From 997cbe1c09f6ffff6bee11bb374e3a32601d0f06 Mon Sep 17 00:00:00 2001 From: Gabe Black Date: Mon, 26 Sep 2011 23:48:54 -0700 Subject: [PATCH] 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. --- src/arch/alpha/isa/decoder.isa | 264 ++++---- src/arch/alpha/isa/int.isa | 2 +- src/arch/alpha/isa/main.isa | 2 +- src/arch/arm/isa/insts/branch.isa | 4 +- src/arch/arm/isa/insts/data.isa | 156 ++--- src/arch/arm/isa/insts/div.isa | 16 +- src/arch/arm/isa/insts/fp.isa | 284 ++++----- src/arch/arm/isa/insts/ldr.isa | 16 +- src/arch/arm/isa/insts/macromem.isa | 66 +- src/arch/arm/isa/insts/mem.isa | 8 +- src/arch/arm/isa/insts/misc.isa | 8 +- src/arch/arm/isa/insts/mult.isa | 160 ++--- src/arch/arm/isa/insts/neon.isa | 118 ++-- src/arch/arm/isa/insts/str.isa | 16 +- src/arch/arm/isa/insts/swap.isa | 6 +- src/arch/isa_parser.py | 16 +- src/arch/mips/isa/decoder.isa | 844 +++++++++++++------------- src/arch/mips/isa/formats/fp.isa | 36 +- src/arch/mips/isa/formats/int.isa | 4 +- src/arch/mips/isa/formats/mem.isa | 2 +- src/arch/power/isa/decoder.isa | 136 ++--- src/arch/power/isa/formats/fp.isa | 4 +- src/arch/sparc/isa/base.isa | 8 +- src/arch/sparc/isa/decoder.isa | 362 +++++------ src/arch/x86/isa/microops/fpop.isa | 6 +- src/arch/x86/isa/microops/ldstop.isa | 4 +- src/arch/x86/isa/microops/limmop.isa | 2 +- src/arch/x86/isa/microops/mediaop.isa | 218 +++---- src/arch/x86/isa/microops/regop.isa | 4 +- 29 files changed, 1386 insertions(+), 1386 deletions(-) diff --git a/src/arch/alpha/isa/decoder.isa b/src/arch/alpha/isa/decoder.isa index ce0c92213..106290784 100644 --- a/src/arch/alpha/isa/decoder.isa +++ b/src/arch/alpha/isa/decoder.isa @@ -41,35 +41,35 @@ decode OPCODE default Unknown::unknown() { } format LoadOrNop { - 0x0a: ldbu({{ Ra.uq = Mem.ub; }}); - 0x0c: ldwu({{ Ra.uq = Mem.uw; }}); - 0x0b: ldq_u({{ Ra = Mem.uq; }}, ea_code = {{ EA = (Rb + disp) & ~7; }}); - 0x23: ldt({{ Fa = Mem.df; }}); - 0x2a: ldl_l({{ Ra.sl = Mem.sl; }}, mem_flags = LLSC); - 0x2b: ldq_l({{ Ra.uq = Mem.uq; }}, mem_flags = LLSC); + 0x0a: ldbu({{ Ra_uq = Mem_ub; }}); + 0x0c: ldwu({{ Ra_uq = Mem_uw; }}); + 0x0b: ldq_u({{ Ra = Mem_uq; }}, ea_code = {{ EA = (Rb + disp) & ~7; }}); + 0x23: ldt({{ Fa = Mem_df; }}); + 0x2a: ldl_l({{ Ra_sl = Mem_sl; }}, mem_flags = LLSC); + 0x2b: ldq_l({{ Ra_uq = Mem_uq; }}, mem_flags = LLSC); } format LoadOrPrefetch { - 0x28: ldl({{ Ra.sl = Mem.sl; }}); - 0x29: ldq({{ Ra.uq = Mem.uq; }}, pf_flags = EVICT_NEXT); + 0x28: ldl({{ Ra_sl = Mem_sl; }}); + 0x29: ldq({{ Ra_uq = Mem_uq; }}, pf_flags = EVICT_NEXT); // IsFloating flag on lds gets the prefetch to disassemble // using f31 instead of r31... funcitonally it's unnecessary - 0x22: lds({{ Fa.uq = s_to_t(Mem.ul); }}, + 0x22: lds({{ Fa_uq = s_to_t(Mem_ul); }}, pf_flags = PF_EXCLUSIVE, inst_flags = IsFloating); } format Store { - 0x0e: stb({{ Mem.ub = Ra<7:0>; }}); - 0x0d: stw({{ Mem.uw = Ra<15:0>; }}); - 0x2c: stl({{ Mem.ul = Ra<31:0>; }}); - 0x2d: stq({{ Mem.uq = Ra.uq; }}); - 0x0f: stq_u({{ Mem.uq = Ra.uq; }}, {{ EA = (Rb + disp) & ~7; }}); - 0x26: sts({{ Mem.ul = t_to_s(Fa.uq); }}); - 0x27: stt({{ Mem.df = Fa; }}); + 0x0e: stb({{ Mem_ub = Ra<7:0>; }}); + 0x0d: stw({{ Mem_uw = Ra<15:0>; }}); + 0x2c: stl({{ Mem_ul = Ra<31:0>; }}); + 0x2d: stq({{ Mem_uq = Ra_uq; }}); + 0x0f: stq_u({{ Mem_uq = Ra_uq; }}, {{ EA = (Rb + disp) & ~7; }}); + 0x26: sts({{ Mem_ul = t_to_s(Fa_uq); }}); + 0x27: stt({{ Mem_df = Fa; }}); } format StoreCond { - 0x2e: stl_c({{ Mem.ul = Ra<31:0>; }}, + 0x2e: stl_c({{ Mem_ul = Ra<31:0>; }}, {{ uint64_t tmp = write_result; // see stq_c @@ -78,7 +78,7 @@ decode OPCODE default Unknown::unknown() { xc->setStCondFailures(0); } }}, mem_flags = LLSC, inst_flags = IsStoreConditional); - 0x2f: stq_c({{ Mem.uq = Ra; }}, + 0x2f: stq_c({{ Mem_uq = Ra; }}, {{ uint64_t tmp = write_result; // If the write operation returns 0 or 1, then @@ -102,17 +102,17 @@ decode OPCODE default Unknown::unknown() { 0x10: decode INTFUNC { // integer arithmetic operations - 0x00: addl({{ Rc.sl = Ra.sl + Rb_or_imm.sl; }}); + 0x00: addl({{ Rc_sl = Ra_sl + Rb_or_imm_sl; }}); 0x40: addlv({{ - int32_t tmp = Ra.sl + Rb_or_imm.sl; + int32_t tmp = Ra_sl + Rb_or_imm_sl; // signed overflow occurs when operands have same sign // and sign of result does not match. - if (Ra.sl<31:> == Rb_or_imm.sl<31:> && tmp<31:> != Ra.sl<31:>) + if (Ra_sl<31:> == Rb_or_imm_sl<31:> && tmp<31:> != Ra_sl<31:>) fault = new IntegerOverflowFault; - Rc.sl = tmp; + Rc_sl = tmp; }}); - 0x02: s4addl({{ Rc.sl = (Ra.sl << 2) + Rb_or_imm.sl; }}); - 0x12: s8addl({{ Rc.sl = (Ra.sl << 3) + Rb_or_imm.sl; }}); + 0x02: s4addl({{ Rc_sl = (Ra_sl << 2) + Rb_or_imm_sl; }}); + 0x12: s8addl({{ Rc_sl = (Ra_sl << 3) + Rb_or_imm_sl; }}); 0x20: addq({{ Rc = Ra + Rb_or_imm; }}); 0x60: addqv({{ @@ -126,19 +126,19 @@ decode OPCODE default Unknown::unknown() { 0x22: s4addq({{ Rc = (Ra << 2) + Rb_or_imm; }}); 0x32: s8addq({{ Rc = (Ra << 3) + Rb_or_imm; }}); - 0x09: subl({{ Rc.sl = Ra.sl - Rb_or_imm.sl; }}); + 0x09: subl({{ Rc_sl = Ra_sl - Rb_or_imm_sl; }}); 0x49: sublv({{ - int32_t tmp = Ra.sl - Rb_or_imm.sl; + int32_t tmp = Ra_sl - Rb_or_imm_sl; // signed overflow detection is same as for add, // except we need to look at the *complemented* // sign bit of the subtrahend (Rb), i.e., if the initial // signs are the *same* then no overflow can occur - if (Ra.sl<31:> != Rb_or_imm.sl<31:> && tmp<31:> != Ra.sl<31:>) + if (Ra_sl<31:> != Rb_or_imm_sl<31:> && tmp<31:> != Ra_sl<31:>) fault = new IntegerOverflowFault; - Rc.sl = tmp; + Rc_sl = tmp; }}); - 0x0b: s4subl({{ Rc.sl = (Ra.sl << 2) - Rb_or_imm.sl; }}); - 0x1b: s8subl({{ Rc.sl = (Ra.sl << 3) - Rb_or_imm.sl; }}); + 0x0b: s4subl({{ Rc_sl = (Ra_sl << 2) - Rb_or_imm_sl; }}); + 0x1b: s8subl({{ Rc_sl = (Ra_sl << 3) - Rb_or_imm_sl; }}); 0x29: subq({{ Rc = Ra - Rb_or_imm; }}); 0x69: subqv({{ @@ -155,17 +155,17 @@ decode OPCODE default Unknown::unknown() { 0x3b: s8subq({{ Rc = (Ra << 3) - Rb_or_imm; }}); 0x2d: cmpeq({{ Rc = (Ra == Rb_or_imm); }}); - 0x6d: cmple({{ Rc = (Ra.sq <= Rb_or_imm.sq); }}); - 0x4d: cmplt({{ Rc = (Ra.sq < Rb_or_imm.sq); }}); - 0x3d: cmpule({{ Rc = (Ra.uq <= Rb_or_imm.uq); }}); - 0x1d: cmpult({{ Rc = (Ra.uq < Rb_or_imm.uq); }}); + 0x6d: cmple({{ Rc = (Ra_sq <= Rb_or_imm_sq); }}); + 0x4d: cmplt({{ Rc = (Ra_sq < Rb_or_imm_sq); }}); + 0x3d: cmpule({{ Rc = (Ra_uq <= Rb_or_imm_uq); }}); + 0x1d: cmpult({{ Rc = (Ra_uq < Rb_or_imm_uq); }}); 0x0f: cmpbge({{ int hi = 7; int lo = 0; uint64_t tmp = 0; for (int i = 0; i < 8; ++i) { - tmp |= (Ra.uq >= Rb_or_imm.uq) << i; + tmp |= (Ra_uq >= Rb_or_imm_uq) << i; hi += 8; lo += 8; } @@ -187,10 +187,10 @@ decode OPCODE default Unknown::unknown() { 0x16: cmovlbc({{ Rc = ((Ra & 1) == 0) ? Rb_or_imm : Rc; }}); 0x24: cmoveq({{ Rc = (Ra == 0) ? Rb_or_imm : Rc; }}); 0x26: cmovne({{ Rc = (Ra != 0) ? Rb_or_imm : Rc; }}); - 0x44: cmovlt({{ Rc = (Ra.sq < 0) ? Rb_or_imm : Rc; }}); - 0x46: cmovge({{ Rc = (Ra.sq >= 0) ? Rb_or_imm : Rc; }}); - 0x64: cmovle({{ Rc = (Ra.sq <= 0) ? Rb_or_imm : Rc; }}); - 0x66: cmovgt({{ Rc = (Ra.sq > 0) ? Rb_or_imm : Rc; }}); + 0x44: cmovlt({{ Rc = (Ra_sq < 0) ? Rb_or_imm : Rc; }}); + 0x46: cmovge({{ Rc = (Ra_sq >= 0) ? Rb_or_imm : Rc; }}); + 0x64: cmovle({{ Rc = (Ra_sq <= 0) ? Rb_or_imm : Rc; }}); + 0x66: cmovgt({{ Rc = (Ra_sq > 0) ? Rb_or_imm : Rc; }}); // For AMASK, RA must be R31. 0x61: decode RA { @@ -214,8 +214,8 @@ decode OPCODE default Unknown::unknown() { 0x12: decode INTFUNC { 0x39: sll({{ Rc = Ra << Rb_or_imm<5:0>; }}); - 0x34: srl({{ Rc = Ra.uq >> Rb_or_imm<5:0>; }}); - 0x3c: sra({{ Rc = Ra.sq >> Rb_or_imm<5:0>; }}); + 0x34: srl({{ Rc = Ra_uq >> Rb_or_imm<5:0>; }}); + 0x3c: sra({{ Rc = Ra_sq >> Rb_or_imm<5:0>; }}); 0x02: mskbl({{ Rc = Ra & ~(mask( 8) << (Rb_or_imm<2:0> * 8)); }}); 0x12: mskwl({{ Rc = Ra & ~(mask(16) << (Rb_or_imm<2:0> * 8)); }}); @@ -235,10 +235,10 @@ decode OPCODE default Unknown::unknown() { Rc = bv ? (Ra & ~(mask(64) >> (64 - 8 * bv))) : Ra; }}); - 0x06: extbl({{ Rc = (Ra.uq >> (Rb_or_imm<2:0> * 8))< 7:0>; }}); - 0x16: extwl({{ Rc = (Ra.uq >> (Rb_or_imm<2:0> * 8))<15:0>; }}); - 0x26: extll({{ Rc = (Ra.uq >> (Rb_or_imm<2:0> * 8))<31:0>; }}); - 0x36: extql({{ Rc = (Ra.uq >> (Rb_or_imm<2:0> * 8)); }}); + 0x06: extbl({{ Rc = (Ra_uq >> (Rb_or_imm<2:0> * 8))< 7:0>; }}); + 0x16: extwl({{ Rc = (Ra_uq >> (Rb_or_imm<2:0> * 8))<15:0>; }}); + 0x26: extll({{ Rc = (Ra_uq >> (Rb_or_imm<2:0> * 8))<31:0>; }}); + 0x36: extql({{ Rc = (Ra_uq >> (Rb_or_imm<2:0> * 8)); }}); 0x5a: extwh({{ Rc = (Ra << (64 - (Rb_or_imm<2:0> * 8))<5:0>)<15:0>; }}); @@ -254,15 +254,15 @@ decode OPCODE default Unknown::unknown() { 0x57: inswh({{ int bv = Rb_or_imm<2:0>; - Rc = bv ? (Ra.uq<15:0> >> (64 - 8 * bv)) : 0; + Rc = bv ? (Ra_uq<15:0> >> (64 - 8 * bv)) : 0; }}); 0x67: inslh({{ int bv = Rb_or_imm<2:0>; - Rc = bv ? (Ra.uq<31:0> >> (64 - 8 * bv)) : 0; + Rc = bv ? (Ra_uq<31:0> >> (64 - 8 * bv)) : 0; }}); 0x77: insqh({{ int bv = Rb_or_imm<2:0>; - Rc = bv ? (Ra.uq >> (64 - 8 * bv)) : 0; + Rc = bv ? (Ra_uq >> (64 - 8 * bv)) : 0; }}); 0x30: zap({{ @@ -284,7 +284,7 @@ decode OPCODE default Unknown::unknown() { } 0x13: decode INTFUNC { // integer multiplies - 0x00: mull({{ Rc.sl = Ra.sl * Rb_or_imm.sl; }}, IntMultOp); + 0x00: mull({{ Rc_sl = Ra_sl * Rb_or_imm_sl; }}, IntMultOp); 0x20: mulq({{ Rc = Ra * Rb_or_imm; }}, IntMultOp); 0x30: umulh({{ uint64_t hi, lo; @@ -293,8 +293,8 @@ decode OPCODE default Unknown::unknown() { }}, IntMultOp); 0x40: mullv({{ // 32-bit multiply with trap on overflow - int64_t Rax = Ra.sl; // sign extended version of Ra.sl - int64_t Rbx = Rb_or_imm.sl; + int64_t Rax = Ra_sl; // sign extended version of Ra_sl + int64_t Rbx = Rb_or_imm_sl; int64_t tmp = Rax * Rbx; // To avoid overflow, all the upper 32 bits must match // the sign bit of the lower 32. We code this as @@ -302,7 +302,7 @@ decode OPCODE default Unknown::unknown() { uint64_t sign_bits = tmp<63:31>; if (sign_bits != 0 && sign_bits != mask(33)) fault = new IntegerOverflowFault; - Rc.sl = tmp<31:0>; + Rc_sl = tmp<31:0>; }}, IntMultOp); 0x60: mulqv({{ // 64-bit multiply with trap on overflow @@ -318,8 +318,8 @@ decode OPCODE default Unknown::unknown() { } 0x1c: decode INTFUNC { - 0x00: decode RA { 31: sextb({{ Rc.sb = Rb_or_imm< 7:0>; }}); } - 0x01: decode RA { 31: sextw({{ Rc.sw = Rb_or_imm<15:0>; }}); } + 0x00: decode RA { 31: sextb({{ Rc_sb = Rb_or_imm< 7:0>; }}); } + 0x01: decode RA { 31: sextw({{ Rc_sw = Rb_or_imm<15:0>; }}); } 0x30: ctpop({{ uint64_t count = 0; @@ -335,8 +335,8 @@ decode OPCODE default Unknown::unknown() { int hi = 7; int lo = 0; for (int i = 0; i < 8; ++i) { - uint8_t ra_ub = Ra.uq; - uint8_t rb_ub = Rb.uq; + uint8_t ra_ub = Ra_uq; + uint8_t rb_ub = Rb_uq; temp += (ra_ub >= rb_ub) ? (ra_ub - rb_ub) : (rb_ub - ra_ub); hi += 8; @@ -375,25 +375,25 @@ decode OPCODE default Unknown::unknown() { 0x34: unpkbw({{ - Rc = (Rb.uq<7:0> - | (Rb.uq<15:8> << 16) - | (Rb.uq<23:16> << 32) - | (Rb.uq<31:24> << 48)); + Rc = (Rb_uq<7:0> + | (Rb_uq<15:8> << 16) + | (Rb_uq<23:16> << 32) + | (Rb_uq<31:24> << 48)); }}, IntAluOp); 0x35: unpkbl({{ - Rc = (Rb.uq<7:0> | (Rb.uq<15:8> << 32)); + Rc = (Rb_uq<7:0> | (Rb_uq<15:8> << 32)); }}, IntAluOp); 0x36: pkwb({{ - Rc = (Rb.uq<7:0> - | (Rb.uq<23:16> << 8) - | (Rb.uq<39:32> << 16) - | (Rb.uq<55:48> << 24)); + Rc = (Rb_uq<7:0> + | (Rb_uq<23:16> << 8) + | (Rb_uq<39:32> << 16) + | (Rb_uq<55:48> << 24)); }}, IntAluOp); 0x37: pklb({{ - Rc = (Rb.uq<7:0> | (Rb.uq<39:32> << 8)); + Rc = (Rb_uq<7:0> | (Rb_uq<39:32> << 8)); }}, IntAluOp); 0x38: minsb8({{ @@ -401,11 +401,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 56; for (int i = 7; i >= 0; --i) { - int8_t ra_sb = Ra.uq; - int8_t rb_sb = Rb.uq; + int8_t ra_sb = Ra_uq; + int8_t rb_sb = Rb_uq; temp = ((temp << 8) - | ((ra_sb < rb_sb) ? Ra.uq - : Rb.uq)); + | ((ra_sb < rb_sb) ? Ra_uq + : Rb_uq)); hi -= 8; lo -= 8; } @@ -417,11 +417,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 48; for (int i = 3; i >= 0; --i) { - int16_t ra_sw = Ra.uq; - int16_t rb_sw = Rb.uq; + int16_t ra_sw = Ra_uq; + int16_t rb_sw = Rb_uq; temp = ((temp << 16) - | ((ra_sw < rb_sw) ? Ra.uq - : Rb.uq)); + | ((ra_sw < rb_sw) ? Ra_uq + : Rb_uq)); hi -= 16; lo -= 16; } @@ -433,11 +433,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 56; for (int i = 7; i >= 0; --i) { - uint8_t ra_ub = Ra.uq; - uint8_t rb_ub = Rb.uq; + uint8_t ra_ub = Ra_uq; + uint8_t rb_ub = Rb_uq; temp = ((temp << 8) - | ((ra_ub < rb_ub) ? Ra.uq - : Rb.uq)); + | ((ra_ub < rb_ub) ? Ra_uq + : Rb_uq)); hi -= 8; lo -= 8; } @@ -449,11 +449,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 48; for (int i = 3; i >= 0; --i) { - uint16_t ra_sw = Ra.uq; - uint16_t rb_sw = Rb.uq; + uint16_t ra_sw = Ra_uq; + uint16_t rb_sw = Rb_uq; temp = ((temp << 16) - | ((ra_sw < rb_sw) ? Ra.uq - : Rb.uq)); + | ((ra_sw < rb_sw) ? Ra_uq + : Rb_uq)); hi -= 16; lo -= 16; } @@ -465,11 +465,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 56; for (int i = 7; i >= 0; --i) { - uint8_t ra_ub = Ra.uq; - uint8_t rb_ub = Rb.uq; + uint8_t ra_ub = Ra_uq; + uint8_t rb_ub = Rb_uq; temp = ((temp << 8) - | ((ra_ub > rb_ub) ? Ra.uq - : Rb.uq)); + | ((ra_ub > rb_ub) ? Ra_uq + : Rb_uq)); hi -= 8; lo -= 8; } @@ -481,11 +481,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 48; for (int i = 3; i >= 0; --i) { - uint16_t ra_uw = Ra.uq; - uint16_t rb_uw = Rb.uq; + uint16_t ra_uw = Ra_uq; + uint16_t rb_uw = Rb_uq; temp = ((temp << 16) - | ((ra_uw > rb_uw) ? Ra.uq - : Rb.uq)); + | ((ra_uw > rb_uw) ? Ra_uq + : Rb_uq)); hi -= 16; lo -= 16; } @@ -497,11 +497,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 56; for (int i = 7; i >= 0; --i) { - int8_t ra_sb = Ra.uq; - int8_t rb_sb = Rb.uq; + int8_t ra_sb = Ra_uq; + int8_t rb_sb = Rb_uq; temp = ((temp << 8) - | ((ra_sb > rb_sb) ? Ra.uq - : Rb.uq)); + | ((ra_sb > rb_sb) ? Ra_uq + : Rb_uq)); hi -= 8; lo -= 8; } @@ -513,11 +513,11 @@ decode OPCODE default Unknown::unknown() { int hi = 63; int lo = 48; for (int i = 3; i >= 0; --i) { - int16_t ra_sw = Ra.uq; - int16_t rb_sw = Rb.uq; + int16_t ra_sw = Ra_uq; + int16_t rb_sw = Rb_uq; temp = ((temp << 16) - | ((ra_sw > rb_sw) ? Ra.uq - : Rb.uq)); + | ((ra_sw > rb_sw) ? Ra_uq + : Rb_uq)); hi -= 16; lo -= 16; } @@ -526,10 +526,10 @@ decode OPCODE default Unknown::unknown() { format BasicOperateWithNopCheck { 0x70: decode RB { - 31: ftoit({{ Rc = Fa.uq; }}, FloatCvtOp); + 31: ftoit({{ Rc = Fa_uq; }}, FloatCvtOp); } 0x78: decode RB { - 31: ftois({{ Rc.sl = t_to_s(Fa.uq); }}, + 31: ftois({{ Rc_sl = t_to_s(Fa_uq); }}, FloatCvtOp); } } @@ -540,10 +540,10 @@ decode OPCODE default Unknown::unknown() { format CondBranch { 0x39: beq({{ cond = (Ra == 0); }}); 0x3d: bne({{ cond = (Ra != 0); }}); - 0x3e: bge({{ cond = (Ra.sq >= 0); }}); - 0x3f: bgt({{ cond = (Ra.sq > 0); }}); - 0x3b: ble({{ cond = (Ra.sq <= 0); }}); - 0x3a: blt({{ cond = (Ra.sq < 0); }}); + 0x3e: bge({{ cond = (Ra_sq >= 0); }}); + 0x3f: bgt({{ cond = (Ra_sq > 0); }}); + 0x3b: ble({{ cond = (Ra_sq <= 0); }}); + 0x3a: blt({{ cond = (Ra_sq < 0); }}); 0x38: blbc({{ cond = ((Ra & 1) == 0); }}); 0x3c: blbs({{ cond = ((Ra & 1) == 1); }}); @@ -577,8 +577,8 @@ decode OPCODE default Unknown::unknown() { 0x4: decode RB { 31: decode FP_FULLFUNC { format BasicOperateWithNopCheck { - 0x004: itofs({{ Fc.uq = s_to_t(Ra.ul); }}, FloatCvtOp); - 0x024: itoft({{ Fc.uq = Ra.uq; }}, FloatCvtOp); + 0x004: itofs({{ Fc_uq = s_to_t(Ra_ul); }}, FloatCvtOp); + 0x024: itoft({{ Fc_uq = Ra_uq; }}, FloatCvtOp); 0x014: FailUnimpl::itoff(); // VAX-format conversion } } @@ -596,9 +596,9 @@ decode OPCODE default Unknown::unknown() { }}, FloatSqrtOp); #else 0x0b: sqrts({{ - if (Fb.sf < 0.0) + if (Fb_sf < 0.0) fault = new ArithmeticFault; - Fc.sf = sqrt(Fb.sf); + Fc_sf = sqrt(Fb_sf); }}, FloatSqrtOp); #endif 0x2b: sqrtt({{ @@ -638,10 +638,10 @@ decode OPCODE default Unknown::unknown() { 0x02: muls({{ Fc = Fa * Fb; }}, FloatMultOp); 0x03: divs({{ Fc = Fa / Fb; }}, FloatDivOp); #else - 0x00: adds({{ Fc.sf = Fa.sf + Fb.sf; }}); - 0x01: subs({{ Fc.sf = Fa.sf - Fb.sf; }}); - 0x02: muls({{ Fc.sf = Fa.sf * Fb.sf; }}, FloatMultOp); - 0x03: divs({{ Fc.sf = Fa.sf / Fb.sf; }}, FloatDivOp); + 0x00: adds({{ Fc_sf = Fa_sf + Fb_sf; }}); + 0x01: subs({{ Fc_sf = Fa_sf - Fb_sf; }}); + 0x02: muls({{ Fc_sf = Fa_sf * Fb_sf; }}, FloatMultOp); + 0x03: divs({{ Fc_sf = Fa_sf / Fb_sf; }}, FloatDivOp); #endif 0x20: addt({{ Fc = Fa + Fb; }}); @@ -681,13 +681,13 @@ decode OPCODE default Unknown::unknown() { 0x2f: decode FP_ROUNDMODE { format FPFixedRounding { // "chopped" i.e. round toward zero - 0: cvttq({{ Fc.sq = (int64_t)trunc(Fb); }}, + 0: cvttq({{ Fc_sq = (int64_t)trunc(Fb); }}, Chopped); // round to minus infinity - 1: cvttq({{ Fc.sq = (int64_t)floor(Fb); }}, + 1: cvttq({{ Fc_sq = (int64_t)floor(Fb); }}, MinusInfinity); } - default: cvttq({{ Fc.sq = (int64_t)nearbyint(Fb); }}); + default: cvttq({{ Fc_sq = (int64_t)nearbyint(Fb); }}); } // The cvtts opcode is overloaded to be cvtst if the trap @@ -696,9 +696,9 @@ decode OPCODE default Unknown::unknown() { format BasicOperateWithNopCheck { // trap on denorm version "cvtst/s" is // simulated same as cvtst - 0x2ac, 0x6ac: cvtst({{ Fc = Fb.sf; }}); + 0x2ac, 0x6ac: cvtst({{ Fc = Fb_sf; }}); } - default: cvtts({{ Fc.sf = Fb; }}); + default: cvtts({{ Fc_sf = Fb; }}); } // The trapping mode for integer-to-FP conversions @@ -706,10 +706,10 @@ decode OPCODE default Unknown::unknown() { // allowed. The full set of rounding modes are // supported though. 0x3c: decode FP_TRAPMODE { - 0,7: cvtqs({{ Fc.sf = Fb.sq; }}); + 0,7: cvtqs({{ Fc_sf = Fb_sq; }}); } 0x3e: decode FP_TRAPMODE { - 0,7: cvtqt({{ Fc = Fb.sq; }}); + 0,7: cvtqt({{ Fc = Fb_sq; }}); } } } @@ -720,10 +720,10 @@ decode OPCODE default Unknown::unknown() { 0x17: decode FP_FULLFUNC { format BasicOperateWithNopCheck { 0x010: cvtlq({{ - Fc.sl = (Fb.uq<63:62> << 30) | Fb.uq<58:29>; + Fc_sl = (Fb_uq<63:62> << 30) | Fb_uq<58:29>; }}); 0x030: cvtql({{ - Fc.uq = (Fb.uq<31:30> << 62) | (Fb.uq<29:0> << 29); + Fc_uq = (Fb_uq<31:30> << 62) | (Fb_uq<29:0> << 29); }}); // We treat the precise & imprecise trapping versions of @@ -732,20 +732,20 @@ decode OPCODE default Unknown::unknown() { // To avoid overflow, all the upper 32 bits must match // the sign bit of the lower 32. We code this as // checking the upper 33 bits for all 0s or all 1s. - uint64_t sign_bits = Fb.uq<63:31>; + uint64_t sign_bits = Fb_uq<63:31>; if (sign_bits != 0 && sign_bits != mask(33)) fault = new IntegerOverflowFault; - Fc.uq = (Fb.uq<31:30> << 62) | (Fb.uq<29:0> << 29); + Fc_uq = (Fb_uq<31:30> << 62) | (Fb_uq<29:0> << 29); }}); 0x020: cpys({{ // copy sign - Fc.uq = (Fa.uq<63:> << 63) | Fb.uq<62:0>; + Fc_uq = (Fa_uq<63:> << 63) | Fb_uq<62:0>; }}); 0x021: cpysn({{ // copy sign negated - Fc.uq = (~Fa.uq<63:> << 63) | Fb.uq<62:0>; + Fc_uq = (~Fa_uq<63:> << 63) | Fb_uq<62:0>; }}); 0x022: cpyse({{ // copy sign and exponent - Fc.uq = (Fa.uq<63:52> << 52) | Fb.uq<51:0>; + Fc_uq = (Fa_uq<63:52> << 52) | Fb_uq<51:0>; }}); 0x02a: fcmoveq({{ Fc = (Fa == 0) ? Fb : Fc; }}); @@ -755,8 +755,8 @@ decode OPCODE default Unknown::unknown() { 0x02e: fcmovle({{ Fc = (Fa <= 0) ? Fb : Fc; }}); 0x02f: fcmovgt({{ Fc = (Fa > 0) ? Fb : Fc; }}); - 0x024: mt_fpcr({{ FPCR = Fa.uq; }}, IsIprAccess); - 0x025: mf_fpcr({{ Fa.uq = FPCR; }}, IsIprAccess); + 0x024: mt_fpcr({{ FPCR = Fa_uq; }}, IsIprAccess); + 0x025: mf_fpcr({{ Fa_uq = FPCR; }}, IsIprAccess); } } @@ -862,9 +862,9 @@ decode OPCODE default Unknown::unknown() { 0: OpcdecFault::hw_st_quad(); 1: decode HW_LDST_QUAD { format HwLoad { - 0: hw_ld({{ EA = (Rb + disp) & ~3; }}, {{ Ra = Mem.ul; }}, + 0: hw_ld({{ EA = (Rb + disp) & ~3; }}, {{ Ra = Mem_ul; }}, L, IsSerializing, IsSerializeBefore); - 1: hw_ld({{ EA = (Rb + disp) & ~7; }}, {{ Ra = Mem.uq; }}, + 1: hw_ld({{ EA = (Rb + disp) & ~7; }}, {{ Ra = Mem_uq; }}, Q, IsSerializing, IsSerializeBefore); } } @@ -876,9 +876,9 @@ decode OPCODE default Unknown::unknown() { 1: decode HW_LDST_COND { 0: decode HW_LDST_QUAD { 0: hw_st({{ EA = (Rb + disp) & ~3; }}, - {{ Mem.ul = Ra<31:0>; }}, L, IsSerializing, IsSerializeBefore); + {{ Mem_ul = Ra<31:0>; }}, L, IsSerializing, IsSerializeBefore); 1: hw_st({{ EA = (Rb + disp) & ~7; }}, - {{ Mem.uq = Ra.uq; }}, Q, IsSerializing, IsSerializeBefore); + {{ Mem_uq = Ra_uq; }}, Q, IsSerializing, IsSerializeBefore); } 1: FailUnimpl::hw_st_cond(); diff --git a/src/arch/alpha/isa/int.isa b/src/arch/alpha/isa/int.isa index bd9c3ccd9..265b3c4a9 100644 --- a/src/arch/alpha/isa/int.isa +++ b/src/arch/alpha/isa/int.isa @@ -110,7 +110,7 @@ def format IntegerOperate(code, *opt_flags) {{ # generate immediate version by substituting 'imm' # note that imm takes no extenstion, so we extend # the regexp to replace any extension as well - imm_code = re.sub(r'Rb_or_imm(\.\w+)?', 'imm', orig_code) + imm_code = re.sub(r'Rb_or_imm(_\w+)?', 'imm', orig_code) # generate declaration for register version iop = InstObjParams(name, Name, 'AlphaStaticInst', code, opt_flags) diff --git a/src/arch/alpha/isa/main.isa b/src/arch/alpha/isa/main.isa index 3d80ddf68..796c5e38e 100644 --- a/src/arch/alpha/isa/main.isa +++ b/src/arch/alpha/isa/main.isa @@ -176,7 +176,7 @@ def operand_types {{ def operands {{ # Int regs default to unsigned, but code should not count on this. # For clarity, descriptions that depend on unsigned behavior should - # explicitly specify '.uq'. + # explicitly specify '_uq'. 'Ra': ('IntReg', 'uq', 'PALMODE ? reg_redir[RA] : RA', 'IsInteger', 1), 'Rb': ('IntReg', 'uq', 'PALMODE ? reg_redir[RB] : RB', diff --git a/src/arch/arm/isa/insts/branch.isa b/src/arch/arm/isa/insts/branch.isa index 767c07835..e360f4581 100644 --- a/src/arch/arm/isa/insts/branch.isa +++ b/src/arch/arm/isa/insts/branch.isa @@ -172,7 +172,7 @@ let {{ ArmISA::TLB::MustBeOne; EA = Op1 + Op2 * 2 ''' - accCode = 'NPC = PC + 2 * (Mem.uh);\n' + accCode = 'NPC = PC + 2 * (Mem_uh);\n' mnem = "tbh" else: eaCode = ''' @@ -181,7 +181,7 @@ let {{ ArmISA::TLB::MustBeOne; EA = Op1 + Op2 ''' - accCode = 'NPC = PC + 2 * (Mem.ub)' + accCode = 'NPC = PC + 2 * (Mem_ub)' mnem = "tbb" iop = InstObjParams(mnem, mnem.capitalize(), "BranchRegReg", {'ea_code': eaCode, diff --git a/src/arch/arm/isa/insts/data.isa b/src/arch/arm/isa/insts/data.isa index 09f9621f1..89c0e48c7 100644 --- a/src/arch/arm/isa/insts/data.isa +++ b/src/arch/arm/isa/insts/data.isa @@ -302,7 +302,7 @@ let {{ buildRegDataInst("qadd", ''' int32_t midRes; - resTemp = saturateOp<32>(midRes, Op1.sw, Op2.sw); + resTemp = saturateOp<32>(midRes, Op1_sw, Op2_sw); Dest = midRes; ''', flagType="saturate", buildNonCc=False) buildRegDataInst("qadd16", ''' @@ -310,8 +310,8 @@ let {{ for (unsigned i = 0; i < 2; i++) { int high = (i + 1) * 16 - 1; int low = i * 16; - int64_t arg1 = sext<16>(bits(Op1.sw, high, low)); - int64_t arg2 = sext<16>(bits(Op2.sw, high, low)); + int64_t arg1 = sext<16>(bits(Op1_sw, high, low)); + int64_t arg2 = sext<16>(bits(Op2_sw, high, low)); saturateOp<16>(midRes, arg1, arg2); replaceBits(resTemp, high, low, midRes); } @@ -322,8 +322,8 @@ let {{ for (unsigned i = 0; i < 4; i++) { int high = (i + 1) * 8 - 1; int low = i * 8; - int64_t arg1 = sext<8>(bits(Op1.sw, high, low)); - int64_t arg2 = sext<8>(bits(Op2.sw, high, low)); + int64_t arg1 = sext<8>(bits(Op1_sw, high, low)); + int64_t arg2 = sext<8>(bits(Op2_sw, high, low)); saturateOp<8>(midRes, arg1, arg2); replaceBits(resTemp, high, low, midRes); } @@ -331,13 +331,13 @@ let {{ ''', flagType="none", buildCc=False) buildRegDataInst("qdadd", ''' int32_t midRes; - resTemp = saturateOp<32>(midRes, Op2.sw, Op2.sw) | - saturateOp<32>(midRes, Op1.sw, midRes); + resTemp = saturateOp<32>(midRes, Op2_sw, Op2_sw) | + saturateOp<32>(midRes, Op1_sw, midRes); Dest = midRes; ''', flagType="saturate", buildNonCc=False) buildRegDataInst("qsub", ''' int32_t midRes; - resTemp = saturateOp<32>(midRes, Op1.sw, Op2.sw, true); + resTemp = saturateOp<32>(midRes, Op1_sw, Op2_sw, true); Dest = midRes; ''', flagType="saturate") buildRegDataInst("qsub16", ''' @@ -345,8 +345,8 @@ let {{ for (unsigned i = 0; i < 2; i++) { int high = (i + 1) * 16 - 1; int low = i * 16; - int64_t arg1 = sext<16>(bits(Op1.sw, high, low)); - int64_t arg2 = sext<16>(bits(Op2.sw, high, low)); + int64_t arg1 = sext<16>(bits(Op1_sw, high, low)); + int64_t arg2 = sext<16>(bits(Op2_sw, high, low)); saturateOp<16>(midRes, arg1, arg2, true); replaceBits(resTemp, high, low, midRes); } @@ -357,8 +357,8 @@ let {{ for (unsigned i = 0; i < 4; i++) { int high = (i + 1) * 8 - 1; int low = i * 8; - int64_t arg1 = sext<8>(bits(Op1.sw, high, low)); - int64_t arg2 = sext<8>(bits(Op2.sw, high, low)); + int64_t arg1 = sext<8>(bits(Op1_sw, high, low)); + int64_t arg2 = sext<8>(bits(Op2_sw, high, low)); saturateOp<8>(midRes, arg1, arg2, true); replaceBits(resTemp, high, low, midRes); } @@ -366,16 +366,16 @@ let {{ ''', flagType="none", buildCc=False) buildRegDataInst("qdsub", ''' int32_t midRes; - resTemp = saturateOp<32>(midRes, Op2.sw, Op2.sw) | - saturateOp<32>(midRes, Op1.sw, midRes, true); + resTemp = saturateOp<32>(midRes, Op2_sw, Op2_sw) | + saturateOp<32>(midRes, Op1_sw, midRes, true); Dest = midRes; ''', flagType="saturate", buildNonCc=False) buildRegDataInst("qasx", ''' int32_t midRes; - int64_t arg1Low = sext<16>(bits(Op1.sw, 15, 0)); - int64_t arg1High = sext<16>(bits(Op1.sw, 31, 16)); - int64_t arg2Low = sext<16>(bits(Op2.sw, 15, 0)); - int64_t arg2High = sext<16>(bits(Op2.sw, 31, 16)); + int64_t arg1Low = sext<16>(bits(Op1_sw, 15, 0)); + int64_t arg1High = sext<16>(bits(Op1_sw, 31, 16)); + int64_t arg2Low = sext<16>(bits(Op2_sw, 15, 0)); + int64_t arg2High = sext<16>(bits(Op2_sw, 31, 16)); saturateOp<16>(midRes, arg1Low, arg2High, true); replaceBits(resTemp, 15, 0, midRes); saturateOp<16>(midRes, arg1High, arg2Low); @@ -384,10 +384,10 @@ let {{ ''', flagType="none", buildCc=False) buildRegDataInst("qsax", ''' int32_t midRes; - int64_t arg1Low = sext<16>(bits(Op1.sw, 15, 0)); - int64_t arg1High = sext<16>(bits(Op1.sw, 31, 16)); - int64_t arg2Low = sext<16>(bits(Op2.sw, 15, 0)); - int64_t arg2High = sext<16>(bits(Op2.sw, 31, 16)); + int64_t arg1Low = sext<16>(bits(Op1_sw, 15, 0)); + int64_t arg1High = sext<16>(bits(Op1_sw, 31, 16)); + int64_t arg2Low = sext<16>(bits(Op2_sw, 15, 0)); + int64_t arg2High = sext<16>(bits(Op2_sw, 31, 16)); saturateOp<16>(midRes, arg1Low, arg2High); replaceBits(resTemp, 15, 0, midRes); saturateOp<16>(midRes, arg1High, arg2Low, true); @@ -401,8 +401,8 @@ let {{ for (unsigned i = 0; i < 4; i++) { int high = (i + 1) * 8 - 1; int low = i * 8; - int32_t midRes = sext<8>(bits(Op1.sw, high, low)) + - sext<8>(bits(Op2.sw, high, low)); + int32_t midRes = sext<8>(bits(Op1_sw, high, low)) + + sext<8>(bits(Op2_sw, high, low)); replaceBits(resTemp, high, low, midRes); if (midRes >= 0) { geBits = geBits | (1 << i); @@ -417,8 +417,8 @@ let {{ for (unsigned i = 0; i < 2; i++) { int high = (i + 1) * 16 - 1; int low = i * 16; - int32_t midRes = sext<16>(bits(Op1.sw, high, low)) + - sext<16>(bits(Op2.sw, high, low)); + int32_t midRes = sext<16>(bits(Op1_sw, high, low)) + + sext<16>(bits(Op2_sw, high, low)); replaceBits(resTemp, high, low, midRes); if (midRes >= 0) { geBits = geBits | (0x3 << (i * 2)); @@ -434,8 +434,8 @@ let {{ for (unsigned i = 0; i < 4; i++) { int high = (i + 1) * 8 - 1; int low = i * 8; - int32_t midRes = sext<8>(bits(Op1.sw, high, low)) - - sext<8>(bits(Op2.sw, high, low)); + int32_t midRes = sext<8>(bits(Op1_sw, high, low)) - + sext<8>(bits(Op2_sw, high, low)); replaceBits(resTemp, high, low, midRes); if (midRes >= 0) { geBits = geBits | (1 << i); @@ -450,8 +450,8 @@ let {{ for (unsigned i = 0; i < 2; i++) { int high = (i + 1) * 16 - 1; int low = i * 16; - int32_t midRes = sext<16>(bits(Op1.sw, high, low)) - - sext<16>(bits(Op2.sw, high, low)); + int32_t midRes = sext<16>(bits(Op1_sw, high, low)) - + sext<16>(bits(Op2_sw, high, low)); replaceBits(resTemp, high, low, midRes); if (midRes >= 0) { geBits = geBits | (0x3 << (i * 2)); @@ -463,10 +463,10 @@ let {{ buildRegDataInst("sasx", ''' int32_t midRes, geBits = 0; resTemp = 0; - int64_t arg1Low = sext<16>(bits(Op1.sw, 15, 0)); - int64_t arg1High = sext<16>(bits(Op1.sw, 31, 16)); - int64_t arg2Low = sext<16>(bits(Op2.sw, 15, 0)); - int64_t arg2High = sext<16>(bits(Op2.sw, 31, 16)); + int64_t arg1Low = sext<16>(bits(Op1_sw, 15, 0)); + int64_t arg1High = sext<16>(bits(Op1_sw, 31, 16)); + int64_t arg2Low = sext<16>(bits(Op2_sw, 15, 0)); + int64_t arg2High = sext<16>(bits(Op2_sw, 31, 16)); midRes = arg1Low - arg2High; if (midRes >= 0) { geBits = geBits | 0x3; @@ -483,10 +483,10 @@ let {{ buildRegDataInst("ssax", ''' int32_t midRes, geBits = 0; resTemp = 0; - int64_t arg1Low = sext<16>(bits(Op1.sw, 15, 0)); - int64_t arg1High = sext<16>(bits(Op1.sw, 31, 16)); - int64_t arg2Low = sext<16>(bits(Op2.sw, 15, 0)); - int64_t arg2High = sext<16>(bits(Op2.sw, 31, 16)); + int64_t arg1Low = sext<16>(bits(Op1_sw, 15, 0)); + int64_t arg1High = sext<16>(bits(Op1_sw, 31, 16)); + int64_t arg2Low = sext<16>(bits(Op2_sw, 15, 0)); + int64_t arg2High = sext<16>(bits(Op2_sw, 31, 16)); midRes = arg1Low + arg2High; if (midRes >= 0) { geBits = geBits | 0x3; @@ -507,8 +507,8 @@ let {{ int high = (i + 1) * 8 - 1; int low = i * 8; int32_t midRes = - (uint64_t)(sext<8>(bits(Op1.sw, high, low)) + - sext<8>(bits(Op2.sw, high, low))) >> 1; + (uint64_t)(sext<8>(bits(Op1_sw, high, low)) + + sext<8>(bits(Op2_sw, high, low))) >> 1; replaceBits(resTemp, high, low, midRes); } Dest = resTemp; @@ -519,8 +519,8 @@ let {{ int high = (i + 1) * 16 - 1; int low = i * 16; int32_t midRes = - (uint64_t)(sext<16>(bits(Op1.sw, high, low)) + - sext<16>(bits(Op2.sw, high, low))) >> 1; + (uint64_t)(sext<16>(bits(Op1_sw, high, low)) + + sext<16>(bits(Op2_sw, high, low))) >> 1; replaceBits(resTemp, high, low, midRes); } Dest = resTemp; @@ -531,8 +531,8 @@ let {{ int high = (i + 1) * 8 - 1; int low = i * 8; int32_t midRes = - (uint64_t)(sext<8>(bits(Op1.sw, high, low)) - - sext<8>(bits(Op2.sw, high, low))) >> 1; + (uint64_t)(sext<8>(bits(Op1_sw, high, low)) - + sext<8>(bits(Op2_sw, high, low))) >> 1; replaceBits(resTemp, high, low, midRes); } Dest = resTemp; @@ -543,8 +543,8 @@ let {{ int high = (i + 1) * 16 - 1; int low = i * 16; int32_t midRes = - (uint64_t)(sext<16>(bits(Op1.sw, high, low)) - - sext<16>(bits(Op2.sw, high, low))) >> 1; + (uint64_t)(sext<16>(bits(Op1_sw, high, low)) - + sext<16>(bits(Op2_sw, high, low))) >> 1; replaceBits(resTemp, high, low, midRes); } Dest = resTemp; @@ -552,10 +552,10 @@ let {{ buildRegDataInst("shasx", ''' int32_t midRes; resTemp = 0; - int64_t arg1Low = sext<16>(bits(Op1.sw, 15, 0)); - int64_t arg1High = sext<16>(bits(Op1.sw, 31, 16)); - int64_t arg2Low = sext<16>(bits(Op2.sw, 15, 0)); - int64_t arg2High = sext<16>(bits(Op2.sw, 31, 16)); + int64_t arg1Low = sext<16>(bits(Op1_sw, 15, 0)); + int64_t arg1High = sext<16>(bits(Op1_sw, 31, 16)); + int64_t arg2Low = sext<16>(bits(Op2_sw, 15, 0)); + int64_t arg2High = sext<16>(bits(Op2_sw, 31, 16)); midRes = (uint64_t)(arg1Low - arg2High) >> 1; replaceBits(resTemp, 15, 0, midRes); midRes = (arg1High + arg2Low) >> 1; @@ -565,10 +565,10 @@ let {{ buildRegDataInst("shsax", ''' int32_t midRes; resTemp = 0; - int64_t arg1Low = sext<16>(bits(Op1.sw, 15, 0)); - int64_t arg1High = sext<16>(bits(Op1.sw, 31, 16)); - int64_t arg2Low = sext<16>(bits(Op2.sw, 15, 0)); - int64_t arg2High = sext<16>(bits(Op2.sw, 31, 16)); + int64_t arg1Low = sext<16>(bits(Op1_sw, 15, 0)); + int64_t arg1High = sext<16>(bits(Op1_sw, 31, 16)); + int64_t arg2Low = sext<16>(bits(Op2_sw, 15, 0)); + int64_t arg2High = sext<16>(bits(Op2_sw, 31, 16)); midRes = (uint64_t)(arg1Low + arg2High) >> 1; replaceBits(resTemp, 15, 0, midRes); midRes = (uint64_t)(arg1High - arg2Low) >> 1; @@ -626,10 +626,10 @@ let {{ ''', flagType="none", buildCc=False) buildRegDataInst("uqasx", ''' uint32_t midRes; - uint64_t arg1Low = bits(Op1.sw, 15, 0); - uint64_t arg1High = bits(Op1.sw, 31, 16); - uint64_t arg2Low = bits(Op2.sw, 15, 0); - uint64_t arg2High = bits(Op2.sw, 31, 16); + uint64_t arg1Low = bits(Op1_sw, 15, 0); + uint64_t arg1High = bits(Op1_sw, 31, 16); + uint64_t arg2Low = bits(Op2_sw, 15, 0); + uint64_t arg2High = bits(Op2_sw, 31, 16); uSaturateOp<16>(midRes, arg1Low, arg2High, true); replaceBits(resTemp, 15, 0, midRes); uSaturateOp<16>(midRes, arg1High, arg2Low); @@ -638,10 +638,10 @@ let {{ ''', flagType="none", buildCc=False) buildRegDataInst("uqsax", ''' uint32_t midRes; - uint64_t arg1Low = bits(Op1.sw, 15, 0); - uint64_t arg1High = bits(Op1.sw, 31, 16); - uint64_t arg2Low = bits(Op2.sw, 15, 0); - uint64_t arg2High = bits(Op2.sw, 31, 16); + uint64_t arg1Low = bits(Op1_sw, 15, 0); + uint64_t arg1High = bits(Op1_sw, 31, 16); + uint64_t arg2Low = bits(Op2_sw, 15, 0); + uint64_t arg2High = bits(Op2_sw, 31, 16); uSaturateOp<16>(midRes, arg1Low, arg2High); replaceBits(resTemp, 15, 0, midRes); uSaturateOp<16>(midRes, arg1High, arg2Low, true); @@ -716,10 +716,10 @@ let {{ buildRegDataInst("uasx", ''' int32_t midRes, geBits = 0; resTemp = 0; - int64_t arg1Low = bits(Op1.sw, 15, 0); - int64_t arg1High = bits(Op1.sw, 31, 16); - int64_t arg2Low = bits(Op2.sw, 15, 0); - int64_t arg2High = bits(Op2.sw, 31, 16); + int64_t arg1Low = bits(Op1_sw, 15, 0); + int64_t arg1High = bits(Op1_sw, 31, 16); + int64_t arg2Low = bits(Op2_sw, 15, 0); + int64_t arg2High = bits(Op2_sw, 31, 16); midRes = arg1Low - arg2High; if (midRes >= 0) { geBits = geBits | 0x3; @@ -736,10 +736,10 @@ let {{ buildRegDataInst("usax", ''' int32_t midRes, geBits = 0; resTemp = 0; - int64_t arg1Low = bits(Op1.sw, 15, 0); - int64_t arg1High = bits(Op1.sw, 31, 16); - int64_t arg2Low = bits(Op2.sw, 15, 0); - int64_t arg2High = bits(Op2.sw, 31, 16); + int64_t arg1Low = bits(Op1_sw, 15, 0); + int64_t arg1High = bits(Op1_sw, 31, 16); + int64_t arg2Low = bits(Op2_sw, 15, 0); + int64_t arg2High = bits(Op2_sw, 31, 16); midRes = arg1Low + arg2High; if (midRes >= 0x10000) { geBits = geBits | 0x3; @@ -801,10 +801,10 @@ let {{ buildRegDataInst("uhasx", ''' int32_t midRes; resTemp = 0; - int64_t arg1Low = bits(Op1.sw, 15, 0); - int64_t arg1High = bits(Op1.sw, 31, 16); - int64_t arg2Low = bits(Op2.sw, 15, 0); - int64_t arg2High = bits(Op2.sw, 31, 16); + int64_t arg1Low = bits(Op1_sw, 15, 0); + int64_t arg1High = bits(Op1_sw, 31, 16); + int64_t arg2Low = bits(Op2_sw, 15, 0); + int64_t arg2High = bits(Op2_sw, 31, 16); midRes = (arg1Low - arg2High) >> 1; replaceBits(resTemp, 15, 0, midRes); midRes = (arg1High + arg2Low) >> 1; @@ -814,10 +814,10 @@ let {{ buildRegDataInst("uhsax", ''' int32_t midRes; resTemp = 0; - int64_t arg1Low = bits(Op1.sw, 15, 0); - int64_t arg1High = bits(Op1.sw, 31, 16); - int64_t arg2Low = bits(Op2.sw, 15, 0); - int64_t arg2High = bits(Op2.sw, 31, 16); + int64_t arg1Low = bits(Op1_sw, 15, 0); + int64_t arg1High = bits(Op1_sw, 31, 16); + int64_t arg2Low = bits(Op2_sw, 15, 0); + int64_t arg2High = bits(Op2_sw, 31, 16); midRes = (arg1Low + arg2High) >> 1; replaceBits(resTemp, 15, 0, midRes); midRes = (arg1High - arg2Low) >> 1; diff --git a/src/arch/arm/isa/insts/div.isa b/src/arch/arm/isa/insts/div.isa index d736f9230..8a94d1ebd 100644 --- a/src/arch/arm/isa/insts/div.isa +++ b/src/arch/arm/isa/insts/div.isa @@ -39,7 +39,7 @@ let {{ sdivCode = ''' - if (Op2.sw == 0) { + if (Op2_sw == 0) { if (((SCTLR)Sctlr).dz) { #if FULL_SYSTEM return new UndefinedInstruction; @@ -47,11 +47,11 @@ let {{ return new UndefinedInstruction(false, mnemonic); #endif } - Dest.sw = 0; - } else if (Op1.sw == INT_MIN && Op2.sw == -1) { - Dest.sw = INT_MIN; + Dest_sw = 0; + } else if (Op1_sw == INT_MIN && Op2_sw == -1) { + Dest_sw = INT_MIN; } else { - Dest.sw = Op1.sw / Op2.sw; + Dest_sw = Op1_sw / Op2_sw; } ''' sdivIop = InstObjParams("sdiv", "Sdiv", "RegRegRegOp", @@ -63,7 +63,7 @@ let {{ exec_output = PredOpExecute.subst(sdivIop) udivCode = ''' - if (Op2.uw == 0) { + if (Op2_uw == 0) { if (((SCTLR)Sctlr).dz) { #if FULL_SYSTEM return new UndefinedInstruction; @@ -71,9 +71,9 @@ let {{ return new UndefinedInstruction(false, mnemonic); #endif } - Dest.uw = 0; + Dest_uw = 0; } else { - Dest.uw = Op1.uw / Op2.uw; + Dest_uw = Op1_uw / Op2_uw; } ''' udivIop = InstObjParams("udiv", "Udiv", "RegRegRegOp", diff --git a/src/arch/arm/isa/insts/fp.isa b/src/arch/arm/isa/insts/fp.isa index 73b3aa50e..f82858bbd 100644 --- a/src/arch/arm/isa/insts/fp.isa +++ b/src/arch/arm/isa/insts/fp.isa @@ -250,7 +250,7 @@ let {{ exec_output += PredOpExecute.subst(vmrsApsrFpscrIop); vmovImmSCode = vfpEnabledCheckCode + ''' - FpDest.uw = bits(imm, 31, 0); + FpDest_uw = bits(imm, 31, 0); ''' vmovImmSIop = InstObjParams("vmov", "VmovImmS", "FpRegImmOp", { "code": vmovImmSCode, @@ -261,8 +261,8 @@ let {{ exec_output += PredOpExecute.subst(vmovImmSIop); vmovImmDCode = vfpEnabledCheckCode + ''' - FpDestP0.uw = bits(imm, 31, 0); - FpDestP1.uw = bits(imm, 63, 32); + FpDestP0_uw = bits(imm, 31, 0); + FpDestP1_uw = bits(imm, 63, 32); ''' vmovImmDIop = InstObjParams("vmov", "VmovImmD", "FpRegImmOp", { "code": vmovImmDCode, @@ -273,10 +273,10 @@ let {{ exec_output += PredOpExecute.subst(vmovImmDIop); vmovImmQCode = vfpEnabledCheckCode + ''' - FpDestP0.uw = bits(imm, 31, 0); - FpDestP1.uw = bits(imm, 63, 32); - FpDestP2.uw = bits(imm, 31, 0); - FpDestP3.uw = bits(imm, 63, 32); + FpDestP0_uw = bits(imm, 31, 0); + FpDestP1_uw = bits(imm, 63, 32); + FpDestP2_uw = bits(imm, 31, 0); + FpDestP3_uw = bits(imm, 63, 32); ''' vmovImmQIop = InstObjParams("vmov", "VmovImmQ", "FpRegImmOp", { "code": vmovImmQCode, @@ -287,7 +287,7 @@ let {{ exec_output += PredOpExecute.subst(vmovImmQIop); vmovRegSCode = vfpEnabledCheckCode + ''' - FpDest.uw = FpOp1.uw; + FpDest_uw = FpOp1_uw; ''' vmovRegSIop = InstObjParams("vmov", "VmovRegS", "FpRegRegOp", { "code": vmovRegSCode, @@ -298,8 +298,8 @@ let {{ exec_output += PredOpExecute.subst(vmovRegSIop); vmovRegDCode = vfpEnabledCheckCode + ''' - FpDestP0.uw = FpOp1P0.uw; - FpDestP1.uw = FpOp1P1.uw; + FpDestP0_uw = FpOp1P0_uw; + FpDestP1_uw = FpOp1P1_uw; ''' vmovRegDIop = InstObjParams("vmov", "VmovRegD", "FpRegRegOp", { "code": vmovRegDCode, @@ -310,10 +310,10 @@ let {{ exec_output += PredOpExecute.subst(vmovRegDIop); vmovRegQCode = vfpEnabledCheckCode + ''' - FpDestP0.uw = FpOp1P0.uw; - FpDestP1.uw = FpOp1P1.uw; - FpDestP2.uw = FpOp1P2.uw; - FpDestP3.uw = FpOp1P3.uw; + FpDestP0_uw = FpOp1P0_uw; + FpDestP1_uw = FpOp1P1_uw; + FpDestP2_uw = FpOp1P2_uw; + FpDestP3_uw = FpOp1P3_uw; ''' vmovRegQIop = InstObjParams("vmov", "VmovRegQ", "FpRegRegOp", { "code": vmovRegQCode, @@ -324,7 +324,7 @@ let {{ exec_output += PredOpExecute.subst(vmovRegQIop); vmovCoreRegBCode = vfpEnabledCheckCode + ''' - FpDest.uw = insertBits(FpDest.uw, imm * 8 + 7, imm * 8, Op1.ub); + FpDest_uw = insertBits(FpDest_uw, imm * 8 + 7, imm * 8, Op1_ub); ''' vmovCoreRegBIop = InstObjParams("vmov", "VmovCoreRegB", "FpRegRegImmOp", { "code": vmovCoreRegBCode, @@ -335,7 +335,7 @@ let {{ exec_output += PredOpExecute.subst(vmovCoreRegBIop); vmovCoreRegHCode = vfpEnabledCheckCode + ''' - FpDest.uw = insertBits(FpDest.uw, imm * 16 + 15, imm * 16, Op1.uh); + FpDest_uw = insertBits(FpDest_uw, imm * 16 + 15, imm * 16, Op1_uh); ''' vmovCoreRegHIop = InstObjParams("vmov", "VmovCoreRegH", "FpRegRegImmOp", { "code": vmovCoreRegHCode, @@ -346,7 +346,7 @@ let {{ exec_output += PredOpExecute.subst(vmovCoreRegHIop); vmovCoreRegWCode = vfpEnabledCheckCode + ''' - FpDest.uw = Op1.uw; + FpDest_uw = Op1_uw; ''' vmovCoreRegWIop = InstObjParams("vmov", "VmovCoreRegW", "FpRegRegOp", { "code": vmovCoreRegWCode, @@ -358,7 +358,7 @@ let {{ vmovRegCoreUBCode = vfpEnabledCheckCode + ''' assert(imm < 4); - Dest = bits(FpOp1.uw, imm * 8 + 7, imm * 8); + Dest = bits(FpOp1_uw, imm * 8 + 7, imm * 8); ''' vmovRegCoreUBIop = InstObjParams("vmov", "VmovRegCoreUB", "FpRegRegImmOp", { "code": vmovRegCoreUBCode, @@ -370,7 +370,7 @@ let {{ vmovRegCoreUHCode = vfpEnabledCheckCode + ''' assert(imm < 2); - Dest = bits(FpOp1.uw, imm * 16 + 15, imm * 16); + Dest = bits(FpOp1_uw, imm * 16 + 15, imm * 16); ''' vmovRegCoreUHIop = InstObjParams("vmov", "VmovRegCoreUH", "FpRegRegImmOp", { "code": vmovRegCoreUHCode, @@ -382,7 +382,7 @@ let {{ vmovRegCoreSBCode = vfpEnabledCheckCode + ''' assert(imm < 4); - Dest = sext<8>(bits(FpOp1.uw, imm * 8 + 7, imm * 8)); + Dest = sext<8>(bits(FpOp1_uw, imm * 8 + 7, imm * 8)); ''' vmovRegCoreSBIop = InstObjParams("vmov", "VmovRegCoreSB", "FpRegRegImmOp", { "code": vmovRegCoreSBCode, @@ -394,7 +394,7 @@ let {{ vmovRegCoreSHCode = vfpEnabledCheckCode + ''' assert(imm < 2); - Dest = sext<16>(bits(FpOp1.uw, imm * 16 + 15, imm * 16)); + Dest = sext<16>(bits(FpOp1_uw, imm * 16 + 15, imm * 16)); ''' vmovRegCoreSHIop = InstObjParams("vmov", "VmovRegCoreSH", "FpRegRegImmOp", { "code": vmovRegCoreSHCode, @@ -405,7 +405,7 @@ let {{ exec_output += PredOpExecute.subst(vmovRegCoreSHIop); vmovRegCoreWCode = vfpEnabledCheckCode + ''' - Dest = FpOp1.uw; + Dest = FpOp1_uw; ''' vmovRegCoreWIop = InstObjParams("vmov", "VmovRegCoreW", "FpRegRegOp", { "code": vmovRegCoreWCode, @@ -416,8 +416,8 @@ let {{ exec_output += PredOpExecute.subst(vmovRegCoreWIop); vmov2Reg2CoreCode = vfpEnabledCheckCode + ''' - FpDestP0.uw = Op1.uw; - FpDestP1.uw = Op2.uw; + FpDestP0_uw = Op1_uw; + FpDestP1_uw = Op2_uw; ''' vmov2Reg2CoreIop = InstObjParams("vmov", "Vmov2Reg2Core", "FpRegRegRegOp", { "code": vmov2Reg2CoreCode, @@ -428,8 +428,8 @@ let {{ exec_output += PredOpExecute.subst(vmov2Reg2CoreIop); vmov2Core2RegCode = vfpEnabledCheckCode + ''' - Dest.uw = FpOp2P0.uw; - Op1.uw = FpOp2P1.uw; + Dest_uw = FpOp2P0_uw; + Op1_uw = FpOp2P1_uw; ''' vmov2Core2RegIop = InstObjParams("vmov", "Vmov2Core2Reg", "FpRegRegRegOp", { "code": vmov2Core2RegCode, @@ -459,17 +459,17 @@ let {{ doubleCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; double dest = %(op)s; - FpDestP0.uw = dblLow(dest); - FpDestP1.uw = dblHi(dest); + FpDestP0_uw = dblLow(dest); + FpDestP1_uw = dblHi(dest); FpscrExc = fpscr; ''' doubleBinOp = ''' - binaryOp(fpscr, dbl(FpOp1P0.uw, FpOp1P1.uw), - dbl(FpOp2P0.uw, FpOp2P1.uw), + binaryOp(fpscr, dbl(FpOp1P0_uw, FpOp1P1_uw), + dbl(FpOp2P0_uw, FpOp2P1_uw), %(func)s, fpscr.fz, fpscr.dn, fpscr.rMode); ''' doubleUnaryOp = ''' - unaryOp(fpscr, dbl(FpOp1P0.uw, FpOp1P1.uw), %(func)s, + unaryOp(fpscr, dbl(FpOp1P0_uw, FpOp1P1_uw), %(func)s, fpscr.fz, fpscr.rMode) ''' @@ -559,9 +559,9 @@ let {{ exec_output += PredOpExecute.subst(iop) buildSimpleUnaryFpOp("vneg", "Vneg", "FpRegRegOp", "SimdFloatMiscOp", - "-FpOp1", "-dbl(FpOp1P0.uw, FpOp1P1.uw)") + "-FpOp1", "-dbl(FpOp1P0_uw, FpOp1P1_uw)") buildSimpleUnaryFpOp("vabs", "Vabs", "FpRegRegOp", "SimdFloatMiscOp", - "fabsf(FpOp1)", "fabs(dbl(FpOp1P0.uw, FpOp1P1.uw))") + "fabsf(FpOp1)", "fabs(dbl(FpOp1P0_uw, FpOp1P1_uw))") }}; let {{ @@ -588,14 +588,14 @@ let {{ vmlaDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double mid = binaryOp(fpscr, dbl(FpOp1P0.uw, FpOp1P1.uw), - dbl(FpOp2P0.uw, FpOp2P1.uw), + double mid = binaryOp(fpscr, dbl(FpOp1P0_uw, FpOp1P1_uw), + dbl(FpOp2P0_uw, FpOp2P1_uw), fpMulD, fpscr.fz, fpscr.dn, fpscr.rMode); - double dest = binaryOp(fpscr, dbl(FpDestP0.uw, FpDestP1.uw), + double dest = binaryOp(fpscr, dbl(FpDestP0_uw, FpDestP1_uw), mid, fpAddD, fpscr.fz, fpscr.dn, fpscr.rMode); - FpDestP0.uw = dblLow(dest); - FpDestP1.uw = dblHi(dest); + FpDestP0_uw = dblLow(dest); + FpDestP1_uw = dblHi(dest); FpscrExc = fpscr; ''' vmlaDIop = InstObjParams("vmlad", "VmlaD", "FpRegRegRegOp", @@ -624,14 +624,14 @@ let {{ vmlsDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double mid = binaryOp(fpscr, dbl(FpOp1P0.uw, FpOp1P1.uw), - dbl(FpOp2P0.uw, FpOp2P1.uw), + double mid = binaryOp(fpscr, dbl(FpOp1P0_uw, FpOp1P1_uw), + dbl(FpOp2P0_uw, FpOp2P1_uw), fpMulD, fpscr.fz, fpscr.dn, fpscr.rMode); - double dest = binaryOp(fpscr, dbl(FpDestP0.uw, FpDestP1.uw), + double dest = binaryOp(fpscr, dbl(FpDestP0_uw, FpDestP1_uw), -mid, fpAddD, fpscr.fz, fpscr.dn, fpscr.rMode); - FpDestP0.uw = dblLow(dest); - FpDestP1.uw = dblHi(dest); + FpDestP0_uw = dblLow(dest); + FpDestP1_uw = dblHi(dest); FpscrExc = fpscr; ''' vmlsDIop = InstObjParams("vmlsd", "VmlsD", "FpRegRegRegOp", @@ -660,14 +660,14 @@ let {{ vnmlaDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double mid = binaryOp(fpscr, dbl(FpOp1P0.uw, FpOp1P1.uw), - dbl(FpOp2P0.uw, FpOp2P1.uw), + double mid = binaryOp(fpscr, dbl(FpOp1P0_uw, FpOp1P1_uw), + dbl(FpOp2P0_uw, FpOp2P1_uw), fpMulD, fpscr.fz, fpscr.dn, fpscr.rMode); - double dest = binaryOp(fpscr, -dbl(FpDestP0.uw, FpDestP1.uw), + double dest = binaryOp(fpscr, -dbl(FpDestP0_uw, FpDestP1_uw), -mid, fpAddD, fpscr.fz, fpscr.dn, fpscr.rMode); - FpDestP0.uw = dblLow(dest); - FpDestP1.uw = dblHi(dest); + FpDestP0_uw = dblLow(dest); + FpDestP1_uw = dblHi(dest); FpscrExc = fpscr; ''' vnmlaDIop = InstObjParams("vnmlad", "VnmlaD", "FpRegRegRegOp", @@ -696,14 +696,14 @@ let {{ vnmlsDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double mid = binaryOp(fpscr, dbl(FpOp1P0.uw, FpOp1P1.uw), - dbl(FpOp2P0.uw, FpOp2P1.uw), + double mid = binaryOp(fpscr, dbl(FpOp1P0_uw, FpOp1P1_uw), + dbl(FpOp2P0_uw, FpOp2P1_uw), fpMulD, fpscr.fz, fpscr.dn, fpscr.rMode); - double dest = binaryOp(fpscr, -dbl(FpDestP0.uw, FpDestP1.uw), + double dest = binaryOp(fpscr, -dbl(FpDestP0_uw, FpDestP1_uw), mid, fpAddD, fpscr.fz, fpscr.dn, fpscr.rMode); - FpDestP0.uw = dblLow(dest); - FpDestP1.uw = dblHi(dest); + FpDestP0_uw = dblLow(dest); + FpDestP1_uw = dblHi(dest); FpscrExc = fpscr; ''' vnmlsDIop = InstObjParams("vnmlsd", "VnmlsD", "FpRegRegRegOp", @@ -730,12 +730,12 @@ let {{ vnmulDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double dest = -binaryOp(fpscr, dbl(FpOp1P0.uw, FpOp1P1.uw), - dbl(FpOp2P0.uw, FpOp2P1.uw), + double dest = -binaryOp(fpscr, dbl(FpOp1P0_uw, FpOp1P1_uw), + dbl(FpOp2P0_uw, FpOp2P1_uw), fpMulD, fpscr.fz, fpscr.dn, fpscr.rMode); - FpDestP0.uw = dblLow(dest); - FpDestP1.uw = dblHi(dest); + FpDestP0_uw = dblLow(dest); + FpDestP1_uw = dblHi(dest); FpscrExc = fpscr; ''' vnmulDIop = InstObjParams("vnmuld", "VnmulD", "FpRegRegRegOp", @@ -756,8 +756,8 @@ let {{ vcvtUIntFpSCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1.uw) : "m" (FpOp1.uw)); - FpDest = FpOp1.uw; + __asm__ __volatile__("" : "=m" (FpOp1_uw) : "m" (FpOp1_uw)); + FpDest = FpOp1_uw; __asm__ __volatile__("" :: "m" (FpDest)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; @@ -773,12 +773,12 @@ let {{ vcvtUIntFpDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1P0.uw) : "m" (FpOp1P0.uw)); - double cDest = (uint64_t)FpOp1P0.uw; + __asm__ __volatile__("" : "=m" (FpOp1P0_uw) : "m" (FpOp1P0_uw)); + double cDest = (uint64_t)FpOp1P0_uw; __asm__ __volatile__("" :: "m" (cDest)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = dblLow(cDest); - FpDestP1.uw = dblHi(cDest); + FpDestP0_uw = dblLow(cDest); + FpDestP1_uw = dblHi(cDest); FpscrExc = fpscr; ''' vcvtUIntFpDIop = InstObjParams("vcvt", "VcvtUIntFpD", "FpRegRegOp", @@ -792,8 +792,8 @@ let {{ vcvtSIntFpSCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1.sw) : "m" (FpOp1.sw)); - FpDest = FpOp1.sw; + __asm__ __volatile__("" : "=m" (FpOp1_sw) : "m" (FpOp1_sw)); + FpDest = FpOp1_sw; __asm__ __volatile__("" :: "m" (FpDest)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; @@ -809,12 +809,12 @@ let {{ vcvtSIntFpDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1P0.sw) : "m" (FpOp1P0.sw)); - double cDest = FpOp1P0.sw; + __asm__ __volatile__("" : "=m" (FpOp1P0_sw) : "m" (FpOp1P0_sw)); + double cDest = FpOp1P0_sw; __asm__ __volatile__("" :: "m" (cDest)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = dblLow(cDest); - FpDestP1.uw = dblHi(cDest); + FpDestP0_uw = dblLow(cDest); + FpDestP1_uw = dblHi(cDest); FpscrExc = fpscr; ''' vcvtSIntFpDIop = InstObjParams("vcvt", "VcvtSIntFpD", "FpRegRegOp", @@ -830,8 +830,8 @@ let {{ VfpSavedState state = prepFpState(fpscr.rMode); vfpFlushToZero(fpscr, FpOp1); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.uw = vfpFpSToFixed(FpOp1, false, false, 0, false); - __asm__ __volatile__("" :: "m" (FpDest.uw)); + FpDest_uw = vfpFpSToFixed(FpOp1, false, false, 0, false); + __asm__ __volatile__("" :: "m" (FpDest_uw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -845,14 +845,14 @@ let {{ vcvtFpUIntDRCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (cOp1) : "m" (cOp1)); uint64_t result = vfpFpDToFixed(cOp1, false, false, 0, false); __asm__ __volatile__("" :: "m" (result)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = result; + FpDestP0_uw = result; FpscrExc = fpscr; ''' vcvtFpUIntDRIop = InstObjParams("vcvtr", "VcvtFpUIntDR", "FpRegRegOp", @@ -868,8 +868,8 @@ let {{ VfpSavedState state = prepFpState(fpscr.rMode); vfpFlushToZero(fpscr, FpOp1); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.sw = vfpFpSToFixed(FpOp1, true, false, 0, false); - __asm__ __volatile__("" :: "m" (FpDest.sw)); + FpDest_sw = vfpFpSToFixed(FpOp1, true, false, 0, false); + __asm__ __volatile__("" :: "m" (FpDest_sw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -883,14 +883,14 @@ let {{ vcvtFpSIntDRCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (cOp1) : "m" (cOp1)); int64_t result = vfpFpDToFixed(cOp1, true, false, 0, false); __asm__ __volatile__("" :: "m" (result)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = result; + FpDestP0_uw = result; FpscrExc = fpscr; ''' vcvtFpSIntDRIop = InstObjParams("vcvtr", "VcvtFpSIntDR", "FpRegRegOp", @@ -907,8 +907,8 @@ let {{ VfpSavedState state = prepFpState(fpscr.rMode); fesetround(FeRoundZero); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.uw = vfpFpSToFixed(FpOp1, false, false, 0); - __asm__ __volatile__("" :: "m" (FpDest.uw)); + FpDest_uw = vfpFpSToFixed(FpOp1, false, false, 0); + __asm__ __volatile__("" :: "m" (FpDest_uw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -922,7 +922,7 @@ let {{ vcvtFpUIntDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); fesetround(FeRoundZero); @@ -930,7 +930,7 @@ let {{ uint64_t result = vfpFpDToFixed(cOp1, false, false, 0); __asm__ __volatile__("" :: "m" (result)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = result; + FpDestP0_uw = result; FpscrExc = fpscr; ''' vcvtFpUIntDIop = InstObjParams("vcvt", "VcvtFpUIntD", "FpRegRegOp", @@ -947,8 +947,8 @@ let {{ VfpSavedState state = prepFpState(fpscr.rMode); fesetround(FeRoundZero); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.sw = vfpFpSToFixed(FpOp1, true, false, 0); - __asm__ __volatile__("" :: "m" (FpDest.sw)); + FpDest_sw = vfpFpSToFixed(FpOp1, true, false, 0); + __asm__ __volatile__("" :: "m" (FpDest_sw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -962,7 +962,7 @@ let {{ vcvtFpSIntDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); fesetround(FeRoundZero); @@ -970,7 +970,7 @@ let {{ int64_t result = vfpFpDToFixed(cOp1, true, false, 0); __asm__ __volatile__("" :: "m" (result)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = result; + FpDestP0_uw = result; FpscrExc = fpscr; ''' vcvtFpSIntDIop = InstObjParams("vcvt", "VcvtFpSIntD", "FpRegRegOp", @@ -989,8 +989,8 @@ let {{ double cDest = fixFpSFpDDest(FpscrExc, FpOp1); __asm__ __volatile__("" :: "m" (cDest)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = dblLow(cDest); - FpDestP1.uw = dblHi(cDest); + FpDestP0_uw = dblLow(cDest); + FpDestP1_uw = dblHi(cDest); FpscrExc = fpscr; ''' vcvtFpSFpDIop = InstObjParams("vcvt", "VcvtFpSFpD", "FpRegRegOp", @@ -1003,7 +1003,7 @@ let {{ vcvtFpDFpSCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (cOp1) : "m" (cOp1)); @@ -1061,12 +1061,12 @@ let {{ FPSCR fpscr = (FPSCR) FpscrExc; vfpFlushToZero(fpscr, FpOp1); VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1), "=m" (FpDest.uw) - : "m" (FpOp1), "m" (FpDest.uw)); - FpDest.uw = insertBits(FpDest.uw, 31, 16,, + __asm__ __volatile__("" : "=m" (FpOp1), "=m" (FpDest_uw) + : "m" (FpOp1), "m" (FpDest_uw)); + FpDest_uw = insertBits(FpDest_uw, 31, 16,, vcvtFpSFpH(fpscr, fpscr.fz, fpscr.dn, fpscr.rMode, fpscr.ahp, FpOp1)); - __asm__ __volatile__("" :: "m" (FpDest.uw)); + __asm__ __volatile__("" :: "m" (FpDest_uw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -1082,12 +1082,12 @@ let {{ FPSCR fpscr = (FPSCR) FpscrExc; vfpFlushToZero(fpscr, FpOp1); VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1), "=m" (FpDest.uw) - : "m" (FpOp1), "m" (FpDest.uw)); - FpDest.uw = insertBits(FpDest.uw, 15, 0, + __asm__ __volatile__("" : "=m" (FpOp1), "=m" (FpDest_uw) + : "m" (FpOp1), "m" (FpDest_uw)); + FpDest_uw = insertBits(FpDest_uw, 15, 0, vcvtFpSFpH(fpscr, fpscr.fz, fpscr.dn, fpscr.rMode, fpscr.ahp, FpOp1)); - __asm__ __volatile__("" :: "m" (FpDest.uw)); + __asm__ __volatile__("" :: "m" (FpDest_uw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -1130,8 +1130,8 @@ let {{ exec_output += PredOpExecute.subst(vcmpSIop); vcmpDCode = vfpEnabledCheckCode + ''' - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); - double cDest = dbl(FpDestP0.uw, FpDestP1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); + double cDest = dbl(FpDestP0_uw, FpDestP1_uw); FPSCR fpscr = (FPSCR) FpscrExc; vfpFlushToZero(fpscr, cDest, cOp1); if (cDest == cOp1) { @@ -1194,7 +1194,7 @@ let {{ vcmpZeroDCode = vfpEnabledCheckCode + ''' // This only handles imm == 0 for now. assert(imm == 0); - double cDest = dbl(FpDestP0.uw, FpDestP1.uw); + double cDest = dbl(FpDestP0_uw, FpDestP1_uw); FPSCR fpscr = (FPSCR) FpscrExc; vfpFlushToZero(fpscr, cDest); if (cDest == imm) { @@ -1247,8 +1247,8 @@ let {{ exec_output += PredOpExecute.subst(vcmpeSIop); vcmpeDCode = vfpEnabledCheckCode + ''' - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); - double cDest = dbl(FpDestP0.uw, FpDestP1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); + double cDest = dbl(FpDestP0_uw, FpDestP1_uw); FPSCR fpscr = (FPSCR) FpscrExc; vfpFlushToZero(fpscr, cDest, cOp1); if (cDest == cOp1) { @@ -1297,7 +1297,7 @@ let {{ exec_output += PredOpExecute.subst(vcmpeZeroSIop); vcmpeZeroDCode = vfpEnabledCheckCode + ''' - double cDest = dbl(FpDestP0.uw, FpDestP1.uw); + double cDest = dbl(FpDestP0_uw, FpDestP1_uw); FPSCR fpscr = (FPSCR) FpscrExc; vfpFlushToZero(fpscr, cDest); if (cDest == imm) { @@ -1333,8 +1333,8 @@ let {{ vfpFlushToZero(fpscr, FpOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.sw = vfpFpSToFixed(FpOp1, true, false, imm); - __asm__ __volatile__("" :: "m" (FpDest.sw)); + FpDest_sw = vfpFpSToFixed(FpOp1, true, false, imm); + __asm__ __volatile__("" :: "m" (FpDest_sw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -1348,15 +1348,15 @@ let {{ vcvtFpSFixedDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (cOp1) : "m" (cOp1)); uint64_t mid = vfpFpDToFixed(cOp1, true, false, imm); __asm__ __volatile__("" :: "m" (mid)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = mid; - FpDestP1.uw = mid >> 32; + FpDestP0_uw = mid; + FpDestP1_uw = mid >> 32; FpscrExc = fpscr; ''' vcvtFpSFixedDIop = InstObjParams("vcvt", "VcvtFpSFixedD", "FpRegRegImmOp", @@ -1372,8 +1372,8 @@ let {{ vfpFlushToZero(fpscr, FpOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.uw = vfpFpSToFixed(FpOp1, false, false, imm); - __asm__ __volatile__("" :: "m" (FpDest.uw)); + FpDest_uw = vfpFpSToFixed(FpOp1, false, false, imm); + __asm__ __volatile__("" :: "m" (FpDest_uw)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -1387,15 +1387,15 @@ let {{ vcvtFpUFixedDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (cOp1) : "m" (cOp1)); uint64_t mid = vfpFpDToFixed(cOp1, false, false, imm); __asm__ __volatile__("" :: "m" (mid)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = mid; - FpDestP1.uw = mid >> 32; + FpDestP0_uw = mid; + FpDestP1_uw = mid >> 32; FpscrExc = fpscr; ''' vcvtFpUFixedDIop = InstObjParams("vcvt", "VcvtFpUFixedD", "FpRegRegImmOp", @@ -1409,8 +1409,8 @@ let {{ vcvtSFixedFpSCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1.sw) : "m" (FpOp1.sw)); - FpDest = vfpSFixedToFpS(fpscr.fz, fpscr.dn, FpOp1.sw, false, imm); + __asm__ __volatile__("" : "=m" (FpOp1_sw) : "m" (FpOp1_sw)); + FpDest = vfpSFixedToFpS(fpscr.fz, fpscr.dn, FpOp1_sw, false, imm); __asm__ __volatile__("" :: "m" (FpDest)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; @@ -1425,14 +1425,14 @@ let {{ vcvtSFixedFpDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - uint64_t mid = ((uint64_t)FpOp1P0.uw | ((uint64_t)FpOp1P1.uw << 32)); + uint64_t mid = ((uint64_t)FpOp1P0_uw | ((uint64_t)FpOp1P1_uw << 32)); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (mid) : "m" (mid)); double cDest = vfpSFixedToFpD(fpscr.fz, fpscr.dn, mid, false, imm); __asm__ __volatile__("" :: "m" (cDest)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = dblLow(cDest); - FpDestP1.uw = dblHi(cDest); + FpDestP0_uw = dblLow(cDest); + FpDestP1_uw = dblHi(cDest); FpscrExc = fpscr; ''' vcvtSFixedFpDIop = InstObjParams("vcvt", "VcvtSFixedFpD", "FpRegRegImmOp", @@ -1446,8 +1446,8 @@ let {{ vcvtUFixedFpSCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1.uw) : "m" (FpOp1.uw)); - FpDest = vfpUFixedToFpS(fpscr.fz, fpscr.dn, FpOp1.uw, false, imm); + __asm__ __volatile__("" : "=m" (FpOp1_uw) : "m" (FpOp1_uw)); + FpDest = vfpUFixedToFpS(fpscr.fz, fpscr.dn, FpOp1_uw, false, imm); __asm__ __volatile__("" :: "m" (FpDest)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; @@ -1462,14 +1462,14 @@ let {{ vcvtUFixedFpDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - uint64_t mid = ((uint64_t)FpOp1P0.uw | ((uint64_t)FpOp1P1.uw << 32)); + uint64_t mid = ((uint64_t)FpOp1P0_uw | ((uint64_t)FpOp1P1_uw << 32)); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (mid) : "m" (mid)); double cDest = vfpUFixedToFpD(fpscr.fz, fpscr.dn, mid, false, imm); __asm__ __volatile__("" :: "m" (cDest)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = dblLow(cDest); - FpDestP1.uw = dblHi(cDest); + FpDestP0_uw = dblLow(cDest); + FpDestP1_uw = dblHi(cDest); FpscrExc = fpscr; ''' vcvtUFixedFpDIop = InstObjParams("vcvt", "VcvtUFixedFpD", "FpRegRegImmOp", @@ -1485,8 +1485,8 @@ let {{ vfpFlushToZero(fpscr, FpOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.sh = vfpFpSToFixed(FpOp1, true, true, imm); - __asm__ __volatile__("" :: "m" (FpDest.sh)); + FpDest_sh = vfpFpSToFixed(FpOp1, true, true, imm); + __asm__ __volatile__("" :: "m" (FpDest_sh)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -1501,15 +1501,15 @@ let {{ vcvtFpSHFixedDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (cOp1) : "m" (cOp1)); uint64_t result = vfpFpDToFixed(cOp1, true, true, imm); __asm__ __volatile__("" :: "m" (result)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = result; - FpDestP1.uw = result >> 32; + FpDestP0_uw = result; + FpDestP1_uw = result >> 32; FpscrExc = fpscr; ''' vcvtFpSHFixedDIop = InstObjParams("vcvt", "VcvtFpSHFixedD", @@ -1526,8 +1526,8 @@ let {{ vfpFlushToZero(fpscr, FpOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (FpOp1) : "m" (FpOp1)); - FpDest.uh = vfpFpSToFixed(FpOp1, false, true, imm); - __asm__ __volatile__("" :: "m" (FpDest.uh)); + FpDest_uh = vfpFpSToFixed(FpOp1, false, true, imm); + __asm__ __volatile__("" :: "m" (FpDest_uh)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; ''' @@ -1542,15 +1542,15 @@ let {{ vcvtFpUHFixedDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - double cOp1 = dbl(FpOp1P0.uw, FpOp1P1.uw); + double cOp1 = dbl(FpOp1P0_uw, FpOp1P1_uw); vfpFlushToZero(fpscr, cOp1); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (cOp1) : "m" (cOp1)); uint64_t mid = vfpFpDToFixed(cOp1, false, true, imm); __asm__ __volatile__("" :: "m" (mid)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = mid; - FpDestP1.uw = mid >> 32; + FpDestP0_uw = mid; + FpDestP1_uw = mid >> 32; FpscrExc = fpscr; ''' vcvtFpUHFixedDIop = InstObjParams("vcvt", "VcvtFpUHFixedD", @@ -1565,8 +1565,8 @@ let {{ vcvtSHFixedFpSCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1.sh) : "m" (FpOp1.sh)); - FpDest = vfpSFixedToFpS(fpscr.fz, fpscr.dn, FpOp1.sh, true, imm); + __asm__ __volatile__("" : "=m" (FpOp1_sh) : "m" (FpOp1_sh)); + FpDest = vfpSFixedToFpS(fpscr.fz, fpscr.dn, FpOp1_sh, true, imm); __asm__ __volatile__("" :: "m" (FpDest)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; @@ -1582,14 +1582,14 @@ let {{ vcvtSHFixedFpDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - uint64_t mid = ((uint64_t)FpOp1P0.uw | ((uint64_t)FpOp1P1.uw << 32)); + uint64_t mid = ((uint64_t)FpOp1P0_uw | ((uint64_t)FpOp1P1_uw << 32)); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (mid) : "m" (mid)); double cDest = vfpSFixedToFpD(fpscr.fz, fpscr.dn, mid, true, imm); __asm__ __volatile__("" :: "m" (cDest)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = dblLow(cDest); - FpDestP1.uw = dblHi(cDest); + FpDestP0_uw = dblLow(cDest); + FpDestP1_uw = dblHi(cDest); FpscrExc = fpscr; ''' vcvtSHFixedFpDIop = InstObjParams("vcvt", "VcvtSHFixedFpD", @@ -1604,8 +1604,8 @@ let {{ vcvtUHFixedFpSCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; VfpSavedState state = prepFpState(fpscr.rMode); - __asm__ __volatile__("" : "=m" (FpOp1.uh) : "m" (FpOp1.uh)); - FpDest = vfpUFixedToFpS(fpscr.fz, fpscr.dn, FpOp1.uh, true, imm); + __asm__ __volatile__("" : "=m" (FpOp1_uh) : "m" (FpOp1_uh)); + FpDest = vfpUFixedToFpS(fpscr.fz, fpscr.dn, FpOp1_uh, true, imm); __asm__ __volatile__("" :: "m" (FpDest)); finishVfp(fpscr, state, fpscr.fz); FpscrExc = fpscr; @@ -1621,14 +1621,14 @@ let {{ vcvtUHFixedFpDCode = vfpEnabledCheckCode + ''' FPSCR fpscr = (FPSCR) FpscrExc; - uint64_t mid = ((uint64_t)FpOp1P0.uw | ((uint64_t)FpOp1P1.uw << 32)); + uint64_t mid = ((uint64_t)FpOp1P0_uw | ((uint64_t)FpOp1P1_uw << 32)); VfpSavedState state = prepFpState(fpscr.rMode); __asm__ __volatile__("" : "=m" (mid) : "m" (mid)); double cDest = vfpUFixedToFpD(fpscr.fz, fpscr.dn, mid, true, imm); __asm__ __volatile__("" :: "m" (cDest)); finishVfp(fpscr, state, fpscr.fz); - FpDestP0.uw = dblLow(cDest); - FpDestP1.uw = dblHi(cDest); + FpDestP0_uw = dblLow(cDest); + FpDestP1_uw = dblHi(cDest); FpscrExc = fpscr; ''' vcvtUHFixedFpDIop = InstObjParams("vcvt", "VcvtUHFixedFpD", diff --git a/src/arch/arm/isa/insts/ldr.isa b/src/arch/arm/isa/insts/ldr.isa index 4c8bfd612..f599fa4b9 100644 --- a/src/arch/arm/isa/insts/ldr.isa +++ b/src/arch/arm/isa/insts/ldr.isa @@ -111,8 +111,8 @@ let {{ cpsr.v = CondCodesV; cpsr.ge = CondCodesGE; URc = cpsr; - URa = cSwap(Mem.ud, cpsr.e); - URb = cSwap(Mem.ud >> 32, cpsr.e); + URa = cSwap(Mem_ud, cpsr.e); + URb = cSwap(Mem_ud >> 32, cpsr.e); ''' self.codeBlobs["memacc_code"] = accCode @@ -196,7 +196,7 @@ let {{ if self.flavor == "dprefetch" or self.flavor == "iprefetch": accCode = 'uint64_t temp = Mem%s; temp = temp;' elif self.flavor == "fp": - accCode = "FpDest.uw = cSwap(Mem%s, ((CPSR)Cpsr).e);\n" + accCode = "FpDest_uw = cSwap(Mem%s, ((CPSR)Cpsr).e);\n" else: accCode = "IWDest = cSwap(Mem%s, ((CPSR)Cpsr).e);" accCode = accCode % buildMemSuffix(self.sign, self.size) @@ -260,14 +260,14 @@ let {{ if self.flavor != "fp": accCode = ''' CPSR cpsr = Cpsr; - Dest = cSwap(Mem.ud, cpsr.e); - Dest2 = cSwap(Mem.ud >> 32, cpsr.e); + Dest = cSwap(Mem_ud, cpsr.e); + Dest2 = cSwap(Mem_ud >> 32, cpsr.e); ''' else: accCode = ''' - uint64_t swappedMem = cSwap(Mem.ud, ((CPSR)Cpsr).e); - FpDest.uw = (uint32_t)swappedMem; - FpDest2.uw = (uint32_t)(swappedMem >> 32); + uint64_t swappedMem = cSwap(Mem_ud, ((CPSR)Cpsr).e); + FpDest_uw = (uint32_t)swappedMem; + FpDest2_uw = (uint32_t)(swappedMem >> 32); ''' self.codeBlobs["memacc_code"] = accCode diff --git a/src/arch/arm/isa/insts/macromem.isa b/src/arch/arm/isa/insts/macromem.isa index d5b44cd05..815d4c258 100644 --- a/src/arch/arm/isa/insts/macromem.isa +++ b/src/arch/arm/isa/insts/macromem.isa @@ -47,7 +47,7 @@ // let {{ - microLdrUopCode = "IWRa = cSwap(Mem.uw, ((CPSR)Cpsr).e);" + microLdrUopCode = "IWRa = cSwap(Mem_uw, ((CPSR)Cpsr).e);" microLdrUopIop = InstObjParams('ldr_uop', 'MicroLdrUop', 'MicroMemOp', {'memacc_code': microLdrUopCode, @@ -55,7 +55,7 @@ let {{ 'predicate_test': predicateTest}, ['IsMicroop']) - microLdrFpUopCode = "Fa.uw = cSwap(Mem.uw, ((CPSR)Cpsr).e);" + microLdrFpUopCode = "Fa_uw = cSwap(Mem_uw, ((CPSR)Cpsr).e);" microLdrFpUopIop = InstObjParams('ldrfp_uop', 'MicroLdrFpUop', 'MicroMemOp', {'memacc_code': microLdrFpUopCode, @@ -64,7 +64,7 @@ let {{ 'predicate_test': predicateTest}, ['IsMicroop']) - microLdrDBFpUopCode = "Fa.uw = cSwap(Mem.uw, ((CPSR)Cpsr).e);" + microLdrDBFpUopCode = "Fa_uw = cSwap(Mem_uw, ((CPSR)Cpsr).e);" microLdrDBFpUopIop = InstObjParams('ldrfp_uop', 'MicroLdrDBFpUop', 'MicroMemOp', {'memacc_code': microLdrFpUopCode, @@ -75,7 +75,7 @@ let {{ 'predicate_test': predicateTest}, ['IsMicroop']) - microLdrDTFpUopCode = "Fa.uw = cSwap(Mem.uw, ((CPSR)Cpsr).e);" + microLdrDTFpUopCode = "Fa_uw = cSwap(Mem_uw, ((CPSR)Cpsr).e);" microLdrDTFpUopIop = InstObjParams('ldrfp_uop', 'MicroLdrDTFpUop', 'MicroMemOp', {'memacc_code': microLdrFpUopCode, @@ -106,14 +106,14 @@ let {{ microLdrRetUopIop = InstObjParams('ldr_ret_uop', 'MicroLdrRetUop', 'MicroMemOp', {'memacc_code': - microRetUopCode % 'Mem.uw', + microRetUopCode % 'Mem_uw', 'ea_code': 'EA = URb + (up ? imm : -imm);', 'predicate_test': condPredicateTest}, ['IsMicroop','IsNonSpeculative', 'IsSerializeAfter']) - microStrUopCode = "Mem = cSwap(URa.uw, ((CPSR)Cpsr).e);" + microStrUopCode = "Mem = cSwap(URa_uw, ((CPSR)Cpsr).e);" microStrUopIop = InstObjParams('str_uop', 'MicroStrUop', 'MicroMemOp', {'memacc_code': microStrUopCode, @@ -122,7 +122,7 @@ let {{ 'predicate_test': predicateTest}, ['IsMicroop']) - microStrFpUopCode = "Mem = cSwap(Fa.uw, ((CPSR)Cpsr).e);" + microStrFpUopCode = "Mem = cSwap(Fa_uw, ((CPSR)Cpsr).e);" microStrFpUopIop = InstObjParams('strfp_uop', 'MicroStrFpUop', 'MicroMemOp', {'memacc_code': microStrFpUopCode, @@ -132,7 +132,7 @@ let {{ 'predicate_test': predicateTest}, ['IsMicroop']) - microStrDBFpUopCode = "Mem = cSwap(Fa.uw, ((CPSR)Cpsr).e);" + microStrDBFpUopCode = "Mem = cSwap(Fa_uw, ((CPSR)Cpsr).e);" microStrDBFpUopIop = InstObjParams('strfp_uop', 'MicroStrDBFpUop', 'MicroMemOp', {'memacc_code': microStrFpUopCode, @@ -144,7 +144,7 @@ let {{ 'predicate_test': predicateTest}, ['IsMicroop']) - microStrDTFpUopCode = "Mem = cSwap(Fa.uw, ((CPSR)Cpsr).e);" + microStrDTFpUopCode = "Mem = cSwap(Fa_uw, ((CPSR)Cpsr).e);" microStrDTFpUopIop = InstObjParams('strfp_uop', 'MicroStrDTFpUop', 'MicroMemOp', {'memacc_code': microStrFpUopCode, @@ -214,14 +214,14 @@ let {{ if reg == regs - 1: mask = ' & mask(%d)' % (32 - 8 * (regs * 4 - size)) regSetCode += ''' - FpDestP%(reg)d.uw = gtoh(memUnion.floatRegBits[%(reg)d])%(mask)s; + FpDestP%(reg)d_uw = gtoh(memUnion.floatRegBits[%(reg)d])%(mask)s; ''' % { "reg" : reg, "mask" : mask } # Pull everything in from registers regGetCode = '' for reg in range(regs): regGetCode += ''' - memUnion.floatRegBits[%(reg)d] = htog(FpDestP%(reg)d.uw); + memUnion.floatRegBits[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } loadMemAccCode = convCode + regSetCode @@ -293,12 +293,12 @@ let {{ unloadConv = '' for dReg in range(dRegs): loadConv += ''' - conv1.cRegs[%(sReg0)d] = htog(FpOp1P%(sReg0)d.uw); - conv1.cRegs[%(sReg1)d] = htog(FpOp1P%(sReg1)d.uw); + conv1.cRegs[%(sReg0)d] = htog(FpOp1P%(sReg0)d_uw); + conv1.cRegs[%(sReg1)d] = htog(FpOp1P%(sReg1)d_uw); ''' % { "sReg0" : (dReg * 2), "sReg1" : (dReg * 2 + 1) } unloadConv += ''' - FpDestS%(dReg)dP0.uw = gtoh(conv2.cRegs[2 * %(dReg)d + 0]); - FpDestS%(dReg)dP1.uw = gtoh(conv2.cRegs[2 * %(dReg)d + 1]); + FpDestS%(dReg)dP0_uw = gtoh(conv2.cRegs[2 * %(dReg)d + 0]); + FpDestS%(dReg)dP1_uw = gtoh(conv2.cRegs[2 * %(dReg)d + 1]); ''' % { "dReg" : dReg } microDeintNeonCode = ''' const unsigned dRegs = %(dRegs)d; @@ -339,12 +339,12 @@ let {{ unloadConv = '' for dReg in range(dRegs): loadConv += ''' - conv1.cRegs[2 * %(dReg)d + 0] = htog(FpOp1S%(dReg)dP0.uw); - conv1.cRegs[2 * %(dReg)d + 1] = htog(FpOp1S%(dReg)dP1.uw); + conv1.cRegs[2 * %(dReg)d + 0] = htog(FpOp1S%(dReg)dP0_uw); + conv1.cRegs[2 * %(dReg)d + 1] = htog(FpOp1S%(dReg)dP1_uw); ''' % { "dReg" : dReg } unloadConv += ''' - FpDestP%(sReg0)d.uw = gtoh(conv2.cRegs[%(sReg0)d]); - FpDestP%(sReg1)d.uw = gtoh(conv2.cRegs[%(sReg1)d]); + FpDestP%(sReg0)d_uw = gtoh(conv2.cRegs[%(sReg0)d]); + FpDestP%(sReg1)d_uw = gtoh(conv2.cRegs[%(sReg1)d]); ''' % { "sReg0" : (dReg * 2), "sReg1" : (dReg * 2 + 1) } microInterNeonCode = ''' const unsigned dRegs = %(dRegs)d; @@ -405,8 +405,8 @@ let {{ baseLoadRegs = '' for reg in range(sRegs): baseLoadRegs += ''' - sourceRegs.fRegs[%(reg0)d] = htog(FpOp1P%(reg0)d.uw); - sourceRegs.fRegs[%(reg1)d] = htog(FpOp1P%(reg1)d.uw); + sourceRegs.fRegs[%(reg0)d] = htog(FpOp1P%(reg0)d_uw); + sourceRegs.fRegs[%(reg1)d] = htog(FpOp1P%(reg1)d_uw); ''' % { "reg0" : (2 * reg + 0), "reg1" : (2 * reg + 1) } for dRegs in range(sRegs, 5): @@ -414,12 +414,12 @@ let {{ loadRegs = baseLoadRegs for reg in range(dRegs): loadRegs += ''' - destRegs[%(reg)d].fRegs[0] = htog(FpDestS%(reg)dP0.uw); - destRegs[%(reg)d].fRegs[1] = htog(FpDestS%(reg)dP1.uw); + destRegs[%(reg)d].fRegs[0] = htog(FpDestS%(reg)dP0_uw); + destRegs[%(reg)d].fRegs[1] = htog(FpDestS%(reg)dP1_uw); ''' % { "reg" : reg } unloadRegs += ''' - FpDestS%(reg)dP0.uw = gtoh(destRegs[%(reg)d].fRegs[0]); - FpDestS%(reg)dP1.uw = gtoh(destRegs[%(reg)d].fRegs[1]); + FpDestS%(reg)dP0_uw = gtoh(destRegs[%(reg)d].fRegs[0]); + FpDestS%(reg)dP1_uw = gtoh(destRegs[%(reg)d].fRegs[1]); ''' % { "reg" : reg } microUnpackNeonCode = ''' const unsigned perDReg = (2 * sizeof(FloatRegBits)) / @@ -460,16 +460,16 @@ let {{ loadRegs = '' for reg in range(sRegs): loadRegs += ''' - sourceRegs.fRegs[%(reg0)d] = htog(FpOp1P%(reg0)d.uw); - sourceRegs.fRegs[%(reg1)d] = htog(FpOp1P%(reg1)d.uw); + sourceRegs.fRegs[%(reg0)d] = htog(FpOp1P%(reg0)d_uw); + sourceRegs.fRegs[%(reg1)d] = htog(FpOp1P%(reg1)d_uw); ''' % { "reg0" : (2 * reg + 0), "reg1" : (2 * reg + 1) } for dRegs in range(sRegs, 5): unloadRegs = '' for reg in range(dRegs): unloadRegs += ''' - FpDestS%(reg)dP0.uw = gtoh(destRegs[%(reg)d].fRegs[0]); - FpDestS%(reg)dP1.uw = gtoh(destRegs[%(reg)d].fRegs[1]); + FpDestS%(reg)dP0_uw = gtoh(destRegs[%(reg)d].fRegs[0]); + FpDestS%(reg)dP1_uw = gtoh(destRegs[%(reg)d].fRegs[1]); ''' % { "reg" : reg } microUnpackAllNeonCode = ''' const unsigned perDReg = (2 * sizeof(FloatRegBits)) / @@ -511,16 +511,16 @@ let {{ unloadRegs = '' for reg in range(dRegs): unloadRegs += ''' - FpDestP%(reg0)d.uw = gtoh(destRegs.fRegs[%(reg0)d]); - FpDestP%(reg1)d.uw = gtoh(destRegs.fRegs[%(reg1)d]); + FpDestP%(reg0)d_uw = gtoh(destRegs.fRegs[%(reg0)d]); + FpDestP%(reg1)d_uw = gtoh(destRegs.fRegs[%(reg1)d]); ''' % { "reg0" : (2 * reg + 0), "reg1" : (2 * reg + 1) } for sRegs in range(dRegs, 5): loadRegs = '' for reg in range(sRegs): loadRegs += ''' - sourceRegs[%(reg)d].fRegs[0] = htog(FpOp1S%(reg)dP0.uw); - sourceRegs[%(reg)d].fRegs[1] = htog(FpOp1S%(reg)dP1.uw); + sourceRegs[%(reg)d].fRegs[0] = htog(FpOp1S%(reg)dP0_uw); + sourceRegs[%(reg)d].fRegs[1] = htog(FpOp1S%(reg)dP1_uw); ''' % { "reg" : reg } microPackNeonCode = ''' const unsigned perDReg = (2 * sizeof(FloatRegBits)) / diff --git a/src/arch/arm/isa/insts/mem.isa b/src/arch/arm/isa/insts/mem.isa index fb09eacb6..c39f1b14f 100644 --- a/src/arch/arm/isa/insts/mem.isa +++ b/src/arch/arm/isa/insts/mem.isa @@ -180,14 +180,14 @@ let {{ memSuffix = '' elif size == 2: if sign: - memSuffix = '.sh' + memSuffix = '_sh' else: - memSuffix = '.uh' + memSuffix = '_uh' elif size == 1: if sign: - memSuffix = '.sb' + memSuffix = '_sb' else: - memSuffix = '.ub' + memSuffix = '_ub' else: raise Exception, "Unrecognized size for access %d" % size diff --git a/src/arch/arm/isa/insts/misc.isa b/src/arch/arm/isa/insts/misc.isa index 4d8ea66a2..2cf54fcdb 100644 --- a/src/arch/arm/isa/insts/misc.isa +++ b/src/arch/arm/isa/insts/misc.isa @@ -287,7 +287,7 @@ let {{ sxtbIop = InstObjParams("sxtb", "Sxtb", "RegImmRegOp", { "code": - "Dest = sext<8>((uint8_t)(Op1.ud >> imm));", + "Dest = sext<8>((uint8_t)(Op1_ud >> imm));", "predicate_test": predicateTest }, []) header_output += RegImmRegOpDeclare.subst(sxtbIop) decoder_output += RegImmRegOpConstructor.subst(sxtbIop) @@ -296,7 +296,7 @@ let {{ sxtabIop = InstObjParams("sxtab", "Sxtab", "RegRegRegImmOp", { "code": ''' - Dest = sext<8>((uint8_t)(Op2.ud >> imm)) + + Dest = sext<8>((uint8_t)(Op2_ud >> imm)) + Op1; ''', "predicate_test": predicateTest }, []) @@ -359,7 +359,7 @@ let {{ exec_output += PredOpExecute.subst(sxtahIop) uxtbIop = InstObjParams("uxtb", "Uxtb", "RegImmRegOp", - { "code": "Dest = (uint8_t)(Op1.ud >> imm);", + { "code": "Dest = (uint8_t)(Op1_ud >> imm);", "predicate_test": predicateTest }, []) header_output += RegImmRegOpDeclare.subst(uxtbIop) decoder_output += RegImmRegOpConstructor.subst(uxtbIop) @@ -367,7 +367,7 @@ let {{ uxtabIop = InstObjParams("uxtab", "Uxtab", "RegRegRegImmOp", { "code": - "Dest = (uint8_t)(Op2.ud >> imm) + Op1;", + "Dest = (uint8_t)(Op2_ud >> imm) + Op1;", "predicate_test": predicateTest }, []) header_output += RegRegRegImmOpDeclare.subst(uxtabIop) decoder_output += RegRegRegImmOpConstructor.subst(uxtabIop) diff --git a/src/arch/arm/isa/insts/mult.isa b/src/arch/arm/isa/insts/mult.isa index fe4390956..7d084a671 100644 --- a/src/arch/arm/isa/insts/mult.isa +++ b/src/arch/arm/isa/insts/mult.isa @@ -135,29 +135,29 @@ let {{ buildMult3Inst ("mul", "Reg0 = resTemp = Reg1 * Reg2;") buildMult4InstCc ("smlabb", '''Reg0 = resTemp = sext<16>(bits(Reg1, 15, 0)) * - sext<16>(bits(Reg2.sw, 15, 0)) + - Reg3.sw; + sext<16>(bits(Reg2_sw, 15, 0)) + + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") buildMult4InstCc ("smlabt", '''Reg0 = resTemp = sext<16>(bits(Reg1, 15, 0)) * - sext<16>(bits(Reg2.sw, 31, 16)) + - Reg3.sw; + sext<16>(bits(Reg2_sw, 31, 16)) + + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") buildMult4InstCc ("smlatb", '''Reg0 = resTemp = sext<16>(bits(Reg1, 31, 16)) * - sext<16>(bits(Reg2.sw, 15, 0)) + - Reg3.sw; + sext<16>(bits(Reg2_sw, 15, 0)) + + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") buildMult4InstCc ("smlatt", '''Reg0 = resTemp = sext<16>(bits(Reg1, 31, 16)) * - sext<16>(bits(Reg2.sw, 31, 16)) + - Reg3.sw; + sext<16>(bits(Reg2_sw, 31, 16)) + + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") @@ -166,7 +166,7 @@ let {{ sext<16>(bits(Reg2, 31, 16)) + sext<16>(bits(Reg1, 15, 0)) * sext<16>(bits(Reg2, 15, 0)) + - Reg3.sw; + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") @@ -175,74 +175,74 @@ let {{ sext<16>(bits(Reg2, 15, 0)) + sext<16>(bits(Reg1, 15, 0)) * sext<16>(bits(Reg2, 31, 16)) + - Reg3.sw; + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") buildMult4Inst ("smlal", '''resTemp = sext<32>(Reg2) * sext<32>(Reg3) + - (int64_t)((Reg1.ud << 32) | Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''', "llbit") buildMult4InstUnCc("smlalbb", '''resTemp = sext<16>(bits(Reg2, 15, 0)) * sext<16>(bits(Reg3, 15, 0)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstUnCc("smlalbt", '''resTemp = sext<16>(bits(Reg2, 15, 0)) * sext<16>(bits(Reg3, 31, 16)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstUnCc("smlaltb", '''resTemp = sext<16>(bits(Reg2, 31, 16)) * sext<16>(bits(Reg3, 15, 0)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstUnCc("smlaltt", '''resTemp = sext<16>(bits(Reg2, 31, 16)) * sext<16>(bits(Reg3, 31, 16)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstUnCc("smlald", '''resTemp = sext<16>(bits(Reg2, 31, 16)) * sext<16>(bits(Reg3, 31, 16)) + sext<16>(bits(Reg2, 15, 0)) * sext<16>(bits(Reg3, 15, 0)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstUnCc("smlaldx", '''resTemp = sext<16>(bits(Reg2, 31, 16)) * sext<16>(bits(Reg3, 15, 0)) + sext<16>(bits(Reg2, 15, 0)) * sext<16>(bits(Reg3, 31, 16)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstCc ("smlawb", '''Reg0 = resTemp = - (Reg1.sw * + (Reg1_sw * sext<16>(bits(Reg2, 15, 0)) + - ((int64_t)Reg3.sw << 16)) >> 16; + ((int64_t)Reg3_sw << 16)) >> 16; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") buildMult4InstCc ("smlawt", '''Reg0 = resTemp = - (Reg1.sw * + (Reg1_sw * sext<16>(bits(Reg2, 31, 16)) + - ((int64_t)Reg3.sw << 16)) >> 16; + ((int64_t)Reg3_sw << 16)) >> 16; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") @@ -251,7 +251,7 @@ let {{ sext<16>(bits(Reg2, 15, 0)) - sext<16>(bits(Reg1, 31, 16)) * sext<16>(bits(Reg2, 31, 16)) + - Reg3.sw; + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") @@ -260,7 +260,7 @@ let {{ sext<16>(bits(Reg2, 31, 16)) - sext<16>(bits(Reg1, 31, 16)) * sext<16>(bits(Reg2, 15, 0)) + - Reg3.sw; + Reg3_sw; resTemp = bits(resTemp, 32) != bits(resTemp, 31); ''', "overflow") @@ -269,50 +269,50 @@ let {{ sext<16>(bits(Reg3, 15, 0)) - sext<16>(bits(Reg2, 31, 16)) * sext<16>(bits(Reg3, 31, 16)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstUnCc("smlsldx", '''resTemp = sext<16>(bits(Reg2, 15, 0)) * sext<16>(bits(Reg3, 31, 16)) - sext<16>(bits(Reg2, 31, 16)) * sext<16>(bits(Reg3, 15, 0)) + - (int64_t)((Reg1.ud << 32) | - Reg0.ud); - Reg0.ud = (uint32_t)resTemp; - Reg1.ud = (uint32_t)(resTemp >> 32); + (int64_t)((Reg1_ud << 32) | + Reg0_ud); + Reg0_ud = (uint32_t)resTemp; + Reg1_ud = (uint32_t)(resTemp >> 32); ''') buildMult4InstUnCc("smmla", '''Reg0 = resTemp = - ((int64_t)(Reg3.ud << 32) + - (int64_t)Reg1.sw * - (int64_t)Reg2.sw) >> 32; + ((int64_t)(Reg3_ud << 32) + + (int64_t)Reg1_sw * + (int64_t)Reg2_sw) >> 32; ''') buildMult4InstUnCc("smmlar", '''Reg0 = resTemp = - ((int64_t)(Reg3.ud << 32) + - (int64_t)Reg1.sw * - (int64_t)Reg2.sw + + ((int64_t)(Reg3_ud << 32) + + (int64_t)Reg1_sw * + (int64_t)Reg2_sw + ULL(0x80000000)) >> 32; ''') buildMult4InstUnCc("smmls", '''Reg0 = resTemp = - ((int64_t)(Reg3.ud << 32) - - (int64_t)Reg1.sw * - (int64_t)Reg2.sw) >> 32; + ((int64_t)(Reg3_ud << 32) - + (int64_t)Reg1_sw * + (int64_t)Reg2_sw) >> 32; ''') buildMult4InstUnCc("smmlsr", '''Reg0 = resTemp = - ((int64_t)(Reg3.ud << 32) - - (int64_t)Reg1.sw * - (int64_t)Reg2.sw + + ((int64_t)(Reg3_ud << 32) - + (int64_t)Reg1_sw * + (int64_t)Reg2_sw + ULL(0x80000000)) >> 32; ''') buildMult3InstUnCc("smmul", '''Reg0 = resTemp = - ((int64_t)Reg1.sw * - (int64_t)Reg2.sw) >> 32; + ((int64_t)Reg1_sw * + (int64_t)Reg2_sw) >> 32; ''') buildMult3InstUnCc("smmulr", '''Reg0 = resTemp = - ((int64_t)Reg1.sw * - (int64_t)Reg2.sw + + ((int64_t)Reg1_sw * + (int64_t)Reg2_sw + ULL(0x80000000)) >> 32; ''') buildMult3InstCc ("smuad", '''Reg0 = resTemp = @@ -347,17 +347,17 @@ let {{ sext<16>(bits(Reg1, 31, 16)) * sext<16>(bits(Reg2, 31, 16)); ''') - buildMult4Inst ("smull", '''resTemp = (int64_t)Reg2.sw * - (int64_t)Reg3.sw; + buildMult4Inst ("smull", '''resTemp = (int64_t)Reg2_sw * + (int64_t)Reg3_sw; Reg1 = (int32_t)(resTemp >> 32); Reg0 = (int32_t)resTemp; ''', "llbit") buildMult3InstUnCc("smulwb", '''Reg0 = resTemp = - (Reg1.sw * + (Reg1_sw * sext<16>(bits(Reg2, 15, 0))) >> 16; ''') buildMult3InstUnCc("smulwt", '''Reg0 = resTemp = - (Reg1.sw * + (Reg1_sw * sext<16>(bits(Reg2, 31, 16))) >> 16; ''') buildMult3InstUnCc("smusd", '''Reg0 = resTemp = @@ -372,17 +372,17 @@ let {{ sext<16>(bits(Reg1, 31, 16)) * sext<16>(bits(Reg2, 15, 0)); ''') - buildMult4InstUnCc("umaal", '''resTemp = Reg2.ud * Reg3.ud + - Reg0.ud + Reg1.ud; - Reg1.ud = (uint32_t)(resTemp >> 32); - Reg0.ud = (uint32_t)resTemp; + buildMult4InstUnCc("umaal", '''resTemp = Reg2_ud * Reg3_ud + + Reg0_ud + Reg1_ud; + Reg1_ud = (uint32_t)(resTemp >> 32); + Reg0_ud = (uint32_t)resTemp; ''') - buildMult4Inst ("umlal", '''resTemp = Reg2.ud * Reg3.ud + Reg0.ud + - (Reg1.ud << 32); - Reg1.ud = (uint32_t)(resTemp >> 32); - Reg0.ud = (uint32_t)resTemp; + buildMult4Inst ("umlal", '''resTemp = Reg2_ud * Reg3_ud + Reg0_ud + + (Reg1_ud << 32); + Reg1_ud = (uint32_t)(resTemp >> 32); + Reg0_ud = (uint32_t)resTemp; ''', "llbit") - buildMult4Inst ("umull", '''resTemp = Reg2.ud * Reg3.ud; + buildMult4Inst ("umull", '''resTemp = Reg2_ud * Reg3_ud; Reg1 = (uint32_t)(resTemp >> 32); Reg0 = (uint32_t)resTemp; ''', "llbit") diff --git a/src/arch/arm/isa/insts/neon.isa b/src/arch/arm/isa/insts/neon.isa index 083d1ebaf..fdb6237c0 100644 --- a/src/arch/arm/isa/insts/neon.isa +++ b/src/arch/arm/isa/insts/neon.isa @@ -639,12 +639,12 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); - srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); + srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d_uw); ''' % { "reg" : reg } if readDest: eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -677,7 +677,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegRegOp", @@ -758,7 +758,7 @@ let {{ for reg in range(rCount): if toInt: eWalkCode += ''' - FpDestP%(reg)d.uw = destRegs.regs[%(reg)d]; + FpDestP%(reg)d_uw = destRegs.regs[%(reg)d]; ''' % { "reg" : reg } else: eWalkCode += ''' @@ -798,16 +798,16 @@ let {{ ''' % (src1Prefix, src2Prefix, destPrefix) for reg in range(src1Cnt): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } for reg in range(src2Cnt): eWalkCode += ''' - srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d.uw); + srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d_uw); ''' % { "reg" : reg } if readDest: for reg in range(destCnt): eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -826,7 +826,7 @@ let {{ "destPrefix" : destPrefix } for reg in range(destCnt): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegRegOp", @@ -860,12 +860,12 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); - srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); + srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d_uw); ''' % { "reg" : reg } if readDest: eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -890,7 +890,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegRegImmOp", @@ -914,13 +914,13 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); - srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d.uw);; + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); + srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d_uw);; ''' % { "reg" : reg } if readDest: for reg in range(2 * rCount): eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -945,7 +945,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(2 * rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegRegImmOp", @@ -1021,11 +1021,11 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcRegs1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcRegs1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: eWalkCode += ''' - destRegs.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destRegs.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1055,7 +1055,7 @@ let {{ "writeDest" : writeDestCode } for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destRegs.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destRegs.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegImmOp", @@ -1078,12 +1078,12 @@ let {{ ''' for reg in range(4): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: for reg in range(2): eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1099,7 +1099,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(2): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegImmOp", @@ -1122,12 +1122,12 @@ let {{ ''' for reg in range(2): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: for reg in range(4): eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1143,7 +1143,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(4): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegImmOp", @@ -1165,11 +1165,11 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1186,7 +1186,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegOp", @@ -1208,11 +1208,11 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1228,7 +1228,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegImmOp", @@ -1250,8 +1250,8 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } if readDest: eWalkCode += ''' @@ -1262,8 +1262,8 @@ let {{ eWalkCode += op for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); - FpOp1P%(reg)d.uw = gtoh(srcReg1.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); + FpOp1P%(reg)d_uw = gtoh(srcReg1.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegOp", @@ -1325,7 +1325,7 @@ let {{ for reg in range(rCount): if toInt: eWalkCode += ''' - FpDestP%(reg)d.uw = destRegs.regs[%(reg)d]; + FpDestP%(reg)d_uw = destRegs.regs[%(reg)d]; ''' % { "reg" : reg } else: eWalkCode += ''' @@ -1352,11 +1352,11 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - srcRegs.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcRegs.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1373,7 +1373,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegOp", @@ -1396,12 +1396,12 @@ let {{ ''' for reg in range(4): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: for reg in range(2): eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1417,7 +1417,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(2): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegOp", @@ -1440,7 +1440,7 @@ let {{ if readDest: for reg in range(rCount): eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1455,7 +1455,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegImmOp", @@ -1478,12 +1478,12 @@ let {{ ''' for reg in range(2): eWalkCode += ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); ''' % { "reg" : reg } if readDest: for reg in range(4): eWalkCode += ''' - destReg.regs[%(reg)d] = htog(FpDestP%(reg)d.uw); + destReg.regs[%(reg)d] = htog(FpDestP%(reg)d_uw); ''' % { "reg" : reg } readDestCode = '' if readDest: @@ -1499,7 +1499,7 @@ let {{ ''' % { "op" : op, "readDest" : readDestCode } for reg in range(4): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegOp", @@ -3190,7 +3190,7 @@ let {{ ''' for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegOp", @@ -3270,13 +3270,13 @@ let {{ ''' for reg in range(rCount): eWalkCode += simdEnabledCheckCode + ''' - srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw); - srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d.uw); + srcReg1.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw); + srcReg2.regs[%(reg)d] = htog(FpOp2P%(reg)d_uw); ''' % { "reg" : reg } eWalkCode += op for reg in range(rCount): eWalkCode += ''' - FpDestP%(reg)d.uw = gtoh(destReg.regs[%(reg)d]); + FpDestP%(reg)d_uw = gtoh(destReg.regs[%(reg)d]); ''' % { "reg" : reg } iop = InstObjParams(name, Name, "RegRegRegImmOp", @@ -3330,15 +3330,15 @@ let {{ const unsigned length = %(length)d; const bool isVtbl = %(isVtbl)s; - srcReg2.regs[0] = htog(FpOp2P0.uw); - srcReg2.regs[1] = htog(FpOp2P1.uw); + srcReg2.regs[0] = htog(FpOp2P0_uw); + srcReg2.regs[1] = htog(FpOp2P1_uw); - destReg.regs[0] = htog(FpDestP0.uw); - destReg.regs[1] = htog(FpDestP1.uw); + destReg.regs[0] = htog(FpDestP0_uw); + destReg.regs[1] = htog(FpDestP1_uw); ''' % { "length" : length, "isVtbl" : isVtbl } for reg in range(8): if reg < length * 2: - code += 'table.regs[%(reg)d] = htog(FpOp1P%(reg)d.uw);\n' % \ + code += 'table.regs[%(reg)d] = htog(FpOp1P%(reg)d_uw);\n' % \ { "reg" : reg } else: code += 'table.regs[%(reg)d] = 0;\n' % { "reg" : reg } @@ -3354,8 +3354,8 @@ let {{ } } - FpDestP0.uw = gtoh(destReg.regs[0]); - FpDestP1.uw = gtoh(destReg.regs[1]); + FpDestP0_uw = gtoh(destReg.regs[0]); + FpDestP1_uw = gtoh(destReg.regs[1]); ''' iop = InstObjParams(name, Name, "RegRegRegOp", diff --git a/src/arch/arm/isa/insts/str.isa b/src/arch/arm/isa/insts/str.isa index c01478cfa..80846053b 100644 --- a/src/arch/arm/isa/insts/str.isa +++ b/src/arch/arm/isa/insts/str.isa @@ -110,8 +110,8 @@ let {{ wbDiff = 8 accCode = ''' CPSR cpsr = Cpsr; - Mem.ud = (uint64_t)cSwap(LR.uw, cpsr.e) | - ((uint64_t)cSwap(Spsr.uw, cpsr.e) << 32); + Mem_ud = (uint64_t)cSwap(LR_uw, cpsr.e) | + ((uint64_t)cSwap(Spsr_uw, cpsr.e) << 32); ''' global header_output, decoder_output, exec_output @@ -198,7 +198,7 @@ let {{ # Code that actually handles the access if self.flavor == "fp": - accCode = 'Mem%(suffix)s = cSwap(FpDest.uw, ((CPSR)Cpsr).e);' + accCode = 'Mem%(suffix)s = cSwap(FpDest_uw, ((CPSR)Cpsr).e);' else: accCode = \ 'Mem%(suffix)s = cSwap(Dest%(suffix)s, ((CPSR)Cpsr).e);' @@ -273,15 +273,15 @@ let {{ # Code that actually handles the access if self.flavor == "fp": accCode = ''' - uint64_t swappedMem = (uint64_t)FpDest.uw | - ((uint64_t)FpDest2.uw << 32); - Mem.ud = cSwap(swappedMem, ((CPSR)Cpsr).e); + uint64_t swappedMem = (uint64_t)FpDest_uw | + ((uint64_t)FpDest2_uw << 32); + Mem_ud = cSwap(swappedMem, ((CPSR)Cpsr).e); ''' else: accCode = ''' CPSR cpsr = Cpsr; - Mem.ud = (uint64_t)cSwap(Dest.uw, cpsr.e) | - ((uint64_t)cSwap(Dest2.uw, cpsr.e) << 32); + Mem_ud = (uint64_t)cSwap(Dest_uw, cpsr.e) | + ((uint64_t)cSwap(Dest2_uw, cpsr.e) << 32); ''' self.codeBlobs["memacc_code"] = accCode diff --git a/src/arch/arm/isa/insts/swap.isa b/src/arch/arm/isa/insts/swap.isa index 3be4278fa..f319e75aa 100644 --- a/src/arch/arm/isa/insts/swap.isa +++ b/src/arch/arm/isa/insts/swap.isa @@ -82,7 +82,7 @@ let {{ ''' SwapInst('swp', 'Swp', 'EA = Base;', - swpPreAccCode + 'Mem = cSwap(Op1.uw, ((CPSR)Cpsr).e);', + swpPreAccCode + 'Mem = cSwap(Op1_uw, ((CPSR)Cpsr).e);', 'Dest = cSwap((uint32_t)memData, ((CPSR)Cpsr).e);', ['Request::MEM_SWAP', 'ArmISA::TLB::AlignWord', @@ -90,8 +90,8 @@ let {{ ['IsStoreConditional']).emit() SwapInst('swpb', 'Swpb', 'EA = Base;', - swpPreAccCode + 'Mem.ub = cSwap(Op1.ub, ((CPSR)Cpsr).e);', - 'Dest.ub = cSwap((uint8_t)memData, ((CPSR)Cpsr).e);', + swpPreAccCode + 'Mem_ub = cSwap(Op1_ub, ((CPSR)Cpsr).e);', + 'Dest_ub = cSwap((uint8_t)memData, ((CPSR)Cpsr).e);', ['Request::MEM_SWAP', 'ArmISA::TLB::AlignByte', 'ArmISA::TLB::MustBeOne'], diff --git a/src/arch/isa_parser.py b/src/arch/isa_parser.py index 863c7c70e..c0cdebe11 100755 --- a/src/arch/isa_parser.py +++ b/src/arch/isa_parser.py @@ -1851,21 +1851,21 @@ StaticInstPtr # Define operand variables. operands = user_dict.keys() + extensions = self.operandTypeMap.keys() - operandsREString = (r''' - (?> SA; }}); + 0: srl({{ Rd = Rt_uw >> SA; }}); //Hardcoded assuming 32-bit ISA, //probably need parameter here 1: rotr({{ - Rd = (Rt.uw << (32 - SA)) | (Rt.uw >> SA); + Rd = (Rt_uw << (32 - SA)) | (Rt_uw >> SA); }}); } } @@ -95,16 +95,16 @@ decode OPCODE_HI default Unknown::unknown() { }}); } - 0x4: sllv({{ Rd = Rt.uw << Rs<4:0>; }}); + 0x4: sllv({{ Rd = Rt_uw << Rs<4:0>; }}); 0x6: decode SRLV { - 0: srlv({{ Rd = Rt.uw >> Rs<4:0>; }}); + 0: srlv({{ Rd = Rt_uw >> Rs<4:0>; }}); //Hardcoded assuming 32-bit ISA, //probably need parameter here 1: rotrv({{ - Rd = (Rt.uw << (32 - Rs<4:0>)) | - (Rt.uw >> Rs<4:0>); + Rd = (Rt_uw << (32 - Rs<4:0>)) | + (Rt_uw >> Rs<4:0>); }}); } @@ -185,22 +185,22 @@ decode OPCODE_HI default Unknown::unknown() { 0x3: decode FUNCTION_LO { format HiLoRdSelValOp { - 0x0: mult({{ val = Rs.sd * Rt.sd; }}, IntMultOp); - 0x1: multu({{ val = Rs.ud * Rt.ud; }}, IntMultOp); + 0x0: mult({{ val = Rs_sd * Rt_sd; }}, IntMultOp); + 0x1: multu({{ val = Rs_ud * Rt_ud; }}, IntMultOp); } format HiLoOp { 0x2: div({{ - if (Rt.sd != 0) { - HI0 = Rs.sd % Rt.sd; - LO0 = Rs.sd / Rt.sd; + if (Rt_sd != 0) { + HI0 = Rs_sd % Rt_sd; + LO0 = Rs_sd / Rt_sd; } }}, IntDivOp); 0x3: divu({{ - if (Rt.ud != 0) { - HI0 = Rs.ud % Rt.ud; - LO0 = Rs.ud / Rt.ud; + if (Rt_ud != 0) { + HI0 = Rs_ud % Rt_ud; + LO0 = Rs_ud / Rt_ud; } }}, IntDivOp); } @@ -217,7 +217,7 @@ decode OPCODE_HI default Unknown::unknown() { fault = new IntegerOverflowFault(); } }}); - 0x1: addu({{ Rd.sw = Rs.sw + Rt.sw;}}); + 0x1: addu({{ Rd_sw = Rs_sw + Rt_sw;}}); 0x2: sub({{ IntReg result; Rd = result = Rs - Rt; @@ -226,7 +226,7 @@ decode OPCODE_HI default Unknown::unknown() { fault = new IntegerOverflowFault(); } }}); - 0x3: subu({{ Rd.sw = Rs.sw - Rt.sw; }}); + 0x3: subu({{ Rd_sw = Rs_sw - Rt_sw; }}); 0x4: and({{ Rd = Rs & Rt; }}); 0x5: or({{ Rd = Rs | Rt; }}); 0x6: xor({{ Rd = Rs ^ Rt; }}); @@ -238,20 +238,20 @@ decode OPCODE_HI default Unknown::unknown() { 0x5: decode HINT { 0x0: decode FUNCTION_LO { format IntOp{ - 0x2: slt({{ Rd.sw = (Rs.sw < Rt.sw) ? 1 : 0 }}); - 0x3: sltu({{ Rd.uw = (Rs.uw < Rt.uw) ? 1 : 0 }}); + 0x2: slt({{ Rd_sw = (Rs_sw < Rt_sw) ? 1 : 0 }}); + 0x3: sltu({{ Rd_uw = (Rs_uw < Rt_uw) ? 1 : 0 }}); } } } 0x6: decode FUNCTION_LO { format Trap { - 0x0: tge({{ cond = (Rs.sw >= Rt.sw); }}); - 0x1: tgeu({{ cond = (Rs.uw >= Rt.uw); }}); - 0x2: tlt({{ cond = (Rs.sw < Rt.sw); }}); - 0x3: tltu({{ cond = (Rs.uw < Rt.uw); }}); - 0x4: teq({{ cond = (Rs.sw == Rt.sw); }}); - 0x6: tne({{ cond = (Rs.sw != Rt.sw); }}); + 0x0: tge({{ cond = (Rs_sw >= Rt_sw); }}); + 0x1: tgeu({{ cond = (Rs_uw >= Rt_uw); }}); + 0x2: tlt({{ cond = (Rs_sw < Rt_sw); }}); + 0x3: tltu({{ cond = (Rs_uw < Rt_uw); }}); + 0x4: teq({{ cond = (Rs_sw == Rt_sw); }}); + 0x6: tne({{ cond = (Rs_sw != Rt_sw); }}); } } } @@ -259,37 +259,37 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode REGIMM_HI { 0x0: decode REGIMM_LO { format Branch { - 0x0: bltz({{ cond = (Rs.sw < 0); }}); - 0x1: bgez({{ cond = (Rs.sw >= 0); }}); - 0x2: bltzl({{ cond = (Rs.sw < 0); }}, Likely); - 0x3: bgezl({{ cond = (Rs.sw >= 0); }}, Likely); + 0x0: bltz({{ cond = (Rs_sw < 0); }}); + 0x1: bgez({{ cond = (Rs_sw >= 0); }}); + 0x2: bltzl({{ cond = (Rs_sw < 0); }}, Likely); + 0x3: bgezl({{ cond = (Rs_sw >= 0); }}, Likely); } } 0x1: decode REGIMM_LO { format TrapImm { - 0x0: tgei( {{ cond = (Rs.sw >= (int16_t)INTIMM); }}); + 0x0: tgei( {{ cond = (Rs_sw >= (int16_t)INTIMM); }}); 0x1: tgeiu({{ - cond = (Rs.uw >= (uint32_t)(int32_t)(int16_t)INTIMM); + cond = (Rs_uw >= (uint32_t)(int32_t)(int16_t)INTIMM); }}); - 0x2: tlti( {{ cond = (Rs.sw < (int16_t)INTIMM); }}); + 0x2: tlti( {{ cond = (Rs_sw < (int16_t)INTIMM); }}); 0x3: tltiu({{ - cond = (Rs.uw < (uint32_t)(int32_t)(int16_t)INTIMM); + cond = (Rs_uw < (uint32_t)(int32_t)(int16_t)INTIMM); }}); - 0x4: teqi( {{ cond = (Rs.sw == (int16_t)INTIMM); }}); - 0x6: tnei( {{ cond = (Rs.sw != (int16_t)INTIMM); }}); + 0x4: teqi( {{ cond = (Rs_sw == (int16_t)INTIMM); }}); + 0x6: tnei( {{ cond = (Rs_sw != (int16_t)INTIMM); }}); } } 0x2: decode REGIMM_LO { format Branch { - 0x0: bltzal({{ cond = (Rs.sw < 0); }}, Link); + 0x0: bltzal({{ cond = (Rs_sw < 0); }}, Link); 0x1: decode RS { 0x0: bal ({{ cond = 1; }}, IsCall, Link); - default: bgezal({{ cond = (Rs.sw >= 0); }}, Link); + default: bgezal({{ cond = (Rs_sw >= 0); }}, Link); } - 0x2: bltzall({{ cond = (Rs.sw < 0); }}, Link, Likely); - 0x3: bgezall({{ cond = (Rs.sw >= 0); }}, Link, Likely); + 0x2: bltzall({{ cond = (Rs_sw < 0); }}, Link, Likely); + 0x3: bgezall({{ cond = (Rs_sw >= 0); }}, Link, Likely); } } @@ -312,11 +312,11 @@ decode OPCODE_HI default Unknown::unknown() { format Branch { 0x4: decode RS_RT { 0x0: b({{ cond = 1; }}); - default: beq({{ cond = (Rs.sw == Rt.sw); }}); + default: beq({{ cond = (Rs_sw == Rt_sw); }}); } - 0x5: bne({{ cond = (Rs.sw != Rt.sw); }}); - 0x6: blez({{ cond = (Rs.sw <= 0); }}); - 0x7: bgtz({{ cond = (Rs.sw > 0); }}); + 0x5: bne({{ cond = (Rs_sw != Rt_sw); }}); + 0x6: blez({{ cond = (Rs_sw <= 0); }}); + 0x7: bgtz({{ cond = (Rs_sw > 0); }}); } } @@ -330,12 +330,12 @@ decode OPCODE_HI default Unknown::unknown() { fault = new IntegerOverflowFault(); } }}); - 0x1: addiu({{ Rt.sw = Rs.sw + imm; }}); - 0x2: slti({{ Rt.sw = (Rs.sw < imm) ? 1 : 0 }}); - 0x3: sltiu({{ Rt.uw = (Rs.uw < (uint32_t)sextImm) ? 1 : 0;}}); - 0x4: andi({{ Rt.sw = Rs.sw & zextImm; }}); - 0x5: ori({{ Rt.sw = Rs.sw | zextImm; }}); - 0x6: xori({{ Rt.sw = Rs.sw ^ zextImm; }}); + 0x1: addiu({{ Rt_sw = Rs_sw + imm; }}); + 0x2: slti({{ Rt_sw = (Rs_sw < imm) ? 1 : 0 }}); + 0x3: sltiu({{ Rt_uw = (Rs_uw < (uint32_t)sextImm) ? 1 : 0;}}); + 0x4: andi({{ Rt_sw = Rs_sw & zextImm; }}); + 0x5: ori({{ Rt_sw = Rs_sw | zextImm; }}); + 0x6: xori({{ Rt_sw = Rs_sw ^ zextImm; }}); 0x7: decode RS { 0x0: lui({{ Rt = imm << 16; }}); @@ -506,27 +506,27 @@ decode OPCODE_HI default Unknown::unknown() { uint32_t data; switch (RD) { case 25: - data = (Rt.uw<7:1> << 25) | // move 31-25 + data = (Rt_uw<7:1> << 25) | // move 31-25 (FCSR & 0x01000000) | // bit 24 (FCSR & 0x004FFFFF); // bit 22-0 break; case 26: data = (FCSR & 0xFFFC0000) | // move 31-18 - Rt.uw<17:12> << 12 | // bit 17-12 + Rt_uw<17:12> << 12 | // bit 17-12 (FCSR & 0x00000F80) << 7 | // bit 11-7 - Rt.uw<6:2> << 2 | // bit 6-2 + Rt_uw<6:2> << 2 | // bit 6-2 (FCSR & 0x00000002); // bit 1...0 break; case 28: data = (FCSR & 0xFE000000) | // move 31-25 - Rt.uw<2:2> << 24 | // bit 24 + Rt_uw<2:2> << 24 | // bit 24 (FCSR & 0x00FFF000) << 23 | // bit 23-12 - Rt.uw<11:7> << 7 | // bit 24 + Rt_uw<11:7> << 7 | // bit 24 (FCSR & 0x000007E) | - Rt.uw<1:0>; // bit 22-0 + Rt_uw<1:0>; // bit 22-0 break; case 31: - data = Rt.uw; + data = Rt_uw; break; default: panic("FP Control Value (%d) " @@ -881,7 +881,7 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode RS_HI { 0x0: decode RS_LO { format CP1Control { - 0x0: mfc1 ({{ Rt.uw = Fs.uw; }}); + 0x0: mfc1 ({{ Rt_uw = Fs_uw; }}); 0x2: cfc1({{ switch (FS) { @@ -908,34 +908,34 @@ decode OPCODE_HI default Unknown::unknown() { } }}); - 0x3: mfhc1({{ Rt.uw = Fs.ud<63:32>; }}); + 0x3: mfhc1({{ Rt_uw = Fs_ud<63:32>; }}); - 0x4: mtc1({{ Fs.uw = Rt.uw; }}); + 0x4: mtc1({{ Fs_uw = Rt_uw; }}); 0x6: ctc1({{ switch (FS) { case 25: - FCSR = (Rt.uw<7:1> << 25) | // move 31-25 + FCSR = (Rt_uw<7:1> << 25) | // move 31-25 (FCSR & 0x01000000) | // bit 24 (FCSR & 0x004FFFFF); // bit 22-0 break; case 26: FCSR = (FCSR & 0xFFFC0000) | // move 31-18 - Rt.uw<17:12> << 12 | // bit 17-12 + Rt_uw<17:12> << 12 | // bit 17-12 (FCSR & 0x00000F80) << 7 | // bit 11-7 - Rt.uw<6:2> << 2 | // bit 6-2 + Rt_uw<6:2> << 2 | // bit 6-2 (FCSR & 0x00000002); // bit 1-0 break; case 28: FCSR = (FCSR & 0xFE000000) | // move 31-25 - Rt.uw<2:2> << 24 | // bit 24 + Rt_uw<2:2> << 24 | // bit 24 (FCSR & 0x00FFF000) << 23 | // bit 23-12 - Rt.uw<11:7> << 7 | // bit 24 + Rt_uw<11:7> << 7 | // bit 24 (FCSR & 0x000007E) | - Rt.uw<1:0>; // bit 22-0 + Rt_uw<1:0>; // bit 22-0 break; case 31: - FCSR = Rt.uw; + FCSR = Rt_uw; break; default: @@ -947,9 +947,9 @@ decode OPCODE_HI default Unknown::unknown() { }}); 0x7: mthc1({{ - uint64_t fs_hi = Rt.uw; - uint64_t fs_lo = Fs.ud & 0x0FFFFFFFF; - Fs.ud = (fs_hi << 32) | fs_lo; + uint64_t fs_hi = Rt_uw; + uint64_t fs_lo = Fs_ud & 0x0FFFFFFFF; + Fs_ud = (fs_hi << 32) | fs_lo; }}); } @@ -995,33 +995,33 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode FUNCTION_HI { 0x0: decode FUNCTION_LO { format FloatOp { - 0x0: add_s({{ Fd.sf = Fs.sf + Ft.sf; }}); - 0x1: sub_s({{ Fd.sf = Fs.sf - Ft.sf; }}); - 0x2: mul_s({{ Fd.sf = Fs.sf * Ft.sf; }}); - 0x3: div_s({{ Fd.sf = Fs.sf / Ft.sf; }}); - 0x4: sqrt_s({{ Fd.sf = sqrt(Fs.sf); }}); - 0x5: abs_s({{ Fd.sf = fabs(Fs.sf); }}); - 0x7: neg_s({{ Fd.sf = -Fs.sf; }}); + 0x0: add_s({{ Fd_sf = Fs_sf + Ft_sf; }}); + 0x1: sub_s({{ Fd_sf = Fs_sf - Ft_sf; }}); + 0x2: mul_s({{ Fd_sf = Fs_sf * Ft_sf; }}); + 0x3: div_s({{ Fd_sf = Fs_sf / Ft_sf; }}); + 0x4: sqrt_s({{ Fd_sf = sqrt(Fs_sf); }}); + 0x5: abs_s({{ Fd_sf = fabs(Fs_sf); }}); + 0x7: neg_s({{ Fd_sf = -Fs_sf; }}); } - 0x6: BasicOp::mov_s({{ Fd.sf = Fs.sf; }}); + 0x6: BasicOp::mov_s({{ Fd_sf = Fs_sf; }}); } 0x1: decode FUNCTION_LO { format FloatConvertOp { - 0x0: round_l_s({{ val = Fs.sf; }}, + 0x0: round_l_s({{ val = Fs_sf; }}, ToLong, Round); - 0x1: trunc_l_s({{ val = Fs.sf; }}, + 0x1: trunc_l_s({{ val = Fs_sf; }}, ToLong, Trunc); - 0x2: ceil_l_s({{ val = Fs.sf;}}, + 0x2: ceil_l_s({{ val = Fs_sf;}}, ToLong, Ceil); - 0x3: floor_l_s({{ val = Fs.sf; }}, + 0x3: floor_l_s({{ val = Fs_sf; }}, ToLong, Floor); - 0x4: round_w_s({{ val = Fs.sf; }}, + 0x4: round_w_s({{ val = Fs_sf; }}, ToWord, Round); - 0x5: trunc_w_s({{ val = Fs.sf; }}, + 0x5: trunc_w_s({{ val = Fs_sf; }}, ToWord, Trunc); - 0x6: ceil_w_s({{ val = Fs.sf; }}, + 0x6: ceil_w_s({{ val = Fs_sf; }}, ToWord, Ceil); - 0x7: floor_w_s({{ val = Fs.sf; }}, + 0x7: floor_w_s({{ val = Fs_sf; }}, ToWord, Floor); } } @@ -1057,14 +1057,14 @@ decode OPCODE_HI default Unknown::unknown() { 0x4: decode FUNCTION_LO { format FloatConvertOp { - 0x1: cvt_d_s({{ val = Fs.sf; }}, ToDouble); - 0x4: cvt_w_s({{ val = Fs.sf; }}, ToWord); - 0x5: cvt_l_s({{ val = Fs.sf; }}, ToLong); + 0x1: cvt_d_s({{ val = Fs_sf; }}, ToDouble); + 0x4: cvt_w_s({{ val = Fs_sf; }}, ToWord); + 0x5: cvt_l_s({{ val = Fs_sf; }}, ToLong); } 0x6: FloatOp::cvt_ps_s({{ - Fd.ud = (uint64_t) Fs.uw << 32 | - (uint64_t) Ft.uw; + Fd_ud = (uint64_t) Fs_uw << 32 | + (uint64_t) Ft_uw; }}); format CP1Unimpl { default: unknown(); @@ -1078,17 +1078,17 @@ decode OPCODE_HI default Unknown::unknown() { SinglePrecision, UnorderedFalse); 0x1: c_un_s({{ cond = 0; }}, SinglePrecision, UnorderedTrue); - 0x2: c_eq_s({{ cond = (Fs.sf == Ft.sf); }}, + 0x2: c_eq_s({{ cond = (Fs_sf == Ft_sf); }}, UnorderedFalse); - 0x3: c_ueq_s({{ cond = (Fs.sf == Ft.sf); }}, + 0x3: c_ueq_s({{ cond = (Fs_sf == Ft_sf); }}, UnorderedTrue); - 0x4: c_olt_s({{ cond = (Fs.sf < Ft.sf); }}, + 0x4: c_olt_s({{ cond = (Fs_sf < Ft_sf); }}, UnorderedFalse); - 0x5: c_ult_s({{ cond = (Fs.sf < Ft.sf); }}, + 0x5: c_ult_s({{ cond = (Fs_sf < Ft_sf); }}, UnorderedTrue); - 0x6: c_ole_s({{ cond = (Fs.sf <= Ft.sf); }}, + 0x6: c_ole_s({{ cond = (Fs_sf <= Ft_sf); }}, UnorderedFalse); - 0x7: c_ule_s({{ cond = (Fs.sf <= Ft.sf); }}, + 0x7: c_ule_s({{ cond = (Fs_sf <= Ft_sf); }}, UnorderedTrue); } } @@ -1099,17 +1099,17 @@ decode OPCODE_HI default Unknown::unknown() { UnorderedFalse, QnanException); 0x1: c_ngle_s({{ cond = 0; }}, SinglePrecision, UnorderedTrue, QnanException); - 0x2: c_seq_s({{ cond = (Fs.sf == Ft.sf); }}, + 0x2: c_seq_s({{ cond = (Fs_sf == Ft_sf); }}, UnorderedFalse, QnanException); - 0x3: c_ngl_s({{ cond = (Fs.sf == Ft.sf); }}, + 0x3: c_ngl_s({{ cond = (Fs_sf == Ft_sf); }}, UnorderedTrue, QnanException); - 0x4: c_lt_s({{ cond = (Fs.sf < Ft.sf); }}, + 0x4: c_lt_s({{ cond = (Fs_sf < Ft_sf); }}, UnorderedFalse, QnanException); - 0x5: c_nge_s({{ cond = (Fs.sf < Ft.sf); }}, + 0x5: c_nge_s({{ cond = (Fs_sf < Ft_sf); }}, UnorderedTrue, QnanException); - 0x6: c_le_s({{ cond = (Fs.sf <= Ft.sf); }}, + 0x6: c_le_s({{ cond = (Fs_sf <= Ft_sf); }}, UnorderedFalse, QnanException); - 0x7: c_ngt_s({{ cond = (Fs.sf <= Ft.sf); }}, + 0x7: c_ngt_s({{ cond = (Fs_sf <= Ft_sf); }}, UnorderedTrue, QnanException); } } @@ -1120,34 +1120,34 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode FUNCTION_HI { 0x0: decode FUNCTION_LO { format FloatOp { - 0x0: add_d({{ Fd.df = Fs.df + Ft.df; }}); - 0x1: sub_d({{ Fd.df = Fs.df - Ft.df; }}); - 0x2: mul_d({{ Fd.df = Fs.df * Ft.df; }}); - 0x3: div_d({{ Fd.df = Fs.df / Ft.df; }}); - 0x4: sqrt_d({{ Fd.df = sqrt(Fs.df); }}); - 0x5: abs_d({{ Fd.df = fabs(Fs.df); }}); - 0x7: neg_d({{ Fd.df = -1 * Fs.df; }}); + 0x0: add_d({{ Fd_df = Fs_df + Ft_df; }}); + 0x1: sub_d({{ Fd_df = Fs_df - Ft_df; }}); + 0x2: mul_d({{ Fd_df = Fs_df * Ft_df; }}); + 0x3: div_d({{ Fd_df = Fs_df / Ft_df; }}); + 0x4: sqrt_d({{ Fd_df = sqrt(Fs_df); }}); + 0x5: abs_d({{ Fd_df = fabs(Fs_df); }}); + 0x7: neg_d({{ Fd_df = -1 * Fs_df; }}); } - 0x6: BasicOp::mov_d({{ Fd.df = Fs.df; }}); + 0x6: BasicOp::mov_d({{ Fd_df = Fs_df; }}); } 0x1: decode FUNCTION_LO { format FloatConvertOp { - 0x0: round_l_d({{ val = Fs.df; }}, + 0x0: round_l_d({{ val = Fs_df; }}, ToLong, Round); - 0x1: trunc_l_d({{ val = Fs.df; }}, + 0x1: trunc_l_d({{ val = Fs_df; }}, ToLong, Trunc); - 0x2: ceil_l_d({{ val = Fs.df; }}, + 0x2: ceil_l_d({{ val = Fs_df; }}, ToLong, Ceil); - 0x3: floor_l_d({{ val = Fs.df; }}, + 0x3: floor_l_d({{ val = Fs_df; }}, ToLong, Floor); - 0x4: round_w_d({{ val = Fs.df; }}, + 0x4: round_w_d({{ val = Fs_df; }}, ToWord, Round); - 0x5: trunc_w_d({{ val = Fs.df; }}, + 0x5: trunc_w_d({{ val = Fs_df; }}, ToWord, Trunc); - 0x6: ceil_w_d({{ val = Fs.df; }}, + 0x6: ceil_w_d({{ val = Fs_df; }}, ToWord, Ceil); - 0x7: floor_w_d({{ val = Fs.df; }}, + 0x7: floor_w_d({{ val = Fs_df; }}, ToWord, Floor); } } @@ -1156,28 +1156,28 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode MOVCF { format BasicOp { 0x0: movf_d({{ - Fd.df = (getCondCode(FCSR,CC) == 0) ? - Fs.df : Fd.df; + Fd_df = (getCondCode(FCSR,CC) == 0) ? + Fs_df : Fd_df; }}); 0x1: movt_d({{ - Fd.df = (getCondCode(FCSR,CC) == 1) ? - Fs.df : Fd.df; + Fd_df = (getCondCode(FCSR,CC) == 1) ? + Fs_df : Fd_df; }}); } } format BasicOp { 0x2: movz_d({{ - Fd.df = (Rt == 0) ? Fs.df : Fd.df; + Fd_df = (Rt == 0) ? Fs_df : Fd_df; }}); 0x3: movn_d({{ - Fd.df = (Rt != 0) ? Fs.df : Fd.df; + Fd_df = (Rt != 0) ? Fs_df : Fd_df; }}); } format FloatOp { - 0x5: recip_d({{ Fd.df = 1 / Fs.df; }}); - 0x6: rsqrt_d({{ Fd.df = 1 / sqrt(Fs.df); }}); + 0x5: recip_d({{ Fd_df = 1 / Fs_df; }}); + 0x6: rsqrt_d({{ Fd_df = 1 / sqrt(Fs_df); }}); } format CP1Unimpl { default: unknown(); @@ -1186,9 +1186,9 @@ decode OPCODE_HI default Unknown::unknown() { } 0x4: decode FUNCTION_LO { format FloatConvertOp { - 0x0: cvt_s_d({{ val = Fs.df; }}, ToSingle); - 0x4: cvt_w_d({{ val = Fs.df; }}, ToWord); - 0x5: cvt_l_d({{ val = Fs.df; }}, ToLong); + 0x0: cvt_s_d({{ val = Fs_df; }}, ToSingle); + 0x4: cvt_w_d({{ val = Fs_df; }}, ToWord); + 0x5: cvt_l_d({{ val = Fs_df; }}, ToLong); } default: CP1Unimpl::unknown(); } @@ -1199,17 +1199,17 @@ decode OPCODE_HI default Unknown::unknown() { DoublePrecision, UnorderedFalse); 0x1: c_un_d({{ cond = 0; }}, DoublePrecision, UnorderedTrue); - 0x2: c_eq_d({{ cond = (Fs.df == Ft.df); }}, + 0x2: c_eq_d({{ cond = (Fs_df == Ft_df); }}, UnorderedFalse); - 0x3: c_ueq_d({{ cond = (Fs.df == Ft.df); }}, + 0x3: c_ueq_d({{ cond = (Fs_df == Ft_df); }}, UnorderedTrue); - 0x4: c_olt_d({{ cond = (Fs.df < Ft.df); }}, + 0x4: c_olt_d({{ cond = (Fs_df < Ft_df); }}, UnorderedFalse); - 0x5: c_ult_d({{ cond = (Fs.df < Ft.df); }}, + 0x5: c_ult_d({{ cond = (Fs_df < Ft_df); }}, UnorderedTrue); - 0x6: c_ole_d({{ cond = (Fs.df <= Ft.df); }}, + 0x6: c_ole_d({{ cond = (Fs_df <= Ft_df); }}, UnorderedFalse); - 0x7: c_ule_d({{ cond = (Fs.df <= Ft.df); }}, + 0x7: c_ule_d({{ cond = (Fs_df <= Ft_df); }}, UnorderedTrue); } } @@ -1220,17 +1220,17 @@ decode OPCODE_HI default Unknown::unknown() { UnorderedFalse, QnanException); 0x1: c_ngle_d({{ cond = 0; }}, DoublePrecision, UnorderedTrue, QnanException); - 0x2: c_seq_d({{ cond = (Fs.df == Ft.df); }}, + 0x2: c_seq_d({{ cond = (Fs_df == Ft_df); }}, UnorderedFalse, QnanException); - 0x3: c_ngl_d({{ cond = (Fs.df == Ft.df); }}, + 0x3: c_ngl_d({{ cond = (Fs_df == Ft_df); }}, UnorderedTrue, QnanException); - 0x4: c_lt_d({{ cond = (Fs.df < Ft.df); }}, + 0x4: c_lt_d({{ cond = (Fs_df < Ft_df); }}, UnorderedFalse, QnanException); - 0x5: c_nge_d({{ cond = (Fs.df < Ft.df); }}, + 0x5: c_nge_d({{ cond = (Fs_df < Ft_df); }}, UnorderedTrue, QnanException); - 0x6: c_le_d({{ cond = (Fs.df <= Ft.df); }}, + 0x6: c_le_d({{ cond = (Fs_df <= Ft_df); }}, UnorderedFalse, QnanException); - 0x7: c_ngt_d({{ cond = (Fs.df <= Ft.df); }}, + 0x7: c_ngt_d({{ cond = (Fs_df <= Ft_df); }}, UnorderedTrue, QnanException); } } @@ -1244,8 +1244,8 @@ decode OPCODE_HI default Unknown::unknown() { //Field When rs=W 0x4: decode FUNCTION { format FloatConvertOp { - 0x20: cvt_s_w({{ val = Fs.uw; }}, ToSingle); - 0x21: cvt_d_w({{ val = Fs.uw; }}, ToDouble); + 0x20: cvt_s_w({{ val = Fs_uw; }}, ToSingle); + 0x21: cvt_d_w({{ val = Fs_uw; }}, ToDouble); 0x26: CP1Unimpl::cvt_ps_w(); } default: CP1Unimpl::unknown(); @@ -1257,8 +1257,8 @@ decode OPCODE_HI default Unknown::unknown() { //floating point operations are enabled." 0x5: decode FUNCTION_HI { format FloatConvertOp { - 0x20: cvt_s_l({{ val = Fs.ud; }}, ToSingle); - 0x21: cvt_d_l({{ val = Fs.ud; }}, ToDouble); + 0x20: cvt_s_l({{ val = Fs_ud; }}, ToSingle); + 0x21: cvt_d_l({{ val = Fs_ud; }}, ToDouble); 0x26: CP1Unimpl::cvt_ps_l(); } default: CP1Unimpl::unknown(); @@ -1272,28 +1272,28 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode FUNCTION_LO { format Float64Op { 0x0: add_ps({{ - Fd1.sf = Fs1.sf + Ft2.sf; - Fd2.sf = Fs2.sf + Ft2.sf; + Fd1_sf = Fs1_sf + Ft2_sf; + Fd2_sf = Fs2_sf + Ft2_sf; }}); 0x1: sub_ps({{ - Fd1.sf = Fs1.sf - Ft2.sf; - Fd2.sf = Fs2.sf - Ft2.sf; + Fd1_sf = Fs1_sf - Ft2_sf; + Fd2_sf = Fs2_sf - Ft2_sf; }}); 0x2: mul_ps({{ - Fd1.sf = Fs1.sf * Ft2.sf; - Fd2.sf = Fs2.sf * Ft2.sf; + Fd1_sf = Fs1_sf * Ft2_sf; + Fd2_sf = Fs2_sf * Ft2_sf; }}); 0x5: abs_ps({{ - Fd1.sf = fabs(Fs1.sf); - Fd2.sf = fabs(Fs2.sf); + Fd1_sf = fabs(Fs1_sf); + Fd2_sf = fabs(Fs2_sf); }}); 0x6: mov_ps({{ - Fd1.sf = Fs1.sf; - Fd2.sf = Fs2.sf; + Fd1_sf = Fs1_sf; + Fd2_sf = Fs2_sf; }}); 0x7: neg_ps({{ - Fd1.sf = -(Fs1.sf); - Fd2.sf = -(Fs2.sf); + Fd1_sf = -(Fs1_sf); + Fd2_sf = -(Fs2_sf); }}); default: CP1Unimpl::unknown(); } @@ -1335,24 +1335,24 @@ decode OPCODE_HI default Unknown::unknown() { } 0x3: CP1Unimpl::unknown(); 0x4: decode FUNCTION_LO { - 0x0: FloatOp::cvt_s_pu({{ Fd.sf = Fs2.sf; }}); + 0x0: FloatOp::cvt_s_pu({{ Fd_sf = Fs2_sf; }}); default: CP1Unimpl::unknown(); } 0x5: decode FUNCTION_LO { - 0x0: FloatOp::cvt_s_pl({{ Fd.sf = Fs1.sf; }}); + 0x0: FloatOp::cvt_s_pl({{ Fd_sf = Fs1_sf; }}); format Float64Op { 0x4: pll({{ - Fd.ud = (uint64_t)Fs1.uw << 32 | Ft1.uw; + Fd_ud = (uint64_t)Fs1_uw << 32 | Ft1_uw; }}); 0x5: plu({{ - Fd.ud = (uint64_t)Fs1.uw << 32 | Ft2.uw; + Fd_ud = (uint64_t)Fs1_uw << 32 | Ft2_uw; }}); 0x6: pul({{ - Fd.ud = (uint64_t)Fs2.uw << 32 | Ft1.uw; + Fd_ud = (uint64_t)Fs2_uw << 32 | Ft1_uw; }}); 0x7: puu({{ - Fd.ud = (uint64_t)Fs2.uw << 32 | Ft2.uw; + Fd_ud = (uint64_t)Fs2_uw << 32 | Ft2_uw; }}); } default: CP1Unimpl::unknown(); @@ -1364,23 +1364,23 @@ decode OPCODE_HI default Unknown::unknown() { UnorderedFalse); 0x1: c_un_ps({{ cond1 = 0; }}, {{ cond2 = 0; }}, UnorderedTrue); - 0x2: c_eq_ps({{ cond1 = (Fs1.sf == Ft1.sf); }}, - {{ cond2 = (Fs2.sf == Ft2.sf); }}, + 0x2: c_eq_ps({{ cond1 = (Fs1_sf == Ft1_sf); }}, + {{ cond2 = (Fs2_sf == Ft2_sf); }}, UnorderedFalse); - 0x3: c_ueq_ps({{ cond1 = (Fs1.sf == Ft1.sf); }}, - {{ cond2 = (Fs2.sf == Ft2.sf); }}, + 0x3: c_ueq_ps({{ cond1 = (Fs1_sf == Ft1_sf); }}, + {{ cond2 = (Fs2_sf == Ft2_sf); }}, UnorderedTrue); - 0x4: c_olt_ps({{ cond1 = (Fs1.sf < Ft1.sf); }}, - {{ cond2 = (Fs2.sf < Ft2.sf); }}, + 0x4: c_olt_ps({{ cond1 = (Fs1_sf < Ft1_sf); }}, + {{ cond2 = (Fs2_sf < Ft2_sf); }}, UnorderedFalse); - 0x5: c_ult_ps({{ cond1 = (Fs.sf < Ft.sf); }}, - {{ cond2 = (Fs2.sf < Ft2.sf); }}, + 0x5: c_ult_ps({{ cond1 = (Fs_sf < Ft_sf); }}, + {{ cond2 = (Fs2_sf < Ft2_sf); }}, UnorderedTrue); - 0x6: c_ole_ps({{ cond1 = (Fs.sf <= Ft.sf); }}, - {{ cond2 = (Fs2.sf <= Ft2.sf); }}, + 0x6: c_ole_ps({{ cond1 = (Fs_sf <= Ft_sf); }}, + {{ cond2 = (Fs2_sf <= Ft2_sf); }}, UnorderedFalse); - 0x7: c_ule_ps({{ cond1 = (Fs1.sf <= Ft1.sf); }}, - {{ cond2 = (Fs2.sf <= Ft2.sf); }}, + 0x7: c_ule_ps({{ cond1 = (Fs1_sf <= Ft1_sf); }}, + {{ cond2 = (Fs2_sf <= Ft2_sf); }}, UnorderedTrue); } } @@ -1392,23 +1392,23 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: c_ngle_ps({{ cond1 = 0; }}, {{ cond2 = 0; }}, UnorderedTrue, QnanException); - 0x2: c_seq_ps({{ cond1 = (Fs1.sf == Ft1.sf); }}, - {{ cond2 = (Fs2.sf == Ft2.sf); }}, + 0x2: c_seq_ps({{ cond1 = (Fs1_sf == Ft1_sf); }}, + {{ cond2 = (Fs2_sf == Ft2_sf); }}, UnorderedFalse, QnanException); - 0x3: c_ngl_ps({{ cond1 = (Fs1.sf == Ft1.sf); }}, - {{ cond2 = (Fs2.sf == Ft2.sf); }}, + 0x3: c_ngl_ps({{ cond1 = (Fs1_sf == Ft1_sf); }}, + {{ cond2 = (Fs2_sf == Ft2_sf); }}, UnorderedTrue, QnanException); - 0x4: c_lt_ps({{ cond1 = (Fs1.sf < Ft1.sf); }}, - {{ cond2 = (Fs2.sf < Ft2.sf); }}, + 0x4: c_lt_ps({{ cond1 = (Fs1_sf < Ft1_sf); }}, + {{ cond2 = (Fs2_sf < Ft2_sf); }}, UnorderedFalse, QnanException); - 0x5: c_nge_ps({{ cond1 = (Fs1.sf < Ft1.sf); }}, - {{ cond2 = (Fs2.sf < Ft2.sf); }}, + 0x5: c_nge_ps({{ cond1 = (Fs1_sf < Ft1_sf); }}, + {{ cond2 = (Fs2_sf < Ft2_sf); }}, UnorderedTrue, QnanException); - 0x6: c_le_ps({{ cond1 = (Fs1.sf <= Ft1.sf); }}, - {{ cond2 = (Fs2.sf <= Ft2.sf); }}, + 0x6: c_le_ps({{ cond1 = (Fs1_sf <= Ft1_sf); }}, + {{ cond2 = (Fs2_sf <= Ft2_sf); }}, UnorderedFalse, QnanException); - 0x7: c_ngt_ps({{ cond1 = (Fs1.sf <= Ft1.sf); }}, - {{ cond2 = (Fs2.sf <= Ft2.sf); }}, + 0x7: c_ngt_ps({{ cond1 = (Fs1_sf <= Ft1_sf); }}, + {{ cond2 = (Fs2_sf <= Ft2_sf); }}, UnorderedTrue, QnanException); } } @@ -1459,18 +1459,18 @@ decode OPCODE_HI default Unknown::unknown() { 0x3: decode FUNCTION_HI { 0x0: decode FUNCTION_LO { format LoadIndexedMemory { - 0x0: lwxc1({{ Fd.uw = Mem.uw; }}); - 0x1: ldxc1({{ Fd.ud = Mem.ud; }}); - 0x5: luxc1({{ Fd.ud = Mem.ud; }}, + 0x0: lwxc1({{ Fd_uw = Mem_uw; }}); + 0x1: ldxc1({{ Fd_ud = Mem_ud; }}); + 0x5: luxc1({{ Fd_ud = Mem_ud; }}, {{ EA = (Rs + Rt) & ~7; }}); } } 0x1: decode FUNCTION_LO { format StoreIndexedMemory { - 0x0: swxc1({{ Mem.uw = Fs.uw; }}); - 0x1: sdxc1({{ Mem.ud = Fs.ud; }}); - 0x5: suxc1({{ Mem.ud = Fs.ud; }}, + 0x0: swxc1({{ Mem_uw = Fs_uw; }}); + 0x1: sdxc1({{ Mem_ud = Fs_ud; }}); + 0x5: suxc1({{ Mem_ud = Fs_ud; }}, {{ EA = (Rs + Rt) & ~7; }}); } 0x7: Prefetch::prefx({{ EA = Rs + Rt; }}); @@ -1479,62 +1479,62 @@ decode OPCODE_HI default Unknown::unknown() { 0x3: decode FUNCTION_LO { 0x6: Float64Op::alnv_ps({{ if (Rs<2:0> == 0) { - Fd.ud = Fs.ud; + Fd_ud = Fs_ud; } else if (Rs<2:0> == 4) { if (GuestByteOrder == BigEndianByteOrder) - Fd.ud = Fs.ud<31:0> << 32 | Ft.ud<63:32>; + Fd_ud = Fs_ud<31:0> << 32 | Ft_ud<63:32>; else - Fd.ud = Ft.ud<31:0> << 32 | Fs.ud<63:32>; + Fd_ud = Ft_ud<31:0> << 32 | Fs_ud<63:32>; } else { - Fd.ud = Fd.ud; + Fd_ud = Fd_ud; } }}); } format FloatAccOp { 0x4: decode FUNCTION_LO { - 0x0: madd_s({{ Fd.sf = (Fs.sf * Ft.sf) + Fr.sf; }}); - 0x1: madd_d({{ Fd.df = (Fs.df * Ft.df) + Fr.df; }}); + 0x0: madd_s({{ Fd_sf = (Fs_sf * Ft_sf) + Fr_sf; }}); + 0x1: madd_d({{ Fd_df = (Fs_df * Ft_df) + Fr_df; }}); 0x6: madd_ps({{ - Fd1.sf = (Fs1.df * Ft1.df) + Fr1.df; - Fd2.sf = (Fs2.df * Ft2.df) + Fr2.df; + Fd1_sf = (Fs1_df * Ft1_df) + Fr1_df; + Fd2_sf = (Fs2_df * Ft2_df) + Fr2_df; }}); } 0x5: decode FUNCTION_LO { - 0x0: msub_s({{ Fd.sf = (Fs.sf * Ft.sf) - Fr.sf; }}); - 0x1: msub_d({{ Fd.df = (Fs.df * Ft.df) - Fr.df; }}); + 0x0: msub_s({{ Fd_sf = (Fs_sf * Ft_sf) - Fr_sf; }}); + 0x1: msub_d({{ Fd_df = (Fs_df * Ft_df) - Fr_df; }}); 0x6: msub_ps({{ - Fd1.sf = (Fs1.df * Ft1.df) - Fr1.df; - Fd2.sf = (Fs2.df * Ft2.df) - Fr2.df; + Fd1_sf = (Fs1_df * Ft1_df) - Fr1_df; + Fd2_sf = (Fs2_df * Ft2_df) - Fr2_df; }}); } 0x6: decode FUNCTION_LO { - 0x0: nmadd_s({{ Fd.sf = (-1 * Fs.sf * Ft.sf) - Fr.sf; }}); - 0x1: nmadd_d({{ Fd.df = (-1 * Fs.df * Ft.df) - Fr.df; }}); + 0x0: nmadd_s({{ Fd_sf = (-1 * Fs_sf * Ft_sf) - Fr_sf; }}); + 0x1: nmadd_d({{ Fd_df = (-1 * Fs_df * Ft_df) - Fr_df; }}); 0x6: nmadd_ps({{ - Fd1.sf = -((Fs1.df * Ft1.df) + Fr1.df); - Fd2.sf = -((Fs2.df * Ft2.df) + Fr2.df); + Fd1_sf = -((Fs1_df * Ft1_df) + Fr1_df); + Fd2_sf = -((Fs2_df * Ft2_df) + Fr2_df); }}); } 0x7: decode FUNCTION_LO { - 0x0: nmsub_s({{ Fd.sf = (-1 * Fs.sf * Ft.sf) + Fr.sf; }}); - 0x1: nmsub_d({{ Fd.df = (-1 * Fs.df * Ft.df) + Fr.df; }}); + 0x0: nmsub_s({{ Fd_sf = (-1 * Fs_sf * Ft_sf) + Fr_sf; }}); + 0x1: nmsub_d({{ Fd_df = (-1 * Fs_df * Ft_df) + Fr_df; }}); 0x6: nmsub_ps({{ - Fd1.sf = -((Fs1.df * Ft1.df) - Fr1.df); - Fd2.sf = -((Fs2.df * Ft2.df) - Fr2.df); + Fd1_sf = -((Fs1_df * Ft1_df) - Fr1_df); + Fd2_sf = -((Fs2_df * Ft2_df) - Fr2_df); }}); } } } format Branch { - 0x4: beql({{ cond = (Rs.sw == Rt.sw); }}, Likely); - 0x5: bnel({{ cond = (Rs.sw != Rt.sw); }}, Likely); - 0x6: blezl({{ cond = (Rs.sw <= 0); }}, Likely); - 0x7: bgtzl({{ cond = (Rs.sw > 0); }}, Likely); + 0x4: beql({{ cond = (Rs_sw == Rt_sw); }}, Likely); + 0x5: bnel({{ cond = (Rs_sw != Rt_sw); }}, Likely); + 0x6: blezl({{ cond = (Rs_sw <= 0); }}, Likely); + 0x7: bgtzl({{ cond = (Rs_sw > 0); }}, Likely); } } @@ -1543,26 +1543,26 @@ decode OPCODE_HI default Unknown::unknown() { 0x4: decode FUNCTION_HI { 0x0: decode FUNCTION_LO { 0x2: IntOp::mul({{ - int64_t temp1 = Rs.sd * Rt.sd; - Rd.sw = temp1<31:0>; + int64_t temp1 = Rs_sd * Rt_sd; + Rd_sw = temp1<31:0>; }}, IntMultOp); format HiLoRdSelValOp { 0x0: madd({{ val = ((int64_t)HI_RD_SEL << 32 | LO_RD_SEL) + - (Rs.sd * Rt.sd); + (Rs_sd * Rt_sd); }}, IntMultOp); 0x1: maddu({{ val = ((uint64_t)HI_RD_SEL << 32 | LO_RD_SEL) + - (Rs.ud * Rt.ud); + (Rs_ud * Rt_ud); }}, IntMultOp); 0x4: msub({{ val = ((int64_t)HI_RD_SEL << 32 | LO_RD_SEL) - - (Rs.sd * Rt.sd); + (Rs_sd * Rt_sd); }}, IntMultOp); 0x5: msubu({{ val = ((uint64_t)HI_RD_SEL << 32 | LO_RD_SEL) - - (Rs.ud * Rt.ud); + (Rs_ud * Rt_ud); }}, IntMultOp); } } @@ -1577,7 +1577,7 @@ decode OPCODE_HI default Unknown::unknown() { break; } } - Rd.uw = cnt; + Rd_uw = cnt; }}); 0x1: clo({{ int cnt = 32; @@ -1587,7 +1587,7 @@ decode OPCODE_HI default Unknown::unknown() { break; } } - Rd.uw = cnt; + Rd_uw = cnt; }}); } } @@ -1602,11 +1602,11 @@ decode OPCODE_HI default Unknown::unknown() { 0x7: decode FUNCTION_HI { 0x0: decode FUNCTION_LO { format BasicOp { - 0x0: ext({{ Rt.uw = bits(Rs.uw, MSB+LSB, LSB); }}); + 0x0: ext({{ Rt_uw = bits(Rs_uw, MSB+LSB, LSB); }}); 0x4: ins({{ - Rt.uw = bits(Rt.uw, 31, MSB+1) << (MSB+1) | - bits(Rs.uw, MSB-LSB, 0) << LSB | - bits(Rt.uw, LSB-1, 0); + Rt_uw = bits(Rt_uw, 31, MSB+1) << (MSB+1) | + bits(Rs_uw, MSB-LSB, 0) << LSB | + bits(Rt_uw, LSB-1, 0); }}); } } @@ -1617,7 +1617,7 @@ decode OPCODE_HI default Unknown::unknown() { forkThread(xc->tcBase(), fault, RD, Rs, Rt); }}, UserMode); 0x1: yield({{ - Rd.sw = yieldThread(xc->tcBase(), fault, Rs.sw, + Rd_sw = yieldThread(xc->tcBase(), fault, Rs_sw, YQMask); }}, UserMode); } @@ -1626,17 +1626,17 @@ decode OPCODE_HI default Unknown::unknown() { 0x2: decode OP_HI { 0x0: decode OP_LO { format LoadIndexedMemory { - 0x0: lwx({{ Rd.sw = Mem.sw; }}); - 0x4: lhx({{ Rd.sw = Mem.sh; }}); - 0x6: lbux({{ Rd.uw = Mem.ub; }}); + 0x0: lwx({{ Rd_sw = Mem_sw; }}); + 0x4: lhx({{ Rd_sw = Mem_sh; }}); + 0x6: lbux({{ Rd_uw = Mem_ub; }}); } } } 0x4: DspIntOp::insv({{ int pos = dspctl<5:0>; int size = dspctl<12:7> - 1; - Rt.uw = insertBits(Rt.uw, pos+size, - pos, Rs.uw); + Rt_uw = insertBits(Rt_uw, pos+size, + pos, Rs_uw); }}); } @@ -1648,27 +1648,27 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format DspIntOp { 0x0: addu_qb({{ - Rd.uw = dspAdd(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_QB, NOSATURATE, UNSIGNED, &dspctl); }}); 0x1: subu_qb({{ - Rd.uw = dspSub(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_QB, NOSATURATE, UNSIGNED, &dspctl); }}); 0x4: addu_s_qb({{ - Rd.uw = dspAdd(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_QB, SATURATE, UNSIGNED, &dspctl); }}); 0x5: subu_s_qb({{ - Rd.uw = dspSub(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_QB, SATURATE, UNSIGNED, &dspctl); }}); 0x6: muleu_s_ph_qbl({{ - Rd.uw = dspMuleu(Rs.uw, Rt.uw, + Rd_uw = dspMuleu(Rs_uw, Rt_uw, MODE_L, &dspctl); }}, IntMultOp); 0x7: muleu_s_ph_qbr({{ - Rd.uw = dspMuleu(Rs.uw, Rt.uw, + Rd_uw = dspMuleu(Rs_uw, Rt_uw, MODE_R, &dspctl); }}, IntMultOp); } @@ -1676,35 +1676,35 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode OP_LO { format DspIntOp { 0x0: addu_ph({{ - Rd.uw = dspAdd(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH, NOSATURATE, UNSIGNED, &dspctl); }}); 0x1: subu_ph({{ - Rd.uw = dspSub(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH, NOSATURATE, UNSIGNED, &dspctl); }}); 0x2: addq_ph({{ - Rd.uw = dspAdd(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH, NOSATURATE, SIGNED, &dspctl); }}); 0x3: subq_ph({{ - Rd.uw = dspSub(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH, NOSATURATE, SIGNED, &dspctl); }}); 0x4: addu_s_ph({{ - Rd.uw = dspAdd(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH, SATURATE, UNSIGNED, &dspctl); }}); 0x5: subu_s_ph({{ - Rd.uw = dspSub(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH, SATURATE, UNSIGNED, &dspctl); }}); 0x6: addq_s_ph({{ - Rd.uw = dspAdd(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspAdd(Rs_uw, Rt_uw, SIMD_FMT_PH, SATURATE, SIGNED, &dspctl); }}); 0x7: subq_s_ph({{ - Rd.uw = dspSub(Rs.uw, Rt.uw, SIMD_FMT_PH, + Rd_uw = dspSub(Rs_uw, Rt_uw, SIMD_FMT_PH, SATURATE, SIGNED, &dspctl); }}); } @@ -1713,32 +1713,32 @@ decode OPCODE_HI default Unknown::unknown() { format DspIntOp { 0x0: addsc({{ int64_t dresult; - dresult = Rs.ud + Rt.ud; - Rd.sw = dresult<31:0>; + dresult = Rs_ud + Rt_ud; + Rd_sw = dresult<31:0>; dspctl = insertBits(dspctl, 13, 13, dresult<32:32>); }}); 0x1: addwc({{ int64_t dresult; - dresult = Rs.sd + Rt.sd + dspctl<13:13>; - Rd.sw = dresult<31:0>; + dresult = Rs_sd + Rt_sd + dspctl<13:13>; + Rd_sw = dresult<31:0>; if (dresult<32:32> != dresult<31:31>) dspctl = insertBits(dspctl, 20, 20, 1); }}); 0x2: modsub({{ - Rd.sw = (Rs.sw == 0) ? Rt.sw<23:8> : - Rs.sw - Rt.sw<7:0>; + Rd_sw = (Rs_sw == 0) ? Rt_sw<23:8> : + Rs_sw - Rt_sw<7:0>; }}); 0x4: raddu_w_qb({{ - Rd.uw = Rs.uw<31:24> + Rs.uw<23:16> + - Rs.uw<15:8> + Rs.uw<7:0>; + Rd_uw = Rs_uw<31:24> + Rs_uw<23:16> + + Rs_uw<15:8> + Rs_uw<7:0>; }}); 0x6: addq_s_w({{ - Rd.sw = dspAdd(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_sw = dspAdd(Rs_sw, Rt_sw, SIMD_FMT_W, SATURATE, SIGNED, &dspctl); }}); 0x7: subq_s_w({{ - Rd.sw = dspSub(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_sw = dspSub(Rs_sw, Rt_sw, SIMD_FMT_W, SATURATE, SIGNED, &dspctl); }}); } @@ -1746,19 +1746,19 @@ decode OPCODE_HI default Unknown::unknown() { 0x3: decode OP_LO { format DspIntOp { 0x4: muleq_s_w_phl({{ - Rd.sw = dspMuleq(Rs.sw, Rt.sw, + Rd_sw = dspMuleq(Rs_sw, Rt_sw, MODE_L, &dspctl); }}, IntMultOp); 0x5: muleq_s_w_phr({{ - Rd.sw = dspMuleq(Rs.sw, Rt.sw, + Rd_sw = dspMuleq(Rs_sw, Rt_sw, MODE_R, &dspctl); }}, IntMultOp); 0x6: mulq_s_ph({{ - Rd.sw = dspMulq(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_PH, SATURATE, NOROUND, &dspctl); }}, IntMultOp); 0x7: mulq_rs_ph({{ - Rd.sw = dspMulq(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_PH, SATURATE, ROUND, &dspctl); }}, IntMultOp); } @@ -1771,31 +1771,31 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format DspIntOp { 0x0: cmpu_eq_qb({{ - dspCmp(Rs.uw, Rt.uw, SIMD_FMT_QB, + dspCmp(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_EQ, &dspctl); }}); 0x1: cmpu_lt_qb({{ - dspCmp(Rs.uw, Rt.uw, SIMD_FMT_QB, + dspCmp(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_LT, &dspctl); }}); 0x2: cmpu_le_qb({{ - dspCmp(Rs.uw, Rt.uw, SIMD_FMT_QB, + dspCmp(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_LE, &dspctl); }}); 0x3: pick_qb({{ - Rd.uw = dspPick(Rs.uw, Rt.uw, + Rd_uw = dspPick(Rs_uw, Rt_uw, SIMD_FMT_QB, &dspctl); }}); 0x4: cmpgu_eq_qb({{ - Rd.uw = dspCmpg(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspCmpg(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_EQ ); }}); 0x5: cmpgu_lt_qb({{ - Rd.uw = dspCmpg(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspCmpg(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_LT); }}); 0x6: cmpgu_le_qb({{ - Rd.uw = dspCmpg(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspCmpg(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_LE); }}); } @@ -1803,48 +1803,48 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode OP_LO { format DspIntOp { 0x0: cmp_eq_ph({{ - dspCmp(Rs.uw, Rt.uw, SIMD_FMT_PH, + dspCmp(Rs_uw, Rt_uw, SIMD_FMT_PH, SIGNED, CMP_EQ, &dspctl); }}); 0x1: cmp_lt_ph({{ - dspCmp(Rs.uw, Rt.uw, SIMD_FMT_PH, + dspCmp(Rs_uw, Rt_uw, SIMD_FMT_PH, SIGNED, CMP_LT, &dspctl); }}); 0x2: cmp_le_ph({{ - dspCmp(Rs.uw, Rt.uw, SIMD_FMT_PH, + dspCmp(Rs_uw, Rt_uw, SIMD_FMT_PH, SIGNED, CMP_LE, &dspctl); }}); 0x3: pick_ph({{ - Rd.uw = dspPick(Rs.uw, Rt.uw, + Rd_uw = dspPick(Rs_uw, Rt_uw, SIMD_FMT_PH, &dspctl); }}); 0x4: precrq_qb_ph({{ - Rd.uw = Rs.uw<31:24> << 24 | - Rs.uw<15:8> << 16 | - Rt.uw<31:24> << 8 | - Rt.uw<15:8>; + Rd_uw = Rs_uw<31:24> << 24 | + Rs_uw<15:8> << 16 | + Rt_uw<31:24> << 8 | + Rt_uw<15:8>; }}); 0x5: precr_qb_ph({{ - Rd.uw = Rs.uw<23:16> << 24 | - Rs.uw<7:0> << 16 | - Rt.uw<23:16> << 8 | - Rt.uw<7:0>; + Rd_uw = Rs_uw<23:16> << 24 | + Rs_uw<7:0> << 16 | + Rt_uw<23:16> << 8 | + Rt_uw<7:0>; }}); 0x6: packrl_ph({{ - Rd.uw = dspPack(Rs.uw, Rt.uw, SIMD_FMT_PH); + Rd_uw = dspPack(Rs_uw, Rt_uw, SIMD_FMT_PH); }}); 0x7: precrqu_s_qb_ph({{ - Rd.uw = dspPrecrqu(Rs.uw, Rt.uw, &dspctl); + Rd_uw = dspPrecrqu(Rs_uw, Rt_uw, &dspctl); }}); } } 0x2: decode OP_LO { format DspIntOp { 0x4: precrq_ph_w({{ - Rd.uw = Rs.uw<31:16> << 16 | Rt.uw<31:16>; + Rd_uw = Rs_uw<31:16> << 16 | Rt_uw<31:16>; }}); 0x5: precrq_rs_ph_w({{ - Rd.uw = dspPrecrq(Rs.uw, Rt.uw, + Rd_uw = dspPrecrq(Rs_uw, Rt_uw, SIMD_FMT_W, &dspctl); }}); } @@ -1852,23 +1852,23 @@ decode OPCODE_HI default Unknown::unknown() { 0x3: decode OP_LO { format DspIntOp { 0x0: cmpgdu_eq_qb({{ - Rd.uw = dspCmpgd(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspCmpgd(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_EQ, &dspctl); }}); 0x1: cmpgdu_lt_qb({{ - Rd.uw = dspCmpgd(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspCmpgd(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_LT, &dspctl); }}); 0x2: cmpgdu_le_qb({{ - Rd.uw = dspCmpgd(Rs.uw, Rt.uw, SIMD_FMT_QB, + Rd_uw = dspCmpgd(Rs_uw, Rt_uw, SIMD_FMT_QB, UNSIGNED, CMP_LE, &dspctl); }}); 0x6: precr_sra_ph_w({{ - Rt.uw = dspPrecrSra(Rt.uw, Rs.uw, RD, + Rt_uw = dspPrecrSra(Rt_uw, Rs_uw, RD, SIMD_FMT_W, NOROUND); }}); 0x7: precr_sra_r_ph_w({{ - Rt.uw = dspPrecrSra(Rt.uw, Rs.uw, RD, + Rt_uw = dspPrecrSra(Rt_uw, Rs_uw, RD, SIMD_FMT_W, ROUND); }}); } @@ -1881,34 +1881,34 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format DspIntOp { 0x1: absq_s_qb({{ - Rd.sw = dspAbs(Rt.sw, SIMD_FMT_QB, &dspctl); + Rd_sw = dspAbs(Rt_sw, SIMD_FMT_QB, &dspctl); }}); 0x2: repl_qb({{ - Rd.uw = RS_RT<7:0> << 24 | + Rd_uw = RS_RT<7:0> << 24 | RS_RT<7:0> << 16 | RS_RT<7:0> << 8 | RS_RT<7:0>; }}); 0x3: replv_qb({{ - Rd.sw = Rt.uw<7:0> << 24 | - Rt.uw<7:0> << 16 | - Rt.uw<7:0> << 8 | - Rt.uw<7:0>; + Rd_sw = Rt_uw<7:0> << 24 | + Rt_uw<7:0> << 16 | + Rt_uw<7:0> << 8 | + Rt_uw<7:0>; }}); 0x4: precequ_ph_qbl({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, UNSIGNED, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, SIGNED, MODE_L); }}); 0x5: precequ_ph_qbr({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, UNSIGNED, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, SIGNED, MODE_R); }}); 0x6: precequ_ph_qbla({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, UNSIGNED, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, SIGNED, MODE_LA); }}); 0x7: precequ_ph_qbra({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, UNSIGNED, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, SIGNED, MODE_RA); }}); } @@ -1916,22 +1916,22 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode OP_LO { format DspIntOp { 0x1: absq_s_ph({{ - Rd.sw = dspAbs(Rt.sw, SIMD_FMT_PH, &dspctl); + Rd_sw = dspAbs(Rt_sw, SIMD_FMT_PH, &dspctl); }}); 0x2: repl_ph({{ - Rd.uw = (sext<10>(RS_RT))<15:0> << 16 | + Rd_uw = (sext<10>(RS_RT))<15:0> << 16 | (sext<10>(RS_RT))<15:0>; }}); 0x3: replv_ph({{ - Rd.uw = Rt.uw<15:0> << 16 | - Rt.uw<15:0>; + Rd_uw = Rt_uw<15:0> << 16 | + Rt_uw<15:0>; }}); 0x4: preceq_w_phl({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_PH, SIGNED, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_PH, SIGNED, SIMD_FMT_W, SIGNED, MODE_L); }}); 0x5: preceq_w_phr({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_PH, SIGNED, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_PH, SIGNED, SIMD_FMT_W, SIGNED, MODE_R); }}); } @@ -1939,32 +1939,32 @@ decode OPCODE_HI default Unknown::unknown() { 0x2: decode OP_LO { format DspIntOp { 0x1: absq_s_w({{ - Rd.sw = dspAbs(Rt.sw, SIMD_FMT_W, &dspctl); + Rd_sw = dspAbs(Rt_sw, SIMD_FMT_W, &dspctl); }}); } } 0x3: decode OP_LO { 0x3: IntOp::bitrev({{ - Rd.uw = bitrev( Rt.uw<15:0> ); + Rd_uw = bitrev( Rt_uw<15:0> ); }}); format DspIntOp { 0x4: preceu_ph_qbl({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, UNSIGNED, MODE_L); }}); 0x5: preceu_ph_qbr({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, UNSIGNED, MODE_R ); }}); 0x6: preceu_ph_qbla({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, UNSIGNED, MODE_LA ); }}); 0x7: preceu_ph_qbra({{ - Rd.uw = dspPrece(Rt.uw, SIMD_FMT_QB, + Rd_uw = dspPrece(Rt_uw, SIMD_FMT_QB, UNSIGNED, SIMD_FMT_PH, UNSIGNED, MODE_RA); }}); @@ -1978,35 +1978,35 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format DspIntOp { 0x0: shll_qb({{ - Rd.sw = dspShll(Rt.sw, RS, SIMD_FMT_QB, + Rd_sw = dspShll(Rt_sw, RS, SIMD_FMT_QB, NOSATURATE, UNSIGNED, &dspctl); }}); 0x1: shrl_qb({{ - Rd.sw = dspShrl(Rt.sw, RS, SIMD_FMT_QB, + Rd_sw = dspShrl(Rt_sw, RS, SIMD_FMT_QB, UNSIGNED); }}); 0x2: shllv_qb({{ - Rd.sw = dspShll(Rt.sw, Rs.sw, SIMD_FMT_QB, + Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_QB, NOSATURATE, UNSIGNED, &dspctl); }}); 0x3: shrlv_qb({{ - Rd.sw = dspShrl(Rt.sw, Rs.sw, SIMD_FMT_QB, + Rd_sw = dspShrl(Rt_sw, Rs_sw, SIMD_FMT_QB, UNSIGNED); }}); 0x4: shra_qb({{ - Rd.sw = dspShra(Rt.sw, RS, SIMD_FMT_QB, + Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_QB, NOROUND, SIGNED, &dspctl); }}); 0x5: shra_r_qb({{ - Rd.sw = dspShra(Rt.sw, RS, SIMD_FMT_QB, + Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_QB, ROUND, SIGNED, &dspctl); }}); 0x6: shrav_qb({{ - Rd.sw = dspShra(Rt.sw, Rs.sw, SIMD_FMT_QB, + Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_QB, NOROUND, SIGNED, &dspctl); }}); 0x7: shrav_r_qb({{ - Rd.sw = dspShra(Rt.sw, Rs.sw, SIMD_FMT_QB, + Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_QB, ROUND, SIGNED, &dspctl); }}); } @@ -2014,35 +2014,35 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode OP_LO { format DspIntOp { 0x0: shll_ph({{ - Rd.uw = dspShll(Rt.uw, RS, SIMD_FMT_PH, + Rd_uw = dspShll(Rt_uw, RS, SIMD_FMT_PH, NOSATURATE, SIGNED, &dspctl); }}); 0x1: shra_ph({{ - Rd.sw = dspShra(Rt.sw, RS, SIMD_FMT_PH, + Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_PH, NOROUND, SIGNED, &dspctl); }}); 0x2: shllv_ph({{ - Rd.sw = dspShll(Rt.sw, Rs.sw, SIMD_FMT_PH, + Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_PH, NOSATURATE, SIGNED, &dspctl); }}); 0x3: shrav_ph({{ - Rd.sw = dspShra(Rt.sw, Rs.sw, SIMD_FMT_PH, + Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_PH, NOROUND, SIGNED, &dspctl); }}); 0x4: shll_s_ph({{ - Rd.sw = dspShll(Rt.sw, RS, SIMD_FMT_PH, + Rd_sw = dspShll(Rt_sw, RS, SIMD_FMT_PH, SATURATE, SIGNED, &dspctl); }}); 0x5: shra_r_ph({{ - Rd.sw = dspShra(Rt.sw, RS, SIMD_FMT_PH, + Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_PH, ROUND, SIGNED, &dspctl); }}); 0x6: shllv_s_ph({{ - Rd.sw = dspShll(Rt.sw, Rs.sw, SIMD_FMT_PH, + Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_PH, SATURATE, SIGNED, &dspctl); }}); 0x7: shrav_r_ph({{ - Rd.sw = dspShra(Rt.sw, Rs.sw, SIMD_FMT_PH, + Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_PH, ROUND, SIGNED, &dspctl); }}); } @@ -2050,19 +2050,19 @@ decode OPCODE_HI default Unknown::unknown() { 0x2: decode OP_LO { format DspIntOp { 0x4: shll_s_w({{ - Rd.sw = dspShll(Rt.sw, RS, SIMD_FMT_W, + Rd_sw = dspShll(Rt_sw, RS, SIMD_FMT_W, SATURATE, SIGNED, &dspctl); }}); 0x5: shra_r_w({{ - Rd.sw = dspShra(Rt.sw, RS, SIMD_FMT_W, + Rd_sw = dspShra(Rt_sw, RS, SIMD_FMT_W, ROUND, SIGNED, &dspctl); }}); 0x6: shllv_s_w({{ - Rd.sw = dspShll(Rt.sw, Rs.sw, SIMD_FMT_W, + Rd_sw = dspShll(Rt_sw, Rs_sw, SIMD_FMT_W, SATURATE, SIGNED, &dspctl); }}); 0x7: shrav_r_w({{ - Rd.sw = dspShra(Rt.sw, Rs.sw, SIMD_FMT_W, + Rd_sw = dspShra(Rt_sw, Rs_sw, SIMD_FMT_W, ROUND, SIGNED, &dspctl); }}); } @@ -2070,11 +2070,11 @@ decode OPCODE_HI default Unknown::unknown() { 0x3: decode OP_LO { format DspIntOp { 0x1: shrl_ph({{ - Rd.sw = dspShrl(Rt.sw, RS, SIMD_FMT_PH, + Rd_sw = dspShrl(Rt_sw, RS, SIMD_FMT_PH, UNSIGNED); }}); 0x3: shrlv_ph({{ - Rd.sw = dspShrl(Rt.sw, Rs.sw, SIMD_FMT_PH, + Rd_sw = dspShrl(Rt_sw, Rs_sw, SIMD_FMT_PH, UNSIGNED); }}); } @@ -2090,19 +2090,19 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format DspIntOp { 0x0: adduh_qb({{ - Rd.uw = dspAddh(Rs.sw, Rt.sw, SIMD_FMT_QB, + Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_QB, NOROUND, UNSIGNED); }}); 0x1: subuh_qb({{ - Rd.uw = dspSubh(Rs.sw, Rt.sw, SIMD_FMT_QB, + Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_QB, NOROUND, UNSIGNED); }}); 0x2: adduh_r_qb({{ - Rd.uw = dspAddh(Rs.sw, Rt.sw, SIMD_FMT_QB, + Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_QB, ROUND, UNSIGNED); }}); 0x3: subuh_r_qb({{ - Rd.uw = dspSubh(Rs.sw, Rt.sw, SIMD_FMT_QB, + Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_QB, ROUND, UNSIGNED); }}); } @@ -2110,27 +2110,27 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode OP_LO { format DspIntOp { 0x0: addqh_ph({{ - Rd.uw = dspAddh(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_PH, NOROUND, SIGNED); }}); 0x1: subqh_ph({{ - Rd.uw = dspSubh(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_PH, NOROUND, SIGNED); }}); 0x2: addqh_r_ph({{ - Rd.uw = dspAddh(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_PH, ROUND, SIGNED); }}); 0x3: subqh_r_ph({{ - Rd.uw = dspSubh(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_PH, ROUND, SIGNED); }}); 0x4: mul_ph({{ - Rd.sw = dspMul(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_sw = dspMul(Rs_sw, Rt_sw, SIMD_FMT_PH, NOSATURATE, &dspctl); }}, IntMultOp); 0x6: mul_s_ph({{ - Rd.sw = dspMul(Rs.sw, Rt.sw, SIMD_FMT_PH, + Rd_sw = dspMul(Rs_sw, Rt_sw, SIMD_FMT_PH, SATURATE, &dspctl); }}, IntMultOp); } @@ -2138,27 +2138,27 @@ decode OPCODE_HI default Unknown::unknown() { 0x2: decode OP_LO { format DspIntOp { 0x0: addqh_w({{ - Rd.uw = dspAddh(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_W, NOROUND, SIGNED); }}); 0x1: subqh_w({{ - Rd.uw = dspSubh(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_W, NOROUND, SIGNED); }}); 0x2: addqh_r_w({{ - Rd.uw = dspAddh(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_uw = dspAddh(Rs_sw, Rt_sw, SIMD_FMT_W, ROUND, SIGNED); }}); 0x3: subqh_r_w({{ - Rd.uw = dspSubh(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_uw = dspSubh(Rs_sw, Rt_sw, SIMD_FMT_W, ROUND, SIGNED); }}); 0x6: mulq_s_w({{ - Rd.sw = dspMulq(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_W, SATURATE, NOROUND, &dspctl); }}, IntMultOp); 0x7: mulq_rs_w({{ - Rd.sw = dspMulq(Rs.sw, Rt.sw, SIMD_FMT_W, + Rd_sw = dspMulq(Rs_sw, Rt_sw, SIMD_FMT_W, SATURATE, ROUND, &dspctl); }}, IntMultOp); } @@ -2170,13 +2170,13 @@ decode OPCODE_HI default Unknown::unknown() { 0x4: decode SA { format BasicOp { 0x02: wsbh({{ - Rd.uw = Rt.uw<23:16> << 24 | - Rt.uw<31:24> << 16 | - Rt.uw<7:0> << 8 | - Rt.uw<15:8>; + Rd_uw = Rt_uw<23:16> << 24 | + Rt_uw<31:24> << 16 | + Rt_uw<7:0> << 8 | + Rt_uw<15:8>; }}); - 0x10: seb({{ Rd.sw = Rt.sb; }}); - 0x18: seh({{ Rd.sw = Rt.sh; }}); + 0x10: seb({{ Rd_sw = Rt_sb; }}); + 0x18: seh({{ Rd_sw = Rt_sh; }}); } } @@ -2188,40 +2188,40 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format DspHiLoOp { 0x0: dpa_w_ph({{ - dspac = dspDpa(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIGNED, MODE_L); }}, IntMultOp); 0x1: dps_w_ph({{ - dspac = dspDps(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIGNED, MODE_L); }}, IntMultOp); 0x2: mulsa_w_ph({{ - dspac = dspMulsa(dspac, Rs.sw, Rt.sw, + dspac = dspMulsa(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH ); }}, IntMultOp); 0x3: dpau_h_qbl({{ - dspac = dspDpa(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_QB, UNSIGNED, MODE_L); }}, IntMultOp); 0x4: dpaq_s_w_ph({{ - dspac = dspDpaq(dspac, Rs.sw, Rt.sw, + dspac = dspDpaq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIMD_FMT_W, NOSATURATE, MODE_L, &dspctl); }}, IntMultOp); 0x5: dpsq_s_w_ph({{ - dspac = dspDpsq(dspac, Rs.sw, Rt.sw, + dspac = dspDpsq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIMD_FMT_W, NOSATURATE, MODE_L, &dspctl); }}, IntMultOp); 0x6: mulsaq_s_w_ph({{ - dspac = dspMulsaq(dspac, Rs.sw, Rt.sw, + dspac = dspMulsaq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, &dspctl); }}, IntMultOp); 0x7: dpau_h_qbr({{ - dspac = dspDpa(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_QB, UNSIGNED, MODE_R); }}, IntMultOp); } @@ -2229,31 +2229,31 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode OP_LO { format DspHiLoOp { 0x0: dpax_w_ph({{ - dspac = dspDpa(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDpa(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIGNED, MODE_X); }}, IntMultOp); 0x1: dpsx_w_ph({{ - dspac = dspDps(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIGNED, MODE_X); }}, IntMultOp); 0x3: dpsu_h_qbl({{ - dspac = dspDps(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_QB, UNSIGNED, MODE_L); }}, IntMultOp); 0x4: dpaq_sa_l_w({{ - dspac = dspDpaq(dspac, Rs.sw, Rt.sw, + dspac = dspDpaq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_W, SIMD_FMT_L, SATURATE, MODE_L, &dspctl); }}, IntMultOp); 0x5: dpsq_sa_l_w({{ - dspac = dspDpsq(dspac, Rs.sw, Rt.sw, + dspac = dspDpsq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_W, SIMD_FMT_L, SATURATE, MODE_L, &dspctl); }}, IntMultOp); 0x7: dpsu_h_qbr({{ - dspac = dspDps(dspac, Rs.sw, Rt.sw, ACDST, + dspac = dspDps(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_QB, UNSIGNED, MODE_R); }}, IntMultOp); } @@ -2261,22 +2261,22 @@ decode OPCODE_HI default Unknown::unknown() { 0x2: decode OP_LO { format DspHiLoOp { 0x0: maq_sa_w_phl({{ - dspac = dspMaq(dspac, Rs.uw, Rt.uw, + dspac = dspMaq(dspac, Rs_uw, Rt_uw, ACDST, SIMD_FMT_PH, MODE_L, SATURATE, &dspctl); }}, IntMultOp); 0x2: maq_sa_w_phr({{ - dspac = dspMaq(dspac, Rs.uw, Rt.uw, + dspac = dspMaq(dspac, Rs_uw, Rt_uw, ACDST, SIMD_FMT_PH, MODE_R, SATURATE, &dspctl); }}, IntMultOp); 0x4: maq_s_w_phl({{ - dspac = dspMaq(dspac, Rs.uw, Rt.uw, + dspac = dspMaq(dspac, Rs_uw, Rt_uw, ACDST, SIMD_FMT_PH, MODE_L, NOSATURATE, &dspctl); }}, IntMultOp); 0x6: maq_s_w_phr({{ - dspac = dspMaq(dspac, Rs.uw, Rt.uw, + dspac = dspMaq(dspac, Rs_uw, Rt_uw, ACDST, SIMD_FMT_PH, MODE_R, NOSATURATE, &dspctl); }}, IntMultOp); @@ -2285,25 +2285,25 @@ decode OPCODE_HI default Unknown::unknown() { 0x3: decode OP_LO { format DspHiLoOp { 0x0: dpaqx_s_w_ph({{ - dspac = dspDpaq(dspac, Rs.sw, Rt.sw, + dspac = dspDpaq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIMD_FMT_W, NOSATURATE, MODE_X, &dspctl); }}, IntMultOp); 0x1: dpsqx_s_w_ph({{ - dspac = dspDpsq(dspac, Rs.sw, Rt.sw, + dspac = dspDpsq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIMD_FMT_W, NOSATURATE, MODE_X, &dspctl); }}, IntMultOp); 0x2: dpaqx_sa_w_ph({{ - dspac = dspDpaq(dspac, Rs.sw, Rt.sw, + dspac = dspDpaq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIMD_FMT_W, SATURATE, MODE_X, &dspctl); }}, IntMultOp); 0x3: dpsqx_sa_w_ph({{ - dspac = dspDpsq(dspac, Rs.sw, Rt.sw, + dspac = dspDpsq(dspac, Rs_sw, Rt_sw, ACDST, SIMD_FMT_PH, SIMD_FMT_W, SATURATE, MODE_X, &dspctl); @@ -2317,19 +2317,19 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format IntOp { 0x0: append({{ - Rt.uw = (Rt.uw << RD) | bits(Rs.uw, RD - 1, 0); + Rt_uw = (Rt_uw << RD) | bits(Rs_uw, RD - 1, 0); }}); 0x1: prepend({{ - Rt.uw = (Rt.uw >> RD) | - (bits(Rs.uw, RD - 1, 0) << (32 - RD)); + Rt_uw = (Rt_uw >> RD) | + (bits(Rs_uw, RD - 1, 0) << (32 - RD)); }}); } } 0x2: decode OP_LO { format IntOp { 0x0: balign({{ - Rt.uw = (Rt.uw << (8 * BP)) | - (Rs.uw >> (8 * (4 - BP))); + Rt_uw = (Rt_uw << (8 * BP)) | + (Rs_uw >> (8 * (4 - BP))); }}); } } @@ -2344,33 +2344,33 @@ decode OPCODE_HI default Unknown::unknown() { 0x0: decode OP_LO { format DspHiLoOp { 0x0: extr_w({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_W, RS, + Rt_uw = dspExtr(dspac, SIMD_FMT_W, RS, NOROUND, NOSATURATE, &dspctl); }}); 0x1: extrv_w({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_W, Rs.uw, + Rt_uw = dspExtr(dspac, SIMD_FMT_W, Rs_uw, NOROUND, NOSATURATE, &dspctl); }}); 0x2: extp({{ - Rt.uw = dspExtp(dspac, RS, &dspctl); + Rt_uw = dspExtp(dspac, RS, &dspctl); }}); 0x3: extpv({{ - Rt.uw = dspExtp(dspac, Rs.uw, &dspctl); + Rt_uw = dspExtp(dspac, Rs_uw, &dspctl); }}); 0x4: extr_r_w({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_W, RS, + Rt_uw = dspExtr(dspac, SIMD_FMT_W, RS, ROUND, NOSATURATE, &dspctl); }}); 0x5: extrv_r_w({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_W, Rs.uw, + Rt_uw = dspExtr(dspac, SIMD_FMT_W, Rs_uw, ROUND, NOSATURATE, &dspctl); }}); 0x6: extr_rs_w({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_W, RS, + Rt_uw = dspExtr(dspac, SIMD_FMT_W, RS, ROUND, SATURATE, &dspctl); }}); 0x7: extrv_rs_w({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_W, Rs.uw, + Rt_uw = dspExtr(dspac, SIMD_FMT_W, Rs_uw, ROUND, SATURATE, &dspctl); }}); } @@ -2378,17 +2378,17 @@ decode OPCODE_HI default Unknown::unknown() { 0x1: decode OP_LO { format DspHiLoOp { 0x2: extpdp({{ - Rt.uw = dspExtpd(dspac, RS, &dspctl); + Rt_uw = dspExtpd(dspac, RS, &dspctl); }}); 0x3: extpdpv({{ - Rt.uw = dspExtpd(dspac, Rs.uw, &dspctl); + Rt_uw = dspExtpd(dspac, Rs_uw, &dspctl); }}); 0x6: extr_s_h({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_PH, RS, + Rt_uw = dspExtr(dspac, SIMD_FMT_PH, RS, NOROUND, SATURATE, &dspctl); }}); 0x7: extrv_s_h({{ - Rt.uw = dspExtr(dspac, SIMD_FMT_PH, Rs.uw, + Rt_uw = dspExtr(dspac, SIMD_FMT_PH, Rs_uw, NOROUND, SATURATE, &dspctl); }}); } @@ -2396,10 +2396,10 @@ decode OPCODE_HI default Unknown::unknown() { 0x2: decode OP_LO { format DspIntOp { 0x2: rddsp({{ - Rd.uw = readDSPControl(&dspctl, RDDSPMASK); + Rd_uw = readDSPControl(&dspctl, RDDSPMASK); }}); 0x3: wrdsp({{ - writeDSPControl(&dspctl, Rs.uw, WRDSPMASK); + writeDSPControl(&dspctl, Rs_uw, WRDSPMASK); }}); } } @@ -2415,17 +2415,17 @@ decode OPCODE_HI default Unknown::unknown() { } }}); 0x3: shilov({{ - if (sext<6>(Rs.sw<5:0>) < 0) { + if (sext<6>(Rs_sw<5:0>) < 0) { dspac = (uint64_t)dspac << - -sext<6>(Rs.sw<5:0>); + -sext<6>(Rs_sw<5:0>); } else { dspac = (uint64_t)dspac >> - sext<6>(Rs.sw<5:0>); + sext<6>(Rs_sw<5:0>); } }}); 0x7: mthlip({{ dspac = dspac << 32; - dspac |= Rs.uw; + dspac |= Rs_uw; dspctl = insertBits(dspctl, 5, 0, dspctl<5:0> + 32); }}); @@ -2445,21 +2445,21 @@ decode OPCODE_HI default Unknown::unknown() { 0x4: decode OPCODE_LO { format LoadMemory { - 0x0: lb({{ Rt.sw = Mem.sb; }}); - 0x1: lh({{ Rt.sw = Mem.sh; }}); - 0x3: lw({{ Rt.sw = Mem.sw; }}); - 0x4: lbu({{ Rt.uw = Mem.ub;}}); - 0x5: lhu({{ Rt.uw = Mem.uh; }}); + 0x0: lb({{ Rt_sw = Mem_sb; }}); + 0x1: lh({{ Rt_sw = Mem_sh; }}); + 0x3: lw({{ Rt_sw = Mem_sw; }}); + 0x4: lbu({{ Rt_uw = Mem_ub;}}); + 0x5: lhu({{ Rt_uw = Mem_uh; }}); } format LoadUnalignedMemory { 0x2: lwl({{ uint32_t mem_shift = 24 - (8 * byte_offset); - Rt.uw = mem_word << mem_shift | (Rt.uw & mask(mem_shift)); + Rt_uw = mem_word << mem_shift | (Rt_uw & mask(mem_shift)); }}); 0x6: lwr({{ uint32_t mem_shift = 8 * byte_offset; - Rt.uw = (Rt.uw & (mask(mem_shift) << (32 - mem_shift))) | + Rt_uw = (Rt_uw & (mask(mem_shift) << (32 - mem_shift))) | (mem_word >> mem_shift); }}); } @@ -2467,9 +2467,9 @@ decode OPCODE_HI default Unknown::unknown() { 0x5: decode OPCODE_LO { format StoreMemory { - 0x0: sb({{ Mem.ub = Rt<7:0>; }}); - 0x1: sh({{ Mem.uh = Rt<15:0>; }}); - 0x3: sw({{ Mem.uw = Rt<31:0>; }}); + 0x0: sb({{ Mem_ub = Rt<7:0>; }}); + 0x1: sh({{ Mem_uh = Rt<15:0>; }}); + 0x3: sw({{ Mem_uw = Rt<31:0>; }}); } format StoreUnalignedMemory { @@ -2477,17 +2477,17 @@ decode OPCODE_HI default Unknown::unknown() { uint32_t reg_shift = 24 - (8 * byte_offset); uint32_t mem_shift = 32 - reg_shift; mem_word = (mem_word & (mask(reg_shift) << mem_shift)) | - (Rt.uw >> reg_shift); + (Rt_uw >> reg_shift); }}); 0x6: swr({{ uint32_t reg_shift = 8 * byte_offset; - mem_word = Rt.uw << reg_shift | + mem_word = Rt_uw << reg_shift | (mem_word & (mask(reg_shift))); }}); } format CP0Control { 0x7: cache({{ - //Addr CacheEA = Rs.uw + OFFSET; + //Addr CacheEA = Rs_uw + OFFSET; //fault = xc->CacheOp((uint8_t)CACHE_OP,(Addr) CacheEA); }}); } @@ -2495,9 +2495,9 @@ decode OPCODE_HI default Unknown::unknown() { 0x6: decode OPCODE_LO { format LoadMemory { - 0x0: ll({{ Rt.uw = Mem.uw; }}, mem_flags=LLSC); - 0x1: lwc1({{ Ft.uw = Mem.uw; }}); - 0x5: ldc1({{ Ft.ud = Mem.ud; }}); + 0x0: ll({{ Rt_uw = Mem_uw; }}, mem_flags=LLSC); + 0x1: lwc1({{ Ft_uw = Mem_uw; }}); + 0x5: ldc1({{ Ft_ud = Mem_ud; }}); } 0x2: CP2Unimpl::lwc2(); 0x6: CP2Unimpl::ldc2(); @@ -2506,14 +2506,14 @@ decode OPCODE_HI default Unknown::unknown() { 0x7: decode OPCODE_LO { - 0x0: StoreCond::sc({{ Mem.uw = Rt.uw; }}, + 0x0: StoreCond::sc({{ Mem_uw = Rt_uw; }}, {{ uint64_t tmp = write_result; - Rt.uw = (tmp == 0 || tmp == 1) ? tmp : Rt.uw; + Rt_uw = (tmp == 0 || tmp == 1) ? tmp : Rt_uw; }}, mem_flags=LLSC, inst_flags = IsStoreConditional); format StoreMemory { - 0x1: swc1({{ Mem.uw = Ft.uw; }}); - 0x5: sdc1({{ Mem.ud = Ft.ud; }}); + 0x1: swc1({{ Mem_uw = Ft_uw; }}); + 0x5: sdc1({{ Mem_ud = Ft_ud; }}); } 0x2: CP2Unimpl::swc2(); 0x6: CP2Unimpl::sdc2(); diff --git a/src/arch/mips/isa/formats/fp.isa b/src/arch/mips/isa/formats/fp.isa index dcea32a36..f99d2327e 100644 --- a/src/arch/mips/isa/formats/fp.isa +++ b/src/arch/mips/isa/formats/fp.isa @@ -217,20 +217,20 @@ def format FloatCompareOp(cond_code, *flags) {{ import sys code = 'bool cond;\n' - if '.sf' in cond_code or 'SinglePrecision' in flags: + if '_sf' in cond_code or 'SinglePrecision' in flags: if 'QnanException' in flags: - code += 'if (isQnan(&Fs.sf, 32) || isQnan(&Ft.sf, 32)) {\n' + code += 'if (isQnan(&Fs_sf, 32) || isQnan(&Ft_sf, 32)) {\n' code += '\tFCSR = genInvalidVector(FCSR);\n' code += '\treturn NoFault;' code += '}\n else ' - code += 'if (isNan(&Fs.sf, 32) || isNan(&Ft.sf, 32)) {\n' - elif '.df' in cond_code or 'DoublePrecision' in flags: + code += 'if (isNan(&Fs_sf, 32) || isNan(&Ft_sf, 32)) {\n' + elif '_df' in cond_code or 'DoublePrecision' in flags: if 'QnanException' in flags: - code += 'if (isQnan(&Fs.df, 64) || isQnan(&Ft.df, 64)) {\n' + code += 'if (isQnan(&Fs_df, 64) || isQnan(&Ft_df, 64)) {\n' code += '\tFCSR = genInvalidVector(FCSR);\n' code += '\treturn NoFault;' code += '}\n else ' - code += 'if (isNan(&Fs.df, 64) || isNan(&Ft.df, 64)) {\n' + code += 'if (isNan(&Fs_df, 64) || isNan(&Ft_df, 64)) {\n' else: sys.exit('Decoder Failed: Can\'t Determine Operand Type\n') @@ -257,16 +257,16 @@ def format FloatConvertOp(code, *flags) {{ #Determine Source Type convert = 'fpConvert(' - if '.sf' in code: + if '_sf' in code: code = 'float ' + code + '\n' convert += 'SINGLE_TO_' - elif '.df' in code: + elif '_df' in code: code = 'double ' + code + '\n' convert += 'DOUBLE_TO_' - elif '.uw' in code: + elif '_uw' in code: code = 'uint32_t ' + code + '\n' convert += 'WORD_TO_' - elif '.ud' in code: + elif '_ud' in code: code = 'uint64_t ' + code + '\n' convert += 'LONG_TO_' else: @@ -274,13 +274,13 @@ def format FloatConvertOp(code, *flags) {{ #Determine Destination Type if 'ToSingle' in flags: - code += 'Fd.uw = ' + convert + 'SINGLE, ' + code += 'Fd_uw = ' + convert + 'SINGLE, ' elif 'ToDouble' in flags: - code += 'Fd.ud = ' + convert + 'DOUBLE, ' + code += 'Fd_ud = ' + convert + 'DOUBLE, ' elif 'ToWord' in flags: - code += 'Fd.uw = ' + convert + 'WORD, ' + code += 'Fd_uw = ' + convert + 'WORD, ' elif 'ToLong' in flags: - code += 'Fd.ud = ' + convert + 'LONG, ' + code += 'Fd_ud = ' + convert + 'LONG, ' else: sys.exit("Error Determining Destination Type for Conversion") @@ -328,17 +328,17 @@ def format FloatPSCompareOp(cond_code1, cond_code2, *flags) {{ code += 'code_block1 = code_block2 = true;\n' if 'QnanException' in flags: - code += 'if (isQnan(&Fs1.sf, 32) || isQnan(&Ft1.sf, 32)) {\n' + code += 'if (isQnan(&Fs1_sf, 32) || isQnan(&Ft1_sf, 32)) {\n' code += '\tFCSR = genInvalidVector(FCSR);\n' code += 'code_block1 = false;' code += '}\n' - code += 'if (isQnan(&Fs2.sf, 32) || isQnan(&Ft2.sf, 32)) {\n' + code += 'if (isQnan(&Fs2_sf, 32) || isQnan(&Ft2_sf, 32)) {\n' code += '\tFCSR = genInvalidVector(FCSR);\n' code += 'code_block2 = false;' code += '}\n' code += 'if (code_block1) {' - code += '\tif (isNan(&Fs1.sf, 32) || isNan(&Ft1.sf, 32)) {\n' + code += '\tif (isNan(&Fs1_sf, 32) || isNan(&Ft1_sf, 32)) {\n' if 'UnorderedTrue' in flags: code += 'cond1 = 1;\n' elif 'UnorderedFalse' in flags: @@ -350,7 +350,7 @@ def format FloatPSCompareOp(cond_code1, cond_code2, *flags) {{ code += 'FCSR = genCCVector(FCSR, CC, cond1);}\n}\n' code += 'if (code_block2) {' - code += '\tif (isNan(&Fs2.sf, 32) || isNan(&Ft2.sf, 32)) {\n' + code += '\tif (isNan(&Fs2_sf, 32) || isNan(&Ft2_sf, 32)) {\n' if 'UnorderedTrue' in flags: code += 'cond2 = 1;\n' elif 'UnorderedFalse' in flags: diff --git a/src/arch/mips/isa/formats/int.isa b/src/arch/mips/isa/formats/int.isa index 88ff5c1d3..14dcc7259 100644 --- a/src/arch/mips/isa/formats/int.isa +++ b/src/arch/mips/isa/formats/int.isa @@ -357,9 +357,9 @@ def format HiLoRdSelOp(code, *opt_flags) {{ def format HiLoRdSelValOp(code, *opt_flags) {{ - if '.sd' in code: + if '_sd' in code: code = 'int64_t ' + code - elif '.ud' in code: + elif '_ud' in code: code = 'uint64_t ' + code code += 'HI_RD_SEL = val<63:32>;\n' diff --git a/src/arch/mips/isa/formats/mem.isa b/src/arch/mips/isa/formats/mem.isa index 22296bc3b..0ef2ac6ae 100644 --- a/src/arch/mips/isa/formats/mem.isa +++ b/src/arch/mips/isa/formats/mem.isa @@ -543,7 +543,7 @@ def format StoreFPIndexedMemory(memacc_code, ea_code = {{ EA = Rs + Rt; }}, def format LoadUnalignedMemory(memacc_code, ea_code = {{ EA = (Rs + disp) & ~3; }}, mem_flags = [], inst_flags = []) {{ decl_code = ''' - uint32_t mem_word = Mem.uw; + uint32_t mem_word = Mem_uw; uint32_t unalign_addr = Rs + disp; uint32_t byte_offset = unalign_addr & 3; if (GuestByteOrder == BigEndianByteOrder) diff --git a/src/arch/power/isa/decoder.isa b/src/arch/power/isa/decoder.isa index 336e35d48..23089190f 100644 --- a/src/arch/power/isa/decoder.isa +++ b/src/arch/power/isa/decoder.isa @@ -46,7 +46,7 @@ decode OPCODE default Unknown::unknown() { }}); 11: cmpi({{ Xer xer = XER; - uint32_t cr = makeCRField(Ra.sw, (int32_t)imm, xer.so); + uint32_t cr = makeCRField(Ra_sw, (int32_t)imm, xer.so); CR = insertCRField(CR, BF, cr); }}); } @@ -88,15 +88,15 @@ decode OPCODE default Unknown::unknown() { // Arithmetic instructions all use source registers Ra and Rb, // with destination register Rt. format IntArithOp { - 75: mulhw({{ int64_t prod = Ra.sq * Rb.sq; Rt = prod >> 32; }}); - 11: mulhwu({{ uint64_t prod = Ra.uq * Rb.uq; Rt = prod >> 32; }}); - 235: mullw({{ int64_t prod = Ra.sq * Rb.sq; Rt = prod; }}); - 747: mullwo({{ int64_t src1 = Ra.sq; int64_t src2 = Rb; int64_t prod = src1 * src2; Rt = prod; }}, + 75: mulhw({{ int64_t prod = Ra_sq * Rb_sq; Rt = prod >> 32; }}); + 11: mulhwu({{ uint64_t prod = Ra_uq * Rb_uq; Rt = prod >> 32; }}); + 235: mullw({{ int64_t prod = Ra_sq * Rb_sq; Rt = prod; }}); + 747: mullwo({{ int64_t src1 = Ra_sq; int64_t src2 = Rb; int64_t prod = src1 * src2; Rt = prod; }}, true); 491: divw({{ - int32_t src1 = Ra.sw; - int32_t src2 = Rb.sw; + int32_t src1 = Ra_sw; + int32_t src2 = Rb_sw; if ((src1 != 0x80000000 || src2 != 0xffffffff) && src2 != 0) { Rt = src1 / src2; @@ -106,8 +106,8 @@ decode OPCODE default Unknown::unknown() { }}); 1003: divwo({{ - int32_t src1 = Ra.sw; - int32_t src2 = Rb.sw; + int32_t src1 = Ra_sw; + int32_t src2 = Rb_sw; if ((src1 != 0x80000000 || src2 != 0xffffffff) && src2 != 0) { Rt = src1 / src2; @@ -119,8 +119,8 @@ decode OPCODE default Unknown::unknown() { true); 459: divwu({{ - uint32_t src1 = Ra.sw; - uint32_t src2 = Rb.sw; + uint32_t src1 = Ra_sw; + uint32_t src2 = Rb_sw; if (src2 != 0) { Rt = src1 / src2; } else { @@ -129,8 +129,8 @@ decode OPCODE default Unknown::unknown() { }}); 971: divwuo({{ - uint32_t src1 = Ra.sw; - uint32_t src2 = Rb.sw; + uint32_t src1 = Ra_sw; + uint32_t src2 = Rb_sw; if (src2 != 0) { Rt = src1 / src2; } else { @@ -247,7 +247,7 @@ decode OPCODE default Unknown::unknown() { format IntOp { 0: cmp({{ Xer xer = XER; - uint32_t cr = makeCRField(Ra.sw, Rb.sw, xer.so); + uint32_t cr = makeCRField(Ra_sw, Rb_sw, xer.so); CR = insertCRField(CR, BF, cr); }}); 32: cmpl({{ @@ -282,30 +282,30 @@ decode OPCODE default Unknown::unknown() { // R0. Others update Ra with the effective address. In all cases, // Ra and Rb are source registers, Rt is the destintation. format LoadIndexOp { - 87: lbzx({{ Rt = Mem.ub; }}); - 279: lhzx({{ Rt = Mem.uh; }}); - 343: lhax({{ Rt = Mem.sh; }}); + 87: lbzx({{ Rt = Mem_ub; }}); + 279: lhzx({{ Rt = Mem_uh; }}); + 343: lhax({{ Rt = Mem_sh; }}); 23: lwzx({{ Rt = Mem; }}); - 341: lwax({{ Rt = Mem.sw; }}); - 20: lwarx({{ Rt = Mem.sw; Rsv = 1; RsvLen = 4; RsvAddr = EA; }}); - 535: lfsx({{ Ft.sf = Mem.sf; }}); - 599: lfdx({{ Ft = Mem.df; }}); - 855: lfiwax({{ Ft.uw = Mem; }}); + 341: lwax({{ Rt = Mem_sw; }}); + 20: lwarx({{ Rt = Mem_sw; Rsv = 1; RsvLen = 4; RsvAddr = EA; }}); + 535: lfsx({{ Ft_sf = Mem_sf; }}); + 599: lfdx({{ Ft = Mem_df; }}); + 855: lfiwax({{ Ft_uw = Mem; }}); } format LoadIndexUpdateOp { - 119: lbzux({{ Rt = Mem.ub; }}); - 311: lhzux({{ Rt = Mem.uh; }}); - 375: lhaux({{ Rt = Mem.sh; }}); + 119: lbzux({{ Rt = Mem_ub; }}); + 311: lhzux({{ Rt = Mem_uh; }}); + 375: lhaux({{ Rt = Mem_sh; }}); 55: lwzux({{ Rt = Mem; }}); - 373: lwaux({{ Rt = Mem.sw; }}); - 567: lfsux({{ Ft.sf = Mem.sf; }}); - 631: lfdux({{ Ft = Mem.df; }}); + 373: lwaux({{ Rt = Mem_sw; }}); + 567: lfsux({{ Ft_sf = Mem_sf; }}); + 631: lfdux({{ Ft = Mem_df; }}); } format StoreIndexOp { - 215: stbx({{ Mem.ub = Rs.ub; }}); - 407: sthx({{ Mem.uh = Rs.uh; }}); + 215: stbx({{ Mem_ub = Rs_ub; }}); + 407: sthx({{ Mem_uh = Rs_uh; }}); 151: stwx({{ Mem = Rs; }}); 150: stwcx({{ bool store_performed = false; @@ -323,17 +323,17 @@ decode OPCODE default Unknown::unknown() { CR = cr; Rsv = 0; }}); - 663: stfsx({{ Mem.sf = Fs.sf; }}); - 727: stfdx({{ Mem.df = Fs; }}); - 983: stfiwx({{ Mem = Fs.uw; }}); + 663: stfsx({{ Mem_sf = Fs_sf; }}); + 727: stfdx({{ Mem_df = Fs; }}); + 983: stfiwx({{ Mem = Fs_uw; }}); } format StoreIndexUpdateOp { - 247: stbux({{ Mem.ub = Rs.ub; }}); - 439: sthux({{ Mem.uh = Rs.uh; }}); + 247: stbux({{ Mem_ub = Rs_ub; }}); + 439: sthux({{ Mem_uh = Rs_uh; }}); 183: stwux({{ Mem = Rs; }}); - 695: stfsux({{ Mem.sf = Fs.sf; }}); - 759: stfdux({{ Mem.df = Fs; }}); + 695: stfsux({{ Mem_sf = Fs_sf; }}); + 759: stfdux({{ Mem_df = Fs; }}); } // These instructions all provide data cache hints @@ -360,7 +360,7 @@ decode OPCODE default Unknown::unknown() { 8: subfic({{ int32_t src = ~Ra; Rt = src + imm + 1; }}, [computeCA]); 7: mulli({{ - int32_t src = Ra.sw; + int32_t src = Ra_sw; int64_t prod = src * imm; Rt = (uint32_t)prod; }}); @@ -476,40 +476,40 @@ decode OPCODE default Unknown::unknown() { } format LoadDispOp { - 34: lbz({{ Rt = Mem.ub; }}); - 40: lhz({{ Rt = Mem.uh; }}); - 42: lha({{ Rt = Mem.sh; }}); + 34: lbz({{ Rt = Mem_ub; }}); + 40: lhz({{ Rt = Mem_uh; }}); + 42: lha({{ Rt = Mem_sh; }}); 32: lwz({{ Rt = Mem; }}); - 58: lwa({{ Rt = Mem.sw; }}, + 58: lwa({{ Rt = Mem_sw; }}, {{ EA = Ra + (disp & 0xfffffffc); }}, {{ EA = disp & 0xfffffffc; }}); - 48: lfs({{ Ft.sf = Mem.sf; }}); - 50: lfd({{ Ft = Mem.df; }}); + 48: lfs({{ Ft_sf = Mem_sf; }}); + 50: lfd({{ Ft = Mem_df; }}); } format LoadDispUpdateOp { - 35: lbzu({{ Rt = Mem.ub; }}); - 41: lhzu({{ Rt = Mem.uh; }}); - 43: lhau({{ Rt = Mem.sh; }}); + 35: lbzu({{ Rt = Mem_ub; }}); + 41: lhzu({{ Rt = Mem_uh; }}); + 43: lhau({{ Rt = Mem_sh; }}); 33: lwzu({{ Rt = Mem; }}); - 49: lfsu({{ Ft.sf = Mem.sf; }}); - 51: lfdu({{ Ft = Mem.df; }}); + 49: lfsu({{ Ft_sf = Mem_sf; }}); + 51: lfdu({{ Ft = Mem_df; }}); } format StoreDispOp { - 38: stb({{ Mem.ub = Rs.ub; }}); - 44: sth({{ Mem.uh = Rs.uh; }}); + 38: stb({{ Mem_ub = Rs_ub; }}); + 44: sth({{ Mem_uh = Rs_uh; }}); 36: stw({{ Mem = Rs; }}); - 52: stfs({{ Mem.sf = Fs.sf; }}); - 54: stfd({{ Mem.df = Fs; }}); + 52: stfs({{ Mem_sf = Fs_sf; }}); + 54: stfd({{ Mem_df = Fs; }}); } format StoreDispUpdateOp { - 39: stbu({{ Mem.ub = Rs.ub; }}); - 45: sthu({{ Mem.uh = Rs.uh; }}); + 39: stbu({{ Mem_ub = Rs_ub; }}); + 45: sthu({{ Mem_uh = Rs_uh; }}); 37: stwu({{ Mem = Rs; }}); - 53: stfsu({{ Mem.sf = Fs.sf; }}); - 55: stfdu({{ Mem.df = Fs; }}); + 53: stfsu({{ Mem_sf = Fs_sf; }}); + 55: stfdu({{ Mem_df = Fs; }}); } 17: IntOp::sc({{ xc->syscall(R0); }}, @@ -542,8 +542,8 @@ decode OPCODE default Unknown::unknown() { default: decode XO_XO { format FloatConvertOp { - 12: frsp({{ Ft.sf = Fb; }}); - 15: fctiwz({{ Ft.sw = (int32_t)trunc(Fb); }}); + 12: frsp({{ Ft_sf = Fb; }}); + 15: fctiwz({{ Ft_sw = (int32_t)trunc(Fb); }}); } format FloatOp { @@ -559,28 +559,28 @@ decode OPCODE default Unknown::unknown() { format FloatRCCheckOp { 72: fmr({{ Ft = Fb; }}); 264: fabs({{ - Ft.uq = Fb.uq; - Ft.uq = insertBits(Ft.uq, 63, 0); }}); + Ft_uq = Fb_uq; + Ft_uq = insertBits(Ft_uq, 63, 0); }}); 136: fnabs({{ - Ft.uq = Fb.uq; - Ft.uq = insertBits(Ft.uq, 63, 1); }}); + Ft_uq = Fb_uq; + Ft_uq = insertBits(Ft_uq, 63, 1); }}); 40: fneg({{ Ft = -Fb; }}); 8: fcpsgn({{ - Ft.uq = Fb.uq; - Ft.uq = insertBits(Ft.uq, 63, Fa.uq<63:63>); + Ft_uq = Fb_uq; + Ft_uq = insertBits(Ft_uq, 63, Fa_uq<63:63>); }}); - 583: mffs({{ Ft.uq = FPSCR; }}); + 583: mffs({{ Ft_uq = FPSCR; }}); 134: mtfsfi({{ FPSCR = insertCRField(FPSCR, BF + (8 * (1 - W)), U_FIELD); }}); 711: mtfsf({{ - if (L == 1) { FPSCR = Fb.uq; } + if (L == 1) { FPSCR = Fb_uq; } else { for (int i = 0; i < 8; ++i) { if (bits(FLM, i) == 1) { int k = 4 * (i + (8 * (1 - W))); FPSCR = insertBits(FPSCR, k, k + 3, - bits(Fb.uq, k, k + 3)); + bits(Fb_uq, k, k + 3)); } } } diff --git a/src/arch/power/isa/formats/fp.isa b/src/arch/power/isa/formats/fp.isa index db917476e..ef5a430b5 100644 --- a/src/arch/power/isa/formats/fp.isa +++ b/src/arch/power/isa/formats/fp.isa @@ -84,7 +84,7 @@ def format FloatRCCheckOp(code, inst_flags = []) {{ // Floating point elementary arithmetic operations. Besides having two // versions of each instruction for when Rc is set or not, we also have // to alter lots of special registers depending on the result of the -// operation. The result is always in Ft.sf. +// operation. The result is always in Ft_sf. def format FloatArithOp(code, inst_flags = []) {{ # Code when Rc is set @@ -109,7 +109,7 @@ def format FloatArithOp(code, inst_flags = []) {{ // Floating point rounding and conversion operations. Besides having two // versions of each instruction for when Rc is set or not, we also have // to alter lots of special registers depending on the result of the -// operation. The result is always in Ft.sf. +// operation. The result is always in Ft_sf. def format FloatConvertOp(code, inst_flags = []) {{ # Code when Rc is set 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''' - (?\d)_or_imm(?P\d+)(?P\.\w+)?') + matcher = re.compile(r'Rs(?P\d)_or_imm(?P\d+)(?P_[^\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::max()) { - Rd.udw = 0x7FFFFFFF; - } else if ((int64_t)Rd.udw <= + Rd_udw = 0x7FFFFFFF; + } else if ((int64_t)Rd_udw <= std::numeric_limits::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::max()); underflow = ((int64_t)Rd <= std::numeric_limits::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(Frs2s.sf);}}); - 0x82: fdtox({{Frd.sdw = static_cast(Frs2.df);}}); + 0x81: fstox({{Frd_sdw = static_cast(Frs2s_sf);}}); + 0x82: fdtox({{Frd_sdw = static_cast(Frs2_df);}}); 0x83: FpUnimpl::fqtox(); - 0x84: fxtos({{Frds.sf = static_cast(Frs2.sdw);}}); - 0x88: fxtod({{Frd.df = static_cast(Frs2.sdw);}}); + 0x84: fxtos({{Frds_sf = static_cast(Frs2_sdw);}}); + 0x88: fxtod({{Frd_df = static_cast(Frs2_sdw);}}); 0x8C: FpUnimpl::fxtoq(); - 0xC4: fitos({{Frds.sf = static_cast(Frs2s.sw);}}); - 0xC6: fdtos({{Frds.sf = Frs2.df;}}); + 0xC4: fitos({{Frds_sf = static_cast(Frs2s_sw);}}); + 0xC6: fdtos({{Frds_sf = Frs2_df;}}); 0xC7: FpUnimpl::fqtos(); - 0xC8: fitod({{Frd.df = static_cast(Frs2s.sw);}}); - 0xC9: fstod({{Frd.df = Frs2s.sf;}}); + 0xC8: fitod({{Frd_df = static_cast(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(Frs2s.sf); - float t = Frds.sw; - if (t != Frs2s.sf) + Frds_sw = static_cast(Frs2s_sf); + float t = Frds_sw; + if (t != Frs2s_sf) Fsr = insertBits(Fsr, 4,0, 0x01); }}); 0xD2: fdtoi({{ - Frds.sw = static_cast(Frs2.df); - double t = Frds.sw; - if (t != Frs2.df) + Frds_sw = static_cast(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::max();}}); - 0x7F: FpBasic::fones({{Frds.uw = std::numeric_limits::max();}}); + 0x7E: FpBasic::fone({{Frd_udw = std::numeric_limits::max();}}); + 0x7F: FpBasic::fones({{Frds_uw = std::numeric_limits::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); } } } diff --git a/src/arch/x86/isa/microops/fpop.isa b/src/arch/x86/isa/microops/fpop.isa index 4e62521e8..17698f198 100644 --- a/src/arch/x86/isa/microops/fpop.isa +++ b/src/arch/x86/isa/microops/fpop.isa @@ -213,12 +213,12 @@ let {{ SetStatus=False, dataSize="env.dataSize"): super(Movfp, self).__init__(dest, src1, "InstRegIndex(0)", \ spm, SetStatus, dataSize) - code = 'FpDestReg.uqw = FpSrcReg1.uqw;' - else_code = 'FpDestReg.uqw = FpDestReg.uqw;' + code = 'FpDestReg_uqw = FpSrcReg1_uqw;' + else_code = 'FpDestReg_uqw = FpDestReg_uqw;' cond_check = "checkCondition(ccFlagBits, src2)" class Xorfp(FpOp): - code = 'FpDestReg.uqw = FpSrcReg1.uqw ^ FpSrcReg2.uqw;' + code = 'FpDestReg_uqw = FpSrcReg1_uqw ^ FpSrcReg2_uqw;' class Sqrtfp(FpOp): code = 'FpDestReg = sqrt(FpSrcReg2);' diff --git a/src/arch/x86/isa/microops/ldstop.isa b/src/arch/x86/isa/microops/ldstop.isa index c88161f34..8bcf55c99 100644 --- a/src/arch/x86/isa/microops/ldstop.isa +++ b/src/arch/x86/isa/microops/ldstop.isa @@ -410,7 +410,7 @@ let {{ defineMicroLoadOp('Ldstl', 'Data = merge(Data, Mem, dataSize);', 'Data = Mem & mask(dataSize * 8);', '(StoreCheck << FlagShift) | Request::LOCKED') - defineMicroLoadOp('Ldfp', 'FpData.uqw = Mem;', big = False) + defineMicroLoadOp('Ldfp', 'FpData_uqw = Mem;', big = False) def defineMicroStoreOp(mnemonic, code, completeCode="", mem_flags="0"): global header_output @@ -447,7 +447,7 @@ let {{ defineMicroStoreOp('St', 'Mem = pick(Data, 2, dataSize);') defineMicroStoreOp('Stul', 'Mem = pick(Data, 2, dataSize);', mem_flags="Request::LOCKED") - defineMicroStoreOp('Stfp', 'Mem = FpData.uqw;') + defineMicroStoreOp('Stfp', 'Mem = FpData_uqw;') defineMicroStoreOp('Cda', 'Mem = 0;', mem_flags="Request::NO_ACCESS") iop = InstObjParams("lea", "Lea", 'X86ISA::LdStOp', diff --git a/src/arch/x86/isa/microops/limmop.isa b/src/arch/x86/isa/microops/limmop.isa index ac78b090d..9e88e4b94 100644 --- a/src/arch/x86/isa/microops/limmop.isa +++ b/src/arch/x86/isa/microops/limmop.isa @@ -171,7 +171,7 @@ let {{ exec_output += MicroLimmOpExecute.subst(iop) iop = InstObjParams("lfpimm", "Lfpimm", 'X86MicroopBase', - {"code" : "FpDestReg.uqw = imm"}) + {"code" : "FpDestReg_uqw = imm"}) header_output += MicroLimmOpDeclare.subst(iop) decoder_output += MicroLimmOpConstructor.subst(iop) decoder_output += MicroLimmOpDisassembly.subst(iop) diff --git a/src/arch/x86/isa/microops/mediaop.isa b/src/arch/x86/isa/microops/mediaop.isa index 95864c16d..9320d9f39 100644 --- a/src/arch/x86/isa/microops/mediaop.isa +++ b/src/arch/x86/isa/microops/mediaop.isa @@ -126,7 +126,7 @@ let {{ # If op2 is used anywhere, make register and immediate versions # of this code. - matcher = re.compile("(?s?)op2(?P\\.\\w+)?") + matcher = re.compile(r"(?s?)op2(?P_[^\W_]+)?") match = matcher.search(code) if match: typeQual = "" @@ -182,7 +182,7 @@ let {{ # If op2 is used anywhere, make register and immediate versions # of this code. - matcher = re.compile("op2(?P\\.\\w+)?") + matcher = re.compile(r"op2(?P_[^\W_]+)?") if matcher.search(code): microopClasses[name + 'i'] = cls return cls @@ -242,7 +242,7 @@ let {{ offset -= items; if (offset >= 0 && offset < items) { uint64_t fpSrcReg1 = - bits(FpSrcReg1.uqw, + bits(FpSrcReg1_uqw, (offset + 1) * srcSize * 8 - 1, (offset + 0) * srcSize * 8); DestReg = merge(0, fpSrcReg1, destSize); @@ -263,12 +263,12 @@ let {{ offset -= items; if (offset >= 0 && offset < items) { uint64_t srcReg1 = pick(SrcReg1, 0, srcSize); - FpDestReg.uqw = - insertBits(FpDestReg.uqw, + FpDestReg_uqw = + insertBits(FpDestReg_uqw, (offset + 1) * destSize * 8 - 1, (offset + 0) * destSize * 8, srcReg1); } else { - FpDestReg.uqw = FpDestReg.uqw; + FpDestReg_uqw = FpDestReg_uqw; } ''' @@ -283,7 +283,7 @@ let {{ int offset = (ext & 0x1) ? items : 0; for (int i = 0; i < items; i++) { uint64_t picked = - bits(FpSrcReg1.uqw, (i + 1) * 8 * srcSize - 1); + bits(FpSrcReg1_uqw, (i + 1) * 8 * srcSize - 1); result = insertBits(result, i + offset, i + offset, picked); } DestReg = DestReg | result; @@ -295,16 +295,16 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - if (bits(FpSrcReg2.uqw, hiIndex)) + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + if (bits(FpSrcReg2_uqw, hiIndex)) result = insertBits(result, hiIndex, loIndex, arg1Bits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class shuffle(MediaOp): @@ -331,11 +331,11 @@ let {{ uint8_t lsel = sel & mask(optionBits); if (lsel * size >= sizeof(FloatRegBits)) { lsel -= options / 2; - resBits = bits(FpSrcReg2.uqw, + resBits = bits(FpSrcReg2_uqw, (lsel + 1) * sizeBits - 1, (lsel + 0) * sizeBits); } else { - resBits = bits(FpSrcReg1.uqw, + resBits = bits(FpSrcReg1_uqw, (lsel + 1) * sizeBits - 1, (lsel + 0) * sizeBits); } @@ -346,7 +346,7 @@ let {{ int loIndex = (i + 0) * sizeBits; result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Unpack(MediaOp): @@ -358,21 +358,21 @@ let {{ uint64_t result = 0; for (int i = 0; i < items; i++) { uint64_t pickedLow = - bits(FpSrcReg1.uqw, (i + offset + 1) * 8 * size - 1, + bits(FpSrcReg1_uqw, (i + offset + 1) * 8 * size - 1, (i + offset) * 8 * size); result = insertBits(result, (2 * i + 1) * 8 * size - 1, (2 * i + 0) * 8 * size, pickedLow); uint64_t pickedHigh = - bits(FpSrcReg2.uqw, (i + offset + 1) * 8 * size - 1, + bits(FpSrcReg2_uqw, (i + offset + 1) * 8 * size - 1, (i + offset) * 8 * size); result = insertBits(result, (2 * i + 2) * 8 * size - 1, (2 * i + 1) * 8 * size, pickedHigh); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Pack(MediaOp): @@ -385,7 +385,7 @@ let {{ int i; for (i = 0; i < items / 2; i++) { uint64_t picked = - bits(FpSrcReg1.uqw, (i + 1) * srcBits - 1, + bits(FpSrcReg1_uqw, (i + 1) * srcBits - 1, (i + 0) * srcBits); unsigned signBit = bits(picked, srcBits - 1); uint64_t overflow = bits(picked, srcBits - 1, destBits - 1); @@ -413,7 +413,7 @@ let {{ } for (;i < items; i++) { uint64_t picked = - bits(FpSrcReg2.uqw, (i - items + 1) * srcBits - 1, + bits(FpSrcReg2_uqw, (i - items + 1) * srcBits - 1, (i - items + 0) * srcBits); unsigned signBit = bits(picked, srcBits - 1); uint64_t overflow = bits(picked, srcBits - 1, destBits - 1); @@ -439,35 +439,35 @@ let {{ (i + 0) * destBits, picked); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mxor(MediaOp): def __init__(self, dest, src1, src2): super(Mxor, self).__init__(dest, src1, src2, 1) code = ''' - FpDestReg.uqw = FpSrcReg1.uqw ^ FpSrcReg2.uqw; + FpDestReg_uqw = FpSrcReg1_uqw ^ FpSrcReg2_uqw; ''' class Mor(MediaOp): def __init__(self, dest, src1, src2): super(Mor, self).__init__(dest, src1, src2, 1) code = ''' - FpDestReg.uqw = FpSrcReg1.uqw | FpSrcReg2.uqw; + FpDestReg_uqw = FpSrcReg1_uqw | FpSrcReg2_uqw; ''' class Mand(MediaOp): def __init__(self, dest, src1, src2): super(Mand, self).__init__(dest, src1, src2, 1) code = ''' - FpDestReg.uqw = FpSrcReg1.uqw & FpSrcReg2.uqw; + FpDestReg_uqw = FpSrcReg1_uqw & FpSrcReg2_uqw; ''' class Mandn(MediaOp): def __init__(self, dest, src1, src2): super(Mandn, self).__init__(dest, src1, src2, 1) code = ''' - FpDestReg.uqw = ~FpSrcReg1.uqw & FpSrcReg2.uqw; + FpDestReg_uqw = ~FpSrcReg1_uqw & FpSrcReg2_uqw; ''' class Mminf(MediaOp): @@ -488,14 +488,14 @@ let {{ int sizeBits = size * 8; assert(srcSize == 4 || srcSize == 8); int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { double arg1, arg2; int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); if (size == 4) { floatInt fi; @@ -517,7 +517,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, arg2Bits); } } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mmaxf(MediaOp): @@ -538,14 +538,14 @@ let {{ int sizeBits = size * 8; assert(srcSize == 4 || srcSize == 8); int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { double arg1, arg2; int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); if (size == 4) { floatInt fi; @@ -567,7 +567,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, arg2Bits); } } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mmini(MediaOp): @@ -577,15 +577,15 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); int64_t arg1 = arg1Bits | (0 - (arg1Bits & (ULL(1) << (sizeBits - 1)))); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); int64_t arg2 = arg2Bits | (0 - (arg2Bits & (ULL(1) << (sizeBits - 1)))); uint64_t resBits; @@ -605,7 +605,7 @@ let {{ } result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mmaxi(MediaOp): @@ -615,15 +615,15 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); int64_t arg1 = arg1Bits | (0 - (arg1Bits & (ULL(1) << (sizeBits - 1)))); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); int64_t arg2 = arg2Bits | (0 - (arg2Bits & (ULL(1) << (sizeBits - 1)))); uint64_t resBits; @@ -643,7 +643,7 @@ let {{ } result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Msqrt(MediaOp): @@ -668,12 +668,12 @@ let {{ int sizeBits = size * 8; assert(srcSize == 4 || srcSize == 8); int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t argBits = bits(FpSrcReg1.uqw, hiIndex, loIndex); + uint64_t argBits = bits(FpSrcReg1_uqw, hiIndex, loIndex); if (size == 4) { floatInt fi; @@ -688,7 +688,7 @@ let {{ } result = insertBits(result, hiIndex, loIndex, argBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Maddf(MediaOp): @@ -709,13 +709,13 @@ let {{ int sizeBits = size * 8; assert(srcSize == 4 || srcSize == 8); int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); uint64_t resBits; if (size == 4) { @@ -734,7 +734,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Msubf(MediaOp): @@ -755,13 +755,13 @@ let {{ int sizeBits = size * 8; assert(srcSize == 4 || srcSize == 8); int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); uint64_t resBits; if (size == 4) { @@ -780,7 +780,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mmulf(MediaOp): @@ -801,13 +801,13 @@ let {{ int sizeBits = size * 8; assert(srcSize == 4 || srcSize == 8); int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); uint64_t resBits; if (size == 4) { @@ -826,7 +826,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mdivf(MediaOp): @@ -847,13 +847,13 @@ let {{ int sizeBits = size * 8; assert(srcSize == 4 || srcSize == 8); int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); uint64_t resBits; if (size == 4) { @@ -872,7 +872,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Maddi(MediaOp): @@ -881,13 +881,13 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); uint64_t resBits = arg1Bits + arg2Bits; if (ext & 0x2) { @@ -909,7 +909,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Msubi(MediaOp): @@ -918,13 +918,13 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); uint64_t resBits = arg1Bits - arg2Bits; if (ext & 0x2) { @@ -950,7 +950,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mmuli(MediaOp): @@ -960,7 +960,7 @@ let {{ assert(destBits <= 64); assert(destSize >= srcSize); int items = numItems(destSize); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int offset = 0; @@ -972,8 +972,8 @@ let {{ } int srcHiIndex = (i + 1) * srcBits - 1 + offset; int srcLoIndex = (i + 0) * srcBits + offset; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, srcHiIndex, srcLoIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, srcHiIndex, srcLoIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, srcHiIndex, srcLoIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, srcHiIndex, srcLoIndex); uint64_t resBits; if (signedOp()) { @@ -996,7 +996,7 @@ let {{ int destLoIndex = (i + 0) * destBits; result = insertBits(result, destHiIndex, destLoIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mavg(MediaOp): @@ -1005,18 +1005,18 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); uint64_t resBits = (arg1Bits + arg2Bits + 1) / 2; result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Msad(MediaOp): @@ -1028,14 +1028,14 @@ let {{ for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * srcBits - 1; int loIndex = (i + 0) * srcBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); int64_t resBits = arg1Bits - arg2Bits; if (resBits < 0) resBits = -resBits; sum += resBits; } - FpDestReg.uqw = sum & mask(destSize * 8); + FpDestReg_uqw = sum & mask(destSize * 8); ''' class Msrl(MediaOp): @@ -1045,13 +1045,13 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t shiftAmt = op2.uqw; - uint64_t result = FpDestReg.uqw; + uint64_t shiftAmt = op2_uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); uint64_t resBits; if (shiftAmt >= sizeBits) { resBits = 0; @@ -1062,7 +1062,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Msra(MediaOp): @@ -1072,13 +1072,13 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t shiftAmt = op2.uqw; - uint64_t result = FpDestReg.uqw; + uint64_t shiftAmt = op2_uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); uint64_t resBits; if (shiftAmt >= sizeBits) { if (bits(arg1Bits, sizeBits - 1)) @@ -1093,7 +1093,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Msll(MediaOp): @@ -1103,13 +1103,13 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t shiftAmt = op2.uqw; - uint64_t result = FpDestReg.uqw; + uint64_t shiftAmt = op2_uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); uint64_t resBits; if (shiftAmt >= sizeBits) { resBits = 0; @@ -1119,7 +1119,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Cvtf2i(MediaOp): @@ -1157,12 +1157,12 @@ let {{ } else { items = numItems(destSize); } - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int srcHiIndex = srcStart + (i + 1) * srcSizeBits - 1; int srcLoIndex = srcStart + (i + 0) * srcSizeBits; - uint64_t argBits = bits(FpSrcReg1.uqw, srcHiIndex, srcLoIndex); + uint64_t argBits = bits(FpSrcReg1_uqw, srcHiIndex, srcLoIndex); double arg; if (srcSize == 4) { @@ -1191,7 +1191,7 @@ let {{ int destLoIndex = destStart + (i + 0) * destSizeBits; result = insertBits(result, destHiIndex, destLoIndex, argBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Cvti2f(MediaOp): @@ -1229,12 +1229,12 @@ let {{ } else { items = numItems(destSize); } - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int srcHiIndex = srcStart + (i + 1) * srcSizeBits - 1; int srcLoIndex = srcStart + (i + 0) * srcSizeBits; - uint64_t argBits = bits(FpSrcReg1.uqw, srcHiIndex, srcLoIndex); + uint64_t argBits = bits(FpSrcReg1_uqw, srcHiIndex, srcLoIndex); int64_t sArg = argBits | (0 - (argBits & (ULL(1) << (srcSizeBits - 1)))); @@ -1253,7 +1253,7 @@ let {{ int destLoIndex = destStart + (i + 0) * destSizeBits; result = insertBits(result, destHiIndex, destLoIndex, argBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Cvtf2f(MediaOp): @@ -1291,12 +1291,12 @@ let {{ } else { items = numItems(destSize); } - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int srcHiIndex = srcStart + (i + 1) * srcSizeBits - 1; int srcLoIndex = srcStart + (i + 0) * srcSizeBits; - uint64_t argBits = bits(FpSrcReg1.uqw, srcHiIndex, srcLoIndex); + uint64_t argBits = bits(FpSrcReg1_uqw, srcHiIndex, srcLoIndex); double arg; if (srcSize == 4) { @@ -1321,7 +1321,7 @@ let {{ int destLoIndex = destStart + (i + 0) * destSizeBits; result = insertBits(result, destHiIndex, destLoIndex, argBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mcmpi2r(MediaOp): @@ -1341,15 +1341,15 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); int64_t arg1 = arg1Bits | (0 - (arg1Bits & (ULL(1) << (sizeBits - 1)))); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); int64_t arg2 = arg2Bits | (0 - (arg2Bits & (ULL(1) << (sizeBits - 1)))); @@ -1360,7 +1360,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mcmpf2r(MediaOp): @@ -1380,13 +1380,13 @@ let {{ int size = srcSize; int sizeBits = size * 8; int items = numItems(size); - uint64_t result = FpDestReg.uqw; + uint64_t result = FpDestReg_uqw; for (int i = 0; i < items; i++) { int hiIndex = (i + 1) * sizeBits - 1; int loIndex = (i + 0) * sizeBits; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, hiIndex, loIndex); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, hiIndex, loIndex); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, hiIndex, loIndex); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, hiIndex, loIndex); double arg1, arg2; if (size == 4) { @@ -1442,7 +1442,7 @@ let {{ result = insertBits(result, hiIndex, loIndex, resBits); } - FpDestReg.uqw = result; + FpDestReg_uqw = result; ''' class Mcmpf2rf(MediaOp): @@ -1468,8 +1468,8 @@ let {{ int sizeBits = size * 8; double arg1, arg2; - uint64_t arg1Bits = bits(FpSrcReg1.uqw, sizeBits - 1, 0); - uint64_t arg2Bits = bits(FpSrcReg2.uqw, sizeBits - 1, 0); + uint64_t arg1Bits = bits(FpSrcReg1_uqw, sizeBits - 1, 0); + uint64_t arg2Bits = bits(FpSrcReg2_uqw, sizeBits - 1, 0); if (size == 4) { floatInt fi; fi.i = arg1Bits; diff --git a/src/arch/x86/isa/microops/regop.isa b/src/arch/x86/isa/microops/regop.isa index e2a51c127..a6e0564ba 100644 --- a/src/arch/x86/isa/microops/regop.isa +++ b/src/arch/x86/isa/microops/regop.isa @@ -244,7 +244,7 @@ let {{ # If op2 is used anywhere, make register and immediate versions # of this code. - matcher = re.compile("(?s?)op2(?P\\.\\w+)?") + matcher = re.compile(r"(?s?)op2(?P_[^\W_]+)?") match = matcher.search(allCode + allBigCode) if match: typeQual = "" @@ -364,7 +364,7 @@ let {{ # If op2 is used anywhere, make register and immediate versions # of this code. - matcher = re.compile("op2(?P\\.\\w+)?") + matcher = re.compile(r"op2(?P_[^\W_]+)?") if matcher.search(allCode): microopClasses[name + 'i'] = cls return cls -- 2.30.2