# 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/build/Minimalistic_Memo_Manager_3M//" # 1 "" #define __STDC__ 1 #define __STDC_VERSION__ 199901L #define __STDC_UTF_16__ 1 #define __STDC_UTF_32__ 1 #define __STDC_HOSTED__ 1 #define __GNUC__ 8 #define __GNUC_MINOR__ 4 #define __GNUC_PATCHLEVEL__ 0 #define __VERSION__ "8.4.0" #define __ATOMIC_RELAXED 0 #define __ATOMIC_SEQ_CST 5 #define __ATOMIC_ACQUIRE 2 #define __ATOMIC_RELEASE 3 #define __ATOMIC_ACQ_REL 4 #define __ATOMIC_CONSUME 1 #define __pic__ 2 #define __PIC__ 2 #define __pie__ 2 #define __PIE__ 2 #define __FINITE_MATH_ONLY__ 0 #define __SIZEOF_INT__ 4 #define __SIZEOF_LONG__ 4 #define __SIZEOF_LONG_LONG__ 8 #define __SIZEOF_SHORT__ 2 #define __SIZEOF_FLOAT__ 4 #define __SIZEOF_DOUBLE__ 8 #define __SIZEOF_LONG_DOUBLE__ 12 #define __SIZEOF_SIZE_T__ 4 #define __CHAR_BIT__ 8 #define __BIGGEST_ALIGNMENT__ 16 #define __ORDER_LITTLE_ENDIAN__ 1234 #define __ORDER_BIG_ENDIAN__ 4321 #define __ORDER_PDP_ENDIAN__ 3412 #define __BYTE_ORDER__ __ORDER_LITTLE_ENDIAN__ #define __FLOAT_WORD_ORDER__ __ORDER_LITTLE_ENDIAN__ #define __SIZEOF_POINTER__ 4 #define __SIZE_TYPE__ unsigned int #define __PTRDIFF_TYPE__ int #define __WCHAR_TYPE__ long int #define __WINT_TYPE__ unsigned int #define __INTMAX_TYPE__ long long int #define __UINTMAX_TYPE__ long long unsigned int #define __CHAR16_TYPE__ short unsigned int #define __CHAR32_TYPE__ unsigned int #define __SIG_ATOMIC_TYPE__ int #define __INT8_TYPE__ signed char #define __INT16_TYPE__ short int #define __INT32_TYPE__ int #define __INT64_TYPE__ long long int #define __UINT8_TYPE__ unsigned char #define __UINT16_TYPE__ short unsigned int #define __UINT32_TYPE__ unsigned int #define __UINT64_TYPE__ long long unsigned int #define __INT_LEAST8_TYPE__ signed char #define __INT_LEAST16_TYPE__ short int #define __INT_LEAST32_TYPE__ int #define __INT_LEAST64_TYPE__ long long int #define __UINT_LEAST8_TYPE__ unsigned char #define __UINT_LEAST16_TYPE__ short unsigned int #define __UINT_LEAST32_TYPE__ unsigned int #define __UINT_LEAST64_TYPE__ long long unsigned int #define __INT_FAST8_TYPE__ signed char #define __INT_FAST16_TYPE__ int #define __INT_FAST32_TYPE__ int #define __INT_FAST64_TYPE__ long long int #define __UINT_FAST8_TYPE__ unsigned char #define __UINT_FAST16_TYPE__ unsigned int #define __UINT_FAST32_TYPE__ unsigned int #define __UINT_FAST64_TYPE__ long long unsigned int #define __INTPTR_TYPE__ int #define __UINTPTR_TYPE__ unsigned int #define __has_include(STR) __has_include__(STR) #define __has_include_next(STR) __has_include_next__(STR) #define __GXX_ABI_VERSION 1013 #define __SCHAR_MAX__ 0x7f #define __SHRT_MAX__ 0x7fff #define __INT_MAX__ 0x7fffffff #define __LONG_MAX__ 0x7fffffffL #define __LONG_LONG_MAX__ 0x7fffffffffffffffLL #define __WCHAR_MAX__ 0x7fffffffL #define __WCHAR_MIN__ (-__WCHAR_MAX__ - 1) #define __WINT_MAX__ 0xffffffffU #define __WINT_MIN__ 0U #define __PTRDIFF_MAX__ 0x7fffffff #define __SIZE_MAX__ 0xffffffffU #define __SCHAR_WIDTH__ 8 #define __SHRT_WIDTH__ 16 #define __INT_WIDTH__ 32 #define __LONG_WIDTH__ 32 #define __LONG_LONG_WIDTH__ 64 #define __WCHAR_WIDTH__ 32 #define __WINT_WIDTH__ 32 #define __PTRDIFF_WIDTH__ 32 #define __SIZE_WIDTH__ 32 #define __INTMAX_MAX__ 0x7fffffffffffffffLL #define __INTMAX_C(c) c ## LL #define __UINTMAX_MAX__ 0xffffffffffffffffULL #define __UINTMAX_C(c) c ## ULL #define __INTMAX_WIDTH__ 64 #define __SIG_ATOMIC_MAX__ 0x7fffffff #define __SIG_ATOMIC_MIN__ (-__SIG_ATOMIC_MAX__ - 1) #define __SIG_ATOMIC_WIDTH__ 32 #define __INT8_MAX__ 0x7f #define __INT16_MAX__ 0x7fff #define __INT32_MAX__ 0x7fffffff #define __INT64_MAX__ 0x7fffffffffffffffLL #define __UINT8_MAX__ 0xff #define __UINT16_MAX__ 0xffff #define __UINT32_MAX__ 0xffffffffU #define __UINT64_MAX__ 0xffffffffffffffffULL #define __INT_LEAST8_MAX__ 0x7f #define __INT8_C(c) c #define __INT_LEAST8_WIDTH__ 8 #define __INT_LEAST16_MAX__ 0x7fff #define __INT16_C(c) c #define __INT_LEAST16_WIDTH__ 16 #define __INT_LEAST32_MAX__ 0x7fffffff #define __INT32_C(c) c #define __INT_LEAST32_WIDTH__ 32 #define __INT_LEAST64_MAX__ 0x7fffffffffffffffLL #define __INT64_C(c) c ## LL #define __INT_LEAST64_WIDTH__ 64 #define __UINT_LEAST8_MAX__ 0xff #define __UINT8_C(c) c #define __UINT_LEAST16_MAX__ 0xffff #define __UINT16_C(c) c #define __UINT_LEAST32_MAX__ 0xffffffffU #define __UINT32_C(c) c ## U #define __UINT_LEAST64_MAX__ 0xffffffffffffffffULL #define __UINT64_C(c) c ## ULL #define __INT_FAST8_MAX__ 0x7f #define __INT_FAST8_WIDTH__ 8 #define __INT_FAST16_MAX__ 0x7fffffff #define __INT_FAST16_WIDTH__ 32 #define __INT_FAST32_MAX__ 0x7fffffff #define __INT_FAST32_WIDTH__ 32 #define __INT_FAST64_MAX__ 0x7fffffffffffffffLL #define __INT_FAST64_WIDTH__ 64 #define __UINT_FAST8_MAX__ 0xff #define __UINT_FAST16_MAX__ 0xffffffffU #define __UINT_FAST32_MAX__ 0xffffffffU #define __UINT_FAST64_MAX__ 0xffffffffffffffffULL #define __INTPTR_MAX__ 0x7fffffff #define __INTPTR_WIDTH__ 32 #define __UINTPTR_MAX__ 0xffffffffU #define __GCC_IEC_559 2 #define __GCC_IEC_559_COMPLEX 2 #define __FLT_EVAL_METHOD__ 2 #define __FLT_EVAL_METHOD_TS_18661_3__ 2 #define __DEC_EVAL_METHOD__ 2 #define __FLT_RADIX__ 2 #define __FLT_MANT_DIG__ 24 #define __FLT_DIG__ 6 #define __FLT_MIN_EXP__ (-125) #define __FLT_MIN_10_EXP__ (-37) #define __FLT_MAX_EXP__ 128 #define __FLT_MAX_10_EXP__ 38 #define __FLT_DECIMAL_DIG__ 9 #define __FLT_MAX__ 3.40282346638528859811704183484516925e+38F #define __FLT_MIN__ 1.17549435082228750796873653722224568e-38F #define __FLT_EPSILON__ 1.19209289550781250000000000000000000e-7F #define __FLT_DENORM_MIN__ 1.40129846432481707092372958328991613e-45F #define __FLT_HAS_DENORM__ 1 #define __FLT_HAS_INFINITY__ 1 #define __FLT_HAS_QUIET_NAN__ 1 #define __DBL_MANT_DIG__ 53 #define __DBL_DIG__ 15 #define __DBL_MIN_EXP__ (-1021) #define __DBL_MIN_10_EXP__ (-307) #define __DBL_MAX_EXP__ 1024 #define __DBL_MAX_10_EXP__ 308 #define __DBL_DECIMAL_DIG__ 17 #define __DBL_MAX__ ((double)1.79769313486231570814527423731704357e+308L) #define __DBL_MIN__ ((double)2.22507385850720138309023271733240406e-308L) #define __DBL_EPSILON__ ((double)2.22044604925031308084726333618164062e-16L) #define __DBL_DENORM_MIN__ ((double)4.94065645841246544176568792868221372e-324L) #define __DBL_HAS_DENORM__ 1 #define __DBL_HAS_INFINITY__ 1 #define __DBL_HAS_QUIET_NAN__ 1 #define __LDBL_MANT_DIG__ 64 #define __LDBL_DIG__ 18 #define __LDBL_MIN_EXP__ (-16381) #define __LDBL_MIN_10_EXP__ (-4931) #define __LDBL_MAX_EXP__ 16384 #define __LDBL_MAX_10_EXP__ 4932 #define __DECIMAL_DIG__ 21 #define __LDBL_DECIMAL_DIG__ 21 #define __LDBL_MAX__ 1.18973149535723176502126385303097021e+4932L #define __LDBL_MIN__ 3.36210314311209350626267781732175260e-4932L #define __LDBL_EPSILON__ 1.08420217248550443400745280086994171e-19L #define __LDBL_DENORM_MIN__ 3.64519953188247460252840593361941982e-4951L #define __LDBL_HAS_DENORM__ 1 #define __LDBL_HAS_INFINITY__ 1 #define __LDBL_HAS_QUIET_NAN__ 1 #define __FLT32_MANT_DIG__ 24 #define __FLT32_DIG__ 6 #define __FLT32_MIN_EXP__ (-125) #define __FLT32_MIN_10_EXP__ (-37) #define __FLT32_MAX_EXP__ 128 #define __FLT32_MAX_10_EXP__ 38 #define __FLT32_DECIMAL_DIG__ 9 #define __FLT32_MAX__ 3.40282346638528859811704183484516925e+38F32 #define __FLT32_MIN__ 1.17549435082228750796873653722224568e-38F32 #define __FLT32_EPSILON__ 1.19209289550781250000000000000000000e-7F32 #define __FLT32_DENORM_MIN__ 1.40129846432481707092372958328991613e-45F32 #define __FLT32_HAS_DENORM__ 1 #define __FLT32_HAS_INFINITY__ 1 #define __FLT32_HAS_QUIET_NAN__ 1 #define __FLT64_MANT_DIG__ 53 #define __FLT64_DIG__ 15 #define __FLT64_MIN_EXP__ (-1021) #define __FLT64_MIN_10_EXP__ (-307) #define __FLT64_MAX_EXP__ 1024 #define __FLT64_MAX_10_EXP__ 308 #define __FLT64_DECIMAL_DIG__ 17 #define __FLT64_MAX__ 1.79769313486231570814527423731704357e+308F64 #define __FLT64_MIN__ 2.22507385850720138309023271733240406e-308F64 #define __FLT64_EPSILON__ 2.22044604925031308084726333618164062e-16F64 #define __FLT64_DENORM_MIN__ 4.94065645841246544176568792868221372e-324F64 #define __FLT64_HAS_DENORM__ 1 #define __FLT64_HAS_INFINITY__ 1 #define __FLT64_HAS_QUIET_NAN__ 1 #define __FLT128_MANT_DIG__ 113 #define __FLT128_DIG__ 33 #define __FLT128_MIN_EXP__ (-16381) #define __FLT128_MIN_10_EXP__ (-4931) #define __FLT128_MAX_EXP__ 16384 #define __FLT128_MAX_10_EXP__ 4932 #define __FLT128_DECIMAL_DIG__ 36 #define __FLT128_MAX__ 1.18973149535723176508575932662800702e+4932F128 #define __FLT128_MIN__ 3.36210314311209350626267781732175260e-4932F128 #define __FLT128_EPSILON__ 1.92592994438723585305597794258492732e-34F128 #define __FLT128_DENORM_MIN__ 6.47517511943802511092443895822764655e-4966F128 #define __FLT128_HAS_DENORM__ 1 #define __FLT128_HAS_INFINITY__ 1 #define __FLT128_HAS_QUIET_NAN__ 1 #define __FLT32X_MANT_DIG__ 53 #define __FLT32X_DIG__ 15 #define __FLT32X_MIN_EXP__ (-1021) #define __FLT32X_MIN_10_EXP__ (-307) #define __FLT32X_MAX_EXP__ 1024 #define __FLT32X_MAX_10_EXP__ 308 #define __FLT32X_DECIMAL_DIG__ 17 #define __FLT32X_MAX__ 1.79769313486231570814527423731704357e+308F32x #define __FLT32X_MIN__ 2.22507385850720138309023271733240406e-308F32x #define __FLT32X_EPSILON__ 2.22044604925031308084726333618164062e-16F32x #define __FLT32X_DENORM_MIN__ 4.94065645841246544176568792868221372e-324F32x #define __FLT32X_HAS_DENORM__ 1 #define __FLT32X_HAS_INFINITY__ 1 #define __FLT32X_HAS_QUIET_NAN__ 1 #define __FLT64X_MANT_DIG__ 64 #define __FLT64X_DIG__ 18 #define __FLT64X_MIN_EXP__ (-16381) #define __FLT64X_MIN_10_EXP__ (-4931) #define __FLT64X_MAX_EXP__ 16384 #define __FLT64X_MAX_10_EXP__ 4932 #define __FLT64X_DECIMAL_DIG__ 21 #define __FLT64X_MAX__ 1.18973149535723176502126385303097021e+4932F64x #define __FLT64X_MIN__ 3.36210314311209350626267781732175260e-4932F64x #define __FLT64X_EPSILON__ 1.08420217248550443400745280086994171e-19F64x #define __FLT64X_DENORM_MIN__ 3.64519953188247460252840593361941982e-4951F64x #define __FLT64X_HAS_DENORM__ 1 #define __FLT64X_HAS_INFINITY__ 1 #define __FLT64X_HAS_QUIET_NAN__ 1 #define __DEC32_MANT_DIG__ 7 #define __DEC32_MIN_EXP__ (-94) #define __DEC32_MAX_EXP__ 97 #define __DEC32_MIN__ 1E-95DF #define __DEC32_MAX__ 9.999999E96DF #define __DEC32_EPSILON__ 1E-6DF #define __DEC32_SUBNORMAL_MIN__ 0.000001E-95DF #define __DEC64_MANT_DIG__ 16 #define __DEC64_MIN_EXP__ (-382) #define __DEC64_MAX_EXP__ 385 #define __DEC64_MIN__ 1E-383DD #define __DEC64_MAX__ 9.999999999999999E384DD #define __DEC64_EPSILON__ 1E-15DD #define __DEC64_SUBNORMAL_MIN__ 0.000000000000001E-383DD #define __DEC128_MANT_DIG__ 34 #define __DEC128_MIN_EXP__ (-6142) #define __DEC128_MAX_EXP__ 6145 #define __DEC128_MIN__ 1E-6143DL #define __DEC128_MAX__ 9.999999999999999999999999999999999E6144DL #define __DEC128_EPSILON__ 1E-33DL #define __DEC128_SUBNORMAL_MIN__ 0.000000000000000000000000000000001E-6143DL #define __REGISTER_PREFIX__ #define __USER_LABEL_PREFIX__ #define __GNUC_STDC_INLINE__ 1 #define __NO_INLINE__ 1 #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_1 1 #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_2 1 #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_4 1 #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_8 1 #define __GCC_ATOMIC_BOOL_LOCK_FREE 2 #define __GCC_ATOMIC_CHAR_LOCK_FREE 2 #define __GCC_ATOMIC_CHAR16_T_LOCK_FREE 2 #define __GCC_ATOMIC_CHAR32_T_LOCK_FREE 2 #define __GCC_ATOMIC_WCHAR_T_LOCK_FREE 2 #define __GCC_ATOMIC_SHORT_LOCK_FREE 2 #define __GCC_ATOMIC_INT_LOCK_FREE 2 #define __GCC_ATOMIC_LONG_LOCK_FREE 2 #define __GCC_ATOMIC_LLONG_LOCK_FREE 2 #define __GCC_ATOMIC_TEST_AND_SET_TRUEVAL 1 #define __GCC_ATOMIC_POINTER_LOCK_FREE 2 #define __GCC_HAVE_DWARF2_CFI_ASM 1 #define __PRAGMA_REDEFINE_EXTNAME 1 #define __SIZEOF_WCHAR_T__ 4 #define __SIZEOF_WINT_T__ 4 #define __SIZEOF_PTRDIFF_T__ 4 #define __i386 1 #define __i386__ 1 #define i386 1 #define __SIZEOF_FLOAT80__ 12 #define __SIZEOF_FLOAT128__ 16 #define __ATOMIC_HLE_ACQUIRE 65536 #define __ATOMIC_HLE_RELEASE 131072 #define __GCC_ASM_FLAG_OUTPUTS__ 1 #define __i686 1 #define __i686__ 1 #define __pentiumpro 1 #define __pentiumpro__ 1 #define __code_model_32__ 1 #define __SEG_FS 1 #define __SEG_GS 1 #define __gnu_linux__ 1 #define __linux 1 #define __linux__ 1 #define linux 1 #define __unix 1 #define __unix__ 1 #define unix 1 #define __ELF__ 1 #define __DECIMAL_BID_FORMAT__ 1 # 1 "" #define FORTIFY_SOURCE 0 #define LINUX 1 #define NPATCHED 1 #define errno __cgc_errno #define FILAMENTS 1 # 1 "/usr/include/stdc-predef.h" 1 3 4 # 19 "/usr/include/stdc-predef.h" 3 4 #define _STDC_PREDEF_H 1 # 38 "/usr/include/stdc-predef.h" 3 4 #define __STDC_IEC_559__ 1 #define __STDC_IEC_559_COMPLEX__ 1 # 58 "/usr/include/stdc-predef.h" 3 4 #define __STDC_ISO_10646__ 201706L #define __STDC_NO_THREADS__ 1 # 1 "" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stdlib.h" 1 #define STDLIB_H_ # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_wrapper.h" 1 #define WRAPPER_H #define cgc_transmit cgc___filaments_transmit #define cgc_receive cgc___filaments_receive #define cgc_fdwait cgc___filaments_fdwait #define cgc_allocate cgc___filaments_allocate #define cgc_deallocate cgc___filaments_deallocate #define cgc_random cgc___filaments_random # 5 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stdlib.h" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/include/libcgc.h" 1 #define _LIBCGC_H #define STDIN 0 #define STDOUT 1 #define STDERR 2 #define NULL (0) typedef unsigned long cgc_size_t; typedef long cgc_ssize_t; #define STD_SIZE_T unsigned int #define PAGE_SIZE 4096 #define CGC_FLAG_PAGE_ADDRESS 0x4347C000 #define offsetof(TYPE,MEMBER) __builtin_offsetof (TYPE, MEMBER) #define SSIZE_MAX ((cgc_ssize_t)((~((cgc_size_t)0ULL))>>1)) #define SIZE_MAX (~((cgc_size_t)0ULL)) #define CGC_FD_SETSIZE 1024 typedef long int _fd_mask; #define CGC__NFDBITS (8 * sizeof(_fd_mask)) typedef struct { _fd_mask _fd_bits[1024 / (8 * sizeof(_fd_mask))]; } cgc_fd_set; #define CGC_FD_ZERO(set) do { int __i; for (__i = 0; __i < (CGC_FD_SETSIZE / CGC__NFDBITS); __i++) (set)->_fd_bits[__i] = 0; } while (0) #define CGC_FD_SET(b,set) ((set)->_fd_bits[b / CGC__NFDBITS] |= (1 << (b & (CGC__NFDBITS - 1)))) #define CGC_FD_CLR(b,set) ((set)->_fd_bits[b / CGC__NFDBITS] &= ~(1 << (b & (CGC__NFDBITS - 1)))) #define CGC_FD_ISSET(b,set) ((set)->_fd_bits[b / CGC__NFDBITS] & (1 << (b & (CGC__NFDBITS - 1)))) struct cgc_timeval { int tv_sec; int tv_usec; }; #define CGC_EBADF 1 #define CGC_EFAULT 2 #define CGC_EINVAL 3 #define CGC_ENOMEM 4 #define CGC_ENOSYS 5 #define CGC_EPIPE 6 #define FD_SETSIZE CGC_FD_SETSIZE #define _NFDBITS CGC__NFDBITS #define FD_ZERO CGC_FD_ZERO #define FD_SET CGC_FD_SET #define FD_CLR CGC_FD_CLR #define FD_ISSET CGC_FD_ISSET #define EBADF CGC_EBADF #define EFAULT CGC_EFAULT #define EINVAL CGC_EINVAL #define ENOMEM CGC_ENOMEM #define ENOSYS CGC_ENOSYS #define EPIPE CGC_EPIPE # 122 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/include/libcgc.h" void cgc__terminate(unsigned int status) __attribute__((__noreturn__)); int cgc___filaments_transmit(int fd, const void *buf, cgc_size_t count, cgc_size_t *tx_bytes); int cgc___filaments_receive(int fd, void *buf, cgc_size_t count, cgc_size_t *rx_bytes); int cgc___filaments_fdwait(int nfds, cgc_fd_set *readfds, cgc_fd_set *writefds, const struct cgc_timeval *timeout, int *readyfds); int cgc___filaments_allocate(cgc_size_t length, int is_X, void **addr); int cgc___filaments_deallocate(void *addr, cgc_size_t length); int cgc___filaments_random(void *buf, cgc_size_t count, cgc_size_t *rnd_bytes); typedef struct { long _b[8]; } jmp_buf[1]; extern int cgc_setjmp(jmp_buf) __attribute__((__returns_twice__)); extern void cgc_longjmp(jmp_buf, int) __attribute__((__noreturn__)); extern float cgc_sinf(float); extern double cgc_sin(double); extern long double cgc_sinl(long double); extern float cgc_cosf(float); extern double cgc_cos(double); extern long double cgc_cosl(long double); extern float cgc_tanf(float); extern double cgc_tan(double); extern long double cgc_tanl(long double); extern float cgc_logf(float); extern double cgc_log(double); extern long double cgc_logl(long double); extern float cgc_rintf(float); extern double cgc_rint(double); extern long double cgc_rintl(long double); extern float cgc_sqrtf(float); extern double cgc_sqrt(double); extern long double cgc_sqrtl(long double); extern float cgc_fabsf(float); extern double cgc_fabs(double); extern long double cgc_fabsl(long double); extern float cgc_log2f(float); extern double cgc_log2(double); extern long double cgc_log2l(long double); extern float cgc_exp2f(float); extern double cgc_exp2(double); extern long double cgc_exp2l(long double); extern float cgc_expf(float); extern double cgc_exp(double); extern long double cgc_expl(long double); extern float cgc_log10f(float); extern double cgc_log10(double); extern long double cgc_log10l(long double); extern float cgc_powf(float, float); extern double cgc_pow(double, double); extern long double cgc_powl(long double, long double); extern float cgc_atan2f(float, float); extern double cgc_atan2(double, double); extern long double cgc_atan2l(long double, long double); extern float cgc_remainderf(float, float); extern double cgc_remainder(double, double); extern long double cgc_remainderl(long double, long double); extern float cgc_scalbnf(float, int); extern double cgc_scalbn(double, int); extern long double cgc_scalbnl(long double, int); extern float cgc_scalblnf(float, long int); extern double cgc_scalbln(double, long int); extern long double cgc_scalblnl(long double, long int); extern float cgc_significandf(float); extern double cgc_significand(double); extern long double cgc_significandl(long double); # 6 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stdlib.h" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stdarg.h" 1 #define STDARG_H_ typedef __builtin_va_list __gnuc_va_list; #define va_start(v,l) __builtin_va_start(v,l) #define va_end(v) __builtin_va_end(v) #define va_arg(v,l) __builtin_va_arg(v,l) typedef __gnuc_va_list va_list; # 7 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stdlib.h" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stddef.h" 1 #define STDDEF_H_ #define PAGE_SIZE 4096 typedef long int ptrdiff_t; # 15 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stddef.h" #define offsetof(TYPE,MEMBER) __builtin_offsetof (TYPE, MEMBER) # 8 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_stdlib.h" 2 #define isinf(x) __builtin_isinf(x) #define isnan(x) __builtin_isnan(x) extern int cgc_fdprintf(int fd, const char *fmt, ...); extern int cgc_sprintf(char *s, const char *fmt, ...); #define printf(...) cgc_fdprintf(STDOUT, __VA_ARGS__) long cgc_strtol(const char *str, char **endptr, int base); unsigned long strtoul(const char *str, char **endptr, int base); extern void *cgc_malloc(cgc_size_t size); extern void *cgc_calloc(cgc_size_t nmemb, cgc_size_t size); extern void *cgc_realloc(void *ptr, cgc_size_t size); extern void cgc_free(void *ptr); extern cgc_size_t malloc_size(void *ptr); static void cgc_exit(int ret) { cgc__terminate(ret); } # 4 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_string.h" 1 #define STRING_H_ extern void *cgc_memcpy(void *dest, const void *src, cgc_size_t n); extern void *cgc_memmove(void *dest, const void *src, cgc_size_t n); extern void *cgc_memset(void *dest, int c, cgc_size_t n); extern int memcmp(void *s1, const void *s2, cgc_size_t n); extern void *memchr(const void *s, int c, cgc_size_t n); extern cgc_size_t cgc_strlen(const char *s); extern char *cgc_strcpy(char *dest, const char *src); extern char *cgc_strncpy(char *dest, const char *src, cgc_size_t n); extern char *cgc_strchr(const char *s, int c); extern char *cgc_strsep(char **stringp, const char *delim); extern int cgc_strcmp(char *s1, const char *s2); extern int strncmp(const char *s1, const char *s2, cgc_size_t n); extern int strcasecmp(const char *s1, const char *s2); extern int strncasecmp(const char *s1, const char *s2, cgc_size_t n); extern char *cgc_strcat(char *dest, const char *src); extern char *cgc_strdup(const char *src); # 5 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_ctype.h" 1 #define CTYPE_H_ int cgc_isdigit(int c); int cgc_isascii(int c); int cgc_isprint(int c); int cgc_isalnum(int c); int cgc_isalpha(int c); int cgc_islower(int c); int cgc_isupper(int c); int cgc_isspace(int c); int cgc_ispunct(int c); int cgc_tolower(int c); int cgc_toupper(int c); # 6 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_wrapper.h" 1 # 7 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_filaments.h" 1 # 24 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_filaments.h" #define FILAMENTS_H_ typedef void (*start_func_t) (void *userdata); typedef struct fib { struct fib *next; unsigned int id; void *stack; jmp_buf env; start_func_t start_func; void *userdata; } fib_t; void cgc_filaments_init(); void cgc_filaments_new(start_func_t func, void *userdata); void cgc_filaments_yield(); fib_t *cgc_filaments_current(); void cgc_filaments_switch(fib_t *new_fib); # 9 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_mutex.h" 1 #define MUTEX_H_ # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_filaments.h" 1 # 5 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/lib/cgc_mutex.h" 2 typedef struct { unsigned int locked; fib_t *locker; fib_t *waiter; } mutex_t; static inline void mutex_init(mutex_t *m) { m->locked = 0; m->locker = 0; m->waiter = 0; } void cgc_mutex_lock(mutex_t *mutex); void cgc_mutex_unlock(mutex_t *mutex); # 10 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" 2 # 1 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/cgc_ac.h" 1 # 25 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/cgc_ac.h" #define AC_H #define MAX_AC_LIST 100 #define MAX_AC_LEN 32 typedef struct autocorrect { char typo[32]; char correct[32]; } ac_t; void cgc_ac_init(); void cgc_ac_add_custom(char *, char *); void cgc_ac_process(void *); char *cgc_ac_read(int fd, char term); # 11 "/home/pdreiter/Data/APR_eval/GenProg/v25.cb_eval/Minimalistic_Memo_Manager_3M.transform.ga/Minimalistic_Memo_Manager_3M/src/Minimalistic_Memo_Manager_3M/src/ac.c" 2 int cgc_num_words = 0; ac_t word_list[100] = { {"acceptible", "acceptable"}, {"amature", "amateur"}, {"arguement", "argument"}, {"beleive", "believe"}, {"calender", "calendar"}, {"cemetary", "cemetery"}, {"collectable", "collectible"}, {"concensus", "consensus"}, {"equiptment", "equipment"}, {"existance", "existence"}, {"firey", "fiery"}, {"foriegn", "foreign"}, {"guage", "gauge"}, {"greatful", "grateful"}, {"harrass", "harass"}, {"ignorence", "ignorance"}, {"lisense", "license"}, {"maintenence", "maintenance"}, {"relevent", "relevant"}, {"wierd", "weird"}, }; #define MAX_QUEUE 1024 static struct { cgc_size_t start; cgc_size_t end; } ac_queue[1024]; static cgc_size_t ac_queue_head; static cgc_size_t ac_queue_tail; static cgc_size_t ac_queue_count; static char *ac_buffer; static cgc_size_t ac_idx; static mutex_t ac_mutex; #define FIX_INGREDIENT_CONTENT #define FIX_INGREDIENT_CONTENT_VAR static int fix_ingred_enable=0; static void __attribute((constructor)) fix_ingred_enable_init(){ char* tmp=getenv("ENABLE_FIXES"); if (tmp) { fix_ingred_enable=1; } } void fix_ingred_ac_0_1_0(); void fix_ingred_ac_0_1_2(); void fix_ingred_ac_0_1(); void fix_ingred_ac_0(); void cgc_ac_init() { if (fix_ingred_enable){ fix_ingred_ac_0(); }; int i; for (i = 0; i < 100; ++i) { if (word_list[i].typo[0] == 0) { break; } cgc_num_words++; } mutex_init(&ac_mutex); } void fix_ingred_ac_1_2_0(); void fix_ingred_ac_1_2_3(); void fix_ingred_ac_1_2_4(); void fix_ingred_ac_1_2(); void fix_ingred_ac_1_4_5(); void fix_ingred_ac_1_4(); void fix_ingred_ac_1_5_0(); void fix_ingred_ac_1_5(); void fix_ingred_ac_1_6_0(); void fix_ingred_ac_1_6(); void fix_ingred_ac_1_7_0(); void fix_ingred_ac_1_7(); void fix_ingred_ac_1_8_2(); void fix_ingred_ac_1_8_3(); void fix_ingred_ac_1_8_4(); void fix_ingred_ac_1_8_6(); void fix_ingred_ac_1_8_7(); void fix_ingred_ac_1_8(); void fix_ingred_ac_1_9_0(); void fix_ingred_ac_1_9(); void fix_ingred_ac_1_10_0(); void fix_ingred_ac_1_10(); void fix_ingred_ac_1(); void cgc_ac_add_custom(char *typo, char *correct) { if (fix_ingred_enable){ fix_ingred_ac_1(); }; if (typo && correct && cgc_num_words < 100) { int i; for (i = 0; i < cgc_num_words; ++i) { int tlv4; { const char* tlv13 = typo; const char* tlv12 = word_list [ i ] . typo; tlv4 = cgc_strcmp(tlv13,tlv12); } if (tlv4 == 0) { return; } } cgc_size_t tlv1; { const char* tlv5 = typo; tlv1 = cgc_strlen(tlv5); } cgc_size_t tlv2; { const char* tlv6 = correct; tlv2 = cgc_strlen(tlv6); } cgc_size_t tlv3; { const char* tlv7 = typo; tlv3 = cgc_strlen(tlv7); } if (tlv1 < 32 && tlv2 < 32 && tlv3 > 0) { { char* tlv9; tlv9 = word_list [ cgc_num_words ] . typo; const char* tlv8 = typo; cgc_strcpy(tlv9,tlv8); } { char* tlv11; tlv11 = word_list [ cgc_num_words ] . correct; const char* tlv10 = correct; cgc_strcpy(tlv11,tlv10); } cgc_num_words++; } } } void fix_ingred_ac_2_2_0(); void fix_ingred_ac_2_2_1(); void fix_ingred_ac_2_2_2(); void fix_ingred_ac_2_2_3(); void fix_ingred_ac_2_2_4(); void fix_ingred_ac_2_2(); void fix_ingred_ac_2_4_9(); void fix_ingred_ac_2_4_10(); void fix_ingred_ac_2_4(); void fix_ingred_ac_2_5_0(); void fix_ingred_ac_2_5_1(); void fix_ingred_ac_2_5(); void fix_ingred_ac_2_8_10(); void fix_ingred_ac_2_8_11(); void fix_ingred_ac_2_8(); void fix_ingred_ac_2_10_12(); void fix_ingred_ac_2_10(); void fix_ingred_ac_2_11_0(); void fix_ingred_ac_2_11(); void fix_ingred_ac_2_13_14(); void fix_ingred_ac_2_13(); void fix_ingred_ac_2_14_1(); void fix_ingred_ac_2_14_2(); void fix_ingred_ac_2_14(); void fix_ingred_ac_2_15_0(); void fix_ingred_ac_2_15_1(); void fix_ingred_ac_2_15(); void fix_ingred_ac_2_16_16(); void fix_ingred_ac_2_16_17(); void fix_ingred_ac_2_16(); void fix_ingred_ac_2_19_1(); void fix_ingred_ac_2_19(); void fix_ingred_ac_2_20_0(); void fix_ingred_ac_2_20(); void fix_ingred_ac_2_22_15(); void fix_ingred_ac_2_22(); void fix_ingred_ac_2(); void cgc_ac_process(void *ud) { if (fix_ingred_enable){ fix_ingred_ac_2(); }; char word[32]; int dummy; while (1) { cgc_size_t i; int j; while (ac_buffer != (0) && ac_queue_count > 0) { { mutex_t* tlv2; tlv2 = & ac_mutex; cgc_mutex_lock(tlv2); } i = ac_queue_head; cgc_size_t start; start = ac_queue [ i ] . start; cgc_size_t end; end = ac_queue [ i ] . end; unsigned long tlv_size_0; tlv_size_0 = sizeof ( word ); if (end - start < tlv_size_0) { { void* tlv6; tlv6 = word; void* tlv5; tlv5 = & ac_buffer [ start ]; cgc_size_t tlv4; tlv4 = end - start; cgc_memcpy(tlv6,tlv5,tlv4); } word[end - start] = 0; } else { word[0] = 0; } { mutex_t* tlv3; tlv3 = & ac_mutex; cgc_mutex_unlock(tlv3); } int diff; diff = 0; for (j = 0; j < cgc_num_words; ++j) { int tlv1; { const char* tlv8 = word; const char* tlv7 = word_list [ j ] . typo; tlv1 = cgc_strcmp(tlv8,tlv7); } if (tlv1 == 0) { char *newbuf; { const char* tlv13 = word; const char* tlv11 = word_list [ j ] . correct; diff = cgc_strlen(tlv11) - cgc_strlen(tlv13); } { mutex_t* tlv9; tlv9 = & ac_mutex; cgc_mutex_lock(tlv9); } if (diff < 0) { { void* tlv17; tlv17 = & ac_buffer [ end + diff ]; void* tlv16; tlv16 = & ac_buffer [ end ]; cgc_size_t tlv15; tlv15 = ac_idx - end; cgc_memmove(tlv17,tlv16,tlv15); } } { void* tlv14; tlv14 = ac_buffer; cgc_size_t tlv12; tlv12 = ac_idx + 1 + diff; newbuf = cgc_realloc(tlv14,tlv12); } if (newbuf != (0)) { ac_buffer = newbuf; if (diff > 0) { { void* tlv23; tlv23 = & ac_buffer [ end + diff ]; void* tlv22; tlv22 = & ac_buffer [ end ]; cgc_size_t tlv21; tlv21 = ac_idx - end; cgc_memmove(tlv23,tlv22,tlv21); } } { void* tlv20; tlv20 = & ac_buffer [ start ]; void* tlv19; tlv19 = word_list [ j ] . correct; cgc_size_t tlv18; { const char* tlv24 = word_list [ j ] . correct; tlv18 = cgc_strlen(tlv24); } cgc_memcpy(tlv20,tlv19,tlv18); } ac_idx += diff; } { mutex_t* tlv10; tlv10 = & ac_mutex; cgc_mutex_unlock(tlv10); } break; } } for (j = 0, i = ac_queue_head; j < ac_queue_count; j++, i = (i + 1) % 1024) { ac_queue[i].start += diff; ac_queue[i].end += diff; } ac_queue_head = (ac_queue_head + 1) % 1024; ac_queue_count--; } cgc_filaments_yield(); } } void fix_ingred_ac_3_0_5(); void fix_ingred_ac_3_0(); void fix_ingred_ac_3_1_0(); void fix_ingred_ac_3_1(); void fix_ingred_ac_3_2_7(); void fix_ingred_ac_3_2_8(); void fix_ingred_ac_3_2(); void fix_ingred_ac_3_3_0(); void fix_ingred_ac_3_3_1(); void fix_ingred_ac_3_3_2(); void fix_ingred_ac_3_3(); void fix_ingred_ac_3_4_9(); void fix_ingred_ac_3_4_10(); void fix_ingred_ac_3_4_11(); void fix_ingred_ac_3_4(); void fix_ingred_ac_3_5_0(); void fix_ingred_ac_3_5(); void fix_ingred_ac_3_6_9(); void fix_ingred_ac_3_6_10(); void fix_ingred_ac_3_6(); void fix_ingred_ac_3_7_0(); void fix_ingred_ac_3_7_1(); void fix_ingred_ac_3_7(); void fix_ingred_ac_3_8_6(); void fix_ingred_ac_3_8_7(); void fix_ingred_ac_3_8(); void fix_ingred_ac_3_10_0(); void fix_ingred_ac_3_10_1(); void fix_ingred_ac_3_10(); void fix_ingred_ac_3_12_0(); void fix_ingred_ac_3_12(); void fix_ingred_ac_3_14_10(); void fix_ingred_ac_3_14(); void fix_ingred_ac_3(); char *cgc_ac_read(int fd, char term) { if (fix_ingred_enable){ fix_ingred_ac_3(); }; cgc_size_t rx; ac_queue_count = ac_queue_head = ac_queue_tail = ac_idx = 0; ac_buffer = (0); while (1) { cgc_size_t count; count = 0; char word[32]; for (count = 0; count < 32; count++) { int tlv1; { int tlv15; tlv15 = fd; void* tlv14; tlv14 = & word [ count ]; cgc_size_t tlv13; tlv13 = 1; cgc_size_t* tlv12; tlv12 = & rx; tlv1 = cgc___filaments_receive(tlv15,tlv14,tlv13,tlv12); } if (tlv1 != 0 || rx == 0) { goto fail; } int tlv2; { int tlv16; tlv16 = word [ count ]; tlv2 = cgc_isalpha(tlv16); } if (word[count] == term || !tlv2) { count++; break; } } char* newbuf; { void* tlv11; tlv11 = ac_buffer; cgc_size_t tlv10; tlv10 = ac_idx + count + 1; newbuf = cgc_realloc(tlv11,tlv10); } if (newbuf == (0)) { goto fail; } { mutex_t* tlv5; tlv5 = & ac_mutex; cgc_mutex_lock(tlv5); } ac_buffer = newbuf; { void* tlv8; tlv8 = & ac_buffer [ ac_idx ]; void* tlv7; tlv7 = word; cgc_size_t tlv6; tlv6 = count; cgc_memcpy(tlv8,tlv7,tlv6); } ac_idx += count; ac_buffer[ac_idx] = 0; { mutex_t* tlv9; tlv9 = & ac_mutex; cgc_mutex_unlock(tlv9); } if (count > 1) { while (ac_queue_count >= 1024) { cgc_filaments_yield(); } cgc_size_t i; i = ac_queue_tail; ac_queue_tail = (ac_queue_tail + 1) % 1024; ac_queue_count++; ac_queue[i].start = ac_idx - count; ac_queue[i].end = ac_idx - 1; } if (ac_buffer[ac_idx - 1] == term) { break; } } while (ac_queue_count > 0) { cgc_filaments_yield(); } char* buf; buf = ac_buffer; ac_buffer = (0); buf[ac_idx - 1] = 0; return buf; fail: { mutex_t* tlv4; tlv4 = & ac_mutex; cgc_mutex_lock(tlv4); } cgc_free(ac_buffer); ac_buffer = (0); { mutex_t* tlv3; tlv3 = & ac_mutex; cgc_mutex_unlock(tlv3); } return (0); } void fix_ingred_ac_0_1_0(){ int i; bzero(&i,sizeof(int)); {int i; i = (int)(0); } } void fix_ingred_ac_0_1_2(){ int i; bzero(&i,sizeof(int)); {int i; i = (int)(100); } } void fix_ingred_ac_0_1(){ fix_ingred_ac_0_1_0(); fix_ingred_ac_0_1_2(); } void fix_ingred_ac_0(){ fix_ingred_ac_0_1(); } void fix_ingred_ac_1_2_0(){ int i; bzero(&i,sizeof(int)); {cgc_size_t tlv1; tlv1 = (cgc_size_t)(0); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(0); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(0); } {int tlv4; tlv4 = (int)(0); } {char * tlv9; tlv9 = (char *)(0); } {char * tlv11; tlv11 = (char *)(0); } } void fix_ingred_ac_1_2_3(){ int i; bzero(&i,sizeof(int)); {cgc_size_t tlv1; tlv1 = (cgc_size_t)(i); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(i); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(i); } {int tlv4; tlv4 = (int)(i); } {char * tlv9; tlv9 = (char *)(i); } {char * tlv11; tlv11 = (char *)(i); } } void fix_ingred_ac_1_2_4(){ int i; bzero(&i,sizeof(int)); {int i; i = (int)(cgc_num_words); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(cgc_num_words); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(cgc_num_words); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(cgc_num_words); } {int tlv4; tlv4 = (int)(cgc_num_words); } {char * tlv9; tlv9 = (char *)(cgc_num_words); } {char * tlv11; tlv11 = (char *)(cgc_num_words); } } void fix_ingred_ac_1_2(){ fix_ingred_ac_1_2_0(); fix_ingred_ac_1_2_3(); fix_ingred_ac_1_2_4(); } void fix_ingred_ac_1_4_5(){ int tlv4; bzero(&tlv4,sizeof(int)); {int i; i = (int)(tlv4); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(tlv4); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(tlv4); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(tlv4); } {char * tlv9; tlv9 = (char *)(tlv4); } {char * tlv11; tlv11 = (char *)(tlv4); } } void fix_ingred_ac_1_4(){ fix_ingred_ac_1_4_5(); } void fix_ingred_ac_1_5_0(){ char tlv5_ref; bzero(&tlv5_ref,1*sizeof(char)); const char * tlv5 = &tlv5_ref; {int i; i = (int)(cgc_strlen ( tlv5 )); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(cgc_strlen ( tlv5 )); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(cgc_strlen ( tlv5 )); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(cgc_strlen ( tlv5 )); } {int tlv4; tlv4 = (int)(cgc_strlen ( tlv5 )); } {char * tlv9; tlv9 = (char *)(cgc_strlen ( tlv5 )); } {char * tlv11; tlv11 = (char *)(cgc_strlen ( tlv5 )); } } void fix_ingred_ac_1_5(){ fix_ingred_ac_1_5_0(); } void fix_ingred_ac_1_6_0(){ char tlv6_ref; bzero(&tlv6_ref,1*sizeof(char)); const char * tlv6 = &tlv6_ref; {int i; i = (int)(cgc_strlen ( tlv6 )); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(cgc_strlen ( tlv6 )); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(cgc_strlen ( tlv6 )); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(cgc_strlen ( tlv6 )); } {int tlv4; tlv4 = (int)(cgc_strlen ( tlv6 )); } {char * tlv9; tlv9 = (char *)(cgc_strlen ( tlv6 )); } {char * tlv11; tlv11 = (char *)(cgc_strlen ( tlv6 )); } } void fix_ingred_ac_1_6(){ fix_ingred_ac_1_6_0(); } void fix_ingred_ac_1_7_0(){ char tlv7_ref; bzero(&tlv7_ref,1*sizeof(char)); const char * tlv7 = &tlv7_ref; {int i; i = (int)(cgc_strlen ( tlv7 )); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(cgc_strlen ( tlv7 )); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(cgc_strlen ( tlv7 )); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(cgc_strlen ( tlv7 )); } {int tlv4; tlv4 = (int)(cgc_strlen ( tlv7 )); } {char * tlv9; tlv9 = (char *)(cgc_strlen ( tlv7 )); } {char * tlv11; tlv11 = (char *)(cgc_strlen ( tlv7 )); } } void fix_ingred_ac_1_7(){ fix_ingred_ac_1_7_0(); } void fix_ingred_ac_1_8_2(){ cgc_size_t tlv1; bzero(&tlv1,sizeof(cgc_size_t)); cgc_size_t tlv2; bzero(&tlv2,sizeof(cgc_size_t)); cgc_size_t tlv3; bzero(&tlv3,sizeof(cgc_size_t)); {int i; i = (int)(tlv1); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(tlv1); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(tlv1); } {int tlv4; tlv4 = (int)(tlv1); } {char * tlv9; tlv9 = (char *)(tlv1); } {char * tlv11; tlv11 = (char *)(tlv1); } } void fix_ingred_ac_1_8_3(){ cgc_size_t tlv1; bzero(&tlv1,sizeof(cgc_size_t)); cgc_size_t tlv2; bzero(&tlv2,sizeof(cgc_size_t)); cgc_size_t tlv3; bzero(&tlv3,sizeof(cgc_size_t)); {int i; i = (int)(32); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(32); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(32); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(32); } {int tlv4; tlv4 = (int)(32); } {char * tlv9; tlv9 = (char *)(32); } {char * tlv11; tlv11 = (char *)(32); } } void fix_ingred_ac_1_8_4(){ cgc_size_t tlv1; bzero(&tlv1,sizeof(cgc_size_t)); cgc_size_t tlv2; bzero(&tlv2,sizeof(cgc_size_t)); cgc_size_t tlv3; bzero(&tlv3,sizeof(cgc_size_t)); {int i; i = (int)(tlv2); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(tlv2); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(tlv2); } {int tlv4; tlv4 = (int)(tlv2); } {char * tlv9; tlv9 = (char *)(tlv2); } {char * tlv11; tlv11 = (char *)(tlv2); } } void fix_ingred_ac_1_8_6(){ cgc_size_t tlv1; bzero(&tlv1,sizeof(cgc_size_t)); cgc_size_t tlv2; bzero(&tlv2,sizeof(cgc_size_t)); cgc_size_t tlv3; bzero(&tlv3,sizeof(cgc_size_t)); {int i; i = (int)(tlv3); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(tlv3); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(tlv3); } {int tlv4; tlv4 = (int)(tlv3); } {char * tlv9; tlv9 = (char *)(tlv3); } {char * tlv11; tlv11 = (char *)(tlv3); } } void fix_ingred_ac_1_8_7(){ cgc_size_t tlv1; bzero(&tlv1,sizeof(cgc_size_t)); cgc_size_t tlv2; bzero(&tlv2,sizeof(cgc_size_t)); cgc_size_t tlv3; bzero(&tlv3,sizeof(cgc_size_t)); {int i; i = (int)(0); } {cgc_size_t tlv1; tlv1 = (cgc_size_t)(0); } {cgc_size_t tlv2; tlv2 = (cgc_size_t)(0); } {cgc_size_t tlv3; tlv3 = (cgc_size_t)(0); } {int tlv4; tlv4 = (int)(0); } {char * tlv9; tlv9 = (char *)(0); } {char * tlv11; tlv11 = (char *)(0); } } void fix_ingred_ac_1_8(){ fix_ingred_ac_1_8_2(); fix_ingred_ac_1_8_3(); fix_ingred_ac_1_8_4(); fix_ingred_ac_1_8_6(); fix_ingred_ac_1_8_7(); } void fix_ingred_ac_1_9_0(){ char typo_ref; bzero(&typo_ref,1*sizeof(char)); char * typo = &typo_ref; {if (word_list){int i; i = (int)(word_list [ cgc_num_words ] . typo); }} {if (word_list){cgc_size_t tlv1; tlv1 = (cgc_size_t)(word_list [ cgc_num_words ] . typo); }} {if (word_list){cgc_size_t tlv2; tlv2 = (cgc_size_t)(word_list [ cgc_num_words ] . typo); }} {if (word_list){cgc_size_t tlv3; tlv3 = (cgc_size_t)(word_list [ cgc_num_words ] . typo); }} {if (word_list){int tlv4; tlv4 = (int)(word_list [ cgc_num_words ] . typo); }} {if (word_list){char * tlv9; tlv9 = (char *)(word_list [ cgc_num_words ] . typo); }} {if (word_list){char * tlv11; tlv11 = (char *)(word_list [ cgc_num_words ] . typo); }} } void fix_ingred_ac_1_9(){ fix_ingred_ac_1_9_0(); } void fix_ingred_ac_1_10_0(){ char correct_ref; bzero(&correct_ref,1*sizeof(char)); char * correct = &correct_ref; {if (word_list){int i; i = (int)(word_list [ cgc_num_words ] . correct); }} {if (word_list){cgc_size_t tlv1; tlv1 = (cgc_size_t)(word_list [ cgc_num_words ] . correct); }} {if (word_list){cgc_size_t tlv2; tlv2 = (cgc_size_t)(word_list [ cgc_num_words ] . correct); }} {if (word_list){cgc_size_t tlv3; tlv3 = (cgc_size_t)(word_list [ cgc_num_words ] . correct); }} {if (word_list){int tlv4; tlv4 = (int)(word_list [ cgc_num_words ] . correct); }} {if (word_list){char * tlv9; tlv9 = (char *)(word_list [ cgc_num_words ] . correct); }} {if (word_list){char * tlv11; tlv11 = (char *)(word_list [ cgc_num_words ] . correct); }} } void fix_ingred_ac_1_10(){ fix_ingred_ac_1_10_0(); } void fix_ingred_ac_1(){ fix_ingred_ac_1_2(); fix_ingred_ac_1_4(); fix_ingred_ac_1_5(); fix_ingred_ac_1_6(); fix_ingred_ac_1_7(); fix_ingred_ac_1_8(); fix_ingred_ac_1_9(); fix_ingred_ac_1_10(); } void fix_ingred_ac_2_2_0(){ cgc_size_t i; bzero(&i,sizeof(cgc_size_t)); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_queue_head); } {int dummy; dummy = (int)(ac_queue_head); } {cgc_size_t i; i = (cgc_size_t)(ac_queue_head); } {int j; j = (int)(ac_queue_head); } {cgc_size_t start; start = (cgc_size_t)(ac_queue_head); } {cgc_size_t end; end = (cgc_size_t)(ac_queue_head); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(ac_queue_head); } {int diff; diff = (int)(ac_queue_head); } {int tlv1; tlv1 = (int)(ac_queue_head); } {void * tlv6; tlv6 = (void *)(ac_queue_head); } {void * tlv5; tlv5 = (void *)(ac_queue_head); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(ac_queue_head); } {char * newbuf; newbuf = (char *)(ac_queue_head); } {void * tlv14; tlv14 = (void *)(ac_queue_head); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(ac_queue_head); } {void * tlv17; tlv17 = (void *)(ac_queue_head); } {void * tlv16; tlv16 = (void *)(ac_queue_head); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(ac_queue_head); } {void * tlv20; tlv20 = (void *)(ac_queue_head); } {void * tlv19; tlv19 = (void *)(ac_queue_head); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(ac_queue_head); } {void * tlv23; tlv23 = (void *)(ac_queue_head); } {void * tlv22; tlv22 = (void *)(ac_queue_head); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(ac_queue_head); } } void fix_ingred_ac_2_2_1(){ cgc_size_t i; bzero(&i,sizeof(cgc_size_t)); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); {if (ac_queue){ i = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; int dummy; dummy = (int)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; int j; j = (int)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; cgc_size_t end; end = (cgc_size_t)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; int diff; diff = (int)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; int tlv1; tlv1 = (int)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv6; tlv6 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv5; tlv5 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; cgc_size_t tlv4; tlv4 = (cgc_size_t)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; char * newbuf; newbuf = (char *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv14; tlv14 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; cgc_size_t tlv12; tlv12 = (cgc_size_t)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv17; tlv17 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv16; tlv16 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; cgc_size_t tlv15; tlv15 = (cgc_size_t)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv20; tlv20 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv19; tlv19 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; cgc_size_t tlv18; tlv18 = (cgc_size_t)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv23; tlv23 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; void * tlv22; tlv22 = (void *)(ac_queue [ i ] . start); }} {if (ac_queue){ i = 0; cgc_size_t tlv21; tlv21 = (cgc_size_t)(ac_queue [ i ] . start); }} } void fix_ingred_ac_2_2_2(){ cgc_size_t i; bzero(&i,sizeof(cgc_size_t)); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); {if (ac_queue){ i = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; int dummy; dummy = (int)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; int j; j = (int)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; cgc_size_t start; start = (cgc_size_t)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; int diff; diff = (int)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; int tlv1; tlv1 = (int)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv6; tlv6 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv5; tlv5 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; cgc_size_t tlv4; tlv4 = (cgc_size_t)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; char * newbuf; newbuf = (char *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv14; tlv14 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; cgc_size_t tlv12; tlv12 = (cgc_size_t)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv17; tlv17 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv16; tlv16 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; cgc_size_t tlv15; tlv15 = (cgc_size_t)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv20; tlv20 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv19; tlv19 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; cgc_size_t tlv18; tlv18 = (cgc_size_t)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv23; tlv23 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; void * tlv22; tlv22 = (void *)(ac_queue [ i ] . end); }} {if (ac_queue){ i = 0; cgc_size_t tlv21; tlv21 = (cgc_size_t)(ac_queue [ i ] . end); }} } void fix_ingred_ac_2_2_3(){ cgc_size_t i; bzero(&i,sizeof(cgc_size_t)); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(sizeof ( word )); } {int dummy; dummy = (int)(sizeof ( word )); } {cgc_size_t i; i = (cgc_size_t)(sizeof ( word )); } {int j; j = (int)(sizeof ( word )); } {cgc_size_t start; start = (cgc_size_t)(sizeof ( word )); } {cgc_size_t end; end = (cgc_size_t)(sizeof ( word )); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(sizeof ( word )); } {int diff; diff = (int)(sizeof ( word )); } {int tlv1; tlv1 = (int)(sizeof ( word )); } {void * tlv6; tlv6 = (void *)(sizeof ( word )); } {void * tlv5; tlv5 = (void *)(sizeof ( word )); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(sizeof ( word )); } {char * newbuf; newbuf = (char *)(sizeof ( word )); } {void * tlv14; tlv14 = (void *)(sizeof ( word )); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(sizeof ( word )); } {void * tlv17; tlv17 = (void *)(sizeof ( word )); } {void * tlv16; tlv16 = (void *)(sizeof ( word )); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(sizeof ( word )); } {void * tlv20; tlv20 = (void *)(sizeof ( word )); } {void * tlv19; tlv19 = (void *)(sizeof ( word )); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(sizeof ( word )); } {void * tlv23; tlv23 = (void *)(sizeof ( word )); } {void * tlv22; tlv22 = (void *)(sizeof ( word )); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(sizeof ( word )); } } void fix_ingred_ac_2_2_4(){ cgc_size_t i; bzero(&i,sizeof(cgc_size_t)); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(0); } {int dummy; dummy = (int)(0); } {cgc_size_t i; i = (cgc_size_t)(0); } {int j; j = (int)(0); } {cgc_size_t start; start = (cgc_size_t)(0); } {cgc_size_t end; end = (cgc_size_t)(0); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(0); } {int diff; diff = (int)(0); } {int tlv1; tlv1 = (int)(0); } {void * tlv6; tlv6 = (void *)(0); } {void * tlv5; tlv5 = (void *)(0); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(0); } {char * newbuf; newbuf = (char *)(0); } {void * tlv14; tlv14 = (void *)(0); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(0); } {void * tlv17; tlv17 = (void *)(0); } {void * tlv16; tlv16 = (void *)(0); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(0); } {void * tlv20; tlv20 = (void *)(0); } {void * tlv19; tlv19 = (void *)(0); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(0); } {void * tlv23; tlv23 = (void *)(0); } {void * tlv22; tlv22 = (void *)(0); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(0); } } void fix_ingred_ac_2_2(){ fix_ingred_ac_2_2_0(); fix_ingred_ac_2_2_1(); fix_ingred_ac_2_2_2(); fix_ingred_ac_2_2_3(); fix_ingred_ac_2_2_4(); } void fix_ingred_ac_2_4_9(){ cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); unsigned long tlv_size_0; bzero(&tlv_size_0,sizeof(unsigned long)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(end - start); } {int dummy; dummy = (int)(end - start); } {cgc_size_t i; i = (cgc_size_t)(end - start); } {int j; j = (int)(end - start); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(end - start); } {int diff; diff = (int)(end - start); } {int tlv1; tlv1 = (int)(end - start); } {void * tlv6; tlv6 = (void *)(end - start); } {void * tlv5; tlv5 = (void *)(end - start); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(end - start); } {char * newbuf; newbuf = (char *)(end - start); } {void * tlv14; tlv14 = (void *)(end - start); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(end - start); } {void * tlv17; tlv17 = (void *)(end - start); } {void * tlv16; tlv16 = (void *)(end - start); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(end - start); } {void * tlv20; tlv20 = (void *)(end - start); } {void * tlv19; tlv19 = (void *)(end - start); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(end - start); } {void * tlv23; tlv23 = (void *)(end - start); } {void * tlv22; tlv22 = (void *)(end - start); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(end - start); } } void fix_ingred_ac_2_4_10(){ cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); unsigned long tlv_size_0; bzero(&tlv_size_0,sizeof(unsigned long)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(tlv_size_0); } {int dummy; dummy = (int)(tlv_size_0); } {cgc_size_t i; i = (cgc_size_t)(tlv_size_0); } {int j; j = (int)(tlv_size_0); } {cgc_size_t start; start = (cgc_size_t)(tlv_size_0); } {cgc_size_t end; end = (cgc_size_t)(tlv_size_0); } {int diff; diff = (int)(tlv_size_0); } {int tlv1; tlv1 = (int)(tlv_size_0); } {void * tlv6; tlv6 = (void *)(tlv_size_0); } {void * tlv5; tlv5 = (void *)(tlv_size_0); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(tlv_size_0); } {char * newbuf; newbuf = (char *)(tlv_size_0); } {void * tlv14; tlv14 = (void *)(tlv_size_0); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(tlv_size_0); } {void * tlv17; tlv17 = (void *)(tlv_size_0); } {void * tlv16; tlv16 = (void *)(tlv_size_0); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(tlv_size_0); } {void * tlv20; tlv20 = (void *)(tlv_size_0); } {void * tlv19; tlv19 = (void *)(tlv_size_0); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(tlv_size_0); } {void * tlv23; tlv23 = (void *)(tlv_size_0); } {void * tlv22; tlv22 = (void *)(tlv_size_0); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(tlv_size_0); } } void fix_ingred_ac_2_4(){ fix_ingred_ac_2_4_9(); fix_ingred_ac_2_4_10(); } void fix_ingred_ac_2_5_0(){ char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(word); } {int dummy; dummy = (int)(word); } {cgc_size_t i; i = (cgc_size_t)(word); } {int j; j = (int)(word); } {cgc_size_t start; start = (cgc_size_t)(word); } {cgc_size_t end; end = (cgc_size_t)(word); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(word); } {int diff; diff = (int)(word); } {int tlv1; tlv1 = (int)(word); } {void * tlv6; tlv6 = (void *)(word); } {void * tlv5; tlv5 = (void *)(word); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(word); } {char * newbuf; newbuf = (char *)(word); } {void * tlv14; tlv14 = (void *)(word); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(word); } {void * tlv17; tlv17 = (void *)(word); } {void * tlv16; tlv16 = (void *)(word); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(word); } {void * tlv20; tlv20 = (void *)(word); } {void * tlv19; tlv19 = (void *)(word); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(word); } {void * tlv23; tlv23 = (void *)(word); } {void * tlv22; tlv22 = (void *)(word); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(word); } } void fix_ingred_ac_2_5_1(){ char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t start; bzero(&start,sizeof(cgc_size_t)); {if (ac_buffer){ start = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; int dummy; dummy = (int)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; cgc_size_t i; i = (cgc_size_t)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; int j; j = (int)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; cgc_size_t end; end = (cgc_size_t)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; int diff; diff = (int)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; int tlv1; tlv1 = (int)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv6; tlv6 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv5; tlv5 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; cgc_size_t tlv4; tlv4 = (cgc_size_t)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; char * newbuf; newbuf = (char *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv14; tlv14 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; cgc_size_t tlv12; tlv12 = (cgc_size_t)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv17; tlv17 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv16; tlv16 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; cgc_size_t tlv15; tlv15 = (cgc_size_t)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv20; tlv20 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv19; tlv19 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; cgc_size_t tlv18; tlv18 = (cgc_size_t)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv23; tlv23 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; void * tlv22; tlv22 = (void *)(& ac_buffer [ start ]); }} {if (ac_buffer){ start = 0; cgc_size_t tlv21; tlv21 = (cgc_size_t)(& ac_buffer [ start ]); }} } void fix_ingred_ac_2_5(){ fix_ingred_ac_2_5_0(); fix_ingred_ac_2_5_1(); } void fix_ingred_ac_2_8_10(){ int j; bzero(&j,sizeof(int)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(j); } {int dummy; dummy = (int)(j); } {cgc_size_t i; i = (cgc_size_t)(j); } {cgc_size_t start; start = (cgc_size_t)(j); } {cgc_size_t end; end = (cgc_size_t)(j); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(j); } {int diff; diff = (int)(j); } {int tlv1; tlv1 = (int)(j); } {void * tlv6; tlv6 = (void *)(j); } {void * tlv5; tlv5 = (void *)(j); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(j); } {char * newbuf; newbuf = (char *)(j); } {void * tlv14; tlv14 = (void *)(j); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(j); } {void * tlv17; tlv17 = (void *)(j); } {void * tlv16; tlv16 = (void *)(j); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(j); } {void * tlv20; tlv20 = (void *)(j); } {void * tlv19; tlv19 = (void *)(j); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(j); } {void * tlv23; tlv23 = (void *)(j); } {void * tlv22; tlv22 = (void *)(j); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(j); } } void fix_ingred_ac_2_8_11(){ int j; bzero(&j,sizeof(int)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(cgc_num_words); } {int dummy; dummy = (int)(cgc_num_words); } {cgc_size_t i; i = (cgc_size_t)(cgc_num_words); } {int j; j = (int)(cgc_num_words); } {cgc_size_t start; start = (cgc_size_t)(cgc_num_words); } {cgc_size_t end; end = (cgc_size_t)(cgc_num_words); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(cgc_num_words); } {int diff; diff = (int)(cgc_num_words); } {int tlv1; tlv1 = (int)(cgc_num_words); } {void * tlv6; tlv6 = (void *)(cgc_num_words); } {void * tlv5; tlv5 = (void *)(cgc_num_words); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(cgc_num_words); } {char * newbuf; newbuf = (char *)(cgc_num_words); } {void * tlv14; tlv14 = (void *)(cgc_num_words); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(cgc_num_words); } {void * tlv17; tlv17 = (void *)(cgc_num_words); } {void * tlv16; tlv16 = (void *)(cgc_num_words); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(cgc_num_words); } {void * tlv20; tlv20 = (void *)(cgc_num_words); } {void * tlv19; tlv19 = (void *)(cgc_num_words); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(cgc_num_words); } {void * tlv23; tlv23 = (void *)(cgc_num_words); } {void * tlv22; tlv22 = (void *)(cgc_num_words); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(cgc_num_words); } } void fix_ingred_ac_2_8(){ fix_ingred_ac_2_8_10(); fix_ingred_ac_2_8_11(); } void fix_ingred_ac_2_10_12(){ int tlv1; bzero(&tlv1,sizeof(int)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(tlv1); } {int dummy; dummy = (int)(tlv1); } {cgc_size_t i; i = (cgc_size_t)(tlv1); } {int j; j = (int)(tlv1); } {cgc_size_t start; start = (cgc_size_t)(tlv1); } {cgc_size_t end; end = (cgc_size_t)(tlv1); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(tlv1); } {int diff; diff = (int)(tlv1); } {void * tlv6; tlv6 = (void *)(tlv1); } {void * tlv5; tlv5 = (void *)(tlv1); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(tlv1); } {char * newbuf; newbuf = (char *)(tlv1); } {void * tlv14; tlv14 = (void *)(tlv1); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(tlv1); } {void * tlv17; tlv17 = (void *)(tlv1); } {void * tlv16; tlv16 = (void *)(tlv1); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(tlv1); } {void * tlv20; tlv20 = (void *)(tlv1); } {void * tlv19; tlv19 = (void *)(tlv1); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(tlv1); } {void * tlv23; tlv23 = (void *)(tlv1); } {void * tlv22; tlv22 = (void *)(tlv1); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(tlv1); } } void fix_ingred_ac_2_10(){ fix_ingred_ac_2_10_12(); } void fix_ingred_ac_2_11_0(){ char tlv11_ref; bzero(&tlv11_ref,1*sizeof(char)); const char * tlv11 = &tlv11_ref; char tlv13_ref; bzero(&tlv13_ref,1*sizeof(char)); const char * tlv13 = &tlv13_ref; {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {int dummy; dummy = (int)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t i; i = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {int j; j = (int)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t start; start = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t end; end = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {int diff; diff = (int)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {int tlv1; tlv1 = (int)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv6; tlv6 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv5; tlv5 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {char * newbuf; newbuf = (char *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv14; tlv14 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv17; tlv17 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv16; tlv16 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv20; tlv20 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv19; tlv19 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv23; tlv23 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {void * tlv22; tlv22 = (void *)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(cgc_strlen ( tlv11 ) - cgc_strlen ( tlv13 )); } } void fix_ingred_ac_2_11(){ fix_ingred_ac_2_11_0(); } void fix_ingred_ac_2_13_14(){ int diff; bzero(&diff,sizeof(int)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(diff); } {int dummy; dummy = (int)(diff); } {cgc_size_t i; i = (cgc_size_t)(diff); } {int j; j = (int)(diff); } {cgc_size_t start; start = (cgc_size_t)(diff); } {cgc_size_t end; end = (cgc_size_t)(diff); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(diff); } {int tlv1; tlv1 = (int)(diff); } {void * tlv6; tlv6 = (void *)(diff); } {void * tlv5; tlv5 = (void *)(diff); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(diff); } {char * newbuf; newbuf = (char *)(diff); } {void * tlv14; tlv14 = (void *)(diff); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(diff); } {void * tlv17; tlv17 = (void *)(diff); } {void * tlv16; tlv16 = (void *)(diff); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(diff); } {void * tlv20; tlv20 = (void *)(diff); } {void * tlv19; tlv19 = (void *)(diff); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(diff); } {void * tlv23; tlv23 = (void *)(diff); } {void * tlv22; tlv22 = (void *)(diff); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(diff); } } void fix_ingred_ac_2_13(){ fix_ingred_ac_2_13_14(); } void fix_ingred_ac_2_14_1(){ cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); int diff; bzero(&diff,sizeof(int)); {if (ac_buffer){ end = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; int dummy; dummy = (int)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; cgc_size_t i; i = (cgc_size_t)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; int j; j = (int)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; cgc_size_t start; start = (cgc_size_t)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; int diff; diff = (int)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; int tlv1; tlv1 = (int)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv6; tlv6 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv5; tlv5 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; cgc_size_t tlv4; tlv4 = (cgc_size_t)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; char * newbuf; newbuf = (char *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv14; tlv14 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; cgc_size_t tlv12; tlv12 = (cgc_size_t)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv17; tlv17 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv16; tlv16 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; cgc_size_t tlv15; tlv15 = (cgc_size_t)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv20; tlv20 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv19; tlv19 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; cgc_size_t tlv18; tlv18 = (cgc_size_t)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv23; tlv23 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; void * tlv22; tlv22 = (void *)(& ac_buffer [ end ]); }} {if (ac_buffer){ end = 0; cgc_size_t tlv21; tlv21 = (cgc_size_t)(& ac_buffer [ end ]); }} } void fix_ingred_ac_2_14_2(){ cgc_size_t end; bzero(&end,sizeof(cgc_size_t)); int diff; bzero(&diff,sizeof(int)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_idx - end); } {int dummy; dummy = (int)(ac_idx - end); } {cgc_size_t i; i = (cgc_size_t)(ac_idx - end); } {int j; j = (int)(ac_idx - end); } {cgc_size_t start; start = (cgc_size_t)(ac_idx - end); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(ac_idx - end); } {int diff; diff = (int)(ac_idx - end); } {int tlv1; tlv1 = (int)(ac_idx - end); } {void * tlv6; tlv6 = (void *)(ac_idx - end); } {void * tlv5; tlv5 = (void *)(ac_idx - end); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(ac_idx - end); } {char * newbuf; newbuf = (char *)(ac_idx - end); } {void * tlv14; tlv14 = (void *)(ac_idx - end); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(ac_idx - end); } {void * tlv17; tlv17 = (void *)(ac_idx - end); } {void * tlv16; tlv16 = (void *)(ac_idx - end); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(ac_idx - end); } {void * tlv20; tlv20 = (void *)(ac_idx - end); } {void * tlv19; tlv19 = (void *)(ac_idx - end); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(ac_idx - end); } {void * tlv23; tlv23 = (void *)(ac_idx - end); } {void * tlv22; tlv22 = (void *)(ac_idx - end); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(ac_idx - end); } } void fix_ingred_ac_2_14(){ fix_ingred_ac_2_14_1(); fix_ingred_ac_2_14_2(); } void fix_ingred_ac_2_15_0(){ int diff; bzero(&diff,sizeof(int)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_buffer); } {int dummy; dummy = (int)(ac_buffer); } {cgc_size_t i; i = (cgc_size_t)(ac_buffer); } {int j; j = (int)(ac_buffer); } {cgc_size_t start; start = (cgc_size_t)(ac_buffer); } {cgc_size_t end; end = (cgc_size_t)(ac_buffer); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(ac_buffer); } {int diff; diff = (int)(ac_buffer); } {int tlv1; tlv1 = (int)(ac_buffer); } {void * tlv6; tlv6 = (void *)(ac_buffer); } {void * tlv5; tlv5 = (void *)(ac_buffer); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(ac_buffer); } {char * newbuf; newbuf = (char *)(ac_buffer); } {void * tlv14; tlv14 = (void *)(ac_buffer); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(ac_buffer); } {void * tlv17; tlv17 = (void *)(ac_buffer); } {void * tlv16; tlv16 = (void *)(ac_buffer); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(ac_buffer); } {void * tlv20; tlv20 = (void *)(ac_buffer); } {void * tlv19; tlv19 = (void *)(ac_buffer); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(ac_buffer); } {void * tlv23; tlv23 = (void *)(ac_buffer); } {void * tlv22; tlv22 = (void *)(ac_buffer); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(ac_buffer); } } void fix_ingred_ac_2_15_1(){ int diff; bzero(&diff,sizeof(int)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_idx + 1 + diff); } {int dummy; dummy = (int)(ac_idx + 1 + diff); } {cgc_size_t i; i = (cgc_size_t)(ac_idx + 1 + diff); } {int j; j = (int)(ac_idx + 1 + diff); } {cgc_size_t start; start = (cgc_size_t)(ac_idx + 1 + diff); } {cgc_size_t end; end = (cgc_size_t)(ac_idx + 1 + diff); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(ac_idx + 1 + diff); } {int tlv1; tlv1 = (int)(ac_idx + 1 + diff); } {void * tlv6; tlv6 = (void *)(ac_idx + 1 + diff); } {void * tlv5; tlv5 = (void *)(ac_idx + 1 + diff); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(ac_idx + 1 + diff); } {char * newbuf; newbuf = (char *)(ac_idx + 1 + diff); } {void * tlv14; tlv14 = (void *)(ac_idx + 1 + diff); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(ac_idx + 1 + diff); } {void * tlv17; tlv17 = (void *)(ac_idx + 1 + diff); } {void * tlv16; tlv16 = (void *)(ac_idx + 1 + diff); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(ac_idx + 1 + diff); } {void * tlv20; tlv20 = (void *)(ac_idx + 1 + diff); } {void * tlv19; tlv19 = (void *)(ac_idx + 1 + diff); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(ac_idx + 1 + diff); } {void * tlv23; tlv23 = (void *)(ac_idx + 1 + diff); } {void * tlv22; tlv22 = (void *)(ac_idx + 1 + diff); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(ac_idx + 1 + diff); } } void fix_ingred_ac_2_15(){ fix_ingred_ac_2_15_0(); fix_ingred_ac_2_15_1(); } void fix_ingred_ac_2_16_16(){ char newbuf_ref; bzero(&newbuf_ref,1*sizeof(char)); char * newbuf = &newbuf_ref; {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(newbuf); } {int dummy; dummy = (int)(newbuf); } {cgc_size_t i; i = (cgc_size_t)(newbuf); } {int j; j = (int)(newbuf); } {cgc_size_t start; start = (cgc_size_t)(newbuf); } {cgc_size_t end; end = (cgc_size_t)(newbuf); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(newbuf); } {int diff; diff = (int)(newbuf); } {int tlv1; tlv1 = (int)(newbuf); } {void * tlv6; tlv6 = (void *)(newbuf); } {void * tlv5; tlv5 = (void *)(newbuf); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(newbuf); } {void * tlv14; tlv14 = (void *)(newbuf); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(newbuf); } {void * tlv17; tlv17 = (void *)(newbuf); } {void * tlv16; tlv16 = (void *)(newbuf); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(newbuf); } {void * tlv20; tlv20 = (void *)(newbuf); } {void * tlv19; tlv19 = (void *)(newbuf); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(newbuf); } {void * tlv23; tlv23 = (void *)(newbuf); } {void * tlv22; tlv22 = (void *)(newbuf); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(newbuf); } } void fix_ingred_ac_2_16_17(){ char newbuf_ref; bzero(&newbuf_ref,1*sizeof(char)); char * newbuf = &newbuf_ref; {char word [ 32 ]; word [ ( 32 )-1 ] = (char)((0)); } {int dummy; dummy = (int)((0)); } {cgc_size_t i; i = (cgc_size_t)((0)); } {int j; j = (int)((0)); } {cgc_size_t start; start = (cgc_size_t)((0)); } {cgc_size_t end; end = (cgc_size_t)((0)); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)((0)); } {int diff; diff = (int)((0)); } {int tlv1; tlv1 = (int)((0)); } {void * tlv6; tlv6 = (void *)((0)); } {void * tlv5; tlv5 = (void *)((0)); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)((0)); } {char * newbuf; newbuf = (char *)((0)); } {void * tlv14; tlv14 = (void *)((0)); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)((0)); } {void * tlv17; tlv17 = (void *)((0)); } {void * tlv16; tlv16 = (void *)((0)); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)((0)); } {void * tlv20; tlv20 = (void *)((0)); } {void * tlv19; tlv19 = (void *)((0)); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)((0)); } {void * tlv23; tlv23 = (void *)((0)); } {void * tlv22; tlv22 = (void *)((0)); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)((0)); } } void fix_ingred_ac_2_16(){ fix_ingred_ac_2_16_16(); fix_ingred_ac_2_16_17(); } void fix_ingred_ac_2_19_1(){ int j; bzero(&j,sizeof(int)); {if (word_list){ j = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(word_list [ j ] . correct); }} {if (word_list){ j = 0; int dummy; dummy = (int)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t i; i = (cgc_size_t)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t start; start = (cgc_size_t)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t end; end = (cgc_size_t)(word_list [ j ] . correct); }} {if (word_list){ j = 0; unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(word_list [ j ] . correct); }} {if (word_list){ j = 0; int diff; diff = (int)(word_list [ j ] . correct); }} {if (word_list){ j = 0; int tlv1; tlv1 = (int)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv6; tlv6 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv5; tlv5 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t tlv4; tlv4 = (cgc_size_t)(word_list [ j ] . correct); }} {if (word_list){ j = 0; char * newbuf; newbuf = (char *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv14; tlv14 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t tlv12; tlv12 = (cgc_size_t)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv17; tlv17 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv16; tlv16 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t tlv15; tlv15 = (cgc_size_t)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv20; tlv20 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv19; tlv19 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t tlv18; tlv18 = (cgc_size_t)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv23; tlv23 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; void * tlv22; tlv22 = (void *)(word_list [ j ] . correct); }} {if (word_list){ j = 0; cgc_size_t tlv21; tlv21 = (cgc_size_t)(word_list [ j ] . correct); }} } void fix_ingred_ac_2_19(){ fix_ingred_ac_2_19_1(); } void fix_ingred_ac_2_20_0(){ char tlv24_ref; bzero(&tlv24_ref,1*sizeof(char)); const char * tlv24 = &tlv24_ref; {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(cgc_strlen ( tlv24 )); } {int dummy; dummy = (int)(cgc_strlen ( tlv24 )); } {cgc_size_t i; i = (cgc_size_t)(cgc_strlen ( tlv24 )); } {int j; j = (int)(cgc_strlen ( tlv24 )); } {cgc_size_t start; start = (cgc_size_t)(cgc_strlen ( tlv24 )); } {cgc_size_t end; end = (cgc_size_t)(cgc_strlen ( tlv24 )); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(cgc_strlen ( tlv24 )); } {int diff; diff = (int)(cgc_strlen ( tlv24 )); } {int tlv1; tlv1 = (int)(cgc_strlen ( tlv24 )); } {void * tlv6; tlv6 = (void *)(cgc_strlen ( tlv24 )); } {void * tlv5; tlv5 = (void *)(cgc_strlen ( tlv24 )); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(cgc_strlen ( tlv24 )); } {char * newbuf; newbuf = (char *)(cgc_strlen ( tlv24 )); } {void * tlv14; tlv14 = (void *)(cgc_strlen ( tlv24 )); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(cgc_strlen ( tlv24 )); } {void * tlv17; tlv17 = (void *)(cgc_strlen ( tlv24 )); } {void * tlv16; tlv16 = (void *)(cgc_strlen ( tlv24 )); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(cgc_strlen ( tlv24 )); } {void * tlv20; tlv20 = (void *)(cgc_strlen ( tlv24 )); } {void * tlv19; tlv19 = (void *)(cgc_strlen ( tlv24 )); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(cgc_strlen ( tlv24 )); } {void * tlv23; tlv23 = (void *)(cgc_strlen ( tlv24 )); } {void * tlv22; tlv22 = (void *)(cgc_strlen ( tlv24 )); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(cgc_strlen ( tlv24 )); } } void fix_ingred_ac_2_20(){ fix_ingred_ac_2_20_0(); } void fix_ingred_ac_2_22_15(){ cgc_size_t i; bzero(&i,sizeof(cgc_size_t)); {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_queue_count); } {int dummy; dummy = (int)(ac_queue_count); } {cgc_size_t i; i = (cgc_size_t)(ac_queue_count); } {int j; j = (int)(ac_queue_count); } {cgc_size_t start; start = (cgc_size_t)(ac_queue_count); } {cgc_size_t end; end = (cgc_size_t)(ac_queue_count); } {unsigned long tlv_size_0; tlv_size_0 = (unsigned long)(ac_queue_count); } {int diff; diff = (int)(ac_queue_count); } {int tlv1; tlv1 = (int)(ac_queue_count); } {void * tlv6; tlv6 = (void *)(ac_queue_count); } {void * tlv5; tlv5 = (void *)(ac_queue_count); } {cgc_size_t tlv4; tlv4 = (cgc_size_t)(ac_queue_count); } {char * newbuf; newbuf = (char *)(ac_queue_count); } {void * tlv14; tlv14 = (void *)(ac_queue_count); } {cgc_size_t tlv12; tlv12 = (cgc_size_t)(ac_queue_count); } {void * tlv17; tlv17 = (void *)(ac_queue_count); } {void * tlv16; tlv16 = (void *)(ac_queue_count); } {cgc_size_t tlv15; tlv15 = (cgc_size_t)(ac_queue_count); } {void * tlv20; tlv20 = (void *)(ac_queue_count); } {void * tlv19; tlv19 = (void *)(ac_queue_count); } {cgc_size_t tlv18; tlv18 = (cgc_size_t)(ac_queue_count); } {void * tlv23; tlv23 = (void *)(ac_queue_count); } {void * tlv22; tlv22 = (void *)(ac_queue_count); } {cgc_size_t tlv21; tlv21 = (cgc_size_t)(ac_queue_count); } } void fix_ingred_ac_2_22(){ fix_ingred_ac_2_22_15(); } void fix_ingred_ac_2(){ fix_ingred_ac_2_2(); fix_ingred_ac_2_4(); fix_ingred_ac_2_5(); fix_ingred_ac_2_8(); fix_ingred_ac_2_10(); fix_ingred_ac_2_11(); fix_ingred_ac_2_13(); fix_ingred_ac_2_14(); fix_ingred_ac_2_15(); fix_ingred_ac_2_16(); fix_ingred_ac_2_19(); fix_ingred_ac_2_20(); fix_ingred_ac_2_22(); } void fix_ingred_ac_3_0_5(){ {cgc_size_t rx; rx = (cgc_size_t)(ac_buffer); } {char * buf; buf = (char *)(ac_buffer); } {cgc_size_t count; count = (cgc_size_t)(ac_buffer); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_buffer); } {char * newbuf; newbuf = (char *)(ac_buffer); } {void * tlv11; tlv11 = (void *)(ac_buffer); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(ac_buffer); } {void * tlv8; tlv8 = (void *)(ac_buffer); } {void * tlv7; tlv7 = (void *)(ac_buffer); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(ac_buffer); } {int tlv1; tlv1 = (int)(ac_buffer); } {int tlv2; tlv2 = (int)(ac_buffer); } {cgc_size_t i; i = (cgc_size_t)(ac_buffer); } {int tlv15; tlv15 = (int)(ac_buffer); } {void * tlv14; tlv14 = (void *)(ac_buffer); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(ac_buffer); } {int tlv16; tlv16 = (int)(ac_buffer); } } void fix_ingred_ac_3_0(){ fix_ingred_ac_3_0_5(); } void fix_ingred_ac_3_1_0(){ {cgc_size_t rx; rx = (cgc_size_t)(0); } {char * buf; buf = (char *)(0); } {cgc_size_t count; count = (cgc_size_t)(0); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(0); } {char * newbuf; newbuf = (char *)(0); } {void * tlv11; tlv11 = (void *)(0); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(0); } {void * tlv8; tlv8 = (void *)(0); } {void * tlv7; tlv7 = (void *)(0); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(0); } {int tlv1; tlv1 = (int)(0); } {int tlv2; tlv2 = (int)(0); } {cgc_size_t i; i = (cgc_size_t)(0); } {int tlv15; tlv15 = (int)(0); } {void * tlv14; tlv14 = (void *)(0); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(0); } {int tlv16; tlv16 = (int)(0); } } void fix_ingred_ac_3_1(){ fix_ingred_ac_3_1_0(); } void fix_ingred_ac_3_2_7(){ cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(count); } {char * buf; buf = (char *)(count); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(count); } {char * newbuf; newbuf = (char *)(count); } {void * tlv11; tlv11 = (void *)(count); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(count); } {void * tlv8; tlv8 = (void *)(count); } {void * tlv7; tlv7 = (void *)(count); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(count); } {int tlv1; tlv1 = (int)(count); } {int tlv2; tlv2 = (int)(count); } {cgc_size_t i; i = (cgc_size_t)(count); } {int tlv15; tlv15 = (int)(count); } {void * tlv14; tlv14 = (void *)(count); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(count); } {int tlv16; tlv16 = (int)(count); } } void fix_ingred_ac_3_2_8(){ cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(32); } {char * buf; buf = (char *)(32); } {cgc_size_t count; count = (cgc_size_t)(32); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(32); } {char * newbuf; newbuf = (char *)(32); } {void * tlv11; tlv11 = (void *)(32); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(32); } {void * tlv8; tlv8 = (void *)(32); } {void * tlv7; tlv7 = (void *)(32); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(32); } {int tlv1; tlv1 = (int)(32); } {int tlv2; tlv2 = (int)(32); } {cgc_size_t i; i = (cgc_size_t)(32); } {int tlv15; tlv15 = (int)(32); } {void * tlv14; tlv14 = (void *)(32); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(32); } {int tlv16; tlv16 = (int)(32); } } void fix_ingred_ac_3_2(){ fix_ingred_ac_3_2_7(); fix_ingred_ac_3_2_8(); } void fix_ingred_ac_3_3_0(){ int fd; bzero(&fd,sizeof(int)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(fd); } {char * buf; buf = (char *)(fd); } {cgc_size_t count; count = (cgc_size_t)(fd); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(fd); } {char * newbuf; newbuf = (char *)(fd); } {void * tlv11; tlv11 = (void *)(fd); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(fd); } {void * tlv8; tlv8 = (void *)(fd); } {void * tlv7; tlv7 = (void *)(fd); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(fd); } {int tlv1; tlv1 = (int)(fd); } {int tlv2; tlv2 = (int)(fd); } {cgc_size_t i; i = (cgc_size_t)(fd); } {int tlv15; tlv15 = (int)(fd); } {void * tlv14; tlv14 = (void *)(fd); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(fd); } {int tlv16; tlv16 = (int)(fd); } } void fix_ingred_ac_3_3_1(){ int fd; bzero(&fd,sizeof(int)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {if (word){ count = 0; cgc_size_t rx; rx = (cgc_size_t)(& word [ count ]); }} {if (word){ count = 0; char * buf; buf = (char *)(& word [ count ]); }} {if (word){ count = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(& word [ count ]); }} {if (word){ count = 0; char * newbuf; newbuf = (char *)(& word [ count ]); }} {if (word){ count = 0; void * tlv11; tlv11 = (void *)(& word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv10; tlv10 = (cgc_size_t)(& word [ count ]); }} {if (word){ count = 0; void * tlv8; tlv8 = (void *)(& word [ count ]); }} {if (word){ count = 0; void * tlv7; tlv7 = (void *)(& word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv6; tlv6 = (cgc_size_t)(& word [ count ]); }} {if (word){ count = 0; int tlv1; tlv1 = (int)(& word [ count ]); }} {if (word){ count = 0; int tlv2; tlv2 = (int)(& word [ count ]); }} {if (word){ count = 0; cgc_size_t i; i = (cgc_size_t)(& word [ count ]); }} {if (word){ count = 0; int tlv15; tlv15 = (int)(& word [ count ]); }} {if (word){ count = 0; void * tlv14; tlv14 = (void *)(& word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv13; tlv13 = (cgc_size_t)(& word [ count ]); }} {if (word){ count = 0; int tlv16; tlv16 = (int)(& word [ count ]); }} } void fix_ingred_ac_3_3_2(){ int fd; bzero(&fd,sizeof(int)); char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(1); } {char * buf; buf = (char *)(1); } {cgc_size_t count; count = (cgc_size_t)(1); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(1); } {char * newbuf; newbuf = (char *)(1); } {void * tlv11; tlv11 = (void *)(1); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(1); } {void * tlv8; tlv8 = (void *)(1); } {void * tlv7; tlv7 = (void *)(1); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(1); } {int tlv1; tlv1 = (int)(1); } {int tlv2; tlv2 = (int)(1); } {cgc_size_t i; i = (cgc_size_t)(1); } {int tlv15; tlv15 = (int)(1); } {void * tlv14; tlv14 = (void *)(1); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(1); } {int tlv16; tlv16 = (int)(1); } } void fix_ingred_ac_3_3(){ fix_ingred_ac_3_3_0(); fix_ingred_ac_3_3_1(); fix_ingred_ac_3_3_2(); } void fix_ingred_ac_3_4_9(){ int tlv1; bzero(&tlv1,sizeof(int)); cgc_size_t rx; bzero(&rx,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(tlv1); } {char * buf; buf = (char *)(tlv1); } {cgc_size_t count; count = (cgc_size_t)(tlv1); } {void * tlv11; tlv11 = (void *)(tlv1); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(tlv1); } {void * tlv8; tlv8 = (void *)(tlv1); } {void * tlv7; tlv7 = (void *)(tlv1); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(tlv1); } {int tlv2; tlv2 = (int)(tlv1); } {int tlv15; tlv15 = (int)(tlv1); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(tlv1); } {int tlv16; tlv16 = (int)(tlv1); } } void fix_ingred_ac_3_4_10(){ int tlv1; bzero(&tlv1,sizeof(int)); cgc_size_t rx; bzero(&rx,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(0); } {char * buf; buf = (char *)(0); } {cgc_size_t count; count = (cgc_size_t)(0); } {void * tlv11; tlv11 = (void *)(0); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(0); } {void * tlv8; tlv8 = (void *)(0); } {void * tlv7; tlv7 = (void *)(0); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(0); } {int tlv2; tlv2 = (int)(0); } {int tlv15; tlv15 = (int)(0); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(0); } {int tlv16; tlv16 = (int)(0); } } void fix_ingred_ac_3_4_11(){ int tlv1; bzero(&tlv1,sizeof(int)); cgc_size_t rx; bzero(&rx,sizeof(cgc_size_t)); {char * buf; buf = (char *)(rx); } {cgc_size_t count; count = (cgc_size_t)(rx); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(rx); } {char * newbuf; newbuf = (char *)(rx); } {void * tlv11; tlv11 = (void *)(rx); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(rx); } {void * tlv8; tlv8 = (void *)(rx); } {void * tlv7; tlv7 = (void *)(rx); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(rx); } {int tlv1; tlv1 = (int)(rx); } {int tlv2; tlv2 = (int)(rx); } {cgc_size_t i; i = (cgc_size_t)(rx); } {int tlv15; tlv15 = (int)(rx); } {void * tlv14; tlv14 = (void *)(rx); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(rx); } {int tlv16; tlv16 = (int)(rx); } } void fix_ingred_ac_3_4(){ fix_ingred_ac_3_4_9(); fix_ingred_ac_3_4_10(); fix_ingred_ac_3_4_11(); } void fix_ingred_ac_3_5_0(){ char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {if (word){ count = 0; cgc_size_t rx; rx = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; char * buf; buf = (char *)(word [ count ]); }} {if (word){ count = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(word [ count ]); }} {if (word){ count = 0; char * newbuf; newbuf = (char *)(word [ count ]); }} {if (word){ count = 0; void * tlv11; tlv11 = (void *)(word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv10; tlv10 = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; void * tlv8; tlv8 = (void *)(word [ count ]); }} {if (word){ count = 0; void * tlv7; tlv7 = (void *)(word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv6; tlv6 = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; int tlv1; tlv1 = (int)(word [ count ]); }} {if (word){ count = 0; int tlv2; tlv2 = (int)(word [ count ]); }} {if (word){ count = 0; cgc_size_t i; i = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; int tlv15; tlv15 = (int)(word [ count ]); }} {if (word){ count = 0; void * tlv14; tlv14 = (void *)(word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv13; tlv13 = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; int tlv16; tlv16 = (int)(word [ count ]); }} } void fix_ingred_ac_3_5(){ fix_ingred_ac_3_5_0(); } void fix_ingred_ac_3_6_9(){ char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); char term; bzero(&term,sizeof(char)); {if (word){ count = 0; cgc_size_t rx; rx = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; char * buf; buf = (char *)(word [ count ]); }} {if (word){ count = 0; char word [ 32 ]; word [ ( 32 )-1 ] = (char)(word [ count ]); }} {if (word){ count = 0; char * newbuf; newbuf = (char *)(word [ count ]); }} {if (word){ count = 0; void * tlv11; tlv11 = (void *)(word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv10; tlv10 = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; void * tlv8; tlv8 = (void *)(word [ count ]); }} {if (word){ count = 0; void * tlv7; tlv7 = (void *)(word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv6; tlv6 = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; int tlv1; tlv1 = (int)(word [ count ]); }} {if (word){ count = 0; int tlv2; tlv2 = (int)(word [ count ]); }} {if (word){ count = 0; cgc_size_t i; i = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; int tlv15; tlv15 = (int)(word [ count ]); }} {if (word){ count = 0; void * tlv14; tlv14 = (void *)(word [ count ]); }} {if (word){ count = 0; cgc_size_t tlv13; tlv13 = (cgc_size_t)(word [ count ]); }} {if (word){ count = 0; int tlv16; tlv16 = (int)(word [ count ]); }} } void fix_ingred_ac_3_6_10(){ char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); char term; bzero(&term,sizeof(char)); {cgc_size_t rx; rx = (cgc_size_t)(term); } {char * buf; buf = (char *)(term); } {cgc_size_t count; count = (cgc_size_t)(term); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(term); } {char * newbuf; newbuf = (char *)(term); } {void * tlv11; tlv11 = (void *)(term); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(term); } {void * tlv8; tlv8 = (void *)(term); } {void * tlv7; tlv7 = (void *)(term); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(term); } {int tlv1; tlv1 = (int)(term); } {int tlv2; tlv2 = (int)(term); } {cgc_size_t i; i = (cgc_size_t)(term); } {int tlv15; tlv15 = (int)(term); } {void * tlv14; tlv14 = (void *)(term); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(term); } {int tlv16; tlv16 = (int)(term); } } void fix_ingred_ac_3_6(){ fix_ingred_ac_3_6_9(); fix_ingred_ac_3_6_10(); } void fix_ingred_ac_3_7_0(){ cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(ac_buffer); } {char * buf; buf = (char *)(ac_buffer); } {cgc_size_t count; count = (cgc_size_t)(ac_buffer); } {void * tlv11; tlv11 = (void *)(ac_buffer); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(ac_buffer); } {void * tlv8; tlv8 = (void *)(ac_buffer); } {void * tlv7; tlv7 = (void *)(ac_buffer); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(ac_buffer); } {int tlv2; tlv2 = (int)(ac_buffer); } {int tlv15; tlv15 = (int)(ac_buffer); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(ac_buffer); } {int tlv16; tlv16 = (int)(ac_buffer); } } void fix_ingred_ac_3_7_1(){ cgc_size_t count; bzero(&count,sizeof(cgc_size_t)); {cgc_size_t rx; rx = (cgc_size_t)(ac_idx + count + 1); } {char * buf; buf = (char *)(ac_idx + count + 1); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_idx + count + 1); } {char * newbuf; newbuf = (char *)(ac_idx + count + 1); } {void * tlv11; tlv11 = (void *)(ac_idx + count + 1); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(ac_idx + count + 1); } {void * tlv8; tlv8 = (void *)(ac_idx + count + 1); } {void * tlv7; tlv7 = (void *)(ac_idx + count + 1); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(ac_idx + count + 1); } {int tlv1; tlv1 = (int)(ac_idx + count + 1); } {int tlv2; tlv2 = (int)(ac_idx + count + 1); } {cgc_size_t i; i = (cgc_size_t)(ac_idx + count + 1); } {int tlv15; tlv15 = (int)(ac_idx + count + 1); } {void * tlv14; tlv14 = (void *)(ac_idx + count + 1); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(ac_idx + count + 1); } {int tlv16; tlv16 = (int)(ac_idx + count + 1); } } void fix_ingred_ac_3_7(){ fix_ingred_ac_3_7_0(); fix_ingred_ac_3_7_1(); } void fix_ingred_ac_3_8_6(){ char newbuf_ref; bzero(&newbuf_ref,1*sizeof(char)); char * newbuf = &newbuf_ref; {cgc_size_t rx; rx = (cgc_size_t)(newbuf); } {char * buf; buf = (char *)(newbuf); } {cgc_size_t count; count = (cgc_size_t)(newbuf); } {void * tlv11; tlv11 = (void *)(newbuf); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(newbuf); } {void * tlv8; tlv8 = (void *)(newbuf); } {void * tlv7; tlv7 = (void *)(newbuf); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(newbuf); } {int tlv2; tlv2 = (int)(newbuf); } {int tlv15; tlv15 = (int)(newbuf); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(newbuf); } {int tlv16; tlv16 = (int)(newbuf); } } void fix_ingred_ac_3_8_7(){ char newbuf_ref; bzero(&newbuf_ref,1*sizeof(char)); char * newbuf = &newbuf_ref; {cgc_size_t rx; rx = (cgc_size_t)((0)); } {char * buf; buf = (char *)((0)); } {cgc_size_t count; count = (cgc_size_t)((0)); } {void * tlv11; tlv11 = (void *)((0)); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)((0)); } {void * tlv8; tlv8 = (void *)((0)); } {void * tlv7; tlv7 = (void *)((0)); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)((0)); } {int tlv2; tlv2 = (int)((0)); } {int tlv15; tlv15 = (int)((0)); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)((0)); } {int tlv16; tlv16 = (int)((0)); } } void fix_ingred_ac_3_8(){ fix_ingred_ac_3_8_6(); fix_ingred_ac_3_8_7(); } void fix_ingred_ac_3_10_0(){ char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); {if (ac_buffer){cgc_size_t rx; rx = (cgc_size_t)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){char * buf; buf = (char *)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){cgc_size_t count; count = (cgc_size_t)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){char word [ 32 ]; word [ ( 32 )-1 ] = (char)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){char * newbuf; newbuf = (char *)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){void * tlv11; tlv11 = (void *)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){cgc_size_t tlv10; tlv10 = (cgc_size_t)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){void * tlv8; tlv8 = (void *)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){void * tlv7; tlv7 = (void *)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){cgc_size_t tlv6; tlv6 = (cgc_size_t)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){int tlv1; tlv1 = (int)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){int tlv2; tlv2 = (int)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){cgc_size_t i; i = (cgc_size_t)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){int tlv15; tlv15 = (int)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){void * tlv14; tlv14 = (void *)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){cgc_size_t tlv13; tlv13 = (cgc_size_t)(& ac_buffer [ ac_idx ]); }} {if (ac_buffer){int tlv16; tlv16 = (int)(& ac_buffer [ ac_idx ]); }} } void fix_ingred_ac_3_10_1(){ char word [ 32 ]; bzero(&word,( 32 *sizeof(char) ) ); {cgc_size_t rx; rx = (cgc_size_t)(word); } {char * buf; buf = (char *)(word); } {cgc_size_t count; count = (cgc_size_t)(word); } {void * tlv11; tlv11 = (void *)(word); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(word); } {void * tlv8; tlv8 = (void *)(word); } {void * tlv7; tlv7 = (void *)(word); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(word); } {int tlv2; tlv2 = (int)(word); } {int tlv15; tlv15 = (int)(word); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(word); } {int tlv16; tlv16 = (int)(word); } } void fix_ingred_ac_3_10(){ fix_ingred_ac_3_10_0(); fix_ingred_ac_3_10_1(); } void fix_ingred_ac_3_12_0(){ {cgc_size_t rx; rx = (cgc_size_t)(ac_queue_tail); } {char * buf; buf = (char *)(ac_queue_tail); } {cgc_size_t count; count = (cgc_size_t)(ac_queue_tail); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(ac_queue_tail); } {char * newbuf; newbuf = (char *)(ac_queue_tail); } {void * tlv11; tlv11 = (void *)(ac_queue_tail); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(ac_queue_tail); } {void * tlv8; tlv8 = (void *)(ac_queue_tail); } {void * tlv7; tlv7 = (void *)(ac_queue_tail); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(ac_queue_tail); } {int tlv1; tlv1 = (int)(ac_queue_tail); } {int tlv2; tlv2 = (int)(ac_queue_tail); } {cgc_size_t i; i = (cgc_size_t)(ac_queue_tail); } {int tlv15; tlv15 = (int)(ac_queue_tail); } {void * tlv14; tlv14 = (void *)(ac_queue_tail); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(ac_queue_tail); } {int tlv16; tlv16 = (int)(ac_queue_tail); } } void fix_ingred_ac_3_12(){ fix_ingred_ac_3_12_0(); } void fix_ingred_ac_3_14_10(){ char term; bzero(&term,sizeof(char)); {cgc_size_t rx; rx = (cgc_size_t)(term); } {char * buf; buf = (char *)(term); } {cgc_size_t count; count = (cgc_size_t)(term); } {char word [ 32 ]; word [ ( 32 )-1 ] = (char)(term); } {char * newbuf; newbuf = (char *)(term); } {void * tlv11; tlv11 = (void *)(term); } {cgc_size_t tlv10; tlv10 = (cgc_size_t)(term); } {void * tlv8; tlv8 = (void *)(term); } {void * tlv7; tlv7 = (void *)(term); } {cgc_size_t tlv6; tlv6 = (cgc_size_t)(term); } {int tlv1; tlv1 = (int)(term); } {int tlv2; tlv2 = (int)(term); } {cgc_size_t i; i = (cgc_size_t)(term); } {int tlv15; tlv15 = (int)(term); } {void * tlv14; tlv14 = (void *)(term); } {cgc_size_t tlv13; tlv13 = (cgc_size_t)(term); } {int tlv16; tlv16 = (int)(term); } } void fix_ingred_ac_3_14(){ fix_ingred_ac_3_14_10(); } void fix_ingred_ac_3(){ fix_ingred_ac_3_0(); fix_ingred_ac_3_1(); fix_ingred_ac_3_2(); fix_ingred_ac_3_3(); fix_ingred_ac_3_4(); fix_ingred_ac_3_5(); fix_ingred_ac_3_6(); fix_ingred_ac_3_7(); fix_ingred_ac_3_8(); fix_ingred_ac_3_10(); fix_ingred_ac_3_12(); fix_ingred_ac_3_14(); }