Mercurial > pub > dyncall > dyncall
view test/plain_c++/test_main.cc @ 0:3e629dc19168
initial from svn dyncall-1745
| author | Daniel Adler |
|---|---|
| date | Thu, 19 Mar 2015 22:24:28 +0100 |
| parents | |
| children | e63089fe5bef |
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/* Package: dyncall Library: test File: test/plain_c++/test_main.cc Description: License: Copyright (c) 2007-2015 Daniel Adler <dadler@uni-goettingen.de>, Tassilo Philipp <tphilipp@potion-studios.com> Permission to use, copy, modify, and distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "test_framework.h" #include "../../dyncall/dyncall.h" #include "../common/platformInit.h" #include "../common/platformInit.c" /* Impl. for functions only used in this translation unit */ /* ------------------------------------------------------------------------- * test: identity function calls * ------------------------------------------------------------------------- */ #define DEF_FUNCS(API,NAME) \ void API fun_##NAME##_v() { } \ DCbool API fun_##NAME##_b(DCbool x) { return x; } \ DCint API fun_##NAME##_i(DCint x) { return x; } \ DClong API fun_##NAME##_j(DClong x) { return x; } \ DClonglong API fun_##NAME##_l(DClonglong x) { return x; } \ DCfloat API fun_##NAME##_f(DCfloat x) { return x; } \ DCdouble API fun_##NAME##_d(DCdouble x) { return x; } \ DCpointer API fun_##NAME##_p(DCpointer x) { return x; } /* __cdecl */ #if !defined(DC__OS_Win32) # define __declspec(X) # define __cdecl #endif /* ------------------------------------------------------------------------- * test: identity this calls * ------------------------------------------------------------------------- */ union ValueUnion { DCbool B; DCint i; DClong j; DClonglong l; DCfloat f; DCdouble d; DCpointer p; }; /* C++ class using __cdecl this call */ // #define VTBI_DESTRUCTOR 0 /* * the layout of the VTable is non-standard and it is not clear what is the initial real first method index. * so for it turns out that: * on vc/x86 : 1 * on GCC/x86 : 2 */ #if defined DC__C_MSVC #define VTBI_BASE 1 #else #define VTBI_BASE 2 #endif #define VTBI_SET_BOOL VTBI_BASE+0 #define VTBI_GET_BOOL VTBI_BASE+1 #define VTBI_SET_INT VTBI_BASE+2 #define VTBI_GET_INT VTBI_BASE+3 #define VTBI_SET_LONG VTBI_BASE+4 #define VTBI_GET_LONG VTBI_BASE+5 #define VTBI_SET_LONG_LONG VTBI_BASE+6 #define VTBI_GET_LONG_LONG VTBI_BASE+7 #define VTBI_SET_FLOAT VTBI_BASE+8 #define VTBI_GET_FLOAT VTBI_BASE+9 #define VTBI_SET_DOUBLE VTBI_BASE+10 #define VTBI_GET_DOUBLE VTBI_BASE+11 #define VTBI_SET_POINTER VTBI_BASE+12 #define VTBI_GET_POINTER VTBI_BASE+13 class Value { public: virtual ~Value() {} virtual void __cdecl setBool(DCbool x) { mValue.B = x; } virtual DCbool __cdecl getBool() { return mValue.B; } virtual void __cdecl setInt(DCint x) { mValue.i = x; } virtual DCint __cdecl getInt() { return mValue.i; } virtual void __cdecl setLong(DClong x) { mValue.j = x; } virtual DClong __cdecl getLong() { return mValue.j; } virtual void __cdecl setLongLong(DClonglong x) { mValue.l = x; } virtual DClonglong __cdecl getLongLong() { return mValue.l; } virtual void __cdecl setFloat(DCfloat x) { mValue.f = x; } virtual DCfloat __cdecl getFloat() { return mValue.f; } virtual void __cdecl setDouble(DCdouble x) { mValue.d = x; } virtual DCdouble __cdecl getDouble() { return mValue.d; } virtual void __cdecl setPtr(DCpointer x) { mValue.p = x; } virtual DCpointer __cdecl getPtr() { return mValue.p; } private: ValueUnion mValue; }; /* C++ class using (on win32: microsoft) this call */ class ValueMS { public: virtual ~ValueMS() {} virtual void setBool(DCbool x) { mValue.B = x; } virtual DCbool getBool() { return mValue.B; } virtual void setInt(DCint x) { mValue.i = x; } virtual DCint getInt() { return mValue.i; } virtual void setLong(DClong x) { mValue.j = x; } virtual DClong getLong() { return mValue.j; } virtual void setLongLong(DClonglong x) { mValue.l = x; } virtual DClonglong getLongLong() { return mValue.l; } virtual void setFloat(DCfloat x) { mValue.f = x; } virtual DCfloat getFloat() { return mValue.f; } virtual void setDouble(DCdouble x) { mValue.d = x; } virtual DCdouble getDouble() { return mValue.d; } virtual void setPtr(DCpointer x) { mValue.p = x; } virtual DCpointer getPtr() { return mValue.p; } private: ValueUnion mValue; }; template<typename T> void testCallValue(DCCallVM* pc) { T o; T* pThis = &o; DCpointer* vtbl = *( (DCpointer**) pThis ); /* vtbl is located at beginning of class */ /* set/get bool (TRUE) */ dcReset(pc); dcArgPointer(pc, pThis); dcArgBool(pc,DC_TRUE); dcCallVoid(pc, vtbl[VTBI_SET_BOOL] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallBool(pc, vtbl[VTBI_GET_BOOL] ) == DC_TRUE ); /* set/get bool (FALSE) */ dcReset(pc); dcArgPointer(pc, pThis); dcArgBool(pc,DC_FALSE); dcCallVoid(pc, vtbl[VTBI_SET_BOOL] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallBool(pc, vtbl[VTBI_GET_BOOL] ) == DC_FALSE ); /* set/get int */ dcReset(pc); dcArgPointer(pc, pThis); dcArgInt(pc,1234); dcCallVoid(pc, vtbl[VTBI_SET_INT] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallInt(pc, vtbl[VTBI_GET_INT] ) == 1234 ); /* set/get long */ dcReset(pc); dcArgPointer(pc, pThis); dcArgLong(pc,0xCAFEBABEUL); dcCallVoid(pc, vtbl[VTBI_SET_LONG] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallLong(pc, vtbl[VTBI_GET_LONG] ) == (DClong)0xCAFEBABEUL ); /* set/get long long */ dcReset(pc); dcArgPointer(pc, pThis); dcArgLongLong(pc,0xCAFEBABEDEADC0DELL); dcCallVoid(pc, vtbl[VTBI_SET_LONG_LONG] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallLongLong(pc, vtbl[VTBI_GET_LONG_LONG] ) == (DClonglong)0xCAFEBABEDEADC0DELL ); /* set/get float */ dcReset(pc); dcArgPointer(pc, pThis); dcArgFloat(pc,1.2345f); dcCallVoid(pc, vtbl[VTBI_SET_FLOAT] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallFloat(pc, vtbl[VTBI_GET_FLOAT] ) == 1.2345f ); /* set/get double */ dcReset(pc); dcArgPointer(pc, pThis); dcArgDouble(pc,1.23456789); dcCallVoid(pc, vtbl[VTBI_SET_DOUBLE] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallDouble(pc, vtbl[VTBI_GET_DOUBLE] ) == 1.23456789 ); /* set/get pointer */ dcReset(pc); dcArgPointer(pc, pThis); dcArgPointer(pc, (DCpointer) 0xCAFEBABE ); dcCallVoid(pc, vtbl[VTBI_SET_POINTER] ); dcReset(pc); dcArgPointer(pc, pThis); DC_TEST( dcCallPointer(pc, vtbl[VTBI_GET_POINTER] ) == ( (DCpointer) 0xCAFEBABE ) ); } #ifdef DC__OS_Win32 DC_DEFINE_TEST_FUNC_BEGIN(testCallThisMS) DCCallVM* pc = dcNewCallVM(4096); dcMode(pc,DC_CALL_C_X86_WIN32_THIS_MS); dcReset(pc); testCallValue<ValueMS>(pc); dcFree(pc); DC_DEFINE_TEST_FUNC_END #endif DC_DEFINE_TEST_FUNC_BEGIN(testCallThisC) DCCallVM* pc = dcNewCallVM(4096); dcReset(pc); testCallValue<Value>(pc); dcFree(pc); DC_DEFINE_TEST_FUNC_END extern "C" { int main(int argc, char* argv[]) { dcTest_initPlatform(); int b = TRUE; #if defined(DC__OS_Win32) // ThisCall temporarily only for win 32 @@@ b = b && testCallThisC(); printf("ThisC:%d\n",b); #if defined(DC__C_MSVC) b = b && testCallThisMS(); printf("ThisMS:%d\n",b); #endif #endif printf("result: plain_cpp: %d\n", b); dcTest_deInitPlatform(); return !b; } } // extern "C"