100406dffSbellard /* 200406dffSbellard NetWinder Floating Point Emulator 300406dffSbellard (c) Rebel.COM, 1998,1999 400406dffSbellard 500406dffSbellard Direct questions, comments to Scott Bambrough <scottb@netwinder.org> 600406dffSbellard 700406dffSbellard This program is free software; you can redistribute it and/or modify 800406dffSbellard it under the terms of the GNU General Public License as published by 900406dffSbellard the Free Software Foundation; either version 2 of the License, or 1000406dffSbellard (at your option) any later version. 1100406dffSbellard 1200406dffSbellard This program is distributed in the hope that it will be useful, 1300406dffSbellard but WITHOUT ANY WARRANTY; without even the implied warranty of 1400406dffSbellard MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 1500406dffSbellard GNU General Public License for more details. 1600406dffSbellard 1700406dffSbellard You should have received a copy of the GNU General Public License 1800406dffSbellard along with this program; if not, write to the Free Software 1900406dffSbellard Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 2000406dffSbellard */ 2100406dffSbellard 2200406dffSbellard #ifndef __FPOPCODE_H__ 2300406dffSbellard #define __FPOPCODE_H__ 2400406dffSbellard 2500406dffSbellard /* 2600406dffSbellard ARM Floating Point Instruction Classes 2700406dffSbellard | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 2800406dffSbellard |c o n d|1 1 0 P|U|u|W|L| Rn |v| Fd |0|0|0|1| o f f s e t | CPDT 2900406dffSbellard |c o n d|1 1 0 P|U|w|W|L| Rn |x| Fd |0|0|0|1| o f f s e t | CPDT 3000406dffSbellard | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 3100406dffSbellard |c o n d|1 1 1 0|a|b|c|d|e| Fn |j| Fd |0|0|0|1|f|g|h|0|i| Fm | CPDO 3200406dffSbellard |c o n d|1 1 1 0|a|b|c|L|e| Fn | Rd |0|0|0|1|f|g|h|1|i| Fm | CPRT 3300406dffSbellard |c o n d|1 1 1 0|a|b|c|1|e| Fn |1|1|1|1|0|0|0|1|f|g|h|1|i| Fm | comparisons 3400406dffSbellard | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 3500406dffSbellard 3600406dffSbellard CPDT data transfer instructions 3700406dffSbellard LDF, STF, LFM, SFM 3800406dffSbellard 3900406dffSbellard CPDO dyadic arithmetic instructions 4000406dffSbellard ADF, MUF, SUF, RSF, DVF, RDF, 4100406dffSbellard POW, RPW, RMF, FML, FDV, FRD, POL 4200406dffSbellard 4300406dffSbellard CPDO monadic arithmetic instructions 4400406dffSbellard MVF, MNF, ABS, RND, SQT, LOG, LGN, EXP, 4500406dffSbellard SIN, COS, TAN, ASN, ACS, ATN, URD, NRM 4600406dffSbellard 4700406dffSbellard CPRT joint arithmetic/data transfer instructions 4800406dffSbellard FIX (arithmetic followed by load/store) 4900406dffSbellard FLT (load/store followed by arithmetic) 5000406dffSbellard CMF, CNF CMFE, CNFE (comparisons) 5100406dffSbellard WFS, RFS (write/read floating point status register) 5200406dffSbellard WFC, RFC (write/read floating point control register) 5300406dffSbellard 5400406dffSbellard cond condition codes 5500406dffSbellard P pre/post index bit: 0 = postindex, 1 = preindex 5600406dffSbellard U up/down bit: 0 = stack grows down, 1 = stack grows up 5700406dffSbellard W write back bit: 1 = update base register (Rn) 5800406dffSbellard L load/store bit: 0 = store, 1 = load 5900406dffSbellard Rn base register 6000406dffSbellard Rd destination/source register 6100406dffSbellard Fd floating point destination register 6200406dffSbellard Fn floating point source register 6300406dffSbellard Fm floating point source register or floating point constant 6400406dffSbellard 6500406dffSbellard uv transfer length (TABLE 1) 6600406dffSbellard wx register count (TABLE 2) 6700406dffSbellard abcd arithmetic opcode (TABLES 3 & 4) 6800406dffSbellard ef destination size (rounding precision) (TABLE 5) 6900406dffSbellard gh rounding mode (TABLE 6) 7000406dffSbellard j dyadic/monadic bit: 0 = dyadic, 1 = monadic 7100406dffSbellard i constant bit: 1 = constant (TABLE 6) 7200406dffSbellard */ 7300406dffSbellard 7400406dffSbellard /* 7500406dffSbellard TABLE 1 7600406dffSbellard +-------------------------+---+---+---------+---------+ 7700406dffSbellard | Precision | u | v | FPSR.EP | length | 7800406dffSbellard +-------------------------+---+---+---------+---------+ 7900406dffSbellard | Single | 0 � 0 | x | 1 words | 8000406dffSbellard | Double | 1 � 1 | x | 2 words | 8100406dffSbellard | Extended | 1 � 1 | x | 3 words | 8200406dffSbellard | Packed decimal | 1 � 1 | 0 | 3 words | 8300406dffSbellard | Expanded packed decimal | 1 � 1 | 1 | 4 words | 8400406dffSbellard +-------------------------+---+---+---------+---------+ 8500406dffSbellard Note: x = don't care 8600406dffSbellard */ 8700406dffSbellard 8800406dffSbellard /* 8900406dffSbellard TABLE 2 9000406dffSbellard +---+---+---------------------------------+ 9100406dffSbellard | w | x | Number of registers to transfer | 9200406dffSbellard +---+---+---------------------------------+ 9300406dffSbellard | 0 � 1 | 1 | 9400406dffSbellard | 1 � 0 | 2 | 9500406dffSbellard | 1 � 1 | 3 | 9600406dffSbellard | 0 � 0 | 4 | 9700406dffSbellard +---+---+---------------------------------+ 9800406dffSbellard */ 9900406dffSbellard 10000406dffSbellard /* 10100406dffSbellard TABLE 3: Dyadic Floating Point Opcodes 10200406dffSbellard +---+---+---+---+----------+-----------------------+-----------------------+ 10300406dffSbellard | a | b | c | d | Mnemonic | Description | Operation | 10400406dffSbellard +---+---+---+---+----------+-----------------------+-----------------------+ 10500406dffSbellard | 0 | 0 | 0 | 0 | ADF | Add | Fd := Fn + Fm | 10600406dffSbellard | 0 | 0 | 0 | 1 | MUF | Multiply | Fd := Fn * Fm | 10700406dffSbellard | 0 | 0 | 1 | 0 | SUF | Subtract | Fd := Fn - Fm | 10800406dffSbellard | 0 | 0 | 1 | 1 | RSF | Reverse subtract | Fd := Fm - Fn | 10900406dffSbellard | 0 | 1 | 0 | 0 | DVF | Divide | Fd := Fn / Fm | 11000406dffSbellard | 0 | 1 | 0 | 1 | RDF | Reverse divide | Fd := Fm / Fn | 11100406dffSbellard | 0 | 1 | 1 | 0 | POW | Power | Fd := Fn ^ Fm | 11200406dffSbellard | 0 | 1 | 1 | 1 | RPW | Reverse power | Fd := Fm ^ Fn | 11300406dffSbellard | 1 | 0 | 0 | 0 | RMF | Remainder | Fd := IEEE rem(Fn/Fm) | 11400406dffSbellard | 1 | 0 | 0 | 1 | FML | Fast Multiply | Fd := Fn * Fm | 11500406dffSbellard | 1 | 0 | 1 | 0 | FDV | Fast Divide | Fd := Fn / Fm | 11600406dffSbellard | 1 | 0 | 1 | 1 | FRD | Fast reverse divide | Fd := Fm / Fn | 11700406dffSbellard | 1 | 1 | 0 | 0 | POL | Polar angle (ArcTan2) | Fd := arctan2(Fn,Fm) | 11800406dffSbellard | 1 | 1 | 0 | 1 | | undefined instruction | trap | 11900406dffSbellard | 1 | 1 | 1 | 0 | | undefined instruction | trap | 12000406dffSbellard | 1 | 1 | 1 | 1 | | undefined instruction | trap | 12100406dffSbellard +---+---+---+---+----------+-----------------------+-----------------------+ 12200406dffSbellard Note: POW, RPW, POL are deprecated, and are available for backwards 12300406dffSbellard compatibility only. 12400406dffSbellard */ 12500406dffSbellard 12600406dffSbellard /* 12700406dffSbellard TABLE 4: Monadic Floating Point Opcodes 12800406dffSbellard +---+---+---+---+----------+-----------------------+-----------------------+ 12900406dffSbellard | a | b | c | d | Mnemonic | Description | Operation | 13000406dffSbellard +---+---+---+---+----------+-----------------------+-----------------------+ 13100406dffSbellard | 0 | 0 | 0 | 0 | MVF | Move | Fd := Fm | 13200406dffSbellard | 0 | 0 | 0 | 1 | MNF | Move negated | Fd := - Fm | 13300406dffSbellard | 0 | 0 | 1 | 0 | ABS | Absolute value | Fd := abs(Fm) | 13400406dffSbellard | 0 | 0 | 1 | 1 | RND | Round to integer | Fd := int(Fm) | 13500406dffSbellard | 0 | 1 | 0 | 0 | SQT | Square root | Fd := sqrt(Fm) | 13600406dffSbellard | 0 | 1 | 0 | 1 | LOG | Log base 10 | Fd := log10(Fm) | 13700406dffSbellard | 0 | 1 | 1 | 0 | LGN | Log base e | Fd := ln(Fm) | 13800406dffSbellard | 0 | 1 | 1 | 1 | EXP | Exponent | Fd := e ^ Fm | 13900406dffSbellard | 1 | 0 | 0 | 0 | SIN | Sine | Fd := sin(Fm) | 14000406dffSbellard | 1 | 0 | 0 | 1 | COS | Cosine | Fd := cos(Fm) | 14100406dffSbellard | 1 | 0 | 1 | 0 | TAN | Tangent | Fd := tan(Fm) | 14200406dffSbellard | 1 | 0 | 1 | 1 | ASN | Arc Sine | Fd := arcsin(Fm) | 14300406dffSbellard | 1 | 1 | 0 | 0 | ACS | Arc Cosine | Fd := arccos(Fm) | 14400406dffSbellard | 1 | 1 | 0 | 1 | ATN | Arc Tangent | Fd := arctan(Fm) | 14500406dffSbellard | 1 | 1 | 1 | 0 | URD | Unnormalized round | Fd := int(Fm) | 14600406dffSbellard | 1 | 1 | 1 | 1 | NRM | Normalize | Fd := norm(Fm) | 14700406dffSbellard +---+---+---+---+----------+-----------------------+-----------------------+ 14800406dffSbellard Note: LOG, LGN, EXP, SIN, COS, TAN, ASN, ACS, ATN are deprecated, and are 14900406dffSbellard available for backwards compatibility only. 15000406dffSbellard */ 15100406dffSbellard 15200406dffSbellard /* 15300406dffSbellard TABLE 5 15400406dffSbellard +-------------------------+---+---+ 15500406dffSbellard | Rounding Precision | e | f | 15600406dffSbellard +-------------------------+---+---+ 15700406dffSbellard | IEEE Single precision | 0 � 0 | 15800406dffSbellard | IEEE Double precision | 0 � 1 | 15900406dffSbellard | IEEE Extended precision | 1 � 0 | 16000406dffSbellard | undefined (trap) | 1 � 1 | 16100406dffSbellard +-------------------------+---+---+ 16200406dffSbellard */ 16300406dffSbellard 16400406dffSbellard /* 16500406dffSbellard TABLE 5 16600406dffSbellard +---------------------------------+---+---+ 16700406dffSbellard | Rounding Mode | g | h | 16800406dffSbellard +---------------------------------+---+---+ 16900406dffSbellard | Round to nearest (default) | 0 � 0 | 17000406dffSbellard | Round toward plus infinity | 0 � 1 | 17100406dffSbellard | Round toward negative infinity | 1 � 0 | 17200406dffSbellard | Round toward zero | 1 � 1 | 17300406dffSbellard +---------------------------------+---+---+ 17400406dffSbellard */ 17500406dffSbellard 17600406dffSbellard /* 17700406dffSbellard === 17800406dffSbellard === Definitions for load and store instructions 17900406dffSbellard === 18000406dffSbellard */ 18100406dffSbellard 18200406dffSbellard /* bit masks */ 18300406dffSbellard #define BIT_PREINDEX 0x01000000 18400406dffSbellard #define BIT_UP 0x00800000 18500406dffSbellard #define BIT_WRITE_BACK 0x00200000 18600406dffSbellard #define BIT_LOAD 0x00100000 18700406dffSbellard 18800406dffSbellard /* masks for load/store */ 18900406dffSbellard #define MASK_CPDT 0x0c000000 /* data processing opcode */ 19000406dffSbellard #define MASK_OFFSET 0x000000ff 19100406dffSbellard #define MASK_TRANSFER_LENGTH 0x00408000 19200406dffSbellard #define MASK_REGISTER_COUNT MASK_TRANSFER_LENGTH 19300406dffSbellard #define MASK_COPROCESSOR 0x00000f00 19400406dffSbellard 19500406dffSbellard /* Tests for transfer length */ 19600406dffSbellard #define TRANSFER_SINGLE 0x00000000 19700406dffSbellard #define TRANSFER_DOUBLE 0x00008000 19800406dffSbellard #define TRANSFER_EXTENDED 0x00400000 19900406dffSbellard #define TRANSFER_PACKED MASK_TRANSFER_LENGTH 20000406dffSbellard 20100406dffSbellard /* Get the coprocessor number from the opcode. */ 20200406dffSbellard #define getCoprocessorNumber(opcode) ((opcode & MASK_COPROCESSOR) >> 8) 20300406dffSbellard 20400406dffSbellard /* Get the offset from the opcode. */ 20500406dffSbellard #define getOffset(opcode) (opcode & MASK_OFFSET) 20600406dffSbellard 20700406dffSbellard /* Tests for specific data transfer load/store opcodes. */ 20800406dffSbellard #define TEST_OPCODE(opcode,mask) (((opcode) & (mask)) == (mask)) 20900406dffSbellard 21000406dffSbellard #define LOAD_OP(opcode) TEST_OPCODE((opcode),MASK_CPDT | BIT_LOAD) 21100406dffSbellard #define STORE_OP(opcode) ((opcode & (MASK_CPDT | BIT_LOAD)) == MASK_CPDT) 21200406dffSbellard 21300406dffSbellard #define LDF_OP(opcode) (LOAD_OP(opcode) && (getCoprocessorNumber(opcode) == 1)) 21400406dffSbellard #define LFM_OP(opcode) (LOAD_OP(opcode) && (getCoprocessorNumber(opcode) == 2)) 21500406dffSbellard #define STF_OP(opcode) (STORE_OP(opcode) && (getCoprocessorNumber(opcode) == 1)) 21600406dffSbellard #define SFM_OP(opcode) (STORE_OP(opcode) && (getCoprocessorNumber(opcode) == 2)) 21700406dffSbellard 21800406dffSbellard #define PREINDEXED(opcode) ((opcode & BIT_PREINDEX) != 0) 21900406dffSbellard #define POSTINDEXED(opcode) ((opcode & BIT_PREINDEX) == 0) 22000406dffSbellard #define BIT_UP_SET(opcode) ((opcode & BIT_UP) != 0) 22100406dffSbellard #define BIT_UP_CLEAR(opcode) ((opcode & BIT_DOWN) == 0) 22200406dffSbellard #define WRITE_BACK(opcode) ((opcode & BIT_WRITE_BACK) != 0) 22300406dffSbellard #define LOAD(opcode) ((opcode & BIT_LOAD) != 0) 22400406dffSbellard #define STORE(opcode) ((opcode & BIT_LOAD) == 0) 22500406dffSbellard 22600406dffSbellard /* 22700406dffSbellard === 22800406dffSbellard === Definitions for arithmetic instructions 22900406dffSbellard === 23000406dffSbellard */ 23100406dffSbellard /* bit masks */ 23200406dffSbellard #define BIT_MONADIC 0x00008000 23300406dffSbellard #define BIT_CONSTANT 0x00000008 23400406dffSbellard 23500406dffSbellard #define CONSTANT_FM(opcode) ((opcode & BIT_CONSTANT) != 0) 23600406dffSbellard #define MONADIC_INSTRUCTION(opcode) ((opcode & BIT_MONADIC) != 0) 23700406dffSbellard 23800406dffSbellard /* instruction identification masks */ 23900406dffSbellard #define MASK_CPDO 0x0e000000 /* arithmetic opcode */ 24000406dffSbellard #define MASK_ARITHMETIC_OPCODE 0x00f08000 24100406dffSbellard #define MASK_DESTINATION_SIZE 0x00080080 24200406dffSbellard 24300406dffSbellard /* dyadic arithmetic opcodes. */ 24400406dffSbellard #define ADF_CODE 0x00000000 24500406dffSbellard #define MUF_CODE 0x00100000 24600406dffSbellard #define SUF_CODE 0x00200000 24700406dffSbellard #define RSF_CODE 0x00300000 24800406dffSbellard #define DVF_CODE 0x00400000 24900406dffSbellard #define RDF_CODE 0x00500000 25000406dffSbellard #define POW_CODE 0x00600000 25100406dffSbellard #define RPW_CODE 0x00700000 25200406dffSbellard #define RMF_CODE 0x00800000 25300406dffSbellard #define FML_CODE 0x00900000 25400406dffSbellard #define FDV_CODE 0x00a00000 25500406dffSbellard #define FRD_CODE 0x00b00000 25600406dffSbellard #define POL_CODE 0x00c00000 25700406dffSbellard /* 0x00d00000 is an invalid dyadic arithmetic opcode */ 25800406dffSbellard /* 0x00e00000 is an invalid dyadic arithmetic opcode */ 25900406dffSbellard /* 0x00f00000 is an invalid dyadic arithmetic opcode */ 26000406dffSbellard 26100406dffSbellard /* monadic arithmetic opcodes. */ 26200406dffSbellard #define MVF_CODE 0x00008000 26300406dffSbellard #define MNF_CODE 0x00108000 26400406dffSbellard #define ABS_CODE 0x00208000 26500406dffSbellard #define RND_CODE 0x00308000 26600406dffSbellard #define SQT_CODE 0x00408000 26700406dffSbellard #define LOG_CODE 0x00508000 26800406dffSbellard #define LGN_CODE 0x00608000 26900406dffSbellard #define EXP_CODE 0x00708000 27000406dffSbellard #define SIN_CODE 0x00808000 27100406dffSbellard #define COS_CODE 0x00908000 27200406dffSbellard #define TAN_CODE 0x00a08000 27300406dffSbellard #define ASN_CODE 0x00b08000 27400406dffSbellard #define ACS_CODE 0x00c08000 27500406dffSbellard #define ATN_CODE 0x00d08000 27600406dffSbellard #define URD_CODE 0x00e08000 27700406dffSbellard #define NRM_CODE 0x00f08000 27800406dffSbellard 27900406dffSbellard /* 28000406dffSbellard === 28100406dffSbellard === Definitions for register transfer and comparison instructions 28200406dffSbellard === 28300406dffSbellard */ 28400406dffSbellard 28500406dffSbellard #define MASK_CPRT 0x0e000010 /* register transfer opcode */ 28600406dffSbellard #define MASK_CPRT_CODE 0x00f00000 28700406dffSbellard #define FLT_CODE 0x00000000 28800406dffSbellard #define FIX_CODE 0x00100000 28900406dffSbellard #define WFS_CODE 0x00200000 29000406dffSbellard #define RFS_CODE 0x00300000 29100406dffSbellard #define WFC_CODE 0x00400000 29200406dffSbellard #define RFC_CODE 0x00500000 29300406dffSbellard #define CMF_CODE 0x00900000 29400406dffSbellard #define CNF_CODE 0x00b00000 29500406dffSbellard #define CMFE_CODE 0x00d00000 29600406dffSbellard #define CNFE_CODE 0x00f00000 29700406dffSbellard 29800406dffSbellard /* 29900406dffSbellard === 30000406dffSbellard === Common definitions 30100406dffSbellard === 30200406dffSbellard */ 30300406dffSbellard 30400406dffSbellard /* register masks */ 30500406dffSbellard #define MASK_Rd 0x0000f000 30600406dffSbellard #define MASK_Rn 0x000f0000 30700406dffSbellard #define MASK_Fd 0x00007000 30800406dffSbellard #define MASK_Fm 0x00000007 30900406dffSbellard #define MASK_Fn 0x00070000 31000406dffSbellard 31100406dffSbellard /* condition code masks */ 31200406dffSbellard #define CC_MASK 0xf0000000 31300406dffSbellard #define CC_NEGATIVE 0x80000000 31400406dffSbellard #define CC_ZERO 0x40000000 31500406dffSbellard #define CC_CARRY 0x20000000 31600406dffSbellard #define CC_OVERFLOW 0x10000000 31700406dffSbellard #define CC_EQ 0x00000000 31800406dffSbellard #define CC_NE 0x10000000 31900406dffSbellard #define CC_CS 0x20000000 32000406dffSbellard #define CC_HS CC_CS 32100406dffSbellard #define CC_CC 0x30000000 32200406dffSbellard #define CC_LO CC_CC 32300406dffSbellard #define CC_MI 0x40000000 32400406dffSbellard #define CC_PL 0x50000000 32500406dffSbellard #define CC_VS 0x60000000 32600406dffSbellard #define CC_VC 0x70000000 32700406dffSbellard #define CC_HI 0x80000000 32800406dffSbellard #define CC_LS 0x90000000 32900406dffSbellard #define CC_GE 0xa0000000 33000406dffSbellard #define CC_LT 0xb0000000 33100406dffSbellard #define CC_GT 0xc0000000 33200406dffSbellard #define CC_LE 0xd0000000 33300406dffSbellard #define CC_AL 0xe0000000 33400406dffSbellard #define CC_NV 0xf0000000 33500406dffSbellard 33600406dffSbellard /* rounding masks/values */ 33700406dffSbellard #define MASK_ROUNDING_MODE 0x00000060 33800406dffSbellard #define ROUND_TO_NEAREST 0x00000000 33900406dffSbellard #define ROUND_TO_PLUS_INFINITY 0x00000020 34000406dffSbellard #define ROUND_TO_MINUS_INFINITY 0x00000040 34100406dffSbellard #define ROUND_TO_ZERO 0x00000060 34200406dffSbellard 34300406dffSbellard #define MASK_ROUNDING_PRECISION 0x00080080 34400406dffSbellard #define ROUND_SINGLE 0x00000000 34500406dffSbellard #define ROUND_DOUBLE 0x00000080 34600406dffSbellard #define ROUND_EXTENDED 0x00080000 34700406dffSbellard 34800406dffSbellard /* Get the condition code from the opcode. */ 34900406dffSbellard #define getCondition(opcode) (opcode >> 28) 35000406dffSbellard 35100406dffSbellard /* Get the source register from the opcode. */ 35200406dffSbellard #define getRn(opcode) ((opcode & MASK_Rn) >> 16) 35300406dffSbellard 35400406dffSbellard /* Get the destination floating point register from the opcode. */ 35500406dffSbellard #define getFd(opcode) ((opcode & MASK_Fd) >> 12) 35600406dffSbellard 35700406dffSbellard /* Get the first source floating point register from the opcode. */ 35800406dffSbellard #define getFn(opcode) ((opcode & MASK_Fn) >> 16) 35900406dffSbellard 36000406dffSbellard /* Get the second source floating point register from the opcode. */ 36100406dffSbellard #define getFm(opcode) (opcode & MASK_Fm) 36200406dffSbellard 36300406dffSbellard /* Get the destination register from the opcode. */ 36400406dffSbellard #define getRd(opcode) ((opcode & MASK_Rd) >> 12) 36500406dffSbellard 36600406dffSbellard /* Get the rounding mode from the opcode. */ 36700406dffSbellard #define getRoundingMode(opcode) ((opcode & MASK_ROUNDING_MODE) >> 5) 36800406dffSbellard 369*d4fa8d90SBlue Swirl extern const floatx80 floatx80Constant[]; 370*d4fa8d90SBlue Swirl extern const float64 float64Constant[]; 371*d4fa8d90SBlue Swirl extern const float32 float32Constant[]; 372*d4fa8d90SBlue Swirl 3737ccfb2ebSblueswir1 static inline floatx80 getExtendedConstant(const unsigned int nIndex) 37400406dffSbellard { 37500406dffSbellard return floatx80Constant[nIndex]; 37600406dffSbellard } 37700406dffSbellard 3787ccfb2ebSblueswir1 static inline float64 getDoubleConstant(const unsigned int nIndex) 37900406dffSbellard { 38000406dffSbellard return float64Constant[nIndex]; 38100406dffSbellard } 38200406dffSbellard 3837ccfb2ebSblueswir1 static inline float32 getSingleConstant(const unsigned int nIndex) 38400406dffSbellard { 38500406dffSbellard return float32Constant[nIndex]; 38600406dffSbellard } 38700406dffSbellard 38800406dffSbellard extern unsigned int getRegisterCount(const unsigned int opcode); 38900406dffSbellard extern unsigned int getDestinationSize(const unsigned int opcode); 39000406dffSbellard 39100406dffSbellard #endif 392