// data cache pre-fetch: // 1111 1001 1010 0110 Rm.. 0000; dcpf (Rm) 8.0xf9+8.0xa6+4.RN2,4.0000:D1a:::dcpf "dcpf" *am33_2 { int srcreg; PC = cia; srcreg = translate_rreg (SD_, RN2); load_word (State.regs[srcreg]); } // 1111 1001 1010 0111 0000 0000; dcpf (sp) 8.0xf9+8.0xa7+8.0x00:D1b:::dcpf "dcpf" *am33_2 { PC = cia; load_word (SP); } // 1111 1011 1010 0110 Ri.. Rm.. 0000 0000; dcpf (Ri,Rm) 8.0xfb+8.0xa6+4.RN2,4.RN0+8.0x00:D2a:::dcpf "dcpf" *am33_2 { int srci, srcm; PC = cia; srci = translate_rreg (SD_, RN2); srcm = translate_rreg (SD_, RN0); load_word (State.regs[srci] + State.regs[srcm]); } // 1111 1011 1010 0111 Rm.. 0000 IMM8; dcpf (d8,Rm) 8.0xfb+8.0xa7+4.RN2,4.0000+8.IMM8:D2b:::dcpf "dcpf" *am33_2 { int srcreg; PC = cia; srcreg = translate_rreg (SD_, RN2); load_word (State.regs[srcreg] + EXTEND8 (IMM8)); } // 1111 1101 1010 0111 Rm.. 0000 IMM24; dcpf (d24,Rm) 8.0xfd+8.0xa7+4.RN2,4.0000+8.IMM24A+8.IMM24B+8.IMM24C:D4a:::dcpf "dcpf" *am33_2 { int srcreg; PC = cia; srcreg = translate_rreg (SD_, RN2); load_word (State.regs[srcreg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C))); } // 1111 1110 0100 0110 Rm.. 0000 IMM32; dcpf (d32,Rm) 8.0xfe+8.0x46+4.RN2,4.0000+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5a:::dcpf "dcpf" *am33_2 { int srcreg; PC = cia; srcreg = translate_rreg (SD_, RN2); load_word (State.regs[srcreg] + FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D)); } // bit operations with imm8,(abs16) addressing mode: // 1111 1110 1000 0010 ABS16 IMM8; btst imm8,(abs16) 8.0xfe+8.0x82+8.IMM16A+8.IMM16B+8.IMM8:D3:::btst "btst" *am33_2 { PC = cia; genericBtst (IMM8, FETCH16 (IMM16A, IMM16B)); } // 1111 1110 1000 0000 ABS16 IMM8; bset imm8,(abs16) 8.0xfe+8.0x80+8.IMM16A+8.IMM16B+8.IMM8:D3:::bset "bset" *am33_2 { unsigned32 temp; int z; PC = cia; temp = load_byte (FETCH16 (IMM16A, IMM16B)); z = (temp & IMM8) == 0; temp |= IMM8; store_byte (FETCH16 (IMM16A, IMM16B), temp); PSW &= ~(PSW_Z | PSW_N | PSW_C | PSW_V); PSW |= (z ? PSW_Z : 0); } // 1111 1110 1000 0001 ABS16 IMM8; bclr imm8,(abs16) 8.0xfe+8.0x81+8.IMM16A+8.IMM16B+8.IMM8:D3:::bclr "bclr" *am33_2 { unsigned32 temp; int z; PC = cia; temp = load_byte (FETCH16 (IMM16A, IMM16B)); z = (temp & IMM8) == 0; temp = temp & ~(IMM8); store_byte (FETCH16 (IMM16A, IMM16B), temp); PSW &= ~(PSW_Z | PSW_N | PSW_C | PSW_V); PSW |= (z ? PSW_Z : 0); } // single precision fmov: // 1111 1001 0010 000X Rm.. Sn..; fmov (Rm),FSn 8.0xf9+4.2,3.0,1.X+4.Rm,4.Sn:D1a:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X,Sn) = load_word (State.regs[reg]); } } // 1111 1001 0010 001X Rm.. Sn..; fmov (Rm+),FSn 8.0xf9+4.2,3.1,1.X+4.Rm,4.Sn:D1b:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X,Sn) = load_word (State.regs[reg]); State.regs[reg] += 4; } } // 1111 1001 0010 010X ---- Sn..; fmov (SP),FSn 8.0xf9+4.2,3.2,1.X+4.0,4.Sn:D1c:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; XS2FS (X,Sn) = load_word (State.regs[reg]); } } // 1111 1001 0010 011X Rm.. Sn..; fmov Rm,FSn 8.0xf9+4.2,3.3,1.X+4.Rm,4.Sn:D1d:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X,Sn) = State.regs[reg]; } } // 1111 1001 0011 00Y0 Sm.. Rn..; fmov FSm,(Rn) 8.0xf9+4.3,2.0,1.Y,1.0+4.Sm,4.Rn:D1e:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg], XS2FS (Y,Sm)); } } // 1111 1001 0011 00Y1 Sm.. Rn..; fmov FSm,(Rn+) 8.0xf9+4.3,2.0,1.Y,1.1+4.Sm,4.Rn:D1f:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg], XS2FS (Y,Sm)); State.regs[reg] += 4; } } // 1111 1001 0011 01Y0 Sm.. ----; fmov FSm,(SP) 8.0xf9+4.3,2.1,1.Y,1.0+4.Sm,4.0:D1g:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_word (State.regs[reg], XS2FS (Y,Sm)); } } // 1111 1001 0011 01Y1 Sm.. Rn..; fmov FSm,Rn 8.0xf9+4.3,2.1,1.Y,1.1+4.Sm,4.Rn:D1h:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); State.regs[reg] = XS2FS (Y,Sm); } } // 1111 1001 0100 00YX Sm.. Sn..; fmov FSm,FSn 8.0xf9+4.4,2.0,1.Y,1.X+4.Sm,4.Sn:D1i:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else XS2FS (X,Sn) = XS2FS (Y,Sm); } // 1111 1011 0010 000X Rm.. Sn.. d8; fmov (d8,Rm),FSn 8.0xfb+4.2,3.0,1.X+4.Rm,4.Sn+8.IMM8:D2a:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X, Sn) = load_word (State.regs[reg] + EXTEND8 (IMM8)); } } // 1111 1011 0010 001X Rm.. Sn.. d8; fmov (Rm+,imm8),FSn 8.0xfb+4.2,3.1,1.X+4.Rm,4.Sn+8.IMM8:D2b:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X, Sn) = load_word (State.regs[reg] + EXTEND8 (IMM8)); State.regs[reg] += 4; } } // 1111 1011 0010 010X ---- Sn.. d8; fmov (d8,SP),FSn 8.0xfb+4.2,3.2,1.X+4.0,4.Sn+8.IMM8:D2c:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; XS2FS (X, Sn) = load_word (State.regs[reg] + IMM8); } } // 1111 1011 0010 0111 Ri.. Rm.. Sn.. --Z-; fmov (Ri,Rm),FSn 8.0xfb+8.0x27+4.Ri,4.Rm+4.Sn,2.0,1.Z,1.0:D2d:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int ri = translate_rreg (SD_, Ri); int rm = translate_rreg (SD_, Rm); XS2FS (Z, Sn) = load_word (State.regs[ri] + State.regs[rm]); } } // 1111 1011 0011 00Y0 Sm.. Rn.. d8; fmov FSm,(d8,Rn) 8.0xfb+4.3,2.0,1.Y,1.0+4.Sm,4.Rn+8.IMM8:D2e:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg] + EXTEND8 (IMM8), XS2FS (Y, Sm)); } } // 1111 1011 0011 00Y1 Sm.. Rn.. d8; fmov FSm,(Rn+,d8) 8.0xfb+4.3,2.0,1.Y,1.1+4.Sm,4.Rn+8.IMM8:D2f:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg] + EXTEND8 (IMM8), XS2FS (Y, Sm)); State.regs[reg] += 4; } } // 1111 1011 0011 01Y0 Sm.. ---- d8; fmov FSm,(d8,SP) 8.0xfb+4.3,2.1,1.Y,1.0+4.Sm,4.0+8.IMM8:D2g:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_word (State.regs[reg] + IMM8, XS2FS (Y, Sm)); } } // 1111 1011 0011 0111 Ri.. Rm.. Sm.. --Z-; fmov FSm,(Ri,Rm) 8.0xfb+8.0x37+4.Ri,4.Rm+4.Sm,2.0,1.Z,1.0:D2h:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int ri = translate_rreg (SD_, Ri); int rm = translate_rreg (SD_, Rm); store_word (State.regs[ri] + State.regs[rm], XS2FS (Z, Sm)); } } // 1111 1101 0010 000X Rm.. Sn.. d24; fmov (d24,Rm),FSn 8.0xfd+4.2,3.0,1.X+4.Rm,4.Sn+8.IMM24A+8.IMM24B+8.IMM24C:D4a:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X, Sn) = load_word (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C))); } } // 1111 1101 0010 001X Rm.. Sn.. d24; fmov (Rm+,imm24),FSn 8.0xfd+4.2,3.1,1.X+4.Rm,4.Sn+8.IMM24A+8.IMM24B+8.IMM24C:D4b:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X, Sn) = load_word (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C))); State.regs[reg] += 4; } } // 1111 1101 0010 010X ---- Sn.. d24; fmov (d24,SP),FSn 8.0xfd+4.2,3.2,1.X+4.0,4.Sn+8.IMM24A+8.IMM24B+8.IMM24C:D4c:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; XS2FS (X, Sn) = load_word (State.regs[reg] + FETCH24 (IMM24A, IMM24B, IMM24C)); } } // 1111 1101 0011 00Y0 Sm.. Rn.. d24; fmov FSm,(d24,Rn) 8.0xfd+4.3,2.0,1.Y,1.0+4.Sm,4.Rn+8.IMM24A+8.IMM24B+8.IMM24C:D4e:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C)), XS2FS (Y, Sm)); } } // 1111 1101 0011 00Y1 Sm.. Rn.. d24; fmov FSm,(Rn+,d24) 8.0xfd+4.3,2.0,1.Y,1.1+4.Sm,4.Rn+8.IMM24A+8.IMM24B+8.IMM24C:D4f:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C)), XS2FS (Y, Sm)); State.regs[reg] += 4; } } // 1111 1101 0011 01Y0 Sm.. ---- d24; fmov FSm,(d24,SP) 8.0xfd+4.3,2.1,1.Y,1.0+4.Sm,4.0+8.IMM24A+8.IMM24B+8.IMM24C:D4g:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_word (State.regs[reg] + FETCH24 (IMM24A, IMM24B, IMM24C), XS2FS (Y, Sm)); } } // 1111 1110 0010 000X Rm.. Sn.. d32; fmov (d32,Rm),FSn 8.0xfe+4.2,3.0,1.X+4.Rm,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5a:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X, Sn) = load_word (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D))); } } // 1111 1110 0010 001X Rm.. Sn.. d32; fmov (Rm+,imm32),FSn 8.0xfe+4.2,3.1,1.X+4.Rm,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5b:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); XS2FS (X, Sn) = load_word (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D))); State.regs[reg] += 4; } } // 1111 1110 0010 010X ---- Sn.. d32; fmov (d32,SP),FSn 8.0xfe+4.2,3.2,1.X+4.0,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5c:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; XS2FS (X, Sn) = load_word (State.regs[reg] + FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D)); } } // 1111 1110 0010 011X ---- Sn.. d32; fmov imm32,FSn 8.0xfe+4.2,3.3,1.X+4.0,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5d:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else XS2FS (X, Sn) = FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D); } // 1111 1110 0011 00Y0 Sm.. Rn.. d32; fmov FSm,(d32,Rn) 8.0xfe+4.3,2.0,1.Y,1.0+4.Sm,4.Rn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5e:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D)), XS2FS (Y, Sm)); } } // 1111 1110 0011 00Y1 Sm.. Rn.. d32; fmov FSm,(Rn+,d32) 8.0xfe+4.3,2.0,1.Y,1.1+4.Sm,4.Rn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5f:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_word (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D)), XS2FS (Y, Sm)); State.regs[reg] += 4; } } // 1111 1110 0011 01Y0 Sm.. ---- d32; fmov FSm,(d32,SP) 8.0xfe+4.3,2.1,1.Y,1.0+4.Sm,4.0+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5g:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_word (State.regs[reg] + FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D), XS2FS (Y, Sm)); } } // double precision fmov: // 1111 1001 1010 000X Rm.. fn.-; fmov (Rm),FDn 8.0xf9+4.0xa,3.0,1.X+4.Rm,3.fn,1.0:D1j:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X,fn) = load_dword (State.regs[reg]); } } // 1111 1001 1010 001X Rm.. fn.-; fmov (Rm+),FDn 8.0xf9+4.0xa,3.1,1.X+4.Rm,3.fn,1.0:D1k:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X,fn) = load_dword (State.regs[reg]); State.regs[reg] += 8; } } // 1111 1001 1010 010X ---- fn.-; fmov (SP),FDn 8.0xf9+4.0xa,3.2,1.X+4.0,3.fn,1.0:D1l:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; Xf2FD (X,fn) = load_dword (State.regs[reg]); } } // 1111 1001 1011 00Y0 fm.- Rn..; fmov FDm,(Rn) 8.0xf9+4.0xb,2.0,1.Y,1.0+3.fm,1.0,4.Rn:D1m:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg], Xf2FD (Y,fm)); } } // 1111 1001 1011 00Y1 fm.- Rn..; fmov FDm,(Rn+) 8.0xf9+4.0xb,2.0,1.Y,1.1+3.fm,1.0,4.Rn:D1n:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg], Xf2FD (Y,fm)); State.regs[reg] += 8; } } // 1111 1001 1011 01Y0 fm.- ----; fmov FDm,(SP) 8.0xf9+4.0xb,2.1,1.Y,1.0+3.fm,1.0,4.0:D1o:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_dword (State.regs[reg], Xf2FD (Y,fm)); } } // 1111 1001 1100 00YX fm.- fn.-; fmov FDm,FDn 8.0xf9+4.0xc,2.0,1.Y,1.X+3.fm,1.0,3.fn,1.0:D1p:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0100 0111 Ri.. Rm.. fn.- --Z-; fmov (Ri,Rm),FDn 8.0xfb+8.0x47+4.Ri,4.Rm+3.fn,1.0,2.0,1.Z,1.0:D2i:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int ri = translate_rreg (SD_, Ri); int rm = translate_rreg (SD_, Rm); Xf2FD (Z,fn) = load_dword (State.regs[ri] + State.regs[rm]); } } // 1111 1011 0101 0111 Ri.. Rn.. fm.- --Z-; fmov FDm,(Ri,Rn) 8.0xfb+8.0x57+4.Ri,4.Rn+3.fm,1.0,2.0,1.Z,1.0:D2j:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int ri = translate_rreg (SD_, Ri); int rn = translate_rreg (SD_, Rn); store_dword (State.regs[ri] + State.regs[rn], Xf2FD (Z,fm)); } } // 1111 1011 1010 000X Rm.. fn.- d8; fmov (d8,Rm),FDn 8.0xfb+4.0xa,3.0,1.X+4.Rm,4.fn+8.IMM8:D2k:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X, fn) = load_dword (State.regs[reg] + EXTEND8 (IMM8)); } } // 1111 1011 1010 001X Rm.. fn.- d8; fmov (Rm+,imm8),FDn 8.0xfb+4.0xa,3.1,1.X+4.Rm,4.fn+8.IMM8:D2l:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X, fn) = load_dword (State.regs[reg] + EXTEND8 (IMM8)); State.regs[reg] += 8; } } // 1111 1011 1010 010X ---- fn.- d8; fmov (d8,SP),FDn 8.0xfb+4.0xa,3.2,1.X+4.0,4.fn+8.IMM8:D2m:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; Xf2FD (X, fn) = load_dword (State.regs[reg] + IMM8); } } // 1111 1011 1011 00Y0 fm.- Rn.. d8; fmov FDm,(d8,Rn) 8.0xfb+4.0xb,2.0,1.Y,1.0+4.fm,4.Rn+8.IMM8:D2n:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg] + EXTEND8 (IMM8), Xf2FD (Y, fm)); } } // 1111 1011 1011 00Y1 fm.- Rn.. d8; fmov FDm,(Rn+,d8) 8.0xfb+4.0xb,2.0,1.Y,1.1+4.fm,4.Rn+8.IMM8:D2o:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg] + EXTEND8 (IMM8), Xf2FD (Y, fm)); State.regs[reg] += 8; } } // 1111 1011 1011 01Y0 fm.- ---- d8; fmov FDm,(d8,SP) 8.0xfb+4.0xb,2.1,1.Y,1.0+4.fm,4.0+8.IMM8:D2p:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_dword (State.regs[reg] + IMM8, Xf2FD (Y, fm)); } } // 1111 1101 1010 000X Rm.. fn.- d24; fmov (d24,Rm),FDn 8.0xfd+4.0xa,3.0,1.X+4.Rm,4.fn+8.IMM24A+8.IMM24B+8.IMM24C:D4k:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X, fn) = load_dword (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C))); } } // 1111 1101 1010 001X Rm.. fn.- d24; fmov (Rm+,imm24),FDn 8.0xfd+4.0xa,3.1,1.X+4.Rm,4.fn+8.IMM24A+8.IMM24B+8.IMM24C:D4l:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X, fn) = load_dword (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C))); State.regs[reg] += 8; } } // 1111 1101 1010 010X ---- fn.- d24; fmov (d24,SP),FDn 8.0xfd+4.0xa,3.2,1.X+4.0,4.fn+8.IMM24A+8.IMM24B+8.IMM24C:D4m:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; Xf2FD (X, fn) = load_dword (State.regs[reg] + FETCH24 (IMM24A, IMM24B, IMM24C)); } } // 1111 1101 1011 00Y0 fm.- Rn.. d24; fmov FDm,(d24,Rn) 8.0xfd+4.0xb,2.0,1.Y,1.0+4.fm,4.Rn+8.IMM24A+8.IMM24B+8.IMM24C:D4n:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C)), Xf2FD (Y, fm)); } } // 1111 1101 1011 00Y1 fm.- Rn.. d24; fmov FDm,(Rn+,d24) 8.0xfd+4.0xb,2.0,1.Y,1.1+4.fm,4.Rn+8.IMM24A+8.IMM24B+8.IMM24C:D4o:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg] + EXTEND24 (FETCH24 (IMM24A, IMM24B, IMM24C)), Xf2FD (Y, fm)); State.regs[reg] += 8; } } // 1111 1101 1011 01Y0 fm.- ---- d24; fmov FDm,(d24,SP) 8.0xfd+4.0xb,2.1,1.Y,1.0+4.fm,4.0+8.IMM24A+8.IMM24B+8.IMM24C:D4p:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_dword (State.regs[reg] + FETCH24 (IMM24A, IMM24B, IMM24C), Xf2FD (Y, fm)); } } // 1111 1110 1010 000X Rm.. fn.- d32; fmov (d32,Rm),FDn 8.0xfe+4.0xa,3.0,1.X+4.Rm,4.fn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5k:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X, fn) = load_dword (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D))); } } // 1111 1110 1010 001X Rm.. fn.- d32; fmov (Rm+,imm32),FDn 8.0xfe+4.0xa,3.1,1.X+4.Rm,4.fn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5l:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); Xf2FD (X, fn) = load_dword (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D))); State.regs[reg] += 8; } } // 1111 1110 1010 010X ---- fn.- d32; fmov (d32,SP),FDn 8.0xfe+4.0xa,3.2,1.X+4.0,4.fn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5m:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; Xf2FD (X, fn) = load_dword (State.regs[reg] + FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D)); } } // 1111 1110 1011 00Y0 fm.- Rn.. d32; fmov FDm,(d32,Rn) 8.0xfe+4.0xb,2.0,1.Y,1.0+4.fm,4.Rn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5n:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D)), Xf2FD (Y, fm)); } } // 1111 1110 1011 00Y1 fm.- Rn.. d32; fmov FDm,(Rn+,d32) 8.0xfe+4.0xb,2.0,1.Y,1.1+4.fm,4.Rn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5o:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); store_dword (State.regs[reg] + EXTEND32 (FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D)), Xf2FD (Y, fm)); State.regs[reg] += 8; } } // 1111 1110 1011 01Y0 fm.- ---- d32; fmov FDm,(d32,SP) 8.0xfe+4.0xb,2.1,1.Y,1.0+4.fm,4.0+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5p:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = REG_SP; store_dword (State.regs[reg] + FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D), Xf2FD (Y, fm)); } } // FPCR fmov: // 1111 1001 1011 0101 Rm.. ----; fmov Rm,FPCR 8.0xf9+8.0xb5+4.Rm,4.0:D1q:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rm); unsigned32 val = State.regs[reg]; FPCR = (val & (EC_MASK | EE_MASK | FCC_MASK)) | ((FPCR & ~val) & EF_MASK); } } // 1111 1001 1011 0111 ---- Rn..; fmov FPCR,Rn 8.0xf9+8.0xb7+4.0,4.Rn:D1r:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { int reg = translate_rreg (SD_, Rn); State.regs[reg] = FPCR & FPCR_MASK; } } // 1111 1101 1011 0101 imm32; fmov imm32,FPCR 8.0xfd+8.0xb5+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5:::fmov "fmov" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { unsigned32 val = FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D); FPCR = (val & (EC_MASK | EE_MASK | FCC_MASK)) | ((FPCR & ~val) & EF_MASK); } } // fabs: // 1111 1001 0100 010X ---- Sn..; fabs FSn 8.0xf9+4.4,3.2,1.X+4.0,4.Sn:D1a:::fabs "fabs" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { sim_fpu in, out; FS2FPU (XS2FS (X,Sn), in); sim_fpu_abs (&out, &in); FPU2FS (out, XS2FS (X,Sn)); } } // 1111 1001 1100 010X ---- Sn..; fabs FDn 8.0xf9+4.0xc,3.2,1.X+4.0,3.fn,1.0:D1b:::fabs "fabs" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0100 0100 Sm.. ---- Sn.. X-Z-; fabs FSm,FSn 8.0xfb+8.0x44+4.Sm,4.0+4.Sn,1.X,1.0,1.Z,1.0:D2a:::fabs "fabs" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { sim_fpu in, out; FS2FPU (XS2FS (X,Sm), in); sim_fpu_abs (&out, &in); FPU2FS (out, XS2FS (Z,Sn)); } } // 1111 1011 1100 0100 fm.- ---- fn.- X-Z-; fabs FDm,FDn 8.0xfb+8.0xc4+3.fm,1.0,4.0+3.fn,1.0,1.X,1.0,1.Z,1.0:D2b:::fabs "fabs" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1001 0100 011X ---- Sn..; fneg FSn 8.0xf9+4.4,3.3,1.X+4.0,4.Sn:D1a:::fneg "fneg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { sim_fpu in, out; FS2FPU (XS2FS (X,Sn), in); sim_fpu_neg (&out, &in); FPU2FS (out, XS2FS (X,Sn)); } } // 1111 1001 1100 011X ---- Sn..; fneg FDn 8.0xf9+4.0xc,3.3,1.X+4.0,3.fn,1.0:D1b:::fneg "fneg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0100 0110 Sm.. ---- Sn.. X-Z-; fneg FSm,FSn 8.0xfb+8.0x46+4.Sm,4.0+4.Sn,1.X,1.0,1.Z,1.0:D2a:::fneg "fneg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { sim_fpu in, out; FS2FPU (XS2FS (X,Sm), in); sim_fpu_neg (&out, &in); FPU2FS (out, XS2FS (Z,Sn)); } } // 1111 1011 1100 0110 fm.- ---- fn.- X-Z-; fneg FDm,FDn 8.0xfb+8.0xc6+3.fm,1.0,4.0+3.fn,1.0,1.X,1.0,1.Z,1.0:D2b:::fneg "fneg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1001 0101 000X ---- Sn..; frsqrt FSn 8.0xf9+4.5,3.0,1.X+4.0,4.Sn:D1a:::frsqrt "frsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_rsqrt (SD, CPU, cia, &XS2FS (X,Sn), &XS2FS (X,Sn), FP_SINGLE); } // 1111 1001 1101 000X ---- fn.-; frsqrt FDn 8.0xf9+4.0xd,3.0,1.X+4.0,3.fn,1.0:D1b:::frsqrt "frsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0101 0000 Sm.. ---- Sn.. X-Z-; frsqrt FSm,FSn 8.0xfb+8.0x50+4.Sm,4.0+4.Sn,1.X,1.0,1.Z,1.0:D2a:::frsqrt "frsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_rsqrt (SD, CPU, cia, &XS2FS (X,Sm), &XS2FS (Z,Sn), FP_SINGLE); } // 1111 1011 1101 0000 fm.- ---- fn.- X-Z-; frsqrt FDm,FDn 8.0xfb+8.0xd0+3.fm,1.0,4.0+3.fn,1.0,1.X,1.0,1.Z,1.0:D2b:::frsqrt "frsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1001 0101 001X ---- Sn..; fsqrt FSn 8.0xf9+4.5,3.1,1.X+4.0,4.Sn:D1a:::fsqrt "fsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1001 1101 001X ---- fn.-; fsqrt FDn 8.0xf9+4.0xd,3.1,1.X+4.0,3.fn,1.0:D1b:::fsqrt "fsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0101 0100 Sm.. ---- Sn.. X-Z-; fsqrt FSm,FSn 8.0xfb+8.0x54+4.Sm,4.0+4.Sn,1.X,1.0,1.Z,1.0:D2a:::fsqrt "fsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 1101 0100 fm.- ---- fn.- X-Z-; fsqrt FDm,FDn 8.0xfb+8.0xd4+3.fm,1.0,4.0+3.fn,1.0,1.X,1.0,1.Z,1.0:D2b:::fsqrt "fsqrt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1001 0101 01YX Sm.. Sn..; fcmp FSm, FSn 8.0xf9+4.5,2.1,1.Y,1.X+4.Sm,4.Sn:D1a:::fcmp "fcmp" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_cmp (SD, CPU, cia, &XS2FS (X,Sn), &XS2FS (Y,Sm), FP_SINGLE); } // 1111 1001 1101 01YX fm.- fn.-; fcmp FDm, FDn 8.0xf9+4.0xd,2.1,1.Y,1.X+3.fm,1.0,3.fn,1.0:D1b:::fcmp "fcmp" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1110 0011 01Y1 Sm.. ---- IMM32; fcmp imm32, FSm 8.0xfe+4.3,2.1,1.Y,1.1+4.Sm,4.0+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5:::fcmp "fcmp" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { uint32 imm = FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D); fpu_cmp (SD, CPU, cia, &XS2FS (Y,Sm), &imm, FP_SINGLE); } } // 1111 1001 0110 00YX Sm.. Sn..; fadd FSm, FSn 8.0xf9+4.6,2.0,1.Y,1.X+4.Sm,4.Sn:D1a:::fadd "fadd" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_add (SD, CPU, cia, &XS2FS (Y,Sm), &XS2FS (X,Sn), &XS2FS (X,Sn), FP_SINGLE); } // 1111 1001 1110 00YX fm.- fn.-; fadd FDm, FDn 8.0xf9+4.0xe,2.0,1.Y,1.X+3.fm,1.0,3.fn,1.0:D1b:::fadd "fadd" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0110 0000 Sm1. Sm2. Sn.. XYZ-; fadd FSm1, FSm2, FSn 8.0xfb+8.0x60+4.Sm1,4.Sm2+4.Sn,1.X,1.Y,1.Z,1.0:D2a:::fadd "fadd" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_add (SD, CPU, cia, &XS2FS (X,Sm1), &XS2FS (Y,Sm2), &XS2FS (Z,Sn), FP_SINGLE); } // 1111 1011 1110 0000 fm1- fm2- fn.- XYZ-; fadd FDm1, FDm2, FDn 8.0xfb+8.0xe0+3.fm1,1.0,3.fm2,1.0+3.fn,1.0,1.X,1.Y,1.Z,1.0:D2b:::fadd "fadd" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1110 0110 00YX Sm.. Sn.. IMM32; fadd imm32, FSm, FSn 8.0xfe+4.6,2.0,1.Y,1.X+4.Sm,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5:::fadd "fadd" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { uint32 imm = FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D); fpu_add (SD, CPU, cia, &XS2FS (Y,Sm), &imm, &XS2FS (X,Sn), FP_SINGLE); } } // 1111 1001 0110 01YX Sm.. Sn..; fsub FSm, FSn 8.0xf9+4.6,2.1,1.Y,1.X+4.Sm,4.Sn:D1a:::fsub "fsub" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_sub (SD, CPU, cia, &XS2FS (X,Sn), &XS2FS (Y,Sm), &XS2FS (X,Sn), FP_SINGLE); } // 1111 1001 1110 01YX fm.- fn.-; fsub FDm, FDn 8.0xf9+4.0xe,2.1,1.Y,1.X+3.fm,1.0,3.fn,1.0:D1b:::fsub "fsub" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0110 0100 Sm1. Sm2. Sn.. XYZ-; fsub FSm1, FSm2, FSn 8.0xfb+8.0x64+4.Sm1,4.Sm2+4.Sn,1.X,1.Y,1.Z,1.0:D2a:::fsub "fsub" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_sub (SD, CPU, cia, &XS2FS (Y,Sm2), &XS2FS (X,Sm1), &XS2FS (Z,Sn), FP_SINGLE); } // 1111 1011 1110 0100 fm1- fm2- fn.- XYZ-; fsub FDm1, FDm2, FDn 8.0xfb+8.0xe4+3.fm1,1.0,3.fm2,1.0+3.fn,1.0,1.X,1.Y,1.Z,1.0:D2b:::fsub "fsub" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1110 0110 01YX Sm.. Sn.. IMM32; fsub imm32, FSm, FSn 8.0xfe+4.6,2.1,1.Y,1.X+4.Sm,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5:::fsub "fsub" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { uint32 imm = FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D); fpu_sub (SD, CPU, cia, &XS2FS (Y,Sm), &imm, &XS2FS (X,Sn), FP_SINGLE); } } // 1111 1001 0111 00YX Sm.. Sn..; fmul FSm, FSn 8.0xf9+4.7,2.0,1.Y,1.X+4.Sm,4.Sn:D1a:::fmul "fmul" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_mul (SD, CPU, cia, &XS2FS (Y,Sm), &XS2FS (X,Sn), &XS2FS (X,Sn), FP_SINGLE); } // 1111 1001 1111 00YX fm.- fn.-; fmul FDm, FDn 8.0xf9+4.0xf,2.0,1.Y,1.X+3.fm,1.0,3.fn,1.0:D1b:::fmul "fmul" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0111 0000 Sm1. Sm2. Sn.. XYZ-; fmul FSm1, FSm2, FSn 8.0xfb+8.0x70+4.Sm1,4.Sm2+4.Sn,1.X,1.Y,1.Z,1.0:D2a:::fmul "fmul" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_mul (SD, CPU, cia, &XS2FS (X,Sm1), &XS2FS (Y,Sm2), &XS2FS (Z,Sn), FP_SINGLE); } // 1111 1011 1111 0000 fm1- fm2- fn.- XYZ-; fmul FDm1, FDm2, FDn 8.0xfb+8.0xf0+3.fm1,1.0,3.fm2,1.0+3.fn,1.0,1.X,1.Y,1.Z,1.0:D2b:::fmul "fmul" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1110 0111 00YX Sm.. Sn.. IMM32; fmul imm32, FSm, FSn 8.0xfe+4.7,2.0,1.Y,1.X+4.Sm,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5:::fmul "fmul" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { uint32 imm = FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D); fpu_mul (SD, CPU, cia, &imm, &XS2FS (Y,Sm), &XS2FS (X,Sn), FP_SINGLE); } } // 1111 1001 0111 01YX Sm.. Sn..; fdiv FSm, FSn 8.0xf9+4.7,2.1,1.Y,1.X+4.Sm,4.Sn:D1a:::fdiv "fdiv" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_div (SD, CPU, cia, &XS2FS (X,Sn), &XS2FS (Y,Sm), &XS2FS (X,Sn), FP_SINGLE); } // 1111 1001 1111 01YX fm.- fn.-; fdiv FDm, FDn 8.0xf9+4.0xf,2.1,1.Y,1.X+3.fm,1.0,3.fn,1.0:D1b:::fdiv "fdiv" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0111 0100 Sm1. Sm2. Sn.. XYZ-; fdiv FSm1, FSm2, FSn 8.0xfb+8.0x74+4.Sm1,4.Sm2+4.Sn,1.X,1.Y,1.Z,1.0:D2a:::fdiv "fdiv" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_div (SD, CPU, cia, &XS2FS (Y,Sm2), &XS2FS (X,Sm1), &XS2FS (Z,Sn), FP_SINGLE); } // 1111 1011 1111 0100 fm1- fm2- fn.- XYZ-; fdiv FDm1, FDm2, FDn 8.0xfb+8.0xf4+3.fm1,1.0,3.fm2,1.0+3.fn,1.0,1.X,1.Y,1.Z,1.0:D2b:::fdiv "fdiv" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1110 0111 01YX Sm.. Sn.. IMM32; fdiv imm32, FSm, FSn 8.0xfe+4.7,2.1,1.Y,1.X+4.Sm,4.Sn+8.IMM32A+8.IMM32B+8.IMM32C+8.IMM32D:D5:::fdiv "fdiv" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else { uint32 imm = FETCH32 (IMM32A, IMM32B, IMM32C, IMM32D); fpu_div (SD, CPU, cia, &XS2FS (Y,Sm), &imm, &XS2FS (X,Sn), FP_SINGLE); } } // 1111 1011 1000 00Sn Sm1. Sm2. Sm3. XYZA; fmadd FSm1, FSm2, FSm3, FSn 8.0xfb+4.8,2.0,2.Sn+4.Sm1,4.Sm2+4.Sm3,1.X,1.Y,1.Z,1.A:D2:::fmadd "fmadd" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_fmadd (SD, CPU, cia, &XS2FS (X,Sm1), &XS2FS (Y,Sm2), &XS2FS (Z,Sm3), &AS2FS (A,Sn), FP_SINGLE); } // 1111 1011 1000 01Sn Sm1. Sm2. Sm3. XYZA; fmsub FSm1, FSm2, FSm3, FSn 8.0xfb+4.8,2.1,2.Sn+4.Sm1,4.Sm2+4.Sm3,1.X,1.Y,1.Z,1.A:D2:::fmsub "fmsub" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_fmsub (SD, CPU, cia, &XS2FS (X,Sm1), &XS2FS (Y,Sm2), &XS2FS (Z,Sm3), &AS2FS (A,Sn), FP_SINGLE); } // 1111 1011 1001 00Sn Sm1. Sm2. Sm3. XYZA; fnmadd FSm1, FSm2, FSm3, FSn 8.0xfb+4.9,2.0,2.Sn+4.Sm1,4.Sm2+4.Sm3,1.X,1.Y,1.Z,1.A:D2:::fnmadd "fnmadd" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_fnmadd (SD, CPU, cia, &XS2FS (X,Sm1), &XS2FS (Y,Sm2), &XS2FS (Z,Sm3), &AS2FS (A,Sn), FP_SINGLE); } // 1111 1011 1001 01Sn Sm1. Sm2. Sm3. XYZA; fnmsub FSm1, FSm2, FSm3, FSn 8.0xfb+4.9,2.1,2.Sn+4.Sm1,4.Sm2+4.Sm3,1.X,1.Y,1.Z,1.A:D2:::fnmsub "fnmsub" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_fnmsub (SD, CPU, cia, &XS2FS (X,Sm1), &XS2FS (Y,Sm2), &XS2FS (Z,Sm3), &AS2FS (A,Sn), FP_SINGLE); } // conversion: // 1111 1011 0100 0000 Sm.. ---- Sn.. X-Z-; ftoi FSm,FSn 8.0xfb+8.0x40+4.Sm,4.0+4.Sn,1.X,1.0,1.Z,1.0:D2:::ftoi "ftoi" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0100 0010 Sm.. ---- Sn.. X-Z-; itof FSm,FSn 8.0xfb+8.0x42+4.Sm,4.0+4.Sn,1.X,1.0,1.Z,1.0:D2:::itof "itof" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0101 0010 Sm.. ---- fn.- X-Z-; ftod FSm,FDn 8.0xfb+8.0x52+4.Sm,4.0+3.fn,1.0,1.X,1.0,1.Z,1.0:D2:::ftod "ftod" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // 1111 1011 0101 0110 fm.- ---- Sn.. X-Z-; dtof FDm,FSn 8.0xfb+8.0x56+3.fm,1.0,4.0+4.Sn,1.X,1.0,1.Z,1.0:D2:::dtof "dtof" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else fpu_unimp_exception (SD, CPU, cia); } // branching: // 1111 1000 1101 0000 d8; fbeq (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd0+8.D8:D1:::fbeq "fbeq" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_E)) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 0001 d8; fbne (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd1+8.D8:D1:::fbne "fbne" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_L | FCC_G))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 0010 d8; fbgt (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd2+8.D8:D1:::fbgt "fbgt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_G)) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 0011 d8; fbge (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd3+8.D8:D1:::fbge "fbge" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_G | FCC_E))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 0100 d8; fblt (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd4+8.D8:D1:::fblt "fblt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_L)) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 0101 d8; fble (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd5+8.D8:D1:::fble "fble" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_L | FCC_E))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 0110 d8; fbuo (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd6+8.D8:D1:::fbuo "fbuo" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_U)) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 0111 d8; fblg (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd7+8.D8:D1:::fblg "fblg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_L | FCC_G))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 1000 d8; fbleg (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd8+8.D8:D1:::fbleg "fbleg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_L | FCC_E | FCC_G))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 1001 d8; fbug (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xd9+8.D8:D1:::fbug "fbug" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_G))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 1010 d8; fbuge (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xda+8.D8:D1:::fbuge "fbuge" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_G | FCC_E))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 1011 d8; fbul (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xdb+8.D8:D1:::fbul "fbul" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_L))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 1100 d8; fbule (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xdc+8.D8:D1:::fbule "fbule" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_L | FCC_E))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 1000 1101 1101 d8; fbue (d8,PC) (d8 is sign-extended) 8.0xf8+8.0xdd+8.D8:D1:::fbue "fbue" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_E))) { State.regs[REG_PC] += EXTEND8 (D8); nia = PC; } } // 1111 0000 1101 0000; fleq 8.0xf0+8.0xd0:D0:::fleq "fleq" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_E)) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 0001; flne 8.0xf0+8.0xd1:D0:::flne "flne" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_L | FCC_G))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 0010; flgt 8.0xf0+8.0xd2:D0:::flgt "flgt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_G)) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 0011; flge 8.0xf0+8.0xd3:D0:::flge "flge" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_G | FCC_E))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 0100; fllt 8.0xf0+8.0xd4:D0:::fllt "fllt" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_L)) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 0101; flle 8.0xf0+8.0xd5:D0:::flle "flle" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_L | FCC_E))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 0110; fluo 8.0xf0+8.0xd6:D0:::fluo "fluo" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & FCC_U)) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 0111; fllg 8.0xf0+8.0xd7:D0:::fllg "fllg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_L | FCC_G))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 1000; flleg 8.0xf0+8.0xd8:D0:::flleg "flleg" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_L | FCC_E | FCC_G))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 1001; flug 8.0xf0+8.0xd9:D0:::flug "flug" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_G))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 1010; fluge 8.0xf0+8.0xda:D0:::fluge "fluge" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_G | FCC_E))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 1011; flul 8.0xf0+8.0xdb:D0:::flul "flul" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_L))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 1100; flule 8.0xf0+8.0xdc:D0:::flule "flule" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_L | FCC_E))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } } // 1111 0000 1101 1101; flue 8.0xf0+8.0xdd:D0:::flue "flue" *am33_2 { PC = cia; if (FPU_DISABLED) fpu_disabled_exception (SD, CPU, cia); else if ((FPCR & (FCC_U | FCC_E))) { State.regs[REG_PC] = State.regs[REG_LAR] - 4; nia = PC; } }