/* basic_types_floats.c generated by valac, the Vala compiler * generated from basic_types_floats.vala, do not modify */ #include #include #include #include #include #include #if !defined(VALA_EXTERN) #if defined(_WIN32) || defined(__CYGWIN__) #define VALA_EXTERN __declspec(dllexport) extern #elif __GNUC__ >= 4 #define VALA_EXTERN __attribute__((visibility("default"))) extern #else #define VALA_EXTERN extern #endif #endif #define _g_free0(var) ((var == NULL) ? NULL : (var = (g_free (var), NULL))) #define _vala_assert(expr, msg) if G_LIKELY (expr) ; else g_assertion_message_expr (G_LOG_DOMAIN, __FILE__, __LINE__, G_STRFUNC, msg); #define _vala_return_if_fail(expr, msg) if G_LIKELY (expr) ; else { g_return_if_fail_warning (G_LOG_DOMAIN, G_STRFUNC, msg); return; } #define _vala_return_val_if_fail(expr, msg, val) if G_LIKELY (expr) ; else { g_return_if_fail_warning (G_LOG_DOMAIN, G_STRFUNC, msg); return val; } #define _vala_warn_if_fail(expr, msg) if G_LIKELY (expr) ; else g_warn_message (G_LOG_DOMAIN, __FILE__, __LINE__, G_STRFUNC, msg); VALA_EXTERN void test_double (void); static gdouble* _double_dup (gdouble* self); static gboolean _double_equal (const gdouble * s1, const gdouble * s2); VALA_EXTERN void test_float (void); static gfloat* _float_dup (gfloat* self); static gboolean _float_equal (const gfloat * s1, const gfloat * s2); static void _vala_main (void); static gchar* double_to_string (gdouble self) { gchar* _tmp0_; gchar* _tmp1_; gint _tmp1__length1; const gchar* _tmp2_; gchar* _tmp3_; gchar* _tmp4_; gchar* result; _tmp0_ = g_new0 (gchar, G_ASCII_DTOSTR_BUF_SIZE); _tmp1_ = _tmp0_; _tmp1__length1 = G_ASCII_DTOSTR_BUF_SIZE; _tmp2_ = g_ascii_dtostr (_tmp1_, (gint) G_ASCII_DTOSTR_BUF_SIZE, self); _tmp3_ = g_strdup (_tmp2_); _tmp4_ = _tmp3_; _tmp1_ = (g_free (_tmp1_), NULL); result = _tmp4_; return result; } static gdouble double_parse (const gchar* str) { gdouble result; g_return_val_if_fail (str != NULL, 0.0); result = g_ascii_strtod (str, NULL); return result; } static gboolean double_try_parse (const gchar* str, gdouble* _result_, const gchar** unparsed) { gdouble _vala__result_ = 0.0; const gchar* _vala_unparsed = NULL; gchar* endptr = NULL; gchar* _tmp0_ = NULL; gdouble _tmp1_; gchar* _tmp2_; gint _tmp3_; gint _tmp4_; gboolean result; g_return_val_if_fail (str != NULL, FALSE); errno = 0; _tmp1_ = g_ascii_strtod (str, &_tmp0_); endptr = _tmp0_; _vala__result_ = _tmp1_; _tmp2_ = endptr; _tmp3_ = strlen (str); _tmp4_ = _tmp3_; if (_tmp2_ == (((gchar*) str) + _tmp4_)) { _vala_unparsed = ""; result = errno != ERANGE; if (_result_) { *_result_ = _vala__result_; } if (unparsed) { *unparsed = _vala_unparsed; } return result; } else { gchar* _tmp5_; _tmp5_ = endptr; _vala_unparsed = (const gchar*) _tmp5_; result = FALSE; if (_result_) { *_result_ = _vala__result_; } if (unparsed) { *unparsed = _vala_unparsed; } return result; } } static gdouble* _double_dup (gdouble* self) { gdouble* dup; dup = g_new0 (gdouble, 1); memcpy (dup, self, sizeof (gdouble)); return dup; } static gpointer __double_dup0 (gpointer self) { return self ? _double_dup (self) : NULL; } static gboolean _double_equal (const gdouble * s1, const gdouble * s2) { if (s1 == s2) { return TRUE; } if (s1 == NULL) { return FALSE; } if (s2 == NULL) { return FALSE; } return (*s1) == (*s2); } void test_double (void) { gdouble d = 0.0; gdouble e = 0.0; gchar* s = NULL; gchar* _tmp0_; const gchar* unparsed = NULL; gdouble _tmp1_ = 0.0; const gchar* _tmp2_ = NULL; gdouble* d2 = NULL; gdouble _tmp3_; gdouble* _tmp4_; gdouble _tmp5_; d = 42.; _vala_assert (d == 42., "d == 42d"); d = 23.; _vala_assert (d == 23., "d == 23d"); e = d; _vala_assert (e == 23., "e == 23d"); d = 1.0E-5; _vala_assert (d == 0.00001, "d == 0.00001"); d = 1.0E+4; _vala_assert (d == 10000.0, "d == 10000.0"); d = 42. + 23.; _vala_assert (d == 65., "d == 65d"); d = 42. - 23.; _vala_assert (d == 19., "d == 19d"); d = 42. * 23.; _vala_assert (d == 966., "d == 966d"); d = 42. / 23.; _vala_assert (d > 1.8, "d > 1.8"); _vala_assert (d < 1.9, "d < 1.9"); d = 42.; _vala_assert (d == 42., "d == 42d"); _vala_assert (d != 50., "d != 50d"); _vala_assert (d < 42.5, "d < 42.5"); _vala_assert (!(d < 41.5), "!(d < 41.5)"); _vala_assert (d <= 42., "d <= 42d"); _vala_assert (!(d <= 41.5), "!(d <= 41.5)"); _vala_assert (d >= 42., "d >= 42d"); _vala_assert (!(d >= 42.5), "!(d >= 42.5)"); _vala_assert (d > 41.5, "d > 41.5"); _vala_assert (!(d > 42.5), "!(d > 42.5)"); _tmp0_ = double_to_string (d); s = _tmp0_; _vala_assert (g_strcmp0 (s, "42") == 0, "s == \"42\""); d = double_parse ("47.11mm"); _vala_assert (d == 47.11, "d == 47.11"); double_try_parse ("3.45mm", &_tmp1_, &_tmp2_); d = _tmp1_; unparsed = _tmp2_; _vala_assert (d == 3.45, "d == 3.45"); _vala_assert (g_strcmp0 (unparsed, "mm") == 0, "unparsed == \"mm\""); d = DBL_MIN; _vala_assert (d == DBL_MIN, "d == double.MIN"); _vala_assert (d < DBL_MAX, "d < double.MAX"); d = DBL_MAX; _vala_assert (d == DBL_MAX, "d == double.MAX"); _vala_assert (d > DBL_MIN, "d > double.MIN"); _tmp3_ = (gdouble) 10; _tmp4_ = __double_dup0 (&_tmp3_); d2 = _tmp4_; _tmp5_ = (gdouble) 10; _vala_assert (_double_equal (d2, &_tmp5_) == TRUE, "d2 == 10"); _g_free0 (d2); _g_free0 (s); } static gfloat float_parse (const gchar* str) { gfloat result; g_return_val_if_fail (str != NULL, 0.0F); result = strtof (str, NULL); return result; } static gboolean float_try_parse (const gchar* str, gfloat* _result_, const gchar** unparsed) { gfloat _vala__result_ = 0.0F; const gchar* _vala_unparsed = NULL; gchar* endptr = NULL; gchar* _tmp0_ = NULL; gfloat _tmp1_; gchar* _tmp2_; gint _tmp3_; gint _tmp4_; gboolean result; g_return_val_if_fail (str != NULL, FALSE); errno = 0; _tmp1_ = strtof (str, &_tmp0_); endptr = _tmp0_; _vala__result_ = _tmp1_; _tmp2_ = endptr; _tmp3_ = strlen (str); _tmp4_ = _tmp3_; if (_tmp2_ == (((gchar*) str) + _tmp4_)) { _vala_unparsed = ""; result = errno != ERANGE; if (_result_) { *_result_ = _vala__result_; } if (unparsed) { *unparsed = _vala_unparsed; } return result; } else { gchar* _tmp5_; _tmp5_ = endptr; _vala_unparsed = (const gchar*) _tmp5_; result = FALSE; if (_result_) { *_result_ = _vala__result_; } if (unparsed) { *unparsed = _vala_unparsed; } return result; } } static gfloat* _float_dup (gfloat* self) { gfloat* dup; dup = g_new0 (gfloat, 1); memcpy (dup, self, sizeof (gfloat)); return dup; } static gpointer __float_dup0 (gpointer self) { return self ? _float_dup (self) : NULL; } static gboolean _float_equal (const gfloat * s1, const gfloat * s2) { if (s1 == s2) { return TRUE; } if (s1 == NULL) { return FALSE; } if (s2 == NULL) { return FALSE; } return (*s1) == (*s2); } void test_float (void) { gfloat f = 0.0F; gfloat g = 0.0F; gchar* s = NULL; gchar* _tmp0_; const gchar* unparsed = NULL; gfloat _tmp1_ = 0.0F; const gchar* _tmp2_ = NULL; gfloat* f2 = NULL; gfloat _tmp3_; gfloat* _tmp4_; gfloat _tmp5_; f = 42.f; _vala_assert (f == 42.f, "f == 42f"); f = 23.f; _vala_assert (f == 23.f, "f == 23f"); g = f; _vala_assert (g == 23.f, "g == 23f"); f = 42.f + 23.f; _vala_assert (f == 65.f, "f == 65f"); f = 42.f - 23.f; _vala_assert (f == 19.f, "f == 19f"); f = 42.f * 23.f; _vala_assert (f == 966.f, "f == 966f"); f = 42.f / 23.f; _vala_assert (((gdouble) f) > 1.8, "f > 1.8"); _vala_assert (((gdouble) f) < 1.9, "f < 1.9"); f = 42.f; _vala_assert (f == 42.f, "f == 42f"); _vala_assert (f != 50.f, "f != 50f"); _vala_assert (f < 42.5f, "f < 42.5f"); _vala_assert (!(f < 41.5f), "!(f < 41.5f)"); _vala_assert (f <= 42.f, "f <= 42f"); _vala_assert (!(f <= 41.5f), "!(f <= 41.5f)"); _vala_assert (f >= 42.f, "f >= 42f"); _vala_assert (!(f >= 42.5f), "!(f >= 42.5f)"); _vala_assert (f > 41.5f, "f > 41.5f"); _vala_assert (!(f > 42.5f), "!(f > 42.5f)"); _tmp0_ = g_strdup_printf ("%g", f); s = _tmp0_; _vala_assert (g_strcmp0 (s, "42") == 0, "s == \"42\""); f = float_parse ("47.11mm"); _vala_assert (f == 47.11f, "f == 47.11f"); float_try_parse ("3.45mm", &_tmp1_, &_tmp2_); f = _tmp1_; unparsed = _tmp2_; _vala_assert (f == 3.45f, "f == 3.45f"); _vala_assert (g_strcmp0 (unparsed, "mm") == 0, "unparsed == \"mm\""); f = FLT_MIN; _vala_assert (f == FLT_MIN, "f == float.MIN"); _vala_assert (f < FLT_MAX, "f < float.MAX"); f = FLT_MAX; _vala_assert (f == FLT_MAX, "f == float.MAX"); _vala_assert (f > FLT_MIN, "f > float.MIN"); _tmp3_ = 10.f; _tmp4_ = __float_dup0 (&_tmp3_); f2 = _tmp4_; _tmp5_ = 10.f; _vala_assert (_float_equal (f2, &_tmp5_) == TRUE, "f2 == 10f"); _g_free0 (f2); _g_free0 (s); } static void _vala_main (void) { test_double (); test_float (); } int main (int argc, char ** argv) { _vala_main (); return 0; }