllegalInstruction;
+                    Cwp = xc->readMiscReg(MISCREG_TSTATE_CWP_BASE + Tl);
+                    Asi = xc->readMiscReg(MISCREG_TSTATE_ASI_BASE + Tl);
+                    Ccr = xc->readMiscReg(MISCREG_TSTATE_CCR_BASE + Tl);
+                    Pstate = xc->readMiscReg(MISCREG_TSTATE_PSTATE_BASE + Tl);
+                    NPC = xc->readMiscReg(MISCREG_TNPC_BASE + Tl);
+                    NNPC = NPC + 4;
+                    Tl = Tl - 1;
+                }});
+                0x1: BasicOperate::retry({{
+                    if(Tl == 0)
+                        return new IllegalInstruction;
+                    Cwp = xc->readMiscReg(MISCREG_TSTATE_CWP_BASE + Tl);
+                    Asi = xc->readMiscReg(MISCREG_TSTATE_ASI_BASE + Tl);
+                    Ccr = xc->readMiscReg(MISCREG_TSTATE_CCR_BASE + Tl);
+                    Pstate = xc->readMiscReg(MISCREG_TSTATE_PSTATE_BASE + Tl);
+                    NPC = xc->readMiscReg(MISCREG_TPC_BASE + Tl);
+                    NNPC = xc->readMiscReg(MISCREG_TNPC_BASE + Tl);
+                    Tl = Tl - 1;
+                }});
             }
+        }
     }
     0x3: decode OP3 {
-            format Mem {
-                    0x00: lduw({{Rd.uw = Mem.uw;}}); //LDUW
-                    0x01: ldub({{Rd.ub = Mem.ub;}}); //LDUB
-                    0x02: lduh({{Rd.uhw = Mem.uhw;}}); //LDUH
-                    0x03: ldd({{
-                        uint64_t val = Mem.udw;
-                        RdLow = val<31:0>;
-                        RdHigh = val<63:32>;
-                    }});//LDD
-                    0x04: stw({{Mem.sw = Rd.sw;}}); //STW
-                    0x05: stb({{Mem.sb = Rd.sb;}}); //STB
-                    0x06: sth({{Mem.shw = Rd.shw;}}); //STH
-                    0x07: std({{
-                            Mem.udw = RdLow<31:0> | RdHigh<31:0> << 32;
-                    }});//STD
-                    0x08: ldsw({{Rd.sw = Mem.sw;}}); //LDSW
-                    0x09: ldsb({{Rd.sb = Mem.sb;}}); //LDSB
-                    0x0A: ldsh({{Rd.shw = Mem.shw;}}); //LDSH
-                    0x0B: ldx({{Rd.udw = Mem.udw;}}); //LDX
-
-                    0x0D: ldstub({{
-                            Rd.ub = Mem.ub;
-                            Mem.ub = 0xFF;
-                    }}); //LDSTUB
-                    0x0E: stx({{Rd.udw = Mem.udw;}}); //STX
-                    0x0F: swap({{
-                            uint32_t temp = Rd.uw;
-                            Rd.uw = Mem.uw;
-                            Mem.uw = temp;
-                    }}); //SWAP
-                    0x10: lduwa({{Rd.uw = Mem.uw;}}); //LDUWA
-                    0x11: lduba({{Rd.ub = Mem.ub;}}); //LDUBA
-                    0x12: lduha({{Rd.uhw = Mem.uhw;}}); //LDUHA
-                    0x13: ldda({{
-                            uint64_t val = Mem.udw;
-                            RdLow = val<31:0>;
-                            RdHigh = val<63:32>;
-                    }}); //LDDA
-                    0x14: stwa({{Mem.uw = Rd.uw;}}); //STWA
-                    0x15: stba({{Mem.ub = Rd.ub;}}); //STBA
-                    0x16: stha({{Mem.uhw = Rd.uhw;}}); //STHA
-                    0x17: stda({{
-                            Mem.udw = RdLow<31:0> | RdHigh<31:0> << 32;
-                    }}); //STDA
-                    0x18: ldswa({{Rd.sw = Mem.sw;}}); //LDSWA
-                    0x19: ldsba({{Rd.sb = Mem.sb;}}); //LDSBA
-                    0x1A: ldsha({{Rd.shw = Mem.shw;}}); //LDSHA
-                    0x1B: ldxa({{Rd.sdw = Mem.sdw;}}); //LDXA
-
-                    0x1D: ldstuba({{
-                            Rd.ub = Mem.ub;
-                            Mem.ub = 0xFF;
-                    }}); //LDSTUBA
-                    0x1E: stxa({{Mem.sdw = Rd.sdw}}); //STXA
-                    0x1F: swapa({{
-                            uint32_t temp = Rd.uw;
-                            Rd.uw = Mem.uw;
-                            Mem.uw = temp;
-                    }}); //SWAPA
-                    0x20: Trap::ldf({{fault = new FpDisabled;}});
-                    0x21: decode X {
-                        0x0: Trap::ldfsr({{fault = new FpDisabled;}});
-                        0x1: Trap::ldxfsr({{fault = new FpDisabled;}});
-                    }
-                    0x22: Trap::ldqf({{fault = new FpDisabled;}});
-                    0x23: Trap::lddf({{fault = new FpDisabled;}});
-                    0x24: Trap::stf({{fault = new FpDisabled;}});
-                    0x25: decode X {
-                        0x0: Trap::stfsr({{fault = new FpDisabled;}});
-                        0x1: Trap::stxfsr({{fault = new FpDisabled;}});
-                    }
-                    0x26: Trap::stqf({{fault = new FpDisabled;}});
-                    0x27: Trap::stdf({{fault = new FpDisabled;}});
-
-                    0x2D: Nop::prefetch({{ }}); //PREFETCH
-
-                    0x30: Trap::ldfa({{return new FpDisabled;}});
-
-                    0x32: Trap::ldqfa({{fault = new FpDisabled;}});
-                    0x33: Trap::lddfa({{fault = new FpDisabled;}});
-                    0x34: Trap::stfa({{fault = new FpDisabled;}});
-                    0x35: Trap::stqfa({{fault = new FpDisabled;}});
-                    0x36: Trap::stdfa({{fault = new FpDisabled;}});
-
-                    0x3C: Cas::casa(
-                            {{uint64_t val = Mem.uw;
-                            if(Rs2.uw == val)
-                                    Mem.uw = Rd.uw;
-                            Rd.uw = val;
-                    }}); //CASA
-                    0x3D: Nop::prefetcha({{ }}); //PREFETCHA
-                    0x3E: Cas::casxa({{
-                            uint64_t val = Mem.udw;
-                            if(Rs2 == val)
-                                    Mem.udw = Rd;
-                            Rd = val;
-                    }}); //CASXA
+        format Load {
+            0x00: lduw({{Rd = Mem;}}, {{32}});
+            0x01: ldub({{Rd = Mem;}}, {{8}});
+            0x02: lduh({{Rd = Mem;}}, {{16}});
+            0x03: ldd({{
+                uint64_t val = Mem;
+                RdLow = val<31:0>;
+                RdHigh = val<63:32>;
+            }}, {{64}});
+        }
+        format Store {
+            0x04: stw({{Mem = Rd.sw;}}, {{32}});
+            0x05: stb({{Mem = Rd.sb;}}, {{8}});
+            0x06: sth({{Mem = Rd.shw;}}, {{16}});
+            0x07: std({{Mem = RdLow<31:0> | RdHigh<31:0> << 32;}}, {{64}});
+        }
+        format Load {
+            0x08: ldsw({{Rd = (int32_t)Mem;}}, {{32}});
+            0x09: ldsb({{Rd = (int8_t)Mem;}}, {{8}});
+            0x0A: ldsh({{Rd = (int16_t)Mem;}}, {{16}});
+            0x0B: ldx({{Rd = (int64_t)Mem;}}, {{64}});
+            0x0D: ldstub({{
+                Rd = Mem;
+                Mem = 0xFF;
+            }}, {{8}});
+        }
+        0x0E: Store::stx({{Mem = Rd}}, {{64}});
+        0x0F: LoadStore::swap({{
+            uint32_t temp = Rd;
+            Rd = Mem;
+            Mem = temp;
+        }}, {{32}});
+        format Load {
+            0x10: lduwa({{Rd = Mem;}}, {{32}});
+            0x11: lduba({{Rd = Mem;}}, {{8}});
+            0x12: lduha({{Rd = Mem;}}, {{16}});
+            0x13: ldda({{
+                uint64_t val = Mem;
+                RdLow = val<31:0>;
+                RdHigh = val<63:32>;
+            }}, {{64}});
+        }
+        format Store {
+            0x14: stwa({{Mem = Rd;}}, {{32}});
+            0x15: stba({{Mem = Rd;}}, {{8}});
+            0x16: stha({{Mem = Rd;}}, {{16}});
+            0x17: stda({{Mem = RdLow<31:0> | RdHigh<31:0> << 32;}}, {{64}});
+        }
+        format Load {
+            0x18: ldswa({{Rd = (int32_t)Mem;}}, {{32}});
+            0x19: ldsba({{Rd = (int8_t)Mem;}}, {{8}});
+            0x1A: ldsha({{Rd = (int16_t)Mem;}}, {{16}});
+            0x1B: ldxa({{Rd = (int64_t)Mem;}}, {{64}});
+        }
+        0x1D: LoadStore::ldstuba({{
+            Rd = Mem;
+            Mem = 0xFF;
+        }}, {{8}});
+        0x1E: Store::stxa({{Mem = Rd}}, {{64}});
+        0x1F: LoadStore::swapa({{
+            uint32_t temp = Rd;
+            Rd = Mem;
+            Mem = temp;
+        }}, {{32}});
+        format Trap {
+            0x20: ldf({{fault = new FpDisabled;}});
+            0x21: decode X {
+                0x0: ldfsr({{fault = new FpDisabled;}});
+                0x1: ldxfsr({{fault = new FpDisabled;}});
+            }
+            0x22: ldqf({{fault = new FpDisabled;}});
+            0x23: lddf({{fault = new FpDisabled;}});
+            0x24: stf({{fault = new FpDisabled;}});
+            0x25: decode X {
+                0x0: stfsr({{fault = new FpDisabled;}});
+                0x1: stxfsr({{fault = new FpDisabled;}});
             }
+            0x26: stqf({{fault = new FpDisabled;}});
+            0x27: stdf({{fault = new FpDisabled;}});
+            0x2D: Nop::prefetch({{ }});
+            0x30: ldfa({{return new FpDisabled;}});
+            0x32: ldqfa({{fault = new FpDisabled;}});
+            0x33: lddfa({{fault = new FpDisabled;}});
+            0x34: stfa({{fault = new FpDisabled;}});
+            0x35: stqfa({{fault = new FpDisabled;}});
+            0x36: stdfa({{fault = new FpDisabled;}});
+            0x3C: Cas::casa({{
+                uint64_t val = Mem.uw;
+                if(Rs2.uw == val)
+                        Mem.uw = Rd.uw;
+                Rd.uw = val;
+            }});
+            0x3D: Nop::prefetcha({{ }});
+            0x3E: Cas::casxa({{
+                uint64_t val = Mem.udw;
+                if(Rs2 == val)
+                        Mem.udw = Rd;
+                Rd = val;
+            }});
+        }
     }
 }
index 2c2123f86b1cd36a1426ad652258f8a4c62d68f3..f14f9e858549b1a7fce9109c66a1f169b8ce03cc 100644 (file)
@@ -37,7 +37,7 @@ output header {{
             {
             }
 
-            uint32_t imm;
+            int32_t imm;
 
             std::string generateDisassembly(Addr pc,
                 const SymbolTable *symtab) const;
@@ -57,7 +57,7 @@ output header {{
                     OpClass __opClass) :
                 IntOpImm(mnem, _machInst, __opClass)
             {
-                imm = SIMM10;
+                imm = sign_ext(SIMM10, 10);
             }
         };
 
@@ -72,7 +72,7 @@ output header {{
                     OpClass __opClass) :
                 IntOpImm(mnem, _machInst, __opClass)
             {
-                imm = SIMM13;
+                imm = sign_ext(SIMM13, 13);
             }
         };
 
@@ -195,7 +195,7 @@ output decoder {{
             if(!printPseudoOps(response, pc, symtab))
             {
                 printMnemonic(response, mnemonic);
-                if (_numSrcRegs > 1)
+                if (_numSrcRegs > 0)
                 {
                     printReg(response, _srcRegIdx[0]);
                     for(int x = 1; x < _numSrcRegs - 1; x++)
@@ -254,14 +254,14 @@ let {{
     def doIntFormat(code, ccCode, name, Name, opt_flags):
         (usesImm, code, immCode,
          rString, iString) = splitOutImm(code)
-        iop = genCompositeIop(code, name, Name,
-                'IntOp', opt_flags, cc_code=ccCode)
+        iop = InstObjParams(name, Name,        'IntOp', code,
+                opt_flags, ("cc_code", ccCode))
         header_output = BasicDeclare.subst(iop)
         decoder_output = BasicConstructor.subst(iop)
         exec_output = IntOpExecute.subst(iop)
         if usesImm:
-            imm_iop = genCompositeIop(code, name, Name + 'Imm',
-                    'IntOpImm' + iString, opt_flags, cc_code=ccCode)
+            imm_iop = InstObjParams(name, Name + 'Imm', 'IntOpImm' + iString,
+                    immCode, opt_flags, ("cc_code", ccCode))
             header_output += BasicDeclare.subst(imm_iop)
             decoder_output += BasicConstructor.subst(imm_iop)
             exec_output += IntOpExecute.subst(imm_iop)
@@ -316,8 +316,8 @@ def format IntOpCcRes(code, *opt_flags) {{
 }};
 
 def format SetHi(code, *opt_flags) {{
-    iop = genCompositeIop(code, name, Name, 'SetHi',
-            opt_flags, cc_code='')
+    iop = InstObjParams(name, Name, 'SetHi',
+            code, opt_flags, ("cc_code", ''))
     header_output = BasicDeclare.subst(iop)
     decoder_output = BasicConstructor.subst(iop)
     exec_output = IntOpExecute.subst(iop)
index 8c9d21c01d3035d85c32713f6d7266143866e48d..db2a4aaaa6bd5ada46e9ecd5c2556ad52bc31033 100644 (file)
@@ -37,7 +37,7 @@ output header {{
             std::string generateDisassembly(Addr pc,
                     const SymbolTable *symtab) const;
 
-            int imm;
+            int32_t imm;
         };
 }};
 
@@ -46,7 +46,7 @@ output decoder {{
                 const SymbolTable *symtab) const
         {
             std::stringstream response;
-            bool load = (_numDestRegs == 1);
+            bool load = flags[IsLoad];
 
             printMnemonic(response, mnemonic);
             if(!load)
@@ -72,7 +72,7 @@ output decoder {{
                 const SymbolTable *symtab) const
         {
             std::stringstream response;
-            bool load = (_numDestRegs == 1);
+            bool load = flags[IsLoad];
 
             printMnemonic(response, mnemonic);
             if(!load)
@@ -102,7 +102,9 @@ def template MemExecute {{
             %(op_decl)s;
             %(op_rd)s;
             %(ea_code)s;
+            %(load)s;
             %(code)s;
+            %(store)s;
 
             if(fault == NoFault)
             {
@@ -114,16 +116,49 @@ def template MemExecute {{
         }
 }};
 
-// Primary format for memory instructions:
-def format Mem(code, *opt_flags) {{
+let {{
+    # Leave memAccessFlags at 0 for now
+    loadString = "xc->read(EA, (uint%(width)s_t&)Mem, 0);"
+    storeString = "uint64_t write_result = 0; \
+    xc->write((uint%(width)s_t)Mem, EA, 0, &write_result);"
+
+    def doMemFormat(code, load, store, name, Name, opt_flags):
         addrCalcReg = 'EA = Rs1 + Rs2;'
         addrCalcImm = 'EA = Rs1 + SIMM13;'
-        iop = genCompositeIop(code, name, Name, 'Mem',
-                opt_flags, ea_code=addrCalcReg)
-        iop_imm = genCompositeIop(code, name, Name + 'Imm', 'MemImm',
-                opt_flags, ea_code=addrCalcImm)
+        iop = InstObjParams(name, Name, 'Mem', code,
+                opt_flags, ("ea_code", addrCalcReg),
+                ("load", load), ("store", store))
+        iop_imm = InstObjParams(name, Name + 'Imm', 'MemImm', code,
+                opt_flags, ("ea_code", addrCalcImm),
+                ("load", load), ("store", store))
         header_output = BasicDeclare.subst(iop) + BasicDeclare.subst(iop_imm)
         decoder_output = BasicConstructor.subst(iop) + BasicConstructor.subst(iop_imm)
         decode_block = ROrImmDecode.subst(iop)
         exec_output = MemExecute.subst(iop) + MemExecute.subst(iop_imm)
+        return (header_output, decoder_output, exec_output, decode_block)
+}};
+
+def format Load(code, width, *opt_flags) {{
+        (header_output,
+         decoder_output,
+         exec_output,
+         decode_block) = doMemFormat(code,
+             loadString % {"width":width}, '', name, Name, opt_flags)
+}};
+
+def format Store(code, width, *opt_flags) {{
+        (header_output,
+         decoder_output,
+         exec_output,
+         decode_block) = doMemFormat(code, '',
+             storeString % {"width":width}, name, Name, opt_flags)
+}};
+
+def format LoadStore(code, width, *opt_flags) {{
+        (header_output,
+         decoder_output,
+         exec_output,
+         decode_block) = doMemFormat(code,
+             loadString % {"width":width}, storeString % {"width":width},
+             name, Name, opt_flags)
 }};
index 162ad5ee0917a17f170d47f1b9f06b53e9141b9d..f9fea01f26ed2a004ca8a52bcbfadfba88bb4d09 100644 (file)
@@ -50,7 +50,7 @@ output header {{
             {
             }
 
-            uint32_t imm;
+            int32_t imm;
         };
 
         /**
@@ -66,7 +66,7 @@ output header {{
             {
             }
 
-            uint32_t imm;
+            int32_t imm;
         };
 }};
 
@@ -91,35 +91,8 @@ def template PrivExecute {{
         %(op_decl)s;
         %(op_rd)s;
 
-        //Since these are processed inside templates and not in codeblocks,
-        //They aren't translated by the isa_parser. Their names begin with
-        //underscores so they don't cause conflicts.
-        uint32_t _PstatePriv = xc->readMiscReg(MISCREG_PSTATE_PRIV);
-
         //If the processor isn't in privileged mode, fault out right away
-        if(!_PstatePriv)
-            return new PrivilegedOpcode;
-
-        %(code)s;
-        %(op_wb)s;
-        return NoFault;
-    }
-}};
-
-def template PrivTickExecute {{
-    Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
-            Trace::InstRecord *traceData) const
-    {
-        %(op_decl)s;
-        %(op_rd)s;
-
-        //Since these are processed inside templates and not in codeblocks,
-        //They aren't translated by the isa_parser. Their names begin with
-        //underscores so they don't cause conflicts.
-        uint32_t _PstatePriv = xc->readMiscReg(MISCREG_PSTATE_PRIV);
-        uint32_t _TickNpt = xc->readMiscReg(MISCREG_TICK_NPT);
-        //If the processor isn't in privileged mode, fault out right away
-        if(!_PstatePriv && _TickNpt)
+        if(%(check)s)
             return new PrivilegedAction;
 
         %(code)s;
@@ -128,50 +101,39 @@ def template PrivTickExecute {{
     }
 }};
 
-// Primary format for integer operate instructions:
-def format Priv(code, *opt_flags) {{
-        uses_imm = (code.find('Rs2_or_imm13') != -1)
-        if uses_imm:
-            orig_code = code
-            code = re.sub(r'Rs2_or_imm13', 'Rs2', orig_code)
-            imm_code = re.sub(r'Rs2_or_imm13(\.\w+)?', 'imm', orig_code)
-        cblk = CodeBlock(code)
-        iop = InstObjParams(name, Name, 'Priv', cblk, opt_flags)
+let {{
+    def doPrivFormat(code, checkCode, name, Name, opt_flags):
+        (usesImm, code, immCode,
+         rString, iString) = splitOutImm(code)
+        iop = InstObjParams(name, Name, 'Priv', code,
+                opt_flags, ("check", checkCode))
         header_output = BasicDeclare.subst(iop)
         decoder_output = BasicConstructor.subst(iop)
         exec_output = PrivExecute.subst(iop)
-        if uses_imm:
-            imm_cblk = CodeBlock(imm_code)
-            imm_iop = InstObjParams(name, Name + 'Imm', 'PrivImm', imm_cblk,
-                                    opt_flags)
+        if usesImm:
+            imm_iop = InstObjParams(name, Name + 'Imm', 'PrivImm',
+                    immCode, opt_flags, ("check", checkCode))
             header_output += BasicDeclare.subst(imm_iop)
             decoder_output += BasicConstructor.subst(imm_iop)
             exec_output += PrivExecute.subst(imm_iop)
             decode_block = ROrImmDecode.subst(iop)
         else:
             decode_block = BasicDecode.subst(iop)
+        return (header_output, decoder_output, exec_output, decode_block)
+}};
+
+// Primary format for integer operate instructions:
+def format Priv(code, *opt_flags) {{
+        checkCode = "(!PstatePriv)"
+        (header_output, decoder_output,
+         exec_output, decode_block) = doPrivFormat(code,
+             checkCode, name, Name, opt_flags)
 }};
 
 // Primary format for integer operate instructions:
 def format PrivTick(code, *opt_flags) {{
-        uses_imm = (code.find('Rs2_or_imm13') != -1)
-        if uses_imm:
-            orig_code = code
-            code = re.sub(r'Rs2_or_imm13', 'Rs2', orig_code)
-            imm_code = re.sub(r'Rs2_or_imm13(\.\w+)?', 'imm', orig_code)
-        cblk = CodeBlock(code)
-        iop = InstObjParams(name, Name, 'PrivTick', cblk, opt_flags)
-        header_output = BasicDeclare.subst(iop)
-        decoder_output = BasicConstructor.subst(iop)
-        exec_output = PrivTickExecute.subst(iop)
-        if uses_imm:
-            imm_cblk = CodeBlock(imm_code)
-            imm_iop = InstObjParams(name, Name + 'Imm', 'PrivTickImm', imm_cblk,
-                                    opt_flags)
-            header_output += BasicDeclare.subst(imm_iop)
-            decoder_output += BasicConstructor.subst(imm_iop)
-            exec_output += PrivTickExecute.subst(imm_iop)
-            decode_block = Rb2OrImmDecode.subst(iop)
-        else:
-            decode_block = BasicDecode.subst(iop)
+        checkCode = "(!PstatePriv && TickNpt)"
+        (header_output, decoder_output,
+         exec_output, decode_block) = doPrivFormat(code,
+             checkCode, name, Name, opt_flags)
 }};
index c3b8780274aaefc1f936b91a700d150eb7af5ab8..7dbaac60e4ac87ae284fc9e9fed0ea561fa4e3d3 100644 (file)
@@ -143,6 +143,7 @@ baseFlags = [
     'HWPrefetch',
     'Stack',
     'SimpleCPU',
+    'Sparc',
     ]
 
 #
index eac51355bb2ce912ef0ca3778ec036f959ae7aa9..e254ae33f8dfc7af6e57d7d674fdd3252facf6c3 100755 (executable)
Binary files a/configs/test/hello_sparc and b/configs/test/hello_sparc differ
index a3e6cc43239bd5e6c4b3c2db3f40723e72c973b1..3236bb6d311243d49037fa8031faa3503520cb63 100644 (file)
@@ -62,7 +62,7 @@ CPUExecContext::CPUExecContext(BaseCPU *_cpu, int _thread_num, System *_sys,
 {
     proxy = new ProxyExecContext<CPUExecContext>(this);
 
-    memset(&regs, 0, sizeof(RegFile));
+    regs.clear();
 
     if (cpu->params->profile) {
         profile = new FunctionProfile(system->kernelSymtab);
@@ -93,7 +93,7 @@ CPUExecContext::CPUExecContext(BaseCPU *_cpu, int _thread_num,
     mem_port->setPeer(port);
     port->setPeer(mem_port);
 
-    memset(&regs, 0, sizeof(RegFile));
+    regs.clear();
     proxy = new ProxyExecContext<CPUExecContext>(this);
 }