843 lines
41 KiB
C++
843 lines
41 KiB
C++
// -*- mode:c++ -*-
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// Copyright (c) 2007-2008 The Florida State University
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met: redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer;
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// redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution;
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// neither the name of the copyright holders nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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// Authors: Stephen Hines
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////////////////////////////////////////////////////////////////////
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//
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// The actual ARM ISA decoder
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// --------------------------
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// The following instructions are specified in the ARM ISA
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// Specification. Decoding closely follows the style specified
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// in the ARM ISA specification document starting with Table B.1 or 3-1
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//
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//
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decode COND_CODE default Unknown::unknown() {
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0xf: decode COND_CODE {
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0x0: decode OPCODE_27_25 {
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// Just a simple trick to allow us to specify our new uops here
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0x0: PredImmOp::addi_uop({{ Raddr = Rn + rotated_imm; }},
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'IsMicroop');
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0x1: PredImmOp::subi_uop({{ Raddr = Rn - rotated_imm; }},
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'IsMicroop');
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0x2: ArmLoadMemory::ldr_uop({{ Rd = Mem; }},
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{{ EA = Raddr + disp; }},
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inst_flags = [IsMicroop]);
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0x3: ArmStoreMemory::str_uop({{ Mem = Rd; }},
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{{ EA = Raddr + disp; }},
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inst_flags = [IsMicroop]);
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0x4: PredImmOp::addi_rd_uop({{ Rd = Rn + rotated_imm; }},
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'IsMicroop');
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0x5: PredImmOp::subi_rd_uop({{ Rd = Rn - rotated_imm; }},
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'IsMicroop');
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}
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0x1: decode OPCODE_27_25 {
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0x0: PredIntOp::mvtd_uop({{ Fd.ud = ((uint64_t) Rhi << 32)|Rlo; }},
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'IsMicroop');
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0x1: PredIntOp::mvfd_uop({{ Rhi = (Fd.ud >> 32) & 0xffffffff;
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Rlo = Fd.ud & 0xffffffff; }},
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'IsMicroop');
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0x2: ArmLoadMemory::ldhi_uop({{ Rhi = Mem; }},
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{{ EA = Rn + disp; }},
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inst_flags = [IsMicroop]);
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0x3: ArmLoadMemory::ldlo_uop({{ Rlo = Mem; }},
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{{ EA = Rn + disp; }},
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inst_flags = [IsMicroop]);
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0x4: ArmStoreMemory::sthi_uop({{ Mem = Rhi; }},
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{{ EA = Rn + disp; }},
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inst_flags = [IsMicroop]);
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0x5: ArmStoreMemory::stlo_uop({{ Mem = Rlo; }},
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{{ EA = Rn + disp; }},
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inst_flags = [IsMicroop]);
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}
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default: Unknown::unknown(); // TODO: Ignore other NV space for now
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}
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format BasicOp{
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default: decode OPCODE_27_25 {
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0x0: decode OPCODE_4 {
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0: decode S_FIELD {
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0: decode OPCODE_24_21 {
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format PredIntOp {
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0x0: and({{ Rd = Rn & Rm_Imm; }});
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0x1: eor({{ Rd = Rn ^ Rm_Imm; }});
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0x2: sub({{ Rd = Rn - Rm_Imm; }});
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0x3: rsb({{ Rd = Rm_Imm - Rn; }});
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0x4: add({{ Rd = Rn + Rm_Imm; }});
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0x5: adc({{ Rd = Rn + Rm_Imm + Cpsr<29:>; }});
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0x6: sbc({{ Rd = Rn - Rm_Imm + Cpsr<29:> - 1; }});
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0x7: rsc({{ Rd = Rm_Imm - Rn + Cpsr<29:> - 1; }});
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//0x8:mrs_cpsr -- TODO
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//0x9:msr_cpsr -- TODO
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//0xa:mrs_spsr -- TODO
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//0xb:msr_spsr -- TODO
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0xc: orr({{ Rd = Rn | Rm_Imm; }});
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0xd: mov({{ Rd = Rm_Imm; }});
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0xe: bic({{ Rd = Rn & ~Rm_Imm; }});
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0xf: mvn({{ Rd = ~Rm_Imm; }});
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}
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}
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1: decode OPCODE_24_21 {
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format PredIntOpCc {
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0x0: ands({{
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uint32_t resTemp;
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Rd = resTemp = Rn & Rm_Imm;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0x1: eors({{
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uint32_t resTemp;
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Rd = resTemp = Rn ^ Rm_Imm;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0x2: subs({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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Rd = resTemp = Rn - val2;
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}},
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{{ arm_sub_carry(resTemp, Rn, val2) }},
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{{ arm_sub_overflow(resTemp, Rn, val2) }});
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0x3: rsbs({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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Rd = resTemp = val2 - Rn;
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}},
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{{ arm_sub_carry(resTemp, val2, Rn) }},
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{{ arm_sub_overflow(resTemp, val2, Rn) }});
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0x4: adds({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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Rd = resTemp = Rn + val2;
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}},
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{{ arm_add_carry(resTemp, Rn, val2) }},
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{{ arm_add_overflow(resTemp, Rn, val2) }});
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0x5: adcs({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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Rd = resTemp = Rn + val2 + Cpsr<29:>;
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}},
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{{ arm_add_carry(resTemp, Rn, val2) }},
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{{ arm_add_overflow(resTemp, Rn, val2) }});
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0x6: sbcs({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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Rd = resTemp = Rn - val2 + Cpsr<29:> - 1;
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}},
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{{ arm_sub_carry(resTemp, Rn, val2) }},
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{{ arm_sub_overflow(resTemp, Rn, val2) }});
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0x7: rscs({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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Rd = resTemp = val2 - Rn + Cpsr<29:> - 1;
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}},
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{{ arm_sub_carry(resTemp, val2, Rn) }},
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{{ arm_sub_overflow(resTemp, val2, Rn) }});
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0x8: tst({{
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uint32_t resTemp;
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resTemp = Rn & Rm_Imm;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0x9: teq({{
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uint32_t resTemp;
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resTemp = Rn ^ Rm_Imm;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xa: cmp({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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resTemp = Rn - val2;
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}},
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{{ arm_sub_carry(resTemp, Rn, val2) }},
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{{ arm_sub_overflow(resTemp, Rn, val2) }});
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0xb: cmn({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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resTemp = Rn + val2;
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}},
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{{ arm_add_carry(resTemp, Rn, val2) }},
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{{ arm_add_overflow(resTemp, Rn, val2) }});
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0xc: orrs({{
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uint32_t resTemp,
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val2 = Rm_Imm;
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Rd = resTemp = Rn | val2;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xd: movs({{
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uint32_t resTemp;
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Rd = resTemp = Rm_Imm;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xe: bics({{
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uint32_t resTemp;
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Rd = resTemp = Rn & ~Rm_Imm;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xf: mvns({{
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uint32_t resTemp;
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Rd = resTemp = ~Rm_Imm;
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}},
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{{ shift_carry_imm(Rm, shift_size, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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}
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}
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}
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1: decode OPCODE_7 {
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0: decode S_FIELD {
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0: decode OPCODE_24_21 {
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format PredIntOp {
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0x0: and_rs({{ Rd = Rn & Rm_Rs; }});
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0x1: eor_rs({{ Rd = Rn ^ Rm_Rs; }});
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0x2: sub_rs({{ Rd = Rn - Rm_Rs; }});
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0x3: rsb_rs({{ Rd = Rm_Rs - Rn; }});
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0x4: add_rs({{ Rd = Rn + Rm_Rs; }});
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0x5: adc_rs({{ Rd = Rn + Rm_Rs + Cpsr<29:>; }});
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0x6: sbc_rs({{ Rd = Rn - Rm_Rs + Cpsr<29:> - 1; }});
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0x7: rsc_rs({{ Rd = Rm_Rs - Rn + Cpsr<29:> - 1; }});
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0xc: orr_rs({{ Rd = Rn | Rm_Rs; }});
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0xd: mov_rs({{ Rd = Rm_Rs; }});
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0xe: bic_rs({{ Rd = Rn & ~Rm_Rs; }});
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0xf: mvn_rs({{ Rd = ~Rm_Rs; }});
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default: decode OPCODE_7_4 {
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0x1: decode OPCODE_24_21 {
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0x9: BranchExchange::bx({{ }});
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0xb: PredOp::clz({{
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if (Rm == 0)
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Rd = 32;
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else
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{
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int i;
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for (i = 0; i < 32; i++)
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{
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if (Rm & (1<<(31-i)))
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break;
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}
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Rd = i;
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}
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}});
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}
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0x3: decode OPCODE_24_21 {
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0x9: BranchExchange::blx({{ }}, Link);
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}
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}
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}
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}
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1: decode OPCODE_24_21 {
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format PredIntOpCc {
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0x0: ands_rs({{
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uint32_t resTemp;
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Rd = resTemp = Rn & Rm_Rs;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0x1: eors_rs({{
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uint32_t resTemp;
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Rd = resTemp = Rn ^ Rm_Rs;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0x2: subs_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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Rd = resTemp = Rn - val2;
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}},
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{{ arm_sub_carry(resTemp, Rn, val2) }},
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{{ arm_sub_overflow(resTemp, Rn, val2) }});
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0x3: rsbs_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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Rd = resTemp = val2 - Rn;
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}},
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{{ arm_sub_carry(resTemp, val2, Rn) }},
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{{ arm_sub_overflow(resTemp, val2, Rn) }});
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0x4: adds_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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Rd = resTemp = Rn + val2;
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}},
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{{ arm_add_carry(resTemp, Rn, val2) }},
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{{ arm_add_overflow(resTemp, Rn, val2) }});
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0x5: adcs_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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Rd = resTemp = Rn + val2 + Cpsr<29:>;
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}},
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{{ arm_add_carry(resTemp, Rn, val2) }},
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{{ arm_add_overflow(resTemp, Rn, val2) }});
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0x6: sbcs_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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Rd = resTemp = Rn - val2 + Cpsr<29:> - 1;
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}},
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{{ arm_sub_carry(resTemp, Rn, val2) }},
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{{ arm_sub_overflow(resTemp, Rn, val2) }});
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0x7: rscs_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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Rd = resTemp = val2 - Rn + Cpsr<29:> - 1;
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}},
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{{ arm_sub_carry(resTemp, val2, Rn) }},
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{{ arm_sub_overflow(resTemp, val2, Rn) }});
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0x8: tst_rs({{
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uint32_t resTemp;
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resTemp = Rn & Rm_Rs;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0x9: teq_rs({{
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uint32_t resTemp;
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resTemp = Rn ^ Rm_Rs;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xa: cmp_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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resTemp = Rn - val2;
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}},
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{{ arm_sub_carry(resTemp, Rn, val2) }},
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{{ arm_sub_overflow(resTemp, Rn, val2) }});
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0xb: cmn_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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resTemp = Rn + val2;
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}},
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{{ arm_add_carry(resTemp, Rn, val2) }},
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{{ arm_add_overflow(resTemp, Rn, val2) }});
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0xc: orrs_rs({{
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uint32_t resTemp,
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val2 = Rm_Rs;
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Rd = resTemp = Rn | val2;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xd: movs_rs({{
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uint32_t resTemp;
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Rd = resTemp = Rm_Rs;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xe: bics_rs({{
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uint32_t resTemp;
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Rd = resTemp = Rn & ~Rm_Rs;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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0xf: mvns_rs({{
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uint32_t resTemp;
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Rd = resTemp = ~Rm_Rs;
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}},
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{{ shift_carry_rs(Rm, Rs, shift, Cpsr<29:>) }},
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{{ Cpsr<28:> }});
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}
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}
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}
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1: decode OPCODE_6_5 {
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0x0: decode OPCODE_24 {
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0: decode LUAS {
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format PredIntOp {
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0x0: mul({{ Rn = Rm * Rs; }});
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0x1: PredIntOpCc::muls({{
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uint32_t resTemp;
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Rn = resTemp = Rm * Rs;
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}},
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{{ Cpsr<29:> }},
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{{ Cpsr<28:> }});
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0x2: mla_a({{ Rn = Rm * Rs + Rd; }});
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0x8: umull_l({{
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uint64_t resTemp;
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resTemp = ((uint64_t)Rm)*((uint64_t)Rs);
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Rd = (uint32_t)(resTemp & 0xffffffff);
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Rn = (uint32_t)(resTemp >> 32);
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}});
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0xa: umlal_lu({{
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uint64_t resTemp;
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resTemp = ((uint64_t)Rm)*((uint64_t)Rs);
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resTemp += ((uint64_t)Rn << 32)+((uint64_t)Rd);
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Rd = (uint32_t)(resTemp & 0xffffffff);
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Rn = (uint32_t)(resTemp >> 32);
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}});
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0xc: smull_lu({{
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int64_t resTemp;
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resTemp = ((int64_t)Rm)*((int64_t)Rs);
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Rd = (int32_t)(resTemp & 0xffffffff);
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Rn = (int32_t)(resTemp >> 32);
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}});
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}
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}
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}
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0x1: decode PUIWL {
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0x04,0x0c: ArmStoreMemory::strh_i({{ Mem.uh = Rd.uh;
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Rn = Rn + hilo; }},
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{{ EA = Rn; }});
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0x05,0x0d: ArmLoadMemory::ldrh_il({{ Rd.uh = Mem.uh;
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Rn = Rn + hilo; }},
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{{ EA = Rn; }});
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0x10,0x18: ArmStoreMemory::strh_p({{ Mem.uh = Rd.uh; }},
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{{ EA = Rn + Rm; }});
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0x11,0x19: ArmLoadMemory::ldrh_pl({{ Rd.uh = Mem.uh; }},
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{{ EA = Rn + Rm; }});
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0x12,0x1a: ArmStoreMemory::strh_pw({{ Mem.uh = Rd.uh;
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Rn = Rn + Rm; }},
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{{ EA = Rn + Rm; }});
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0x13,0x1b: ArmLoadMemory::ldrh_pwl({{ Rd.uh = Mem.uh;
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Rn = Rn + Rm; }},
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{{ EA = Rn + Rm; }});
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0x14,0x1c: ArmStoreMemory::strh_pi({{ Mem.uh = Rd.uh; }},
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{{ EA = Rn + hilo; }});
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0x15,0x1d: ArmLoadMemory::ldrh_pil({{ Rd.uh = Mem.uh; }},
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{{ EA = Rn + hilo; }});
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0x16,0x1e: ArmStoreMemory::strh_piw({{ Mem.uh = Rd.uh;
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Rn = Rn + hilo; }},
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{{ EA = Rn + hilo; }});
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0x17,0x1f: ArmLoadMemory::ldrh_piwl({{ Rd.uh = Mem.uh;
|
|
Rn = Rn + hilo; }},
|
|
{{ EA = Rn + hilo; }});
|
|
}
|
|
0x2: decode PUIWL {
|
|
format ArmLoadMemory {
|
|
0x11,0x19: ldrsb_pl({{ Rd.sb = Mem.sb; }},
|
|
{{ EA = Rn + Rm; }});
|
|
0x13,0x1b: ldrsb_pwl({{ Rd.sb = Mem.sb;
|
|
Rn = Rn + Rm; }},
|
|
{{ EA = Rn + Rm; }});
|
|
0x15,0x1d: ldrsb_pil({{ Rd.sb = Mem.sb; }},
|
|
{{ EA = Rn + hilo; }});
|
|
0x17,0x1f: ldrsb_piwl({{ Rd.sb = Mem.sb;
|
|
Rn = Rn + hilo; }},
|
|
{{ EA = Rn + hilo; }});
|
|
}
|
|
}
|
|
0x3: decode PUIWL {
|
|
format ArmLoadMemory {
|
|
0x11,0x19: ldrsh_pl({{ Rd.sh = Mem.sh; }},
|
|
{{ EA = Rn + Rm; }});
|
|
0x13,0x1b: ldrsh_pwl({{ Rd.sh = Mem.sh;
|
|
Rn = Rn + Rm; }},
|
|
{{ EA = Rn + Rm; }});
|
|
0x15,0x1d: ldrsh_pil({{ Rd.sh = Mem.sh; }},
|
|
{{ EA = Rn + hilo; }});
|
|
0x17,0x1f: ldrsh_piwl({{ Rd.sh = Mem.sh;
|
|
Rn = Rn + hilo; }},
|
|
{{ EA = Rn + hilo; }});
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
0x1: decode S_FIELD {
|
|
0: decode OPCODE_24_21 {
|
|
format PredImmOp {
|
|
0x0: andi({{ Rd = Rn & rotated_imm; }});
|
|
0x1: eori({{ Rd = Rn ^ rotated_imm; }});
|
|
0x2: subi({{ Rd = Rn - rotated_imm; }});
|
|
0x3: rsbi({{ Rd = rotated_imm - Rn; }});
|
|
0x4: addi({{ Rd = Rn + rotated_imm; }});
|
|
0x5: adci({{ Rd = Rn + rotated_imm + Cpsr<29:>; }});
|
|
0x6: sbci({{ Rd = Rn - rotated_imm + Cpsr<29:> - 1; }});
|
|
0x7: rsci({{ Rd = rotated_imm - Rn + Cpsr<29:> - 1; }});
|
|
0xc: orri({{ Rd = Rn | rotated_imm; }});
|
|
0xd: decode RN {
|
|
0: movi({{ Rd = rotated_imm; }});
|
|
}
|
|
0xe: bici({{ Rd = Rn & ~rotated_imm; }});
|
|
0xf: decode RN {
|
|
0: mvni({{ Rd = ~rotated_imm; }});
|
|
}
|
|
}
|
|
}
|
|
1: decode OPCODE_24_21 {
|
|
format PredImmOpCc {
|
|
0x0: andsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn & rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
0x1: eorsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn ^ rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
0x2: subsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn - rotated_imm;
|
|
}},
|
|
{{ arm_sub_carry(resTemp, Rn, rotated_imm) }},
|
|
{{ arm_sub_overflow(resTemp, Rn, rotated_imm) }});
|
|
0x3: rsbsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = rotated_imm - Rn;
|
|
}},
|
|
{{ arm_sub_carry(resTemp, rotated_imm, Rn) }},
|
|
{{ arm_sub_overflow(resTemp, rotated_imm, Rn) }});
|
|
0x4: addsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn + rotated_imm;
|
|
}},
|
|
{{ arm_add_carry(resTemp, Rn, rotated_imm) }},
|
|
{{ arm_add_overflow(resTemp, Rn, rotated_imm) }});
|
|
0x5: adcsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn + rotated_imm + Cpsr<29:>;
|
|
}},
|
|
{{ arm_add_carry(resTemp, Rn, rotated_imm) }},
|
|
{{ arm_add_overflow(resTemp, Rn, rotated_imm) }});
|
|
0x6: sbcsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn -rotated_imm + Cpsr<29:> - 1;
|
|
}},
|
|
{{ arm_sub_carry(resTemp, Rn, rotated_imm) }},
|
|
{{ arm_sub_overflow(resTemp, Rn, rotated_imm) }});
|
|
0x7: rscsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = rotated_imm - Rn + Cpsr<29:> - 1;
|
|
}},
|
|
{{ arm_sub_carry(resTemp, rotated_imm, Rn) }},
|
|
{{ arm_sub_overflow(resTemp, rotated_imm, Rn) }});
|
|
0x8: tsti({{
|
|
uint32_t resTemp;
|
|
resTemp = Rn & rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
0x9: teqi({{
|
|
uint32_t resTemp;
|
|
resTemp = Rn ^ rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
0xa: cmpi({{
|
|
uint32_t resTemp;
|
|
resTemp = Rn - rotated_imm;
|
|
}},
|
|
{{ arm_sub_carry(resTemp, Rn, rotated_imm) }},
|
|
{{ arm_sub_overflow(resTemp, Rn, rotated_imm) }});
|
|
0xb: cmni({{
|
|
uint32_t resTemp;
|
|
resTemp = Rn + rotated_imm;
|
|
}},
|
|
{{ arm_add_carry(resTemp, Rn, rotated_imm) }},
|
|
{{ arm_add_overflow(resTemp, Rn, rotated_imm) }});
|
|
0xc: orrsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn | rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
0xd: movsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
0xe: bicsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = Rn & ~rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
0xf: mvnsi({{
|
|
uint32_t resTemp;
|
|
Rd = resTemp = ~rotated_imm;
|
|
}},
|
|
{{ (rotate ? rotated_carry:Cpsr<29:>) }},
|
|
{{ Cpsr<28:> }});
|
|
}
|
|
}
|
|
}
|
|
0x2: decode PUBWL {
|
|
// CAREFUL:
|
|
// Can always do EA + disp, since we negate disp using the UP flag
|
|
// Post-indexed variants
|
|
0x00,0x08: ArmStoreMemory::str_({{ Mem = Rd;
|
|
Rn = Rn + disp; }},
|
|
{{ EA = Rn; }});
|
|
0x01,0x09: ArmLoadMemory::ldr_l({{ Rd = Mem;
|
|
Rn = Rn + disp; }},
|
|
{{ EA = Rn; }});
|
|
0x04,0x0c: ArmStoreMemory::strb_b({{ Mem.ub = Rd.ub;
|
|
Rn = Rn + disp; }},
|
|
{{ EA = Rn; }});
|
|
0x05,0x0d: ArmLoadMemory::ldrb_bl({{ Rd.ub = Mem.ub;
|
|
Rn = Rn + disp; }},
|
|
{{ EA = Rn; }});
|
|
// Pre-indexed variants
|
|
0x10,0x18: ArmStoreMemory::str_p({{ Mem = Rd; }});
|
|
0x11,0x19: ArmLoadMemory::ldr_pl({{ Rd = Mem; }});
|
|
0x12,0x1a: ArmStoreMemory::str_pw({{ Mem = Rd;
|
|
Rn = Rn + disp; }});
|
|
0x13,0x1b: ArmLoadMemory::ldr_pwl({{ Rd = Mem;
|
|
Rn = Rn + disp; }});
|
|
0x14,0x1c: ArmStoreMemory::strb_pb({{ Mem.ub = Rd.ub; }});
|
|
0x15,0x1d: ArmLoadMemory::ldrb_pbl({{ Rd.ub = Mem.ub; }});
|
|
0x16,0x1e: ArmStoreMemory::strb_pbw({{ Mem.ub = Rd.ub;
|
|
Rn = Rn + disp; }});
|
|
0x17,0x1f: ArmLoadMemory::ldrb_pbwl({{ Rd.ub = Mem.ub;
|
|
Rn = Rn + disp; }});
|
|
}
|
|
0x3: decode OPCODE_4 {
|
|
0: decode PUBWL {
|
|
0x00,0x08: ArmStoreMemory::strr_({{
|
|
Mem = Rd;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn; }});
|
|
0x01,0x09: ArmLoadMemory::ldrr_l({{
|
|
Rd = Mem;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn; }});
|
|
0x04,0x0c: ArmStoreMemory::strr_b({{
|
|
Mem.ub = Rd.ub;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn; }});
|
|
0x05,0x0d: ArmLoadMemory::ldrr_bl({{
|
|
Rd.ub = Mem.ub;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn; }});
|
|
0x10,0x18: ArmStoreMemory::strr_p({{
|
|
Mem = Rd; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
0x11,0x19: ArmLoadMemory::ldrr_pl({{
|
|
Rd = Mem; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
0x12,0x1a: ArmStoreMemory::strr_pw({{
|
|
Mem = Rd;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
0x13,0x1b: ArmLoadMemory::ldrr_pwl({{
|
|
Rd = Mem;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
0x14,0x1c: ArmStoreMemory::strr_pb({{
|
|
Mem.ub = Rd.ub; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
0x15,0x1d: ArmLoadMemory::ldrr_pbl({{
|
|
Rd.ub = Mem.ub; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
0x16,0x1e: ArmStoreMemory::strr_pbw({{
|
|
Mem.ub = Rd.ub;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
0x17,0x1f: ArmLoadMemory::ldrr_pbwl({{
|
|
Rd.ub = Mem.ub;
|
|
Rn = Rn + Rm_Imm; }},
|
|
{{ EA = Rn + Rm_Imm; }});
|
|
}
|
|
}
|
|
0x4: decode PUSWL {
|
|
// Right now we only handle cases when S (PSRUSER) is not set
|
|
default: ArmMacroStore::ldmstm({{ }});
|
|
}
|
|
0x5: decode OPCODE_24 {
|
|
// Branch (and Link) Instructions
|
|
0: Branch::b({{ }});
|
|
1: Branch::bl({{ }}, Link);
|
|
}
|
|
0x6: decode CPNUM {
|
|
0x1: decode PUNWL {
|
|
0x02,0x0a: decode OPCODE_15 {
|
|
0: ArmStoreMemory::stfs_({{ Mem.sf = Fd.sf;
|
|
Rn = Rn + disp8; }},
|
|
{{ EA = Rn; }});
|
|
1: ArmMacroFPAOp::stfd_({{ }});
|
|
}
|
|
0x03,0x0b: decode OPCODE_15 {
|
|
0: ArmLoadMemory::ldfs_({{ Fd.sf = Mem.sf;
|
|
Rn = Rn + disp8; }},
|
|
{{ EA = Rn; }});
|
|
1: ArmMacroFPAOp::ldfd_({{ }});
|
|
}
|
|
0x06,0x0e: decode OPCODE_15 {
|
|
0: ArmMacroFPAOp::stfe_nw({{ }});
|
|
}
|
|
0x07,0x0f: decode OPCODE_15 {
|
|
0: ArmMacroFPAOp::ldfe_nw({{ }});
|
|
}
|
|
0x10,0x18: decode OPCODE_15 {
|
|
0: ArmStoreMemory::stfs_p({{ Mem.sf = Fd.sf; }},
|
|
{{ EA = Rn + disp8; }});
|
|
1: ArmMacroFPAOp::stfd_p({{ }});
|
|
}
|
|
0x11,0x19: decode OPCODE_15 {
|
|
0: ArmLoadMemory::ldfs_p({{ Fd.sf = Mem.sf; }},
|
|
{{ EA = Rn + disp8; }});
|
|
1: ArmMacroFPAOp::ldfd_p({{ }});
|
|
}
|
|
0x12,0x1a: decode OPCODE_15 {
|
|
0: ArmStoreMemory::stfs_pw({{ Mem.sf = Fd.sf;
|
|
Rn = Rn + disp8; }},
|
|
{{ EA = Rn + disp8; }});
|
|
1: ArmMacroFPAOp::stfd_pw({{ }});
|
|
}
|
|
0x13,0x1b: decode OPCODE_15 {
|
|
0: ArmLoadMemory::ldfs_pw({{ Fd.sf = Mem.sf;
|
|
Rn = Rn + disp8; }},
|
|
{{ EA = Rn + disp8; }});
|
|
1: ArmMacroFPAOp::ldfd_pw({{ }});
|
|
}
|
|
0x14,0x1c: decode OPCODE_15 {
|
|
0: ArmMacroFPAOp::stfe_pn({{ }});
|
|
}
|
|
0x15,0x1d: decode OPCODE_15 {
|
|
0: ArmMacroFPAOp::ldfe_pn({{ }});
|
|
}
|
|
0x16,0x1e: decode OPCODE_15 {
|
|
0: ArmMacroFPAOp::stfe_pnw({{ }});
|
|
}
|
|
0x17,0x1f: decode OPCODE_15 {
|
|
0: ArmMacroFPAOp::ldfe_pnw({{ }});
|
|
}
|
|
}
|
|
0x2: decode PUNWL {
|
|
// could really just decode as a single instruction
|
|
0x00,0x04,0x08,0x0c: ArmMacroFMOp::sfm_({{ }});
|
|
0x01,0x05,0x09,0x0d: ArmMacroFMOp::lfm_({{ }});
|
|
0x02,0x06,0x0a,0x0e: ArmMacroFMOp::sfm_w({{ }});
|
|
0x03,0x07,0x0b,0x0f: ArmMacroFMOp::lfm_w({{ }});
|
|
0x10,0x14,0x18,0x1c: ArmMacroFMOp::sfm_p({{ }});
|
|
0x11,0x15,0x19,0x1d: ArmMacroFMOp::lfm_p({{ }});
|
|
0x12,0x16,0x1a,0x1e: ArmMacroFMOp::sfm_pw({{ }});
|
|
0x13,0x17,0x1b,0x1f: ArmMacroFMOp::lfm_pw({{ }});
|
|
}
|
|
}
|
|
0x7: decode OPCODE_24 {
|
|
0: decode CPNUM {
|
|
// Coprocessor Instructions
|
|
0x1: decode OPCODE_4 {
|
|
format FloatOp {
|
|
// Basic FPA Instructions
|
|
0: decode OPCODE_23_20 {
|
|
0x0: decode OPCODE_15 {
|
|
0: adf({{ Fd.sf = Fn.sf + Fm.sf; }});
|
|
1: mvf({{ Fd.sf = Fm.sf; }});
|
|
}
|
|
0x1: decode OPCODE_15 {
|
|
0: muf({{ Fd.sf = Fn.sf * Fm.sf; }});
|
|
1: mnf({{ Fd.sf = -Fm.sf; }});
|
|
}
|
|
0x2: decode OPCODE_15 {
|
|
0: suf({{ Fd.sf = Fn.sf - Fm.sf; }});
|
|
1: abs({{ Fd.sf = fabs(Fm.sf); }});
|
|
}
|
|
0x3: decode OPCODE_15 {
|
|
0: rsf({{ Fd.sf = Fm.sf - Fn.sf; }});
|
|
1: rnd({{ Fd.sf = rint(Fm.sf); }});
|
|
}
|
|
0x4: decode OPCODE_15 {
|
|
0: dvf({{ Fd.sf = Fn.sf / Fm.sf; }});
|
|
1: sqt({{ Fd.sf = sqrt(Fm.sf); }});
|
|
}
|
|
0x5: decode OPCODE_15 {
|
|
0: rdf({{ Fd.sf = Fm.sf / Fn.sf; }});
|
|
1: log({{ Fd.sf = log10(Fm.sf); }});
|
|
}
|
|
0x6: decode OPCODE_15 {
|
|
0: pow({{ Fd.sf = pow(Fm.sf, Fn.sf); }});
|
|
1: lgn({{ Fd.sf = log(Fm.sf); }});
|
|
}
|
|
0x7: decode OPCODE_15 {
|
|
0: rpw({{ Fd.sf = pow(Fn.sf, Fm.sf); }});
|
|
1: exp({{ Fd.sf = exp(Fm.sf); }});
|
|
}
|
|
0x8: decode OPCODE_15 {
|
|
0: rmf({{ Fd.sf = drem(Fn.sf, Fm.sf); }});
|
|
1: sin({{ Fd.sf = sin(Fm.sf); }});
|
|
}
|
|
0x9: decode OPCODE_15 {
|
|
0: fml({{ Fd.sf = Fn.sf * Fm.sf; }});
|
|
1: cos({{ Fd.sf = cos(Fm.sf); }});
|
|
}
|
|
0xa: decode OPCODE_15 {
|
|
0: fdv({{ Fd.sf = Fn.sf / Fm.sf; }});
|
|
1: tan({{ Fd.sf = tan(Fm.sf); }});
|
|
}
|
|
0xb: decode OPCODE_15 {
|
|
0: frd({{ Fd.sf = Fm.sf / Fn.sf; }});
|
|
1: asn({{ Fd.sf = asin(Fm.sf); }});
|
|
}
|
|
0xc: decode OPCODE_15 {
|
|
0: pol({{ Fd.sf = atan2(Fn.sf, Fm.sf); }});
|
|
1: acs({{ Fd.sf = acos(Fm.sf); }});
|
|
}
|
|
0xd: decode OPCODE_15 {
|
|
1: atn({{ Fd.sf = atan(Fm.sf); }});
|
|
}
|
|
0xe: decode OPCODE_15 {
|
|
// Unnormalised Round
|
|
1: FailUnimpl::urd();
|
|
}
|
|
0xf: decode OPCODE_15 {
|
|
// Normalise
|
|
1: FailUnimpl::nrm();
|
|
}
|
|
}
|
|
1: decode OPCODE_15_12 {
|
|
0xf: decode OPCODE_23_21 {
|
|
format FloatCmp {
|
|
0x4: cmf({{ Fn.df }}, {{ Fm.df }});
|
|
0x5: cnf({{ Fn.df }}, {{ -Fm.df }});
|
|
0x6: cmfe({{ Fn.df }}, {{ Fm.df}});
|
|
0x7: cnfe({{ Fn.df }}, {{ -Fm.df}});
|
|
}
|
|
}
|
|
default: decode OPCODE_23_20 {
|
|
0x0: decode OPCODE_7 {
|
|
0: flts({{ Fn.sf = (float) Rd.sw; }});
|
|
1: fltd({{ Fn.df = (double) Rd.sw; }});
|
|
}
|
|
0x1: decode OPCODE_7 {
|
|
0: fixs({{ Rd = (uint32_t) Fm.sf; }});
|
|
1: fixd({{ Rd = (uint32_t) Fm.df; }});
|
|
}
|
|
0x2: wfs({{ Fpsr = Rd; }});
|
|
0x3: rfs({{ Rd = Fpsr; }});
|
|
0x4: FailUnimpl::wfc();
|
|
0x5: FailUnimpl::rfc();
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
format PredOp {
|
|
// ARM System Call (SoftWare Interrupt)
|
|
1: swi({{ if (testPredicate(Cpsr, condCode))
|
|
{
|
|
xc->syscall(IMMED_23_0);
|
|
}
|
|
}});
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|