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| author | Tobias Schlüter <tobias.schlueter@physik.uni-muenchen.de> | 2005-01-08 23:40:47 +0100 |
|---|---|---|
| committer | Tobias Schlüter <tobi@gcc.gnu.org> | 2005-01-08 23:40:47 +0100 |
| commit | 27dfc9c46db75a73ed617d47608c55c1f9f47c17 (patch) | |
| tree | 7ec99850ab2c6490adf6b0c6204b9c6ca123213a /gcc/fortran/arith.c | |
| parent | b36cd00b1ec1dae88348d89cc82fe50c66e75d5b (diff) | |
| download | gcc-27dfc9c46db75a73ed617d47608c55c1f9f47c17.zip gcc-27dfc9c46db75a73ed617d47608c55c1f9f47c17.tar.gz gcc-27dfc9c46db75a73ed617d47608c55c1f9f47c17.tar.bz2 | |
arith.c (arctangent2, [...]): Fix whitespace issues.
* arith.c (arctangent2, gfc_arith_init_1, gfc_arith_done_1,
gfc_constant_result, gfc_range_check, gfc_arith_power,
eval_type_intrinsic0, eval_intrinsic_f2, gfc_real2real,
gfc_real2complex, gfc_complex2int, gfc_complex2real,
gfc_complex2complex): Fix whitespace issues.
check.c (must_be, type_check, numeric_check, int_or_real_check,
logical_array_check, array_check, scalar_check, nonoptional_check,
variable_check, dim_check, check_a_kind, gfc_check_a_ikind,
gfc_check_a_xkind, gfc_check_abs, gfc_check_all_any,
gfc_check_allocated, gfc_check_a_p, gfc_check_besn,
gfc_check_btest, gfc_check_char, gfc_check_cmplx, gfc_check_count,
gfc_check_cshift, gfc_check_dcmplx, gfc_check_dble,
gfc_check_digits, gfc_check_dot_product, gfc_check_eoshift,
gfc_check_fnum, gfc_check_g77_math1, gfc_check_huge, gfc_check_i,
gfc_check_iand, gfc_check_ibclr, gfc_check_ibits, gfc_check_ibset,
gfc_check_idnint, gfc_check_ieor, gfc_check_index, gfc_check_int,
gfc_check_ior, gfc_check_ishft, gfc_check_ishftc, gfc_check_kind,
gfc_check_lbound, gfc_check_logical, min_max_args,
gfc_check_min_max_integer, gfc_check_min_max_real,
gfc_check_min_max_double, gfc_check_matmul,
gfc_check_minval_maxval, gfc_check_merge, gfc_check_nearest,
gfc_check_pack, gfc_check_precision, gfc_check_radix,
gfc_check_range, gfc_check_real, gfc_check_repeat,
gfc_check_scale, gfc_check_scan, gfc_check_selected_real_kind,
gfc_check_set_exponent): Fix formatting issues.
(gfc_check_size, gfc_check_sign): Alphabetize function order,
remove whitespace-only line.
(gfc_check_fstat, gfc_check_fstat_sub, gfc_check_stat,
gfc_check_stat_sub, gfc_check_transfer, gfc_check_transpose,
gfc_check_ubound, gfc_check_unpack, gfc_check_verify, gfc_check_x,
gfc_check_cpu_time, gfc_check_date_and_time, gfc_check_mvbits,
gfc_check_random_number, gfc_check_random_seed,
gfc_check_second_sub, gfc_check_system_clock,
gfc_check_getcwd_sub, gfc_check_exit, gfc_check_flush,
gfc_check_umask, gfc_check_umask_sub, gfc_check_unlink,
gfc_check_unlink_sub): Fix formatting issues.
From-SVN: r93093
Diffstat (limited to 'gcc/fortran/arith.c')
| -rw-r--r-- | gcc/fortran/arith.c | 38 |
1 files changed, 19 insertions, 19 deletions
diff --git a/gcc/fortran/arith.c b/gcc/fortran/arith.c index 36b8cc2..280fc9a 100644 --- a/gcc/fortran/arith.c +++ b/gcc/fortran/arith.c @@ -92,7 +92,7 @@ arctangent2 (mpfr_t y, mpfr_t x, mpfr_t result) gfc_set_model (y); mpfr_init (t); - i = mpfr_sgn(x); + i = mpfr_sgn (x); if (i > 0) { @@ -206,12 +206,12 @@ gfc_arith_init_1 (void) Standard Fortran requires integers to be symmetrical, i.e. every negative integer must have a representable positive absolute value, and vice versa. */ - + mpz_init (int_info->pedantic_min_int); mpz_neg (int_info->pedantic_min_int, int_info->huge); mpz_init (int_info->min_int); - mpz_sub_ui(int_info->min_int, int_info->pedantic_min_int, 1); + mpz_sub_ui (int_info->min_int, int_info->pedantic_min_int, 1); mpz_init (int_info->max_int); mpz_add (int_info->max_int, int_info->huge, int_info->huge); @@ -330,7 +330,7 @@ gfc_arith_done_1 (void) /* Given an integer and a kind, make sure that the integer lies within - the range of the kind. Returns ARITH_OK, ARITH_ASYMMETRIC or + the range of the kind. Returns ARITH_OK, ARITH_ASYMMETRIC or ARITH_OVERFLOW. */ static arith @@ -396,7 +396,7 @@ done: /* Function to return a constant expression node of a given type and kind. */ -gfc_expr * +gfc_expr * gfc_constant_result (bt type, int kind, locus * where) { gfc_expr *result; @@ -549,7 +549,7 @@ gfc_range_check (gfc_expr * e) default: gfc_internal_error ("gfc_range_check(): Bad type"); } - + return rc; } @@ -1089,7 +1089,7 @@ gfc_arith_power (gfc_expr * op1, gfc_expr * op2, gfc_expr ** resultp) gfc_free_expr (result); else *resultp = result; - + return rc; } @@ -1687,9 +1687,9 @@ static gfc_expr * eval_type_intrinsic0 (gfc_intrinsic_op operator, gfc_expr *op) { if (op == NULL) - gfc_internal_error("eval_type_intrinsic0(): op NULL"); + gfc_internal_error ("eval_type_intrinsic0(): op NULL"); - switch(operator) + switch (operator) { case INTRINSIC_GE: case INTRINSIC_LT: @@ -1755,13 +1755,13 @@ eval_intrinsic_f2 (gfc_intrinsic_op operator, if (op2 == NULL) { if (gfc_zero_size_array (op1)) - return eval_type_intrinsic0(operator, op1); + return eval_type_intrinsic0 (operator, op1); } else { result = reduce_binary0 (op1, op2); if (result != NULL) - return eval_type_intrinsic0(operator, result); + return eval_type_intrinsic0 (operator, result); } f.f2 = eval; @@ -2093,7 +2093,7 @@ gfc_real2real (gfc_expr * src, int kind) { if (gfc_option.warn_underflow) gfc_warning ("%s at %L", gfc_arith_error (rc), &src->where); - mpfr_set_ui(result->value.real, 0, GFC_RND_MODE); + mpfr_set_ui (result->value.real, 0, GFC_RND_MODE); } else if (rc != ARITH_OK) { @@ -2125,7 +2125,7 @@ gfc_real2complex (gfc_expr * src, int kind) { if (gfc_option.warn_underflow) gfc_warning ("%s at %L", gfc_arith_error (rc), &src->where); - mpfr_set_ui(result->value.complex.r, 0, GFC_RND_MODE); + mpfr_set_ui (result->value.complex.r, 0, GFC_RND_MODE); } else if (rc != ARITH_OK) { @@ -2148,7 +2148,7 @@ gfc_complex2int (gfc_expr * src, int kind) result = gfc_constant_result (BT_INTEGER, kind, &src->where); - gfc_mpfr_to_mpz(result->value.integer, src->value.complex.r); + gfc_mpfr_to_mpz (result->value.integer, src->value.complex.r); if ((rc = gfc_check_integer_range (result->value.integer, kind)) != ARITH_OK) @@ -2176,11 +2176,11 @@ gfc_complex2real (gfc_expr * src, int kind) rc = gfc_check_real_range (result->value.real, kind); - if (rc == ARITH_UNDERFLOW) + if (rc == ARITH_UNDERFLOW) { if (gfc_option.warn_underflow) gfc_warning ("%s at %L", gfc_arith_error (rc), &src->where); - mpfr_set_ui(result->value.real, 0, GFC_RND_MODE); + mpfr_set_ui (result->value.real, 0, GFC_RND_MODE); } if (rc != ARITH_OK) { @@ -2212,7 +2212,7 @@ gfc_complex2complex (gfc_expr * src, int kind) { if (gfc_option.warn_underflow) gfc_warning ("%s at %L", gfc_arith_error (rc), &src->where); - mpfr_set_ui(result->value.complex.r, 0, GFC_RND_MODE); + mpfr_set_ui (result->value.complex.r, 0, GFC_RND_MODE); } else if (rc != ARITH_OK) { @@ -2220,14 +2220,14 @@ gfc_complex2complex (gfc_expr * src, int kind) gfc_free_expr (result); return NULL; } - + rc = gfc_check_real_range (result->value.complex.i, kind); if (rc == ARITH_UNDERFLOW) { if (gfc_option.warn_underflow) gfc_warning ("%s at %L", gfc_arith_error (rc), &src->where); - mpfr_set_ui(result->value.complex.i, 0, GFC_RND_MODE); + mpfr_set_ui (result->value.complex.i, 0, GFC_RND_MODE); } else if (rc != ARITH_OK) { |