path: root/src/wrapped/generated/wrapper.c

/*******************************************************************
 * File automatically generated by rebuild_wrappers.py (v2.4.0.21) *
 *******************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>

#include "wrapper.h"
#include "emu/x64emu_private.h"
#include "emu/x87emu_private.h"
#include "regs.h"
#include "x64emu.h"
#define COMPLEX_IMPL
#include "complext.h"

extern void* my__IO_2_1_stdin_ ;
extern void* my__IO_2_1_stdout_;
extern void* my__IO_2_1_stderr_;

static void* io_convert(void* v)
{
	if(!v)
		return v;
	if(v == my__IO_2_1_stdin_)
		return stdin;
	if(v == my__IO_2_1_stdout_)
		return stdout;
	if(v == my__IO_2_1_stderr_)
		return stderr;
	return v;
}

#define ST0val ST0.d

int of_convert(int);
void* align_xcb_connection(void* src);
void unalign_xcb_connection(void* src, void* dst);

typedef void (*vFE_t)(x64emu_t*);
typedef void (*vFv_t)(void);
typedef void (*vFi_t)(int32_t);
typedef void (*vFu_t)(uint32_t);
typedef void (*vFl_t)(intptr_t);
typedef void (*vFp_t)(void*);
typedef void (*vFS_t)(void*);
typedef int32_t (*iFE_t)(x64emu_t*);
typedef int32_t (*iFv_t)(void);
typedef int32_t (*iFi_t)(int32_t);
typedef int32_t (*iFI_t)(int64_t);
typedef int32_t (*iFu_t)(uint32_t);
typedef int32_t (*iFU_t)(uint64_t);
typedef int32_t (*iFf_t)(float);
typedef int32_t (*iFd_t)(double);
typedef int32_t (*iFD_t)(long double);
typedef int32_t (*iFl_t)(intptr_t);
typedef int32_t (*iFL_t)(uintptr_t);
typedef int32_t (*iFp_t)(void*);
typedef int32_t (*iFO_t)(int32_t);
typedef int32_t (*iFS_t)(void*);
typedef int64_t (*IFv_t)(void);
typedef int64_t (*IFI_t)(int64_t);
typedef int64_t (*IFf_t)(float);
typedef int64_t (*IFd_t)(double);
typedef int64_t (*IFp_t)(void*);
typedef uint16_t (*WFW_t)(uint16_t);
typedef uint32_t (*uFv_t)(void);
typedef uint32_t (*uFi_t)(int32_t);
typedef uint32_t (*uFu_t)(uint32_t);
typedef uint32_t (*uFL_t)(uintptr_t);
typedef uint32_t (*uFp_t)(void*);
typedef float (*fFf_t)(float);
typedef float (*fFp_t)(void*);
typedef double (*dFv_t)(void);
typedef double (*dFd_t)(double);
typedef double (*dFp_t)(void*);
typedef intptr_t (*lFE_t)(x64emu_t*);
typedef intptr_t (*lFv_t)(void);
typedef intptr_t (*lFl_t)(intptr_t);
typedef intptr_t (*lFp_t)(void*);
typedef uintptr_t (*LFv_t)(void);
typedef uintptr_t (*LFL_t)(uintptr_t);
typedef uintptr_t (*LFp_t)(void*);
typedef void* (*pFE_t)(x64emu_t*);
typedef void* (*pFv_t)(void);
typedef void* (*pFi_t)(int32_t);
typedef void* (*pFu_t)(uint32_t);
typedef void* (*pFl_t)(intptr_t);
typedef void* (*pFL_t)(uintptr_t);
typedef void* (*pFp_t)(void*);
typedef complexf_t (*xFx_t)(complexf_t);
typedef complex_t (*XFX_t)(complex_t);
typedef void (*vWp_t)(void*);
typedef int32_t (*iWp_t)(void*);
typedef uint32_t (*uWp_t)(void*);
typedef float (*fWp_t)(void*);
typedef void (*vFEi_t)(x64emu_t*, int32_t);
typedef void (*vFEp_t)(x64emu_t*, void*);
typedef void (*vFip_t)(int32_t, void*);
typedef void (*vFWp_t)(uint16_t, void*);
typedef void (*vFup_t)(uint32_t, void*);
typedef void (*vFLp_t)(uintptr_t, void*);
typedef void (*vFpi_t)(void*, int32_t);
typedef void (*vFpl_t)(void*, intptr_t);
typedef void (*vFpL_t)(void*, uintptr_t);
typedef void (*vFpp_t)(void*, void*);
typedef void (*vFpS_t)(void*, void*);
typedef void (*vFSi_t)(void*, int32_t);
typedef int32_t (*iFEi_t)(x64emu_t*, int32_t);
typedef int32_t (*iFEf_t)(x64emu_t*, float);
typedef int32_t (*iFEd_t)(x64emu_t*, double);
typedef int32_t (*iFEL_t)(x64emu_t*, uintptr_t);
typedef int32_t (*iFEp_t)(x64emu_t*, void*);
typedef int32_t (*iFii_t)(int32_t, int32_t);
typedef int32_t (*iFiI_t)(int32_t, int64_t);
typedef int32_t (*iFiu_t)(int32_t, uint32_t);
typedef int32_t (*iFil_t)(int32_t, intptr_t);
typedef int32_t (*iFiL_t)(int32_t, uintptr_t);
typedef int32_t (*iFip_t)(int32_t, void*);
typedef int32_t (*iFiS_t)(int32_t, void*);
typedef int32_t (*iFui_t)(uint32_t, int32_t);
typedef int32_t (*iFuu_t)(uint32_t, uint32_t);
typedef int32_t (*iFuL_t)(uint32_t, uintptr_t);
typedef int32_t (*iFup_t)(uint32_t, void*);
typedef int32_t (*iFlp_t)(intptr_t, void*);
typedef int32_t (*iFLL_t)(uintptr_t, uintptr_t);
typedef int32_t (*iFLp_t)(uintptr_t, void*);
typedef int32_t (*iFpw_t)(void*, int16_t);
typedef int32_t (*iFpi_t)(void*, int32_t);
typedef int32_t (*iFpI_t)(void*, int64_t);
typedef int32_t (*iFpW_t)(void*, uint16_t);
typedef int32_t (*iFpu_t)(void*, uint32_t);
typedef int32_t (*iFpU_t)(void*, uint64_t);
typedef int32_t (*iFpl_t)(void*, intptr_t);
typedef int32_t (*iFpL_t)(void*, uintptr_t);
typedef int32_t (*iFpp_t)(void*, void*);
typedef int32_t (*iFpO_t)(void*, int32_t);
typedef int32_t (*iFSi_t)(void*, int32_t);
typedef int64_t (*IFEi_t)(x64emu_t*, int32_t);
typedef int64_t (*IFEf_t)(x64emu_t*, float);
typedef int64_t (*IFEd_t)(x64emu_t*, double);
typedef int64_t (*IFII_t)(int64_t, int64_t);
typedef uint32_t (*uFii_t)(int32_t, int32_t);
typedef uint32_t (*uFip_t)(int32_t, void*);
typedef uint32_t (*uFuu_t)(uint32_t, uint32_t);
typedef uint32_t (*uFup_t)(uint32_t, void*);
typedef uint32_t (*uFpp_t)(void*, void*);
typedef float (*fFEf_t)(x64emu_t*, float);
typedef float (*fFif_t)(int32_t, float);
typedef float (*fFfi_t)(float, int32_t);
typedef float (*fFff_t)(float, float);
typedef float (*fFfD_t)(float, long double);
typedef float (*fFfp_t)(float, void*);
typedef float (*fFpp_t)(void*, void*);
typedef double (*dFEd_t)(x64emu_t*, double);
typedef double (*dFid_t)(int32_t, double);
typedef double (*dFdi_t)(double, int32_t);
typedef double (*dFdd_t)(double, double);
typedef double (*dFdD_t)(double, long double);
typedef double (*dFdp_t)(double, void*);
typedef double (*dFll_t)(intptr_t, intptr_t);
typedef double (*dFpp_t)(void*, void*);
typedef long double (*DFDi_t)(long double, int32_t);
typedef long double (*DFDD_t)(long double, long double);
typedef long double (*DFDp_t)(long double, void*);
typedef long double (*DFpp_t)(void*, void*);
typedef intptr_t (*lFEi_t)(x64emu_t*, int32_t);
typedef intptr_t (*lFii_t)(int32_t, int32_t);
typedef intptr_t (*lFpi_t)(void*, int32_t);
typedef uintptr_t (*LFEL_t)(x64emu_t*, uintptr_t);
typedef uintptr_t (*LFii_t)(int32_t, int32_t);
typedef uintptr_t (*LFuu_t)(uint32_t, uint32_t);
typedef uintptr_t (*LFpL_t)(void*, uintptr_t);
typedef uintptr_t (*LFpp_t)(void*, void*);
typedef void* (*pFEp_t)(x64emu_t*, void*);
typedef void* (*pFip_t)(int32_t, void*);
typedef void* (*pFup_t)(uint32_t, void*);
typedef void* (*pFUU_t)(uint64_t, uint64_t);
typedef void* (*pFLL_t)(uintptr_t, uintptr_t);
typedef void* (*pFpi_t)(void*, int32_t);
typedef void* (*pFpu_t)(void*, uint32_t);
typedef void* (*pFpL_t)(void*, uintptr_t);
typedef void* (*pFpp_t)(void*, void*);
typedef void* (*pFSi_t)(void*, int32_t);
typedef unsigned __int128 (*HFII_t)(int64_t, int64_t);
typedef unsigned __int128 (*HFll_t)(intptr_t, intptr_t);
typedef complexf_t (*xFxx_t)(complexf_t, complexf_t);
typedef complex_t (*XFXX_t)(complex_t, complex_t);
typedef int32_t (*iWpi_t)(void*, int32_t);
typedef int32_t (*iWpu_t)(void*, uint32_t);
typedef int32_t (*iWpf_t)(void*, float);
typedef int32_t (*iWpp_t)(void*, void*);
typedef uint32_t (*uWpu_t)(void*, uint32_t);
typedef void* (*pWpu_t)(void*, uint32_t);
typedef void (*vFEpi_t)(x64emu_t*, void*, int32_t);
typedef void (*vFEpu_t)(x64emu_t*, void*, uint32_t);
typedef void (*vFEpp_t)(x64emu_t*, void*, void*);
typedef void (*vFEpV_t)(x64emu_t*, void*, void*);
typedef void (*vFfpp_t)(float, void*, void*);
typedef void (*vFdpp_t)(double, void*, void*);
typedef void (*vFpii_t)(void*, int32_t, int32_t);
typedef void (*vFpip_t)(void*, int32_t, void*);
typedef void (*vFpLi_t)(void*, uintptr_t, int32_t);
typedef void (*vFpLL_t)(void*, uintptr_t, uintptr_t);
typedef void (*vFpLp_t)(void*, uintptr_t, void*);
typedef void (*vFppi_t)(void*, void*, int32_t);
typedef void (*vFppl_t)(void*, void*, intptr_t);
typedef void (*vFppL_t)(void*, void*, uintptr_t);
typedef void (*vFppp_t)(void*, void*, void*);
typedef int32_t (*iFEip_t)(x64emu_t*, int32_t, void*);
typedef int32_t (*iFEup_t)(x64emu_t*, uint32_t, void*);
typedef int32_t (*iFEpi_t)(x64emu_t*, void*, int32_t);
typedef int32_t (*iFEpL_t)(x64emu_t*, void*, uintptr_t);
typedef int32_t (*iFEpp_t)(x64emu_t*, void*, void*);
typedef int32_t (*iFEpV_t)(x64emu_t*, void*, void*);
typedef int32_t (*iFEpA_t)(x64emu_t*, void*, void*);
typedef int32_t (*iFESp_t)(x64emu_t*, void*, void*);
typedef int32_t (*iFiii_t)(int32_t, int32_t, int32_t);
typedef int32_t (*iFiiI_t)(int32_t, int32_t, int64_t);
typedef int32_t (*iFiil_t)(int32_t, int32_t, intptr_t);
typedef int32_t (*iFiip_t)(int32_t, int32_t, void*);
typedef int32_t (*iFiiO_t)(int32_t, int32_t, int32_t);
typedef int32_t (*iFiuu_t)(int32_t, uint32_t, uint32_t);
typedef int32_t (*iFill_t)(int32_t, intptr_t, intptr_t);
typedef int32_t (*iFiLi_t)(int32_t, uintptr_t, int32_t);
typedef int32_t (*iFiLp_t)(int32_t, uintptr_t, void*);
typedef int32_t (*iFiLN_t)(int32_t, uintptr_t, ...);
typedef int32_t (*iFipi_t)(int32_t, void*, int32_t);
typedef int32_t (*iFipu_t)(int32_t, void*, uint32_t);
typedef int32_t (*iFipL_t)(int32_t, void*, uintptr_t);
typedef int32_t (*iFipp_t)(int32_t, void*, void*);
typedef int32_t (*iFipO_t)(int32_t, void*, int32_t);
typedef int32_t (*iFuui_t)(uint32_t, uint32_t, int32_t);
typedef int32_t (*iFuuu_t)(uint32_t, uint32_t, uint32_t);
typedef int32_t (*iFuLL_t)(uint32_t, uintptr_t, uintptr_t);
typedef int32_t (*iFuLp_t)(uint32_t, uintptr_t, void*);
typedef int32_t (*iFupp_t)(uint32_t, void*, void*);
typedef int32_t (*iFLip_t)(uintptr_t, int32_t, void*);
typedef int32_t (*iFLpp_t)(uintptr_t, void*, void*);
typedef int32_t (*iFpii_t)(void*, int32_t, int32_t);
typedef int32_t (*iFpiu_t)(void*, int32_t, uint32_t);
typedef int32_t (*iFpip_t)(void*, int32_t, void*);
typedef int32_t (*iFpIi_t)(void*, int64_t, int32_t);
typedef int32_t (*iFpui_t)(void*, uint32_t, int32_t);
typedef int32_t (*iFpuu_t)(void*, uint32_t, uint32_t);
typedef int32_t (*iFpuL_t)(void*, uint32_t, uintptr_t);
typedef int32_t (*iFpli_t)(void*, intptr_t, int32_t);
typedef int32_t (*iFpLi_t)(void*, uintptr_t, int32_t);
typedef int32_t (*iFpLu_t)(void*, uintptr_t, uint32_t);
typedef int32_t (*iFpLL_t)(void*, uintptr_t, uintptr_t);
typedef int32_t (*iFpLp_t)(void*, uintptr_t, void*);
typedef int32_t (*iFppi_t)(void*, void*, int32_t);
typedef int32_t (*iFppL_t)(void*, void*, uintptr_t);
typedef int32_t (*iFppp_t)(void*, void*, void*);
typedef int32_t (*iFpOu_t)(void*, int32_t, uint32_t);
typedef int32_t (*iFpOM_t)(void*, int32_t, ...);
typedef int32_t (*iFSpL_t)(void*, void*, uintptr_t);
typedef int64_t (*IFiIi_t)(int32_t, int64_t, int32_t);
typedef int64_t (*IFppi_t)(void*, void*, int32_t);
typedef int64_t (*IFSIi_t)(void*, int64_t, int32_t);
typedef uint32_t (*uFupp_t)(uint32_t, void*, void*);
typedef uint32_t (*uFppi_t)(void*, void*, int32_t);
typedef uint64_t (*UFppi_t)(void*, void*, int32_t);
typedef float (*fFfff_t)(float, float, float);
typedef float (*fFffp_t)(float, float, void*);
typedef float (*fFppi_t)(void*, void*, int32_t);
typedef float (*fFppL_t)(void*, void*, uintptr_t);
typedef float (*fFppp_t)(void*, void*, void*);
typedef double (*dFddd_t)(double, double, double);
typedef double (*dFddp_t)(double, double, void*);
typedef double (*dFppi_t)(void*, void*, int32_t);
typedef double (*dFppp_t)(void*, void*, void*);
typedef long double (*DFppi_t)(void*, void*, int32_t);
typedef long double (*DFppp_t)(void*, void*, void*);
typedef intptr_t (*lFili_t)(int32_t, intptr_t, int32_t);
typedef intptr_t (*lFilL_t)(int32_t, intptr_t, uintptr_t);
typedef intptr_t (*lFipi_t)(int32_t, void*, int32_t);
typedef intptr_t (*lFipL_t)(int32_t, void*, uintptr_t);
typedef intptr_t (*lFpLu_t)(void*, uintptr_t, uint32_t);
typedef intptr_t (*lFppi_t)(void*, void*, int32_t);
typedef intptr_t (*lFppL_t)(void*, void*, uintptr_t);
typedef intptr_t (*lFppp_t)(void*, void*, void*);
typedef intptr_t (*lFSpl_t)(void*, void*, intptr_t);
typedef uintptr_t (*LFipL_t)(int32_t, void*, uintptr_t);
typedef uintptr_t (*LFpup_t)(void*, uint32_t, void*);
typedef uintptr_t (*LFpLp_t)(void*, uintptr_t, void*);
typedef uintptr_t (*LFppi_t)(void*, void*, int32_t);
typedef uintptr_t (*LFppL_t)(void*, void*, uintptr_t);
typedef uintptr_t (*LFSpL_t)(void*, void*, uintptr_t);
typedef void* (*pFEip_t)(x64emu_t*, int32_t, void*);
typedef void* (*pFEpi_t)(x64emu_t*, void*, int32_t);
typedef void* (*pFEpp_t)(x64emu_t*, void*, void*);
typedef void* (*pFipi_t)(int32_t, void*, int32_t);
typedef void* (*pFipL_t)(int32_t, void*, uintptr_t);
typedef void* (*pFipp_t)(int32_t, void*, void*);
typedef void* (*pFupL_t)(uint32_t, void*, uintptr_t);
typedef void* (*pFdip_t)(double, int32_t, void*);
typedef void* (*pFDip_t)(long double, int32_t, void*);
typedef void* (*pFLLp_t)(uintptr_t, uintptr_t, void*);
typedef void* (*pFpiL_t)(void*, int32_t, uintptr_t);
typedef void* (*pFpip_t)(void*, int32_t, void*);
typedef void* (*pFpui_t)(void*, uint32_t, int32_t);
typedef void* (*pFpuL_t)(void*, uint32_t, uintptr_t);
typedef void* (*pFpLL_t)(void*, uintptr_t, uintptr_t);
typedef void* (*pFpLp_t)(void*, uintptr_t, void*);
typedef void* (*pFppi_t)(void*, void*, int32_t);
typedef void* (*pFppU_t)(void*, void*, uint64_t);
typedef void* (*pFppL_t)(void*, void*, uintptr_t);
typedef void* (*pFppp_t)(void*, void*, void*);
typedef void* (*pFpOM_t)(void*, int32_t, ...);
typedef void* (*pFSpl_t)(void*, void*, intptr_t);
typedef void (*vWpup_t)(void*, uint32_t, void*);
typedef int32_t (*iWEpp_t)(x64emu_t*, void*, void*);
typedef int32_t (*iWpiu_t)(void*, int32_t, uint32_t);
typedef int32_t (*iWpip_t)(void*, int32_t, void*);
typedef int32_t (*iWpui_t)(void*, uint32_t, int32_t);
typedef int32_t (*iWpuu_t)(void*, uint32_t, uint32_t);
typedef int32_t (*iWpup_t)(void*, uint32_t, void*);
typedef int32_t (*iWppu_t)(void*, void*, uint32_t);
typedef int32_t (*iWppp_t)(void*, void*, void*);
typedef uint32_t (*uWpui_t)(void*, uint32_t, int32_t);
typedef uint32_t (*uWpup_t)(void*, uint32_t, void*);
typedef void (*vFEipV_t)(x64emu_t*, int32_t, void*, void*);
typedef void (*vFEipA_t)(x64emu_t*, int32_t, void*, void*);
typedef void (*vFEpii_t)(x64emu_t*, void*, int32_t, int32_t);
typedef void (*vFEpup_t)(x64emu_t*, void*, uint32_t, void*);
typedef void (*vFEppp_t)(x64emu_t*, void*, void*, void*);
typedef void (*vFiipV_t)(int32_t, int32_t, void*, void*);
typedef void (*vFipup_t)(int32_t, void*, uint32_t, void*);
typedef void (*vFppup_t)(void*, void*, uint32_t, void*);
typedef int32_t (*iFEiip_t)(x64emu_t*, int32_t, int32_t, void*);
typedef int32_t (*iFEiiN_t)(x64emu_t*, int32_t, int32_t, ...);
typedef int32_t (*iFEipp_t)(x64emu_t*, int32_t, void*, void*);
typedef int32_t (*iFEipV_t)(x64emu_t*, int32_t, void*, void*);
typedef int32_t (*iFEipA_t)(x64emu_t*, int32_t, void*, void*);
typedef int32_t (*iFEupp_t)(x64emu_t*, uint32_t, void*, void*);
typedef int32_t (*iFEpip_t)(x64emu_t*, void*, int32_t, void*);
typedef int32_t (*iFEpLi_t)(x64emu_t*, void*, uintptr_t, int32_t);
typedef int32_t (*iFEpLp_t)(x64emu_t*, void*, uintptr_t, void*);
typedef int32_t (*iFEppi_t)(x64emu_t*, void*, void*, int32_t);
typedef int32_t (*iFEppL_t)(x64emu_t*, void*, void*, uintptr_t);
typedef int32_t (*iFEppp_t)(x64emu_t*, void*, void*, void*);
typedef int32_t (*iFEppV_t)(x64emu_t*, void*, void*, void*);
typedef int32_t (*iFEppA_t)(x64emu_t*, void*, void*, void*);
typedef int32_t (*iFEpOu_t)(x64emu_t*, void*, int32_t, uint32_t);
typedef int32_t (*iFiiip_t)(int32_t, int32_t, int32_t, void*);
typedef int32_t (*iFiiiN_t)(int32_t, int32_t, int32_t, ...);
typedef int32_t (*iFiill_t)(int32_t, int32_t, intptr_t, intptr_t);
typedef int32_t (*iFiipp_t)(int32_t, int32_t, void*, void*);
typedef int32_t (*iFiupp_t)(int32_t, uint32_t, void*, void*);
typedef int32_t (*iFilli_t)(int32_t, intptr_t, intptr_t, int32_t);
typedef int32_t (*iFillu_t)(int32_t, intptr_t, intptr_t, uint32_t);
typedef int32_t (*iFipii_t)(int32_t, void*, int32_t, int32_t);
typedef int32_t (*iFipip_t)(int32_t, void*, int32_t, void*);
typedef int32_t (*iFipui_t)(int32_t, void*, uint32_t, int32_t);
typedef int32_t (*iFipuL_t)(int32_t, void*, uint32_t, uintptr_t);
typedef int32_t (*iFipLi_t)(int32_t, void*, uintptr_t, int32_t);
typedef int32_t (*iFipLu_t)(int32_t, void*, uintptr_t, uint32_t);
typedef int32_t (*iFipLp_t)(int32_t, void*, uintptr_t, void*);
typedef int32_t (*iFippi_t)(int32_t, void*, void*, int32_t);
typedef int32_t (*iFippL_t)(int32_t, void*, void*, uintptr_t);
typedef int32_t (*iFipON_t)(int32_t, void*, int32_t, ...);
typedef int32_t (*iFuipp_t)(uint32_t, int32_t, void*, void*);
typedef int32_t (*iFuupi_t)(uint32_t, uint32_t, void*, int32_t);
typedef int32_t (*iFupLp_t)(uint32_t, void*, uintptr_t, void*);
typedef int32_t (*iFpiip_t)(void*, int32_t, int32_t, void*);
typedef int32_t (*iFpipi_t)(void*, int32_t, void*, int32_t);
typedef int32_t (*iFpipu_t)(void*, int32_t, void*, uint32_t);
typedef int32_t (*iFpipp_t)(void*, int32_t, void*, void*);
typedef int32_t (*iFpuiL_t)(void*, uint32_t, int32_t, uintptr_t);
typedef int32_t (*iFpupp_t)(void*, uint32_t, void*, void*);
typedef int32_t (*iFpLii_t)(void*, uintptr_t, int32_t, int32_t);
typedef int32_t (*iFpLLu_t)(void*, uintptr_t, uintptr_t, uint32_t);
typedef int32_t (*iFpLpf_t)(void*, uintptr_t, void*, float);
typedef int32_t (*iFpLpd_t)(void*, uintptr_t, void*, double);
typedef int32_t (*iFpLpD_t)(void*, uintptr_t, void*, long double);
typedef int32_t (*iFpLpL_t)(void*, uintptr_t, void*, uintptr_t);
typedef int32_t (*iFpLpp_t)(void*, uintptr_t, void*, void*);
typedef int32_t (*iFppii_t)(void*, void*, int32_t, int32_t);
typedef int32_t (*iFppiL_t)(void*, void*, int32_t, uintptr_t);
typedef int32_t (*iFppLp_t)(void*, void*, uintptr_t, void*);
typedef int32_t (*iFpppi_t)(void*, void*, void*, int32_t);
typedef int32_t (*iFpppL_t)(void*, void*, void*, uintptr_t);
typedef int32_t (*iFpppp_t)(void*, void*, void*, void*);
typedef int64_t (*IFipUI_t)(int32_t, void*, uint64_t, int64_t);
typedef int64_t (*IFipUp_t)(int32_t, void*, uint64_t, void*);
typedef int64_t (*IFppii_t)(void*, void*, int32_t, int32_t);
typedef int64_t (*IFppip_t)(void*, void*, int32_t, void*);
typedef int64_t (*IFSIii_t)(void*, int64_t, int32_t, int32_t);
typedef uint64_t (*UFppii_t)(void*, void*, int32_t, int32_t);
typedef uint64_t (*UFppip_t)(void*, void*, int32_t, void*);
typedef intptr_t (*lFEipV_t)(x64emu_t*, int32_t, void*, void*);
typedef intptr_t (*lFEppL_t)(x64emu_t*, void*, void*, uintptr_t);
typedef intptr_t (*lFiiLu_t)(int32_t, int32_t, uintptr_t, uint32_t);
typedef intptr_t (*lFiipL_t)(int32_t, int32_t, void*, uintptr_t);
typedef intptr_t (*lFipil_t)(int32_t, void*, int32_t, intptr_t);
typedef intptr_t (*lFipLi_t)(int32_t, void*, uintptr_t, int32_t);
typedef intptr_t (*lFipLI_t)(int32_t, void*, uintptr_t, int64_t);
typedef intptr_t (*lFipLu_t)(int32_t, void*, uintptr_t, uint32_t);
typedef intptr_t (*lFipLl_t)(int32_t, void*, uintptr_t, intptr_t);
typedef intptr_t (*lFipLL_t)(int32_t, void*, uintptr_t, uintptr_t);
typedef intptr_t (*lFipLp_t)(int32_t, void*, uintptr_t, void*);
typedef intptr_t (*lFippL_t)(int32_t, void*, void*, uintptr_t);
typedef intptr_t (*lFppii_t)(void*, void*, int32_t, int32_t);
typedef intptr_t (*lFppip_t)(void*, void*, int32_t, void*);
typedef intptr_t (*lFpppL_t)(void*, void*, void*, uintptr_t);
typedef uintptr_t (*LFEppL_t)(x64emu_t*, void*, void*, uintptr_t);
typedef uintptr_t (*LFipLL_t)(int32_t, void*, uintptr_t, uintptr_t);
typedef uintptr_t (*LFippL_t)(int32_t, void*, void*, uintptr_t);
typedef uintptr_t (*LFpupL_t)(void*, uint32_t, void*, uintptr_t);
typedef uintptr_t (*LFpLLp_t)(void*, uintptr_t, uintptr_t, void*);
typedef uintptr_t (*LFpLpp_t)(void*, uintptr_t, void*, void*);
typedef uintptr_t (*LFppii_t)(void*, void*, int32_t, int32_t);
typedef uintptr_t (*LFppip_t)(void*, void*, int32_t, void*);
typedef uintptr_t (*LFppLL_t)(void*, void*, uintptr_t, uintptr_t);
typedef uintptr_t (*LFppLp_t)(void*, void*, uintptr_t, void*);
typedef void* (*pFEpip_t)(x64emu_t*, void*, int32_t, void*);
typedef void* (*pFEppi_t)(x64emu_t*, void*, void*, int32_t);
typedef void* (*pFEppp_t)(x64emu_t*, void*, void*, void*);
typedef void* (*pFEppV_t)(x64emu_t*, void*, void*, void*);
typedef void* (*pFippu_t)(int32_t, void*, void*, uint32_t);
typedef void* (*pFdipp_t)(double, int32_t, void*, void*);
typedef void* (*pFDipp_t)(long double, int32_t, void*, void*);
typedef void* (*pFpiii_t)(void*, int32_t, int32_t, int32_t);
typedef void* (*pFpiip_t)(void*, int32_t, int32_t, void*);
typedef void* (*pFpiLL_t)(void*, int32_t, uintptr_t, uintptr_t);
typedef void* (*pFpuii_t)(void*, uint32_t, int32_t, int32_t);
typedef void* (*pFpuLL_t)(void*, uint32_t, uintptr_t, uintptr_t);
typedef void* (*pFpLip_t)(void*, uintptr_t, int32_t, void*);
typedef void* (*pFpLpL_t)(void*, uintptr_t, void*, uintptr_t);
typedef void* (*pFppiL_t)(void*, void*, int32_t, uintptr_t);
typedef void* (*pFppip_t)(void*, void*, int32_t, void*);
typedef void* (*pFppLL_t)(void*, void*, uintptr_t, uintptr_t);
typedef void* (*pFpppi_t)(void*, void*, void*, int32_t);
typedef void* (*pFpppL_t)(void*, void*, void*, uintptr_t);
typedef void* (*pFSppi_t)(void*, void*, void*, int32_t);
typedef void (*vWpiiu_t)(void*, int32_t, int32_t, uint32_t);
typedef void (*vWpuup_t)(void*, uint32_t, uint32_t, void*);
typedef int32_t (*iWEpip_t)(x64emu_t*, void*, int32_t, void*);
typedef int32_t (*iWEpup_t)(x64emu_t*, void*, uint32_t, void*);
typedef int32_t (*iWEppu_t)(x64emu_t*, void*, void*, uint32_t);
typedef int32_t (*iWEppp_t)(x64emu_t*, void*, void*, void*);
typedef int32_t (*iWpiii_t)(void*, int32_t, int32_t, int32_t);
typedef int32_t (*iWpiuu_t)(void*, int32_t, uint32_t, uint32_t);
typedef int32_t (*iWpuiu_t)(void*, uint32_t, int32_t, uint32_t);
typedef int32_t (*iWpuip_t)(void*, uint32_t, int32_t, void*);
typedef int32_t (*iWpuup_t)(void*, uint32_t, uint32_t, void*);
typedef int32_t (*iWpupu_t)(void*, uint32_t, void*, uint32_t);
typedef int32_t (*iWpupp_t)(void*, uint32_t, void*, void*);
typedef int32_t (*iWppuu_t)(void*, void*, uint32_t, uint32_t);
typedef int32_t (*iWpppu_t)(void*, void*, void*, uint32_t);
typedef int32_t (*iWpppp_t)(void*, void*, void*, void*);
typedef void (*vFEiipV_t)(x64emu_t*, int32_t, int32_t, void*, void*);
typedef void (*vFEiipA_t)(x64emu_t*, int32_t, int32_t, void*, void*);
typedef void (*vFEpLLp_t)(x64emu_t*, void*, uintptr_t, uintptr_t, void*);
typedef int32_t (*iFEiipV_t)(x64emu_t*, int32_t, int32_t, void*, void*);
typedef int32_t (*iFEiipA_t)(x64emu_t*, int32_t, int32_t, void*, void*);
typedef int32_t (*iFEipip_t)(x64emu_t*, int32_t, void*, int32_t, void*);
typedef int32_t (*iFEippi_t)(x64emu_t*, int32_t, void*, void*, int32_t);
typedef int32_t (*iFEippL_t)(x64emu_t*, int32_t, void*, void*, uintptr_t);
typedef int32_t (*iFEpipp_t)(x64emu_t*, void*, int32_t, void*, void*);
typedef int32_t (*iFEpipV_t)(x64emu_t*, void*, int32_t, void*, void*);
typedef int32_t (*iFEpipA_t)(x64emu_t*, void*, int32_t, void*, void*);
typedef int32_t (*iFEpLpV_t)(x64emu_t*, void*, uintptr_t, void*, void*);
typedef int32_t (*iFEpLpA_t)(x64emu_t*, void*, uintptr_t, void*, void*);
typedef int32_t (*iFEppii_t)(x64emu_t*, void*, void*, int32_t, int32_t);
typedef int32_t (*iFEppip_t)(x64emu_t*, void*, void*, int32_t, void*);
typedef int32_t (*iFEppiV_t)(x64emu_t*, void*, void*, int32_t, void*);
typedef int32_t (*iFEpppi_t)(x64emu_t*, void*, void*, void*, int32_t);
typedef int32_t (*iFEpppp_t)(x64emu_t*, void*, void*, void*, void*);
typedef int32_t (*iFiiipu_t)(int32_t, int32_t, int32_t, void*, uint32_t);
typedef int32_t (*iFiiipp_t)(int32_t, int32_t, int32_t, void*, void*);
typedef int32_t (*iFiuLip_t)(int32_t, uint32_t, uintptr_t, int32_t, void*);
typedef int32_t (*iFipiup_t)(int32_t, void*, int32_t, uint32_t, void*);
typedef int32_t (*iFipipi_t)(int32_t, void*, int32_t, void*, int32_t);
typedef int32_t (*iFipipu_t)(int32_t, void*, int32_t, void*, uint32_t);
typedef int32_t (*iFipuip_t)(int32_t, void*, uint32_t, int32_t, void*);
typedef int32_t (*iFipuui_t)(int32_t, void*, uint32_t, uint32_t, int32_t);
typedef int32_t (*iFipLup_t)(int32_t, void*, uintptr_t, uint32_t, void*);
typedef int32_t (*iFippLi_t)(int32_t, void*, void*, uintptr_t, int32_t);
typedef int32_t (*iFippLp_t)(int32_t, void*, void*, uintptr_t, void*);
typedef int32_t (*iFipppi_t)(int32_t, void*, void*, void*, int32_t);
typedef int32_t (*iFipppp_t)(int32_t, void*, void*, void*, void*);
typedef int32_t (*iFuppLp_t)(uint32_t, void*, void*, uintptr_t, void*);
typedef int32_t (*iFpiipi_t)(void*, int32_t, int32_t, void*, int32_t);
typedef int32_t (*iFpiipp_t)(void*, int32_t, int32_t, void*, void*);
typedef int32_t (*iFpipiu_t)(void*, int32_t, void*, int32_t, uint32_t);
typedef int32_t (*iFpippW_t)(void*, int32_t, void*, void*, uint16_t);
typedef int32_t (*iFpuppL_t)(void*, uint32_t, void*, void*, uintptr_t);
typedef int32_t (*iFpLiLi_t)(void*, uintptr_t, int32_t, uintptr_t, int32_t);
typedef int32_t (*iFpLLpp_t)(void*, uintptr_t, uintptr_t, void*, void*);
typedef int32_t (*iFppipp_t)(void*, void*, int32_t, void*, void*);
typedef int32_t (*iFppLpi_t)(void*, void*, uintptr_t, void*, int32_t);
typedef int32_t (*iFppLpp_t)(void*, void*, uintptr_t, void*, void*);
typedef int32_t (*iFpppLi_t)(void*, void*, void*, uintptr_t, int32_t);
typedef int32_t (*iFpppLp_t)(void*, void*, void*, uintptr_t, void*);
typedef int32_t (*iFppppi_t)(void*, void*, void*, void*, int32_t);
typedef int32_t (*iFppppL_t)(void*, void*, void*, void*, uintptr_t);
typedef int32_t (*iFppppp_t)(void*, void*, void*, void*, void*);
typedef intptr_t (*lFEuipp_t)(x64emu_t*, uint32_t, int32_t, void*, void*);
typedef intptr_t (*lFipili_t)(int32_t, void*, int32_t, intptr_t, int32_t);
typedef intptr_t (*lFipLli_t)(int32_t, void*, uintptr_t, intptr_t, int32_t);
typedef intptr_t (*lFipLlL_t)(int32_t, void*, uintptr_t, intptr_t, uintptr_t);
typedef intptr_t (*lFipLLi_t)(int32_t, void*, uintptr_t, uintptr_t, int32_t);
typedef intptr_t (*lFipLpp_t)(int32_t, void*, uintptr_t, void*, void*);
typedef intptr_t (*lFppllp_t)(void*, void*, intptr_t, intptr_t, void*);
typedef uintptr_t (*LFpLLLp_t)(void*, uintptr_t, uintptr_t, uintptr_t, void*);
typedef uintptr_t (*LFpLppL_t)(void*, uintptr_t, void*, void*, uintptr_t);
typedef uintptr_t (*LFpLppp_t)(void*, uintptr_t, void*, void*, void*);
typedef uintptr_t (*LFppLLp_t)(void*, void*, uintptr_t, uintptr_t, void*);
typedef uintptr_t (*LFppLpL_t)(void*, void*, uintptr_t, void*, uintptr_t);
typedef uintptr_t (*LFppppp_t)(void*, void*, void*, void*, void*);
typedef void* (*pFipipL_t)(int32_t, void*, int32_t, void*, uintptr_t);
typedef void* (*pFppipi_t)(void*, void*, int32_t, void*, int32_t);
typedef void* (*pFpppLi_t)(void*, void*, void*, uintptr_t, int32_t);
typedef int32_t (*iWEpiup_t)(x64emu_t*, void*, int32_t, uint32_t, void*);
typedef int32_t (*iWEpipp_t)(x64emu_t*, void*, int32_t, void*, void*);
typedef int32_t (*iWpiiii_t)(void*, int32_t, int32_t, int32_t, int32_t);
typedef int32_t (*iWpiupu_t)(void*, int32_t, uint32_t, void*, uint32_t);
typedef int32_t (*iWpuiii_t)(void*, uint32_t, int32_t, int32_t, int32_t);
typedef int32_t (*iWpuiup_t)(void*, uint32_t, int32_t, uint32_t, void*);
typedef int32_t (*iWpuupu_t)(void*, uint32_t, uint32_t, void*, uint32_t);
typedef int32_t (*iWpuupp_t)(void*, uint32_t, uint32_t, void*, void*);
typedef int32_t (*iWpupuu_t)(void*, uint32_t, void*, uint32_t, uint32_t);
typedef int32_t (*iWpupup_t)(void*, uint32_t, void*, uint32_t, void*);
typedef int32_t (*iWpuppu_t)(void*, uint32_t, void*, void*, uint32_t);
typedef int32_t (*iWpuppp_t)(void*, uint32_t, void*, void*, void*);
typedef int32_t (*iWpppuu_t)(void*, void*, void*, uint32_t, uint32_t);
typedef int32_t (*iWpppup_t)(void*, void*, void*, uint32_t, void*);
typedef int32_t (*iWppppp_t)(void*, void*, void*, void*, void*);
typedef void (*vFEpLLpp_t)(x64emu_t*, void*, uintptr_t, uintptr_t, void*, void*);
typedef int32_t (*iFEiippi_t)(x64emu_t*, int32_t, int32_t, void*, void*, int32_t);
typedef int32_t (*iFEiLLLL_t)(x64emu_t*, int32_t, uintptr_t, uintptr_t, uintptr_t, uintptr_t);
typedef int32_t (*iFEpilpV_t)(x64emu_t*, void*, int32_t, intptr_t, void*, void*);
typedef int32_t (*iFEpuppp_t)(x64emu_t*, void*, uint32_t, void*, void*, void*);
typedef int32_t (*iFipppLp_t)(int32_t, void*, void*, void*, uintptr_t, void*);
typedef int32_t (*iFippppp_t)(int32_t, void*, void*, void*, void*, void*);
typedef int32_t (*iFdipppL_t)(double, int32_t, void*, void*, void*, uintptr_t);
typedef int32_t (*iFDipppL_t)(long double, int32_t, void*, void*, void*, uintptr_t);
typedef int32_t (*iFlpippp_t)(intptr_t, void*, int32_t, void*, void*, void*);
typedef int32_t (*iFpipppp_t)(void*, int32_t, void*, void*, void*, void*);
typedef int32_t (*iFpWpppp_t)(void*, uint16_t, void*, void*, void*, void*);
typedef int32_t (*iFpuiCpp_t)(void*, uint32_t, int32_t, uint8_t, void*, void*);
typedef int32_t (*iFpuippp_t)(void*, uint32_t, int32_t, void*, void*, void*);
typedef int32_t (*iFppiipi_t)(void*, void*, int32_t, int32_t, void*, int32_t);
typedef int32_t (*iFpppLpp_t)(void*, void*, void*, uintptr_t, void*, void*);
typedef int32_t (*iFppppLp_t)(void*, void*, void*, void*, uintptr_t, void*);
typedef intptr_t (*lFipipLu_t)(int32_t, void*, int32_t, void*, uintptr_t, uint32_t);
typedef intptr_t (*lFipLipu_t)(int32_t, void*, uintptr_t, int32_t, void*, uint32_t);
typedef intptr_t (*lFipLipp_t)(int32_t, void*, uintptr_t, int32_t, void*, void*);
typedef intptr_t (*lFipLpLL_t)(int32_t, void*, uintptr_t, void*, uintptr_t, uintptr_t);
typedef intptr_t (*lFpplllp_t)(void*, void*, intptr_t, intptr_t, intptr_t, void*);
typedef uintptr_t (*LFppLLpL_t)(void*, void*, uintptr_t, uintptr_t, void*, uintptr_t);
typedef uintptr_t (*LFSpLiip_t)(void*, void*, uintptr_t, int32_t, int32_t, void*);
typedef void* (*pFEpLLiN_t)(x64emu_t*, void*, uintptr_t, uintptr_t, int32_t, ...);
typedef void* (*pFEppLLp_t)(x64emu_t*, void*, void*, uintptr_t, uintptr_t, void*);
typedef void* (*pFEpppLp_t)(x64emu_t*, void*, void*, void*, uintptr_t, void*);
typedef void* (*pFSpiiii_t)(void*, void*, int32_t, int32_t, int32_t, int32_t);
typedef int32_t (*iWEpuuip_t)(x64emu_t*, void*, uint32_t, uint32_t, int32_t, void*);
typedef int32_t (*iWEppppp_t)(x64emu_t*, void*, void*, void*, void*, void*);
typedef int32_t (*iWpiiiip_t)(void*, int32_t, int32_t, int32_t, int32_t, void*);
typedef int32_t (*iWpiiuii_t)(void*, int32_t, int32_t, uint32_t, int32_t, int32_t);
typedef int32_t (*iWpiuppu_t)(void*, int32_t, uint32_t, void*, void*, uint32_t);
typedef int32_t (*iWpuiiii_t)(void*, uint32_t, int32_t, int32_t, int32_t, int32_t);
typedef int32_t (*iWpppppi_t)(void*, void*, void*, void*, void*, int32_t);
typedef int32_t (*iWpppppu_t)(void*, void*, void*, void*, void*, uint32_t);
typedef int32_t (*iFEpLiLpp_t)(x64emu_t*, void*, uintptr_t, int32_t, uintptr_t, void*, void*);
typedef int32_t (*iFEpLiLpV_t)(x64emu_t*, void*, uintptr_t, int32_t, uintptr_t, void*, void*);
typedef int32_t (*iFEpppppp_t)(x64emu_t*, void*, void*, void*, void*, void*, void*);
typedef int32_t (*iFpippLpp_t)(void*, int32_t, void*, void*, uintptr_t, void*, void*);
typedef int32_t (*iFpippppW_t)(void*, int32_t, void*, void*, void*, void*, uint16_t);
typedef int32_t (*iFpWppppW_t)(void*, uint16_t, void*, void*, void*, void*, uint16_t);
typedef int32_t (*iFpuiCuCp_t)(void*, uint32_t, int32_t, uint8_t, uint32_t, uint8_t, void*);
typedef int32_t (*iFpupupui_t)(void*, uint32_t, void*, uint32_t, void*, uint32_t, int32_t);
typedef void* (*pFEpLiiil_t)(x64emu_t*, void*, uintptr_t, int32_t, int32_t, int32_t, intptr_t);
typedef int32_t (*iWpiiuuuu_t)(void*, int32_t, int32_t, uint32_t, uint32_t, uint32_t, uint32_t);
typedef int32_t (*iWpuiiiip_t)(void*, uint32_t, int32_t, int32_t, int32_t, int32_t, void*);
typedef int32_t (*iWpuiiuii_t)(void*, uint32_t, int32_t, int32_t, uint32_t, int32_t, int32_t);
typedef int32_t (*iWpuipupp_t)(void*, uint32_t, int32_t, void*, uint32_t, void*, void*);
typedef int32_t (*iWpuuuppu_t)(void*, uint32_t, uint32_t, uint32_t, void*, void*, uint32_t);
typedef int32_t (*iWpupuufu_t)(void*, uint32_t, void*, uint32_t, uint32_t, float, uint32_t);
typedef int32_t (*iWpppuppp_t)(void*, void*, void*, uint32_t, void*, void*, void*);
typedef int32_t (*iFEpippppp_t)(x64emu_t*, void*, int32_t, void*, void*, void*, void*, void*);
typedef int32_t (*iFEppipppp_t)(x64emu_t*, void*, void*, int32_t, void*, void*, void*, void*);
typedef int32_t (*iFpuippLpp_t)(void*, uint32_t, int32_t, void*, void*, uintptr_t, void*, void*);
typedef int32_t (*iWEpuuiipp_t)(x64emu_t*, void*, uint32_t, uint32_t, int32_t, int32_t, void*, void*);
typedef int32_t (*iWEpuuuipp_t)(x64emu_t*, void*, uint32_t, uint32_t, uint32_t, int32_t, void*, void*);
typedef int32_t (*iWpuipuppp_t)(void*, uint32_t, int32_t, void*, uint32_t, void*, void*, void*);
typedef int32_t (*iFipiipippi_t)(int32_t, void*, int32_t, int32_t, void*, int32_t, void*, void*, int32_t);
typedef int32_t (*iWEpuuiippu_t)(x64emu_t*, void*, uint32_t, uint32_t, int32_t, int32_t, void*, void*, uint32_t);
typedef int32_t (*iWEpuuuiipp_t)(x64emu_t*, void*, uint32_t, uint32_t, uint32_t, int32_t, int32_t, void*, void*);
typedef int32_t (*iWpiuuupipu_t)(void*, int32_t, uint32_t, uint32_t, uint32_t, void*, int32_t, void*, uint32_t);
typedef int32_t (*iWpuiuuipip_t)(void*, uint32_t, int32_t, uint32_t, uint32_t, int32_t, void*, int32_t, void*);
typedef int32_t (*iWppppupiii_t)(void*, void*, void*, void*, uint32_t, void*, int32_t, int32_t, int32_t);
typedef intptr_t (*lFpLppdddddd_t)(void*, uintptr_t, void*, void*, double, double, double, double, double, double);
typedef int32_t (*iWEpuipupppp_t)(x64emu_t*, void*, uint32_t, int32_t, void*, uint32_t, void*, void*, void*, void*);
typedef int32_t (*iWEpuuiiuipp_t)(x64emu_t*, void*, uint32_t, uint32_t, int32_t, int32_t, uint32_t, int32_t, void*, void*);
typedef int32_t (*iWEpuuuuiipp_t)(x64emu_t*, void*, uint32_t, uint32_t, uint32_t, uint32_t, int32_t, int32_t, void*, void*);
typedef int32_t (*iWEpuipuppppp_t)(x64emu_t*, void*, uint32_t, int32_t, void*, uint32_t, void*, void*, void*, void*, void*);
typedef int32_t (*iWEpuuiiuippu_t)(x64emu_t*, void*, uint32_t, uint32_t, int32_t, int32_t, uint32_t, int32_t, void*, void*, uint32_t);
typedef int32_t (*iWEpuuuuuiipp_t)(x64emu_t*, void*, uint32_t, uint32_t, uint32_t, uint32_t, uint32_t, int32_t, int32_t, void*, void*);

#if defined(HAVE_LD80BITS)
typedef long double (*DFD_t)(long double);
typedef long double (*DFY_t)(complexl_t);
typedef intptr_t (*lFD_t)(long double);
typedef complexl_t (*YFY_t)(complexl_t);
typedef int64_t (*IFED_t)(x64emu_t*, long double);
typedef long double (*DFiD_t)(int32_t, long double);
typedef intptr_t (*lFDD_t)(long double, long double);
typedef complexl_t (*YFYY_t)(complexl_t, complexl_t);
typedef void (*vFDpp_t)(long double, void*, void*);
typedef long double (*DFDDD_t)(long double, long double, long double);
#endif

#if !defined(HAVE_LD80BITS)
typedef double (*KFK_t)(double);
typedef double (*KFy_t)(complex_t);
typedef intptr_t (*lFK_t)(double);
typedef complex_t (*yFy_t)(complex_t);
typedef int64_t (*IFEK_t)(x64emu_t*, double);
typedef double (*KFiK_t)(int32_t, double);
typedef double (*KFKK_t)(double, double);
typedef double (*KFKp_t)(double, void*);
typedef intptr_t (*lFKK_t)(double, double);
typedef complex_t (*yFyy_t)(complex_t, complex_t);
typedef void (*vFKpp_t)(double, void*, void*);
typedef double (*KFKKK_t)(double, double, double);
#endif

#if defined(NOALIGN)
typedef int32_t (*iFppu_t)(void*, void*, uint32_t);
typedef int32_t (*iFipiip_t)(int32_t, void*, int32_t, int32_t, void*);
#endif

#if !defined(NOALIGN)
typedef int32_t (*iFELp_t)(x64emu_t*, uintptr_t, void*);
typedef int32_t (*iFEppu_t)(x64emu_t*, void*, void*, uint32_t);
typedef int32_t (*iFEiiip_t)(x64emu_t*, int32_t, int32_t, int32_t, void*);
typedef int32_t (*iFEipii_t)(x64emu_t*, int32_t, void*, int32_t, int32_t);
typedef int32_t (*iFEipiip_t)(x64emu_t*, int32_t, void*, int32_t, int32_t, void*);
#endif

#if defined(ANDROID)
typedef void (*vFEpppp_t)(x64emu_t*, void*, void*, void*, void*);
#endif

#if defined(STATICBUILD)
typedef void* (*pFLp_t)(uintptr_t, void*);
typedef void* (*pFpLLp_t)(void*, uintptr_t, uintptr_t, void*);
#endif

#if !defined(STATICBUILD)
typedef void (*vFLL_t)(uintptr_t, uintptr_t);
typedef int32_t (*iFlip_t)(intptr_t, int32_t, void*);
typedef int32_t (*iFLLi_t)(uintptr_t, uintptr_t, int32_t);
typedef int32_t (*iFpup_t)(void*, uint32_t, void*);
typedef int32_t (*iFLLiW_t)(uintptr_t, uintptr_t, int32_t, uint16_t);
typedef int32_t (*iFEipup_t)(x64emu_t*, int32_t, void*, uint32_t, void*);
typedef int32_t (*iFEiipup_t)(x64emu_t*, int32_t, int32_t, void*, uint32_t, void*);
typedef int32_t (*iFpipppL_t)(void*, int32_t, void*, void*, void*, uintptr_t);
#endif

void vFE(x64emu_t *emu, uintptr_t fcn) { vFE_t fn = (vFE_t)fcn; fn(emu); }
void vFv(x64emu_t *emu, uintptr_t fcn) { vFv_t fn = (vFv_t)fcn; fn(); (void)emu; }
void vFi(x64emu_t *emu, uintptr_t fcn) { vFi_t fn = (vFi_t)fcn; fn((int32_t)R_RDI); }
void vFu(x64emu_t *emu, uintptr_t fcn) { vFu_t fn = (vFu_t)fcn; fn((uint32_t)R_RDI); }
void vFl(x64emu_t *emu, uintptr_t fcn) { vFl_t fn = (vFl_t)fcn; fn((intptr_t)R_RDI); }
void vFp(x64emu_t *emu, uintptr_t fcn) { vFp_t fn = (vFp_t)fcn; fn((void*)R_RDI); }
void vFS(x64emu_t *emu, uintptr_t fcn) { vFS_t fn = (vFS_t)fcn; fn(io_convert((void*)R_RDI)); }
void iFE(x64emu_t *emu, uintptr_t fcn) { iFE_t fn = (iFE_t)fcn; R_RAX=(int32_t)fn(emu); }
void iFv(x64emu_t *emu, uintptr_t fcn) { iFv_t fn = (iFv_t)fcn; R_RAX=(int32_t)fn(); }
void iFi(x64emu_t *emu, uintptr_t fcn) { iFi_t fn = (iFi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI); }
void iFI(x64emu_t *emu, uintptr_t fcn) { iFI_t fn = (iFI_t)fcn; R_RAX=(int32_t)fn((int64_t)R_RDI); }
void iFu(x64emu_t *emu, uintptr_t fcn) { iFu_t fn = (iFu_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI); }
void iFU(x64emu_t *emu, uintptr_t fcn) { iFU_t fn = (iFU_t)fcn; R_RAX=(int32_t)fn((uint64_t)R_RDI); }
void iFf(x64emu_t *emu, uintptr_t fcn) { iFf_t fn = (iFf_t)fcn; R_RAX=(int32_t)fn(emu->xmm[0].f[0]); }
void iFd(x64emu_t *emu, uintptr_t fcn) { iFd_t fn = (iFd_t)fcn; R_RAX=(int32_t)fn(emu->xmm[0].d[0]); }
void iFD(x64emu_t *emu, uintptr_t fcn) { iFD_t fn = (iFD_t)fcn; R_RAX=(int32_t)fn(LD2localLD((void*)(R_RSP + 8))); }
void iFl(x64emu_t *emu, uintptr_t fcn) { iFl_t fn = (iFl_t)fcn; R_RAX=(int32_t)fn((intptr_t)R_RDI); }
void iFL(x64emu_t *emu, uintptr_t fcn) { iFL_t fn = (iFL_t)fcn; R_RAX=(int32_t)fn((uintptr_t)R_RDI); }
void iFp(x64emu_t *emu, uintptr_t fcn) { iFp_t fn = (iFp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI); }
void iFO(x64emu_t *emu, uintptr_t fcn) { iFO_t fn = (iFO_t)fcn; R_RAX=(int32_t)fn(of_convert((int32_t)R_RDI)); }
void iFS(x64emu_t *emu, uintptr_t fcn) { iFS_t fn = (iFS_t)fcn; R_RAX=(int32_t)fn(io_convert((void*)R_RDI)); }
void IFv(x64emu_t *emu, uintptr_t fcn) { IFv_t fn = (IFv_t)fcn; R_RAX=(int64_t)fn(); }
void IFI(x64emu_t *emu, uintptr_t fcn) { IFI_t fn = (IFI_t)fcn; R_RAX=(int64_t)fn((int64_t)R_RDI); }
void IFf(x64emu_t *emu, uintptr_t fcn) { IFf_t fn = (IFf_t)fcn; R_RAX=(int64_t)fn(emu->xmm[0].f[0]); }
void IFd(x64emu_t *emu, uintptr_t fcn) { IFd_t fn = (IFd_t)fcn; R_RAX=(int64_t)fn(emu->xmm[0].d[0]); }
void IFp(x64emu_t *emu, uintptr_t fcn) { IFp_t fn = (IFp_t)fcn; R_RAX=(int64_t)fn((void*)R_RDI); }
void WFW(x64emu_t *emu, uintptr_t fcn) { WFW_t fn = (WFW_t)fcn; R_RAX=(unsigned short)fn((uint16_t)R_RDI); }
void uFv(x64emu_t *emu, uintptr_t fcn) { uFv_t fn = (uFv_t)fcn; R_RAX=(uint32_t)fn(); }
void uFi(x64emu_t *emu, uintptr_t fcn) { uFi_t fn = (uFi_t)fcn; R_RAX=(uint32_t)fn((int32_t)R_RDI); }
void uFu(x64emu_t *emu, uintptr_t fcn) { uFu_t fn = (uFu_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI); }
void uFL(x64emu_t *emu, uintptr_t fcn) { uFL_t fn = (uFL_t)fcn; R_RAX=(uint32_t)fn((uintptr_t)R_RDI); }
void uFp(x64emu_t *emu, uintptr_t fcn) { uFp_t fn = (uFp_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI); }
void fFf(x64emu_t *emu, uintptr_t fcn) { fFf_t fn = (fFf_t)fcn; emu->xmm[0].f[0]=fn(emu->xmm[0].f[0]); }
void fFp(x64emu_t *emu, uintptr_t fcn) { fFp_t fn = (fFp_t)fcn; emu->xmm[0].f[0]=fn((void*)R_RDI); }
void dFv(x64emu_t *emu, uintptr_t fcn) { dFv_t fn = (dFv_t)fcn; emu->xmm[0].d[0]=fn(); }
void dFd(x64emu_t *emu, uintptr_t fcn) { dFd_t fn = (dFd_t)fcn; emu->xmm[0].d[0]=fn(emu->xmm[0].d[0]); }
void dFp(x64emu_t *emu, uintptr_t fcn) { dFp_t fn = (dFp_t)fcn; emu->xmm[0].d[0]=fn((void*)R_RDI); }
void lFE(x64emu_t *emu, uintptr_t fcn) { lFE_t fn = (lFE_t)fcn; R_RAX=(intptr_t)fn(emu); }
void lFv(x64emu_t *emu, uintptr_t fcn) { lFv_t fn = (lFv_t)fcn; R_RAX=(intptr_t)fn(); }
void lFl(x64emu_t *emu, uintptr_t fcn) { lFl_t fn = (lFl_t)fcn; R_RAX=(intptr_t)fn((intptr_t)R_RDI); }
void lFp(x64emu_t *emu, uintptr_t fcn) { lFp_t fn = (lFp_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI); }
void LFv(x64emu_t *emu, uintptr_t fcn) { LFv_t fn = (LFv_t)fcn; R_RAX=(uintptr_t)fn(); }
void LFL(x64emu_t *emu, uintptr_t fcn) { LFL_t fn = (LFL_t)fcn; R_RAX=(uintptr_t)fn((uintptr_t)R_RDI); }
void LFp(x64emu_t *emu, uintptr_t fcn) { LFp_t fn = (LFp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI); }
void pFE(x64emu_t *emu, uintptr_t fcn) { pFE_t fn = (pFE_t)fcn; R_RAX=(uintptr_t)fn(emu); }
void pFv(x64emu_t *emu, uintptr_t fcn) { pFv_t fn = (pFv_t)fcn; R_RAX=(uintptr_t)fn(); }
void pFi(x64emu_t *emu, uintptr_t fcn) { pFi_t fn = (pFi_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI); }
void pFu(x64emu_t *emu, uintptr_t fcn) { pFu_t fn = (pFu_t)fcn; R_RAX=(uintptr_t)fn((uint32_t)R_RDI); }
void pFl(x64emu_t *emu, uintptr_t fcn) { pFl_t fn = (pFl_t)fcn; R_RAX=(uintptr_t)fn((intptr_t)R_RDI); }
void pFL(x64emu_t *emu, uintptr_t fcn) { pFL_t fn = (pFL_t)fcn; R_RAX=(uintptr_t)fn((uintptr_t)R_RDI); }
void pFp(x64emu_t *emu, uintptr_t fcn) { pFp_t fn = (pFp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI); }
void xFx(x64emu_t *emu, uintptr_t fcn) { xFx_t fn = (xFx_t)fcn; from_complexf(emu, fn(to_complexf(emu, 0))); }
void XFX(x64emu_t *emu, uintptr_t fcn) { XFX_t fn = (XFX_t)fcn; from_complex(emu, fn(to_complex(emu, 0))); }
void vWp(x64emu_t *emu, uintptr_t fcn) { vWp_t fn = (vWp_t)fcn; fn((void*)R_RCX); }
void iWp(x64emu_t *emu, uintptr_t fcn) { iWp_t fn = (iWp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX); }
void uWp(x64emu_t *emu, uintptr_t fcn) { uWp_t fn = (uWp_t)fcn; R_RAX=(uint32_t)fn((void*)R_RCX); }
void fWp(x64emu_t *emu, uintptr_t fcn) { fWp_t fn = (fWp_t)fcn; emu->xmm[0].f[0]=fn((void*)R_RCX); }
void vFEi(x64emu_t *emu, uintptr_t fcn) { vFEi_t fn = (vFEi_t)fcn; fn(emu, (int32_t)R_RDI); }
void vFEp(x64emu_t *emu, uintptr_t fcn) { vFEp_t fn = (vFEp_t)fcn; fn(emu, (void*)R_RDI); }
void vFip(x64emu_t *emu, uintptr_t fcn) { vFip_t fn = (vFip_t)fcn; fn((int32_t)R_RDI, (void*)R_RSI); }
void vFWp(x64emu_t *emu, uintptr_t fcn) { vFWp_t fn = (vFWp_t)fcn; fn((uint16_t)R_RDI, (void*)R_RSI); }
void vFup(x64emu_t *emu, uintptr_t fcn) { vFup_t fn = (vFup_t)fcn; fn((uint32_t)R_RDI, (void*)R_RSI); }
void vFLp(x64emu_t *emu, uintptr_t fcn) { vFLp_t fn = (vFLp_t)fcn; fn((uintptr_t)R_RDI, (void*)R_RSI); }
void vFpi(x64emu_t *emu, uintptr_t fcn) { vFpi_t fn = (vFpi_t)fcn; fn((void*)R_RDI, (int32_t)R_RSI); }
void vFpl(x64emu_t *emu, uintptr_t fcn) { vFpl_t fn = (vFpl_t)fcn; fn((void*)R_RDI, (intptr_t)R_RSI); }
void vFpL(x64emu_t *emu, uintptr_t fcn) { vFpL_t fn = (vFpL_t)fcn; fn((void*)R_RDI, (uintptr_t)R_RSI); }
void vFpp(x64emu_t *emu, uintptr_t fcn) { vFpp_t fn = (vFpp_t)fcn; fn((void*)R_RDI, (void*)R_RSI); }
void vFpS(x64emu_t *emu, uintptr_t fcn) { vFpS_t fn = (vFpS_t)fcn; fn((void*)R_RDI, io_convert((void*)R_RSI)); }
void vFSi(x64emu_t *emu, uintptr_t fcn) { vFSi_t fn = (vFSi_t)fcn; fn(io_convert((void*)R_RDI), (int32_t)R_RSI); }
void iFEi(x64emu_t *emu, uintptr_t fcn) { iFEi_t fn = (iFEi_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI); }
void iFEf(x64emu_t *emu, uintptr_t fcn) { iFEf_t fn = (iFEf_t)fcn; R_RAX=(int32_t)fn(emu, emu->xmm[0].f[0]); }
void iFEd(x64emu_t *emu, uintptr_t fcn) { iFEd_t fn = (iFEd_t)fcn; R_RAX=(int32_t)fn(emu, emu->xmm[0].d[0]); }
void iFEL(x64emu_t *emu, uintptr_t fcn) { iFEL_t fn = (iFEL_t)fcn; R_RAX=(int32_t)fn(emu, (uintptr_t)R_RDI); }
void iFEp(x64emu_t *emu, uintptr_t fcn) { iFEp_t fn = (iFEp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI); }
void iFii(x64emu_t *emu, uintptr_t fcn) { iFii_t fn = (iFii_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI); }
void iFiI(x64emu_t *emu, uintptr_t fcn) { iFiI_t fn = (iFiI_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int64_t)R_RSI); }
void iFiu(x64emu_t *emu, uintptr_t fcn) { iFiu_t fn = (iFiu_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uint32_t)R_RSI); }
void iFil(x64emu_t *emu, uintptr_t fcn) { iFil_t fn = (iFil_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (intptr_t)R_RSI); }
void iFiL(x64emu_t *emu, uintptr_t fcn) { iFiL_t fn = (iFiL_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uintptr_t)R_RSI); }
void iFip(x64emu_t *emu, uintptr_t fcn) { iFip_t fn = (iFip_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI); }
void iFiS(x64emu_t *emu, uintptr_t fcn) { iFiS_t fn = (iFiS_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, io_convert((void*)R_RSI)); }
void iFui(x64emu_t *emu, uintptr_t fcn) { iFui_t fn = (iFui_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (int32_t)R_RSI); }
void iFuu(x64emu_t *emu, uintptr_t fcn) { iFuu_t fn = (iFuu_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (uint32_t)R_RSI); }
void iFuL(x64emu_t *emu, uintptr_t fcn) { iFuL_t fn = (iFuL_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (uintptr_t)R_RSI); }
void iFup(x64emu_t *emu, uintptr_t fcn) { iFup_t fn = (iFup_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (void*)R_RSI); }
void iFlp(x64emu_t *emu, uintptr_t fcn) { iFlp_t fn = (iFlp_t)fcn; R_RAX=(int32_t)fn((intptr_t)R_RDI, (void*)R_RSI); }
void iFLL(x64emu_t *emu, uintptr_t fcn) { iFLL_t fn = (iFLL_t)fcn; R_RAX=(int32_t)fn((uintptr_t)R_RDI, (uintptr_t)R_RSI); }
void iFLp(x64emu_t *emu, uintptr_t fcn) { iFLp_t fn = (iFLp_t)fcn; R_RAX=(int32_t)fn((uintptr_t)R_RDI, (void*)R_RSI); }
void iFpw(x64emu_t *emu, uintptr_t fcn) { iFpw_t fn = (iFpw_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int16_t)R_RSI); }
void iFpi(x64emu_t *emu, uintptr_t fcn) { iFpi_t fn = (iFpi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI); }
void iFpI(x64emu_t *emu, uintptr_t fcn) { iFpI_t fn = (iFpI_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int64_t)R_RSI); }
void iFpW(x64emu_t *emu, uintptr_t fcn) { iFpW_t fn = (iFpW_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint16_t)R_RSI); }
void iFpu(x64emu_t *emu, uintptr_t fcn) { iFpu_t fn = (iFpu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI); }
void iFpU(x64emu_t *emu, uintptr_t fcn) { iFpU_t fn = (iFpU_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint64_t)R_RSI); }
void iFpl(x64emu_t *emu, uintptr_t fcn) { iFpl_t fn = (iFpl_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (intptr_t)R_RSI); }
void iFpL(x64emu_t *emu, uintptr_t fcn) { iFpL_t fn = (iFpL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI); }
void iFpp(x64emu_t *emu, uintptr_t fcn) { iFpp_t fn = (iFpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI); }
void iFpO(x64emu_t *emu, uintptr_t fcn) { iFpO_t fn = (iFpO_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI)); }
void iFSi(x64emu_t *emu, uintptr_t fcn) { iFSi_t fn = (iFSi_t)fcn; R_RAX=(int32_t)fn(io_convert((void*)R_RDI), (int32_t)R_RSI); }
void IFEi(x64emu_t *emu, uintptr_t fcn) { IFEi_t fn = (IFEi_t)fcn; R_RAX=(int64_t)fn(emu, (int32_t)R_RDI); }
void IFEf(x64emu_t *emu, uintptr_t fcn) { IFEf_t fn = (IFEf_t)fcn; R_RAX=(int64_t)fn(emu, emu->xmm[0].f[0]); }
void IFEd(x64emu_t *emu, uintptr_t fcn) { IFEd_t fn = (IFEd_t)fcn; R_RAX=(int64_t)fn(emu, emu->xmm[0].d[0]); }
void IFII(x64emu_t *emu, uintptr_t fcn) { IFII_t fn = (IFII_t)fcn; R_RAX=(int64_t)fn((int64_t)R_RDI, (int64_t)R_RSI); }
void uFii(x64emu_t *emu, uintptr_t fcn) { uFii_t fn = (uFii_t)fcn; R_RAX=(uint32_t)fn((int32_t)R_RDI, (int32_t)R_RSI); }
void uFip(x64emu_t *emu, uintptr_t fcn) { uFip_t fn = (uFip_t)fcn; R_RAX=(uint32_t)fn((int32_t)R_RDI, (void*)R_RSI); }
void uFuu(x64emu_t *emu, uintptr_t fcn) { uFuu_t fn = (uFuu_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (uint32_t)R_RSI); }
void uFup(x64emu_t *emu, uintptr_t fcn) { uFup_t fn = (uFup_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (void*)R_RSI); }
void uFpp(x64emu_t *emu, uintptr_t fcn) { uFpp_t fn = (uFpp_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (void*)R_RSI); }
void fFEf(x64emu_t *emu, uintptr_t fcn) { fFEf_t fn = (fFEf_t)fcn; emu->xmm[0].f[0]=fn(emu, emu->xmm[0].f[0]); }
void fFif(x64emu_t *emu, uintptr_t fcn) { fFif_t fn = (fFif_t)fcn; emu->xmm[0].f[0]=fn((int32_t)R_RDI, emu->xmm[0].f[0]); }
void fFfi(x64emu_t *emu, uintptr_t fcn) { fFfi_t fn = (fFfi_t)fcn; emu->xmm[0].f[0]=fn(emu->xmm[0].f[0], (int32_t)R_RDI); }
void fFff(x64emu_t *emu, uintptr_t fcn) { fFff_t fn = (fFff_t)fcn; emu->xmm[0].f[0]=fn(emu->xmm[0].f[0], emu->xmm[1].f[0]); }
void fFfD(x64emu_t *emu, uintptr_t fcn) { fFfD_t fn = (fFfD_t)fcn; emu->xmm[0].f[0]=fn(emu->xmm[0].f[0], LD2localLD((void*)(R_RSP + 8))); }
void fFfp(x64emu_t *emu, uintptr_t fcn) { fFfp_t fn = (fFfp_t)fcn; emu->xmm[0].f[0]=fn(emu->xmm[0].f[0], (void*)R_RDI); }
void fFpp(x64emu_t *emu, uintptr_t fcn) { fFpp_t fn = (fFpp_t)fcn; emu->xmm[0].f[0]=fn((void*)R_RDI, (void*)R_RSI); }
void dFEd(x64emu_t *emu, uintptr_t fcn) { dFEd_t fn = (dFEd_t)fcn; emu->xmm[0].d[0]=fn(emu, emu->xmm[0].d[0]); }
void dFid(x64emu_t *emu, uintptr_t fcn) { dFid_t fn = (dFid_t)fcn; emu->xmm[0].d[0]=fn((int32_t)R_RDI, emu->xmm[0].d[0]); }
void dFdi(x64emu_t *emu, uintptr_t fcn) { dFdi_t fn = (dFdi_t)fcn; emu->xmm[0].d[0]=fn(emu->xmm[0].d[0], (int32_t)R_RDI); }
void dFdd(x64emu_t *emu, uintptr_t fcn) { dFdd_t fn = (dFdd_t)fcn; emu->xmm[0].d[0]=fn(emu->xmm[0].d[0], emu->xmm[1].d[0]); }
void dFdD(x64emu_t *emu, uintptr_t fcn) { dFdD_t fn = (dFdD_t)fcn; emu->xmm[0].d[0]=fn(emu->xmm[0].d[0], LD2localLD((void*)(R_RSP + 8))); }
void dFdp(x64emu_t *emu, uintptr_t fcn) { dFdp_t fn = (dFdp_t)fcn; emu->xmm[0].d[0]=fn(emu->xmm[0].d[0], (void*)R_RDI); }
void dFll(x64emu_t *emu, uintptr_t fcn) { dFll_t fn = (dFll_t)fcn; emu->xmm[0].d[0]=fn((intptr_t)R_RDI, (intptr_t)R_RSI); }
void dFpp(x64emu_t *emu, uintptr_t fcn) { dFpp_t fn = (dFpp_t)fcn; emu->xmm[0].d[0]=fn((void*)R_RDI, (void*)R_RSI); }
void DFDi(x64emu_t *emu, uintptr_t fcn) { DFDi_t fn = (DFDi_t)fcn; long double ld=fn(LD2localLD((void*)(R_RSP + 8)), (int32_t)R_RDI); fpu_do_push(emu); ST0val = ld; }
void DFDD(x64emu_t *emu, uintptr_t fcn) { DFDD_t fn = (DFDD_t)fcn; long double ld=fn(LD2localLD((void*)(R_RSP + 8)), LD2localLD((void*)(R_RSP + 24))); fpu_do_push(emu); ST0val = ld; }
void DFDp(x64emu_t *emu, uintptr_t fcn) { DFDp_t fn = (DFDp_t)fcn; long double ld=fn(LD2localLD((void*)(R_RSP + 8)), (void*)R_RDI); fpu_do_push(emu); ST0val = ld; }
void DFpp(x64emu_t *emu, uintptr_t fcn) { DFpp_t fn = (DFpp_t)fcn; long double ld=fn((void*)R_RDI, (void*)R_RSI); fpu_do_push(emu); ST0val = ld; }
void lFEi(x64emu_t *emu, uintptr_t fcn) { lFEi_t fn = (lFEi_t)fcn; R_RAX=(intptr_t)fn(emu, (int32_t)R_RDI); }
void lFii(x64emu_t *emu, uintptr_t fcn) { lFii_t fn = (lFii_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (int32_t)R_RSI); }
void lFpi(x64emu_t *emu, uintptr_t fcn) { lFpi_t fn = (lFpi_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (int32_t)R_RSI); }
void LFEL(x64emu_t *emu, uintptr_t fcn) { LFEL_t fn = (LFEL_t)fcn; R_RAX=(uintptr_t)fn(emu, (uintptr_t)R_RDI); }
void LFii(x64emu_t *emu, uintptr_t fcn) { LFii_t fn = (LFii_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (int32_t)R_RSI); }
void LFuu(x64emu_t *emu, uintptr_t fcn) { LFuu_t fn = (LFuu_t)fcn; R_RAX=(uintptr_t)fn((uint32_t)R_RDI, (uint32_t)R_RSI); }
void LFpL(x64emu_t *emu, uintptr_t fcn) { LFpL_t fn = (LFpL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI); }
void LFpp(x64emu_t *emu, uintptr_t fcn) { LFpp_t fn = (LFpp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI); }
void pFEp(x64emu_t *emu, uintptr_t fcn) { pFEp_t fn = (pFEp_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI); }
void pFip(x64emu_t *emu, uintptr_t fcn) { pFip_t fn = (pFip_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI); }
void pFup(x64emu_t *emu, uintptr_t fcn) { pFup_t fn = (pFup_t)fcn; R_RAX=(uintptr_t)fn((uint32_t)R_RDI, (void*)R_RSI); }
void pFUU(x64emu_t *emu, uintptr_t fcn) { pFUU_t fn = (pFUU_t)fcn; R_RAX=(uintptr_t)fn((uint64_t)R_RDI, (uint64_t)R_RSI); }
void pFLL(x64emu_t *emu, uintptr_t fcn) { pFLL_t fn = (pFLL_t)fcn; R_RAX=(uintptr_t)fn((uintptr_t)R_RDI, (uintptr_t)R_RSI); }
void pFpi(x64emu_t *emu, uintptr_t fcn) { pFpi_t fn = (pFpi_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (int32_t)R_RSI); }
void pFpu(x64emu_t *emu, uintptr_t fcn) { pFpu_t fn = (pFpu_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uint32_t)R_RSI); }
void pFpL(x64emu_t *emu, uintptr_t fcn) { pFpL_t fn = (pFpL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI); }
void pFpp(x64emu_t *emu, uintptr_t fcn) { pFpp_t fn = (pFpp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI); }
void pFSi(x64emu_t *emu, uintptr_t fcn) { pFSi_t fn = (pFSi_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (int32_t)R_RSI); }
void HFII(x64emu_t *emu, uintptr_t fcn) { HFII_t fn = (HFII_t)fcn; unsigned __int128 u128 = fn((int64_t)R_RDI, (int64_t)R_RSI); R_RAX=(u128&0xFFFFFFFFFFFFFFFFL); R_RDX=(u128>>64)&0xFFFFFFFFFFFFFFFFL; }
void HFll(x64emu_t *emu, uintptr_t fcn) { HFll_t fn = (HFll_t)fcn; unsigned __int128 u128 = fn((intptr_t)R_RDI, (intptr_t)R_RSI); R_RAX=(u128&0xFFFFFFFFFFFFFFFFL); R_RDX=(u128>>64)&0xFFFFFFFFFFFFFFFFL; }
void xFxx(x64emu_t *emu, uintptr_t fcn) { xFxx_t fn = (xFxx_t)fcn; from_complexf(emu, fn(to_complexf(emu, 0), to_complexf(emu, 1))); }
void XFXX(x64emu_t *emu, uintptr_t fcn) { XFXX_t fn = (XFXX_t)fcn; from_complex(emu, fn(to_complex(emu, 0), to_complex(emu, 2))); }
void iWpi(x64emu_t *emu, uintptr_t fcn) { iWpi_t fn = (iWpi_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX); }
void iWpu(x64emu_t *emu, uintptr_t fcn) { iWpu_t fn = (iWpu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX); }
void iWpf(x64emu_t *emu, uintptr_t fcn) { iWpf_t fn = (iWpf_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, emu->xmm[1].f[0]); }
void iWpp(x64emu_t *emu, uintptr_t fcn) { iWpp_t fn = (iWpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX); }
void uWpu(x64emu_t *emu, uintptr_t fcn) { uWpu_t fn = (uWpu_t)fcn; R_RAX=(uint32_t)fn((void*)R_RCX, (uint32_t)R_RDX); }
void pWpu(x64emu_t *emu, uintptr_t fcn) { pWpu_t fn = (pWpu_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RCX, (uint32_t)R_RDX); }
void vFEpi(x64emu_t *emu, uintptr_t fcn) { vFEpi_t fn = (vFEpi_t)fcn; fn(emu, (void*)R_RDI, (int32_t)R_RSI); }
void vFEpu(x64emu_t *emu, uintptr_t fcn) { vFEpu_t fn = (vFEpu_t)fcn; fn(emu, (void*)R_RDI, (uint32_t)R_RSI); }
void vFEpp(x64emu_t *emu, uintptr_t fcn) { vFEpp_t fn = (vFEpp_t)fcn; fn(emu, (void*)R_RDI, (void*)R_RSI); }
void vFEpV(x64emu_t *emu, uintptr_t fcn) { vFEpV_t fn = (vFEpV_t)fcn; fn(emu, (void*)R_RDI, (void*)(R_RSP + 8)); }
void vFfpp(x64emu_t *emu, uintptr_t fcn) { vFfpp_t fn = (vFfpp_t)fcn; fn(emu->xmm[0].f[0], (void*)R_RDI, (void*)R_RSI); }
void vFdpp(x64emu_t *emu, uintptr_t fcn) { vFdpp_t fn = (vFdpp_t)fcn; fn(emu->xmm[0].d[0], (void*)R_RDI, (void*)R_RSI); }
void vFpii(x64emu_t *emu, uintptr_t fcn) { vFpii_t fn = (vFpii_t)fcn; fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX); }
void vFpip(x64emu_t *emu, uintptr_t fcn) { vFpip_t fn = (vFpip_t)fcn; fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void vFpLi(x64emu_t *emu, uintptr_t fcn) { vFpLi_t fn = (vFpLi_t)fcn; fn((void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX); }
void vFpLL(x64emu_t *emu, uintptr_t fcn) { vFpLL_t fn = (vFpLL_t)fcn; fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX); }
void vFpLp(x64emu_t *emu, uintptr_t fcn) { vFpLp_t fn = (vFpLp_t)fcn; fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void vFppi(x64emu_t *emu, uintptr_t fcn) { vFppi_t fn = (vFppi_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void vFppl(x64emu_t *emu, uintptr_t fcn) { vFppl_t fn = (vFppl_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (intptr_t)R_RDX); }
void vFppL(x64emu_t *emu, uintptr_t fcn) { vFppL_t fn = (vFppL_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void vFppp(x64emu_t *emu, uintptr_t fcn) { vFppp_t fn = (vFppp_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFEip(x64emu_t *emu, uintptr_t fcn) { iFEip_t fn = (iFEip_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI); }
void iFEup(x64emu_t *emu, uintptr_t fcn) { iFEup_t fn = (iFEup_t)fcn; R_RAX=(int32_t)fn(emu, (uint32_t)R_RDI, (void*)R_RSI); }
void iFEpi(x64emu_t *emu, uintptr_t fcn) { iFEpi_t fn = (iFEpi_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI); }
void iFEpL(x64emu_t *emu, uintptr_t fcn) { iFEpL_t fn = (iFEpL_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI); }
void iFEpp(x64emu_t *emu, uintptr_t fcn) { iFEpp_t fn = (iFEpp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI); }
void iFEpV(x64emu_t *emu, uintptr_t fcn) { iFEpV_t fn = (iFEpV_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)(R_RSP + 8)); }
void iFEpA(x64emu_t *emu, uintptr_t fcn) { iFEpA_t fn = (iFEpA_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI); }
void iFESp(x64emu_t *emu, uintptr_t fcn) { iFESp_t fn = (iFESp_t)fcn; R_RAX=(int32_t)fn(emu, io_convert((void*)R_RDI), (void*)R_RSI); }
void iFiii(x64emu_t *emu, uintptr_t fcn) { iFiii_t fn = (iFiii_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX); }
void iFiiI(x64emu_t *emu, uintptr_t fcn) { iFiiI_t fn = (iFiiI_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (int64_t)R_RDX); }
void iFiil(x64emu_t *emu, uintptr_t fcn) { iFiil_t fn = (iFiil_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (intptr_t)R_RDX); }
void iFiip(x64emu_t *emu, uintptr_t fcn) { iFiip_t fn = (iFiip_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFiiO(x64emu_t *emu, uintptr_t fcn) { iFiiO_t fn = (iFiiO_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, of_convert((int32_t)R_RDX)); }
void iFiuu(x64emu_t *emu, uintptr_t fcn) { iFiuu_t fn = (iFiuu_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uint32_t)R_RSI, (uint32_t)R_RDX); }
void iFill(x64emu_t *emu, uintptr_t fcn) { iFill_t fn = (iFill_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (intptr_t)R_RSI, (intptr_t)R_RDX); }
void iFiLi(x64emu_t *emu, uintptr_t fcn) { iFiLi_t fn = (iFiLi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX); }
void iFiLp(x64emu_t *emu, uintptr_t fcn) { iFiLp_t fn = (iFiLp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void iFiLN(x64emu_t *emu, uintptr_t fcn) { iFiLN_t fn = (iFiLN_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void iFipi(x64emu_t *emu, uintptr_t fcn) { iFipi_t fn = (iFipi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void iFipu(x64emu_t *emu, uintptr_t fcn) { iFipu_t fn = (iFipu_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX); }
void iFipL(x64emu_t *emu, uintptr_t fcn) { iFipL_t fn = (iFipL_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void iFipp(x64emu_t *emu, uintptr_t fcn) { iFipp_t fn = (iFipp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFipO(x64emu_t *emu, uintptr_t fcn) { iFipO_t fn = (iFipO_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, of_convert((int32_t)R_RDX)); }
void iFuui(x64emu_t *emu, uintptr_t fcn) { iFuui_t fn = (iFuui_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX); }
void iFuuu(x64emu_t *emu, uintptr_t fcn) { iFuuu_t fn = (iFuuu_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (uint32_t)R_RSI, (uint32_t)R_RDX); }
void iFuLL(x64emu_t *emu, uintptr_t fcn) { iFuLL_t fn = (iFuLL_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX); }
void iFuLp(x64emu_t *emu, uintptr_t fcn) { iFuLp_t fn = (iFuLp_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void iFupp(x64emu_t *emu, uintptr_t fcn) { iFupp_t fn = (iFupp_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFLip(x64emu_t *emu, uintptr_t fcn) { iFLip_t fn = (iFLip_t)fcn; R_RAX=(int32_t)fn((uintptr_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFLpp(x64emu_t *emu, uintptr_t fcn) { iFLpp_t fn = (iFLpp_t)fcn; R_RAX=(int32_t)fn((uintptr_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFpii(x64emu_t *emu, uintptr_t fcn) { iFpii_t fn = (iFpii_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX); }
void iFpiu(x64emu_t *emu, uintptr_t fcn) { iFpiu_t fn = (iFpiu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (uint32_t)R_RDX); }
void iFpip(x64emu_t *emu, uintptr_t fcn) { iFpip_t fn = (iFpip_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFpIi(x64emu_t *emu, uintptr_t fcn) { iFpIi_t fn = (iFpIi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int64_t)R_RSI, (int32_t)R_RDX); }
void iFpui(x64emu_t *emu, uintptr_t fcn) { iFpui_t fn = (iFpui_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX); }
void iFpuu(x64emu_t *emu, uintptr_t fcn) { iFpuu_t fn = (iFpuu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (uint32_t)R_RDX); }
void iFpuL(x64emu_t *emu, uintptr_t fcn) { iFpuL_t fn = (iFpuL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (uintptr_t)R_RDX); }
void iFpli(x64emu_t *emu, uintptr_t fcn) { iFpli_t fn = (iFpli_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (intptr_t)R_RSI, (int32_t)R_RDX); }
void iFpLi(x64emu_t *emu, uintptr_t fcn) { iFpLi_t fn = (iFpLi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX); }
void iFpLu(x64emu_t *emu, uintptr_t fcn) { iFpLu_t fn = (iFpLu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uint32_t)R_RDX); }
void iFpLL(x64emu_t *emu, uintptr_t fcn) { iFpLL_t fn = (iFpLL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX); }
void iFpLp(x64emu_t *emu, uintptr_t fcn) { iFpLp_t fn = (iFpLp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void iFppi(x64emu_t *emu, uintptr_t fcn) { iFppi_t fn = (iFppi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void iFppL(x64emu_t *emu, uintptr_t fcn) { iFppL_t fn = (iFppL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void iFppp(x64emu_t *emu, uintptr_t fcn) { iFppp_t fn = (iFppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFpOu(x64emu_t *emu, uintptr_t fcn) { iFpOu_t fn = (iFpOu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (uint32_t)R_RDX); }
void iFpOM(x64emu_t *emu, uintptr_t fcn) { iFpOM_t fn = (iFpOM_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (void*)R_RDX, (void*)R_RCX); }
void iFSpL(x64emu_t *emu, uintptr_t fcn) { iFSpL_t fn = (iFSpL_t)fcn; R_RAX=(int32_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (uintptr_t)R_RDX); }
void IFiIi(x64emu_t *emu, uintptr_t fcn) { IFiIi_t fn = (IFiIi_t)fcn; R_RAX=(int64_t)fn((int32_t)R_RDI, (int64_t)R_RSI, (int32_t)R_RDX); }
void IFppi(x64emu_t *emu, uintptr_t fcn) { IFppi_t fn = (IFppi_t)fcn; R_RAX=(int64_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void IFSIi(x64emu_t *emu, uintptr_t fcn) { IFSIi_t fn = (IFSIi_t)fcn; R_RAX=(int64_t)fn(io_convert((void*)R_RDI), (int64_t)R_RSI, (int32_t)R_RDX); }
void uFupp(x64emu_t *emu, uintptr_t fcn) { uFupp_t fn = (uFupp_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void uFppi(x64emu_t *emu, uintptr_t fcn) { uFppi_t fn = (uFppi_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void UFppi(x64emu_t *emu, uintptr_t fcn) { UFppi_t fn = (UFppi_t)fcn; R_RAX=fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void fFfff(x64emu_t *emu, uintptr_t fcn) { fFfff_t fn = (fFfff_t)fcn; emu->xmm[0].f[0]=fn(emu->xmm[0].f[0], emu->xmm[1].f[0], emu->xmm[2].f[0]); }
void fFffp(x64emu_t *emu, uintptr_t fcn) { fFffp_t fn = (fFffp_t)fcn; emu->xmm[0].f[0]=fn(emu->xmm[0].f[0], emu->xmm[1].f[0], (void*)R_RDI); }
void fFppi(x64emu_t *emu, uintptr_t fcn) { fFppi_t fn = (fFppi_t)fcn; emu->xmm[0].f[0]=fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void fFppL(x64emu_t *emu, uintptr_t fcn) { fFppL_t fn = (fFppL_t)fcn; emu->xmm[0].f[0]=fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void fFppp(x64emu_t *emu, uintptr_t fcn) { fFppp_t fn = (fFppp_t)fcn; emu->xmm[0].f[0]=fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void dFddd(x64emu_t *emu, uintptr_t fcn) { dFddd_t fn = (dFddd_t)fcn; emu->xmm[0].d[0]=fn(emu->xmm[0].d[0], emu->xmm[1].d[0], emu->xmm[2].d[0]); }
void dFddp(x64emu_t *emu, uintptr_t fcn) { dFddp_t fn = (dFddp_t)fcn; emu->xmm[0].d[0]=fn(emu->xmm[0].d[0], emu->xmm[1].d[0], (void*)R_RDI); }
void dFppi(x64emu_t *emu, uintptr_t fcn) { dFppi_t fn = (dFppi_t)fcn; emu->xmm[0].d[0]=fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void dFppp(x64emu_t *emu, uintptr_t fcn) { dFppp_t fn = (dFppp_t)fcn; emu->xmm[0].d[0]=fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void DFppi(x64emu_t *emu, uintptr_t fcn) { DFppi_t fn = (DFppi_t)fcn; long double ld=fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); fpu_do_push(emu); ST0val = ld; }
void DFppp(x64emu_t *emu, uintptr_t fcn) { DFppp_t fn = (DFppp_t)fcn; long double ld=fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); fpu_do_push(emu); ST0val = ld; }
void lFili(x64emu_t *emu, uintptr_t fcn) { lFili_t fn = (lFili_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (intptr_t)R_RSI, (int32_t)R_RDX); }
void lFilL(x64emu_t *emu, uintptr_t fcn) { lFilL_t fn = (lFilL_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (intptr_t)R_RSI, (uintptr_t)R_RDX); }
void lFipi(x64emu_t *emu, uintptr_t fcn) { lFipi_t fn = (lFipi_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void lFipL(x64emu_t *emu, uintptr_t fcn) { lFipL_t fn = (lFipL_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void lFpLu(x64emu_t *emu, uintptr_t fcn) { lFpLu_t fn = (lFpLu_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uint32_t)R_RDX); }
void lFppi(x64emu_t *emu, uintptr_t fcn) { lFppi_t fn = (lFppi_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void lFppL(x64emu_t *emu, uintptr_t fcn) { lFppL_t fn = (lFppL_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void lFppp(x64emu_t *emu, uintptr_t fcn) { lFppp_t fn = (lFppp_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void lFSpl(x64emu_t *emu, uintptr_t fcn) { lFSpl_t fn = (lFSpl_t)fcn; R_RAX=(intptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (intptr_t)R_RDX); }
void LFipL(x64emu_t *emu, uintptr_t fcn) { LFipL_t fn = (LFipL_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void LFpup(x64emu_t *emu, uintptr_t fcn) { LFpup_t fn = (LFpup_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX); }
void LFpLp(x64emu_t *emu, uintptr_t fcn) { LFpLp_t fn = (LFpLp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void LFppi(x64emu_t *emu, uintptr_t fcn) { LFppi_t fn = (LFppi_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void LFppL(x64emu_t *emu, uintptr_t fcn) { LFppL_t fn = (LFppL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void LFSpL(x64emu_t *emu, uintptr_t fcn) { LFSpL_t fn = (LFSpL_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (uintptr_t)R_RDX); }
void pFEip(x64emu_t *emu, uintptr_t fcn) { pFEip_t fn = (pFEip_t)fcn; R_RAX=(uintptr_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI); }
void pFEpi(x64emu_t *emu, uintptr_t fcn) { pFEpi_t fn = (pFEpi_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI); }
void pFEpp(x64emu_t *emu, uintptr_t fcn) { pFEpp_t fn = (pFEpp_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI); }
void pFipi(x64emu_t *emu, uintptr_t fcn) { pFipi_t fn = (pFipi_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void pFipL(x64emu_t *emu, uintptr_t fcn) { pFipL_t fn = (pFipL_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void pFipp(x64emu_t *emu, uintptr_t fcn) { pFipp_t fn = (pFipp_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void pFupL(x64emu_t *emu, uintptr_t fcn) { pFupL_t fn = (pFupL_t)fcn; R_RAX=(uintptr_t)fn((uint32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void pFdip(x64emu_t *emu, uintptr_t fcn) { pFdip_t fn = (pFdip_t)fcn; R_RAX=(uintptr_t)fn(emu->xmm[0].d[0], (int32_t)R_RDI, (void*)R_RSI); }
void pFDip(x64emu_t *emu, uintptr_t fcn) { pFDip_t fn = (pFDip_t)fcn; R_RAX=(uintptr_t)fn(LD2localLD((void*)(R_RSP + 8)), (int32_t)R_RDI, (void*)R_RSI); }
void pFLLp(x64emu_t *emu, uintptr_t fcn) { pFLLp_t fn = (pFLLp_t)fcn; R_RAX=(uintptr_t)fn((uintptr_t)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void pFpiL(x64emu_t *emu, uintptr_t fcn) { pFpiL_t fn = (pFpiL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (int32_t)R_RSI, (uintptr_t)R_RDX); }
void pFpip(x64emu_t *emu, uintptr_t fcn) { pFpip_t fn = (pFpip_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void pFpui(x64emu_t *emu, uintptr_t fcn) { pFpui_t fn = (pFpui_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX); }
void pFpuL(x64emu_t *emu, uintptr_t fcn) { pFpuL_t fn = (pFpuL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uint32_t)R_RSI, (uintptr_t)R_RDX); }
void pFpLL(x64emu_t *emu, uintptr_t fcn) { pFpLL_t fn = (pFpLL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX); }
void pFpLp(x64emu_t *emu, uintptr_t fcn) { pFpLp_t fn = (pFpLp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void pFppi(x64emu_t *emu, uintptr_t fcn) { pFppi_t fn = (pFppi_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void pFppU(x64emu_t *emu, uintptr_t fcn) { pFppU_t fn = (pFppU_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uint64_t)R_RDX); }
void pFppL(x64emu_t *emu, uintptr_t fcn) { pFppL_t fn = (pFppL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void pFppp(x64emu_t *emu, uintptr_t fcn) { pFppp_t fn = (pFppp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void pFpOM(x64emu_t *emu, uintptr_t fcn) { pFpOM_t fn = (pFpOM_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (void*)R_RDX, (void*)R_RCX); }
void pFSpl(x64emu_t *emu, uintptr_t fcn) { pFSpl_t fn = (pFSpl_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (intptr_t)R_RDX); }
void vWpup(x64emu_t *emu, uintptr_t fcn) { vWpup_t fn = (vWpup_t)fcn; fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8); }
void iWEpp(x64emu_t *emu, uintptr_t fcn) { iWEpp_t fn = (iWEpp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (void*)R_RDX); }
void iWpiu(x64emu_t *emu, uintptr_t fcn) { iWpiu_t fn = (iWpiu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (uint32_t)R_R8); }
void iWpip(x64emu_t *emu, uintptr_t fcn) { iWpip_t fn = (iWpip_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (void*)R_R8); }
void iWpui(x64emu_t *emu, uintptr_t fcn) { iWpui_t fn = (iWpui_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8); }
void iWpuu(x64emu_t *emu, uintptr_t fcn) { iWpuu_t fn = (iWpuu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8); }
void iWpup(x64emu_t *emu, uintptr_t fcn) { iWpup_t fn = (iWpup_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8); }
void iWppu(x64emu_t *emu, uintptr_t fcn) { iWppu_t fn = (iWppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (uint32_t)R_R8); }
void iWppp(x64emu_t *emu, uintptr_t fcn) { iWppp_t fn = (iWppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8); }
void uWpui(x64emu_t *emu, uintptr_t fcn) { uWpui_t fn = (uWpui_t)fcn; R_RAX=(uint32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8); }
void uWpup(x64emu_t *emu, uintptr_t fcn) { uWpup_t fn = (uWpup_t)fcn; R_RAX=(uint32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8); }
void vFEipV(x64emu_t *emu, uintptr_t fcn) { vFEipV_t fn = (vFEipV_t)fcn; fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)(R_RSP + 8)); }
void vFEipA(x64emu_t *emu, uintptr_t fcn) { vFEipA_t fn = (vFEipA_t)fcn; fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void vFEpii(x64emu_t *emu, uintptr_t fcn) { vFEpii_t fn = (vFEpii_t)fcn; fn(emu, (void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX); }
void vFEpup(x64emu_t *emu, uintptr_t fcn) { vFEpup_t fn = (vFEpup_t)fcn; fn(emu, (void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX); }
void vFEppp(x64emu_t *emu, uintptr_t fcn) { vFEppp_t fn = (vFEppp_t)fcn; fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void vFiipV(x64emu_t *emu, uintptr_t fcn) { vFiipV_t fn = (vFiipV_t)fcn; fn((int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)(R_RSP + 8)); }
void vFipup(x64emu_t *emu, uintptr_t fcn) { vFipup_t fn = (vFipup_t)fcn; fn((int32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX, (void*)R_RCX); }
void vFppup(x64emu_t *emu, uintptr_t fcn) { vFppup_t fn = (vFppup_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (uint32_t)R_RDX, (void*)R_RCX); }
void iFEiip(x64emu_t *emu, uintptr_t fcn) { iFEiip_t fn = (iFEiip_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFEiiN(x64emu_t *emu, uintptr_t fcn) { iFEiiN_t fn = (iFEiiN_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFEipp(x64emu_t *emu, uintptr_t fcn) { iFEipp_t fn = (iFEipp_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFEipV(x64emu_t *emu, uintptr_t fcn) { iFEipV_t fn = (iFEipV_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)(R_RSP + 8)); }
void iFEipA(x64emu_t *emu, uintptr_t fcn) { iFEipA_t fn = (iFEipA_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFEupp(x64emu_t *emu, uintptr_t fcn) { iFEupp_t fn = (iFEupp_t)fcn; R_RAX=(int32_t)fn(emu, (uint32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFEpip(x64emu_t *emu, uintptr_t fcn) { iFEpip_t fn = (iFEpip_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFEpLi(x64emu_t *emu, uintptr_t fcn) { iFEpLi_t fn = (iFEpLi_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX); }
void iFEpLp(x64emu_t *emu, uintptr_t fcn) { iFEpLp_t fn = (iFEpLp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX); }
void iFEppi(x64emu_t *emu, uintptr_t fcn) { iFEppi_t fn = (iFEppi_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void iFEppL(x64emu_t *emu, uintptr_t fcn) { iFEppL_t fn = (iFEppL_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void iFEppp(x64emu_t *emu, uintptr_t fcn) { iFEppp_t fn = (iFEppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFEppV(x64emu_t *emu, uintptr_t fcn) { iFEppV_t fn = (iFEppV_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)(R_RSP + 8)); }
void iFEppA(x64emu_t *emu, uintptr_t fcn) { iFEppA_t fn = (iFEppA_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFEpOu(x64emu_t *emu, uintptr_t fcn) { iFEpOu_t fn = (iFEpOu_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, of_convert((int32_t)R_RSI), (uint32_t)R_RDX); }
void iFiiip(x64emu_t *emu, uintptr_t fcn) { iFiiip_t fn = (iFiiip_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void iFiiiN(x64emu_t *emu, uintptr_t fcn) { iFiiiN_t fn = (iFiiiN_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void iFiill(x64emu_t *emu, uintptr_t fcn) { iFiill_t fn = (iFiill_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (intptr_t)R_RDX, (intptr_t)R_RCX); }
void iFiipp(x64emu_t *emu, uintptr_t fcn) { iFiipp_t fn = (iFiipp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFiupp(x64emu_t *emu, uintptr_t fcn) { iFiupp_t fn = (iFiupp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uint32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFilli(x64emu_t *emu, uintptr_t fcn) { iFilli_t fn = (iFilli_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (intptr_t)R_RSI, (intptr_t)R_RDX, (int32_t)R_RCX); }
void iFillu(x64emu_t *emu, uintptr_t fcn) { iFillu_t fn = (iFillu_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (intptr_t)R_RSI, (intptr_t)R_RDX, (uint32_t)R_RCX); }
void iFipii(x64emu_t *emu, uintptr_t fcn) { iFipii_t fn = (iFipii_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void iFipip(x64emu_t *emu, uintptr_t fcn) { iFipip_t fn = (iFipip_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void iFipui(x64emu_t *emu, uintptr_t fcn) { iFipui_t fn = (iFipui_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX, (int32_t)R_RCX); }
void iFipuL(x64emu_t *emu, uintptr_t fcn) { iFipuL_t fn = (iFipuL_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX, (uintptr_t)R_RCX); }
void iFipLi(x64emu_t *emu, uintptr_t fcn) { iFipLi_t fn = (iFipLi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (int32_t)R_RCX); }
void iFipLu(x64emu_t *emu, uintptr_t fcn) { iFipLu_t fn = (iFipLu_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uint32_t)R_RCX); }
void iFipLp(x64emu_t *emu, uintptr_t fcn) { iFipLp_t fn = (iFipLp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
void iFippi(x64emu_t *emu, uintptr_t fcn) { iFippi_t fn = (iFippi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void iFippL(x64emu_t *emu, uintptr_t fcn) { iFippL_t fn = (iFippL_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void iFipON(x64emu_t *emu, uintptr_t fcn) { iFipON_t fn = (iFipON_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, of_convert((int32_t)R_RDX), (void*)R_RCX); }
void iFuipp(x64emu_t *emu, uintptr_t fcn) { iFuipp_t fn = (iFuipp_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFuupi(x64emu_t *emu, uintptr_t fcn) { iFuupi_t fn = (iFuupi_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (uint32_t)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void iFupLp(x64emu_t *emu, uintptr_t fcn) { iFupLp_t fn = (iFupLp_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
void iFpiip(x64emu_t *emu, uintptr_t fcn) { iFpiip_t fn = (iFpiip_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void iFpipi(x64emu_t *emu, uintptr_t fcn) { iFpipi_t fn = (iFpipi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void iFpipu(x64emu_t *emu, uintptr_t fcn) { iFpipu_t fn = (iFpipu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (uint32_t)R_RCX); }
void iFpipp(x64emu_t *emu, uintptr_t fcn) { iFpipp_t fn = (iFpipp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFpuiL(x64emu_t *emu, uintptr_t fcn) { iFpuiL_t fn = (iFpuiL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX, (uintptr_t)R_RCX); }
void iFpupp(x64emu_t *emu, uintptr_t fcn) { iFpupp_t fn = (iFpupp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFpLii(x64emu_t *emu, uintptr_t fcn) { iFpLii_t fn = (iFpLii_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void iFpLLu(x64emu_t *emu, uintptr_t fcn) { iFpLLu_t fn = (iFpLLu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (uint32_t)R_RCX); }
void iFpLpf(x64emu_t *emu, uintptr_t fcn) { iFpLpf_t fn = (iFpLpf_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, emu->xmm[0].f[0]); }
void iFpLpd(x64emu_t *emu, uintptr_t fcn) { iFpLpd_t fn = (iFpLpd_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, emu->xmm[0].d[0]); }
void iFpLpD(x64emu_t *emu, uintptr_t fcn) { iFpLpD_t fn = (iFpLpD_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, LD2localLD((void*)(R_RSP + 8))); }
void iFpLpL(x64emu_t *emu, uintptr_t fcn) { iFpLpL_t fn = (iFpLpL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void iFpLpp(x64emu_t *emu, uintptr_t fcn) { iFpLpp_t fn = (iFpLpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFppii(x64emu_t *emu, uintptr_t fcn) { iFppii_t fn = (iFppii_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void iFppiL(x64emu_t *emu, uintptr_t fcn) { iFppiL_t fn = (iFppiL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (uintptr_t)R_RCX); }
void iFppLp(x64emu_t *emu, uintptr_t fcn) { iFppLp_t fn = (iFppLp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
void iFpppi(x64emu_t *emu, uintptr_t fcn) { iFpppi_t fn = (iFpppi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void iFpppL(x64emu_t *emu, uintptr_t fcn) { iFpppL_t fn = (iFpppL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void iFpppp(x64emu_t *emu, uintptr_t fcn) { iFpppp_t fn = (iFpppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void IFipUI(x64emu_t *emu, uintptr_t fcn) { IFipUI_t fn = (IFipUI_t)fcn; R_RAX=(int64_t)fn((int32_t)R_RDI, (void*)R_RSI, (uint64_t)R_RDX, (int64_t)R_RCX); }
void IFipUp(x64emu_t *emu, uintptr_t fcn) { IFipUp_t fn = (IFipUp_t)fcn; R_RAX=(int64_t)fn((int32_t)R_RDI, (void*)R_RSI, (uint64_t)R_RDX, (void*)R_RCX); }
void IFppii(x64emu_t *emu, uintptr_t fcn) { IFppii_t fn = (IFppii_t)fcn; R_RAX=(int64_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void IFppip(x64emu_t *emu, uintptr_t fcn) { IFppip_t fn = (IFppip_t)fcn; R_RAX=(int64_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void IFSIii(x64emu_t *emu, uintptr_t fcn) { IFSIii_t fn = (IFSIii_t)fcn; R_RAX=(int64_t)fn(io_convert((void*)R_RDI), (int64_t)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void UFppii(x64emu_t *emu, uintptr_t fcn) { UFppii_t fn = (UFppii_t)fcn; R_RAX=fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void UFppip(x64emu_t *emu, uintptr_t fcn) { UFppip_t fn = (UFppip_t)fcn; R_RAX=fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void lFEipV(x64emu_t *emu, uintptr_t fcn) { lFEipV_t fn = (lFEipV_t)fcn; R_RAX=(intptr_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)(R_RSP + 8)); }
void lFEppL(x64emu_t *emu, uintptr_t fcn) { lFEppL_t fn = (lFEppL_t)fcn; R_RAX=(intptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void lFiiLu(x64emu_t *emu, uintptr_t fcn) { lFiiLu_t fn = (lFiiLu_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (uintptr_t)R_RDX, (uint32_t)R_RCX); }
void lFiipL(x64emu_t *emu, uintptr_t fcn) { lFiipL_t fn = (lFiipL_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void lFipil(x64emu_t *emu, uintptr_t fcn) { lFipil_t fn = (lFipil_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (intptr_t)R_RCX); }
void lFipLi(x64emu_t *emu, uintptr_t fcn) { lFipLi_t fn = (lFipLi_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (int32_t)R_RCX); }
void lFipLI(x64emu_t *emu, uintptr_t fcn) { lFipLI_t fn = (lFipLI_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (int64_t)R_RCX); }
void lFipLu(x64emu_t *emu, uintptr_t fcn) { lFipLu_t fn = (lFipLu_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uint32_t)R_RCX); }
void lFipLl(x64emu_t *emu, uintptr_t fcn) { lFipLl_t fn = (lFipLl_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (intptr_t)R_RCX); }
void lFipLL(x64emu_t *emu, uintptr_t fcn) { lFipLL_t fn = (lFipLL_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX); }
void lFipLp(x64emu_t *emu, uintptr_t fcn) { lFipLp_t fn = (lFipLp_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
void lFippL(x64emu_t *emu, uintptr_t fcn) { lFippL_t fn = (lFippL_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void lFppii(x64emu_t *emu, uintptr_t fcn) { lFppii_t fn = (lFppii_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void lFppip(x64emu_t *emu, uintptr_t fcn) { lFppip_t fn = (lFppip_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void lFpppL(x64emu_t *emu, uintptr_t fcn) { lFpppL_t fn = (lFpppL_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void LFEppL(x64emu_t *emu, uintptr_t fcn) { LFEppL_t fn = (LFEppL_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); }
void LFipLL(x64emu_t *emu, uintptr_t fcn) { LFipLL_t fn = (LFipLL_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX); }
void LFippL(x64emu_t *emu, uintptr_t fcn) { LFippL_t fn = (LFippL_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void LFpupL(x64emu_t *emu, uintptr_t fcn) { LFpupL_t fn = (LFpupL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void LFpLLp(x64emu_t *emu, uintptr_t fcn) { LFpLLp_t fn = (LFpLLp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
void LFpLpp(x64emu_t *emu, uintptr_t fcn) { LFpLpp_t fn = (LFpLpp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void LFppii(x64emu_t *emu, uintptr_t fcn) { LFppii_t fn = (LFppii_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void LFppip(x64emu_t *emu, uintptr_t fcn) { LFppip_t fn = (LFppip_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void LFppLL(x64emu_t *emu, uintptr_t fcn) { LFppLL_t fn = (LFppLL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX); }
void LFppLp(x64emu_t *emu, uintptr_t fcn) { LFppLp_t fn = (LFppLp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
void pFEpip(x64emu_t *emu, uintptr_t fcn) { pFEpip_t fn = (pFEpip_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void pFEppi(x64emu_t *emu, uintptr_t fcn) { pFEppi_t fn = (pFEppi_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX); }
void pFEppp(x64emu_t *emu, uintptr_t fcn) { pFEppp_t fn = (pFEppp_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void pFEppV(x64emu_t *emu, uintptr_t fcn) { pFEppV_t fn = (pFEppV_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)(R_RSP + 8)); }
void pFippu(x64emu_t *emu, uintptr_t fcn) { pFippu_t fn = (pFippu_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uint32_t)R_RCX); }
void pFdipp(x64emu_t *emu, uintptr_t fcn) { pFdipp_t fn = (pFdipp_t)fcn; R_RAX=(uintptr_t)fn(emu->xmm[0].d[0], (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void pFDipp(x64emu_t *emu, uintptr_t fcn) { pFDipp_t fn = (pFDipp_t)fcn; R_RAX=(uintptr_t)fn(LD2localLD((void*)(R_RSP + 8)), (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void pFpiii(x64emu_t *emu, uintptr_t fcn) { pFpiii_t fn = (pFpiii_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void pFpiip(x64emu_t *emu, uintptr_t fcn) { pFpiip_t fn = (pFpiip_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void pFpiLL(x64emu_t *emu, uintptr_t fcn) { pFpiLL_t fn = (pFpiLL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (int32_t)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX); }
void pFpuii(x64emu_t *emu, uintptr_t fcn) { pFpuii_t fn = (pFpuii_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void pFpuLL(x64emu_t *emu, uintptr_t fcn) { pFpuLL_t fn = (pFpuLL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uint32_t)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX); }
void pFpLip(x64emu_t *emu, uintptr_t fcn) { pFpLip_t fn = (pFpLip_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void pFpLpL(x64emu_t *emu, uintptr_t fcn) { pFpLpL_t fn = (pFpLpL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void pFppiL(x64emu_t *emu, uintptr_t fcn) { pFppiL_t fn = (pFppiL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (uintptr_t)R_RCX); }
void pFppip(x64emu_t *emu, uintptr_t fcn) { pFppip_t fn = (pFppip_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void pFppLL(x64emu_t *emu, uintptr_t fcn) { pFppLL_t fn = (pFppLL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX); }
void pFpppi(x64emu_t *emu, uintptr_t fcn) { pFpppi_t fn = (pFpppi_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void pFpppL(x64emu_t *emu, uintptr_t fcn) { pFpppL_t fn = (pFpppL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void pFSppi(x64emu_t *emu, uintptr_t fcn) { pFSppi_t fn = (pFSppi_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void vWpiiu(x64emu_t *emu, uintptr_t fcn) { vWpiiu_t fn = (vWpiiu_t)fcn; fn((void*)R_RCX, (int32_t)R_RDX, (int32_t)R_R8, (uint32_t)R_R9); }
void vWpuup(x64emu_t *emu, uintptr_t fcn) { vWpuup_t fn = (vWpuup_t)fcn; fn((void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (void*)R_R9); }
void iWEpip(x64emu_t *emu, uintptr_t fcn) { iWEpip_t fn = (iWEpip_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (int32_t)R_RDX, (void*)R_R8); }
void iWEpup(x64emu_t *emu, uintptr_t fcn) { iWEpup_t fn = (iWEpup_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8); }
void iWEppu(x64emu_t *emu, uintptr_t fcn) { iWEppu_t fn = (iWEppu_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (void*)R_RDX, (uint32_t)R_R8); }
void iWEppp(x64emu_t *emu, uintptr_t fcn) { iWEppp_t fn = (iWEppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (void*)R_RDX, (void*)R_R8); }
void iWpiii(x64emu_t *emu, uintptr_t fcn) { iWpiii_t fn = (iWpiii_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (int32_t)R_R8, (int32_t)R_R9); }
void iWpiuu(x64emu_t *emu, uintptr_t fcn) { iWpiuu_t fn = (iWpiuu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9); }
void iWpuiu(x64emu_t *emu, uintptr_t fcn) { iWpuiu_t fn = (iWpuiu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (uint32_t)R_R9); }
void iWpuip(x64emu_t *emu, uintptr_t fcn) { iWpuip_t fn = (iWpuip_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (void*)R_R9); }
void iWpuup(x64emu_t *emu, uintptr_t fcn) { iWpuup_t fn = (iWpuup_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (void*)R_R9); }
void iWpupu(x64emu_t *emu, uintptr_t fcn) { iWpupu_t fn = (iWpupu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8, (uint32_t)R_R9); }
void iWpupp(x64emu_t *emu, uintptr_t fcn) { iWpupp_t fn = (iWpupp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8, (void*)R_R9); }
void iWppuu(x64emu_t *emu, uintptr_t fcn) { iWppuu_t fn = (iWppuu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9); }
void iWpppu(x64emu_t *emu, uintptr_t fcn) { iWpppu_t fn = (iWpppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (uint32_t)R_R9); }
void iWpppp(x64emu_t *emu, uintptr_t fcn) { iWpppp_t fn = (iWpppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (void*)R_R9); }
void vFEiipV(x64emu_t *emu, uintptr_t fcn) { vFEiipV_t fn = (vFEiipV_t)fcn; fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)(R_RSP + 8)); }
void vFEiipA(x64emu_t *emu, uintptr_t fcn) { vFEiipA_t fn = (vFEiipA_t)fcn; fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void vFEpLLp(x64emu_t *emu, uintptr_t fcn) { vFEpLLp_t fn = (vFEpLLp_t)fcn; fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
void iFEiipV(x64emu_t *emu, uintptr_t fcn) { iFEiipV_t fn = (iFEiipV_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)(R_RSP + 8)); }
void iFEiipA(x64emu_t *emu, uintptr_t fcn) { iFEiipA_t fn = (iFEiipA_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFEipip(x64emu_t *emu, uintptr_t fcn) { iFEipip_t fn = (iFEipip_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void iFEippi(x64emu_t *emu, uintptr_t fcn) { iFEippi_t fn = (iFEippi_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void iFEippL(x64emu_t *emu, uintptr_t fcn) { iFEippL_t fn = (iFEippL_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); }
void iFEpipp(x64emu_t *emu, uintptr_t fcn) { iFEpipp_t fn = (iFEpipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFEpipV(x64emu_t *emu, uintptr_t fcn) { iFEpipV_t fn = (iFEpipV_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)(R_RSP + 8)); }
void iFEpipA(x64emu_t *emu, uintptr_t fcn) { iFEpipA_t fn = (iFEpipA_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFEpLpV(x64emu_t *emu, uintptr_t fcn) { iFEpLpV_t fn = (iFEpLpV_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (void*)(R_RSP + 8)); }
void iFEpLpA(x64emu_t *emu, uintptr_t fcn) { iFEpLpA_t fn = (iFEpLpA_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFEppii(x64emu_t *emu, uintptr_t fcn) { iFEppii_t fn = (iFEppii_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void iFEppip(x64emu_t *emu, uintptr_t fcn) { iFEppip_t fn = (iFEppip_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void iFEppiV(x64emu_t *emu, uintptr_t fcn) { iFEppiV_t fn = (iFEppiV_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)(R_RSP + 8)); }
void iFEpppi(x64emu_t *emu, uintptr_t fcn) { iFEpppi_t fn = (iFEpppi_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (int32_t)R_RCX); }
void iFEpppp(x64emu_t *emu, uintptr_t fcn) { iFEpppp_t fn = (iFEpppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void iFiiipu(x64emu_t *emu, uintptr_t fcn) { iFiiipu_t fn = (iFiiipu_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (uint32_t)R_R8); }
void iFiiipp(x64emu_t *emu, uintptr_t fcn) { iFiiipp_t fn = (iFiiipp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFiuLip(x64emu_t *emu, uintptr_t fcn) { iFiuLip_t fn = (iFiuLip_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (uint32_t)R_RSI, (uintptr_t)R_RDX, (int32_t)R_RCX, (void*)R_R8); }
void iFipiup(x64emu_t *emu, uintptr_t fcn) { iFipiup_t fn = (iFipiup_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (uint32_t)R_RCX, (void*)R_R8); }
void iFipipi(x64emu_t *emu, uintptr_t fcn) { iFipipi_t fn = (iFipipi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void iFipipu(x64emu_t *emu, uintptr_t fcn) { iFipipu_t fn = (iFipipu_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (uint32_t)R_R8); }
void iFipuip(x64emu_t *emu, uintptr_t fcn) { iFipuip_t fn = (iFipuip_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX, (int32_t)R_RCX, (void*)R_R8); }
void iFipuui(x64emu_t *emu, uintptr_t fcn) { iFipuui_t fn = (iFipuui_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX, (uint32_t)R_RCX, (int32_t)R_R8); }
void iFipLup(x64emu_t *emu, uintptr_t fcn) { iFipLup_t fn = (iFipLup_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uint32_t)R_RCX, (void*)R_R8); }
void iFippLi(x64emu_t *emu, uintptr_t fcn) { iFippLi_t fn = (iFippLi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (int32_t)R_R8); }
void iFippLp(x64emu_t *emu, uintptr_t fcn) { iFippLp_t fn = (iFippLp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (void*)R_R8); }
void iFipppi(x64emu_t *emu, uintptr_t fcn) { iFipppi_t fn = (iFipppi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void iFipppp(x64emu_t *emu, uintptr_t fcn) { iFipppp_t fn = (iFipppp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFuppLp(x64emu_t *emu, uintptr_t fcn) { iFuppLp_t fn = (iFuppLp_t)fcn; R_RAX=(int32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (void*)R_R8); }
void iFpiipi(x64emu_t *emu, uintptr_t fcn) { iFpiipi_t fn = (iFpiipi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void iFpiipp(x64emu_t *emu, uintptr_t fcn) { iFpiipp_t fn = (iFpiipp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFpipiu(x64emu_t *emu, uintptr_t fcn) { iFpipiu_t fn = (iFpipiu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (int32_t)R_RCX, (uint32_t)R_R8); }
void iFpippW(x64emu_t *emu, uintptr_t fcn) { iFpippW_t fn = (iFpippW_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (uint16_t)R_R8); }
void iFpuppL(x64emu_t *emu, uintptr_t fcn) { iFpuppL_t fn = (iFpuppL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8); }
void iFpLiLi(x64emu_t *emu, uintptr_t fcn) { iFpLiLi_t fn = (iFpLiLi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX, (uintptr_t)R_RCX, (int32_t)R_R8); }
void iFpLLpp(x64emu_t *emu, uintptr_t fcn) { iFpLLpp_t fn = (iFpLLpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFppipp(x64emu_t *emu, uintptr_t fcn) { iFppipp_t fn = (iFppipp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFppLpi(x64emu_t *emu, uintptr_t fcn) { iFppLpi_t fn = (iFppLpi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void iFppLpp(x64emu_t *emu, uintptr_t fcn) { iFppLpp_t fn = (iFppLpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFpppLi(x64emu_t *emu, uintptr_t fcn) { iFpppLi_t fn = (iFpppLi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (int32_t)R_R8); }
void iFpppLp(x64emu_t *emu, uintptr_t fcn) { iFpppLp_t fn = (iFpppLp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (void*)R_R8); }
void iFppppi(x64emu_t *emu, uintptr_t fcn) { iFppppi_t fn = (iFppppi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void iFppppL(x64emu_t *emu, uintptr_t fcn) { iFppppL_t fn = (iFppppL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8); }
void iFppppp(x64emu_t *emu, uintptr_t fcn) { iFppppp_t fn = (iFppppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8); }
void lFEuipp(x64emu_t *emu, uintptr_t fcn) { lFEuipp_t fn = (lFEuipp_t)fcn; R_RAX=(intptr_t)fn(emu, (uint32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
void lFipili(x64emu_t *emu, uintptr_t fcn) { lFipili_t fn = (lFipili_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (intptr_t)R_RCX, (int32_t)R_R8); }
void lFipLli(x64emu_t *emu, uintptr_t fcn) { lFipLli_t fn = (lFipLli_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (intptr_t)R_RCX, (int32_t)R_R8); }
void lFipLlL(x64emu_t *emu, uintptr_t fcn) { lFipLlL_t fn = (lFipLlL_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (intptr_t)R_RCX, (uintptr_t)R_R8); }
void lFipLLi(x64emu_t *emu, uintptr_t fcn) { lFipLLi_t fn = (lFipLLi_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX, (int32_t)R_R8); }
void lFipLpp(x64emu_t *emu, uintptr_t fcn) { lFipLpp_t fn = (lFipLpp_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX, (void*)R_R8); }
void lFppllp(x64emu_t *emu, uintptr_t fcn) { lFppllp_t fn = (lFppllp_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (intptr_t)R_RDX, (intptr_t)R_RCX, (void*)R_R8); }
void LFpLLLp(x64emu_t *emu, uintptr_t fcn) { LFpLLLp_t fn = (LFpLLLp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX, (void*)R_R8); }
void LFpLppL(x64emu_t *emu, uintptr_t fcn) { LFpLppL_t fn = (LFpLppL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8); }
void LFpLppp(x64emu_t *emu, uintptr_t fcn) { LFpLppp_t fn = (LFpLppp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8); }
void LFppLLp(x64emu_t *emu, uintptr_t fcn) { LFppLLp_t fn = (LFppLLp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX, (void*)R_R8); }
void LFppLpL(x64emu_t *emu, uintptr_t fcn) { LFppLpL_t fn = (LFppLpL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX, (uintptr_t)R_R8); }
void LFppppp(x64emu_t *emu, uintptr_t fcn) { LFppppp_t fn = (LFppppp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8); }
void pFipipL(x64emu_t *emu, uintptr_t fcn) { pFipipL_t fn = (pFipipL_t)fcn; R_RAX=(uintptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (uintptr_t)R_R8); }
void pFppipi(x64emu_t *emu, uintptr_t fcn) { pFppipi_t fn = (pFppipi_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void pFpppLi(x64emu_t *emu, uintptr_t fcn) { pFpppLi_t fn = (pFpppLi_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (int32_t)R_R8); }
void iWEpiup(x64emu_t *emu, uintptr_t fcn) { iWEpiup_t fn = (iWEpiup_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (int32_t)R_RDX, (uint32_t)R_R8, (void*)R_R9); }
void iWEpipp(x64emu_t *emu, uintptr_t fcn) { iWEpipp_t fn = (iWEpipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (int32_t)R_RDX, (void*)R_R8, (void*)R_R9); }
void iWpiiii(x64emu_t *emu, uintptr_t fcn) { iWpiiii_t fn = (iWpiiii_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (int32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40)); }
void iWpiupu(x64emu_t *emu, uintptr_t fcn) { iWpiupu_t fn = (iWpiupu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (uint32_t)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40)); }
void iWpuiii(x64emu_t *emu, uintptr_t fcn) { iWpuiii_t fn = (iWpuiii_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40)); }
void iWpuiup(x64emu_t *emu, uintptr_t fcn) { iWpuiup_t fn = (iWpuiup_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (uint32_t)R_R9, *(void**)(R_RSP + 40)); }
void iWpuupu(x64emu_t *emu, uintptr_t fcn) { iWpuupu_t fn = (iWpuupu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40)); }
void iWpuupp(x64emu_t *emu, uintptr_t fcn) { iWpuupp_t fn = (iWpuupp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (void*)R_R9, *(void**)(R_RSP + 40)); }
void iWpupuu(x64emu_t *emu, uintptr_t fcn) { iWpupuu_t fn = (iWpupuu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40)); }
void iWpupup(x64emu_t *emu, uintptr_t fcn) { iWpupup_t fn = (iWpupup_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8, (uint32_t)R_R9, *(void**)(R_RSP + 40)); }
void iWpuppu(x64emu_t *emu, uintptr_t fcn) { iWpuppu_t fn = (iWpuppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40)); }
void iWpuppp(x64emu_t *emu, uintptr_t fcn) { iWpuppp_t fn = (iWpuppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 40)); }
void iWpppuu(x64emu_t *emu, uintptr_t fcn) { iWpppuu_t fn = (iWpppuu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40)); }
void iWpppup(x64emu_t *emu, uintptr_t fcn) { iWpppup_t fn = (iWpppup_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (uint32_t)R_R9, *(void**)(R_RSP + 40)); }
void iWppppp(x64emu_t *emu, uintptr_t fcn) { iWppppp_t fn = (iWppppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 40)); }
void vFEpLLpp(x64emu_t *emu, uintptr_t fcn) { vFEpLLpp_t fn = (vFEpLLpp_t)fcn; fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFEiippi(x64emu_t *emu, uintptr_t fcn) { iFEiippi_t fn = (iFEiippi_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void iFEiLLLL(x64emu_t *emu, uintptr_t fcn) { iFEiLLLL_t fn = (iFEiLLLL_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX, (uintptr_t)R_R8); }
void iFEpilpV(x64emu_t *emu, uintptr_t fcn) { iFEpilpV_t fn = (iFEpilpV_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI, (intptr_t)R_RDX, (void*)R_RCX, (void*)(R_RSP + 8)); }
void iFEpuppp(x64emu_t *emu, uintptr_t fcn) { iFEpuppp_t fn = (iFEpuppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8); }
void iFipppLp(x64emu_t *emu, uintptr_t fcn) { iFipppLp_t fn = (iFipppLp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8, (void*)R_R9); }
void iFippppp(x64emu_t *emu, uintptr_t fcn) { iFippppp_t fn = (iFippppp_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFdipppL(x64emu_t *emu, uintptr_t fcn) { iFdipppL_t fn = (iFdipppL_t)fcn; R_RAX=(int32_t)fn(emu->xmm[0].d[0], (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8); }
void iFDipppL(x64emu_t *emu, uintptr_t fcn) { iFDipppL_t fn = (iFDipppL_t)fcn; R_RAX=(int32_t)fn(LD2localLD((void*)(R_RSP + 8)), (int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8); }
void iFlpippp(x64emu_t *emu, uintptr_t fcn) { iFlpippp_t fn = (iFlpippp_t)fcn; R_RAX=(int32_t)fn((intptr_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFpipppp(x64emu_t *emu, uintptr_t fcn) { iFpipppp_t fn = (iFpipppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFpWpppp(x64emu_t *emu, uintptr_t fcn) { iFpWpppp_t fn = (iFpWpppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint16_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFpuiCpp(x64emu_t *emu, uintptr_t fcn) { iFpuiCpp_t fn = (iFpuiCpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX, (uint8_t)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFpuippp(x64emu_t *emu, uintptr_t fcn) { iFpuippp_t fn = (iFpuippp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFppiipi(x64emu_t *emu, uintptr_t fcn) { iFppiipi_t fn = (iFppiipi_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX, (void*)R_R8, (int32_t)R_R9); }
void iFpppLpp(x64emu_t *emu, uintptr_t fcn) { iFpppLpp_t fn = (iFpppLpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFppppLp(x64emu_t *emu, uintptr_t fcn) { iFppppLp_t fn = (iFppppLp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8, (void*)R_R9); }
void lFipipLu(x64emu_t *emu, uintptr_t fcn) { lFipipLu_t fn = (lFipipLu_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (uintptr_t)R_R8, (uint32_t)R_R9); }
void lFipLipu(x64emu_t *emu, uintptr_t fcn) { lFipLipu_t fn = (lFipLipu_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (int32_t)R_RCX, (void*)R_R8, (uint32_t)R_R9); }
void lFipLipp(x64emu_t *emu, uintptr_t fcn) { lFipLipp_t fn = (lFipLipp_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (int32_t)R_RCX, (void*)R_R8, (void*)R_R9); }
void lFipLpLL(x64emu_t *emu, uintptr_t fcn) { lFipLpLL_t fn = (lFipLpLL_t)fcn; R_RAX=(intptr_t)fn((int32_t)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX, (uintptr_t)R_R8, (uintptr_t)R_R9); }
void lFpplllp(x64emu_t *emu, uintptr_t fcn) { lFpplllp_t fn = (lFpplllp_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (void*)R_RSI, (intptr_t)R_RDX, (intptr_t)R_RCX, (intptr_t)R_R8, (void*)R_R9); }
void LFppLLpL(x64emu_t *emu, uintptr_t fcn) { LFppLLpL_t fn = (LFppLLpL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX, (void*)R_R8, (uintptr_t)R_R9); }
void LFSpLiip(x64emu_t *emu, uintptr_t fcn) { LFSpLiip_t fn = (LFSpLiip_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (uintptr_t)R_RDX, (int32_t)R_RCX, (int32_t)R_R8, (void*)R_R9); }
void pFEpLLiN(x64emu_t *emu, uintptr_t fcn) { pFEpLLiN_t fn = (pFEpLLiN_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (int32_t)R_RCX, (void*)R_R8); }
void pFEppLLp(x64emu_t *emu, uintptr_t fcn) { pFEppLLp_t fn = (pFEppLLp_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX, (uintptr_t)R_RCX, (void*)R_R8); }
void pFEpppLp(x64emu_t *emu, uintptr_t fcn) { pFEpppLp_t fn = (pFEpppLp_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX, (void*)R_R8); }
void pFSpiiii(x64emu_t *emu, uintptr_t fcn) { pFSpiiii_t fn = (pFSpiiii_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX, (int32_t)R_R8, (int32_t)R_R9); }
void iWEpuuip(x64emu_t *emu, uintptr_t fcn) { iWEpuuip_t fn = (iWEpuuip_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (int32_t)R_R9, *(void**)(R_RSP + 40)); }
void iWEppppp(x64emu_t *emu, uintptr_t fcn) { iWEppppp_t fn = (iWEppppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (void*)R_RDX, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 40)); }
void iWpiiiip(x64emu_t *emu, uintptr_t fcn) { iWpiiiip_t fn = (iWpiiiip_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (int32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40), *(void**)(R_RSP + 48)); }
void iWpiiuii(x64emu_t *emu, uintptr_t fcn) { iWpiiuii_t fn = (iWpiiuii_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (int32_t)R_R8, (uint32_t)R_R9, *(int32_t*)(R_RSP + 40), *(int32_t*)(R_RSP + 48)); }
void iWpiuppu(x64emu_t *emu, uintptr_t fcn) { iWpiuppu_t fn = (iWpiuppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (uint32_t)R_R8, (void*)R_R9, *(void**)(R_RSP + 40), *(uint32_t*)(R_RSP + 48)); }
void iWpuiiii(x64emu_t *emu, uintptr_t fcn) { iWpuiiii_t fn = (iWpuiiii_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40), *(int32_t*)(R_RSP + 48)); }
void iWpppppi(x64emu_t *emu, uintptr_t fcn) { iWpppppi_t fn = (iWpppppi_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 40), *(int32_t*)(R_RSP + 48)); }
void iWpppppu(x64emu_t *emu, uintptr_t fcn) { iWpppppu_t fn = (iWpppppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 40), *(uint32_t*)(R_RSP + 48)); }
void iFEpLiLpp(x64emu_t *emu, uintptr_t fcn) { iFEpLiLpp_t fn = (iFEpLiLpp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX, (uintptr_t)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFEpLiLpV(x64emu_t *emu, uintptr_t fcn) { iFEpLiLpV_t fn = (iFEpLiLpV_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX, (uintptr_t)R_RCX, (void*)R_R8, (void*)(R_RSP + 8)); }
void iFEpppppp(x64emu_t *emu, uintptr_t fcn) { iFEpppppp_t fn = (iFEpppppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFpippLpp(x64emu_t *emu, uintptr_t fcn) { iFpippLpp_t fn = (iFpippLpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (uintptr_t)R_R8, (void*)R_R9, *(void**)(R_RSP + 8)); }
void iFpippppW(x64emu_t *emu, uintptr_t fcn) { iFpippppW_t fn = (iFpippppW_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9, *(uint16_t*)(R_RSP + 8)); }
void iFpWppppW(x64emu_t *emu, uintptr_t fcn) { iFpWppppW_t fn = (iFpWppppW_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint16_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9, *(uint16_t*)(R_RSP + 8)); }
void iFpuiCuCp(x64emu_t *emu, uintptr_t fcn) { iFpuiCuCp_t fn = (iFpuiCuCp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX, (uint8_t)R_RCX, (uint32_t)R_R8, (uint8_t)R_R9, *(void**)(R_RSP + 8)); }
void iFpupupui(x64emu_t *emu, uintptr_t fcn) { iFpupupui_t fn = (iFpupupui_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX, (uint32_t)R_RCX, (void*)R_R8, (uint32_t)R_R9, *(int32_t*)(R_RSP + 8)); }
void pFEpLiiil(x64emu_t *emu, uintptr_t fcn) { pFEpLiiil_t fn = (pFEpLiiil_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX, (int32_t)R_R8, (intptr_t)R_R9); }
void iWpiiuuuu(x64emu_t *emu, uintptr_t fcn) { iWpiiuuuu_t fn = (iWpiiuuuu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (int32_t)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40), *(uint32_t*)(R_RSP + 48), *(uint32_t*)(R_RSP + 56)); }
void iWpuiiiip(x64emu_t *emu, uintptr_t fcn) { iWpuiiiip_t fn = (iWpuiiiip_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40), *(int32_t*)(R_RSP + 48), *(void**)(R_RSP + 56)); }
void iWpuiiuii(x64emu_t *emu, uintptr_t fcn) { iWpuiiuii_t fn = (iWpuiiuii_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (int32_t)R_R9, *(uint32_t*)(R_RSP + 40), *(int32_t*)(R_RSP + 48), *(int32_t*)(R_RSP + 56)); }
void iWpuipupp(x64emu_t *emu, uintptr_t fcn) { iWpuipupp_t fn = (iWpuipupp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56)); }
void iWpuuuppu(x64emu_t *emu, uintptr_t fcn) { iWpuuuppu_t fn = (iWpuuuppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9, *(void**)(R_RSP + 40), *(void**)(R_RSP + 48), *(uint32_t*)(R_RSP + 56)); }
void iWpupuufu(x64emu_t *emu, uintptr_t fcn) { iWpupuufu_t fn = (iWpupuufu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (void*)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40), *(float*)(R_RSP + 48), *(uint32_t*)(R_RSP + 56)); }
void iWpppuppp(x64emu_t *emu, uintptr_t fcn) { iWpppuppp_t fn = (iWpppuppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (uint32_t)R_R9, *(void**)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56)); }
void iFEpippppp(x64emu_t *emu, uintptr_t fcn) { iFEpippppp_t fn = (iFEpippppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 8)); }
void iFEppipppp(x64emu_t *emu, uintptr_t fcn) { iFEppipppp_t fn = (iFEppipppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 8)); }
void iFpuippLpp(x64emu_t *emu, uintptr_t fcn) { iFpuippLpp_t fn = (iFpuippLpp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX, (void*)R_R8, (uintptr_t)R_R9, *(void**)(R_RSP + 8), *(void**)(R_RSP + 16)); }
void iWEpuuiipp(x64emu_t *emu, uintptr_t fcn) { iWEpuuiipp_t fn = (iWEpuuiipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56)); }
void iWEpuuuipp(x64emu_t *emu, uintptr_t fcn) { iWEpuuuipp_t fn = (iWEpuuuipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9, *(int32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56)); }
void iWpuipuppp(x64emu_t *emu, uintptr_t fcn) { iWpuipuppp_t fn = (iWpuipuppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56), *(void**)(R_RSP + 64)); }
void iFipiipippi(x64emu_t *emu, uintptr_t fcn) { iFipiipippi_t fn = (iFipiipippi_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX, (void*)R_R8, (int32_t)R_R9, *(void**)(R_RSP + 8), *(void**)(R_RSP + 16), *(int32_t*)(R_RSP + 24)); }
void iWEpuuiippu(x64emu_t *emu, uintptr_t fcn) { iWEpuuiippu_t fn = (iWEpuuiippu_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56), *(uint32_t*)(R_RSP + 64)); }
void iWEpuuuiipp(x64emu_t *emu, uintptr_t fcn) { iWEpuuuiipp_t fn = (iWEpuuuiipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9, *(int32_t*)(R_RSP + 40), *(int32_t*)(R_RSP + 48), *(void**)(R_RSP + 56), *(void**)(R_RSP + 64)); }
void iWpiuuupipu(x64emu_t *emu, uintptr_t fcn) { iWpiuuupipu_t fn = (iWpiuuupipu_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (int32_t)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(int32_t*)(R_RSP + 56), *(void**)(R_RSP + 64), *(uint32_t*)(R_RSP + 72)); }
void iWpuiuuipip(x64emu_t *emu, uintptr_t fcn) { iWpuiuuipip_t fn = (iWpuiuuipip_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40), *(int32_t*)(R_RSP + 48), *(void**)(R_RSP + 56), *(int32_t*)(R_RSP + 64), *(void**)(R_RSP + 72)); }
void iWppppupiii(x64emu_t *emu, uintptr_t fcn) { iWppppupiii_t fn = (iWppppupiii_t)fcn; R_RAX=(int32_t)fn((void*)R_RCX, (void*)R_RDX, (void*)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(int32_t*)(R_RSP + 56), *(int32_t*)(R_RSP + 64), *(int32_t*)(R_RSP + 72)); }
void lFpLppdddddd(x64emu_t *emu, uintptr_t fcn) { lFpLppdddddd_t fn = (lFpLppdddddd_t)fcn; R_RAX=(intptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (void*)R_RDX, (void*)R_RCX, emu->xmm[0].d[0], emu->xmm[1].d[0], emu->xmm[2].d[0], emu->xmm[3].d[0], emu->xmm[4].d[0], emu->xmm[5].d[0]); }
void iWEpuipupppp(x64emu_t *emu, uintptr_t fcn) { iWEpuipupppp_t fn = (iWEpuipupppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56), *(void**)(R_RSP + 64), *(void**)(R_RSP + 72)); }
void iWEpuuiiuipp(x64emu_t *emu, uintptr_t fcn) { iWEpuuiiuipp_t fn = (iWEpuuiiuipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40), *(uint32_t*)(R_RSP + 48), *(int32_t*)(R_RSP + 56), *(void**)(R_RSP + 64), *(void**)(R_RSP + 72)); }
void iWEpuuuuiipp(x64emu_t *emu, uintptr_t fcn) { iWEpuuuuiipp_t fn = (iWEpuuuuiipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40), *(int32_t*)(R_RSP + 48), *(int32_t*)(R_RSP + 56), *(void**)(R_RSP + 64), *(void**)(R_RSP + 72)); }
void iWEpuipuppppp(x64emu_t *emu, uintptr_t fcn) { iWEpuipuppppp_t fn = (iWEpuipuppppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (int32_t)R_R8, (void*)R_R9, *(uint32_t*)(R_RSP + 40), *(void**)(R_RSP + 48), *(void**)(R_RSP + 56), *(void**)(R_RSP + 64), *(void**)(R_RSP + 72), *(void**)(R_RSP + 80)); }
void iWEpuuiiuippu(x64emu_t *emu, uintptr_t fcn) { iWEpuuiiuippu_t fn = (iWEpuuiiuippu_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (int32_t)R_R9, *(int32_t*)(R_RSP + 40), *(uint32_t*)(R_RSP + 48), *(int32_t*)(R_RSP + 56), *(void**)(R_RSP + 64), *(void**)(R_RSP + 72), *(uint32_t*)(R_RSP + 80)); }
void iWEpuuuuuiipp(x64emu_t *emu, uintptr_t fcn) { iWEpuuuuuiipp_t fn = (iWEpuuuuuiipp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RCX, (uint32_t)R_RDX, (uint32_t)R_R8, (uint32_t)R_R9, *(uint32_t*)(R_RSP + 40), *(uint32_t*)(R_RSP + 48), *(int32_t*)(R_RSP + 56), *(int32_t*)(R_RSP + 64), *(void**)(R_RSP + 72), *(void**)(R_RSP + 80)); }

#if defined(HAVE_LD80BITS)
void DFD(x64emu_t *emu, uintptr_t fcn) { DFD_t fn = (DFD_t)fcn; long double ld=fn(LD2localLD((void*)(R_RSP + 8))); fpu_do_push(emu); ST0val = ld; }
void DFY(x64emu_t *emu, uintptr_t fcn) { DFY_t fn = (DFY_t)fcn; long double ld=fn(to_complexl(emu, R_RSP + 8)); fpu_do_push(emu); ST0val = ld; }
void lFD(x64emu_t *emu, uintptr_t fcn) { lFD_t fn = (lFD_t)fcn; R_RAX=(intptr_t)fn(LD2localLD((void*)(R_RSP + 8))); }
void YFY(x64emu_t *emu, uintptr_t fcn) { YFY_t fn = (YFY_t)fcn; from_complexl(emu, fn(to_complexl(emu, R_RSP + 8))); }
void IFED(x64emu_t *emu, uintptr_t fcn) { IFED_t fn = (IFED_t)fcn; R_RAX=(int64_t)fn(emu, LD2localLD((void*)(R_RSP + 8))); }
void DFiD(x64emu_t *emu, uintptr_t fcn) { DFiD_t fn = (DFiD_t)fcn; long double ld=fn((int32_t)R_RDI, LD2localLD((void*)(R_RSP + 8))); fpu_do_push(emu); ST0val = ld; }
void lFDD(x64emu_t *emu, uintptr_t fcn) { lFDD_t fn = (lFDD_t)fcn; R_RAX=(intptr_t)fn(LD2localLD((void*)(R_RSP + 8)), LD2localLD((void*)(R_RSP + 24))); }
void YFYY(x64emu_t *emu, uintptr_t fcn) { YFYY_t fn = (YFYY_t)fcn; from_complexl(emu, fn(to_complexl(emu, R_RSP + 8), to_complexl(emu, R_RSP + 40))); }
void vFDpp(x64emu_t *emu, uintptr_t fcn) { vFDpp_t fn = (vFDpp_t)fcn; fn(LD2localLD((void*)(R_RSP + 8)), (void*)R_RDI, (void*)R_RSI); }
void DFDDD(x64emu_t *emu, uintptr_t fcn) { DFDDD_t fn = (DFDDD_t)fcn; long double ld=fn(LD2localLD((void*)(R_RSP + 8)), LD2localLD((void*)(R_RSP + 24)), LD2localLD((void*)(R_RSP + 40))); fpu_do_push(emu); ST0val = ld; }
#endif

#if !defined(HAVE_LD80BITS)
void KFK(x64emu_t *emu, uintptr_t fcn) { KFK_t fn = (KFK_t)fcn; double db=fn(FromLD((void*)(R_RSP + 8))); fpu_do_push(emu); ST0val = db; }
void KFy(x64emu_t *emu, uintptr_t fcn) { KFy_t fn = (KFy_t)fcn; double db=fn(to_complexk(emu, R_RSP + 8)); fpu_do_push(emu); ST0val = db; }
void lFK(x64emu_t *emu, uintptr_t fcn) { lFK_t fn = (lFK_t)fcn; R_RAX=(intptr_t)fn(FromLD((void*)(R_RSP + 8))); }
void yFy(x64emu_t *emu, uintptr_t fcn) { yFy_t fn = (yFy_t)fcn; from_complexk(emu, fn(to_complexk(emu, R_RSP + 8))); }
void IFEK(x64emu_t *emu, uintptr_t fcn) { IFEK_t fn = (IFEK_t)fcn; R_RAX=(int64_t)fn(emu, FromLD((void*)(R_RSP + 8))); }
void KFiK(x64emu_t *emu, uintptr_t fcn) { KFiK_t fn = (KFiK_t)fcn; double db=fn((int32_t)R_RDI, FromLD((void*)(R_RSP + 8))); fpu_do_push(emu); ST0val = db; }
void KFKK(x64emu_t *emu, uintptr_t fcn) { KFKK_t fn = (KFKK_t)fcn; double db=fn(FromLD((void*)(R_RSP + 8)), FromLD((void*)(R_RSP + 24))); fpu_do_push(emu); ST0val = db; }
void KFKp(x64emu_t *emu, uintptr_t fcn) { KFKp_t fn = (KFKp_t)fcn; double db=fn(FromLD((void*)(R_RSP + 8)), (void*)R_RDI); fpu_do_push(emu); ST0val = db; }
void lFKK(x64emu_t *emu, uintptr_t fcn) { lFKK_t fn = (lFKK_t)fcn; R_RAX=(intptr_t)fn(FromLD((void*)(R_RSP + 8)), FromLD((void*)(R_RSP + 24))); }
void yFyy(x64emu_t *emu, uintptr_t fcn) { yFyy_t fn = (yFyy_t)fcn; from_complexk(emu, fn(to_complexk(emu, R_RSP + 8), to_complexk(emu, R_RSP + 40))); }
void vFKpp(x64emu_t *emu, uintptr_t fcn) { vFKpp_t fn = (vFKpp_t)fcn; fn(FromLD((void*)(R_RSP + 8)), (void*)R_RDI, (void*)R_RSI); }
void KFKKK(x64emu_t *emu, uintptr_t fcn) { KFKKK_t fn = (KFKKK_t)fcn; double db=fn(FromLD((void*)(R_RSP + 8)), FromLD((void*)(R_RSP + 24)), FromLD((void*)(R_RSP + 40))); fpu_do_push(emu); ST0val = db; }
#endif

#if defined(NOALIGN)
void iFppu(x64emu_t *emu, uintptr_t fcn) { iFppu_t fn = (iFppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (uint32_t)R_RDX); }
void iFipiip(x64emu_t *emu, uintptr_t fcn) { iFipiip_t fn = (iFipiip_t)fcn; R_RAX=(int32_t)fn((int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX, (void*)R_R8); }
#endif

#if !defined(NOALIGN)
void iFELp(x64emu_t *emu, uintptr_t fcn) { iFELp_t fn = (iFELp_t)fcn; R_RAX=(int32_t)fn(emu, (uintptr_t)R_RDI, (void*)R_RSI); }
void iFEppu(x64emu_t *emu, uintptr_t fcn) { iFEppu_t fn = (iFEppu_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RSI, (uint32_t)R_RDX); }
void iFEiiip(x64emu_t *emu, uintptr_t fcn) { iFEiiip_t fn = (iFEiiip_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX, (void*)R_RCX); }
void iFEipii(x64emu_t *emu, uintptr_t fcn) { iFEipii_t fn = (iFEipii_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX); }
void iFEipiip(x64emu_t *emu, uintptr_t fcn) { iFEipiip_t fn = (iFEipiip_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (int32_t)R_RDX, (int32_t)R_RCX, (void*)R_R8); }
#endif

#if defined(ANDROID)
void vFEpppp(x64emu_t *emu, uintptr_t fcn) { vFEpppp_t fn = (vFEpppp_t)fcn; fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX); }
#endif

#if defined(STATICBUILD)
void pFLp(x64emu_t *emu, uintptr_t fcn) { pFLp_t fn = (pFLp_t)fcn; R_RAX=(uintptr_t)fn((uintptr_t)R_RDI, (void*)R_RSI); }
void pFpLLp(x64emu_t *emu, uintptr_t fcn) { pFpLLp_t fn = (pFpLLp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (uintptr_t)R_RSI, (uintptr_t)R_RDX, (void*)R_RCX); }
#endif

#if !defined(STATICBUILD)
void vFLL(x64emu_t *emu, uintptr_t fcn) { vFLL_t fn = (vFLL_t)fcn; fn((uintptr_t)R_RDI, (uintptr_t)R_RSI); }
void iFlip(x64emu_t *emu, uintptr_t fcn) { iFlip_t fn = (iFlip_t)fcn; R_RAX=(int32_t)fn((intptr_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFLLi(x64emu_t *emu, uintptr_t fcn) { iFLLi_t fn = (iFLLi_t)fcn; R_RAX=(int32_t)fn((uintptr_t)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX); }
void iFpup(x64emu_t *emu, uintptr_t fcn) { iFpup_t fn = (iFpup_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (uint32_t)R_RSI, (void*)R_RDX); }
void iFLLiW(x64emu_t *emu, uintptr_t fcn) { iFLLiW_t fn = (iFLLiW_t)fcn; R_RAX=(int32_t)fn((uintptr_t)R_RDI, (uintptr_t)R_RSI, (int32_t)R_RDX, (uint16_t)R_RCX); }
void iFEipup(x64emu_t *emu, uintptr_t fcn) { iFEipup_t fn = (iFEipup_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX, (void*)R_RCX); }
void iFEiipup(x64emu_t *emu, uintptr_t fcn) { iFEiipup_t fn = (iFEiipup_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (uint32_t)R_RCX, (void*)R_R8); }
void iFpipppL(x64emu_t *emu, uintptr_t fcn) { iFpipppL_t fn = (iFpipppL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, (uintptr_t)R_R9); }
#endif

void vFEv(x64emu_t *emu, uintptr_t fcn) { vFE_t fn = (vFE_t)fcn; fn(emu); }
void iFEv(x64emu_t *emu, uintptr_t fcn) { iFE_t fn = (iFE_t)fcn; R_RAX=(int32_t)fn(emu); }
void lFEv(x64emu_t *emu, uintptr_t fcn) { lFE_t fn = (lFE_t)fcn; R_RAX=(intptr_t)fn(emu); }
void pFEv(x64emu_t *emu, uintptr_t fcn) { pFE_t fn = (pFE_t)fcn; R_RAX=(uintptr_t)fn(emu); }
void iFEvpp(x64emu_t *emu, uintptr_t fcn) { iFEpp_t fn = (iFEpp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RSI, (void*)R_RDX); }
void pFEppv(x64emu_t *emu, uintptr_t fcn) { pFEpp_t fn = (pFEpp_t)fcn; R_RAX=(uintptr_t)fn(emu, (void*)R_RDI, (void*)R_RSI); }
void iFEpvpp(x64emu_t *emu, uintptr_t fcn) { iFEppp_t fn = (iFEppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RDX, (void*)R_RCX); }
void iFEpvvppp(x64emu_t *emu, uintptr_t fcn) { iFEpppp_t fn = (iFEpppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (void*)R_RCX, (void*)R_R8, (void*)R_R9); }
void iFEpuvvppp(x64emu_t *emu, uintptr_t fcn) { iFEpuppp_t fn = (iFEpuppp_t)fcn; R_RAX=(int32_t)fn(emu, (void*)R_RDI, (uint32_t)R_RSI, (void*)R_R8, (void*)R_R9, *(void**)(R_RSP + 8)); }

#if defined(ARM64)
int isSimpleWrapper(wrapper_t fun) {
	if (fun == &vFv) return 1;
	if (fun == &vFi) return 1;
	if (fun == &vFu) return 1;
	if (fun == &vFl) return 1;
	if (fun == &vFp) return 1;
	if (fun == &iFv) return 1;
	if (fun == &iFi) return 1;
	if (fun == &iFI) return 1;
	if (fun == &iFu) return 1;
	if (fun == &iFU) return 1;
	if (fun == &iFf) return 2;
	if (fun == &iFd) return 2;
	if (fun == &iFl) return 1;
	if (fun == &iFL) return 1;
	if (fun == &iFp) return 1;
	if (fun == &IFv) return 1;
	if (fun == &IFI) return 1;
	if (fun == &IFf) return 2;
	if (fun == &IFd) return 2;
	if (fun == &IFp) return 1;
	if (fun == &WFW) return 1;
	if (fun == &uFv) return 1;
	if (fun == &uFi) return 1;
	if (fun == &uFu) return 1;
	if (fun == &uFL) return 1;
	if (fun == &uFp) return 1;
	if (fun == &fFf) return -2;
	if (fun == &fFp) return -1;
	if (fun == &dFv) return -1;
	if (fun == &dFd) return -2;
	if (fun == &dFp) return -1;
	if (fun == &lFv) return 1;
	if (fun == &lFl) return 1;
	if (fun == &lFp) return 1;
	if (fun == &LFv) return 1;
	if (fun == &LFL) return 1;
	if (fun == &LFp) return 1;
	if (fun == &pFv) return 1;
	if (fun == &pFi) return 1;
	if (fun == &pFu) return 1;
	if (fun == &pFl) return 1;
	if (fun == &pFL) return 1;
	if (fun == &pFp) return 1;
	if (fun == &vFip) return 1;
	if (fun == &vFWp) return 1;
	if (fun == &vFup) return 1;
	if (fun == &vFLp) return 1;
	if (fun == &vFpi) return 1;
	if (fun == &vFpl) return 1;
	if (fun == &vFpL) return 1;
	if (fun == &vFpp) return 1;
	if (fun == &iFii) return 1;
	if (fun == &iFiI) return 1;
	if (fun == &iFiu) return 1;
	if (fun == &iFil) return 1;
	if (fun == &iFiL) return 1;
	if (fun == &iFip) return 1;
	if (fun == &iFui) return 1;
	if (fun == &iFuu) return 1;
	if (fun == &iFuL) return 1;
	if (fun == &iFup) return 1;
	if (fun == &iFlp) return 1;
	if (fun == &iFLL) return 1;
	if (fun == &iFLp) return 1;
	if (fun == &iFpw) return 1;
	if (fun == &iFpi) return 1;
	if (fun == &iFpI) return 1;
	if (fun == &iFpW) return 1;
	if (fun == &iFpu) return 1;
	if (fun == &iFpU) return 1;
	if (fun == &iFpl) return 1;
	if (fun == &iFpL) return 1;
	if (fun == &iFpp) return 1;
	if (fun == &IFII) return 1;
	if (fun == &uFii) return 1;
	if (fun == &uFip) return 1;
	if (fun == &uFuu) return 1;
	if (fun == &uFup) return 1;
	if (fun == &uFpp) return 1;
	if (fun == &fFif) return -2;
	if (fun == &fFfi) return -2;
	if (fun == &fFff) return -3;
	if (fun == &fFfp) return -2;
	if (fun == &fFpp) return -1;
	if (fun == &dFid) return -2;
	if (fun == &dFdi) return -2;
	if (fun == &dFdd) return -3;
	if (fun == &dFdp) return -2;
	if (fun == &dFll) return -1;
	if (fun == &dFpp) return -1;
	if (fun == &lFii) return 1;
	if (fun == &lFpi) return 1;
	if (fun == &LFii) return 1;
	if (fun == &LFuu) return 1;
	if (fun == &LFpL) return 1;
	if (fun == &LFpp) return 1;
	if (fun == &pFip) return 1;
	if (fun == &pFup) return 1;
	if (fun == &pFUU) return 1;
	if (fun == &pFLL) return 1;
	if (fun == &pFpi) return 1;
	if (fun == &pFpu) return 1;
	if (fun == &pFpL) return 1;
	if (fun == &pFpp) return 1;
	if (fun == &vFfpp) return 2;
	if (fun == &vFdpp) return 2;
	if (fun == &vFpii) return 1;
	if (fun == &vFpip) return 1;
	if (fun == &vFpLi) return 1;
	if (fun == &vFpLL) return 1;
	if (fun == &vFpLp) return 1;
	if (fun == &vFppi) return 1;
	if (fun == &vFppl) return 1;
	if (fun == &vFppL) return 1;
	if (fun == &vFppp) return 1;
	if (fun == &iFiii) return 1;
	if (fun == &iFiiI) return 1;
	if (fun == &iFiil) return 1;
	if (fun == &iFiip) return 1;
	if (fun == &iFiuu) return 1;
	if (fun == &iFill) return 1;
	if (fun == &iFiLi) return 1;
	if (fun == &iFiLp) return 1;
	if (fun == &iFipi) return 1;
	if (fun == &iFipu) return 1;
	if (fun == &iFipL) return 1;
	if (fun == &iFipp) return 1;
	if (fun == &iFuui) return 1;
	if (fun == &iFuuu) return 1;
	if (fun == &iFuLL) return 1;
	if (fun == &iFuLp) return 1;
	if (fun == &iFupp) return 1;
	if (fun == &iFLip) return 1;
	if (fun == &iFLpp) return 1;
	if (fun == &iFpii) return 1;
	if (fun == &iFpiu) return 1;
	if (fun == &iFpip) return 1;
	if (fun == &iFpIi) return 1;
	if (fun == &iFpui) return 1;
	if (fun == &iFpuu) return 1;
	if (fun == &iFpuL) return 1;
	if (fun == &iFpli) return 1;
	if (fun == &iFpLi) return 1;
	if (fun == &iFpLu) return 1;
	if (fun == &iFpLL) return 1;
	if (fun == &iFpLp) return 1;
	if (fun == &iFppi) return 1;
	if (fun == &iFppL) return 1;
	if (fun == &iFppp) return 1;
	if (fun == &IFiIi) return 1;
	if (fun == &IFppi) return 1;
	if (fun == &uFupp) return 1;
	if (fun == &uFppi) return 1;
	if (fun == &UFppi) return 1;
	if (fun == &fFfff) return -4;
	if (fun == &fFffp) return -3;
	if (fun == &fFppi) return -1;
	if (fun == &fFppL) return -1;
	if (fun == &fFppp) return -1;
	if (fun == &dFddd) return -4;
	if (fun == &dFddp) return -3;
	if (fun == &dFppi) return -1;
	if (fun == &dFppp) return -1;
	if (fun == &lFili) return 1;
	if (fun == &lFilL) return 1;
	if (fun == &lFipi) return 1;
	if (fun == &lFipL) return 1;
	if (fun == &lFpLu) return 1;
	if (fun == &lFppi) return 1;
	if (fun == &lFppL) return 1;
	if (fun == &lFppp) return 1;
	if (fun == &LFipL) return 1;
	if (fun == &LFpup) return 1;
	if (fun == &LFpLp) return 1;
	if (fun == &LFppi) return 1;
	if (fun == &LFppL) return 1;
	if (fun == &pFipi) return 1;
	if (fun == &pFipL) return 1;
	if (fun == &pFipp) return 1;
	if (fun == &pFupL) return 1;
	if (fun == &pFdip) return 2;
	if (fun == &pFLLp) return 1;
	if (fun == &pFpiL) return 1;
	if (fun == &pFpip) return 1;
	if (fun == &pFpui) return 1;
	if (fun == &pFpuL) return 1;
	if (fun == &pFpLL) return 1;
	if (fun == &pFpLp) return 1;
	if (fun == &pFppi) return 1;
	if (fun == &pFppU) return 1;
	if (fun == &pFppL) return 1;
	if (fun == &pFppp) return 1;
	if (fun == &vFipup) return 1;
	if (fun == &vFppup) return 1;
	if (fun == &iFiiip) return 1;
	if (fun == &iFiill) return 1;
	if (fun == &iFiipp) return 1;
	if (fun == &iFiupp) return 1;
	if (fun == &iFilli) return 1;
	if (fun == &iFillu) return 1;
	if (fun == &iFipii) return 1;
	if (fun == &iFipip) return 1;
	if (fun == &iFipui) return 1;
	if (fun == &iFipuL) return 1;
	if (fun == &iFipLi) return 1;
	if (fun == &iFipLu) return 1;
	if (fun == &iFipLp) return 1;
	if (fun == &iFippi) return 1;
	if (fun == &iFippL) return 1;
	if (fun == &iFuipp) return 1;
	if (fun == &iFuupi) return 1;
	if (fun == &iFupLp) return 1;
	if (fun == &iFpiip) return 1;
	if (fun == &iFpipi) return 1;
	if (fun == &iFpipu) return 1;
	if (fun == &iFpipp) return 1;
	if (fun == &iFpuiL) return 1;
	if (fun == &iFpupp) return 1;
	if (fun == &iFpLii) return 1;
	if (fun == &iFpLLu) return 1;
	if (fun == &iFpLpf) return 2;
	if (fun == &iFpLpd) return 2;
	if (fun == &iFpLpL) return 1;
	if (fun == &iFpLpp) return 1;
	if (fun == &iFppii) return 1;
	if (fun == &iFppiL) return 1;
	if (fun == &iFppLp) return 1;
	if (fun == &iFpppi) return 1;
	if (fun == &iFpppL) return 1;
	if (fun == &iFpppp) return 1;
	if (fun == &IFipUI) return 1;
	if (fun == &IFipUp) return 1;
	if (fun == &IFppii) return 1;
	if (fun == &IFppip) return 1;
	if (fun == &UFppii) return 1;
	if (fun == &UFppip) return 1;
	if (fun == &lFiiLu) return 1;
	if (fun == &lFiipL) return 1;
	if (fun == &lFipil) return 1;
	if (fun == &lFipLi) return 1;
	if (fun == &lFipLI) return 1;
	if (fun == &lFipLu) return 1;
	if (fun == &lFipLl) return 1;
	if (fun == &lFipLL) return 1;
	if (fun == &lFipLp) return 1;
	if (fun == &lFippL) return 1;
	if (fun == &lFppii) return 1;
	if (fun == &lFppip) return 1;
	if (fun == &lFpppL) return 1;
	if (fun == &LFipLL) return 1;
	if (fun == &LFippL) return 1;
	if (fun == &LFpupL) return 1;
	if (fun == &LFpLLp) return 1;
	if (fun == &LFpLpp) return 1;
	if (fun == &LFppii) return 1;
	if (fun == &LFppip) return 1;
	if (fun == &LFppLL) return 1;
	if (fun == &LFppLp) return 1;
	if (fun == &pFippu) return 1;
	if (fun == &pFdipp) return 2;
	if (fun == &pFpiii) return 1;
	if (fun == &pFpiip) return 1;
	if (fun == &pFpiLL) return 1;
	if (fun == &pFpuii) return 1;
	if (fun == &pFpuLL) return 1;
	if (fun == &pFpLip) return 1;
	if (fun == &pFpLpL) return 1;
	if (fun == &pFppiL) return 1;
	if (fun == &pFppip) return 1;
	if (fun == &pFppLL) return 1;
	if (fun == &pFpppi) return 1;
	if (fun == &pFpppL) return 1;
	if (fun == &iFiiipu) return 1;
	if (fun == &iFiiipp) return 1;
	if (fun == &iFiuLip) return 1;
	if (fun == &iFipiup) return 1;
	if (fun == &iFipipi) return 1;
	if (fun == &iFipipu) return 1;
	if (fun == &iFipuip) return 1;
	if (fun == &iFipuui) return 1;
	if (fun == &iFipLup) return 1;
	if (fun == &iFippLi) return 1;
	if (fun == &iFippLp) return 1;
	if (fun == &iFipppi) return 1;
	if (fun == &iFipppp) return 1;
	if (fun == &iFuppLp) return 1;
	if (fun == &iFpiipi) return 1;
	if (fun == &iFpiipp) return 1;
	if (fun == &iFpipiu) return 1;
	if (fun == &iFpippW) return 1;
	if (fun == &iFpuppL) return 1;
	if (fun == &iFpLiLi) return 1;
	if (fun == &iFpLLpp) return 1;
	if (fun == &iFppipp) return 1;
	if (fun == &iFppLpi) return 1;
	if (fun == &iFppLpp) return 1;
	if (fun == &iFpppLi) return 1;
	if (fun == &iFpppLp) return 1;
	if (fun == &iFppppi) return 1;
	if (fun == &iFppppL) return 1;
	if (fun == &iFppppp) return 1;
	if (fun == &lFipili) return 1;
	if (fun == &lFipLli) return 1;
	if (fun == &lFipLlL) return 1;
	if (fun == &lFipLLi) return 1;
	if (fun == &lFipLpp) return 1;
	if (fun == &lFppllp) return 1;
	if (fun == &LFpLLLp) return 1;
	if (fun == &LFpLppL) return 1;
	if (fun == &LFpLppp) return 1;
	if (fun == &LFppLLp) return 1;
	if (fun == &LFppLpL) return 1;
	if (fun == &LFppppp) return 1;
	if (fun == &pFipipL) return 1;
	if (fun == &pFppipi) return 1;
	if (fun == &pFpppLi) return 1;
	if (fun == &iFipppLp) return 1;
	if (fun == &iFippppp) return 1;
	if (fun == &iFdipppL) return 2;
	if (fun == &iFlpippp) return 1;
	if (fun == &iFpipppp) return 1;
	if (fun == &iFpWpppp) return 1;
	if (fun == &iFpuiCpp) return 1;
	if (fun == &iFpuippp) return 1;
	if (fun == &iFppiipi) return 1;
	if (fun == &iFpppLpp) return 1;
	if (fun == &iFppppLp) return 1;
	if (fun == &lFipipLu) return 1;
	if (fun == &lFipLipu) return 1;
	if (fun == &lFipLipp) return 1;
	if (fun == &lFipLpLL) return 1;
	if (fun == &lFpplllp) return 1;
	if (fun == &LFppLLpL) return 1;
	if (fun == &lFpLppdddddd) return 7;
#if defined(NOALIGN)
	if (fun == &iFppu) return 1;
	if (fun == &iFipiip) return 1;
#endif
#if defined(STATICBUILD)
	if (fun == &pFLp) return 1;
	if (fun == &pFpLLp) return 1;
#endif
#if !defined(STATICBUILD)
	if (fun == &vFLL) return 1;
	if (fun == &iFlip) return 1;
	if (fun == &iFLLi) return 1;
	if (fun == &iFpup) return 1;
	if (fun == &iFLLiW) return 1;
	if (fun == &iFpipppL) return 1;
#endif
	return 0;
}
#elif defined(RV64)
int isSimpleWrapper(wrapper_t fun) {
	if (fun == &vFv) return 1;
	if (fun == &vFu) return 1;
	if (fun == &vFl) return 1;
	if (fun == &vFp) return 1;
	if (fun == &IFv) return 1;
	if (fun == &IFI) return 1;
	if (fun == &IFf) return 3;
	if (fun == &IFd) return 3;
	if (fun == &IFp) return 1;
	if (fun == &WFW) return 1;
	if (fun == &uFv) return 1;
	if (fun == &uFu) return 1;
	if (fun == &uFL) return 1;
	if (fun == &uFp) return 1;
	if (fun == &fFf) return -3;
	if (fun == &fFp) return -1;
	if (fun == &dFv) return -1;
	if (fun == &dFd) return -3;
	if (fun == &dFp) return -1;
	if (fun == &lFv) return 1;
	if (fun == &lFl) return 1;
	if (fun == &lFp) return 1;
	if (fun == &LFv) return 1;
	if (fun == &LFL) return 1;
	if (fun == &LFp) return 1;
	if (fun == &pFv) return 1;
	if (fun == &pFu) return 1;
	if (fun == &pFl) return 1;
	if (fun == &pFL) return 1;
	if (fun == &pFp) return 1;
	if (fun == &vFWp) return 1;
	if (fun == &vFup) return 1;
	if (fun == &vFLp) return 1;
	if (fun == &vFpl) return 1;
	if (fun == &vFpL) return 1;
	if (fun == &vFpp) return 1;
	if (fun == &IFII) return 1;
	if (fun == &uFuu) return 1;
	if (fun == &uFup) return 1;
	if (fun == &uFpp) return 1;
	if (fun == &fFff) return -5;
	if (fun == &fFfp) return -3;
	if (fun == &fFpp) return -1;
	if (fun == &dFdd) return -5;
	if (fun == &dFdp) return -3;
	if (fun == &dFll) return -1;
	if (fun == &dFpp) return -1;
	if (fun == &LFuu) return 1;
	if (fun == &LFpL) return 1;
	if (fun == &LFpp) return 1;
	if (fun == &pFup) return 1;
	if (fun == &pFUU) return 1;
	if (fun == &pFLL) return 1;
	if (fun == &pFpu) return 1;
	if (fun == &pFpL) return 1;
	if (fun == &pFpp) return 1;
	if (fun == &vFfpp) return 3;
	if (fun == &vFdpp) return 3;
	if (fun == &vFpLL) return 1;
	if (fun == &vFpLp) return 1;
	if (fun == &vFppl) return 1;
	if (fun == &vFppL) return 1;
	if (fun == &vFppp) return 1;
	if (fun == &uFupp) return 1;
	if (fun == &fFfff) return -7;
	if (fun == &fFffp) return -5;
	if (fun == &fFppL) return -1;
	if (fun == &fFppp) return -1;
	if (fun == &dFddd) return -7;
	if (fun == &dFddp) return -5;
	if (fun == &dFppp) return -1;
	if (fun == &lFpLu) return 1;
	if (fun == &lFppL) return 1;
	if (fun == &lFppp) return 1;
	if (fun == &LFpup) return 1;
	if (fun == &LFpLp) return 1;
	if (fun == &LFppL) return 1;
	if (fun == &pFupL) return 1;
	if (fun == &pFLLp) return 1;
	if (fun == &pFpuL) return 1;
	if (fun == &pFpLL) return 1;
	if (fun == &pFpLp) return 1;
	if (fun == &pFppU) return 1;
	if (fun == &pFppL) return 1;
	if (fun == &pFppp) return 1;
#if defined(STATICBUILD)
	if (fun == &pFLp) return 1;
#endif
#if !defined(STATICBUILD)
	if (fun == &vFLL) return 1;
#endif
	return 0;
}

#else
int isSimpleWrapper(wrapper_t fun) {
	return 0;
}
#endif

int isRetX87Wrapper(wrapper_t fun) {
	if (fun == &DFDi) return 1;
	if (fun == &DFDD) return 1;
	if (fun == &DFDp) return 1;
	if (fun == &DFpp) return 1;
	if (fun == &DFppi) return 1;
	if (fun == &DFppp) return 1;
#if defined(HAVE_LD80BITS)
	if (fun == &DFD) return 1;
	if (fun == &DFY) return 1;
	if (fun == &DFiD) return 1;
	if (fun == &DFDDD) return 1;
#endif
#if !defined(HAVE_LD80BITS)
	if (fun == &KFK) return 1;
	if (fun == &KFy) return 1;
	if (fun == &KFiK) return 1;
	if (fun == &KFKK) return 1;
	if (fun == &KFKp) return 1;
	if (fun == &KFKKK) return 1;
#endif
	return 0;
}