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| author | Steven G. Kargl <kargl@gcc.gnu.org> | 2018-01-26 19:33:16 +0000 |
|---|---|---|
| committer | Steven G. Kargl <kargl@gcc.gnu.org> | 2018-01-26 19:33:16 +0000 |
| commit | deece1aa0135de487e7846025efbc8f6cd79ffe2 (patch) | |
| tree | a9c519ee43c035b61abb368af203c86e9ef79138 /gcc/fortran/simplify.c | |
| parent | de47f61f5e441f6ce498af603cbe35d86b556262 (diff) | |
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re PR fortran/83998 (ICE in gfc_conv_intrinsic_dot_product, at fortran/trans-intrinsic.c:4403)
2018-01-26 Steven G. Kargl <kargl@gcc.gnu.org>
PR fortran/83998
* simplify.c (compute_dot_product): Initialize result to INTEGER(1) 0
or .false. The summation does the correct type conversion.
(gfc_simplify_dot_product): Special case zero-sized arrays.
2018-01-26 Steven G. Kargl <kargl@gcc.gnu.org>
PR fortran/83998
* gfortran.dg/dot_product_4.f90
From-SVN: r257104
Diffstat (limited to 'gcc/fortran/simplify.c')
| -rw-r--r-- | gcc/fortran/simplify.c | 32 |
1 files changed, 17 insertions, 15 deletions
diff --git a/gcc/fortran/simplify.c b/gcc/fortran/simplify.c index 1f88b5c..1e5e423 100644 --- a/gcc/fortran/simplify.c +++ b/gcc/fortran/simplify.c @@ -354,9 +354,14 @@ compute_dot_product (gfc_expr *matrix_a, int stride_a, int offset_a, { gfc_expr *result, *a, *b, *c; - result = gfc_get_constant_expr (matrix_a->ts.type, matrix_a->ts.kind, - &matrix_a->where); - init_result_expr (result, 0, NULL); + /* Set result to an INTEGER(1) 0 for numeric types and .false. for + LOGICAL. Mixed-mode math in the loop will promote result to the + correct type and kind. */ + if (matrix_a->ts.type == BT_LOGICAL) + result = gfc_get_logical_expr (gfc_default_logical_kind, NULL, false); + else + result = gfc_get_int_expr (1, NULL, 0); + result->where = matrix_a->where; a = gfc_constructor_lookup_expr (matrix_a->value.constructor, offset_a); b = gfc_constructor_lookup_expr (matrix_b->value.constructor, offset_b); @@ -2253,23 +2258,20 @@ gfc_simplify_dim (gfc_expr *x, gfc_expr *y) gfc_expr* gfc_simplify_dot_product (gfc_expr *vector_a, gfc_expr *vector_b) { - - gfc_expr temp; + /* If vector_a is a zero-sized array, the result is 0 for INTEGER, + REAL, and COMPLEX types and .false. for LOGICAL. */ + if (vector_a->shape && mpz_get_si (vector_a->shape[0]) == 0) + { + if (vector_a->ts.type == BT_LOGICAL) + return gfc_get_logical_expr (gfc_default_logical_kind, NULL, false); + else + return gfc_get_int_expr (gfc_default_integer_kind, NULL, 0); + } if (!is_constant_array_expr (vector_a) || !is_constant_array_expr (vector_b)) return NULL; - gcc_assert (vector_a->rank == 1); - gcc_assert (vector_b->rank == 1); - - temp.expr_type = EXPR_OP; - gfc_clear_ts (&temp.ts); - temp.value.op.op = INTRINSIC_NONE; - temp.value.op.op1 = vector_a; - temp.value.op.op2 = vector_b; - gfc_type_convert_binary (&temp, 1); - return compute_dot_product (vector_a, 1, 0, vector_b, 1, 0, true); } |