d320201dbe
It's used in one place and can easily be replaced by using the sim state.
233 lines
7 KiB
C
233 lines
7 KiB
C
#include <stdio.h>
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#include <ctype.h>
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#include "ansidecl.h"
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#include "gdb/callback.h"
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#include "opcode/mn10300.h"
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#include <limits.h>
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#include "gdb/remote-sim.h"
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#include "bfd.h"
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#include "sim-fpu.h"
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extern SIM_DESC simulator;
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typedef unsigned8 uint8;
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typedef signed8 int8;
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typedef unsigned16 uint16;
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typedef signed16 int16;
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typedef unsigned32 uint32;
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typedef signed32 int32;
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typedef struct
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{
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uint32 low, high;
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} dword;
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typedef uint32 reg_t;
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struct simops
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{
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long opcode;
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long mask;
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void (*func)();
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int length;
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int format;
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int numops;
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int operands[16];
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};
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/* The current state of the processor; registers, memory, etc. */
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struct _state
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{
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reg_t regs[32]; /* registers, d0-d3, a0-a3, sp, pc, mdr, psw,
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lir, lar, mdrq, plus some room for processor
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specific regs. */
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union
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{
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reg_t fs[32]; /* FS0-31 */
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dword fd[16]; /* FD0,2,...,30 */
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} fpregs;
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/* All internal state modified by signal_exception() that may need to be
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rolled back for passing moment-of-exception image back to gdb. */
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reg_t exc_trigger_regs[32];
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reg_t exc_suspend_regs[32];
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int exc_suspended;
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#define SIM_CPU_EXCEPTION_TRIGGER(SD,CPU,CIA) mn10300_cpu_exception_trigger(SD,CPU,CIA)
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#define SIM_CPU_EXCEPTION_SUSPEND(SD,CPU,EXC) mn10300_cpu_exception_suspend(SD,CPU,EXC)
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#define SIM_CPU_EXCEPTION_RESUME(SD,CPU,EXC) mn10300_cpu_exception_resume(SD,CPU,EXC)
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};
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extern struct _state State;
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#define PC (State.regs[REG_PC])
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#define SP (State.regs[REG_SP])
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#define PSW (State.regs[11])
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#define PSW_Z 0x1
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#define PSW_N 0x2
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#define PSW_C 0x4
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#define PSW_V 0x8
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#define PSW_IE LSBIT (11)
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#define PSW_LM LSMASK (10, 8)
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#define EXTRACT_PSW_LM LSEXTRACTED16 (PSW, 10, 8)
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#define INSERT_PSW_LM(l) LSINSERTED16 ((l), 10, 8)
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#define REG_D0 0
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#define REG_A0 4
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#define REG_SP 8
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#define REG_PC 9
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#define REG_MDR 10
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#define REG_PSW 11
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#define REG_LIR 12
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#define REG_LAR 13
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#define REG_MDRQ 14
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#define REG_E0 15
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#define REG_SSP 23
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#define REG_MSP 24
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#define REG_USP 25
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#define REG_MCRH 26
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#define REG_MCRL 27
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#define REG_MCVF 28
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#define REG_FPCR 29
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#define FPCR (State.regs[REG_FPCR])
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#define FCC_MASK LSMASK (21, 18)
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#define RM_MASK LSMASK (17, 16) /* Must always be zero. */
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#define EC_MASK LSMASK (14, 10)
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#define EE_MASK LSMASK ( 9, 5)
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#define EF_MASK LSMASK ( 4, 0)
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#define FPCR_MASK (FCC_MASK | EC_MASK | EE_MASK | EF_MASK)
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#define FCC_L LSBIT (21)
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#define FCC_G LSBIT (20)
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#define FCC_E LSBIT (19)
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#define FCC_U LSBIT (18)
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#define EC_V LSBIT (14)
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#define EC_Z LSBIT (13)
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#define EC_O LSBIT (12)
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#define EC_U LSBIT (11)
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#define EC_I LSBIT (10)
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#define EE_V LSBIT (9)
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#define EE_Z LSBIT (8)
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#define EE_O LSBIT (7)
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#define EE_U LSBIT (6)
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#define EE_I LSBIT (5)
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#define EF_V LSBIT (4)
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#define EF_Z LSBIT (3)
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#define EF_O LSBIT (2)
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#define EF_U LSBIT (1)
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#define EF_I LSBIT (0)
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#define PSW_FE LSBIT(20)
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#define FPU_DISABLED !(PSW & PSW_FE)
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#define XS2FS(X,S) State.fpregs.fs[((X<<4)|(S))]
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#define AS2FS(A,S) State.fpregs.fs[((A<<2)|(S))]
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#define Xf2FD(X,f) State.fpregs.fd[((X<<3)|(f))]
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#define FS2FPU(FS,F) sim_fpu_32to (&(F), (FS))
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#define FD2FPU(FD,F) sim_fpu_232to (&(F), ((FD).high), ((FD).low))
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#define FPU2FS(F,FS) sim_fpu_to32 (&(FS), &(F))
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#define FPU2FD(F,FD) sim_fpu_to232 (&((FD).high), &((FD).low), &(F))
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#define FETCH32(a,b,c,d) \
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((a)+((b)<<8)+((c)<<16)+((d)<<24))
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#define FETCH24(a,b,c) \
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((a)+((b)<<8)+((c)<<16))
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#define FETCH16(a,b) ((a)+((b)<<8))
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#define load_byte(ADDR) \
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sim_core_read_unaligned_1 (STATE_CPU (simulator, 0), PC, read_map, (ADDR))
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#define load_half(ADDR) \
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sim_core_read_unaligned_2 (STATE_CPU (simulator, 0), PC, read_map, (ADDR))
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#define load_word(ADDR) \
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sim_core_read_unaligned_4 (STATE_CPU (simulator, 0), PC, read_map, (ADDR))
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#define load_dword(ADDR) \
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u642dw (sim_core_read_unaligned_8 (STATE_CPU (simulator, 0), \
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PC, read_map, (ADDR)))
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static INLINE dword
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u642dw (unsigned64 dw)
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{
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dword r;
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r.low = (unsigned32)dw;
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r.high = (unsigned32)(dw >> 32);
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return r;
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}
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#define store_byte(ADDR, DATA) \
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sim_core_write_unaligned_1 (STATE_CPU (simulator, 0), \
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PC, write_map, (ADDR), (DATA))
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#define store_half(ADDR, DATA) \
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sim_core_write_unaligned_2 (STATE_CPU (simulator, 0), \
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PC, write_map, (ADDR), (DATA))
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#define store_word(ADDR, DATA) \
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sim_core_write_unaligned_4 (STATE_CPU (simulator, 0), \
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PC, write_map, (ADDR), (DATA))
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#define store_dword(ADDR, DATA) \
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sim_core_write_unaligned_8 (STATE_CPU (simulator, 0), \
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PC, write_map, (ADDR), dw2u64 (DATA))
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static INLINE unsigned64
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dw2u64 (dword data)
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{
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return data.low | (((unsigned64)data.high) << 32);
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}
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/* Function declarations. */
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INLINE_SIM_MAIN (void) genericAdd (unsigned32 source, unsigned32 destReg);
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INLINE_SIM_MAIN (void) genericSub (unsigned32 source, unsigned32 destReg);
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INLINE_SIM_MAIN (void) genericCmp (unsigned32 leftOpnd, unsigned32 rightOpnd);
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INLINE_SIM_MAIN (void) genericOr (unsigned32 source, unsigned32 destReg);
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INLINE_SIM_MAIN (void) genericXor (unsigned32 source, unsigned32 destReg);
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INLINE_SIM_MAIN (void) genericBtst (unsigned32 leftOpnd, unsigned32 rightOpnd);
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INLINE_SIM_MAIN (void) do_syscall (void);
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void program_interrupt (SIM_DESC sd, sim_cpu *cpu, sim_cia cia, SIM_SIGNAL sig);
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void mn10300_cpu_exception_trigger(SIM_DESC sd, sim_cpu* cpu, address_word pc);
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void mn10300_cpu_exception_suspend(SIM_DESC sd, sim_cpu* cpu, int exception);
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void mn10300_cpu_exception_resume(SIM_DESC sd, sim_cpu* cpu, int exception);
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void fpu_disabled_exception (SIM_DESC, sim_cpu *, address_word);
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void fpu_unimp_exception (SIM_DESC, sim_cpu *, address_word);
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void fpu_check_signal_exception (SIM_DESC, sim_cpu *, address_word);
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extern const struct fp_prec_t
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{
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void (* reg2val) (const void *, sim_fpu *);
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int (* round) (sim_fpu *);
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void (* val2reg) (const sim_fpu *, void *);
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} fp_single_prec, fp_double_prec;
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#define FP_SINGLE (&fp_single_prec)
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#define FP_DOUBLE (&fp_double_prec)
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void fpu_rsqrt (SIM_DESC, sim_cpu *, address_word, const void *, void *, const struct fp_prec_t *);
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void fpu_sqrt (SIM_DESC, sim_cpu *, address_word, const void *, void *, const struct fp_prec_t *);
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void fpu_cmp (SIM_DESC, sim_cpu *, address_word, const void *, const void *, const struct fp_prec_t *);
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void fpu_add (SIM_DESC, sim_cpu *, address_word, const void *, const void *, void *, const struct fp_prec_t *);
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void fpu_sub (SIM_DESC, sim_cpu *, address_word, const void *, const void *, void *, const struct fp_prec_t *);
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void fpu_mul (SIM_DESC, sim_cpu *, address_word, const void *, const void *, void *, const struct fp_prec_t *);
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void fpu_div (SIM_DESC, sim_cpu *, address_word, const void *, const void *, void *, const struct fp_prec_t *);
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void fpu_fmadd (SIM_DESC, sim_cpu *, address_word, const void *, const void *, const void *, void *, const struct fp_prec_t *);
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void fpu_fmsub (SIM_DESC, sim_cpu *, address_word, const void *, const void *, const void *, void *, const struct fp_prec_t *);
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void fpu_fnmadd (SIM_DESC, sim_cpu *, address_word, const void *, const void *, const void *, void *, const struct fp_prec_t *);
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void fpu_fnmsub (SIM_DESC, sim_cpu *, address_word, const void *, const void *, const void *, void *, const struct fp_prec_t *);
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