[BOX32] More 32bits wrapped functions

1 files changed, 26 insertions, 2 deletions

diff --git a/src/wrapped32/generated/wrapper32.c b/src/wrapped32/generated/wrapper32.c
index 62e56520..f4132f5f 100644
--- a/src/wrapped32/generated/wrapper32.c
+++ b/src/wrapped32/generated/wrapper32.c
@@ -106,6 +106,8 @@ typedef void* (*pFL_t)(uintptr_t);
 typedef void* (*pFp_t)(void*);
 typedef uintptr_t (*hFv_t)(void);
 typedef void* (*aFa_t)(void*);
+typedef char* (*tFp_t)(void*);
+typedef uintptr_t (*LFrL__t)(struct_L_t*);
 typedef void (*vFEv_t)(x64emu_t*);
 typedef void (*vFEp_t)(x64emu_t*, void*);
 typedef int32_t (*iFEv_t)(x64emu_t*);
@@ -122,6 +124,7 @@ typedef int32_t (*iFuu_t)(uint32_t, uint32_t);
 typedef int32_t (*iFup_t)(uint32_t, void*);
 typedef int32_t (*iFli_t)(intptr_t, int32_t);
 typedef int32_t (*iFpi_t)(void*, int32_t);
+typedef int32_t (*iFpu_t)(void*, uint32_t);
 typedef int32_t (*iFpp_t)(void*, void*);
 typedef int32_t (*iFhp_t)(uintptr_t, void*);
 typedef int32_t (*iFhh_t)(uintptr_t, uintptr_t);
@@ -147,6 +150,8 @@ typedef void* (*pFEv_t)(x64emu_t*);
 typedef void* (*pFEp_t)(x64emu_t*, void*);
 typedef void* (*pFLL_t)(uintptr_t, uintptr_t);
 typedef void* (*pFpL_t)(void*, uintptr_t);
+typedef char* (*tFip_t)(int32_t, void*);
+typedef char* (*tFpL_t)(void*, uintptr_t);
 typedef int32_t (*iFHBp__t)(uintptr_t, struct_p_t*);
 typedef float (*fFpBp__t)(void*, struct_p_t*);
 typedef double (*dFpBp__t)(void*, struct_p_t*);
@@ -188,13 +193,14 @@ typedef float (*fFffp_t)(float, float, void*);
 typedef double (*dFddd_t)(double, double, double);
 typedef double (*dFddp_t)(double, double, void*);
 typedef void* (*pFEip_t)(x64emu_t*, int32_t, void*);
-typedef void* (*pFEia_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* (*pFpiL_t)(void*, int32_t, uintptr_t);
+typedef void* (*pFppu_t)(void*, void*, uint32_t);
 typedef void* (*pFppL_t)(void*, void*, uintptr_t);
 typedef void* (*pFpOM_t)(void*, int32_t, ...);
 typedef uintptr_t (*hFEpp_t)(x64emu_t*, void*, void*);
+typedef uintptr_t (*hFppH_t)(void*, void*, uintptr_t);
 typedef void* (*aFipa_t)(int32_t, void*, void*);
 typedef int64_t (*IFpBp_i_t)(void*, struct_p_t*, int32_t);
 typedef intptr_t (*lFpBp_i_t)(void*, struct_p_t*, int32_t);
@@ -208,6 +214,8 @@ typedef int32_t (*iFEpup_t)(x64emu_t*, void*, uint32_t, void*);
 typedef int32_t (*iFEppu_t)(x64emu_t*, void*, void*, uint32_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 (*iFEpOu_t)(x64emu_t*, void*, int32_t, uint32_t);
+typedef int32_t (*iFEhpV_t)(x64emu_t*, uintptr_t, void*, void*);
 typedef int32_t (*iFiiII_t)(int32_t, int32_t, int64_t, int64_t);
 typedef int32_t (*iFiuui_t)(int32_t, uint32_t, uint32_t, int32_t);
 typedef uintptr_t (*LFpLLh_t)(void*, uintptr_t, uintptr_t, uintptr_t);
@@ -220,6 +228,9 @@ 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 (*iFiLLLL_t)(int32_t, uintptr_t, uintptr_t, uintptr_t, uintptr_t);
 typedef int32_t (*iFEBh_ppp_t)(x64emu_t*, struct_h_t*, void*, void*, void*);
+typedef int32_t (*iFEpuppp_t)(x64emu_t*, void*, uint32_t, void*, void*, void*);
+typedef int32_t (*iFEpLppp_t)(x64emu_t*, void*, uintptr_t, void*, void*, void*);
+typedef int32_t (*iFEpLiipV_t)(x64emu_t*, void*, uintptr_t, int32_t, int32_t, void*, void*);
 typedef int32_t (*iFEpippppp_t)(x64emu_t*, void*, int32_t, void*, void*, void*, void*, void*);
 
 #if defined(ANDROID)
@@ -273,6 +284,8 @@ void pFL_32(x64emu_t *emu, uintptr_t fcn) { pFL_t fn = (pFL_t)fcn; R_EAX = to_pt
 void pFp_32(x64emu_t *emu, uintptr_t fcn) { pFp_t fn = (pFp_t)fcn; R_EAX = to_ptrv(fn(from_ptriv(R_ESP + 4))); }
 void hFv_32(x64emu_t *emu, uintptr_t fcn) { hFv_t fn = (hFv_t)fcn; R_EAX = to_hash(fn()); }
 void aFa_32(x64emu_t *emu, uintptr_t fcn) { aFa_t fn = (aFa_t)fcn; R_EAX = to_locale(fn(from_locale(from_ptri(ptr_t, R_ESP + 4)))); }
+void tFp_32(x64emu_t *emu, uintptr_t fcn) { tFp_t fn = (tFp_t)fcn; R_EAX = to_cstring(fn(from_ptriv(R_ESP + 4))); }
+void LFrL__32(x64emu_t *emu, uintptr_t fcn) { LFrL__t fn = (LFrL__t)fcn; struct_L_t arg_4; from_struct_L(&arg_4, *(ptr_t*)(from_ptr((R_ESP + 4)))); R_EAX = to_ulong(fn(*(ptr_t*)(from_ptr((R_ESP + 4))) ? &arg_4 : NULL)); }
 void vFEv_32(x64emu_t *emu, uintptr_t fcn) { vFEv_t fn = (vFEv_t)fcn; fn(emu); }
 void vFEp_32(x64emu_t *emu, uintptr_t fcn) { vFEp_t fn = (vFEp_t)fcn; fn(emu, from_ptriv(R_ESP + 4)); }
 void iFEv_32(x64emu_t *emu, uintptr_t fcn) { iFEv_t fn = (iFEv_t)fcn; R_EAX = fn(emu); }
@@ -289,6 +302,7 @@ void iFuu_32(x64emu_t *emu, uintptr_t fcn) { iFuu_t fn = (iFuu_t)fcn; R_EAX = fn
 void iFup_32(x64emu_t *emu, uintptr_t fcn) { iFup_t fn = (iFup_t)fcn; R_EAX = fn(from_ptri(uint32_t, R_ESP + 4), from_ptriv(R_ESP + 8)); }
 void iFli_32(x64emu_t *emu, uintptr_t fcn) { iFli_t fn = (iFli_t)fcn; R_EAX = fn(to_long(from_ptri(long_t, R_ESP + 4)), from_ptri(int32_t, R_ESP + 8)); }
 void iFpi_32(x64emu_t *emu, uintptr_t fcn) { iFpi_t fn = (iFpi_t)fcn; R_EAX = fn(from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8)); }
+void iFpu_32(x64emu_t *emu, uintptr_t fcn) { iFpu_t fn = (iFpu_t)fcn; R_EAX = fn(from_ptriv(R_ESP + 4), from_ptri(uint32_t, R_ESP + 8)); }
 void iFpp_32(x64emu_t *emu, uintptr_t fcn) { iFpp_t fn = (iFpp_t)fcn; R_EAX = fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8)); }
 void iFhp_32(x64emu_t *emu, uintptr_t fcn) { iFhp_t fn = (iFhp_t)fcn; R_EAX = fn(from_hash(from_ptri(ptr_t, R_ESP + 4)), from_ptriv(R_ESP + 8)); }
 void iFhh_32(x64emu_t *emu, uintptr_t fcn) { iFhh_t fn = (iFhh_t)fcn; R_EAX = fn(from_hash(from_ptri(ptr_t, R_ESP + 4)), from_hash(from_ptri(ptr_t, R_ESP + 8))); }
@@ -314,6 +328,8 @@ void pFEv_32(x64emu_t *emu, uintptr_t fcn) { pFEv_t fn = (pFEv_t)fcn; R_EAX = to
 void pFEp_32(x64emu_t *emu, uintptr_t fcn) { pFEp_t fn = (pFEp_t)fcn; R_EAX = to_ptrv(fn(emu, from_ptriv(R_ESP + 4))); }
 void pFLL_32(x64emu_t *emu, uintptr_t fcn) { pFLL_t fn = (pFLL_t)fcn; R_EAX = to_ptrv(fn(to_ulong(from_ptri(ulong_t, R_ESP + 4)), to_ulong(from_ptri(ulong_t, R_ESP + 8)))); }
 void pFpL_32(x64emu_t *emu, uintptr_t fcn) { pFpL_t fn = (pFpL_t)fcn; R_EAX = to_ptrv(fn(from_ptriv(R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)))); }
+void tFip_32(x64emu_t *emu, uintptr_t fcn) { tFip_t fn = (tFip_t)fcn; R_EAX = to_cstring(fn(from_ptri(int32_t, R_ESP + 4), from_ptriv(R_ESP + 8))); }
+void tFpL_32(x64emu_t *emu, uintptr_t fcn) { tFpL_t fn = (tFpL_t)fcn; R_EAX = to_cstring(fn(from_ptriv(R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)))); }
 void iFHBp__32(x64emu_t *emu, uintptr_t fcn) { iFHBp__t fn = (iFHBp__t)fcn; struct_p_t arg_8; R_EAX = fn(from_hash_d(from_ptri(ptr_t, R_ESP + 4)), *(ptr_t*)(from_ptr((R_ESP + 8))) ? &arg_8 : NULL); if (*(ptr_t*)(from_ptr((R_ESP + 8)))) to_struct_p(*(ptr_t*)(from_ptr((R_ESP + 8))), &arg_8); }
 void fFpBp__32(x64emu_t *emu, uintptr_t fcn) { fFpBp__t fn = (fFpBp__t)fcn; struct_p_t arg_8; float fl = fn(from_ptriv(R_ESP + 4), *(ptr_t*)(from_ptr((R_ESP + 8))) ? &arg_8 : NULL); fpu_do_push(emu); ST0val = fl; if (*(ptr_t*)(from_ptr((R_ESP + 8)))) to_struct_p(*(ptr_t*)(from_ptr((R_ESP + 8))), &arg_8); }
 void dFpBp__32(x64emu_t *emu, uintptr_t fcn) { dFpBp__t fn = (dFpBp__t)fcn; struct_p_t arg_8; double db = fn(from_ptriv(R_ESP + 4), *(ptr_t*)(from_ptr((R_ESP + 8))) ? &arg_8 : NULL); fpu_do_push(emu); ST0val = db; if (*(ptr_t*)(from_ptr((R_ESP + 8)))) to_struct_p(*(ptr_t*)(from_ptr((R_ESP + 8))), &arg_8); }
@@ -355,13 +371,14 @@ void fFffp_32(x64emu_t *emu, uintptr_t fcn) { fFffp_t fn = (fFffp_t)fcn; float f
 void dFddd_32(x64emu_t *emu, uintptr_t fcn) { dFddd_t fn = (dFddd_t)fcn; double db = fn(from_ptri(double, R_ESP + 4), from_ptri(double, R_ESP + 12), from_ptri(double, R_ESP + 20)); fpu_do_push(emu); ST0val = db; }
 void dFddp_32(x64emu_t *emu, uintptr_t fcn) { dFddp_t fn = (dFddp_t)fcn; double db = fn(from_ptri(double, R_ESP + 4), from_ptri(double, R_ESP + 12), from_ptriv(R_ESP + 20)); fpu_do_push(emu); ST0val = db; }
 void pFEip_32(x64emu_t *emu, uintptr_t fcn) { pFEip_t fn = (pFEip_t)fcn; R_EAX = to_ptrv(fn(emu, from_ptri(int32_t, R_ESP + 4), from_ptriv(R_ESP + 8))); }
-void pFEia_32(x64emu_t *emu, uintptr_t fcn) { pFEia_t fn = (pFEia_t)fcn; R_EAX = to_ptrv(fn(emu, from_ptri(int32_t, R_ESP + 4), from_locale(from_ptri(ptr_t, R_ESP + 8)))); }
 void pFEpi_32(x64emu_t *emu, uintptr_t fcn) { pFEpi_t fn = (pFEpi_t)fcn; R_EAX = to_ptrv(fn(emu, from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8))); }
 void pFEpp_32(x64emu_t *emu, uintptr_t fcn) { pFEpp_t fn = (pFEpp_t)fcn; R_EAX = to_ptrv(fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8))); }
 void pFpiL_32(x64emu_t *emu, uintptr_t fcn) { pFpiL_t fn = (pFpiL_t)fcn; R_EAX = to_ptrv(fn(from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12)))); }
+void pFppu_32(x64emu_t *emu, uintptr_t fcn) { pFppu_t fn = (pFppu_t)fcn; R_EAX = to_ptrv(fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptri(uint32_t, R_ESP + 12))); }
 void pFppL_32(x64emu_t *emu, uintptr_t fcn) { pFppL_t fn = (pFppL_t)fcn; R_EAX = to_ptrv(fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12)))); }
 void pFpOM_32(x64emu_t *emu, uintptr_t fcn) { pFpOM_t fn = (pFpOM_t)fcn; R_EAX = to_ptrv(fn(from_ptriv(R_ESP + 4), of_convert32(from_ptri(int32_t, R_ESP + 8)), from_ptriv(R_ESP + 12),from_ptriv(R_ESP + 12 + 4))); }
 void hFEpp_32(x64emu_t *emu, uintptr_t fcn) { hFEpp_t fn = (hFEpp_t)fcn; R_EAX = to_hash(fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8))); }
+void hFppH_32(x64emu_t *emu, uintptr_t fcn) { hFppH_t fn = (hFppH_t)fcn; R_EAX = to_hash(fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_hash_d(from_ptri(ptr_t, R_ESP + 12)))); }
 void aFipa_32(x64emu_t *emu, uintptr_t fcn) { aFipa_t fn = (aFipa_t)fcn; R_EAX = to_locale(fn(from_ptri(int32_t, R_ESP + 4), from_ptriv(R_ESP + 8), from_locale(from_ptri(ptr_t, R_ESP + 12)))); }
 void IFpBp_i_32(x64emu_t *emu, uintptr_t fcn) { IFpBp_i_t fn = (IFpBp_i_t)fcn; struct_p_t arg_8; ui64_t r; r.i = fn(from_ptriv(R_ESP + 4), *(ptr_t*)(from_ptr((R_ESP + 8))) ? &arg_8 : NULL, from_ptri(int32_t, R_ESP + 12)); R_EAX = r.d[0]; R_EDX = r.d[1]; if (*(ptr_t*)(from_ptr((R_ESP + 8)))) to_struct_p(*(ptr_t*)(from_ptr((R_ESP + 8))), &arg_8); }
 void lFpBp_i_32(x64emu_t *emu, uintptr_t fcn) { lFpBp_i_t fn = (lFpBp_i_t)fcn; struct_p_t arg_8; R_EAX = to_long(fn(from_ptriv(R_ESP + 4), *(ptr_t*)(from_ptr((R_ESP + 8))) ? &arg_8 : NULL, from_ptri(int32_t, R_ESP + 12))); if (*(ptr_t*)(from_ptr((R_ESP + 8)))) to_struct_p(*(ptr_t*)(from_ptr((R_ESP + 8))), &arg_8); }
@@ -375,6 +392,8 @@ void iFEpup_32(x64emu_t *emu, uintptr_t fcn) { iFEpup_t fn = (iFEpup_t)fcn; R_EA
 void iFEppu_32(x64emu_t *emu, uintptr_t fcn) { iFEppu_t fn = (iFEppu_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptri(uint32_t, R_ESP + 12)); }
 void iFEppL_32(x64emu_t *emu, uintptr_t fcn) { iFEppL_t fn = (iFEppL_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12))); }
 void iFEppp_32(x64emu_t *emu, uintptr_t fcn) { iFEppp_t fn = (iFEppp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptriv(R_ESP + 12)); }
+void iFEpOu_32(x64emu_t *emu, uintptr_t fcn) { iFEpOu_t fn = (iFEpOu_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), of_convert32(from_ptri(int32_t, R_ESP + 8)), from_ptri(uint32_t, R_ESP + 12)); }
+void iFEhpV_32(x64emu_t *emu, uintptr_t fcn) { iFEhpV_t fn = (iFEhpV_t)fcn; R_EAX = fn(emu, from_hash(from_ptri(ptr_t, R_ESP + 4)), from_ptriv(R_ESP + 8), from_ptrv(R_ESP + 12)); }
 void iFiiII_32(x64emu_t *emu, uintptr_t fcn) { iFiiII_t fn = (iFiiII_t)fcn; R_EAX = fn(from_ptri(int32_t, R_ESP + 4), from_ptri(int32_t, R_ESP + 8), from_ptri(int64_t, R_ESP + 12), from_ptri(int64_t, R_ESP + 20)); }
 void iFiuui_32(x64emu_t *emu, uintptr_t fcn) { iFiuui_t fn = (iFiuui_t)fcn; R_EAX = fn(from_ptri(int32_t, R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptri(uint32_t, R_ESP + 12), from_ptri(int32_t, R_ESP + 16)); }
 void LFpLLh_32(x64emu_t *emu, uintptr_t fcn) { LFpLLh_t fn = (LFpLLh_t)fcn; R_EAX = to_ulong(fn(from_ptriv(R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)), to_ulong(from_ptri(ulong_t, R_ESP + 12)), from_hash(from_ptri(ptr_t, R_ESP + 16)))); }
@@ -387,6 +406,9 @@ void iFEppiV_32(x64emu_t *emu, uintptr_t fcn) { iFEppiV_t fn = (iFEppiV_t)fcn; R
 void iFEpppi_32(x64emu_t *emu, uintptr_t fcn) { iFEpppi_t fn = (iFEpppi_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptriv(R_ESP + 12), from_ptri(int32_t, R_ESP + 16)); }
 void iFiLLLL_32(x64emu_t *emu, uintptr_t fcn) { iFiLLLL_t fn = (iFiLLLL_t)fcn; R_EAX = fn(from_ptri(int32_t, R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)), to_ulong(from_ptri(ulong_t, R_ESP + 12)), to_ulong(from_ptri(ulong_t, R_ESP + 16)), to_ulong(from_ptri(ulong_t, R_ESP + 20))); }
 void iFEBh_ppp_32(x64emu_t *emu, uintptr_t fcn) { iFEBh_ppp_t fn = (iFEBh_ppp_t)fcn; struct_h_t arg_4; R_EAX = fn(emu, *(ptr_t*)(from_ptr((R_ESP + 4))) ? &arg_4 : NULL, from_ptriv(R_ESP + 8), from_ptriv(R_ESP + 12), from_ptriv(R_ESP + 16)); if (*(ptr_t*)(from_ptr((R_ESP + 4)))) to_struct_h(*(ptr_t*)(from_ptr((R_ESP + 4))), &arg_4); }
+void iFEpuppp_32(x64emu_t *emu, uintptr_t fcn) { iFEpuppp_t fn = (iFEpuppp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptriv(R_ESP + 12), from_ptriv(R_ESP + 16), from_ptriv(R_ESP + 20)); }
+void iFEpLppp_32(x64emu_t *emu, uintptr_t fcn) { iFEpLppp_t fn = (iFEpLppp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)), from_ptriv(R_ESP + 12), from_ptriv(R_ESP + 16), from_ptriv(R_ESP + 20)); }
+void iFEpLiipV_32(x64emu_t *emu, uintptr_t fcn) { iFEpLiipV_t fn = (iFEpLiipV_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)), from_ptri(int32_t, R_ESP + 12), from_ptri(int32_t, R_ESP + 16), from_ptriv(R_ESP + 20), from_ptrv(R_ESP + 24)); }
 void iFEpippppp_32(x64emu_t *emu, uintptr_t fcn) { iFEpippppp_t fn = (iFEpippppp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8), from_ptriv(R_ESP + 12), from_ptriv(R_ESP + 16), from_ptriv(R_ESP + 20), from_ptriv(R_ESP + 24), from_ptriv(R_ESP + 28)); }
 
 #if defined(ANDROID)
@@ -408,6 +430,8 @@ void KFKp_32(x64emu_t *emu, uintptr_t fcn) { KFKp_t fn = (KFKp_t)fcn; double db
 
 void iFEvpV_32(x64emu_t *emu, uintptr_t fcn) { iFEpV_t fn = (iFEpV_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 8), from_ptrv(R_ESP + 12)); }
 void UFsvvs_32(x64emu_t *emu, uintptr_t fcn) { UFss_t fn = (UFss_t)fcn; ui64_t r; r.u = (uint64_t)fn(from_ptrv(R_ESP + 4), from_ptrv(R_ESP + 12)); R_EAX = r.d[0]; R_EDX = r.d[1]; }
+void iFEhvpV_32(x64emu_t *emu, uintptr_t fcn) { iFEhpV_t fn = (iFEhpV_t)fcn; R_EAX = fn(emu, from_hash(from_ptri(ptr_t, R_ESP + 4)), from_ptriv(R_ESP + 12), from_ptrv(R_ESP + 16)); }
+void iFEpuvvppp_32(x64emu_t *emu, uintptr_t fcn) { iFEpuppp_t fn = (iFEpuppp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptriv(R_ESP + 20), from_ptriv(R_ESP + 24), from_ptriv(R_ESP + 28)); }
 
 int isRetX87Wrapper32(wrapper_t fun) {
 	if (fun == &fFf_32) return 1;