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| author | ptitSeb <sebastien.chev@gmail.com> | 2024-09-28 11:17:26 +0200 |
|---|---|---|
| committer | ptitSeb <sebastien.chev@gmail.com> | 2024-09-28 11:17:26 +0200 |
| commit | 3919bb2e7de813732b7a8917744eadddf3ecfa67 (patch) | |
| tree | f868ea3af3d42d4fd4a9c1aab3a3afd5ddcb6e9b /src/wrapped32/generated/wrapper32.c | |
| parent | 93e8434a87c845956784a53e49111c46a099feba (diff) | |
| download | box64-3919bb2e7de813732b7a8917744eadddf3ecfa67.tar.gz box64-3919bb2e7de813732b7a8917744eadddf3ecfa67.zip | |
[BOX32][WRAPPER] Added 32bits wrapped libexpat and another batch of wrapped function for 32bits libfreetype and SDL2
Diffstat (limited to 'src/wrapped32/generated/wrapper32.c')
| -rw-r--r-- | src/wrapped32/generated/wrapper32.c | 10 |
1 files changed, 10 insertions, 0 deletions
diff --git a/src/wrapped32/generated/wrapper32.c b/src/wrapped32/generated/wrapper32.c index de01ca30..3546f5f3 100644 --- a/src/wrapped32/generated/wrapper32.c +++ b/src/wrapped32/generated/wrapper32.c @@ -452,6 +452,7 @@ typedef uint32_t (*uFuip_t)(uint32_t, int32_t, void*); typedef uint32_t (*uFuuu_t)(uint32_t, uint32_t, uint32_t); typedef uint32_t (*uFuup_t)(uint32_t, uint32_t, void*); typedef uint32_t (*uFupp_t)(uint32_t, void*, void*); +typedef uint32_t (*uFpii_t)(void*, int32_t, int32_t); typedef uint32_t (*uFpuU_t)(void*, uint32_t, uint64_t); typedef uint32_t (*uFppu_t)(void*, void*, uint32_t); typedef float (*fFuii_t)(uint32_t, int32_t, int32_t); @@ -465,6 +466,7 @@ typedef intptr_t (*lFpLL_t)(void*, uintptr_t, uintptr_t); typedef intptr_t (*lFppi_t)(void*, void*, int32_t); typedef intptr_t (*lFppL_t)(void*, void*, uintptr_t); typedef uintptr_t (*LFEpi_t)(x64emu_t*, void*, int32_t); +typedef uintptr_t (*LFEpp_t)(x64emu_t*, void*, void*); typedef uintptr_t (*LFpii_t)(void*, int32_t, int32_t); typedef uintptr_t (*LFpip_t)(void*, int32_t, void*); typedef uintptr_t (*LFppi_t)(void*, void*, int32_t); @@ -660,6 +662,7 @@ typedef intptr_t (*lFiipL_t)(int32_t, int32_t, void*, uintptr_t); typedef intptr_t (*lFipLi_t)(int32_t, void*, uintptr_t, int32_t); typedef intptr_t (*lFipLl_t)(int32_t, void*, uintptr_t, intptr_t); typedef intptr_t (*lFpuip_t)(void*, uint32_t, int32_t, void*); +typedef uintptr_t (*LFEpLp_t)(x64emu_t*, void*, uintptr_t, void*); typedef uintptr_t (*LFEXii_t)(x64emu_t*, void*, int32_t, int32_t); typedef uintptr_t (*LFpLLS_t)(void*, uintptr_t, uintptr_t, void*); typedef uintptr_t (*LFppLp_t)(void*, void*, uintptr_t, void*); @@ -792,6 +795,7 @@ typedef void (*vFppppp_t)(void*, void*, void*, void*, void*); 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 (*iFEpipp_t)(x64emu_t*, void*, int32_t, void*, void*); +typedef int32_t (*iFEpupu_t)(x64emu_t*, void*, uint32_t, void*, uint32_t); typedef int32_t (*iFEpupV_t)(x64emu_t*, void*, uint32_t, void*, void*); typedef int32_t (*iFEpLpp_t)(x64emu_t*, void*, uintptr_t, void*, void*); typedef int32_t (*iFEpLpV_t)(x64emu_t*, void*, uintptr_t, void*, void*); @@ -907,6 +911,7 @@ typedef int32_t (*iFEuppup_t)(x64emu_t*, uint32_t, void*, void*, uint32_t, void* typedef int32_t (*iFEuppLp_t)(x64emu_t*, uint32_t, void*, void*, uintptr_t, void*); typedef int32_t (*iFEpiLpp_t)(x64emu_t*, void*, int32_t, uintptr_t, void*, void*); typedef int32_t (*iFEplluu_t)(x64emu_t*, void*, intptr_t, intptr_t, uint32_t, uint32_t); +typedef int32_t (*iFEpLlpp_t)(x64emu_t*, void*, uintptr_t, intptr_t, void*, void*); typedef int32_t (*iFEppipp_t)(x64emu_t*, void*, void*, int32_t, void*, void*); typedef int32_t (*iFEppllp_t)(x64emu_t*, void*, void*, intptr_t, intptr_t, void*); typedef int32_t (*iFEpppup_t)(x64emu_t*, void*, void*, void*, uint32_t, void*); @@ -1511,6 +1516,7 @@ void uFuip_32(x64emu_t *emu, uintptr_t fcn) { uFuip_t fn = (uFuip_t)fcn; R_EAX = void uFuuu_32(x64emu_t *emu, uintptr_t fcn) { uFuuu_t fn = (uFuuu_t)fcn; R_EAX = (uint32_t)fn(from_ptri(uint32_t, R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptri(uint32_t, R_ESP + 12)); } void uFuup_32(x64emu_t *emu, uintptr_t fcn) { uFuup_t fn = (uFuup_t)fcn; R_EAX = (uint32_t)fn(from_ptri(uint32_t, R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptriv(R_ESP + 12)); } void uFupp_32(x64emu_t *emu, uintptr_t fcn) { uFupp_t fn = (uFupp_t)fcn; R_EAX = (uint32_t)fn(from_ptri(uint32_t, R_ESP + 4), from_ptriv(R_ESP + 8), from_ptriv(R_ESP + 12)); } +void uFpii_32(x64emu_t *emu, uintptr_t fcn) { uFpii_t fn = (uFpii_t)fcn; R_EAX = (uint32_t)fn(from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8), from_ptri(int32_t, R_ESP + 12)); } void uFpuU_32(x64emu_t *emu, uintptr_t fcn) { uFpuU_t fn = (uFpuU_t)fcn; R_EAX = (uint32_t)fn(from_ptriv(R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptri(uint64_t, R_ESP + 12)); } void uFppu_32(x64emu_t *emu, uintptr_t fcn) { uFppu_t fn = (uFppu_t)fcn; R_EAX = (uint32_t)fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptri(uint32_t, R_ESP + 12)); } void fFuii_32(x64emu_t *emu, uintptr_t fcn) { fFuii_t fn = (fFuii_t)fcn; float fl = fn(from_ptri(uint32_t, R_ESP + 4), from_ptri(int32_t, R_ESP + 8), from_ptri(int32_t, R_ESP + 12)); fpu_do_push(emu); ST0val = fl; } @@ -1524,6 +1530,7 @@ void lFpLL_32(x64emu_t *emu, uintptr_t fcn) { lFpLL_t fn = (lFpLL_t)fcn; R_EAX = void lFppi_32(x64emu_t *emu, uintptr_t fcn) { lFppi_t fn = (lFppi_t)fcn; R_EAX = to_long(fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptri(int32_t, R_ESP + 12))); } void lFppL_32(x64emu_t *emu, uintptr_t fcn) { lFppL_t fn = (lFppL_t)fcn; R_EAX = to_long(fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12)))); } void LFEpi_32(x64emu_t *emu, uintptr_t fcn) { LFEpi_t fn = (LFEpi_t)fcn; R_EAX = to_ulong(fn(emu, from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8))); } +void LFEpp_32(x64emu_t *emu, uintptr_t fcn) { LFEpp_t fn = (LFEpp_t)fcn; R_EAX = to_ulong(fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8))); } void LFpii_32(x64emu_t *emu, uintptr_t fcn) { LFpii_t fn = (LFpii_t)fcn; R_EAX = to_ulong(fn(from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8), from_ptri(int32_t, R_ESP + 12))); } void LFpip_32(x64emu_t *emu, uintptr_t fcn) { LFpip_t fn = (LFpip_t)fcn; R_EAX = to_ulong(fn(from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8), from_ptriv(R_ESP + 12))); } void LFppi_32(x64emu_t *emu, uintptr_t fcn) { LFppi_t fn = (LFppi_t)fcn; R_EAX = to_ulong(fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptri(int32_t, R_ESP + 12))); } @@ -1719,6 +1726,7 @@ void lFiipL_32(x64emu_t *emu, uintptr_t fcn) { lFiipL_t fn = (lFiipL_t)fcn; R_EA void lFipLi_32(x64emu_t *emu, uintptr_t fcn) { lFipLi_t fn = (lFipLi_t)fcn; R_EAX = to_long(fn(from_ptri(int32_t, R_ESP + 4), from_ptriv(R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12)), from_ptri(int32_t, R_ESP + 16))); } void lFipLl_32(x64emu_t *emu, uintptr_t fcn) { lFipLl_t fn = (lFipLl_t)fcn; R_EAX = to_long(fn(from_ptri(int32_t, R_ESP + 4), from_ptriv(R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12)), to_long(from_ptri(long_t, R_ESP + 16)))); } void lFpuip_32(x64emu_t *emu, uintptr_t fcn) { lFpuip_t fn = (lFpuip_t)fcn; R_EAX = to_long(fn(from_ptriv(R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptri(int32_t, R_ESP + 12), from_ptriv(R_ESP + 16))); } +void LFEpLp_32(x64emu_t *emu, uintptr_t fcn) { LFEpLp_t fn = (LFEpLp_t)fcn; R_EAX = to_ulong(fn(emu, from_ptriv(R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)), from_ptriv(R_ESP + 12))); } void LFEXii_32(x64emu_t *emu, uintptr_t fcn) { LFEXii_t fn = (LFEXii_t)fcn; R_EAX = to_ulong(fn(emu, getDisplay(from_ptriv(R_ESP + 4)), from_ptri(int32_t, R_ESP + 8), from_ptri(int32_t, R_ESP + 12))); } void LFpLLS_32(x64emu_t *emu, uintptr_t fcn) { LFpLLS_t fn = (LFpLLS_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)), io_convert32(from_ptriv(R_ESP + 16)))); } void LFppLp_32(x64emu_t *emu, uintptr_t fcn) { LFppLp_t fn = (LFppLp_t)fcn; R_EAX = to_ulong(fn(from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12)), from_ptriv(R_ESP + 16))); } @@ -1851,6 +1859,7 @@ void vFppppp_32(x64emu_t *emu, uintptr_t fcn) { vFppppp_t fn = (vFppppp_t)fcn; f void iFEiiip_32(x64emu_t *emu, uintptr_t fcn) { iFEiiip_t fn = (iFEiiip_t)fcn; R_EAX = fn(emu, from_ptri(int32_t, R_ESP + 4), from_ptri(int32_t, R_ESP + 8), from_ptri(int32_t, R_ESP + 12), from_ptriv(R_ESP + 16)); } void iFEipii_32(x64emu_t *emu, uintptr_t fcn) { iFEipii_t fn = (iFEipii_t)fcn; R_EAX = fn(emu, from_ptri(int32_t, R_ESP + 4), from_ptriv(R_ESP + 8), from_ptri(int32_t, R_ESP + 12), from_ptri(int32_t, R_ESP + 16)); } void iFEpipp_32(x64emu_t *emu, uintptr_t fcn) { iFEpipp_t fn = (iFEpipp_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)); } +void iFEpupu_32(x64emu_t *emu, uintptr_t fcn) { iFEpupu_t fn = (iFEpupu_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptriv(R_ESP + 12), from_ptri(uint32_t, R_ESP + 16)); } void iFEpupV_32(x64emu_t *emu, uintptr_t fcn) { iFEpupV_t fn = (iFEpupV_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptri(uint32_t, R_ESP + 8), from_ptriv(R_ESP + 12), from_ptrv(R_ESP + 16)); } void iFEpLpp_32(x64emu_t *emu, uintptr_t fcn) { iFEpLpp_t fn = (iFEpLpp_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)); } void iFEpLpV_32(x64emu_t *emu, uintptr_t fcn) { iFEpLpV_t fn = (iFEpLpV_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_ptrv(R_ESP + 16)); } @@ -1966,6 +1975,7 @@ void iFEuppup_32(x64emu_t *emu, uintptr_t fcn) { iFEuppup_t fn = (iFEuppup_t)fcn void iFEuppLp_32(x64emu_t *emu, uintptr_t fcn) { iFEuppLp_t fn = (iFEuppLp_t)fcn; R_EAX = fn(emu, from_ptri(uint32_t, R_ESP + 4), from_ptriv(R_ESP + 8), from_ptriv(R_ESP + 12), to_ulong(from_ptri(ulong_t, R_ESP + 16)), from_ptriv(R_ESP + 20)); } void iFEpiLpp_32(x64emu_t *emu, uintptr_t fcn) { iFEpiLpp_t fn = (iFEpiLpp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptri(int32_t, R_ESP + 8), to_ulong(from_ptri(ulong_t, R_ESP + 12)), from_ptriv(R_ESP + 16), from_ptriv(R_ESP + 20)); } void iFEplluu_32(x64emu_t *emu, uintptr_t fcn) { iFEplluu_t fn = (iFEplluu_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), to_long(from_ptri(long_t, R_ESP + 8)), to_long(from_ptri(long_t, R_ESP + 12)), from_ptri(uint32_t, R_ESP + 16), from_ptri(uint32_t, R_ESP + 20)); } +void iFEpLlpp_32(x64emu_t *emu, uintptr_t fcn) { iFEpLlpp_t fn = (iFEpLlpp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), to_ulong(from_ptri(ulong_t, R_ESP + 8)), to_long(from_ptri(long_t, R_ESP + 12)), from_ptriv(R_ESP + 16), from_ptriv(R_ESP + 20)); } void iFEppipp_32(x64emu_t *emu, uintptr_t fcn) { iFEppipp_t fn = (iFEppipp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptri(int32_t, R_ESP + 12), from_ptriv(R_ESP + 16), from_ptriv(R_ESP + 20)); } void iFEppllp_32(x64emu_t *emu, uintptr_t fcn) { iFEppllp_t fn = (iFEppllp_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), to_long(from_ptri(long_t, R_ESP + 12)), to_long(from_ptri(long_t, R_ESP + 16)), from_ptriv(R_ESP + 20)); } void iFEpppup_32(x64emu_t *emu, uintptr_t fcn) { iFEpppup_t fn = (iFEpppup_t)fcn; R_EAX = fn(emu, from_ptriv(R_ESP + 4), from_ptriv(R_ESP + 8), from_ptriv(R_ESP + 12), from_ptri(uint32_t, R_ESP + 16), from_ptriv(R_ESP + 20)); } |