diff options
| author | Gabe Black <gblack@eecs.umich.edu> | 2011-09-26 23:48:54 -0700 |
|---|---|---|
| committer | Gabe Black <gblack@eecs.umich.edu> | 2011-09-26 23:48:54 -0700 |
| commit | 997cbe1c09f6ffff6bee11bb374e3a32601d0f06 (patch) | |
| tree | 64c6ed0b94a0f6becb47b04f4e4d0e5b2f9c59fc /src/arch/sparc/isa | |
| parent | 56bddab18940e766bdfdeb98e0691a994859dcde (diff) | |
| download | gem5-997cbe1c09f6ffff6bee11bb374e3a32601d0f06.tar.xz | |
ISA parser: Use '_' instead of '.' to delimit type modifiers on operands.
By using an underscore, the "." is still available and can unambiguously be
used to refer to members of a structure if an operand is a structure, class,
etc. This change mostly just replaces the appropriate "."s with "_"s, but
there were also a few places where the ISA descriptions where handling the
extensions themselves and had their own regular expressions to update. The
regular expressions in the isa parser were updated as well. It also now
looks for one of the defined type extensions specifically after connecting "_"
where before it would look for any sequence of characters after a "."
following an operand name and try to use it as the extension. This helps to
disambiguate cases where a "_" may legitimately be part of an operand name but
not separate the name from the type suffix.
Because leaving the "_" and suffix on the variable name still leaves a valid
C++ identifier and all extensions need to be consistent in a given context, I
considered leaving them on as a breadcrumb that would show what the intended
type was for that operand. Unfortunately the operands can be referred to in
code templates, the Mem operand in particular, and since the exact type of Mem
can be different for different uses of the same template, that broke things.
Diffstat (limited to 'src/arch/sparc/isa')
| -rw-r--r-- | src/arch/sparc/isa/base.isa | 8 | ||||
| -rw-r--r-- | src/arch/sparc/isa/decoder.isa | 362 |
2 files changed, 185 insertions, 185 deletions
diff --git a/src/arch/sparc/isa/base.isa b/src/arch/sparc/isa/base.isa index 9d10e7cc7..a42c96ab1 100644 --- a/src/arch/sparc/isa/base.isa +++ b/src/arch/sparc/isa/base.isa @@ -181,9 +181,9 @@ let {{ for opName in ("Frd", "Frs1", "Frs2", "Frd_N"): next_pos = 0 operandsREString = (r''' - (?<![\w\.]) # neg. lookbehind assertion: prevent partial matches - ((%s)(?:\.(\w+))?) # match: operand with optional '.' then suffix - (?![\w\.]) # neg. lookahead assertion: prevent partial matches + (?<!\w) # neg. lookbehind assertion: prevent partial matches + ((%s)(?:_([^\W_]+))?) # match: operand with optional '.' then suffix + (?!\w) # neg. lookahead assertion: prevent partial matches ''' % opName) operandsRE = re.compile(operandsREString, re.MULTILINE|re.VERBOSE) is_src = False @@ -229,7 +229,7 @@ let {{ let {{ def splitOutImm(code): - matcher = re.compile(r'Rs(?P<rNum>\d)_or_imm(?P<iNum>\d+)(?P<typeQual>\.\w+)?') + matcher = re.compile(r'Rs(?P<rNum>\d)_or_imm(?P<iNum>\d+)(?P<typeQual>_[^\W_]+)?') rOrImmMatch = matcher.search(code) if (rOrImmMatch == None): return (False, code, '', '', '') diff --git a/src/arch/sparc/isa/decoder.isa b/src/arch/sparc/isa/decoder.isa index 0e515ea2b..a05cb94f7 100644 --- a/src/arch/sparc/isa/decoder.isa +++ b/src/arch/sparc/isa/decoder.isa @@ -82,16 +82,16 @@ decode OP default Unknown::unknown() { format BranchSplit { - 0x1: bpreq(test={{Rs1.sdw == 0}}); - 0x2: bprle(test={{Rs1.sdw <= 0}}); - 0x3: bprl(test={{Rs1.sdw < 0}}); - 0x5: bprne(test={{Rs1.sdw != 0}}); - 0x6: bprg(test={{Rs1.sdw > 0}}); - 0x7: bprge(test={{Rs1.sdw >= 0}}); + 0x1: bpreq(test={{Rs1_sdw == 0}}); + 0x2: bprle(test={{Rs1_sdw <= 0}}); + 0x3: bprl(test={{Rs1_sdw < 0}}); + 0x5: bprne(test={{Rs1_sdw != 0}}); + 0x6: bprg(test={{Rs1_sdw > 0}}); + 0x7: bprge(test={{Rs1_sdw >= 0}}); } } // SETHI (or NOP if rd == 0 and imm == 0) - 0x4: SetHi::sethi({{Rd.udw = imm;}}); + 0x4: SetHi::sethi({{Rd_udw = imm;}}); // fbpfcc 0x5: decode COND2 { format BranchN { @@ -144,52 +144,52 @@ decode OP default Unknown::unknown() }},None, None, IsIndirectControl, IsCall); 0x2: decode OP3 { format IntOp { - 0x00: add({{Rd = Rs1.sdw + Rs2_or_imm13;}}); - 0x01: and({{Rd = Rs1.sdw & Rs2_or_imm13;}}); - 0x02: or({{Rd = Rs1.sdw | Rs2_or_imm13;}}); - 0x03: xor({{Rd = Rs1.sdw ^ Rs2_or_imm13;}}); - 0x04: sub({{Rd = Rs1.sdw - Rs2_or_imm13;}}); - 0x05: andn({{Rd = Rs1.sdw & ~Rs2_or_imm13;}}); - 0x06: orn({{Rd = Rs1.sdw | ~Rs2_or_imm13;}}); - 0x07: xnor({{Rd = ~(Rs1.sdw ^ Rs2_or_imm13);}}); - 0x08: addc({{Rd = Rs1.sdw + Rs2_or_imm13 + Ccr<0:0>;}}); - 0x09: mulx({{Rd = Rs1.sdw * Rs2_or_imm13;}}); + 0x00: add({{Rd = Rs1_sdw + Rs2_or_imm13;}}); + 0x01: and({{Rd = Rs1_sdw & Rs2_or_imm13;}}); + 0x02: or({{Rd = Rs1_sdw | Rs2_or_imm13;}}); + 0x03: xor({{Rd = Rs1_sdw ^ Rs2_or_imm13;}}); + 0x04: sub({{Rd = Rs1_sdw - Rs2_or_imm13;}}); + 0x05: andn({{Rd = Rs1_sdw & ~Rs2_or_imm13;}}); + 0x06: orn({{Rd = Rs1_sdw | ~Rs2_or_imm13;}}); + 0x07: xnor({{Rd = ~(Rs1_sdw ^ Rs2_or_imm13);}}); + 0x08: addc({{Rd = Rs1_sdw + Rs2_or_imm13 + Ccr<0:0>;}}); + 0x09: mulx({{Rd = Rs1_sdw * Rs2_or_imm13;}}); 0x0A: umul({{ - Rd = Rs1.udw<31:0> * Rs2_or_imm13<31:0>; + Rd = Rs1_udw<31:0> * Rs2_or_imm13<31:0>; Y = Rd<63:32>; }}); 0x0B: smul({{ - Rd.sdw = sext<32>(Rs1.sdw<31:0>) * sext<32>(Rs2_or_imm13<31:0>); - Y = Rd.sdw<63:32>; + Rd_sdw = sext<32>(Rs1_sdw<31:0>) * sext<32>(Rs2_or_imm13<31:0>); + Y = Rd_sdw<63:32>; }}); - 0x0C: subc({{Rd.sdw = Rs1.sdw + (~Rs2_or_imm13) + 1 - Ccr<0:0>}}); + 0x0C: subc({{Rd_sdw = Rs1_sdw + (~Rs2_or_imm13) + 1 - Ccr<0:0>}}); 0x0D: udivx({{ if (Rs2_or_imm13 == 0) fault = new DivisionByZero; else - Rd.udw = Rs1.udw / Rs2_or_imm13; + Rd_udw = Rs1_udw / Rs2_or_imm13; }}); 0x0E: udiv({{ if (Rs2_or_imm13 == 0) { fault = new DivisionByZero; } else { - Rd.udw = ((Y << 32) | Rs1.udw<31:0>) / Rs2_or_imm13; - if (Rd.udw >> 32 != 0) - Rd.udw = 0xFFFFFFFF; + Rd_udw = ((Y << 32) | Rs1_udw<31:0>) / Rs2_or_imm13; + if (Rd_udw >> 32 != 0) + Rd_udw = 0xFFFFFFFF; } }}); 0x0F: sdiv({{ - if (Rs2_or_imm13.sdw == 0) { + if (Rs2_or_imm13_sdw == 0) { fault = new DivisionByZero; } else { - Rd.udw = ((int64_t)((Y << 32) | - Rs1.sdw<31:0>)) / Rs2_or_imm13.sdw; - if ((int64_t)Rd.udw >= + Rd_udw = ((int64_t)((Y << 32) | + Rs1_sdw<31:0>)) / Rs2_or_imm13_sdw; + if ((int64_t)Rd_udw >= std::numeric_limits<int32_t>::max()) { - Rd.udw = 0x7FFFFFFF; - } else if ((int64_t)Rd.udw <= + Rd_udw = 0x7FFFFFFF; + } else if ((int64_t)Rd_udw <= std::numeric_limits<int32_t>::min()) { - Rd.udw = ULL(0xFFFFFFFF80000000); + Rd_udw = ULL(0xFFFFFFFF80000000); } } }}); @@ -215,29 +215,29 @@ decode OP default Unknown::unknown() }}); 0x1A: IntOpCcRes::umulcc({{ uint64_t resTemp; - Rd = resTemp = Rs1.udw<31:0> * Rs2_or_imm13.udw<31:0>; + Rd = resTemp = Rs1_udw<31:0> * Rs2_or_imm13_udw<31:0>; Y = resTemp<63:32>;}}); 0x1B: IntOpCcRes::smulcc({{ int64_t resTemp; - Rd = resTemp = sext<32>(Rs1.sdw<31:0>) * sext<32>(Rs2_or_imm13<31:0>); + Rd = resTemp = sext<32>(Rs1_sdw<31:0>) * sext<32>(Rs2_or_imm13<31:0>); Y = resTemp<63:32>;}}); 0x1C: subccc({{ int64_t res, op1 = Rs1, op2 = Rs2_or_imm13; Rd = res = op1 - op2 - Ccr<0:>; }}, sub=True); 0x1D: IntOpCcRes::udivxcc({{ - if (Rs2_or_imm13.udw == 0) + if (Rs2_or_imm13_udw == 0) fault = new DivisionByZero; else - Rd = Rs1.udw / Rs2_or_imm13.udw;}}); + Rd = Rs1_udw / Rs2_or_imm13_udw;}}); 0x1E: IntOpCcRes::udivcc({{ uint64_t resTemp; - uint32_t val2 = Rs2_or_imm13.udw; + uint32_t val2 = Rs2_or_imm13_udw; int32_t overflow = 0; if (val2 == 0) { fault = new DivisionByZero; } else { - resTemp = (uint64_t)((Y << 32) | Rs1.udw<31:0>) / val2; + resTemp = (uint64_t)((Y << 32) | Rs1_udw<31:0>) / val2; overflow = (resTemp<63:32> != 0); if (overflow) Rd = resTemp = 0xFFFFFFFF; @@ -246,12 +246,12 @@ decode OP default Unknown::unknown() } }}, iv={{overflow}}); 0x1F: IntOpCcRes::sdivcc({{ - int64_t val2 = Rs2_or_imm13.sdw<31:0>; + int64_t val2 = Rs2_or_imm13_sdw<31:0>; bool overflow = false, underflow = false; if (val2 == 0) { fault = new DivisionByZero; } else { - Rd = (int64_t)((Y << 32) | Rs1.sdw<31:0>) / val2; + Rd = (int64_t)((Y << 32) | Rs1_sdw<31:0>) / val2; overflow = ((int64_t)Rd >= std::numeric_limits<int32_t>::max()); underflow = ((int64_t)Rd <= std::numeric_limits<int32_t>::min()); if (overflow) @@ -313,12 +313,12 @@ decode OP default Unknown::unknown() 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>);}}); + 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>);}}); + 0x0: sra({{Rd = Rs1_sw >> (I ? SHCNT32 : Rs2<4:0>);}}); + 0x1: srax({{Rd = Rs1_sdw >> (I ? SHCNT64 : Rs2<5:0>);}}); } 0x28: decode RS1 { 0x00: NoPriv::rdy({{Rd = Y<31:0>;}}); @@ -450,20 +450,20 @@ decode OP default Unknown::unknown() } } 0x2D: sdivx({{ - if (Rs2_or_imm13.sdw == 0) + if (Rs2_or_imm13_sdw == 0) fault = new DivisionByZero; else - Rd.sdw = Rs1.sdw / Rs2_or_imm13.sdw; + Rd_sdw = Rs1_sdw / Rs2_or_imm13_sdw; }}); 0x2E: Trap::popc({{fault = new IllegalInstruction;}}); 0x2F: decode RCOND3 { - 0x1: movreq({{Rd = (Rs1.sdw == 0) ? Rs2_or_imm10 : Rd;}}); - 0x2: movrle({{Rd = (Rs1.sdw <= 0) ? Rs2_or_imm10 : Rd;}}); - 0x3: movrl({{Rd = (Rs1.sdw < 0) ? Rs2_or_imm10 : Rd;}}); - 0x5: movrne({{Rd = (Rs1.sdw != 0) ? Rs2_or_imm10 : Rd;}}); - 0x6: movrg({{Rd = (Rs1.sdw > 0) ? Rs2_or_imm10 : Rd;}}); - 0x7: movrge({{Rd = (Rs1.sdw >= 0) ? Rs2_or_imm10 : Rd;}}); + 0x1: movreq({{Rd = (Rs1_sdw == 0) ? Rs2_or_imm10 : Rd;}}); + 0x2: movrle({{Rd = (Rs1_sdw <= 0) ? Rs2_or_imm10 : Rd;}}); + 0x3: movrl({{Rd = (Rs1_sdw < 0) ? Rs2_or_imm10 : Rd;}}); + 0x5: movrne({{Rd = (Rs1_sdw != 0) ? Rs2_or_imm10 : Rd;}}); + 0x6: movrg({{Rd = (Rs1_sdw > 0) ? Rs2_or_imm10 : Rd;}}); + 0x7: movrge({{Rd = (Rs1_sdw >= 0) ? Rs2_or_imm10 : Rd;}}); } 0x30: decode RD { 0x00: NoPriv::wry({{Y = (Rs1 ^ Rs2_or_imm13)<31:0>;}}); @@ -570,57 +570,57 @@ decode OP default Unknown::unknown() } 0x34: decode OPF{ format FpBasic{ - 0x01: fmovs({{Frds.uw = Frs2s.uw;}}); - 0x02: fmovd({{Frd.udw = Frs2.udw;}}); + 0x01: fmovs({{Frds_uw = Frs2s_uw;}}); + 0x02: fmovd({{Frd_udw = Frs2_udw;}}); 0x03: FpUnimpl::fmovq(); - 0x05: fnegs({{Frds.uw = Frs2s.uw ^ (1UL << 31);}}); - 0x06: fnegd({{Frd.udw = Frs2.udw ^ (1ULL << 63);}}); + 0x05: fnegs({{Frds_uw = Frs2s_uw ^ (1UL << 31);}}); + 0x06: fnegd({{Frd_udw = Frs2_udw ^ (1ULL << 63);}}); 0x07: FpUnimpl::fnegq(); - 0x09: fabss({{Frds.uw = ((1UL << 31) - 1) & Frs2s.uw;}}); - 0x0A: fabsd({{Frd.udw = ((1ULL << 63) - 1) & Frs2.udw;}}); + 0x09: fabss({{Frds_uw = ((1UL << 31) - 1) & Frs2s_uw;}}); + 0x0A: fabsd({{Frd_udw = ((1ULL << 63) - 1) & Frs2_udw;}}); 0x0B: FpUnimpl::fabsq(); - 0x29: fsqrts({{Frds.sf = std::sqrt(Frs2s.sf);}}); - 0x2A: fsqrtd({{Frd.df = std::sqrt(Frs2.df);}}); + 0x29: fsqrts({{Frds_sf = std::sqrt(Frs2s_sf);}}); + 0x2A: fsqrtd({{Frd_df = std::sqrt(Frs2_df);}}); 0x2B: FpUnimpl::fsqrtq(); - 0x41: fadds({{Frds.sf = Frs1s.sf + Frs2s.sf;}}); - 0x42: faddd({{Frd.df = Frs1.df + Frs2.df;}}); + 0x41: fadds({{Frds_sf = Frs1s_sf + Frs2s_sf;}}); + 0x42: faddd({{Frd_df = Frs1_df + Frs2_df;}}); 0x43: FpUnimpl::faddq(); - 0x45: fsubs({{Frds.sf = Frs1s.sf - Frs2s.sf;}}); - 0x46: fsubd({{Frd.df = Frs1.df - Frs2.df; }}); + 0x45: fsubs({{Frds_sf = Frs1s_sf - Frs2s_sf;}}); + 0x46: fsubd({{Frd_df = Frs1_df - Frs2_df; }}); 0x47: FpUnimpl::fsubq(); - 0x49: fmuls({{Frds.sf = Frs1s.sf * Frs2s.sf;}}); - 0x4A: fmuld({{Frd.df = Frs1.df * Frs2.df;}}); + 0x49: fmuls({{Frds_sf = Frs1s_sf * Frs2s_sf;}}); + 0x4A: fmuld({{Frd_df = Frs1_df * Frs2_df;}}); 0x4B: FpUnimpl::fmulq(); - 0x4D: fdivs({{Frds.sf = Frs1s.sf / Frs2s.sf;}}); - 0x4E: fdivd({{Frd.df = Frs1.df / Frs2.df;}}); + 0x4D: fdivs({{Frds_sf = Frs1s_sf / Frs2s_sf;}}); + 0x4E: fdivd({{Frd_df = Frs1_df / Frs2_df;}}); 0x4F: FpUnimpl::fdivq(); - 0x69: fsmuld({{Frd.df = Frs1s.sf * Frs2s.sf;}}); + 0x69: fsmuld({{Frd_df = Frs1s_sf * Frs2s_sf;}}); 0x6E: FpUnimpl::fdmulq(); - 0x81: fstox({{Frd.sdw = static_cast<int64_t>(Frs2s.sf);}}); - 0x82: fdtox({{Frd.sdw = static_cast<int64_t>(Frs2.df);}}); + 0x81: fstox({{Frd_sdw = static_cast<int64_t>(Frs2s_sf);}}); + 0x82: fdtox({{Frd_sdw = static_cast<int64_t>(Frs2_df);}}); 0x83: FpUnimpl::fqtox(); - 0x84: fxtos({{Frds.sf = static_cast<float>(Frs2.sdw);}}); - 0x88: fxtod({{Frd.df = static_cast<double>(Frs2.sdw);}}); + 0x84: fxtos({{Frds_sf = static_cast<float>(Frs2_sdw);}}); + 0x88: fxtod({{Frd_df = static_cast<double>(Frs2_sdw);}}); 0x8C: FpUnimpl::fxtoq(); - 0xC4: fitos({{Frds.sf = static_cast<float>(Frs2s.sw);}}); - 0xC6: fdtos({{Frds.sf = Frs2.df;}}); + 0xC4: fitos({{Frds_sf = static_cast<float>(Frs2s_sw);}}); + 0xC6: fdtos({{Frds_sf = Frs2_df;}}); 0xC7: FpUnimpl::fqtos(); - 0xC8: fitod({{Frd.df = static_cast<double>(Frs2s.sw);}}); - 0xC9: fstod({{Frd.df = Frs2s.sf;}}); + 0xC8: fitod({{Frd_df = static_cast<double>(Frs2s_sw);}}); + 0xC9: fstod({{Frd_df = Frs2s_sf;}}); 0xCB: FpUnimpl::fqtod(); 0xCC: FpUnimpl::fitoq(); 0xCD: FpUnimpl::fstoq(); 0xCE: FpUnimpl::fdtoq(); 0xD1: fstoi({{ - Frds.sw = static_cast<int32_t>(Frs2s.sf); - float t = Frds.sw; - if (t != Frs2s.sf) + Frds_sw = static_cast<int32_t>(Frs2s_sf); + float t = Frds_sw; + if (t != Frs2s_sf) Fsr = insertBits(Fsr, 4,0, 0x01); }}); 0xD2: fdtoi({{ - Frds.sw = static_cast<int32_t>(Frs2.df); - double t = Frds.sw; - if (t != Frs2.df) + Frds_sw = static_cast<int32_t>(Frs2_df); + double t = Frds_sw; + if (t != Frs2_df) Fsr = insertBits(Fsr, 4,0, 0x01); }}); 0xD3: FpUnimpl::fqtoi(); @@ -895,8 +895,8 @@ decode OP default Unknown::unknown() 0x3D: Trap::fpackfix({{fault = new IllegalInstruction;}}); 0x3E: Trap::pdist({{fault = new IllegalInstruction;}}); 0x48: BasicOperate::faligndata({{ - uint64_t msbX = Frs1.udw; - uint64_t lsbX = Frs2.udw; + uint64_t msbX = Frs1_udw; + uint64_t lsbX = Frs2_udw; // Some special cases need to be split out, first // because they're the most likely to be used, and // second because otherwise, we end up shifting by @@ -905,17 +905,17 @@ decode OP default Unknown::unknown() // according to the C standard. switch (Gsr<2:0>) { case 0: - Frd.udw = msbX; + Frd_udw = msbX; break; case 8: - Frd.udw = lsbX; + Frd_udw = lsbX; break; default: uint64_t msbShift = Gsr<2:0> * 8; uint64_t lsbShift = (8 - Gsr<2:0>) * 8; uint64_t msbMask = ((uint64_t)(-1)) >> msbShift; uint64_t lsbMask = ((uint64_t)(-1)) << lsbShift; - Frd.udw = ((msbX & msbMask) << msbShift) | + Frd_udw = ((msbX & msbMask) << msbShift) | ((lsbX & lsbMask) >> lsbShift); } }}); @@ -930,25 +930,25 @@ decode OP default Unknown::unknown() 0x55: FailUnimpl::fpsub16s(); 0x56: FailUnimpl::fpsub32(); 0x57: FailUnimpl::fpsub32s(); - 0x60: FpBasic::fzero({{Frd.df = 0;}}); - 0x61: FpBasic::fzeros({{Frds.sf = 0;}}); + 0x60: FpBasic::fzero({{Frd_df = 0;}}); + 0x61: FpBasic::fzeros({{Frds_sf = 0;}}); 0x62: FailUnimpl::fnor(); 0x63: FailUnimpl::fnors(); 0x64: FailUnimpl::fandnot2(); 0x65: FailUnimpl::fandnot2s(); 0x66: FpBasic::fnot2({{ - Frd.df = (double)(~((uint64_t)Frs2.df)); + Frd_df = (double)(~((uint64_t)Frs2_df)); }}); 0x67: FpBasic::fnot2s({{ - Frds.sf = (float)(~((uint32_t)Frs2s.sf)); + Frds_sf = (float)(~((uint32_t)Frs2s_sf)); }}); 0x68: FailUnimpl::fandnot1(); 0x69: FailUnimpl::fandnot1s(); 0x6A: FpBasic::fnot1({{ - Frd.df = (double)(~((uint64_t)Frs1.df)); + Frd_df = (double)(~((uint64_t)Frs1_df)); }}); 0x6B: FpBasic::fnot1s({{ - Frds.sf = (float)(~((uint32_t)Frs1s.sf)); + Frds_sf = (float)(~((uint32_t)Frs1s_sf)); }}); 0x6C: FailUnimpl::fxor(); 0x6D: FailUnimpl::fxors(); @@ -958,18 +958,18 @@ decode OP default Unknown::unknown() 0x71: FailUnimpl::fands(); 0x72: FailUnimpl::fxnor(); 0x73: FailUnimpl::fxnors(); - 0x74: FpBasic::fsrc1({{Frd.udw = Frs1.udw;}}); - 0x75: FpBasic::fsrc1s({{Frds.uw = Frs1s.uw;}}); + 0x74: FpBasic::fsrc1({{Frd_udw = Frs1_udw;}}); + 0x75: FpBasic::fsrc1s({{Frds_uw = Frs1s_uw;}}); 0x76: FailUnimpl::fornot2(); 0x77: FailUnimpl::fornot2s(); - 0x78: FpBasic::fsrc2({{Frd.udw = Frs2.udw;}}); - 0x79: FpBasic::fsrc2s({{Frds.uw = Frs2s.uw;}}); + 0x78: FpBasic::fsrc2({{Frd_udw = Frs2_udw;}}); + 0x79: FpBasic::fsrc2s({{Frds_uw = Frs2s_uw;}}); 0x7A: FailUnimpl::fornot1(); 0x7B: FailUnimpl::fornot1s(); 0x7C: FailUnimpl::for(); 0x7D: FailUnimpl::fors(); - 0x7E: FpBasic::fone({{Frd.udw = std::numeric_limits<uint64_t>::max();}}); - 0x7F: FpBasic::fones({{Frds.uw = std::numeric_limits<uint32_t>::max();}}); + 0x7E: FpBasic::fone({{Frd_udw = std::numeric_limits<uint64_t>::max();}}); + 0x7F: FpBasic::fones({{Frds_uw = std::numeric_limits<uint32_t>::max();}}); 0x80: Trap::shutdown({{fault = new IllegalInstruction;}}); 0x81: FailUnimpl::siam(); } @@ -1099,18 +1099,18 @@ decode OP default Unknown::unknown() } 0x3: decode OP3 { format Load { - 0x00: lduw({{Rd = Mem.uw;}}); - 0x01: ldub({{Rd = Mem.ub;}}); - 0x02: lduh({{Rd = Mem.uhw;}}); + 0x00: lduw({{Rd = Mem_uw;}}); + 0x01: ldub({{Rd = Mem_ub;}}); + 0x02: lduh({{Rd = Mem_uhw;}}); 0x03: ldtw({{ - RdLow = (Mem.tuw).a; - RdHigh = (Mem.tuw).b; + RdLow = (Mem_tuw).a; + RdHigh = (Mem_tuw).b; }}); } format Store { - 0x04: stw({{Mem.uw = Rd.sw;}}); - 0x05: stb({{Mem.ub = Rd.sb;}}); - 0x06: sth({{Mem.uhw = Rd.shw;}}); + 0x04: stw({{Mem_uw = Rd_sw;}}); + 0x05: stb({{Mem_ub = Rd_sb;}}); + 0x06: sth({{Mem_uhw = Rd_shw;}}); 0x07: sttw({{ // This temporary needs to be here so that the parser // will correctly identify this instruction as a store. @@ -1119,96 +1119,96 @@ decode OP default Unknown::unknown() Twin32_t temp; temp.a = RdLow<31:0>; temp.b = RdHigh<31:0>; - Mem.tuw = temp; + Mem_tuw = temp; }}); } format Load { - 0x08: ldsw({{Rd = Mem.sw;}}); - 0x09: ldsb({{Rd = Mem.sb;}}); - 0x0A: ldsh({{Rd = Mem.shw;}}); - 0x0B: ldx({{Rd = Mem.sdw;}}); + 0x08: ldsw({{Rd = Mem_sw;}}); + 0x09: ldsb({{Rd = Mem_sb;}}); + 0x0A: ldsh({{Rd = Mem_shw;}}); + 0x0B: ldx({{Rd = Mem_sdw;}}); } - 0x0D: Swap::ldstub({{Mem.ub = 0xFF;}}, + 0x0D: Swap::ldstub({{Mem_ub = 0xFF;}}, {{ uint8_t tmp = mem_data; - Rd.ub = tmp; + Rd_ub = tmp; }}, MEM_SWAP); - 0x0E: Store::stx({{Mem.udw = Rd}}); - 0x0F: Swap::swap({{Mem.uw = Rd.uw}}, + 0x0E: Store::stx({{Mem_udw = Rd}}); + 0x0F: Swap::swap({{Mem_uw = Rd_uw}}, {{ uint32_t tmp = mem_data; - Rd.uw = tmp; + Rd_uw = tmp; }}, MEM_SWAP); format LoadAlt { - 0x10: lduwa({{Rd = Mem.uw;}}); - 0x11: lduba({{Rd = Mem.ub;}}); - 0x12: lduha({{Rd = Mem.uhw;}}); + 0x10: lduwa({{Rd = Mem_uw;}}); + 0x11: lduba({{Rd = Mem_ub;}}); + 0x12: lduha({{Rd = Mem_uhw;}}); 0x13: decode EXT_ASI { // ASI_LDTD_AIUP 0x22: TwinLoad::ldtx_aiup( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTD_AIUS 0x23: TwinLoad::ldtx_aius( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_QUAD_LDD 0x24: TwinLoad::ldtx_quad_ldd( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_REAL 0x26: TwinLoad::ldtx_real( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_N 0x27: TwinLoad::ldtx_n( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_AIUP_L 0x2A: TwinLoad::ldtx_aiup_l( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_AIUS_L 0x2B: TwinLoad::ldtx_aius_l( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_L 0x2C: TwinLoad::ldtx_l( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_REAL_L 0x2E: TwinLoad::ldtx_real_l( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_N_L 0x2F: TwinLoad::ldtx_n_l( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_P 0xE2: TwinLoad::ldtx_p( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_S 0xE3: TwinLoad::ldtx_s( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_PL 0xEA: TwinLoad::ldtx_pl( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); // ASI_LDTX_SL 0xEB: TwinLoad::ldtx_sl( - {{RdLow.udw = (Mem.tudw).a; - RdHigh.udw = (Mem.tudw).b;}}); + {{RdLow_udw = (Mem_tudw).a; + RdHigh_udw = (Mem_tudw).b;}}); default: ldtwa({{ - RdLow = (Mem.tuw).a; - RdHigh = (Mem.tuw).b;}}); + RdLow = (Mem_tuw).a; + RdHigh = (Mem_tuw).b;}}); } } format StoreAlt { - 0x14: stwa({{Mem.uw = Rd;}}); - 0x15: stba({{Mem.ub = Rd;}}); - 0x16: stha({{Mem.uhw = Rd;}}); + 0x14: stwa({{Mem_uw = Rd;}}); + 0x15: stba({{Mem_ub = Rd;}}); + 0x16: stha({{Mem_uhw = Rd;}}); 0x17: sttwa({{ // This temporary needs to be here so that the parser // will correctly identify this instruction as a store. @@ -1217,58 +1217,58 @@ decode OP default Unknown::unknown() Twin32_t temp; temp.a = RdLow<31:0>; temp.b = RdHigh<31:0>; - Mem.tuw = temp; + Mem_tuw = temp; }}); } format LoadAlt { - 0x18: ldswa({{Rd = Mem.sw;}}); - 0x19: ldsba({{Rd = Mem.sb;}}); - 0x1A: ldsha({{Rd = Mem.shw;}}); - 0x1B: ldxa({{Rd = Mem.sdw;}}); + 0x18: ldswa({{Rd = Mem_sw;}}); + 0x19: ldsba({{Rd = Mem_sb;}}); + 0x1A: ldsha({{Rd = Mem_shw;}}); + 0x1B: ldxa({{Rd = Mem_sdw;}}); } - 0x1D: SwapAlt::ldstuba({{Mem.ub = 0xFF;}}, + 0x1D: SwapAlt::ldstuba({{Mem_ub = 0xFF;}}, {{ uint8_t tmp = mem_data; - Rd.ub = tmp; + Rd_ub = tmp; }}, MEM_SWAP); - 0x1E: StoreAlt::stxa({{Mem.udw = Rd}}); - 0x1F: SwapAlt::swapa({{Mem.uw = Rd.uw}}, + 0x1E: StoreAlt::stxa({{Mem_udw = Rd}}); + 0x1F: SwapAlt::swapa({{Mem_uw = Rd_uw}}, {{ uint32_t tmp = mem_data; - Rd.uw = tmp; + Rd_uw = tmp; }}, MEM_SWAP); format Trap { - 0x20: Load::ldf({{Frds.uw = Mem.uw;}}); + 0x20: Load::ldf({{Frds_uw = Mem_uw;}}); 0x21: decode RD { 0x0: Load::ldfsr({{fault = checkFpEnableFault(xc); if (fault) return fault; - Fsr = Mem.uw | Fsr<63:32>;}}); + Fsr = Mem_uw | Fsr<63:32>;}}); 0x1: Load::ldxfsr({{fault = checkFpEnableFault(xc); if (fault) return fault; - Fsr = Mem.udw;}}); + Fsr = Mem_udw;}}); default: FailUnimpl::ldfsrOther(); } 0x22: ldqf({{fault = new FpDisabled;}}); - 0x23: Load::lddf({{Frd.udw = Mem.udw;}}); - 0x24: Store::stf({{Mem.uw = Frds.uw;}}); + 0x23: Load::lddf({{Frd_udw = Mem_udw;}}); + 0x24: Store::stf({{Mem_uw = Frds_uw;}}); 0x25: decode RD { 0x0: StoreFsr::stfsr({{fault = checkFpEnableFault(xc); if (fault) return fault; - Mem.uw = Fsr<31:0>;}}); + Mem_uw = Fsr<31:0>;}}); 0x1: StoreFsr::stxfsr({{fault = checkFpEnableFault(xc); if (fault) return fault; - Mem.udw = Fsr;}}); + Mem_udw = Fsr;}}); default: FailUnimpl::stfsrOther(); } 0x26: stqf({{fault = new FpDisabled;}}); - 0x27: Store::stdf({{Mem.udw = Frd.udw;}}); + 0x27: Store::stdf({{Mem_udw = Frd_udw;}}); 0x2D: Nop::prefetch({{ }}); - 0x30: LoadAlt::ldfa({{Frds.uw = Mem.uw;}}); + 0x30: LoadAlt::ldfa({{Frds_uw = Mem_uw;}}); 0x32: ldqfa({{fault = new FpDisabled;}}); format LoadAlt { 0x33: decode EXT_ASI { @@ -1320,7 +1320,7 @@ decode OP default Unknown::unknown() // ASI_BLOCK_AS_IF_USER_SECONDARY_LITTLE 0x1F: FailUnimpl::ldblockf_aiusl(); // ASI_BLOCK_PRIMARY - 0xF0: ldblockf_p({{Frd_N.udw = Mem.udw;}}); + 0xF0: ldblockf_p({{Frd_N_udw = Mem_udw;}}); // ASI_BLOCK_SECONDARY 0xF1: FailUnimpl::ldblockf_s(); // ASI_BLOCK_PRIMARY_LITTLE @@ -1351,7 +1351,7 @@ decode OP default Unknown::unknown() {{fault = new DataAccessException;}}); } } - 0x34: Store::stfa({{Mem.uw = Frds.uw;}}); + 0x34: Store::stfa({{Mem_uw = Frds_uw;}}); 0x36: stqfa({{fault = new FpDisabled;}}); format StoreAlt { 0x37: decode EXT_ASI { @@ -1403,7 +1403,7 @@ decode OP default Unknown::unknown() // ASI_BLOCK_AS_IF_USER_SECONDARY_LITTLE 0x1F: FailUnimpl::stblockf_aiusl(); // ASI_BLOCK_PRIMARY - 0xF0: stblockf_p({{Mem.udw = Frd_N.udw;}}); + 0xF0: stblockf_p({{Mem_udw = Frd_N_udw;}}); // ASI_BLOCK_SECONDARY 0xF1: FailUnimpl::stblockf_s(); // ASI_BLOCK_PRIMARY_LITTLE @@ -1435,16 +1435,16 @@ decode OP default Unknown::unknown() } } 0x3C: CasAlt::casa({{ - mem_data = htog(Rs2.uw); - Mem.uw = Rd.uw;}}, + mem_data = htog(Rs2_uw); + Mem_uw = Rd_uw;}}, {{ uint32_t tmp = mem_data; - Rd.uw = tmp; + Rd_uw = tmp; }}, MEM_SWAP_COND); 0x3D: Nop::prefetcha({{ }}); 0x3E: CasAlt::casxa({{mem_data = gtoh(Rs2); - Mem.udw = Rd.udw; }}, - {{ Rd.udw = mem_data; }}, MEM_SWAP_COND); + Mem_udw = Rd_udw; }}, + {{ Rd_udw = mem_data; }}, MEM_SWAP_COND); } } } |