From 08f351fd0b0f62e35a2f12a9e5b9613c9694a269 Mon Sep 17 00:00:00 2001 From: tkoenig Date: Wed, 6 May 2015 20:23:48 +0000 Subject: 2015-05-06 Thomas Koenig PR fortran/37131 * gfortran.h (gfc_isym_id): Add GFC_ISYM_FE_RUNTIME_ERROR. (gfc_intrinsic_sym): Add vararg. * intrinsic.h (gfc_check_fe_runtime_error): Add prototype. (gfc_resolve_re_runtime_error): Likewise. Add prototype for gfc_is_reallocatable_lhs. * trans-array.h (gfc_is_reallocatable_lhs): Remove prototype. * check.c (gfc_check_fe_runtime_error): New function. * intrinsic.c (add_sym_1p): New function. (make_vararg): New function. (add_subroutines): Add fe_runtime_error. (gfc_intrinsic_sub_interface): Skip sorting for variable number of arguments. * iresolve.c (gfc_resolve_fe_runtime_error): New function. * lang.opt (inline-matmul-limit): New option. (gfc_post_options): If no inline matmul limit has been set and BLAS is called externally, use the BLAS limit. * frontend-passes.c: Include intrinsic.h. (var_num): New global counter for naming temporary variablbles. (matrix_case): Enum for differentiating the different matmul cases. (realloc_string_callback): Add "trim" to the variable name. (create_var): Add optional argument vname as part of the name. Use var_num. Set dimension of result correctly. Split off block creation into (insert_block): New function. (cfe_expr_0): Use "fcn" as part of temporary variable name. (optimize_namesapce): Also set gfc_current_ns. Call inline_matmul_assign. (combine_array_constructor): Use "constr" as part of temporary name. (get_array_inq_function): New function. (build_logical_expr): New function. (get_operand): new function. (inline_limit_check): New function. (runtime_error_ne): New function. (matmul_lhs_realloc): New function. (is_functino_or_op): New function. (has_function_or_op): New function. (freeze_expr): New function. (freeze_references): New function. (convert_to_index_kind): New function. (create_do_loop): New function. (get_size_m1): New function. (scalarized_expr): New function. (inline_matmul_assign): New function. * simplify.c (simplify_bound): Simplify the case of the lower bound of an assumed-shape argument. 2015-05-06 Thomas Koenig PR fortran/37131 * gfortran.dg/dependency_26.f90: Add option to suppress inlining matmul. * gfortran.dg/function_optimize_1.f90: Likewise. * gfortran.dg/function_optimize_2.f90: Likewise. * gfortran.dg/function_optimize_5.f90: Likewise. * gfortran.dg/function_optimize_7.f90: Likewise. * gfortran.dg/inline_matmul_1.f90: New test. * gfortran.dg/inline_matmul_2.f90: New test. * gfortran.dg/inline_matmul_3.f90: New test. * gfortran.dg/inline_matmul_4.f90: New test. * gfortran.dg/inline_matmul_5.f90: New test. * gfortran.dg/inline_matmul_6.f90: New test. git-svn-id: svn+ssh://gcc.gnu.org/svn/gcc/trunk@222864 138bc75d-0d04-0410-961f-82ee72b054a4 --- gcc/fortran/check.c | 30 + gcc/fortran/frontend-passes.c | 1135 ++++++++++++++++++++- gcc/fortran/gfortran.h | 8 +- gcc/fortran/intrinsic.c | 47 +- gcc/fortran/intrinsic.h | 2 + gcc/fortran/invoke.texi | 28 +- gcc/fortran/iresolve.c | 13 + gcc/fortran/lang.opt | 4 + gcc/fortran/options.c | 5 + gcc/fortran/trans-array.h | 2 - gcc/testsuite/gfortran.dg/dependency_26.f90 | 2 +- gcc/testsuite/gfortran.dg/function_optimize_1.f90 | 2 +- gcc/testsuite/gfortran.dg/function_optimize_2.f90 | 2 +- gcc/testsuite/gfortran.dg/function_optimize_5.f90 | 2 +- gcc/testsuite/gfortran.dg/function_optimize_7.f90 | 2 +- gcc/testsuite/gfortran.dg/inline_matmul_1.f90 | 152 +++ gcc/testsuite/gfortran.dg/inline_matmul_2.f90 | 65 ++ gcc/testsuite/gfortran.dg/inline_matmul_3.f90 | 65 ++ gcc/testsuite/gfortran.dg/inline_matmul_4.f90 | 68 ++ gcc/testsuite/gfortran.dg/inline_matmul_5.f90 | 13 + gcc/testsuite/gfortran.dg/inline_matmul_6.f90 | 49 + 21 files changed, 1652 insertions(+), 44 deletions(-) create mode 100644 gcc/testsuite/gfortran.dg/inline_matmul_1.f90 create mode 100644 gcc/testsuite/gfortran.dg/inline_matmul_2.f90 create mode 100644 gcc/testsuite/gfortran.dg/inline_matmul_3.f90 create mode 100644 gcc/testsuite/gfortran.dg/inline_matmul_4.f90 create mode 100644 gcc/testsuite/gfortran.dg/inline_matmul_5.f90 create mode 100644 gcc/testsuite/gfortran.dg/inline_matmul_6.f90 diff --git a/gcc/fortran/check.c b/gcc/fortran/check.c index cdb5ff1cba6..3e0ce5c8624 100644 --- a/gcc/fortran/check.c +++ b/gcc/fortran/check.c @@ -5527,6 +5527,36 @@ gfc_check_random_seed (gfc_expr *size, gfc_expr *put, gfc_expr *get) return true; } +bool +gfc_check_fe_runtime_error (gfc_actual_arglist *a) +{ + gfc_expr *e; + int len, i; + int num_percent, nargs; + + e = a->expr; + if (e->expr_type != EXPR_CONSTANT) + return true; + + len = e->value.character.length; + if (e->value.character.string[len-1] != '\0') + gfc_internal_error ("fe_runtime_error string must be null terminated"); + + num_percent = 0; + for (i=0; ivalue.character.string[i] == '%') + num_percent ++; + + nargs = 0; + for (; a; a = a->next) + nargs ++; + + if (nargs -1 != num_percent) + gfc_internal_error ("fe_runtime_error: Wrong number of arguments (%d instead of %d)", + nargs, num_percent++); + + return true; +} bool gfc_check_second_sub (gfc_expr *time) diff --git a/gcc/fortran/frontend-passes.c b/gcc/fortran/frontend-passes.c index 446ef196e2c..62d10634a8e 100644 --- a/gcc/fortran/frontend-passes.c +++ b/gcc/fortran/frontend-passes.c @@ -27,6 +27,7 @@ along with GCC; see the file COPYING3. If not see #include "dependency.h" #include "constructor.h" #include "opts.h" +#include "intrinsic.h" /* Forward declarations. */ @@ -43,7 +44,11 @@ static void doloop_warn (gfc_namespace *); static void optimize_reduction (gfc_namespace *); static int callback_reduction (gfc_expr **, int *, void *); static void realloc_strings (gfc_namespace *); -static gfc_expr *create_var (gfc_expr *); +static gfc_expr *create_var (gfc_expr *, const char *vname=NULL); +static int inline_matmul_assign (gfc_code **, int *, void *); +static gfc_code * create_do_loop (gfc_expr *, gfc_expr *, gfc_expr *, + locus *, gfc_namespace *, + char *vname=NULL); /* How deep we are inside an argument list. */ @@ -93,6 +98,19 @@ struct my_struct *evec; static bool in_assoc_list; +/* Counter for temporary variables. */ + +static int var_num = 1; + +/* What sort of matrix we are dealing with when inlining MATMUL. */ + +enum matrix_case { none=0, A2B2, A2B1, A1B2 }; + +/* Keep track of the number of expressions we have inserted so far + using create_var. */ + +int n_vars; + /* Entry point - run all passes for a namespace. */ void @@ -157,7 +175,7 @@ realloc_string_callback (gfc_code **c, int *walk_subtrees, return 0; current_code = c; - n = create_var (expr2); + n = create_var (expr2, "trim"); co->expr2 = n; return 0; } @@ -524,28 +542,13 @@ constant_string_length (gfc_expr *e) } -/* Returns a new expression (a variable) to be used in place of the old one, - with an assignment statement before the current statement to set - the value of the variable. Creates a new BLOCK for the statement if - that hasn't already been done and puts the statement, plus the - newly created variables, in that block. Special cases: If the - expression is constant or a temporary which has already - been created, just copy it. */ +/* Insert a block at the current position unless it has already + been inserted; in this case use the one already there. */ -static gfc_expr* -create_var (gfc_expr * e) +static gfc_namespace* +insert_block () { - char name[GFC_MAX_SYMBOL_LEN +1]; - static int num = 1; - gfc_symtree *symtree; - gfc_symbol *symbol; - gfc_expr *result; - gfc_code *n; gfc_namespace *ns; - int i; - - if (e->expr_type == EXPR_CONSTANT || is_fe_temp (e)) - return gfc_copy_expr (e); /* If the block hasn't already been created, do so. */ if (inserted_block == NULL) @@ -578,7 +581,37 @@ create_var (gfc_expr * e) else ns = inserted_block->ext.block.ns; - sprintf(name, "__var_%d",num++); + return ns; +} + +/* Returns a new expression (a variable) to be used in place of the old one, + with an optional assignment statement before the current statement to set + the value of the variable. Creates a new BLOCK for the statement if that + hasn't already been done and puts the statement, plus the newly created + variables, in that block. Special cases: If the expression is constant or + a temporary which has already been created, just copy it. */ + +static gfc_expr* +create_var (gfc_expr * e, const char *vname) +{ + char name[GFC_MAX_SYMBOL_LEN +1]; + gfc_symtree *symtree; + gfc_symbol *symbol; + gfc_expr *result; + gfc_code *n; + gfc_namespace *ns; + int i; + + if (e->expr_type == EXPR_CONSTANT || is_fe_temp (e)) + return gfc_copy_expr (e); + + ns = insert_block (); + + if (vname) + snprintf (name, GFC_MAX_SYMBOL_LEN, "__var_%d_%s", var_num++, vname); + else + snprintf (name, GFC_MAX_SYMBOL_LEN, "__var_%d", var_num++); + if (gfc_get_sym_tree (name, ns, &symtree, false) != 0) gcc_unreachable (); @@ -651,6 +684,7 @@ create_var (gfc_expr * e) result->ref->type = REF_ARRAY; result->ref->u.ar.type = AR_FULL; result->ref->u.ar.where = e->where; + result->ref->u.ar.dimen = e->rank; result->ref->u.ar.as = symbol->ts.type == BT_CLASS ? CLASS_DATA (symbol)->as : symbol->as; if (warn_array_temporaries) @@ -666,6 +700,7 @@ create_var (gfc_expr * e) n->expr1 = gfc_copy_expr (result); n->expr2 = e; *changed_statement = n; + n_vars ++; return result; } @@ -724,7 +759,7 @@ cfe_expr_0 (gfc_expr **e, int *walk_subtrees, if (gfc_dep_compare_functions (*ei, *ej, true) == 0) { if (newvar == NULL) - newvar = create_var (*ei); + newvar = create_var (*ei, "fcn"); if (warn_function_elimination) do_warn_function_elimination (*ej); @@ -931,13 +966,15 @@ convert_elseif (gfc_code **c, int *walk_subtrees ATTRIBUTE_UNUSED, /* Don't walk subtrees. */ return 0; } + /* Optimize a namespace, including all contained namespaces. */ static void optimize_namespace (gfc_namespace *ns) { - + gfc_namespace *saved_ns = gfc_current_ns; current_ns = ns; + gfc_current_ns = ns; forall_level = 0; iterator_level = 0; in_assoc_list = false; @@ -947,6 +984,9 @@ optimize_namespace (gfc_namespace *ns) gfc_code_walker (&ns->code, convert_elseif, dummy_expr_callback, NULL); gfc_code_walker (&ns->code, cfe_code, cfe_expr_0, NULL); gfc_code_walker (&ns->code, optimize_code, optimize_expr, NULL); + if (flag_inline_matmul_limit != 0) + gfc_code_walker (&ns->code, inline_matmul_assign, dummy_expr_callback, + NULL); /* BLOCKs are handled in the expression walker below. */ for (ns = ns->contained; ns; ns = ns->sibling) @@ -954,6 +994,7 @@ optimize_namespace (gfc_namespace *ns) if (ns->code == NULL || ns->code->op != EXEC_BLOCK) optimize_namespace (ns); } + gfc_current_ns = saved_ns; } /* Handle dependencies for allocatable strings which potentially redefine @@ -968,10 +1009,7 @@ realloc_strings (gfc_namespace *ns) for (ns = ns->contained; ns; ns = ns->sibling) { if (ns->code == NULL || ns->code->op != EXEC_BLOCK) - { - // current_ns = ns; - realloc_strings (ns); - } + realloc_strings (ns); } } @@ -1222,7 +1260,7 @@ combine_array_constructor (gfc_expr *e) if (op2->ts.type == BT_CHARACTER) return false; - scalar = create_var (gfc_copy_expr (op2)); + scalar = create_var (gfc_copy_expr (op2), "constr"); oldbase = op1->value.constructor; newbase = NULL; @@ -1939,6 +1977,1045 @@ doloop_warn (gfc_namespace *ns) gfc_code_walker (&ns->code, doloop_code, do_function, NULL); } +/* This selction deals with inlining calls to MATMUL. */ + +/* Auxiliary function to build and simplify an array inquiry function. + dim is zero-based. */ + +static gfc_expr * +get_array_inq_function (gfc_isym_id id, gfc_expr *e, int dim) +{ + gfc_expr *fcn; + gfc_expr *dim_arg, *kind; + const char *name; + gfc_expr *ec; + + switch (id) + { + case GFC_ISYM_LBOUND: + name = "_gfortran_lbound"; + break; + + case GFC_ISYM_UBOUND: + name = "_gfortran_ubound"; + break; + + case GFC_ISYM_SIZE: + name = "_gfortran_size"; + break; + + default: + gcc_unreachable (); + } + + dim_arg = gfc_get_int_expr (gfc_default_integer_kind, &e->where, dim); + kind = gfc_get_int_expr (gfc_default_integer_kind, &e->where, + gfc_index_integer_kind); + + ec = gfc_copy_expr (e); + fcn = gfc_build_intrinsic_call (current_ns, id, name, e->where, 3, + ec, dim_arg, kind); + gfc_simplify_expr (fcn, 0); + return fcn; +} + +/* Builds a logical expression. */ + +static gfc_expr* +build_logical_expr (gfc_intrinsic_op op, gfc_expr *e1, gfc_expr *e2) +{ + gfc_typespec ts; + gfc_expr *res; + + ts.type = BT_LOGICAL; + ts.kind = gfc_default_logical_kind; + res = gfc_get_expr (); + res->where = e1->where; + res->expr_type = EXPR_OP; + res->value.op.op = op; + res->value.op.op1 = e1; + res->value.op.op2 = e2; + res->ts = ts; + + return res; +} + + +/* Return an operation of one two gfc_expr (one if e2 is NULL). This assumes + compatible typespecs. */ + +static gfc_expr * +get_operand (gfc_intrinsic_op op, gfc_expr *e1, gfc_expr *e2) +{ + gfc_expr *res; + + res = gfc_get_expr (); + res->ts = e1->ts; + res->where = e1->where; + res->expr_type = EXPR_OP; + res->value.op.op = op; + res->value.op.op1 = e1; + res->value.op.op2 = e2; + gfc_simplify_expr (res, 0); + return res; +} + +/* Generate the IF statement for a runtime check if we want to do inlining or + not - putting in the code for both branches and putting it into the syntax + tree is the caller's responsibility. For fixed array sizes, this should be + removed by DCE. Only called for rank-two matrices A and B. */ + +static gfc_code * +inline_limit_check (gfc_expr *a, gfc_expr *b, enum matrix_case m_case) +{ + gfc_expr *inline_limit; + gfc_code *if_1, *if_2, *else_2; + gfc_expr *b2, *a2, *a1, *m1, *m2; + gfc_typespec ts; + gfc_expr *cond; + + gcc_assert (m_case == A2B2); + + /* Calculation is done in real to avoid integer overflow. */ + + inline_limit = gfc_get_constant_expr (BT_REAL, gfc_default_real_kind, + &a->where); + mpfr_set_si (inline_limit->value.real, flag_inline_matmul_limit, + GFC_RND_MODE); + mpfr_pow_ui (inline_limit->value.real, inline_limit->value.real, 3, + GFC_RND_MODE); + + a1 = get_array_inq_function (GFC_ISYM_SIZE, a, 1); + a2 = get_array_inq_function (GFC_ISYM_SIZE, a, 2); + b2 = get_array_inq_function (GFC_ISYM_SIZE, b, 2); + + gfc_clear_ts (&ts); + ts.type = BT_REAL; + ts.kind = gfc_default_real_kind; + gfc_convert_type_warn (a1, &ts, 2, 0); + gfc_convert_type_warn (a2, &ts, 2, 0); + gfc_convert_type_warn (b2, &ts, 2, 0); + + m1 = get_operand (INTRINSIC_TIMES, a1, a2); + m2 = get_operand (INTRINSIC_TIMES, m1, b2); + + cond = build_logical_expr (INTRINSIC_LE, m2, inline_limit); + gfc_simplify_expr (cond, 0); + + else_2 = XCNEW (gfc_code); + else_2->op = EXEC_IF; + else_2->loc = a->where; + + if_2 = XCNEW (gfc_code); + if_2->op = EXEC_IF; + if_2->expr1 = cond; + if_2->loc = a->where; + if_2->block = else_2; + + if_1 = XCNEW (gfc_code); + if_1->op = EXEC_IF; + if_1->block = if_2; + if_1->loc = a->where; + + return if_1; +} + + +/* Insert code to issue a runtime error if the expressions are not equal. */ + +static gfc_code * +runtime_error_ne (gfc_expr *e1, gfc_expr *e2, const char *msg) +{ + gfc_expr *cond; + gfc_code *if_1, *if_2; + gfc_code *c; + gfc_actual_arglist *a1, *a2, *a3; + + gcc_assert (e1->where.lb); + /* Build the call to runtime_error. */ + c = XCNEW (gfc_code); + c->op = EXEC_CALL; + c->loc = e1->where; + + /* Get a null-terminated message string. */ + + a1 = gfc_get_actual_arglist (); + a1->expr = gfc_get_character_expr (gfc_default_character_kind, &e1->where, + msg, strlen(msg)+1); + c->ext.actual = a1; + + /* Pass the value of the first expression. */ + a2 = gfc_get_actual_arglist (); + a2->expr = gfc_copy_expr (e1); + a1->next = a2; + + /* Pass the value of the second expression. */ + a3 = gfc_get_actual_arglist (); + a3->expr = gfc_copy_expr (e2); + a2->next = a3; + + gfc_check_fe_runtime_error (c->ext.actual); + gfc_resolve_fe_runtime_error (c); + + if_2 = XCNEW (gfc_code); + if_2->op = EXEC_IF; + if_2->loc = e1->where; + if_2->next = c; + + if_1 = XCNEW (gfc_code); + if_1->op = EXEC_IF; + if_1->block = if_2; + if_1->loc = e1->where; + + cond = build_logical_expr (INTRINSIC_NE, e1, e2); + gfc_simplify_expr (cond, 0); + if_2->expr1 = cond; + + return if_1; +} + +/* Handle matrix reallocation. Caller is responsible to insert into + the code tree. + + For the two-dimensional case, build + + if (allocated(c)) then + if (size(c,1) /= size(a,1) .or. size(c,2) /= size(b,2)) then + deallocate(c) + allocate (c(size(a,1), size(b,2))) + end if + else + allocate (c(size(a,1),size(b,2))) + end if + + and for the other cases correspondingly. +*/ + +static gfc_code * +matmul_lhs_realloc (gfc_expr *c, gfc_expr *a, gfc_expr *b, + enum matrix_case m_case) +{ + + gfc_expr *allocated, *alloc_expr; + gfc_code *if_alloc_1, *if_alloc_2, *if_size_1, *if_size_2; + gfc_code *else_alloc; + gfc_code *deallocate, *allocate1, *allocate_else; + gfc_array_ref *ar; + gfc_expr *cond, *ne1, *ne2; + + if (warn_realloc_lhs) + gfc_warning (OPT_Wrealloc_lhs, + "Code for reallocating the allocatable array at %L will " + "be added", &c->where); + + alloc_expr = gfc_copy_expr (c); + + ar = gfc_find_array_ref (alloc_expr); + gcc_assert (ar && ar->type == AR_FULL); + + /* c comes in as a full ref. Change it into a copy and make it into an + element ref so it has the right form for for ALLOCATE. In the same + switch statement, also generate the size comparison for the secod IF + statement. */ + + ar->type = AR_ELEMENT; + + switch (m_case) + { + case A2B2: + ar->start[0] = get_array_inq_function (GFC_ISYM_SIZE, a, 1); + ar->start[1] = get_array_inq_function (GFC_ISYM_SIZE, b, 2); + ne1 = build_logical_expr (INTRINSIC_NE, + get_array_inq_function (GFC_ISYM_SIZE, c, 1), + get_array_inq_function (GFC_ISYM_SIZE, a, 1)); + ne2 = build_logical_expr (INTRINSIC_NE, + get_array_inq_function (GFC_ISYM_SIZE, c, 2), + get_array_inq_function (GFC_ISYM_SIZE, b, 2)); + cond = build_logical_expr (INTRINSIC_OR, ne1, ne2); + break; + + case A2B1: + ar->start[0] = get_array_inq_function (GFC_ISYM_SIZE, a, 1); + cond = build_logical_expr (INTRINSIC_NE, + get_array_inq_function (GFC_ISYM_SIZE, c, 1), + get_array_inq_function (GFC_ISYM_SIZE, a, 2)); + break; + + case A1B2: + ar->start[0] = get_array_inq_function (GFC_ISYM_SIZE, b, 1); + cond = build_logical_expr (INTRINSIC_NE, + get_array_inq_function (GFC_ISYM_SIZE, c, 1), + get_array_inq_function (GFC_ISYM_SIZE, b, 2)); + break; + + default: + gcc_unreachable(); + + } + + gfc_simplify_expr (cond, 0); + + /* We need two identical allocate statements in two + branches of the IF statement. */ + + allocate1 = XCNEW (gfc_code); + allocate1->op = EXEC_ALLOCATE; + allocate1->ext.alloc.list = gfc_get_alloc (); + allocate1->loc = c->where; + allocate1->ext.alloc.list->expr = gfc_copy_expr (alloc_expr); + + allocate_else = XCNEW (gfc_code); + allocate_else->op = EXEC_ALLOCATE; + allocate_else->ext.alloc.list = gfc_get_alloc (); + allocate_else->loc = c->where; + allocate_else->ext.alloc.list->expr = alloc_expr; + + allocated = gfc_build_intrinsic_call (current_ns, GFC_ISYM_ALLOCATED, + "_gfortran_allocated", c->where, + 1, gfc_copy_expr (c)); + + deallocate = XCNEW (gfc_code); + deallocate->op = EXEC_DEALLOCATE; + deallocate->ext.alloc.list = gfc_get_alloc (); + deallocate->ext.alloc.list->expr = gfc_copy_expr (c); + deallocate->next = allocate1; + deallocate->loc = c->where; + + if_size_2 = XCNEW (gfc_code); + if_size_2->op = EXEC_IF; + if_size_2->expr1 = cond; + if_size_2->loc = c->where; + if_size_2->next = deallocate; + + if_size_1 = XCNEW (gfc_code); + if_size_1->op = EXEC_IF; + if_size_1->block = if_size_2; + if_size_1->loc = c->where; + + else_alloc = XCNEW (gfc_code); + else_alloc->op = EXEC_IF; + else_alloc->loc = c->where; + else_alloc->next = allocate_else; + + if_alloc_2 = XCNEW (gfc_code); + if_alloc_2->op = EXEC_IF; + if_alloc_2->expr1 = allocated; + if_alloc_2->loc = c->where; + if_alloc_2->next = if_size_1; + if_alloc_2->block = else_alloc; + + if_alloc_1 = XCNEW (gfc_code); + if_alloc_1->op = EXEC_IF; + if_alloc_1->block = if_alloc_2; + if_alloc_1->loc = c->where; + + return if_alloc_1; +} + +/* Callback function for has_function_or_op. */ + +static int +is_function_or_op (gfc_expr **e, int *walk_subtrees ATTRIBUTE_UNUSED, + void *data ATTRIBUTE_UNUSED) +{ + if ((*e) == 0) + return 0; + else + return (*e)->expr_type == EXPR_FUNCTION + || (*e)->expr_type == EXPR_OP; +} + +/* Returns true if the expression contains a function. */ + +static bool +has_function_or_op (gfc_expr **e) +{ + if (e == NULL) + return false; + else + return gfc_expr_walker (e, is_function_or_op, NULL); +} + +/* Freeze (assign to a temporary variable) a single expression. */ + +static void +freeze_expr (gfc_expr **ep) +{ + gfc_expr *ne; + if (has_function_or_op (ep)) + { + ne = create_var (*ep, "freeze"); + *ep = ne; + } +} + +/* Go through an expression's references and assign them to temporary + variables if they contain functions. This is usually done prior to + front-end scalarization to avoid multiple invocations of functions. */ + +static void +freeze_references (gfc_expr *e) +{ + gfc_ref *r; + gfc_array_ref *ar; + int i; + + for (r=e->ref; r; r=r->next) + { + if (r->type == REF_SUBSTRING) + { + if (r->u.ss.start != NULL) + freeze_expr (&r->u.ss.start); + + if (r->u.ss.end != NULL) + freeze_expr (&r->u.ss.end); + } + else if (r->type == REF_ARRAY) + { + ar = &r->u.ar; + switch (ar->type) + { + case AR_FULL: + break; + + case AR_SECTION: + for (i=0; idimen; i++) + { + if (ar->dimen_type[i] == DIMEN_RANGE) + { + freeze_expr (&ar->start[i]); + freeze_expr (&ar->end[i]); + freeze_expr (&ar->stride[i]); + } + else if (ar->dimen_type[i] == DIMEN_ELEMENT) + { + freeze_expr (&ar->start[i]); + } + } + break; + + case AR_ELEMENT: + for (i=0; idimen; i++) + freeze_expr (&ar->start[i]); + break; + + default: + break; + } + } + } +} + +/* Convert to gfc_index_integer_kind if needed, just do a copy otherwise. */ + +static gfc_expr * +convert_to_index_kind (gfc_expr *e) +{ + gfc_expr *res; + + gcc_assert (e != NULL); + + res = gfc_copy_expr (e); + + gcc_assert (e->ts.type == BT_INTEGER); + + if (res->ts.kind != gfc_index_integer_kind) + { + gfc_typespec ts; + gfc_clear_ts (&ts); + ts.type = BT_INTEGER; + ts.kind = gfc_index_integer_kind; + + gfc_convert_type_warn (e, &ts, 2, 0); + } + + return res; +} + +/* Function to create a DO loop including creation of the + iteration variable. gfc_expr are copied.*/ + +static gfc_code * +create_do_loop (gfc_expr *start, gfc_expr *end, gfc_expr *step, locus *where, + gfc_namespace *ns, char *vname) +{ + + char name[GFC_MAX_SYMBOL_LEN +1]; + gfc_symtree *symtree; + gfc_symbol *symbol; + gfc_expr *i; + gfc_code *n, *n2; + + /* Create an expression for the iteration variable. */ + if (vname) + sprintf (name, "__var_%d_do_%s", var_num++, vname); + else + sprintf (name, "__var_%d_do", var_num++); + + + if (gfc_get_sym_tree (name, ns, &symtree, false) != 0) + gcc_unreachable (); + + /* Create the loop variable. */ + + symbol = symtree->n.sym; + symbol->ts.type = BT_INTEGER; + symbol->ts.kind = gfc_index_integer_kind; + symbol->attr.flavor = FL_VARIABLE; + symbol->attr.referenced = 1; + symbol->attr.dimension = 0; + symbol->attr.fe_temp = 1; + gfc_commit_symbol (symbol); + + i = gfc_get_expr (); + i->expr_type = EXPR_VARIABLE; + i->ts = symbol->ts; + i->rank = 0; + i->where = *where; + i->symtree = symtree; + + /* ... and the nested DO statements. */ + n = XCNEW (gfc_code); + n->op = EXEC_DO; + n->loc = *where; + n->ext.iterator = gfc_get_iterator (); + n->ext.iterator->var = i; + n->ext.iterator->start = convert_to_index_kind (start); + n->ext.iterator->end = convert_to_index_kind (end); + if (step) + n->ext.iterator->step = convert_to_index_kind (step); + else + n->ext.iterator->step = gfc_get_int_expr (gfc_index_integer_kind, + where, 1); + + n2 = XCNEW (gfc_code); + n2->op = EXEC_DO; + n2->loc = *where; + n2->next = NULL; + n->block = n2; + return n; +} + +/* Get the upper bound of the DO loops for matmul along a dimension. This + is one-based. */ + +static gfc_expr* +get_size_m1 (gfc_expr *e, int dimen) +{ + mpz_t size; + gfc_expr *res; + + if (gfc_array_dimen_size (e, dimen - 1, &size)) + { + res = gfc_get_constant_expr (BT_INTEGER, + gfc_index_integer_kind, &e->where); + mpz_sub_ui (res->value.integer, size, 1); + mpz_clear (size); + } + else + { + res = get_operand (INTRINSIC_MINUS, + get_array_inq_function (GFC_ISYM_SIZE, e, dimen), + gfc_get_int_expr (gfc_index_integer_kind, + &e->where, 1)); + gfc_simplify_expr (res, 0); + } + + return res; +} + +/* Function to return a scalarized expression. It is assumed that indices are + zero based to make generation of DO loops easier. A zero as index will + access the first element along a dimension. Single element references will + be skipped. A NULL as an expression will be replaced by a full reference. + This assumes that the index loops have gfc_index_integer_kind, and that all + references have been frozen. */ + +static gfc_expr* +scalarized_expr (gfc_expr *e_in, gfc_expr **index, int count_index) +{ + gfc_array_ref *ar; + int i; + int rank; + gfc_expr *e; + int i_index; + bool was_fullref; + + e = gfc_copy_expr(e_in); + + rank = e->rank; + + ar = gfc_find_array_ref (e); + + /* We scalarize count_index variables, reducing the rank by count_index. */ + + e->rank = rank - count_index; + + was_fullref = ar->type == AR_FULL; + + if (e->rank == 0) + ar->type = AR_ELEMENT; + else + ar->type = AR_SECTION; + + /* Loop over the indices. For each index, create the expression + index * stride + lbound(e, dim). */ + + i_index = 0; + for (i=0; i < ar->dimen; i++) + { + if (was_fullref || ar->dimen_type[i] == DIMEN_RANGE) + { + if (index[i_index] != NULL) + { + gfc_expr *lbound, *nindex; + gfc_expr *loopvar; + + loopvar = gfc_copy_expr (index[i_index]); + + if (ar->stride[i]) + { + gfc_expr *tmp; + + tmp = gfc_copy_expr(ar->stride[i]); + if (tmp->ts.kind != gfc_index_integer_kind) + { + gfc_typespec ts; + gfc_clear_ts (&ts); + ts.type = BT_INTEGER; + ts.kind = gfc_index_integer_kind; + gfc_convert_type (tmp, &ts, 2); + } + nindex = get_operand (INTRINSIC_TIMES, loopvar, tmp); + } + else + nindex = loopvar; + + /* Calculate the lower bound of the expression. */ + if (ar->start[i]) + { + lbound = gfc_copy_expr (ar->start[i]); + if (lbound->ts.kind != gfc_index_integer_kind) + { + gfc_typespec ts; + gfc_clear_ts (&ts); + ts.type = BT_INTEGER; + ts.kind = gfc_index_integer_kind; + gfc_convert_type (lbound, &ts, 2); + + } + } + else + { + if (!was_fullref) + { + /* Look at full individual sections, like a(:). The first index + is the lbound of a full ref. */ + + gfc_array_ref *ar; + + ar = gfc_find_array_ref (e_in); + ar->type = AR_FULL; + } + lbound = get_array_inq_function (GFC_ISYM_LBOUND, e_in, + i_index + 1); + } + + ar->dimen_type[i] = DIMEN_ELEMENT; + + gfc_free_expr (ar->start[i]); + ar->start[i] = get_operand (INTRINSIC_PLUS, nindex, lbound); + + gfc_free_expr (ar->end[i]); + ar->end[i] = NULL; + gfc_free_expr (ar->stride[i]); + ar->stride[i] = NULL; + gfc_simplify_expr (ar->start[i], 0); + } + else if (was_fullref) + { + gfc_internal_error ("Scalarization using DIMEN_RANGE unimplemented"); + } + i_index ++; + } + } + return e; +} + + +/* Inline assignments of the form c = matmul(a,b). + Handle only the cases currently where b and c are rank-two arrays. + + This basically translates the code to + + BLOCK + integer i,j,k + c = 0 + do j=0, size(b,2)-1 + do k=0, size(a, 2)-1 + do i=0, size(a, 1)-1 + c(i * stride(c,1) + lbound(c,1), j * stride(c,2) + lbound(c,2)) = + c(i * stride(c,1) + lbound(c,1), j * stride(c,2) + lbound(c,2)) + + a(i * stride(a,1) + lbound(a,1), k * stride(a,2) + lbound(a,2)) * + b(k * stride(b,1) + lbound(b,1), j * stride(b,2) + lbound(b,2)) + end do + end do + end do + END BLOCK + +*/ + +static int +inline_matmul_assign (gfc_code **c, int *walk_subtrees, + void *data ATTRIBUTE_UNUSED) +{ + gfc_code *co = *c; + gfc_expr *expr1, *expr2; + gfc_expr *matrix_a, *matrix_b; + gfc_actual_arglist *a, *b; + gfc_code *do_1, *do_2, *do_3, *assign_zero, *assign_matmul; + gfc_expr *zero_e; + gfc_expr *u1, *u2, *u3; + gfc_expr *list[2]; + gfc_expr *ascalar, *bscalar, *cscalar; + gfc_expr *mult; + gfc_expr *var_1, *var_2, *var_3; + gfc_expr *zero; + gfc_namespace *ns; + gfc_intrinsic_op op_times, op_plus; + enum matrix_case m_case; + int i; + gfc_code *if_limit = NULL; + gfc_code **next_code_point; + + if (co->op != EXEC_ASSIGN) + return 0; + + expr1 = co->expr1; + expr2 = co->expr2; + if (expr2->expr_type != EXPR_FUNCTION + || expr2->value.function.isym == NULL + || expr2->value.function.isym->id != GFC_ISYM_MATMUL) + return 0; + + current_code = c; + inserted_block = NULL; + changed_statement = NULL; + + a = expr2->value.function.actual; + matrix_a = a->expr; + b = a->next; + matrix_b = b->expr; + + /* Currently only handling direct variables. Transpose etc. will come + later. */ + + if (matrix_a->expr_type != EXPR_VARIABLE + || matrix_b->expr_type != EXPR_VARIABLE) + return 0; + + if (matrix_a->rank == 2) + m_case = matrix_b->rank == 1 ? A2B1 : A2B2; + else + m_case = A1B2; + + /* We do not handle data dependencies yet. */ + if (gfc_check_dependency (expr1, matrix_a, true) + || gfc_check_dependency (expr1, matrix_b, true)) + return 0; + + ns = insert_block (); + + /* Assign the type of the zero expression for initializing the resulting + array, and the expression (+ and * for real, integer and complex; + .and. and .or for logical. */ + + switch(expr1->ts.type) + { + case BT_INTEGER: + zero_e = gfc_get_int_expr (expr1->ts.kind, &expr1->where, 0); + op_times = INTRINSIC_TIMES; + op_plus = INTRINSIC_PLUS; + break; + + case BT_LOGICAL: + op_times = INTRINSIC_AND; + op_plus = INTRINSIC_OR; + zero_e = gfc_get_logical_expr (expr1->ts.kind, &expr1->where, + 0); + break; + case BT_REAL: + zero_e = gfc_get_constant_expr (BT_REAL, expr1->ts.kind, + &expr1->where); + mpfr_set_si (zero_e->value.real, 0, GFC_RND_MODE); + op_times = INTRINSIC_TIMES; + op_plus = INTRINSIC_PLUS; + break; + + case BT_COMPLEX: + zero_e = gfc_get_constant_expr (BT_COMPLEX, expr1->ts.kind, + &expr1->where); + mpc_set_si_si (zero_e->value.complex, 0, 0, GFC_RND_MODE); + op_times = INTRINSIC_TIMES; + op_plus = INTRINSIC_PLUS; + + break; + + default: + gcc_unreachable(); + } + + current_code = &ns->code; + + /* Freeze the references, keeping track of how many temporary variables were + created. */ + n_vars = 0; + freeze_references (matrix_a); + freeze_references (matrix_b); + freeze_references (expr1); + + if (n_vars == 0) + next_code_point = current_code; + else + { + next_code_point = &ns->code; + for (i=0; inext; + } + + /* Take care of the inline flag. If the limit check evaluates to a + constant, dead code elimination will eliminate the unneeded branch. */ + + if (m_case == A2B2 && flag_inline_matmul_limit > 0) + { + if_limit = inline_limit_check (matrix_a, matrix_b, m_case); + + /* Insert the original statement into the else branch. */ + if_limit->block->block->next = co; + co->next = NULL; + + /* ... and the new ones go into the original one. */ + *next_code_point = if_limit; + next_code_point = &if_limit->block->next; + } + + assign_zero = XCNEW (gfc_code); + assign_zero->op = EXEC_ASSIGN; + assign_zero->loc = co->loc; + assign_zero->expr1 = gfc_copy_expr (expr1); + assign_zero->expr2 = zero_e; + + /* Handle the reallocation, if needed. */ + if (flag_realloc_lhs && gfc_is_reallocatable_lhs (expr1)) + { + gfc_code *lhs_alloc; + + /* Only need to check a single dimension for the A2B2 case for + bounds checking, the rest will be allocated. */ + + if (gfc_option.rtcheck & GFC_RTCHECK_BOUNDS && m_case == A2B2) + { + gfc_code *test; + gfc_expr *a2, *b1; + + a2 = get_array_inq_function (GFC_ISYM_SIZE, matrix_a, 2); + b1 = get_array_inq_function (GFC_ISYM_SIZE, matrix_b, 1); + test = runtime_error_ne (b1, a2, "Dimension of array B incorrect " + "in MATMUL intrinsic: Is %ld, should be %ld"); + *next_code_point = test; + next_code_point = &test->next; + } + + + lhs_alloc = matmul_lhs_realloc (expr1, matrix_a, matrix_b, m_case); + + *next_code_point = lhs_alloc; + next_code_point = &lhs_alloc->next; + + } + else if (gfc_option.rtcheck & GFC_RTCHECK_BOUNDS) + { + gfc_code *test; + gfc_expr *a2, *b1, *c1, *c2, *a1, *b2; + + if (m_case == A2B2 || m_case == A2B1) + { + a2 = get_array_inq_function (GFC_ISYM_SIZE, matrix_a, 2); + b1 = get_array_inq_function (GFC_ISYM_SIZE, matrix_b, 1); + test = runtime_error_ne (b1, a2, "Dimension of array B incorrect " + "in MATMUL intrinsic: Is %ld, should be %ld"); + *next_code_point = test; + next_code_point = &test->next; + + c1 = get_array_inq_function (GFC_ISYM_SIZE, expr1, 1); + a1 = get_array_inq_function (GFC_ISYM_SIZE, matrix_a, 1); + + if (m_case == A2B2) + test = runtime_error_ne (c1, a1, "Incorrect extent in return array in " + "MATMUL intrinsic for dimension 1: " + "is %ld, should be %ld"); + else if (m_case == A2B1) + test = runtime_error_ne (c1, a1, "Incorrect extent in return array in " + "MATMUL intrinsic: " + "is %ld, should be %ld"); + + + *next_code_point = test; + next_code_point = &test->next; + } + else if (m_case == A1B2) + { + a1 = get_array_inq_function (GFC_ISYM_SIZE, matrix_a, 1); + b1 = get_array_inq_function (GFC_ISYM_SIZE, matrix_b, 1); + test = runtime_error_ne (b1, a1, "Dimension of array B incorrect " + "in MATMUL intrinsic: Is %ld, should be %ld"); + *next_code_point = test; + next_code_point = &test->next; + + c1 = get_array_inq_function (GFC_ISYM_SIZE, expr1, 1); + b2 = get_array_inq_function (GFC_ISYM_SIZE, matrix_b, 2); + + test = runtime_error_ne (c1, b2, "Incorrect extent in return array in " + "MATMUL intrinsic: " + "is %ld, should be %ld"); + + *next_code_point = test; + next_code_point = &test->next; + } + + if (m_case == A2B2) + { + c2 = get_array_inq_function (GFC_ISYM_SIZE, expr1, 2); + b2 = get_array_inq_function (GFC_ISYM_SIZE, matrix_b, 2); + test = runtime_error_ne (c2, b2, "Incorrect extent in return array in " + "MATMUL intrinsic for dimension 2: is %ld, should be %ld"); + + *next_code_point = test; + next_code_point = &test->next; + } + } + + *next_code_point = assign_zero; + + zero = gfc_get_int_expr (gfc_index_integer_kind, &co->loc, 0); + + assign_matmul = XCNEW (gfc_code); + assign_matmul->op = EXEC_ASSIGN; + assign_matmul->loc = co->loc; + + /* Get the bounds for the loops, create them and create the scalarized + expressions. */ + + switch (m_case) + { + case A2B2: + inline_limit_check (matrix_a, matrix_b, m_case); + + u1 = get_size_m1 (matrix_b, 2); + u2 = get_size_m1 (matrix_a, 2); + u3 = get_size_m1 (matrix_a, 1); + + do_1 = create_do_loop (gfc_copy_expr (zero), u1, NULL, &co->loc, ns); + do_2 = create_do_loop (gfc_copy_expr (zero), u2, NULL, &co->loc, ns); + do_3 = create_do_loop (gfc_copy_expr (zero), u3, NULL, &co->loc, ns); + + do_1->block->next = do_2; + do_2->block->next = do_3; + do_3->block->next = assign_matmul; + + var_1 = do_1->ext.iterator->var; + var_2 = do_2->ext.iterator->var; + var_3 = do_3->ext.iterator->var; + + list[0] = var_3; + list[1] = var_1; + cscalar = scalarized_expr (gfc_copy_expr (co->expr1), list, 2); + + list[0] = var_3; + list[1] = var_2; + ascalar = scalarized_expr (gfc_copy_expr (matrix_a), list, 2); + + list[0] = var_2; + list[1] = var_1; + bscalar = scalarized_expr (gfc_copy_expr (matrix_b), list, 2); + + break; + + case A2B1: + u1 = get_size_m1 (matrix_b, 1); + u2 = get_size_m1 (matrix_a, 1); + + do_1 = create_do_loop (gfc_copy_expr (zero), u1, NULL, &co->loc, ns); + do_2 = create_do_loop (gfc_copy_expr (zero), u2, NULL, &co->loc, ns); + + do_1->block->next = do_2; + do_2->block->next = assign_matmul; + + var_1 = do_1->ext.iterator->var; + var_2 = do_2->ext.iterator->var; + + list[0] = var_2; + cscalar = scalarized_expr (gfc_copy_expr (co->expr1), list, 1); + + list[0] = var_2; + list[1] = var_1; + ascalar = scalarized_expr (gfc_copy_expr (matrix_a), list, 2); + + list[0] = var_1; + bscalar = scalarized_expr (gfc_copy_expr (matrix_b), list, 1); + + break; + + case A1B2: + u1 = get_size_m1 (matrix_b, 2); + u2 = get_size_m1 (matrix_a, 1); + + do_1 = create_do_loop (gfc_copy_expr (zero), u1, NULL, &co->loc, ns); + do_2 = create_do_loop (gfc_copy_expr (zero), u2, NULL, &co->loc, ns); + + do_1->block->next = do_2; + do_2->block->next = assign_matmul; + + var_1 = do_1->ext.iterator->var; + var_2 = do_2->ext.iterator->var; + + list[0] = var_1; + cscalar = scalarized_expr (gfc_copy_expr (co->expr1), list, 1); + + list[0] = var_2; + ascalar = scalarized_expr (gfc_copy_expr (matrix_a), list, 1); + + list[0] = var_2; + list[1] = var_1; + bscalar = scalarized_expr (gfc_copy_expr (matrix_b), list, 2); + + break; + + default: + gcc_unreachable(); + } + + /* First loop comes after the zero assignment. */ + assign_zero->next = do_1; + + /* Build the assignment expression in the loop. */ + assign_matmul->expr1 = gfc_copy_expr (cscalar); + + mult = get_operand (op_times, ascalar, bscalar); + assign_matmul->expr2 = get_operand (op_plus, cscalar, mult); + + /* If we don't want to keep the original statement around in + the else branch, we can free it. */ + + if (if_limit == NULL) + gfc_free_statements(co); + else + co->next = NULL; + + gfc_free_expr (zero); + *walk_subtrees = 0; + return 0; +} #define WALK_SUBEXPR(NODE) \ do \ diff --git a/gcc/fortran/gfortran.h b/gcc/fortran/gfortran.h index 832a6ce3ebe..6c54da87182 100644 --- a/gcc/fortran/gfortran.h +++ b/gcc/fortran/gfortran.h @@ -419,6 +419,7 @@ enum gfc_isym_id GFC_ISYM_EXPONENT, GFC_ISYM_EXTENDS_TYPE_OF, GFC_ISYM_FDATE, + GFC_ISYM_FE_RUNTIME_ERROR, GFC_ISYM_FGET, GFC_ISYM_FGETC, GFC_ISYM_FLOOR, @@ -1001,7 +1002,6 @@ typedef struct bool cp_was_assumed; /* AS_ASSUMED_SIZE cp arrays are converted to AS_EXPLICIT, but we want to remember that we did this. */ - } gfc_array_spec; @@ -1907,7 +1907,7 @@ typedef struct gfc_intrinsic_sym gfc_typespec ts; unsigned elemental:1, inquiry:1, transformational:1, pure:1, generic:1, specific:1, actual_ok:1, noreturn:1, conversion:1, - from_module:1; + from_module:1, vararg:1; int standard; @@ -3231,4 +3231,8 @@ int gfc_code_walker (gfc_code **, walk_code_fn_t, walk_expr_fn_t, void *); void gfc_convert_mpz_to_signed (mpz_t, int); +/* trans-array.c */ + +bool gfc_is_reallocatable_lhs (gfc_expr *); + #endif /* GCC_GFORTRAN_H */ diff --git a/gcc/fortran/intrinsic.c b/gcc/fortran/intrinsic.c index a958f8ec9d1..1c0c388c512 100644 --- a/gcc/fortran/intrinsic.c +++ b/gcc/fortran/intrinsic.c @@ -520,6 +520,29 @@ add_sym_1s (const char *name, gfc_isym_id id, enum klass cl, bt type, int kind, (void *) 0); } +/* Add a symbol to the subroutine ilst where the subroutine takes one + printf-style character argument and a variable number of arguments + to follow. */ + +static void +add_sym_1p (const char *name, gfc_isym_id id, enum klass cl, bt type, int kind, + int standard, bool (*check) (gfc_actual_arglist *), + gfc_expr *(*simplify) (gfc_expr*), void (*resolve) (gfc_code *), + const char *a1, bt type1, int kind1, int optional1, sym_intent intent1) +{ + gfc_check_f cf; + gfc_simplify_f sf; + gfc_resolve_f rf; + + cf.f1m = check; + sf.f1 = simplify; + rf.s1 = resolve; + + add_sym (name, id, cl, ACTUAL_NO, type, kind, standard, cf, sf, rf, + a1, type1, kind1, optional1, intent1, + (void *) 0); +} + /* Add a symbol from the MAX/MIN family of intrinsic functions to the function. MAX et al take 2 or more arguments. */ @@ -1159,6 +1182,17 @@ make_from_module (void) next_sym[-1].from_module = 1; } + +/* Mark the current subroutine as having a variable number of + arguments. */ + +static void +make_vararg (void) +{ + if (sizing == SZ_NOTHING) + next_sym[-1].vararg = 1; +} + /* Set the attr.value of the current procedure. */ static void @@ -3292,6 +3326,17 @@ add_subroutines (void) "fptr", BT_UNKNOWN, 0, REQUIRED, INTENT_OUT); make_from_module(); + /* Internal subroutine for emitting a runtime error. */ + + add_sym_1p ("fe_runtime_error", GFC_ISYM_FE_RUNTIME_ERROR, CLASS_IMPURE, + BT_UNKNOWN, 0, GFC_STD_GNU, + gfc_check_fe_runtime_error, NULL, gfc_resolve_fe_runtime_error, + "msg", BT_CHARACTER, dc, REQUIRED, INTENT_IN); + + make_noreturn (); + make_vararg (); + make_from_module (); + /* Coarray collectives. */ add_sym_4s ("co_broadcast", GFC_ISYM_CO_BROADCAST, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_F2008_TS, @@ -4501,7 +4546,7 @@ gfc_intrinsic_sub_interface (gfc_code *c, int error_flag) init_arglist (isym); - if (!sort_actual (name, &c->ext.actual, isym->formal, &c->loc)) + if (!isym->vararg && !sort_actual (name, &c->ext.actual, isym->formal, &c->loc)) goto fail; if (!do_ts29113_check (isym, c->ext.actual)) diff --git a/gcc/fortran/intrinsic.h b/gcc/fortran/intrinsic.h index be7f214dddd..a9f16f52743 100644 --- a/gcc/fortran/intrinsic.h +++ b/gcc/fortran/intrinsic.h @@ -190,6 +190,7 @@ bool gfc_check_system_clock (gfc_expr *, gfc_expr *, gfc_expr *); bool gfc_check_date_and_time (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *); bool gfc_check_exit (gfc_expr *); bool gfc_check_fdate_sub (gfc_expr *); +bool gfc_check_fe_runtime_error (gfc_actual_arglist *); bool gfc_check_flush (gfc_expr *); bool gfc_check_free (gfc_expr *); bool gfc_check_fstat_sub (gfc_expr *, gfc_expr *, gfc_expr *); @@ -602,6 +603,7 @@ void gfc_resolve_ctime_sub (gfc_code *); void gfc_resolve_execute_command_line (gfc_code *); void gfc_resolve_exit (gfc_code *); void gfc_resolve_fdate_sub (gfc_code *); +void gfc_resolve_fe_runtime_error (gfc_code *); void gfc_resolve_flush (gfc_code *); void gfc_resolve_free (gfc_code *); void gfc_resolve_fseek_sub (gfc_code *); diff --git a/gcc/fortran/invoke.texi b/gcc/fortran/invoke.texi index af123dbbe5a..fc9f1b0fa1d 100644 --- a/gcc/fortran/invoke.texi +++ b/gcc/fortran/invoke.texi @@ -178,6 +178,7 @@ and warnings}. -finit-character=@var{n} -finit-integer=@var{n} -finit-local-zero @gol -finit-logical=@var{} -finit-real=@var{} @gol +-finline-matmul-limit=@var{n} @gol -fmax-array-constructor=@var{n} -fmax-stack-var-size=@var{n} -fno-align-commons @gol -fno-automatic -fno-protect-parens -fno-underscoring @gol @@ -1537,6 +1538,22 @@ geometric mean of the dimensions of the argument and result matrices. The default value for @var{n} is 30. +@item -finline-matmul-limit=@var{n} +@opindex @code{finline-matmul-limit} +When front-end optimiztion is active, some calls to the @code{MATMUL} +intrinsic function will be inlined. This may result in code size +increase if the size of the matrix cannot be determined at compile +time, as code for both cases is generated. Setting +@code{-finline-matmul-limit=0} will disable inlining in all cases. +Setting this option with a value of @var{n} will produce inline code +for matrices with size up to @var{n}. If the matrices involved are not +square, the size comparison is performed using the geometric mean of +the dimensions of the argument and result matrices. + +The default value for @var{n} is the value specified for +@code{-fblas-matmul-limit} if this option is specified, or unlimitited +otherwise. + @item -frecursive @opindex @code{frecursive} Allow indirect recursion by forcing all local arrays to be allocated @@ -1632,11 +1649,12 @@ if @option{-ffrontend-optimize} is in effect. @cindex Front-end optimization This option performs front-end optimization, based on manipulating parts the Fortran parse tree. Enabled by default by any @option{-O} -option. Optimizations enabled by this option include elimination of -identical function calls within expressions, removing unnecessary -calls to @code{TRIM} in comparisons and assignments and replacing -@code{TRIM(a)} with @code{a(1:LEN_TRIM(a))}. -It can be deselected by specifying @option{-fno-frontend-optimize}. +option. Optimizations enabled by this option include inlining calls +to @code{MATMUL}, elimination of identical function calls within +expressions, removing unnecessary calls to @code{TRIM} in comparisons +and assignments and replacing @code{TRIM(a)} with +@code{a(1:LEN_TRIM(a))}. It can be deselected by specifying +@option{-fno-frontend-optimize}. @end table @xref{Code Gen Options,,Options for Code Generation Conventions, diff --git a/gcc/fortran/iresolve.c b/gcc/fortran/iresolve.c index 6fa0994cf23..32ef0719ead 100644 --- a/gcc/fortran/iresolve.c +++ b/gcc/fortran/iresolve.c @@ -2197,6 +2197,19 @@ gfc_resolve_rrspacing (gfc_expr *f, gfc_expr *x) f->value.function.name = gfc_get_string ("__rrspacing_%d", x->ts.kind); } +void +gfc_resolve_fe_runtime_error (gfc_code *c) +{ + const char *name; + gfc_actual_arglist *a; + + name = gfc_get_string (PREFIX ("runtime_error")); + + for (a = c->ext.actual->next; a; a = a->next) + a->name = "%VAL"; + + c->resolved_sym = gfc_get_intrinsic_sub_symbol (name); +} void gfc_resolve_scale (gfc_expr *f, gfc_expr *x, gfc_expr *i ATTRIBUTE_UNUSED) diff --git a/gcc/fortran/lang.opt b/gcc/fortran/lang.opt index d86376a917c..a81c4c52b94 100644 --- a/gcc/fortran/lang.opt +++ b/gcc/fortran/lang.opt @@ -542,6 +542,10 @@ Enum(gfc_init_local_real) String(inf) Value(GFC_INIT_REAL_INF) EnumValue Enum(gfc_init_local_real) String(-inf) Value(GFC_INIT_REAL_NEG_INF) +finline-matmul-limit= +Fortran RejectNegative Joined UInteger Var(flag_inline_matmul_limit) Init(-1) +-finline-matmul-limit= Specify the size of the largest matrix for which matmul will be inlined + fmax-array-constructor= Fortran RejectNegative Joined UInteger Var(flag_max_array_constructor) Init(65535) -fmax-array-constructor= Maximum number of objects in an array constructor diff --git a/gcc/fortran/options.c b/gcc/fortran/options.c index 5a35803beef..d47cf2acc1c 100644 --- a/gcc/fortran/options.c +++ b/gcc/fortran/options.c @@ -378,6 +378,11 @@ gfc_post_options (const char **pfilename) if (!flag_automatic) flag_max_stack_var_size = 0; + /* If we call BLAS directly, only inline up to the BLAS limit. */ + + if (flag_external_blas && flag_inline_matmul_limit < 0) + flag_inline_matmul_limit = flag_blas_matmul_limit; + /* Optimization implies front end optimization, unless the user specified it directly. */ diff --git a/gcc/fortran/trans-array.h b/gcc/fortran/trans-array.h index 76bad2a199a..2310b659a49 100644 --- a/gcc/fortran/trans-array.h +++ b/gcc/fortran/trans-array.h @@ -64,8 +64,6 @@ tree gfc_copy_only_alloc_comp (gfc_symbol *, tree, tree, int); tree gfc_alloc_allocatable_for_assignment (gfc_loopinfo*, gfc_expr*, gfc_expr*); -bool gfc_is_reallocatable_lhs (gfc_expr *); - /* Add initialization for deferred arrays. */ void gfc_trans_deferred_array (gfc_symbol *, gfc_wrapped_block *); /* Generate an initializer for a static pointer or allocatable array. */ diff --git a/gcc/testsuite/gfortran.dg/dependency_26.f90 b/gcc/testsuite/gfortran.dg/dependency_26.f90 index d37307c5cc4..0be18a35a8d 100644 --- a/gcc/testsuite/gfortran.dg/dependency_26.f90 +++ b/gcc/testsuite/gfortran.dg/dependency_26.f90 @@ -1,5 +1,5 @@ ! { dg-do compile } -! { dg-options "-fdump-tree-original" } +! { dg-options "-finline-matmul-limit=0 -fdump-tree-original" } ! ! Test the fix for PR36932 and PR36933, in which unnecessary ! temporaries were being generated. The module m2 tests the diff --git a/gcc/testsuite/gfortran.dg/function_optimize_1.f90 b/gcc/testsuite/gfortran.dg/function_optimize_1.f90 index b023121831b..88527a3334e 100644 --- a/gcc/testsuite/gfortran.dg/function_optimize_1.f90 +++ b/gcc/testsuite/gfortran.dg/function_optimize_1.f90 @@ -1,5 +1,5 @@ ! { dg-do compile } -! { dg-options "-O -fdump-tree-original -Warray-temporaries" } +! { dg-options "-O -fdump-tree-original -finline-matmul-limit=0 -Warray-temporaries" } program main implicit none real, dimension(2,2) :: a, b, c, d diff --git a/gcc/testsuite/gfortran.dg/function_optimize_2.f90 b/gcc/testsuite/gfortran.dg/function_optimize_2.f90 index 8105661b8f5..153270b5312 100644 --- a/gcc/testsuite/gfortran.dg/function_optimize_2.f90 +++ b/gcc/testsuite/gfortran.dg/function_optimize_2.f90 @@ -1,5 +1,5 @@ ! { dg-do compile } -! { dg-options "-O -faggressive-function-elimination -fdump-tree-original" } +! { dg-options "-O -finline-matmul-limit=0 -faggressive-function-elimination -fdump-tree-original" } program main implicit none real, dimension(2,2) :: a, b, c, d diff --git a/gcc/testsuite/gfortran.dg/function_optimize_5.f90 b/gcc/testsuite/gfortran.dg/function_optimize_5.f90 index 427b12684dc..b563e932b1f 100644 --- a/gcc/testsuite/gfortran.dg/function_optimize_5.f90 +++ b/gcc/testsuite/gfortran.dg/function_optimize_5.f90 @@ -1,5 +1,5 @@ ! { dg-do compile } -! { dg-options "-ffrontend-optimize -Wfunction-elimination" } +! { dg-options "-ffrontend-optimize -finline-matmul-limit=0 -Wfunction-elimination" } ! Check the -ffrontend-optimize (in the absence of -O) and ! -Wfunction-elimination options. program main diff --git a/gcc/testsuite/gfortran.dg/function_optimize_7.f90 b/gcc/testsuite/gfortran.dg/function_optimize_7.f90 index e0c404b6a2a..115a5a66bbb 100644 --- a/gcc/testsuite/gfortran.dg/function_optimize_7.f90 +++ b/gcc/testsuite/gfortran.dg/function_optimize_7.f90 @@ -1,5 +1,5 @@ ! { dg-do compile } -! { dg-options "-O -fdump-tree-original -Warray-temporaries" } +! { dg-options "-O -fdump-tree-original -Warray-temporaries -finline-matmul-limit=0" } subroutine xx(n, m, a, b, c, d, x, z, i, s_in, s_out) implicit none integer, intent(in) :: n, m diff --git a/gcc/testsuite/gfortran.dg/inline_matmul_1.f90 b/gcc/testsuite/gfortran.dg/inline_matmul_1.f90 new file mode 100644 index 00000000000..266aad073d4 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/inline_matmul_1.f90 @@ -0,0 +1,152 @@ +! { dg-do run } +! { dg-options "-ffrontend-optimize -fdump-tree-original -Wrealloc-lhs" } +! PR 37131 - check basic functionality of inlined matmul, making +! sure that the library is not called, with and without reallocation. + +program main + implicit none + integer, parameter :: offset = -2 + real, dimension(3,2) :: a + real, dimension(2,4) :: b + real, dimension(3,4) :: c + real, dimension(3,4) :: cres + real, dimension(:,:), allocatable :: c_alloc + integer, parameter :: a1_lower_p = 1 + offset, a1_upper_p = size(a,1) + offset + integer, parameter :: a2_lower_p = 1 + offset, a2_upper_p = size(a,2) + offset + integer, parameter :: b1_lower_p = 1 + offset, b1_upper_p = size(b,1) + offset + integer, parameter :: b2_lower_p = 1 + offset, b2_upper_p = size(b,2) + offset + integer, parameter :: c1_lower_p = 1 + offset, c1_upper_p = size(c,1) + offset + integer, parameter :: c2_lower_p = 1 + offset, c2_upper_p = size(c,2) + offset + real, dimension(a1_lower_p:a1_upper_p, a2_lower_p:a2_upper_p) :: ap + real, dimension(b1_lower_p:b1_upper_p, b2_lower_p:b2_upper_p) :: bp + real, dimension(c1_lower_p:c1_upper_p, c2_lower_p:c2_upper_p) :: cp + real, dimension(4,8,4) :: f, fresult + integer :: eight = 8, two = 2 + + type foo + real :: a + integer :: i + end type foo + + type(foo), dimension(3,2) :: afoo + type(foo), dimension(2,4) :: bfoo + type(foo), dimension(3,4) :: cfoo + + data a / 2., -3., 5., -7., 11., -13./ + data b /17., -23., 29., -31., 37., -39., 41., -47./ + data cres /195., -304., 384., 275., -428., 548., 347., -540., 692., 411., -640., 816./ + data fresult / & + 0., 0., 195., 0., 0., 17., 0., 0., 0., -23.,-304., 0., 0., 0., 0., 0., & + 0., 0., 384., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., & + 2., 0., 275., 0., -3., 29., 0., 0., 5., -31.,-428., 0., 0., 0., 0., 0., & + 0., 0., 548., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., & + -7., 0., 347., 0., 11., 37., 0., 0., -13., -39.,-540., 0., 0., 0., 0., 0., & + 0., 0., 692., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., & + 0., 0., 411., 0., 0., 41., 0., 0., 0., -47.,-640., 0., 0., 0., 0., 0., & + 0., 0., 816., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0./ + + integer :: a1 = size(a,1), a2 = size(a,2) + integer :: b1 = size(b,1), b2 = size(b,2) + integer :: c1 = size(c,1), c2 = size(c,2) + + integer :: a1_lower, a1_upper, a2_lower, a2_upper + integer :: b1_lower, b1_upper, b2_lower, b2_upper + integer :: c1_lower, c1_upper, c2_lower, c2_upper + + a1_lower = 1 + offset ; a1_upper = a1 + offset + a2_lower = 1 + offset ; a2_upper = a2 + offset + b1_lower = 1 + offset ; b1_upper = b1 + offset + b2_lower = 1 + offset ; b2_upper = b2 + offset + c1_lower = 1 + offset ; c1_upper = c1 + offset + c2_lower = 1 + offset ; c2_upper = c2 + offset + + c = matmul(a,b) + if (sum(abs(c-cres))>1e-4) call abort + + c_alloc = matmul(a,b) ! { dg-warning "Code for reallocating the allocatable array" } + if (sum(abs(c_alloc-cres))>1e-4) call abort + if (any([size(c_alloc,1), size(c_alloc,2)] /= [3,4])) call abort + deallocate(c_alloc) + + allocate(c_alloc(4,4)) + c_alloc = matmul(a,b) ! { dg-warning "Code for reallocating the allocatable array" } + if (sum(abs(c_alloc-cres))>1e-4) call abort + if (any([size(c_alloc,1), size(c_alloc,2)] /= [3,4])) call abort + deallocate(c_alloc) + + allocate(c_alloc(3,3)) + c_alloc = matmul(a,b) ! { dg-warning "Code for reallocating the allocatable array" } + if (sum(abs(c_alloc-cres))>1e-4) call abort + if (any([size(c_alloc,1), size(c_alloc,2)] /= [3,4])) call abort + + c_alloc = 42. + c_alloc(:,:) = matmul(a,b) + if (sum(abs(c_alloc-cres))>1e-4) call abort + if (any([size(c_alloc,1), size(c_alloc,2)] /= [3,4])) call abort + + deallocate(c_alloc) + + ap = a + bp = b + cp = matmul(ap, bp) + if (sum(abs(cp-cres)) > 1e-4) call abort + + f = 0 + f(1,1:3,2:3) = a + f(2,2:3,:) = b + c = matmul(f(1,1:3,2:3), f(2,2:3,:)) + if (sum(abs(c-cres))>1e-4) call abort + + f(3,1:eight:2,:) = matmul(a, b) + if (sum(abs(f(3,1:eight:2,:)-cres))>1e-4) call abort + + afoo%a = a + bfoo%a = b + cfoo%a = matmul(afoo%a, bfoo%a) + + if (sum(abs(cfoo%a-cres)) > 1e-4) call abort + + block + real :: aa(a1, a2), bb(b1, b2), cc(c1, c2) + real :: am(a1_lower:a1_upper, a2_lower:a2_upper) + real :: bm(b1_lower:b1_upper, b2_lower:b2_upper) + real :: cm(c1_lower:c1_upper, c2_lower:c2_upper) + + aa = a + bb = b + am = a + bm = b + + cc = matmul(aa,bb) + if (sum(cc-cres)>1e-4) call abort + c_alloc = matmul(aa,bb) ! { dg-warning "Code for reallocating the allocatable array" } + if (sum(abs(c_alloc-cres))>1e-4) call abort + if (any([size(c_alloc,1), size(c_alloc,2)] /= [3,4])) call abort + c_alloc = 42. + deallocate(c_alloc) + + allocate(c_alloc(4,4)) + c_alloc = matmul(aa,bb) ! { dg-warning "Code for reallocating the allocatable array" } + if (sum(abs(c_alloc-cres))>1e-4) call abort + if (any([size(c_alloc,1), size(c_alloc,2)] /= [3,4])) call abort + deallocate(c_alloc) + + allocate(c_alloc(3,3)) + c_alloc = matmul(aa,bb) ! { dg-warning "Code for reallocating the allocatable array" } + if (sum(abs(c_alloc-cres))>1e-4) call abort + if (any([size(c_alloc,1), size(c_alloc,2)] /= [3,4])) call abort + deallocate(c_alloc) + + cm = matmul(am, bm) + if (sum(abs(cm-cres)) > 1e-4) call abort + + cm = 42. + + cm(:,:) = matmul(a,bm) + if (sum(abs(cm-cres)) > 1e-4) call abort + + end block + +end program main + +! { dg-final { scan-tree-dump-times "_gfortran_matmul" 0 "original" } } diff --git a/gcc/testsuite/gfortran.dg/inline_matmul_2.f90 b/gcc/testsuite/gfortran.dg/inline_matmul_2.f90 new file mode 100644 index 00000000000..6f56f65e0b0 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/inline_matmul_2.f90 @@ -0,0 +1,65 @@ +! { dg-do compile } +! { dg-options "-ffrontend-optimize -finline-matmul-limit=0 -fdump-tree-original" } +! PR 37131 - no inlining with -finline-matmul-limit=0 +program main + real, dimension(3,2) :: a + real, dimension(2,4) :: b + real, dimension(3,4) :: c + real, dimension(3,4) :: cres + real, dimension(:,:), allocatable :: calloc + integer :: a1 = size(a,1), a2 = size(a,2) + integer :: b1 = size(b,1), b2 = size(b,2) + integer :: c1 = size(c,1), c2 = size(c,2) + + data a / 2., -3., 5., -7., 11., -13./ + data b /17., -23., 29., -31., 37., -39., 41., -47./ + data cres /195., -304., 384., 275., -428., 548., 347., -540., 692., 411., -640., 816./ + c = matmul(a,b) + if (sum(c-cres)>1e-4) call abort + + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(4,4)) + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(3,3)) + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + block + real :: aa(a1, a2), bb(b1, b2), cc(c1, c2) + aa = a + bb = b + + cc = matmul(aa,bb) + if (sum(cc-cres)>1e-4) call abort + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + calloc = 42. + deallocate(calloc) + + allocate(calloc(4,4)) + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(3,3)) + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + end block + +end program main +! { dg-final { scan-tree-dump-times "_gfortran_matmul" 8 "original" } } +! { dg-final { cleanup-tree-dump "original" } } diff --git a/gcc/testsuite/gfortran.dg/inline_matmul_3.f90 b/gcc/testsuite/gfortran.dg/inline_matmul_3.f90 new file mode 100644 index 00000000000..4f00c1a2921 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/inline_matmul_3.f90 @@ -0,0 +1,65 @@ +! { dg-do run } +! { dg-options "-O3 -finline-matmul-limit=2 -fdump-tree-optimized" } +! PR 37131 - all calls to matmul should be kept +program main + real, dimension(3,2) :: a + real, dimension(2,4) :: b + real, dimension(3,4) :: c + real, dimension(3,4) :: cres + real, dimension(:,:), allocatable :: calloc + integer :: a1 = size(a,1), a2 = size(a,2) + integer :: b1 = size(b,1), b2 = size(b,2) + integer :: c1 = size(c,1), c2 = size(c,2) + + data a / 2., -3., 5., -7., 11., -13./ + data b /17., -23., 29., -31., 37., -39., 41., -47./ + data cres /195., -304., 384., 275., -428., 548., 347., -540., 692., 411., -640., 816./ + c = matmul(a,b) + if (sum(c-cres)>1e-4) call abort + + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(4,4)) + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(3,3)) + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + block + real :: aa(a1, a2), bb(b1, b2), cc(c1, c2) + aa = a + bb = b + + cc = matmul(aa,bb) + if (sum(cc-cres)>1e-4) call abort + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + calloc = 42. + deallocate(calloc) + + allocate(calloc(4,4)) + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(3,3)) + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + end block + +end program main +! { dg-final { scan-tree-dump-times "_gfortran_matmul" 8 "optimized" } } +! { dg-final { cleanup-tree-dump "optimized" } } diff --git a/gcc/testsuite/gfortran.dg/inline_matmul_4.f90 b/gcc/testsuite/gfortran.dg/inline_matmul_4.f90 new file mode 100644 index 00000000000..b2253b14daa --- /dev/null +++ b/gcc/testsuite/gfortran.dg/inline_matmul_4.f90 @@ -0,0 +1,68 @@ +! { dg-do run } +! { dg-options "-O3 -finline-matmul-limit=10 -fdump-tree-optimized -fdump-tree-original" } +! PR 37131 - all calls to matmul should be optimized away with -O3 +! and the high limit. +program main + real, dimension(3,2) :: a + real, dimension(2,4) :: b + real, dimension(3,4) :: c + real, dimension(3,4) :: cres + real, dimension(:,:), allocatable :: calloc + integer :: a1 = size(a,1), a2 = size(a,2) + integer :: b1 = size(b,1), b2 = size(b,2) + integer :: c1 = size(c,1), c2 = size(c,2) + + data a / 2., -3., 5., -7., 11., -13./ + data b /17., -23., 29., -31., 37., -39., 41., -47./ + data cres /195., -304., 384., 275., -428., 548., 347., -540., 692., 411., -640., 816./ + c = matmul(a,b) + if (sum(c-cres)>1e-4) call abort + + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(4,4)) + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(3,3)) + calloc = matmul(a,b) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + block + real :: aa(a1, a2), bb(b1, b2), cc(c1, c2) + aa = a + bb = b + + cc = matmul(aa,bb) + if (sum(cc-cres)>1e-4) call abort + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + calloc = 42. + deallocate(calloc) + + allocate(calloc(4,4)) + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + + allocate(calloc(3,3)) + calloc = matmul(aa,bb) + if (sum(calloc-cres)>1e-4) call abort + if (any([size(calloc,1), size(calloc,2)] /= [3,4])) call abort + deallocate(calloc) + end block + +end program main +! { dg-final { scan-tree-dump-times "_gfortran_matmul" 4 "original" } } +! { dg-final { scan-tree-dump-times "_gfortran_matmul" 0 "optimized" } } +! { dg-final { cleanup-tree-dump "original" } } +! { dg-final { cleanup-tree-dump "optimized" } } diff --git a/gcc/testsuite/gfortran.dg/inline_matmul_5.f90 b/gcc/testsuite/gfortran.dg/inline_matmul_5.f90 new file mode 100644 index 00000000000..bed1cb6a0af --- /dev/null +++ b/gcc/testsuite/gfortran.dg/inline_matmul_5.f90 @@ -0,0 +1,13 @@ +! { dg-do run } +! { dg-options "-ffrontend-optimize" } +program main + + real, dimension(2,2) :: a,b,c + + data a /2., 4., 8., 16. / + data b /3., 9., 27., 81./ + + c = matmul(a,b) + a = matmul(a,b) + if (any(a /= c)) call abort +end program main diff --git a/gcc/testsuite/gfortran.dg/inline_matmul_6.f90 b/gcc/testsuite/gfortran.dg/inline_matmul_6.f90 new file mode 100644 index 00000000000..54b0ecc230e --- /dev/null +++ b/gcc/testsuite/gfortran.dg/inline_matmul_6.f90 @@ -0,0 +1,49 @@ +! { dg-do run } +! { dg-options "-ffrontend-optimize -fdump-tree-original" } +! PR 37131 - check rank1/rank2 and rank2/rank1 cases for inline matmul. + +module foo + implicit none +contains + subroutine a1b2(a,b,c) + real, dimension(:), intent(in) :: a + real, dimension(:,:), intent(in) :: b + real, dimension(:), intent(out) :: c + + c = matmul(a,b) + end subroutine a1b2 + + subroutine a2b1(a,b,c) + real, dimension(:,:), intent(in) :: a + real, dimension(:), intent(in) :: b + real, dimension(:), intent(out) :: c + + c = matmul(a,b) + end subroutine a2b1 +end module foo + +program main + use foo + implicit none + real, dimension(3) :: a1 + real, dimension(3,2) :: b1 + real, dimension(2) :: c1 + + real, dimension(3,2) :: a2 + real, dimension(2) :: b2 + real, dimension(3) :: c2 + + data a1 /17., -23., 29./ + data b1 / 2., -3., 5., -7., 11., -13./ + + data b2/-2.,5./ + + a2 = -b1 + call a1b2(a1,b1,c1) + if (any(abs(c1 - (/248., -749./)) > 1e-3)) call abort + call a2b1(a2,b2,c2) + if (any(abs(c2 - (/39., -61., 75./)) > 1e-3)) call abort +end program main + +! { dg-final { scan-tree-dump-times "_gfortran_matmul" 0 "original" } } +! { dg-final { cleanup-tree-dump "original" } } -- cgit v1.2.1