[Fortran] F2003: More ASSOCIATE stuff

Message ID	4C698D47.8020902@domob.eu
State	New
Headers	show Return-Path: <gcc-patches-return-270636-incoming=patchwork.ozlabs.org@gcc.gnu.org> Message-ID: <4C698D47.8020902@domob.eu> Date: Mon, 16 Aug 2010 21:11:03 +0200 From: Daniel Kraft <d@domob.eu> User-Agent: Thunderbird 2.0.0.0 (X11/20070425) MIME-Version: 1.0 To: Fortran List <fortran@gcc.gnu.org>, gcc-patches <gcc-patches@gcc.gnu.org> Subject: [Patch, Fortran] F2003: More ASSOCIATE stuff Content-Type: multipart/mixed; boundary="------------020407000200050009090305" Mailing-List: contact gcc-patches-help@gcc.gnu.org; run by ezmlm Precedence: bulk Sender: gcc-patches-owner@gcc.gnu.org

Index: gcc/fortran/trans-expr.c =================================================================== --- gcc/fortran/trans-expr.c (revision 163267) +++ gcc/fortran/trans-expr.c (working copy) @@ -672,9 +672,10 @@ gfc_conv_variable (gfc_se * se, gfc_expr se->expr = build_fold_indirect_ref_loc (input_location, se->expr); - /* Dereference non-character pointer variables. + /* Dereference non-character pointer variables. These must be dummies, results, or scalars. */ - if ((sym->attr.pointer || sym->attr.allocatable) + if ((sym->attr.pointer || sym->attr.allocatable + || gfc_is_associate_pointer (sym)) && (sym->attr.dummy || sym->attr.function || sym->attr.result Index: gcc/fortran/symbol.c =================================================================== --- gcc/fortran/symbol.c (revision 163268) +++ gcc/fortran/symbol.c (working copy) @@ -4758,3 +4758,23 @@ gfc_find_proc_namespace (gfc_namespace* return ns; } + + +/* Check if an associate-variable should be translated as an `implicit' pointer + internally (if it is associated to a variable and not an array with + descriptor). */ + +bool +gfc_is_associate_pointer (gfc_symbol* sym) +{ + if (!sym->assoc) + return false; + + if (!sym->assoc->variable) + return false; + + if (sym->attr.dimension && sym->as->type != AS_EXPLICIT) + return false; + + return true; +} Index: gcc/fortran/gfortran.h =================================================================== --- gcc/fortran/gfortran.h (revision 163268) +++ gcc/fortran/gfortran.h (working copy) @@ -2007,6 +2007,8 @@ typedef struct gfc_association_list char name[GFC_MAX_SYMBOL_LEN + 1]; gfc_symtree *st; /* Symtree corresponding to name. */ + locus where; + gfc_expr *target; } gfc_association_list; @@ -2579,6 +2581,8 @@ void gfc_free_finalizer (gfc_finalizer * gfc_try gfc_check_symbol_typed (gfc_symbol*, gfc_namespace*, bool, locus); gfc_namespace* gfc_find_proc_namespace (gfc_namespace*); +bool gfc_is_associate_pointer (gfc_symbol*); + /* intrinsic.c -- true if working in an init-expr, false otherwise. */ extern bool gfc_init_expr_flag; Index: gcc/fortran/trans-types.c =================================================================== --- gcc/fortran/trans-types.c (revision 163267) +++ gcc/fortran/trans-types.c (working copy) @@ -1183,13 +1183,13 @@ gfc_is_nodesc_array (gfc_symbol * sym) if (sym->attr.pointer || sym->attr.allocatable) return 0; + /* We want a descriptor for associate-name arrays that do not have an + explicitely known shape already. */ + if (sym->assoc && sym->as->type != AS_EXPLICIT) + return 0; + if (sym->attr.dummy) - { - if (sym->as->type != AS_ASSUMED_SHAPE) - return 1; - else - return 0; - } + return sym->as->type != AS_ASSUMED_SHAPE; if (sym->attr.result || sym->attr.function) return 0; @@ -1798,7 +1798,8 @@ gfc_sym_type (gfc_symbol * sym) } else { - if (sym->attr.allocatable || sym->attr.pointer) + if (sym->attr.allocatable || sym->attr.pointer + || gfc_is_associate_pointer (sym)) type = gfc_build_pointer_type (sym, type); if (sym->attr.pointer || sym->attr.cray_pointee) GFC_POINTER_TYPE_P (type) = 1; Index: gcc/fortran/resolve.c =================================================================== --- gcc/fortran/resolve.c (revision 163268) +++ gcc/fortran/resolve.c (working copy) @@ -8295,39 +8295,7 @@ resolve_block_construct (gfc_code* code) gfc_resolve (code->ext.block.ns); /* For an ASSOCIATE block, the associations (and their targets) are already - resolved during gfc_resolve_symbol. Here, we have to add code - to assign expression values to the variables associated to expressions. */ - if (code->ext.block.assoc) - { - gfc_association_list* a; - gfc_code* assignTail; - gfc_code* assignHead; - - assignHead = assignTail = NULL; - for (a = code->ext.block.assoc; a; a = a->next) - if (!a->variable) - { - gfc_code* newAssign; - - newAssign = gfc_get_code (); - newAssign->op = EXEC_ASSIGN; - newAssign->loc = gfc_current_locus; - newAssign->expr1 = gfc_lval_expr_from_sym (a->st->n.sym); - newAssign->expr2 = a->target; - - if (!assignHead) - assignHead = newAssign; - else - { - gcc_assert (assignTail); - assignTail->next = newAssign; - } - assignTail = newAssign; - } - - assignTail->next = code->ext.block.ns->code; - code->ext.block.ns->code = assignHead; - } + resolved during gfc_resolve_symbol. */ } @@ -9523,12 +9491,11 @@ resolve_fl_var_and_proc (gfc_symbol *sym sym->name, &sym->declared_at); return FAILURE; } - } else { if (!mp_flag && !sym->attr.allocatable && !sym->attr.pointer - && !sym->attr.dummy && sym->ts.type != BT_CLASS) + && !sym->attr.dummy && sym->ts.type != BT_CLASS && !sym->assoc) { gfc_error ("Array '%s' at %L cannot have a deferred shape", sym->name, &sym->declared_at); @@ -11692,59 +11659,66 @@ resolve_symbol (gfc_symbol *sym) they get their type-spec set this way. */ if (sym->assoc) { + gfc_expr* target; + bool to_var; + gcc_assert (sym->attr.flavor == FL_VARIABLE); - if (gfc_resolve_expr (sym->assoc->target) != SUCCESS) + + target = sym->assoc->target; + if (gfc_resolve_expr (target) != SUCCESS) return; - sym->ts = sym->assoc->target->ts; + /* For variable targets, we get some attributes from the target. */ + if (target->expr_type == EXPR_VARIABLE) + { + gfc_symbol* tsym; + + gcc_assert (target->symtree); + tsym = target->symtree->n.sym; + + sym->attr.asynchronous = tsym->attr.asynchronous; + sym->attr.volatile_ = tsym->attr.volatile_; + + sym->attr.target = (tsym->attr.target || tsym->attr.pointer); + } + + sym->ts = target->ts; gcc_assert (sym->ts.type != BT_UNKNOWN); - if (sym->attr.dimension && sym->assoc->target->rank == 0) + /* See if this is a valid association-to-variable. */ + to_var = (target->expr_type == EXPR_VARIABLE + && !gfc_has_vector_subscript (target)); + if (sym->assoc->variable && !to_var) + { + gfc_error ("'%s' at %L associated to %s can not" + " be used in a variable definition context", + sym->name, &sym->declared_at, + (target->expr_type == EXPR_VARIABLE + ? "vector-indexed target" : "expression")); + return; + } + sym->assoc->variable = to_var; + + /* Finally resolve if this is an array or not. */ + if (sym->attr.dimension && target->rank == 0) { gfc_error ("Associate-name '%s' at %L is used as array", sym->name, &sym->declared_at); sym->attr.dimension = 0; return; } - if (sym->assoc->target->rank > 0) + if (target->rank > 0) sym->attr.dimension = 1; if (sym->attr.dimension) { - int dim; - sym->as = gfc_get_array_spec (); - sym->as->rank = sym->assoc->target->rank; - sym->as->type = AS_EXPLICIT; + sym->as->rank = target->rank; + sym->as->type = AS_DEFERRED; /* Target must not be coindexed, thus the associate-variable has no corank. */ sym->as->corank = 0; - - for (dim = 0; dim < sym->assoc->target->rank; ++dim) - { - gfc_expr* dim_expr; - gfc_expr* e; - - dim_expr = gfc_get_constant_expr (BT_INTEGER, - gfc_default_integer_kind, - &sym->declared_at); - mpz_set_si (dim_expr->value.integer, dim + 1); - - e = gfc_build_intrinsic_call ("lbound", sym->declared_at, 3, - gfc_copy_expr (sym->assoc->target), - gfc_copy_expr (dim_expr), NULL); - gfc_resolve_expr (e); - sym->as->lower[dim] = e; - - e = gfc_build_intrinsic_call ("ubound", sym->declared_at, 3, - gfc_copy_expr (sym->assoc->target), - gfc_copy_expr (dim_expr), NULL); - gfc_resolve_expr (e); - sym->as->upper[dim] = e; - - gfc_free_expr (dim_expr); - } } } Index: gcc/fortran/trans-decl.c =================================================================== --- gcc/fortran/trans-decl.c (revision 163268) +++ gcc/fortran/trans-decl.c (working copy) @@ -1206,7 +1206,7 @@ gfc_get_symbol_decl (gfc_symbol * sym) } /* Remember this variable for allocation/cleanup. */ - if (sym->attr.dimension || sym->attr.allocatable + if (sym->attr.dimension || sym->attr.allocatable || sym->assoc || (sym->ts.type == BT_CLASS && (CLASS_DATA (sym)->attr.dimension || CLASS_DATA (sym)->attr.allocatable)) @@ -3095,12 +3095,125 @@ init_intent_out_dt (gfc_symbol * proc_sy } +/* Do proper initialization for ASSOCIATE names. */ + +static void +trans_associate_var (gfc_symbol* sym, gfc_wrapped_block* block) +{ + gfc_expr* e; + tree tmp; + + gcc_assert (sym->assoc); + e = sym->assoc->target; + + /* Do a `pointer assignment' with updated descriptor (or assign descriptor + to array temporary) for arrays with either unknown shape or if associating + to a variable. */ + if (sym->attr.dimension + && (sym->as->type == AS_DEFERRED || sym->assoc->variable)) + { + gfc_se se; + gfc_ss* ss; + tree desc; + + desc = sym->backend_decl; + + /* If association is to an expression, evaluate it and create temporary. + Otherwise, get descriptor of target for pointer assignment. */ + gfc_init_se (&se, NULL); + ss = gfc_walk_expr (e); + if (sym->assoc->variable) + { + se.direct_byref = 1; + se.expr = desc; + } + gfc_conv_expr_descriptor (&se, e, ss); + + /* If we didn't already do the pointer assignment, set associate-name + descriptor to the one generated for the temporary. */ + if (!sym->assoc->variable) + { + tree offs; + int dim; + + gfc_add_modify (&se.pre, desc, se.expr); + + /* The generated descriptor has lower bound zero (as array + temporary), shift bounds so we get lower bounds of 1 all the time. + The offset has to be corrected as well. + Because the ubound shift and offset depends on the lower bounds, we + first calculate those and set the lbound to one last. */ + + offs = gfc_conv_descriptor_offset_get (desc); + for (dim = 0; dim < e->rank; ++dim) + { + tree from, to; + tree stride; + + from = gfc_conv_descriptor_lbound_get (desc, gfc_rank_cst[dim]); + to = gfc_conv_descriptor_ubound_get (desc, gfc_rank_cst[dim]); + stride = gfc_conv_descriptor_stride_get (desc, gfc_rank_cst[dim]); + + tmp = fold_build2 (MINUS_EXPR, gfc_array_index_type, + gfc_index_one_node, from); + to = fold_build2 (PLUS_EXPR, gfc_array_index_type, to, tmp); + + tmp = fold_build2 (MULT_EXPR, gfc_array_index_type, tmp, stride); + offs = fold_build2 (MINUS_EXPR, gfc_array_index_type, offs, tmp); + + gfc_conv_descriptor_ubound_set (&se.pre, desc, + gfc_rank_cst[dim], to); + } + gfc_conv_descriptor_offset_set (&se.pre, desc, offs); + + for (dim = 0; dim < e->rank; ++dim) + gfc_conv_descriptor_lbound_set (&se.pre, desc, gfc_rank_cst[dim], + gfc_index_one_node); + } + + /* Done, register stuff as init / cleanup code. */ + gfc_add_init_cleanup (block, gfc_finish_block (&se.pre), + gfc_finish_block (&se.post)); + } + + /* Do a scalar pointer assignment; this is for scalar variable targets. */ + else if (gfc_is_associate_pointer (sym)) + { + gfc_se se; + + gcc_assert (!sym->attr.dimension); + + gfc_init_se (&se, NULL); + gfc_conv_expr (&se, e); + + tmp = TREE_TYPE (sym->backend_decl); + tmp = gfc_build_addr_expr (tmp, se.expr); + gfc_add_modify (&se.pre, sym->backend_decl, tmp); + + gfc_add_init_cleanup (block, gfc_finish_block( &se.pre), + gfc_finish_block (&se.post)); + } + + /* Do a simple assignment. This is for scalar expressions, where we + can simply use expression assignment. */ + else + { + gfc_expr* lhs; + + lhs = gfc_lval_expr_from_sym (sym); + tmp = gfc_trans_assignment (lhs, e, false, true); + gfc_add_init_cleanup (block, tmp, NULL_TREE); + } +} + + /* Generate function entry and exit code, and add it to the function body. This includes: Allocation and initialization of array variables. Allocation of character string variables. Initialization and possibly repacking of dummy arrays. Initialization of ASSIGN statement auxiliary variable. + Initialization of ASSOCIATE names. Automatic deallocation. */ void @@ -3159,7 +3272,9 @@ gfc_trans_deferred_vars (gfc_symbol * pr { bool sym_has_alloc_comp = (sym->ts.type == BT_DERIVED) && sym->ts.u.derived->attr.alloc_comp; - if (sym->attr.dimension) + if (sym->assoc) + trans_associate_var (sym, block); + else if (sym->attr.dimension) { switch (sym->as->type) { Index: gcc/fortran/match.c =================================================================== --- gcc/fortran/match.c (revision 163267) +++ gcc/fortran/match.c (working copy) @@ -1827,6 +1827,7 @@ gfc_match_associate (void) gfc_error ("Expected association at %C"); goto assocListError; } + newAssoc->where = gfc_current_locus; /* Check that the current name is not yet in the list. */ for (a = new_st.ext.block.assoc; a; a = a->next) @@ -1844,10 +1845,11 @@ gfc_match_associate (void) goto assocListError; } - /* The target is a variable (and may be used as lvalue) if it's an - EXPR_VARIABLE and does not have vector-subscripts. */ - newAssoc->variable = (newAssoc->target->expr_type == EXPR_VARIABLE - && !gfc_has_vector_subscript (newAssoc->target)); + /* The `variable' field is left blank for now; because the target is not + yet resolved, we can't use gfc_has_vector_subscript to determine it + for now. Instead, if the symbol is matched as variable, this field + is set -- and during resolution we check that. */ + newAssoc->variable = 0; /* Put it into the list. */ newAssoc->next = new_st.ext.block.assoc; Index: gcc/fortran/parse.c =================================================================== --- gcc/fortran/parse.c (revision 163268) +++ gcc/fortran/parse.c (working copy) @@ -3215,23 +3215,21 @@ parse_associate (void) new_st.ext.block.ns = my_ns; gcc_assert (new_st.ext.block.assoc); - /* Add all associate-names as BLOCK variables. There values will be assigned - to them during resolution of the ASSOCIATE construct. */ + /* Add all associate-names as BLOCK variables. Creating them is enough + for now, they'll get their values during trans-* phase. */ gfc_current_ns = my_ns; for (a = new_st.ext.block.assoc; a; a = a->next) { - if (a->variable) - { - gfc_error ("Association to variables is not yet supported at %C"); - return; - } + gfc_symbol* sym; if (gfc_get_sym_tree (a->name, NULL, &a->st, false)) gcc_unreachable (); - a->st->n.sym->attr.flavor = FL_VARIABLE; - a->st->n.sym->assoc = a; - gfc_set_sym_referenced (a->st->n.sym); + sym = a->st->n.sym; + sym->attr.flavor = FL_VARIABLE; + sym->assoc = a; + sym->declared_at = a->where; + gfc_set_sym_referenced (sym); } accept_statement (ST_ASSOCIATE); Index: gcc/fortran/primary.c =================================================================== --- gcc/fortran/primary.c (revision 163268) +++ gcc/fortran/primary.c (working copy) @@ -2982,12 +2982,8 @@ match_variable (gfc_expr **result, int e gfc_error ("Assigning to PROTECTED variable at %C"); return MATCH_ERROR; } - if (sym->assoc && !sym->assoc->variable) - { - gfc_error ("'%s' associated to expression can't appear in a variable" - " definition context at %C", sym->name); - return MATCH_ERROR; - } + if (sym->assoc) + sym->assoc->variable = 1; break; case FL_UNKNOWN: Index: gcc/testsuite/gfortran.dg/associate_3.f03 =================================================================== --- gcc/testsuite/gfortran.dg/associate_3.f03 (revision 163268) +++ gcc/testsuite/gfortran.dg/associate_3.f03 (working copy) @@ -31,10 +31,6 @@ PROGRAM main ASSOCIATE (a => 1, b => 2, a => 3) ! { dg-error "Duplicate name 'a'" } ASSOCIATE (a => 5) - a = 4 ! { dg-error "variable definition context" } - ENd ASSOCIATE - - ASSOCIATE (a => 5) INTEGER :: b ! { dg-error "Unexpected data declaration statement" } END ASSOCIATE END PROGRAM main ! { dg-error "Expecting END ASSOCIATE" } Index: gcc/testsuite/gfortran.dg/associate_5.f03 =================================================================== --- gcc/testsuite/gfortran.dg/associate_5.f03 (revision 163268) +++ gcc/testsuite/gfortran.dg/associate_5.f03 (working copy) @@ -6,8 +6,21 @@ PROGRAM main IMPLICIT NONE + INTEGER :: nontarget + INTEGER :: arr(3) + INTEGER, POINTER :: ptr ASSOCIATE (a => 5) ! { dg-error "is used as array" } PRINT *, a(3) END ASSOCIATE + + ASSOCIATE (a => nontarget) + ptr => a ! { dg-error "neither TARGET nor POINTER" } + END ASSOCIATE + + ASSOCIATE (a => 5, & ! { dg-error "variable definition context" } + b => arr((/ 1, 3 /))) ! { dg-error "variable definition context" } + a = 4 + b = 7 + END ASSOCIATE END PROGRAM main Index: gcc/testsuite/gfortran.dg/associate_7.f03 =================================================================== --- gcc/testsuite/gfortran.dg/associate_7.f03 (revision 0) +++ gcc/testsuite/gfortran.dg/associate_7.f03 (revision 0) @@ -0,0 +1,21 @@ +! { dg-do run } +! { dg-options "-std=f2003 -fall-intrinsics" } + +! PR fortran/38936 +! Check association and pointers. + +! Contributed by Daniel Kraft, d@domob.eu. + +PROGRAM main + IMPLICIT NONE + INTEGER, TARGET :: tgt + INTEGER, POINTER :: ptr + + tgt = 1 + ASSOCIATE (x => tgt) + ptr => x + IF (ptr /= 1) CALL abort () + ptr = 2 + END ASSOCIATE + IF (tgt /= 2) CALL abort () +END PROGRAM main Index: gcc/testsuite/gfortran.dg/associate_6.f03 =================================================================== --- gcc/testsuite/gfortran.dg/associate_6.f03 (revision 163268) +++ gcc/testsuite/gfortran.dg/associate_6.f03 (working copy) @@ -7,8 +7,6 @@ ! Contributed by Daniel Kraft, d@domob.eu. -! FIXME: XFAIL'ed because this is not yet implemented 'correctly'. - MODULE m IMPLICIT NONE @@ -31,8 +29,11 @@ PROGRAM main ASSOCIATE (arr => func (4)) ! func should only be called once here, not again for the bounds! + + IF (LBOUND (arr, 1) /= 1 .OR. UBOUND (arr, 1) /= 4) CALL abort () + IF (arr(1) /= 1 .OR. arr(4) /= 4) CALL abort () END ASSOCIATE END PROGRAM main ! { dg-final { cleanup-modules "m" } } -! { dg-final { scan-tree-dump-times "func" 2 "original" { xfail *-*-* } } } +! { dg-final { scan-tree-dump-times "func" 2 "original" } } ! { dg-final { cleanup-tree-dump "original" } } Index: gcc/testsuite/gfortran.dg/associate_1.f03 =================================================================== --- gcc/testsuite/gfortran.dg/associate_1.f03 (revision 163268) +++ gcc/testsuite/gfortran.dg/associate_1.f03 (working copy) @@ -1,5 +1,5 @@ ! { dg-do run } -! { dg-options "-std=f2003 -fall-intrinsics" } +! { dg-options "-std=f2003 -fall-intrinsics -cpp" } ! PR fortran/38936 ! Check the basic semantics of the ASSOCIATE construct. @@ -8,6 +8,13 @@ PROGRAM main IMPLICIT NONE REAL :: a, b, c INTEGER, ALLOCATABLE :: arr(:) + INTEGER :: mat(3, 3) + + TYPE :: myt + INTEGER :: comp + END TYPE myt + + TYPE(myt) :: tp a = -2.0 b = 3.0 @@ -20,9 +27,6 @@ PROGRAM main IF (ABS (t - a - b) > 1.0e-3) CALL abort () END ASSOCIATE - ! TODO: Test association to variables when that is supported. - ! TODO: Test association to derived types. - ! Test association to arrays. ALLOCATE (arr(3)) arr = (/ 1, 2, 3 /) @@ -34,6 +38,12 @@ PROGRAM main IF (ANY (xyz /= (/ 1, 3, 5 /))) CALL abort () END ASSOCIATE + ! Target is vector-indexed. + ASSOCIATE (foo => arr((/ 3, 1 /))) + IF (LBOUND (foo, 1) /= 1 .OR. UBOUND (foo, 1) /= 2) CALL abort () + IF (foo(1) /= 3 .OR. foo(2) /= 1) CALL abort () + END ASSOCIATE + ! Named and nested associate. myname: ASSOCIATE (x => a - b * c) ASSOCIATE (y => 2.0 * x) @@ -49,6 +59,33 @@ PROGRAM main END ASSOCIATE END ASSOCIATE + ! Association to variables. + mat = 0 + mat(2, 2) = 5; + ASSOCIATE (x => arr(2), y => mat(2:3, 1:2)) + IF (x /= 2) CALL abort () + IF (ANY (LBOUND (y) /= (/ 1, 1 /) .OR. UBOUND (y) /= (/ 2, 2 /))) & + CALL abort () + IF (y(1, 2) /= 5) CALL abort () + + x = 7 + y = 8 + END ASSOCIATE + IF (arr(2) /= 7 .OR. ANY (mat(2:3, 1:2) /= 8)) CALL abort () + + ! Association to derived type and component. + tp = myt (1) + ASSOCIATE (x => tp, y => tp%comp) + ! FIXME: Parsing of derived-type associate names, tests with x. + IF (y /= 1) CALL abort () + y = 5 + END ASSOCIATE + IF (tp%comp /= 5) CALL abort () + + ! Association to character variables. + ! FIXME: Enable character test, once this works. + !CALL test_char (5) + CONTAINS FUNCTION func () @@ -56,4 +93,21 @@ CONTAINS func = (/ 1, 3, 5 /) END FUNCTION func +#if 0 + ! Test association to character variable with automatic length. + SUBROUTINE test_char (n) + INTEGER, INTENT(IN) :: n + + CHARACTER(LEN=n) :: str + + str = "foobar" + ASSOCIATE (my => str) + IF (LEN (my) /= n) CALL abort () + IF (my /= "fooba") CALL abort () + my = "abcdef" + END ASSOCIATE + IF (str /= "abcde") CALL abort () + END SUBROUTINE test_char +#endif + END PROGRAM main

[Fortran] F2003: More ASSOCIATE stuff

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