| // Copyright (c) 2006-2007 The Regents of The University of Michigan |
| // All rights reserved. |
| // |
| // Redistribution and use in source and binary forms, with or without |
| // modification, are permitted provided that the following conditions are |
| // met: redistributions of source code must retain the above copyright |
| // notice, this list of conditions and the following disclaimer; |
| // redistributions in binary form must reproduce the above copyright |
| // notice, this list of conditions and the following disclaimer in the |
| // documentation and/or other materials provided with the distribution; |
| // neither the name of the copyright holders nor the names of its |
| // contributors may be used to endorse or promote products derived from |
| // this software without specific prior written permission. |
| // |
| // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
| // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
| // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
| // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
| // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
| // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
| // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
| // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
| // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| def operand_types {{ |
| 'sb' : 'int8_t', |
| 'ub' : 'uint8_t', |
| 'shw' : 'int16_t', |
| 'uhw' : 'uint16_t', |
| 'sw' : 'int32_t', |
| 'uw' : 'uint32_t', |
| 'sdw' : 'int64_t', |
| 'udw' : 'uint64_t', |
| 'tudw' : 'std::array<uint64_t, 2>', |
| 'tuw' : 'std::array<uint32_t, 2>', |
| 'sf' : 'float', |
| 'df' : 'double', |
| |
| 'pstate' : 'PSTATE', |
| 'hpstate' : 'HPSTATE' |
| }}; |
| |
| output header {{ |
| // A function to "decompress" double and quad floating point |
| // register numbers stuffed into 5 bit fields. These have their |
| // MSB put in the LSB position but are otherwise normal. |
| static inline unsigned int |
| dfpr(unsigned int regNum) |
| { |
| return (regNum & (~1)) | ((regNum & 1) << 5); |
| } |
| |
| static inline unsigned int |
| dfprl(unsigned int regNum) |
| { |
| return dfpr(regNum) & (~0x1); |
| } |
| |
| static inline unsigned int |
| dfprh(unsigned int regNum) |
| { |
| return dfpr(regNum) | 0x1; |
| } |
| }}; |
| |
| 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'. |
| |
| 'Rd': ('IntReg', 'udw', 'RD', 'IsInteger', 1), |
| # The Rd from the previous window |
| 'Rd_prev': ('IntReg', 'udw', 'RD + NumIntArchRegs + NumMicroIntRegs', 'IsInteger', 2), |
| # The Rd from the next window |
| 'Rd_next': ('IntReg', 'udw', 'RD + 2 * NumIntArchRegs + NumMicroIntRegs', 'IsInteger', 3), |
| # For microcoded twin load instructions, RdTwin appears in the "code" |
| # for the instruction is replaced by RdLow or RdHigh by the format |
| # before it's processed by the iop. |
| # The low (even) register of a two register pair |
| 'RdLow': ('IntReg', 'udw', 'RD & (~1)', 'IsInteger', 4), |
| # The high (odd) register of a two register pair |
| 'RdHigh': ('IntReg', 'udw', 'RD | 1', 'IsInteger', 5), |
| 'Rs1': ('IntReg', 'udw', 'RS1', 'IsInteger', 6), |
| 'Rs2': ('IntReg', 'udw', 'RS2', 'IsInteger', 7), |
| # A microcode register. Right now, this is the only one. |
| 'uReg0': ('IntReg', 'udw', 'INTREG_UREG0', 'IsInteger', 8), |
| # Because double and quad precision register numbers are decoded |
| # differently, they get different operands. The single precision versions |
| # have an s post pended to their name. |
| 'Frds': ('FloatReg', 'sf', 'RD', 'IsFloating', 10), |
| #'Frd': ('FloatReg', 'df', 'dfpr(RD)', 'IsFloating', 10), |
| 'Frd_low': ('FloatReg', 'uw', 'dfprl(RD)', 'IsFloating', 10), |
| 'Frd_high': ('FloatReg', 'uw', 'dfprh(RD)', 'IsFloating', 10), |
| # Each Frd_N refers to the Nth double precision register from Frd. |
| # Note that this adds twice N to the register number. |
| #'Frd_0': ('FloatReg', 'df', 'dfpr(RD)', 'IsFloating', 10), |
| 'Frd_0_low': ('FloatReg', 'uw', 'dfprl(RD)', 'IsFloating', 10), |
| 'Frd_0_high': ('FloatReg', 'uw', 'dfprh(RD)', 'IsFloating', 10), |
| #'Frd_1': ('FloatReg', 'df', 'dfpr(RD) + 2', 'IsFloating', 10), |
| 'Frd_1_low': ('FloatReg', 'uw', 'dfprl(RD) + 2', 'IsFloating', 10), |
| 'Frd_1_high': ('FloatReg', 'uw', 'dfprh(RD) + 2', 'IsFloating', 10), |
| #'Frd_2': ('FloatReg', 'df', 'dfpr(RD) + 4', 'IsFloating', 10), |
| 'Frd_2_low': ('FloatReg', 'uw', 'dfprl(RD) + 4', 'IsFloating', 10), |
| 'Frd_2_high': ('FloatReg', 'uw', 'dfprh(RD) + 4', 'IsFloating', 10), |
| #'Frd_3': ('FloatReg', 'df', 'dfpr(RD) + 6', 'IsFloating', 10), |
| 'Frd_3_low': ('FloatReg', 'uw', 'dfprl(RD) + 6', 'IsFloating', 10), |
| 'Frd_3_high': ('FloatReg', 'uw', 'dfprh(RD) + 6', 'IsFloating', 10), |
| #'Frd_4': ('FloatReg', 'df', 'dfpr(RD) + 8', 'IsFloating', 10), |
| 'Frd_4_low': ('FloatReg', 'uw', 'dfprl(RD) + 8', 'IsFloating', 10), |
| 'Frd_4_high': ('FloatReg', 'uw', 'dfprh(RD) + 8', 'IsFloating', 10), |
| #'Frd_5': ('FloatReg', 'df', 'dfpr(RD) + 10', 'IsFloating', 10), |
| 'Frd_5_low': ('FloatReg', 'uw', 'dfprl(RD) + 10', 'IsFloating', 10), |
| 'Frd_5_high': ('FloatReg', 'uw', 'dfprh(RD) + 10', 'IsFloating', 10), |
| #'Frd_6': ('FloatReg', 'df', 'dfpr(RD) + 12', 'IsFloating', 10), |
| 'Frd_6_low': ('FloatReg', 'uw', 'dfprl(RD) + 12', 'IsFloating', 10), |
| 'Frd_6_high': ('FloatReg', 'uw', 'dfprh(RD) + 12', 'IsFloating', 10), |
| #'Frd_7': ('FloatReg', 'df', 'dfpr(RD) + 14', 'IsFloating', 10), |
| 'Frd_7_low': ('FloatReg', 'uw', 'dfprl(RD) + 14', 'IsFloating', 10), |
| 'Frd_7_high': ('FloatReg', 'uw', 'dfprh(RD) + 14', 'IsFloating', 10), |
| 'Frs1s': ('FloatReg', 'sf', 'RS1', 'IsFloating', 11), |
| #'Frs1': ('FloatReg', 'df', 'dfpr(RS1)', 'IsFloating', 11), |
| 'Frs1_low': ('FloatReg', 'uw', 'dfprl(RS1)', 'IsFloating', 11), |
| 'Frs1_high': ('FloatReg', 'uw', 'dfprh(RS1)', 'IsFloating', 11), |
| 'Frs2s': ('FloatReg', 'sf', 'RS2', 'IsFloating', 12), |
| #'Frs2': ('FloatReg', 'df', 'dfpr(RS2)', 'IsFloating', 12), |
| 'Frs2_low': ('FloatReg', 'uw', 'dfprl(RS2)', 'IsFloating', 12), |
| 'Frs2_high': ('FloatReg', 'uw', 'dfprh(RS2)', 'IsFloating', 12), |
| 'PC': ('PCState', 'udw', 'pc', (None, None, 'IsControl'), 30), |
| 'NPC': ('PCState', 'udw', 'npc', (None, None, 'IsControl'), 30), |
| 'NNPC': ('PCState', 'udw', 'nnpc', (None, None, 'IsControl'), 30), |
| # Registers which are used explicitly in instructions |
| 'R0': ('IntReg', 'udw', '0', None, 6), |
| 'R1': ('IntReg', 'udw', '1', None, 7), |
| 'R15': ('IntReg', 'udw', '15', 'IsInteger', 8), |
| 'R16': ('IntReg', 'udw', '16', None, 9), |
| 'O0': ('IntReg', 'udw', 'INTREG_O0', 'IsInteger', 10), |
| 'O1': ('IntReg', 'udw', 'INTREG_O1', 'IsInteger', 11), |
| 'O2': ('IntReg', 'udw', 'INTREG_O2', 'IsInteger', 12), |
| 'O3': ('IntReg', 'udw', 'INTREG_O3', 'IsInteger', 13), |
| 'O4': ('IntReg', 'udw', 'INTREG_O4', 'IsInteger', 14), |
| 'O5': ('IntReg', 'udw', 'INTREG_O5', 'IsInteger', 15), |
| |
| # Control registers |
| 'Y': ('IntReg', 'udw', 'INTREG_Y', None, 40), |
| 'Ccr': ('IntReg', 'udw', 'INTREG_CCR', None, 41), |
| 'Asi': ('ControlReg', 'udw', 'MISCREG_ASI', None, 42), |
| 'Fprs': ('ControlReg', 'udw', 'MISCREG_FPRS', None, 43), |
| 'Pcr': ('ControlReg', 'udw', 'MISCREG_PCR', None, 44), |
| 'Pic': ('ControlReg', 'udw', 'MISCREG_PIC', None, 45), |
| 'Gsr': ('IntReg', 'udw', 'INTREG_GSR', None, 46), |
| 'Softint': ('ControlReg', 'udw', 'MISCREG_SOFTINT', None, 47), |
| 'SoftintSet': ('ControlReg', 'udw', 'MISCREG_SOFTINT_SET', None, 48), |
| 'SoftintClr': ('ControlReg', 'udw', 'MISCREG_SOFTINT_CLR', None, 49), |
| 'TickCmpr': ('ControlReg', 'udw', 'MISCREG_TICK_CMPR', None, 50), |
| 'Stick': ('ControlReg', 'udw', 'MISCREG_STICK', None, 51), |
| 'StickCmpr': ('ControlReg', 'udw', 'MISCREG_STICK_CMPR', None, 52), |
| |
| 'Tpc': ('ControlReg', 'udw', 'MISCREG_TPC', None, 53), |
| 'Tnpc': ('ControlReg', 'udw', 'MISCREG_TNPC', None, 54), |
| 'Tstate': ('ControlReg', 'udw', 'MISCREG_TSTATE', None, 55), |
| 'Tt': ('ControlReg', 'udw', 'MISCREG_TT', None, 56), |
| 'Tick': ('ControlReg', 'udw', 'MISCREG_TICK', None, 57), |
| 'Tba': ('ControlReg', 'udw', 'MISCREG_TBA', None, 58), |
| 'Pstate': ('ControlReg', 'pstate', 'MISCREG_PSTATE', None, 59), |
| 'Tl': ('ControlReg', 'udw', 'MISCREG_TL', None, 60), |
| 'Pil': ('ControlReg', 'udw', 'MISCREG_PIL', None, 61), |
| 'Cwp': ('ControlReg', 'udw', 'MISCREG_CWP', |
| (None, None, ['IsSerializeAfter', |
| 'IsSerializing', |
| 'IsNonSpeculative']), 62), |
| 'Cansave': ('IntReg', 'udw', 'INTREG_CANSAVE', None, 63), |
| 'Canrestore': ('IntReg', 'udw', 'INTREG_CANRESTORE', None, 64), |
| 'Cleanwin': ('IntReg', 'udw', 'INTREG_CLEANWIN', None, 65), |
| 'Otherwin': ('IntReg', 'udw', 'INTREG_OTHERWIN', None, 66), |
| 'Wstate': ('IntReg', 'udw', 'INTREG_WSTATE', None, 67), |
| 'Gl': ('ControlReg', 'udw', 'MISCREG_GL', None, 68), |
| |
| 'Hpstate': ('ControlReg', 'hpstate', 'MISCREG_HPSTATE', None, 69), |
| 'Htstate': ('ControlReg', 'udw', 'MISCREG_HTSTATE', None, 70), |
| 'Hintp': ('ControlReg', 'udw', 'MISCREG_HINTP', None, 71), |
| 'Htba': ('ControlReg', 'udw', 'MISCREG_HTBA', None, 72), |
| 'HstickCmpr': ('ControlReg', 'udw', 'MISCREG_HSTICK_CMPR', None, 73), |
| 'Hver': ('ControlReg', 'udw', 'MISCREG_HVER', None, 74), |
| 'StrandStsReg': ('ControlReg', 'udw', 'MISCREG_STRAND_STS_REG', None, 75), |
| |
| 'Fsr': ('ControlReg', 'udw', 'MISCREG_FSR', (None, None, ['IsSerializeAfter','IsSerializing','IsNonSpeculative']), 80), |
| # Mem gets a large number so it's always last |
| 'Mem': ('Mem', 'udw', None, (None, 'IsLoad', 'IsStore'), 100) |
| |
| }}; |
