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/*****************************************************************
* File automatically generated by rebuild_wrappers.py (v1.2.0.09)
*****************************************************************/
#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"
typedef union ui64_s {
int64_t i;
uint64_t u;
uint32_t d[2];
} ui64_t;
typedef struct _2uint_struct_s {
uint32_t a;
uint32_t b;
} _2uint_struct_t;
extern void* my__IO_2_1_stderr_;
extern void* my__IO_2_1_stdin_ ;
extern void* my__IO_2_1_stdout_;
static void* io_convert(void* v)
{
if(!v)
return v;
if(v==my__IO_2_1_stderr_)
return stderr;
if(v==my__IO_2_1_stdin_)
return stdin;
if(v==my__IO_2_1_stdout_)
return stdout;
return v;
}
typedef struct my_GValue_s
{
int g_type;
union {
int v_int;
int64_t v_int64;
uint64_t v_uint64;
float v_float;
double v_double;
void* v_pointer;
} data[2];
} my_GValue_t;
static void alignGValue(my_GValue_t* v, void* value)
{
v->g_type = *(int*)value;
memcpy(v->data, value+4, 2*sizeof(double));
}
static void unalignGValue(void* value, my_GValue_t* v)
{
*(int*)value = v->g_type;
memcpy(value+4, v->data, 2*sizeof(double));
}
void* VulkanFromx86(void* src, void** save);
void VulkanTox86(void* src, void* save);
#define ST0val ST0.d
int of_convert(int);
typedef void (*vFE_t)(x64emu_t*);
typedef void (*vFv_t)(void);
typedef int32_t (*iFE_t)(x64emu_t*);
typedef int32_t (*iFu_t)(uint32_t);
typedef int32_t (*iFp_t)(void*);
typedef intptr_t (*lFp_t)(void*);
typedef void* (*pFE_t)(x64emu_t*);
typedef void* (*pFp_t)(void*);
typedef void (*vFEp_t)(x64emu_t*, void*);
typedef void (*vFpp_t)(void*, void*);
typedef int32_t (*iFEp_t)(x64emu_t*, void*);
typedef int32_t (*iFip_t)(int32_t, void*);
typedef int32_t (*iFup_t)(uint32_t, void*);
typedef void* (*pFEp_t)(x64emu_t*, void*);
typedef void (*vFEpu_t)(x64emu_t*, void*, uint32_t);
typedef int32_t (*iFEpp_t)(x64emu_t*, void*, void*);
typedef int32_t (*iFpiu_t)(void*, int32_t, uint32_t);
typedef void* (*pFEpi_t)(x64emu_t*, void*, int32_t);
typedef void* (*pFEpp_t)(x64emu_t*, void*, void*);
typedef void (*vFEpup_t)(x64emu_t*, void*, uint32_t, 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 (*iFEppp_t)(x64emu_t*, void*, void*, void*);
typedef int32_t (*iFuipp_t)(uint32_t, int32_t, void*, void*);
typedef void* (*pFEppi_t)(x64emu_t*, void*, void*, int32_t);
typedef void* (*pFEppp_t)(x64emu_t*, void*, void*, void*);
typedef int32_t (*iFipppi_t)(int32_t, void*, void*, void*, int32_t);
typedef int32_t (*iFEpippppp_t)(x64emu_t*, void*, int32_t, void*, void*, void*, void*, void*);
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 iFE(x64emu_t *emu, uintptr_t fcn) { iFE_t fn = (iFE_t)fcn; R_RAX=fn(emu); }
void iFu(x64emu_t *emu, uintptr_t fcn) { iFu_t fn = (iFu_t)fcn; R_RAX=fn((uint32_t)R_RDI); }
void iFp(x64emu_t *emu, uintptr_t fcn) { iFp_t fn = (iFp_t)fcn; R_RAX=fn((void*)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 pFE(x64emu_t *emu, uintptr_t fcn) { pFE_t fn = (pFE_t)fcn; R_RAX=(uintptr_t)fn(emu); }
void pFp(x64emu_t *emu, uintptr_t fcn) { pFp_t fn = (pFp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI); }
void vFEp(x64emu_t *emu, uintptr_t fcn) { vFEp_t fn = (vFEp_t)fcn; fn(emu, (void*)R_RDI); }
void vFpp(x64emu_t *emu, uintptr_t fcn) { vFpp_t fn = (vFpp_t)fcn; fn((void*)R_RDI, (void*)R_RSI); }
void iFEp(x64emu_t *emu, uintptr_t fcn) { iFEp_t fn = (iFEp_t)fcn; R_RAX=fn(emu, (void*)R_RDI); }
void iFip(x64emu_t *emu, uintptr_t fcn) { iFip_t fn = (iFip_t)fcn; R_RAX=fn((int32_t)R_RDI, (void*)R_RSI); }
void iFup(x64emu_t *emu, uintptr_t fcn) { iFup_t fn = (iFup_t)fcn; R_RAX=fn((uint32_t)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 vFEpu(x64emu_t *emu, uintptr_t fcn) { vFEpu_t fn = (vFEpu_t)fcn; fn(emu, (void*)R_RDI, (uint32_t)R_RSI); }
void iFEpp(x64emu_t *emu, uintptr_t fcn) { iFEpp_t fn = (iFEpp_t)fcn; R_RAX=fn(emu, (void*)R_RDI, (void*)R_RSI); }
void iFpiu(x64emu_t *emu, uintptr_t fcn) { iFpiu_t fn = (iFpiu_t)fcn; R_RAX=fn((void*)R_RDI, (int32_t)R_RSI, (uint32_t)R_RDX); }
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 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 iFEupp(x64emu_t *emu, uintptr_t fcn) { iFEupp_t fn = (iFEupp_t)fcn; R_RAX=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=fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX); }
void iFEppp(x64emu_t *emu, uintptr_t fcn) { iFEppp_t fn = (iFEppp_t)fcn; R_RAX=fn(emu, (void*)R_RDI, (void*)R_RSI, (void*)R_RDX); }
void iFuipp(x64emu_t *emu, uintptr_t fcn) { iFuipp_t fn = (iFuipp_t)fcn; R_RAX=fn((uint32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); }
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 iFipppi(x64emu_t *emu, uintptr_t fcn) { iFipppi_t fn = (iFipppi_t)fcn; R_RAX=fn((int32_t)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX, (int32_t)R_R8); }
void iFEpippppp(x64emu_t *emu, uintptr_t fcn) { iFEpippppp_t fn = (iFEpippppp_t)fcn; R_RAX=fn(emu, (void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX, (void*)R_R8, *(void**)(R_RSP + 16), *(void**)(R_RSP + 24)); }
void iFEv(x64emu_t *emu, uintptr_t fcn) { iFE_t fn = (iFE_t)fcn; R_RAX=fn(emu); }
void pFEv(x64emu_t *emu, uintptr_t fcn) { pFE_t fn = (pFE_t)fcn; R_RAX=(uintptr_t)fn(emu); }
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