extern signed int _X1xi_1 asm ( "xx" ); signed int _X4mainFi_iPPKc__1(signed int _X4argci_1, const char **_X4argvPPKc_1){ __attribute__ ((unused)) signed int _X12_retval_maini_1; asm ( "nop" : : : ); asm ( "nop" : : : ); asm ( "nop" : : : ); static signed int _X1yi_2 asm ( "yy" ); static signed int *_X1zPi_2 asm ( "zz" ); signed int _X3srci_2; signed int _X3dsti_2; asm volatile ( "mov %1, %0\n\t" "add $1, %0" : : : ); asm volatile ( "mov %1, %0\n\t" "add $1, %0" : "=" "r" ( _X3dsti_2 ) : : ); asm volatile ( "mov %1, %0\n\t" "add $1, %0" : "=r" ( _X3dsti_2 ) : "r" ( _X3srci_2 ) : ); asm ( "mov %1, %0\n\t" "add $1, %0" : "=r" ( _X3dsti_2 ), "=r" ( _X3srci_2 ) : [ src ] "r" ( _X3dsti_2 ) : "r0" ); L2: L1: asm goto ( "frob %%r5, %1; jc %l[L1]; mov (%2), %%r5" : : "r" ( _X3srci_2 ), "r" ( (&_X3dsti_2) ) : "r5", "memory" : L1, L2 ); double _Complex _X2c1Cd_2; double _Complex _X2c2Cd_2; const signed int _X2i1Ki_2; const signed int _X2i2Ki_2; const signed int _X2i3Ki_2; inline signed int _X2f1Fi___2(void){ __attribute__ ((unused)) signed int _X10_retval_f1i_2; } inline signed int _X2f2Fi___2(void){ __attribute__ ((unused)) signed int _X10_retval_f2i_2; } signed int _X2s1i_2; signed int _X2s2i_2; volatile signed int _X2v1Vi_2; volatile signed int _X2v2Vi_2; signed int _X2t1i_2; signed int _X2t2i_2; __extension__ const signed int _X2exKi_2; struct S { __extension__ signed int _X1ai_2; __extension__ signed int _X1bi_2; __extension__ signed int _X1ci_2; }; inline void _X12_constructorFv_S1S_autogen___2(__attribute__ ((unused)) struct S *_X4_dstS1S_2){ { ((void)((*_X4_dstS1S_2)._X1ai_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1bi_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1ci_2) /* ?{} */); } } inline void _X12_constructorFv_S1SS1S_autogen___2(__attribute__ ((unused)) struct S *_X4_dstS1S_2, __attribute__ ((unused)) struct S _X4_srcS1S_2){ { ((void)((*_X4_dstS1S_2)._X1ai_2=_X4_srcS1S_2._X1ai_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1bi_2=_X4_srcS1S_2._X1bi_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1ci_2=_X4_srcS1S_2._X1ci_2) /* ?{} */); } } inline void _X11_destructorFv_S1S_autogen___2(__attribute__ ((unused)) struct S *_X4_dstS1S_2){ { ((void)((*_X4_dstS1S_2)._X1ci_2) /* ^?{} */); } { ((void)((*_X4_dstS1S_2)._X1bi_2) /* ^?{} */); } { ((void)((*_X4_dstS1S_2)._X1ai_2) /* ^?{} */); } } inline struct S _X16_operator_assignFS1S_S1SS1S_autogen___2(__attribute__ ((unused)) struct S *_X4_dstS1S_2, __attribute__ ((unused)) struct S _X4_srcS1S_2){ __attribute__ ((unused)) struct S _X4_retS1S_2; { ((void)((*_X4_dstS1S_2)._X1ai_2=_X4_srcS1S_2._X1ai_2)); } { ((void)((*_X4_dstS1S_2)._X1bi_2=_X4_srcS1S_2._X1bi_2)); } { ((void)((*_X4_dstS1S_2)._X1ci_2=_X4_srcS1S_2._X1ci_2)); } { ((void)_X12_constructorFv_S1SS1S_autogen___2((&_X4_retS1S_2), (*_X4_dstS1S_2))); } return _X4_retS1S_2; } inline void _X12_constructorFv_S1Si_autogen___2(__attribute__ ((unused)) struct S *_X4_dstS1S_2, signed int _X1ai_2){ { ((void)((*_X4_dstS1S_2)._X1ai_2=_X1ai_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1bi_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1ci_2) /* ?{} */); } } inline void _X12_constructorFv_S1Sii_autogen___2(__attribute__ ((unused)) struct S *_X4_dstS1S_2, signed int _X1ai_2, signed int _X1bi_2){ { ((void)((*_X4_dstS1S_2)._X1ai_2=_X1ai_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1bi_2=_X1bi_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1ci_2) /* ?{} */); } } inline void _X12_constructorFv_S1Siii_autogen___2(__attribute__ ((unused)) struct S *_X4_dstS1S_2, signed int _X1ai_2, signed int _X1bi_2, signed int _X1ci_2){ { ((void)((*_X4_dstS1S_2)._X1ai_2=_X1ai_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1bi_2=_X1bi_2) /* ?{} */); } { ((void)((*_X4_dstS1S_2)._X1ci_2=_X1ci_2) /* ?{} */); } } signed int _X1ii_2 = __extension__ 3; __extension__ signed int _X1ai_2; __extension__ signed int _X1bi_2; __extension__ signed int _X1ci_2; { ((void)(((void)(((void)__extension__ _X1ai_2) , __extension__ _X1bi_2)) , __extension__ _X1ci_2)); } { ((void)(__extension__ _X1ai_2=(__extension__ _X1bi_2+__extension__ _X1ci_2))); } { ((void)(__extension__ _X1ai_2=__extension__ (__extension__ _X1bi_2+__extension__ _X1ci_2))); } signed int _X2a1i_2; const signed int _X2a2Ki_2; static const signed int _X2a3Ki_2; static const signed int _X2a4Ki_2; static const signed int _X2a5Ki_2; static const signed int _X2a6Ki_2; static const signed int _X2a7Ki_2; signed int *_X2p1Pi_2; signed int *_X2p2Pi_2; struct s1; struct s2 { signed int _X1ii_2; }; inline void _X12_constructorFv_S2s2_autogen___2(__attribute__ ((unused)) struct s2 *_X4_dstS2s2_2){ { ((void)((*_X4_dstS2s2_2)._X1ii_2) /* ?{} */); } } inline void _X12_constructorFv_S2s2S2s2_autogen___2(__attribute__ ((unused)) struct s2 *_X4_dstS2s2_2, __attribute__ ((unused)) struct s2 _X4_srcS2s2_2){ { ((void)((*_X4_dstS2s2_2)._X1ii_2=_X4_srcS2s2_2._X1ii_2) /* ?{} */); } } inline void _X11_destructorFv_S2s2_autogen___2(__attribute__ ((unused)) struct s2 *_X4_dstS2s2_2){ { ((void)((*_X4_dstS2s2_2)._X1ii_2) /* ^?{} */); } } inline struct s2 _X16_operator_assignFS2s2_S2s2S2s2_autogen___2(__attribute__ ((unused)) struct s2 *_X4_dstS2s2_2, __attribute__ ((unused)) struct s2 _X4_srcS2s2_2){ __attribute__ ((unused)) struct s2 _X4_retS2s2_2; { ((void)((*_X4_dstS2s2_2)._X1ii_2=_X4_srcS2s2_2._X1ii_2)); } { ((void)_X12_constructorFv_S2s2S2s2_autogen___2((&_X4_retS2s2_2), (*_X4_dstS2s2_2))); } return _X4_retS2s2_2; } inline void _X12_constructorFv_S2s2i_autogen___2(__attribute__ ((unused)) struct s2 *_X4_dstS2s2_2, signed int _X1ii_2){ { ((void)((*_X4_dstS2s2_2)._X1ii_2=_X1ii_2) /* ?{} */); } } struct s3 { signed int _X1ii_2; }; inline void _X12_constructorFv_S2s3_autogen___2(__attribute__ ((unused)) struct s3 *_X4_dstS2s3_2){ { ((void)((*_X4_dstS2s3_2)._X1ii_2) /* ?{} */); } } inline void _X12_constructorFv_S2s3S2s3_autogen___2(__attribute__ ((unused)) struct s3 *_X4_dstS2s3_2, __attribute__ ((unused)) struct s3 _X4_srcS2s3_2){ { ((void)((*_X4_dstS2s3_2)._X1ii_2=_X4_srcS2s3_2._X1ii_2) /* ?{} */); } } inline void _X11_destructorFv_S2s3_autogen___2(__attribute__ ((unused)) struct s3 *_X4_dstS2s3_2){ { ((void)((*_X4_dstS2s3_2)._X1ii_2) /* ^?{} */); } } inline struct s3 _X16_operator_assignFS2s3_S2s3S2s3_autogen___2(__attribute__ ((unused)) struct s3 *_X4_dstS2s3_2, __attribute__ ((unused)) struct s3 _X4_srcS2s3_2){ __attribute__ ((unused)) struct s3 _X4_retS2s3_2; { ((void)((*_X4_dstS2s3_2)._X1ii_2=_X4_srcS2s3_2._X1ii_2)); } { ((void)_X12_constructorFv_S2s3S2s3_autogen___2((&_X4_retS2s3_2), (*_X4_dstS2s3_2))); } return _X4_retS2s3_2; } inline void _X12_constructorFv_S2s3i_autogen___2(__attribute__ ((unused)) struct s3 *_X4_dstS2s3_2, signed int _X1ii_2){ { ((void)((*_X4_dstS2s3_2)._X1ii_2=_X1ii_2) /* ?{} */); } } struct s3 _X2x1S2s3_2; struct s3 _X2y1S2s3_2; struct s4 { signed int _X1ii_2; }; inline void _X12_constructorFv_S2s4_autogen___2(__attribute__ ((unused)) struct s4 *_X4_dstS2s4_2){ { ((void)((*_X4_dstS2s4_2)._X1ii_2) /* ?{} */); } } inline void _X12_constructorFv_S2s4S2s4_autogen___2(__attribute__ ((unused)) struct s4 *_X4_dstS2s4_2, __attribute__ ((unused)) struct s4 _X4_srcS2s4_2){ { ((void)((*_X4_dstS2s4_2)._X1ii_2=_X4_srcS2s4_2._X1ii_2) /* ?{} */); } } inline void _X11_destructorFv_S2s4_autogen___2(__attribute__ ((unused)) struct s4 *_X4_dstS2s4_2){ { ((void)((*_X4_dstS2s4_2)._X1ii_2) /* ^?{} */); } } inline struct s4 _X16_operator_assignFS2s4_S2s4S2s4_autogen___2(__attribute__ ((unused)) struct s4 *_X4_dstS2s4_2, __attribute__ ((unused)) struct s4 _X4_srcS2s4_2){ __attribute__ ((unused)) struct s4 _X4_retS2s4_2; { ((void)((*_X4_dstS2s4_2)._X1ii_2=_X4_srcS2s4_2._X1ii_2)); } { ((void)_X12_constructorFv_S2s4S2s4_autogen___2((&_X4_retS2s4_2), (*_X4_dstS2s4_2))); } return _X4_retS2s4_2; } inline void _X12_constructorFv_S2s4i_autogen___2(__attribute__ ((unused)) struct s4 *_X4_dstS2s4_2, signed int _X1ii_2){ { ((void)((*_X4_dstS2s4_2)._X1ii_2=_X1ii_2) /* ?{} */); } } struct s4 _X2x2S2s4_2; struct s4 _X2y2S2s4_2; signed int _X2m1A0i_2[((unsigned long int )10)]; signed int _X2m2A0A0i_2[((unsigned long int )10)][((unsigned long int )10)]; signed int _X2m3A0A0i_2[((unsigned long int )10)][((unsigned long int )10)]; void _X4f128Fv_n__2(__int128 _X1in_2); void _X4f128Fv_o__2(unsigned __int128 __anonymous_object0); __int128 _X6i128_0n_2; { ((void)_X4f128Fv_n__2(_X6i128_0n_2)); } unsigned __int128 _X6i128_1o_2; { ((void)_X4f128Fv_o__2(_X6i128_1o_2)); } __int128 _X6i128_2n_2; { ((void)_X4f128Fv_n__2(_X6i128_2n_2)); } unsigned __int128 _X6i128_3o_2; { ((void)_X4f128Fv_o__2(_X6i128_3o_2)); } { ((void)(_X12_retval_maini_1=0) /* ?{} */); } return _X12_retval_maini_1; } static inline int invoke_main(int argc, char* argv[], char* envp[]) { (void)argc; (void)argv; (void)envp; return _X4mainFi_iPPKc__1((signed int )argc, (const char **)argv); } static inline signed int invoke_main(signed int argc, char **argv, char **envp); signed int _X13cfa_args_argci_1; char **_X13cfa_args_argvPPc_1; char **_X13cfa_args_envpPPc_1; __attribute__ ((weak)) extern signed int _X17cfa_main_returnedi_1; signed int main(signed int _X4argci_1, char **_X4argvPPc_1, char **_X4envpPPc_1){ __attribute__ ((unused)) signed int _X12_retval_maini_1; { ((void)(_X13cfa_args_argci_1=_X4argci_1)); } { ((void)(_X13cfa_args_argvPPc_1=_X4argvPPc_1)); } { ((void)(_X13cfa_args_envpPPc_1=_X4envpPPc_1)); } signed int _tmp_cp_ret8; signed int _X3reti_2 = (((void)(_tmp_cp_ret8=invoke_main(_X4argci_1, _X4argvPPc_1, _X4envpPPc_1))) , _tmp_cp_ret8); if ( ((&_X17cfa_main_returnedi_1)!=((signed int *)0)) ) { { ((void)(_X17cfa_main_returnedi_1=((signed int )1))); } } { ((void)(_X12_retval_maini_1=_X3reti_2) /* ?{} */); } return _X12_retval_maini_1; }