return e;
}
+/* Helper function to check for a dimen vector as subscript. */
+
+static bool
+has_dimen_vector_ref (gfc_expr *e)
+{
+ gfc_array_ref *ar;
+ int i;
+
+ ar = gfc_find_array_ref (e);
+ gcc_assert (ar);
+ if (ar->type == AR_FULL)
+ return false;
+
+ for (i=0; i<ar->dimen; i++)
+ if (ar->dimen_type[i] == DIMEN_VECTOR)
+ return true;
+
+ return false;
+}
/* Inline assignments of the form c = matmul(a,b).
Handle only the cases currently where b and c are rank-two arrays.
|| matrix_b->expr_type != EXPR_VARIABLE)
return 0;
+ if (has_dimen_vector_ref (expr1) || has_dimen_vector_ref (matrix_a)
+ || has_dimen_vector_ref (matrix_b))
+ return 0;
+
if (matrix_a->rank == 2)
m_case = matrix_b->rank == 1 ? A2B1 : A2B2;
else
--- /dev/null
+! { dg-do run }
+! { dg-options "-ffrontend-optimize" }
+! PR 66111 - this used to ICE with matmul inlining.
+! Original test case by Mikael Morin.
+
+implicit none
+ integer, parameter :: n = 4
+ integer, dimension(n, n) :: a, b, c
+ integer, dimension(n*n) :: p, res, res2
+ integer, dimension(n) :: v
+
+ integer :: i
+
+ p = [ +59, -53, +47, -43, &
+ -37, +31, -29, +23, &
+ +19, -17, +13, -11, &
+ - 7, + 5, - 3, + 2 ]
+ a = reshape(p, shape(a))
+ b = reshape([(i, i=1, size(a))], shape(b))
+ v = [ 3, 1, 2, 4]
+ c = matmul(a, b)
+ res = [ + 14, - 22, + 16, - 22, &
+ +150, -158, +128, -138, &
+ +286, -294, +240, -254, &
+ +422, -430, +352, -370 ]
+ !print *,c
+ if (any(c /= reshape(res, shape(c)))) call abort
+ c(:,v) = matmul(a, b)
+ if (any(c(:,v) /= reshape(res, shape(c)))) call abort
+ c(v,:) = matmul(a, b)
+ if (any(c(v,:) /= reshape(res, shape(c)))) call abort
+
+ c = matmul(a(:,v),b(v,:))
+ if (any(c /= reshape(res, shape(c)))) call abort
+end