diff options
Diffstat (limited to 'lib/stdlib/src/erl_parse.yrl')
-rw-r--r-- | lib/stdlib/src/erl_parse.yrl | 1303 |
1 files changed, 920 insertions, 383 deletions
diff --git a/lib/stdlib/src/erl_parse.yrl b/lib/stdlib/src/erl_parse.yrl index 1d4a2a1fef..b1c574ea60 100644 --- a/lib/stdlib/src/erl_parse.yrl +++ b/lib/stdlib/src/erl_parse.yrl @@ -2,18 +2,19 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 1996-2014. All Rights Reserved. +%% Copyright Ericsson AB 1996-2016. All Rights Reserved. %% -%% The contents of this file are subject to the Erlang Public License, -%% Version 1.1, (the "License"); you may not use this file except in -%% compliance with the License. You should have received a copy of the -%% Erlang Public License along with this software. If not, it can be -%% retrieved online at http://www.erlang.org/. +%% Licensed under the Apache License, Version 2.0 (the "License"); +%% you may not use this file except in compliance with the License. +%% You may obtain a copy of the License at %% -%% Software distributed under the License is distributed on an "AS IS" -%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See -%% the License for the specific language governing rights and limitations -%% under the License. +%% http://www.apache.org/licenses/LICENSE-2.0 +%% +%% Unless required by applicable law or agreed to in writing, software +%% distributed under the License is distributed on an "AS IS" BASIS, +%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +%% See the License for the specific language governing permissions and +%% limitations under the License. %% %% %CopyrightEnd% %% @@ -42,7 +43,6 @@ function_call argument_list exprs guard atomic strings prefix_op mult_op add_op list_op comp_op -rule rule_clauses rule_clause rule_body binary bin_elements bin_element bit_expr opt_bit_size_expr bit_size_expr opt_bit_type_list bit_type_list bit_type top_type top_type_100 top_types type typed_expr typed_attr_val @@ -54,7 +54,7 @@ bin_base_type bin_unit_type type_200 type_300 type_400 type_500. Terminals char integer float atom string var -'(' ')' ',' '->' ':-' '{' '}' '[' ']' '|' '||' '<-' ';' ':' '#' '.' +'(' ')' ',' '->' '{' '}' '[' ']' '|' '||' '<-' ';' ':' '#' '.' 'after' 'begin' 'case' 'try' 'catch' 'end' 'fun' 'if' 'of' 'receive' 'when' 'andalso' 'orelse' 'bnot' 'not' @@ -73,7 +73,6 @@ Rootsymbol form. form -> attribute dot : '$1'. form -> function dot : '$1'. -form -> rule dot : '$1'. attribute -> '-' atom attr_val : build_attribute('$2', '$3'). attribute -> '-' atom typed_attr_val : build_typed_attribute('$2','$3'). @@ -86,15 +85,11 @@ type_spec -> '(' spec_fun type_sigs ')' : {'$2', '$3'}. spec_fun -> atom : '$1'. spec_fun -> atom ':' atom : {'$1', '$3'}. -%% The following two are retained only for backwards compatibility; -%% they are not part of the EEP syntax and should be removed. -spec_fun -> atom '/' integer '::' : {'$1', '$3'}. -spec_fun -> atom ':' atom '/' integer '::' : {'$1', '$3', '$5'}. typed_attr_val -> expr ',' typed_record_fields : {typed_record, '$1', '$3'}. typed_attr_val -> expr '::' top_type : {type_def, '$1', '$3'}. -typed_record_fields -> '{' typed_exprs '}' : {tuple, ?line('$1'), '$2'}. +typed_record_fields -> '{' typed_exprs '}' : {tuple, ?anno('$1'), '$2'}. typed_exprs -> typed_expr : ['$1']. typed_exprs -> typed_expr ',' typed_exprs : ['$1'|'$3']. @@ -107,97 +102,93 @@ type_sigs -> type_sig : ['$1']. type_sigs -> type_sig ';' type_sigs : ['$1'|'$3']. type_sig -> fun_type : '$1'. -type_sig -> fun_type 'when' type_guards : {type, ?line('$1'), bounded_fun, +type_sig -> fun_type 'when' type_guards : {type, ?anno('$1'), bounded_fun, ['$1','$3']}. type_guards -> type_guard : ['$1']. type_guards -> type_guard ',' type_guards : ['$1'|'$3']. -type_guard -> atom '(' top_types ')' : {type, ?line('$1'), constraint, +type_guard -> atom '(' top_types ')' : {type, ?anno('$1'), constraint, ['$1', '$3']}. type_guard -> var '::' top_type : build_def('$1', '$3'). top_types -> top_type : ['$1']. top_types -> top_type ',' top_types : ['$1'|'$3']. -top_type -> var '::' top_type_100 : {ann_type, ?line('$1'), ['$1','$3']}. +top_type -> var '::' top_type_100 : {ann_type, ?anno('$1'), ['$1','$3']}. top_type -> top_type_100 : '$1'. top_type_100 -> type_200 : '$1'. top_type_100 -> type_200 '|' top_type_100 : lift_unions('$1','$3'). -type_200 -> type_300 '..' type_300 : {type, ?line('$1'), range, - [skip_paren('$1'), - skip_paren('$3')]}. +type_200 -> type_300 '..' type_300 : {type, ?anno('$1'), range, + ['$1', '$3']}. type_200 -> type_300 : '$1'. -type_300 -> type_300 add_op type_400 : ?mkop2(skip_paren('$1'), - '$2', skip_paren('$3')). +type_300 -> type_300 add_op type_400 : ?mkop2('$1', '$2', '$3'). type_300 -> type_400 : '$1'. -type_400 -> type_400 mult_op type_500 : ?mkop2(skip_paren('$1'), - '$2', skip_paren('$3')). +type_400 -> type_400 mult_op type_500 : ?mkop2('$1', '$2', '$3'). type_400 -> type_500 : '$1'. -type_500 -> prefix_op type : ?mkop1('$1', skip_paren('$2')). +type_500 -> prefix_op type : ?mkop1('$1', '$2'). type_500 -> type : '$1'. -type -> '(' top_type ')' : {paren_type, ?line('$2'), ['$2']}. +type -> '(' top_type ')' : '$2'. type -> var : '$1'. type -> atom : '$1'. type -> atom '(' ')' : build_gen_type('$1'). -type -> atom '(' top_types ')' : {type, ?line('$1'), - normalise('$1'), '$3'}. -type -> atom ':' atom '(' ')' : {remote_type, ?line('$1'), +type -> atom '(' top_types ')' : build_type('$1', '$3'). +type -> atom ':' atom '(' ')' : {remote_type, ?anno('$1'), ['$1', '$3', []]}. -type -> atom ':' atom '(' top_types ')' : {remote_type, ?line('$1'), +type -> atom ':' atom '(' top_types ')' : {remote_type, ?anno('$1'), ['$1', '$3', '$5']}. -type -> '[' ']' : {type, ?line('$1'), nil, []}. -type -> '[' top_type ']' : {type, ?line('$1'), list, ['$2']}. -type -> '[' top_type ',' '...' ']' : {type, ?line('$1'), +type -> '[' ']' : {type, ?anno('$1'), nil, []}. +type -> '[' top_type ']' : {type, ?anno('$1'), list, ['$2']}. +type -> '[' top_type ',' '...' ']' : {type, ?anno('$1'), nonempty_list, ['$2']}. -type -> '#' '{' '}' : {type, ?line('$1'), map, []}. -type -> '#' '{' map_pair_types '}' : {type, ?line('$1'), map, '$3'}. -type -> '{' '}' : {type, ?line('$1'), tuple, []}. -type -> '{' top_types '}' : {type, ?line('$1'), tuple, '$2'}. -type -> '#' atom '{' '}' : {type, ?line('$1'), record, ['$2']}. -type -> '#' atom '{' field_types '}' : {type, ?line('$1'), +type -> '#' '{' '}' : {type, ?anno('$1'), map, []}. +type -> '#' '{' map_pair_types '}' : {type, ?anno('$1'), map, '$3'}. +type -> '{' '}' : {type, ?anno('$1'), tuple, []}. +type -> '{' top_types '}' : {type, ?anno('$1'), tuple, '$2'}. +type -> '#' atom '{' '}' : {type, ?anno('$1'), record, ['$2']}. +type -> '#' atom '{' field_types '}' : {type, ?anno('$1'), record, ['$2'|'$4']}. type -> binary_type : '$1'. type -> integer : '$1'. -type -> 'fun' '(' ')' : {type, ?line('$1'), 'fun', []}. +type -> 'fun' '(' ')' : {type, ?anno('$1'), 'fun', []}. type -> 'fun' '(' fun_type_100 ')' : '$3'. fun_type_100 -> '(' '...' ')' '->' top_type - : {type, ?line('$1'), 'fun', - [{type, ?line('$1'), any}, '$5']}. + : {type, ?anno('$1'), 'fun', + [{type, ?anno('$1'), any}, '$5']}. fun_type_100 -> fun_type : '$1'. -fun_type -> '(' ')' '->' top_type : {type, ?line('$1'), 'fun', - [{type, ?line('$1'), product, []}, '$4']}. +fun_type -> '(' ')' '->' top_type : {type, ?anno('$1'), 'fun', + [{type, ?anno('$1'), product, []}, '$4']}. fun_type -> '(' top_types ')' '->' top_type - : {type, ?line('$1'), 'fun', - [{type, ?line('$1'), product, '$2'},'$5']}. + : {type, ?anno('$1'), 'fun', + [{type, ?anno('$1'), product, '$2'},'$5']}. map_pair_types -> map_pair_type : ['$1']. map_pair_types -> map_pair_type ',' map_pair_types : ['$1'|'$3']. -map_pair_type -> top_type '=>' top_type : {type, ?line('$2'), map_field_assoc,'$1','$3'}. +map_pair_type -> top_type '=>' top_type : {type, ?anno('$2'), map_field_assoc,['$1','$3']}. field_types -> field_type : ['$1']. field_types -> field_type ',' field_types : ['$1'|'$3']. -field_type -> atom '::' top_type : {type, ?line('$1'), field_type, +field_type -> atom '::' top_type : {type, ?anno('$1'), field_type, ['$1', '$3']}. -binary_type -> '<<' '>>' : {type, ?line('$1'),binary, - [abstract(0, ?line('$1')), - abstract(0, ?line('$1'))]}. -binary_type -> '<<' bin_base_type '>>' : {type, ?line('$1'),binary, - ['$2', abstract(0, ?line('$1'))]}. -binary_type -> '<<' bin_unit_type '>>' : {type, ?line('$1'),binary, - [abstract(0, ?line('$1')), '$2']}. +binary_type -> '<<' '>>' : {type, ?anno('$1'),binary, + [abstract2(0, ?anno('$1')), + abstract2(0, ?anno('$1'))]}. +binary_type -> '<<' bin_base_type '>>' : {type, ?anno('$1'),binary, + ['$2', abstract2(0, ?anno('$1'))]}. +binary_type -> '<<' bin_unit_type '>>' : {type, ?anno('$1'),binary, + [abstract2(0, ?anno('$1')), '$2']}. binary_type -> '<<' bin_base_type ',' bin_unit_type '>>' - : {type, ?line('$1'), binary, ['$2', '$4']}. + : {type, ?anno('$1'), binary, ['$2', '$4']}. bin_base_type -> var ':' type : build_bin_type(['$1'], '$3'). @@ -213,7 +204,7 @@ function_clauses -> function_clause : ['$1']. function_clauses -> function_clause ';' function_clauses : ['$1'|'$3']. function_clause -> atom clause_args clause_guard clause_body : - {clause,?line('$1'),element(3, '$1'),'$2','$3','$4'}. + {clause,?anno('$1'),element(3, '$1'),'$2','$3','$4'}. clause_args -> argument_list : element(1, '$1'). @@ -224,10 +215,10 @@ clause_guard -> '$empty' : []. clause_body -> '->' exprs: '$2'. -expr -> 'catch' expr : {'catch',?line('$1'),'$2'}. +expr -> 'catch' expr : {'catch',?anno('$1'),'$2'}. expr -> expr_100 : '$1'. -expr_100 -> expr_150 '=' expr_100 : {match,?line('$2'),'$1','$3'}. +expr_100 -> expr_150 '=' expr_100 : {match,?anno('$2'),'$1','$3'}. expr_100 -> expr_150 '!' expr_100 : ?mkop2('$1', '$2', '$3'). expr_100 -> expr_150 : '$1'. @@ -263,7 +254,7 @@ expr_700 -> record_expr : '$1'. expr_700 -> expr_800 : '$1'. expr_800 -> expr_max ':' expr_max : - {remote,?line('$2'),'$1','$3'}. + {remote,?anno('$2'),'$1','$3'}. expr_800 -> expr_max : '$1'. expr_max -> var : '$1'. @@ -275,7 +266,7 @@ expr_max -> binary_comprehension : '$1'. expr_max -> tuple : '$1'. %%expr_max -> struct : '$1'. expr_max -> '(' expr ')' : '$2'. -expr_max -> 'begin' exprs 'end' : {block,?line('$1'),'$2'}. +expr_max -> 'begin' exprs 'end' : {block,?anno('$1'),'$2'}. expr_max -> if_expr : '$1'. expr_max -> case_expr : '$1'. expr_max -> receive_expr : '$1'. @@ -283,22 +274,22 @@ expr_max -> fun_expr : '$1'. expr_max -> try_expr : '$1'. -list -> '[' ']' : {nil,?line('$1')}. -list -> '[' expr tail : {cons,?line('$1'),'$2','$3'}. +list -> '[' ']' : {nil,?anno('$1')}. +list -> '[' expr tail : {cons,?anno('$1'),'$2','$3'}. -tail -> ']' : {nil,?line('$1')}. +tail -> ']' : {nil,?anno('$1')}. tail -> '|' expr ']' : '$2'. -tail -> ',' expr tail : {cons,?line('$2'),'$2','$3'}. +tail -> ',' expr tail : {cons,?anno('$2'),'$2','$3'}. -binary -> '<<' '>>' : {bin,?line('$1'),[]}. -binary -> '<<' bin_elements '>>' : {bin,?line('$1'),'$2'}. +binary -> '<<' '>>' : {bin,?anno('$1'),[]}. +binary -> '<<' bin_elements '>>' : {bin,?anno('$1'),'$2'}. bin_elements -> bin_element : ['$1']. bin_elements -> bin_element ',' bin_elements : ['$1'|'$3']. bin_element -> bit_expr opt_bit_size_expr opt_bit_type_list : - {bin_element,?line('$1'),'$1','$2','$3'}. + {bin_element,?anno('$1'),'$1','$2','$3'}. bit_expr -> prefix_op expr_max : ?mkop1('$1', '$2'). bit_expr -> expr_max : '$1'. @@ -319,29 +310,29 @@ bit_size_expr -> expr_max : '$1'. list_comprehension -> '[' expr '||' lc_exprs ']' : - {lc,?line('$1'),'$2','$4'}. + {lc,?anno('$1'),'$2','$4'}. binary_comprehension -> '<<' binary '||' lc_exprs '>>' : - {bc,?line('$1'),'$2','$4'}. + {bc,?anno('$1'),'$2','$4'}. lc_exprs -> lc_expr : ['$1']. lc_exprs -> lc_expr ',' lc_exprs : ['$1'|'$3']. lc_expr -> expr : '$1'. -lc_expr -> expr '<-' expr : {generate,?line('$2'),'$1','$3'}. -lc_expr -> binary '<=' expr : {b_generate,?line('$2'),'$1','$3'}. +lc_expr -> expr '<-' expr : {generate,?anno('$2'),'$1','$3'}. +lc_expr -> binary '<=' expr : {b_generate,?anno('$2'),'$1','$3'}. -tuple -> '{' '}' : {tuple,?line('$1'),[]}. -tuple -> '{' exprs '}' : {tuple,?line('$1'),'$2'}. +tuple -> '{' '}' : {tuple,?anno('$1'),[]}. +tuple -> '{' exprs '}' : {tuple,?anno('$1'),'$2'}. %%struct -> atom tuple : -%% {struct,?line('$1'),element(3, '$1'),element(3, '$2')}. +%% {struct,?anno('$1'),element(3, '$1'),element(3, '$2')}. map_expr -> '#' map_tuple : - {map, ?line('$1'),'$2'}. + {map, ?anno('$1'),'$2'}. map_expr -> expr_max '#' map_tuple : - {map, ?line('$2'),'$1','$3'}. + {map, ?anno('$2'),'$1','$3'}. map_expr -> map_expr '#' map_tuple : - {map, ?line('$2'),'$1','$3'}. + {map, ?anno('$2'),'$1','$3'}. map_tuple -> '{' '}' : []. map_tuple -> '{' map_fields '}' : '$2'. @@ -353,10 +344,10 @@ map_field -> map_field_assoc : '$1'. map_field -> map_field_exact : '$1'. map_field_assoc -> map_key '=>' expr : - {map_field_assoc,?line('$1'),'$1','$3'}. + {map_field_assoc,?anno('$1'),'$1','$3'}. map_field_exact -> map_key ':=' expr : - {map_field_exact,?line('$1'),'$1','$3'}. + {map_field_exact,?anno('$1'),'$1','$3'}. map_key -> expr : '$1'. @@ -366,17 +357,17 @@ map_key -> expr : '$1'. %% always atoms for the moment, this might change in the future. record_expr -> '#' atom '.' atom : - {record_index,?line('$1'),element(3, '$2'),'$4'}. + {record_index,?anno('$1'),element(3, '$2'),'$4'}. record_expr -> '#' atom record_tuple : - {record,?line('$1'),element(3, '$2'),'$3'}. + {record,?anno('$1'),element(3, '$2'),'$3'}. record_expr -> expr_max '#' atom '.' atom : - {record_field,?line('$2'),'$1',element(3, '$3'),'$5'}. + {record_field,?anno('$2'),'$1',element(3, '$3'),'$5'}. record_expr -> expr_max '#' atom record_tuple : - {record,?line('$2'),'$1',element(3, '$3'),'$4'}. + {record,?anno('$2'),'$1',element(3, '$3'),'$4'}. record_expr -> record_expr '#' atom '.' atom : - {record_field,?line('$2'),'$1',element(3, '$3'),'$5'}. + {record_field,?anno('$2'),'$1',element(3, '$3'),'$5'}. record_expr -> record_expr '#' atom record_tuple : - {record,?line('$2'),'$1',element(3, '$3'),'$4'}. + {record,?anno('$2'),'$1',element(3, '$3'),'$4'}. record_tuple -> '{' '}' : []. record_tuple -> '{' record_fields '}' : '$2'. @@ -384,47 +375,47 @@ record_tuple -> '{' record_fields '}' : '$2'. record_fields -> record_field : ['$1']. record_fields -> record_field ',' record_fields : ['$1' | '$3']. -record_field -> var '=' expr : {record_field,?line('$1'),'$1','$3'}. -record_field -> atom '=' expr : {record_field,?line('$1'),'$1','$3'}. +record_field -> var '=' expr : {record_field,?anno('$1'),'$1','$3'}. +record_field -> atom '=' expr : {record_field,?anno('$1'),'$1','$3'}. %% N.B. This is called from expr_700. function_call -> expr_800 argument_list : - {call,?line('$1'),'$1',element(1, '$2')}. + {call,?anno('$1'),'$1',element(1, '$2')}. -if_expr -> 'if' if_clauses 'end' : {'if',?line('$1'),'$2'}. +if_expr -> 'if' if_clauses 'end' : {'if',?anno('$1'),'$2'}. if_clauses -> if_clause : ['$1']. if_clauses -> if_clause ';' if_clauses : ['$1' | '$3']. if_clause -> guard clause_body : - {clause,?line(hd(hd('$1'))),[],'$1','$2'}. + {clause,?anno(hd(hd('$1'))),[],'$1','$2'}. case_expr -> 'case' expr 'of' cr_clauses 'end' : - {'case',?line('$1'),'$2','$4'}. + {'case',?anno('$1'),'$2','$4'}. cr_clauses -> cr_clause : ['$1']. cr_clauses -> cr_clause ';' cr_clauses : ['$1' | '$3']. cr_clause -> expr clause_guard clause_body : - {clause,?line('$1'),['$1'],'$2','$3'}. + {clause,?anno('$1'),['$1'],'$2','$3'}. receive_expr -> 'receive' cr_clauses 'end' : - {'receive',?line('$1'),'$2'}. + {'receive',?anno('$1'),'$2'}. receive_expr -> 'receive' 'after' expr clause_body 'end' : - {'receive',?line('$1'),[],'$3','$4'}. + {'receive',?anno('$1'),[],'$3','$4'}. receive_expr -> 'receive' cr_clauses 'after' expr clause_body 'end' : - {'receive',?line('$1'),'$2','$4','$5'}. + {'receive',?anno('$1'),'$2','$4','$5'}. fun_expr -> 'fun' atom '/' integer : - {'fun',?line('$1'),{function,element(3, '$2'),element(3, '$4')}}. + {'fun',?anno('$1'),{function,element(3, '$2'),element(3, '$4')}}. fun_expr -> 'fun' atom_or_var ':' atom_or_var '/' integer_or_var : - {'fun',?line('$1'),{function,'$2','$4','$6'}}. + {'fun',?anno('$1'),{function,'$2','$4','$6'}}. fun_expr -> 'fun' fun_clauses 'end' : - build_fun(?line('$1'), '$2'). + build_fun(?anno('$1'), '$2'). atom_or_var -> atom : '$1'. atom_or_var -> var : '$1'. @@ -436,16 +427,16 @@ fun_clauses -> fun_clause : ['$1']. fun_clauses -> fun_clause ';' fun_clauses : ['$1' | '$3']. fun_clause -> argument_list clause_guard clause_body : - {Args,Pos} = '$1', - {clause,Pos,'fun',Args,'$2','$3'}. + {Args,Anno} = '$1', + {clause,Anno,'fun',Args,'$2','$3'}. fun_clause -> var argument_list clause_guard clause_body : {clause,element(2, '$1'),element(3, '$1'),element(1, '$2'),'$3','$4'}. try_expr -> 'try' exprs 'of' cr_clauses try_catch : - build_try(?line('$1'),'$2','$4','$5'). + build_try(?anno('$1'),'$2','$4','$5'). try_expr -> 'try' exprs try_catch : - build_try(?line('$1'),'$2',[],'$3'). + build_try(?anno('$1'),'$2',[],'$3'). try_catch -> 'catch' try_clauses 'end' : {'$2',[]}. @@ -458,18 +449,18 @@ try_clauses -> try_clause : ['$1']. try_clauses -> try_clause ';' try_clauses : ['$1' | '$3']. try_clause -> expr clause_guard clause_body : - L = ?line('$1'), - {clause,L,[{tuple,L,[{atom,L,throw},'$1',{var,L,'_'}]}],'$2','$3'}. + A = ?anno('$1'), + {clause,A,[{tuple,A,[{atom,A,throw},'$1',{var,A,'_'}]}],'$2','$3'}. try_clause -> atom ':' expr clause_guard clause_body : - L = ?line('$1'), - {clause,L,[{tuple,L,['$1','$3',{var,L,'_'}]}],'$4','$5'}. + A = ?anno('$1'), + {clause,A,[{tuple,A,['$1','$3',{var,A,'_'}]}],'$4','$5'}. try_clause -> var ':' expr clause_guard clause_body : - L = ?line('$1'), - {clause,L,[{tuple,L,['$1','$3',{var,L,'_'}]}],'$4','$5'}. + A = ?anno('$1'), + {clause,A,[{tuple,A,['$1','$3',{var,A,'_'}]}],'$4','$5'}. -argument_list -> '(' ')' : {[],?line('$1')}. -argument_list -> '(' exprs ')' : {'$2',?line('$1')}. +argument_list -> '(' ')' : {[],?anno('$1')}. +argument_list -> '(' exprs ')' : {'$2',?anno('$1')}. exprs -> expr : ['$1']. @@ -486,7 +477,7 @@ atomic -> strings : '$1'. strings -> string : '$1'. strings -> string strings : - {string,?line('$1'),element(3, '$1') ++ element(3, '$2')}. + {string,?anno('$1'),element(3, '$1') ++ element(3, '$2')}. prefix_op -> '+' : '$1'. prefix_op -> '-' : '$1'. @@ -521,56 +512,454 @@ comp_op -> '>' : '$1'. comp_op -> '=:=' : '$1'. comp_op -> '=/=' : '$1'. -rule -> rule_clauses : build_rule('$1'). - -rule_clauses -> rule_clause : ['$1']. -rule_clauses -> rule_clause ';' rule_clauses : ['$1'|'$3']. - -rule_clause -> atom clause_args clause_guard rule_body : - {clause,?line('$1'),element(3, '$1'),'$2','$3','$4'}. - -rule_body -> ':-' lc_exprs: '$2'. - - Erlang code. -export([parse_form/1,parse_exprs/1,parse_term/1]). -export([normalise/1,abstract/1,tokens/1,tokens/2]). -export([abstract/2]). -export([inop_prec/1,preop_prec/1,func_prec/0,max_prec/0]). --export([set_line/2,get_attribute/2,get_attributes/1]). +-export([type_inop_prec/1,type_preop_prec/1]). +-export([map_anno/2, fold_anno/3, mapfold_anno/3, + new_anno/1, anno_to_term/1, anno_from_term/1]). %% The following directive is needed for (significantly) faster compilation %% of the generated .erl file by the HiPE compiler. Please do not remove. -compile([{hipe,[{regalloc,linear_scan}]}]). -export_type([abstract_clause/0, abstract_expr/0, abstract_form/0, - error_info/0]). + abstract_type/0, error_info/0]). + +%% Start of Abstract Format + +-type anno() :: erl_anno:anno(). + +-type abstract_form() :: af_module() + | af_behavior() + | af_behaviour() + | af_export() + | af_import() + | af_export_type() + | af_optional_callbacks() + | af_compile() + | af_file() + | af_record_decl() + | af_type_decl() + | af_function_spec() + | af_wild_attribute() + | af_function_decl(). + +-type af_module() :: {'attribute', anno(), 'module', module()}. + +-type af_behavior() :: {'attribute', anno(), 'behavior', behaviour()}. + +-type af_behaviour() :: {'attribute', anno(), 'behaviour', behaviour()}. + +-type behaviour() :: atom(). + +-type af_export() :: {'attribute', anno(), 'export', af_fa_list()}. + +-type af_import() :: {'attribute', anno(), 'import', af_fa_list()}. + +-type af_fa_list() :: [{function_name(), arity()}]. + +-type af_export_type() :: {'attribute', anno(), 'export_type', af_ta_list()}. + +-type af_ta_list() :: [{type_name(), arity()}]. + +-type af_optional_callbacks() :: + {'attribute', anno(), 'optional_callbacks', af_fa_list()}. + +-type af_compile() :: {'attribute', anno(), 'compile', any()}. + +-type af_file() :: {'attribute', anno(), 'file', {string(), anno()}}. + +-type af_record_decl() :: + {'attribute', anno(), 'record', {record_name(), [af_field_decl()]}}. + +-type af_field_decl() :: af_typed_field() | af_field(). + +-type af_typed_field() :: + {'typed_record_field', af_field(), abstract_type()}. + +-type af_field() :: {'record_field', anno(), af_field_name()} + | {'record_field', anno(), af_field_name(), abstract_expr()}. + +-type af_type_decl() :: {'attribute', anno(), type_attr(), + {type_name(), abstract_type(), [af_variable()]}}. + +-type type_attr() :: 'opaque' | 'type'. + +-type af_function_spec() :: {'attribute', anno(), spec_attr(), + {{function_name(), arity()}, + af_function_type_list()}} + | {'attribute', anno(), 'spec', + {{module(), function_name(), arity()}, + af_function_type_list()}}. + +-type spec_attr() :: 'callback' | 'spec'. + +-type af_wild_attribute() :: {'attribute', anno(), atom(), any()}. + +-type af_function_decl() :: + {'function', anno(), function_name(), arity(), af_clause_seq()}. + +-type abstract_expr() :: af_literal() + | af_match(abstract_expr()) + | af_variable() + | af_tuple(abstract_expr()) + | af_nil() + | af_cons(abstract_expr()) + | af_bin(abstract_expr()) + | af_binary_op(abstract_expr()) + | af_unary_op(abstract_expr()) + | af_record_access(abstract_expr()) + | af_record_update(abstract_expr()) + | af_record_index() + | af_record_field_access(abstract_expr()) + | af_map_access(abstract_expr()) + | af_map_update(abstract_expr()) + | af_catch() + | af_local_call() + | af_remote_call() + | af_list_comprehension() + | af_binary_comprehension() + | af_block() + | af_if() + | af_case() + | af_try() + | af_receive() + | af_local_fun() + | af_remote_fun() + | af_fun() + | af_named_fun(). + +-type af_record_update(T) :: {'record', + anno(), + abstract_expr(), + record_name(), + [af_record_field(T)]}. + +-type af_catch() :: {'catch', anno(), abstract_expr()}. + +-type af_local_call() :: {'call', anno(), af_local_function(), af_args()}. + +-type af_remote_call() :: {'call', anno(), af_remote_function(), af_args()}. + +-type af_args() :: [abstract_expr()]. + +-type af_local_function() :: abstract_expr(). + +-type af_remote_function() :: + {'remote', anno(), abstract_expr(), abstract_expr()}. + +-type af_list_comprehension() :: + {'lc', anno(), af_template(), af_qualifier_seq()}. + +-type af_binary_comprehension() :: + {'bc', anno(), af_template(), af_qualifier_seq()}. + +-type af_template() :: abstract_expr(). + +-type af_qualifier_seq() :: [af_qualifier()]. + +-type af_qualifier() :: af_generator() | af_filter(). + +-type af_generator() :: {'generate', anno(), af_pattern(), abstract_expr()} + | {'b_generate', anno(), af_pattern(), abstract_expr()}. + +-type af_filter() :: abstract_expr(). + +-type af_block() :: {'block', anno(), af_body()}. + +-type af_if() :: {'if', anno(), af_clause_seq()}. + +-type af_case() :: {'case', anno(), abstract_expr(), af_clause_seq()}. + +-type af_try() :: {'try', + anno(), + af_body() | [], + af_clause_seq() | [], + af_clause_seq() | [], + af_body() | []}. + +-type af_clause_seq() :: [af_clause(), ...]. + +-type af_receive() :: + {'receive', anno(), af_clause_seq()} + | {'receive', anno(), af_clause_seq(), abstract_expr(), af_body()}. + +-type af_local_fun() :: + {'fun', anno(), {'function', function_name(), arity()}}. + +-type af_remote_fun() :: + {'fun', anno(), {'function', module(), function_name(), arity()}} + | {'fun', anno(), {'function', af_atom(), af_atom(), af_integer()}}. + +-type af_fun() :: {'fun', anno(), {'clauses', af_clause_seq()}}. + +-type af_named_fun() :: {'named_fun', anno(), fun_name(), af_clause_seq()}. + +-type fun_name() :: atom(). + +-type abstract_clause() :: af_clause(). + +-type af_clause() :: + {'clause', anno(), [af_pattern()], af_guard_seq(), af_body()}. + +-type af_body() :: [abstract_expr(), ...]. + +-type af_guard_seq() :: [af_guard()]. + +-type af_guard() :: [af_guard_test(), ...]. + +-type af_guard_test() :: af_literal() + | af_variable() + | af_tuple(af_guard_test()) + | af_nil() + | af_cons(af_guard_test()) + | af_bin(af_guard_test()) + | af_binary_op(af_guard_test()) + | af_unary_op(af_guard_test()) + | af_record_access(af_guard_test()) + | af_record_index() + | af_record_field_access(af_guard_test()) + | af_map_access(abstract_expr()) % FIXME + | af_map_update(abstract_expr()) % FIXME + | af_guard_call() + | af_remote_guard_call(). + +-type af_record_field_access(T) :: + {'record_field', anno(), T, record_name(), af_field_name()}. + +-type af_map_access(T) :: {'map', anno(), [af_map_field(T)]}. + +-type af_map_update(T) :: {'map', anno(), T, [af_map_field(T)]}. + +-type af_map_field(T) :: af_map_field_assoc(T) | af_map_field_exact(T). + +-type af_map_field_assoc(T) :: {'map_field_assoc', anno(), T, T}. + +-type af_map_field_exact(T) :: {'map_field_exact', anno(), T, T}. + +-type af_guard_call() :: {'call', anno(), function_name(), [af_guard_test()]}. --type abstract_clause() :: term(). --type abstract_expr() :: term(). --type abstract_form() :: term(). +-type af_remote_guard_call() :: + {'call', anno(), + {'remote', anno(), af_lit_atom('erlang'), af_atom()}, + [af_guard_test()]}. + +-type af_pattern() :: af_literal() + | af_match(af_pattern()) + | af_variable() + | af_tuple(af_pattern()) + | af_nil() + | af_cons(af_pattern()) + | af_bin(af_pattern()) + | af_binary_op(af_pattern()) + | af_unary_op(af_pattern()) + | af_record_access(af_pattern()) + | af_record_index() + | af_map_pattern(). + +-type af_record_index() :: + {'record_index', anno(), record_name(), af_field_name()}. + +-type af_record_access(T) :: + {'record', anno(), record_name(), [af_record_field(T)]}. + +-type af_record_field(T) :: {'record_field', anno(), af_field_name(), T}. + +-type af_map_pattern() :: + {'map', anno(), [af_map_field_exact(abstract_expr)]}. % FIXME? + +-type abstract_type() :: af_annotated_type() + | af_atom() + | af_bitstring_type() + | af_empty_list_type() + | af_fun_type() + | af_integer_range_type() + | af_map_type() + | af_predefined_type() + | af_record_type() + | af_remote_type() + | af_singleton_integer_type() + | af_tuple_type() + | af_type_union() + | af_type_variable() + | af_user_defined_type(). + +-type af_annotated_type() :: + {'ann_type', anno(), [af_anno() | abstract_type()]}. % [Var, Type] + +-type af_anno() :: af_variable(). + +-type af_bitstring_type() :: + {'type', anno(), 'binary', [af_singleton_integer_type()]}. + +-type af_empty_list_type() :: {'type', anno(), 'nil', []}. + +-type af_fun_type() :: {'type', anno(), 'fun', []} + | {'type', anno(), 'fun', [{'type', anno(), 'any'} | + abstract_type()]} + | {'type', anno(), 'fun', af_function_type()}. + +-type af_integer_range_type() :: + {'type', anno(), 'range', [af_singleton_integer_type()]}. + +-type af_map_type() :: {'type', anno(), 'map', 'any'} + | {'type', anno(), 'map', [af_map_pair_type()]}. + +-type af_map_pair_type() :: + {'type', anno(), 'map_field_assoc', [abstract_type()]}. + +-type af_predefined_type() :: + {'type', anno(), type_name(), [abstract_type()]}. + +-type af_record_type() :: + {'type', anno(), 'record', [(Name :: af_atom()) % [Name, T1, ... Tk] + | af_record_field_type()]}. + +-type af_record_field_type() :: + {'type', anno(), 'field_type', [(Name :: af_atom()) | + abstract_type()]}. % [Name, Type] + +-type af_remote_type() :: + {'remote_type', anno(), [(Module :: af_atom()) | + (TypeName :: af_atom()) | + [abstract_type()]]}. % [Module, Name, [T]] + +-type af_tuple_type() :: {'type', anno(), 'tuple', 'any'} + | {'type', anno(), 'tuple', [abstract_type()]}. + +-type af_type_union() :: {'type', anno(), 'union', [abstract_type()]}. + +-type af_type_variable() :: {'var', anno(), atom()}. % except '_' + +-type af_user_defined_type() :: + {'user_type', anno(), type_name(), [abstract_type()]}. + +-type af_function_type_list() :: [af_constrained_function_type() | + af_function_type()]. + +-type af_constrained_function_type() :: + {'type', anno(), 'bounded_fun', [af_function_type() | % [Ft, Fc] + af_function_constraint()]}. + +-type af_function_type() :: + {'type', anno(), 'fun', + [{'type', anno(), 'product', [abstract_type()]} | abstract_type()]}. + +-type af_function_constraint() :: [af_constraint()]. + +-type af_constraint() :: {'type', anno(), 'constraint', + af_lit_atom('is_subtype'), + [af_type_variable() | abstract_type()]}. % [V, T] + +-type af_singleton_integer_type() :: af_integer() + | af_unary_op(af_singleton_integer_type()) + | af_binary_op(af_singleton_integer_type()). + +-type af_literal() :: af_atom() | af_integer() | af_float() | af_string(). + +-type af_atom() :: af_lit_atom(atom()). + +-type af_lit_atom(A) :: {'atom', anno(), A}. + +-type af_integer() :: {'integer', anno(), non_neg_integer()}. + +-type af_float() :: {'float', anno(), float()}. + +-type af_string() :: {'string', anno(), string()}. + +-type af_match(T) :: {'match', anno(), af_pattern(), T}. + +-type af_variable() :: {'var', anno(), atom()}. % | af_anon_variable() + +%-type af_anon_variable() :: {'var', anno(), '_'}. + +-type af_tuple(T) :: {'tuple', anno(), [T]}. + +-type af_nil() :: {'nil', anno()}. + +-type af_cons(T) :: {'cons', anno(), T, T}. + +-type af_bin(T) :: {'bin', anno(), [af_binelement(T)]}. + +-type af_binelement(T) :: {'bin_element', + anno(), + T, + af_binelement_size(), + type_specifier_list()}. + +-type af_binelement_size() :: 'default' | abstract_expr(). + +-type af_binary_op(T) :: {'op', anno(), binary_op(), T, T}. + +-type binary_op() :: '/' | '*' | 'div' | 'rem' | 'band' | 'and' | '+' | '-' + | 'bor' | 'bxor' | 'bsl' | 'bsr' | 'or' | 'xor' | '++' + | '--' | '==' | '/=' | '=<' | '<' | '>=' | '>' | '=:=' + | '=/='. + +-type af_unary_op(T) :: {'op', anno(), unary_op(), T}. + +-type unary_op() :: '+' | '*' | 'bnot' | 'not'. + +%% See also lib/stdlib/{src/erl_bits.erl,include/erl_bits.hrl}. +-type type_specifier_list() :: 'default' | [type_specifier(), ...]. + +-type type_specifier() :: type() + | signedness() + | endianness() + | unit(). + +-type type() :: 'integer' + | 'float' + | 'binary' + | 'bytes' + | 'bitstring' + | 'bits' + | 'utf8' + | 'utf16' + | 'utf32'. + +-type signedness() :: 'signed' | 'unsigned'. + +-type endianness() :: 'big' | 'little' | 'native'. + +-type unit() :: {'unit', 1..256}. + +-type record_name() :: atom(). + +-type af_field_name() :: af_atom(). + +-type function_name() :: atom(). + +-type type_name() :: atom(). + +%% End of Abstract Format + +%% XXX. To be refined. -type error_description() :: term(). --type error_info() :: {erl_scan:line(), module(), error_description()}. +-type error_info() :: {erl_anno:line(), module(), error_description()}. -type token() :: erl_scan:token(). -%% mkop(Op, Arg) -> {op,Line,Op,Arg}. -%% mkop(Left, Op, Right) -> {op,Line,Op,Left,Right}. +%% mkop(Op, Arg) -> {op,Anno,Op,Arg}. +%% mkop(Left, Op, Right) -> {op,Anno,Op,Left,Right}. --define(mkop2(L, OpPos, R), +-define(mkop2(L, OpAnno, R), begin - {Op,Pos} = OpPos, - {op,Pos,Op,L,R} + {Op,Anno} = OpAnno, + {op,Anno,Op,L,R} end). --define(mkop1(OpPos, A), +-define(mkop1(OpAnno, A), begin - {Op,Pos} = OpPos, - {op,Pos,Op,A} + {Op,Anno} = OpAnno, + {op,Anno,Op,A} end). -%% keep track of line info in tokens --define(line(Tup), element(2, Tup)). +%% keep track of annotation info in tokens +-define(anno(Tup), element(2, Tup)). %% Entry points compatible to old erl_parse. %% These really suck and are only here until Calle gets multiple @@ -580,10 +969,10 @@ Erlang code. Tokens :: [token()], AbsForm :: abstract_form(), ErrorInfo :: error_info(). -parse_form([{'-',L1},{atom,L2,spec}|Tokens]) -> - parse([{'-',L1},{'spec',L2}|Tokens]); -parse_form([{'-',L1},{atom,L2,callback}|Tokens]) -> - parse([{'-',L1},{'callback',L2}|Tokens]); +parse_form([{'-',A1},{atom,A2,spec}|Tokens]) -> + parse([{'-',A1},{'spec',A2}|Tokens]); +parse_form([{'-',A1},{atom,A2,callback}|Tokens]) -> + parse([{'-',A1},{'callback',A2}|Tokens]); parse_form(Tokens) -> parse(Tokens). @@ -592,7 +981,8 @@ parse_form(Tokens) -> ExprList :: [abstract_expr()], ErrorInfo :: error_info(). parse_exprs(Tokens) -> - case parse([{atom,0,f},{'(',0},{')',0},{'->',0}|Tokens]) of + A = erl_anno:new(0), + case parse([{atom,A,f},{'(',A},{')',A},{'->',A}|Tokens]) of {ok,{function,_Lf,f,0,[{clause,_Lc,[],[],Exprs}]}} -> {ok,Exprs}; {error,_} = Err -> Err @@ -603,57 +993,52 @@ parse_exprs(Tokens) -> Term :: term(), ErrorInfo :: error_info(). parse_term(Tokens) -> - case parse([{atom,0,f},{'(',0},{')',0},{'->',0}|Tokens]) of - {ok,{function,_Lf,f,0,[{clause,_Lc,[],[],[Expr]}]}} -> + A = erl_anno:new(0), + case parse([{atom,A,f},{'(',A},{')',A},{'->',A}|Tokens]) of + {ok,{function,_Af,f,0,[{clause,_Ac,[],[],[Expr]}]}} -> try normalise(Expr) of Term -> {ok,Term} catch - _:_R -> {error,{?line(Expr),?MODULE,"bad term"}} + _:_R -> {error,{location(?anno(Expr)),?MODULE,"bad term"}} end; - {ok,{function,_Lf,f,0,[{clause,_Lc,[],[],[_E1,E2|_Es]}]}} -> - {error,{?line(E2),?MODULE,"bad term"}}; + {ok,{function,_Af,f,A,[{clause,_Ac,[],[],[_E1,E2|_Es]}]}} -> + {error,{location(?anno(E2)),?MODULE,"bad term"}}; {error,_} = Err -> Err end. -type attributes() :: 'export' | 'file' | 'import' | 'module' | 'opaque' | 'record' | 'type'. -build_typed_attribute({atom,La,record}, - {typed_record, {atom,_Ln,RecordName}, RecTuple}) -> - {attribute,La,record,{RecordName,record_tuple(RecTuple)}}; -build_typed_attribute({atom,La,Attr}, +build_typed_attribute({atom,Aa,record}, + {typed_record, {atom,_An,RecordName}, RecTuple}) -> + {attribute,Aa,record,{RecordName,record_tuple(RecTuple)}}; +build_typed_attribute({atom,Aa,Attr}, {type_def, {call,_,{atom,_,TypeName},Args}, Type}) when Attr =:= 'type' ; Attr =:= 'opaque' -> case lists:all(fun({var, _, _}) -> true; (_) -> false end, Args) of - true -> {attribute,La,Attr,{TypeName,Type,Args}}; - false -> error_bad_decl(La, Attr) + true -> {attribute,Aa,Attr,{TypeName,Type,Args}}; + false -> error_bad_decl(Aa, Attr) end; -build_typed_attribute({atom,La,Attr},_) -> +build_typed_attribute({atom,Aa,Attr},_) -> case Attr of - record -> error_bad_decl(La, record); - type -> error_bad_decl(La, type); - opaque -> error_bad_decl(La, opaque); - _ -> ret_err(La, "bad attribute") + record -> error_bad_decl(Aa, record); + type -> error_bad_decl(Aa, type); + opaque -> error_bad_decl(Aa, opaque); + _ -> ret_err(Aa, "bad attribute") end. -build_type_spec({Kind,La}, {SpecFun, TypeSpecs}) +build_type_spec({Kind,Aa}, {SpecFun, TypeSpecs}) when (Kind =:= spec) or (Kind =:= callback) -> NewSpecFun = case SpecFun of {atom, _, Fun} -> {Fun, find_arity_from_specs(TypeSpecs)}; {{atom,_, Mod}, {atom,_, Fun}} -> - {Mod,Fun,find_arity_from_specs(TypeSpecs)}; - {{atom, _, Fun}, {integer, _, Arity}} -> - %% Old style spec. Allow this for now. - {Fun,Arity}; - {{atom,_, Mod}, {atom, _, Fun}, {integer, _, Arity}} -> - %% Old style spec. Allow this for now. - {Mod,Fun,Arity} - end, - {attribute,La,Kind,{NewSpecFun, TypeSpecs}}. + {Mod,Fun,find_arity_from_specs(TypeSpecs)} + end, + {attribute,Aa,Kind,{NewSpecFun, TypeSpecs}}. find_arity_from_specs([Spec|_]) -> %% Use the first spec to find the arity. If all are not the same, @@ -665,99 +1050,111 @@ find_arity_from_specs([Spec|_]) -> {type, _, 'fun', [{type, _, product, Args},_]} = Fun, length(Args). +build_def({var, A, '_'}, _Types) -> + ret_err(A, "bad type variable"); build_def(LHS, Types) -> - IsSubType = {atom, ?line(LHS), is_subtype}, - {type, ?line(LHS), constraint, [IsSubType, [LHS, Types]]}. + IsSubType = {atom, ?anno(LHS), is_subtype}, + {type, ?anno(LHS), constraint, [IsSubType, [LHS, Types]]}. -lift_unions(T1, {type, _La, union, List}) -> - {type, ?line(T1), union, [T1|List]}; +lift_unions(T1, {type, _Aa, union, List}) -> + {type, ?anno(T1), union, [T1|List]}; lift_unions(T1, T2) -> - {type, ?line(T1), union, [T1, T2]}. + {type, ?anno(T1), union, [T1, T2]}. -skip_paren({paren_type,_L,[Type]}) -> - skip_paren(Type); -skip_paren(Type) -> - Type. - -build_gen_type({atom, La, tuple}) -> - {type, La, tuple, any}; -build_gen_type({atom, La, map}) -> - {type, La, map, any}; -build_gen_type({atom, La, Name}) -> - {type, La, Name, []}. +build_gen_type({atom, Aa, tuple}) -> + {type, Aa, tuple, any}; +build_gen_type({atom, Aa, map}) -> + {type, Aa, map, any}; +build_gen_type({atom, Aa, Name}) -> + Tag = type_tag(Name, 0), + {Tag, Aa, Name, []}. build_bin_type([{var, _, '_'}|Left], Int) -> build_bin_type(Left, Int); build_bin_type([], Int) -> - skip_paren(Int); -build_bin_type([{var, La, _}|_], _) -> - ret_err(La, "Bad binary type"). + Int; +build_bin_type([{var, Aa, _}|_], _) -> + ret_err(Aa, "Bad binary type"). + +build_type({atom, A, Name}, Types) -> + Tag = type_tag(Name, length(Types)), + {Tag, A, Name, Types}. + +type_tag(TypeName, NumberOfTypeVariables) -> + case erl_internal:is_type(TypeName, NumberOfTypeVariables) of + true -> type; + false -> user_type + end. + +abstract2(Term, Anno) -> + Line = erl_anno:line(Anno), + abstract(Term, Line). %% build_attribute(AttrName, AttrValue) -> -%% {attribute,Line,module,Module} -%% {attribute,Line,export,Exports} -%% {attribute,Line,import,Imports} -%% {attribute,Line,record,{Name,Inits}} -%% {attribute,Line,file,{Name,Line}} -%% {attribute,Line,Name,Val} - -build_attribute({atom,La,module}, Val) -> +%% {attribute,Anno,module,Module} +%% {attribute,Anno,export,Exports} +%% {attribute,Anno,import,Imports} +%% {attribute,Anno,record,{Name,Inits}} +%% {attribute,Anno,file,{Name,Line}} +%% {attribute,Anno,Name,Val} + +build_attribute({atom,Aa,module}, Val) -> case Val of - [{atom,_Lm,Module}] -> - {attribute,La,module,Module}; - [{atom,_Lm,Module},ExpList] -> - {attribute,La,module,{Module,var_list(ExpList)}}; + [{atom,_Am,Module}] -> + {attribute,Aa,module,Module}; + [{atom,_Am,Module},ExpList] -> + {attribute,Aa,module,{Module,var_list(ExpList)}}; _Other -> - error_bad_decl(La, module) + error_bad_decl(Aa, module) end; -build_attribute({atom,La,export}, Val) -> +build_attribute({atom,Aa,export}, Val) -> case Val of [ExpList] -> - {attribute,La,export,farity_list(ExpList)}; - _Other -> error_bad_decl(La, export) + {attribute,Aa,export,farity_list(ExpList)}; + _Other -> error_bad_decl(Aa, export) end; -build_attribute({atom,La,import}, Val) -> +build_attribute({atom,Aa,import}, Val) -> case Val of - [{atom,_Lm,Mod},ImpList] -> - {attribute,La,import,{Mod,farity_list(ImpList)}}; - _Other -> error_bad_decl(La, import) + [{atom,_Am,Mod},ImpList] -> + {attribute,Aa,import,{Mod,farity_list(ImpList)}}; + _Other -> error_bad_decl(Aa, import) end; -build_attribute({atom,La,record}, Val) -> +build_attribute({atom,Aa,record}, Val) -> case Val of - [{atom,_Ln,Record},RecTuple] -> - {attribute,La,record,{Record,record_tuple(RecTuple)}}; - _Other -> error_bad_decl(La, record) + [{atom,_An,Record},RecTuple] -> + {attribute,Aa,record,{Record,record_tuple(RecTuple)}}; + _Other -> error_bad_decl(Aa, record) end; -build_attribute({atom,La,file}, Val) -> +build_attribute({atom,Aa,file}, Val) -> case Val of - [{string,_Ln,Name},{integer,_Ll,Line}] -> - {attribute,La,file,{Name,Line}}; - _Other -> error_bad_decl(La, file) + [{string,_An,Name},{integer,_Al,Line}] -> + {attribute,Aa,file,{Name,Line}}; + _Other -> error_bad_decl(Aa, file) end; -build_attribute({atom,La,Attr}, Val) -> +build_attribute({atom,Aa,Attr}, Val) -> case Val of [Expr0] -> Expr = attribute_farity(Expr0), - {attribute,La,Attr,term(Expr)}; - _Other -> ret_err(La, "bad attribute") + {attribute,Aa,Attr,term(Expr)}; + _Other -> ret_err(Aa, "bad attribute") end. -var_list({cons,_Lc,{var,_,V},Tail}) -> +var_list({cons,_Ac,{var,_,V},Tail}) -> [V|var_list(Tail)]; -var_list({nil,_Ln}) -> []; +var_list({nil,_An}) -> []; var_list(Other) -> - ret_err(?line(Other), "bad variable list"). + ret_err(?anno(Other), "bad variable list"). -attribute_farity({cons,L,H,T}) -> - {cons,L,attribute_farity(H),attribute_farity(T)}; -attribute_farity({tuple,L,Args0}) -> +attribute_farity({cons,A,H,T}) -> + {cons,A,attribute_farity(H),attribute_farity(T)}; +attribute_farity({tuple,A,Args0}) -> Args = attribute_farity_list(Args0), - {tuple,L,Args}; -attribute_farity({map,L,Args0}) -> + {tuple,A,Args}; +attribute_farity({map,A,Args0}) -> Args = attribute_farity_map(Args0), - {map,L,Args}; -attribute_farity({op,L,'/',{atom,_,_}=Name,{integer,_,_}=Arity}) -> - {tuple,L,[Name,Arity]}; + {map,A,Args}; +attribute_farity({op,A,'/',{atom,_,_}=Name,{integer,_,_}=Arity}) -> + {tuple,A,[Name,Arity]}; attribute_farity(Other) -> Other. attribute_farity_list(Args) -> @@ -765,111 +1162,77 @@ attribute_farity_list(Args) -> %% It is not meaningful to have farity keys. attribute_farity_map(Args) -> - [{Op,L,K,attribute_farity(V)} || {Op,L,K,V} <- Args]. + [{Op,A,K,attribute_farity(V)} || {Op,A,K,V} <- Args]. --spec error_bad_decl(integer(), attributes()) -> no_return(). +-spec error_bad_decl(erl_anno:anno(), attributes()) -> no_return(). -error_bad_decl(L, S) -> - ret_err(L, io_lib:format("bad ~w declaration", [S])). +error_bad_decl(Anno, S) -> + ret_err(Anno, io_lib:format("bad ~w declaration", [S])). -farity_list({cons,_Lc,{op,_Lo,'/',{atom,_La,A},{integer,_Li,I}},Tail}) -> +farity_list({cons,_Ac,{op,_Ao,'/',{atom,_Aa,A},{integer,_Ai,I}},Tail}) -> [{A,I}|farity_list(Tail)]; -farity_list({nil,_Ln}) -> []; +farity_list({nil,_An}) -> []; farity_list(Other) -> - ret_err(?line(Other), "bad function arity"). + ret_err(?anno(Other), "bad function arity"). -record_tuple({tuple,_Lt,Fields}) -> +record_tuple({tuple,_At,Fields}) -> record_fields(Fields); record_tuple(Other) -> - ret_err(?line(Other), "bad record declaration"). + ret_err(?anno(Other), "bad record declaration"). -record_fields([{atom,La,A}|Fields]) -> - [{record_field,La,{atom,La,A}}|record_fields(Fields)]; -record_fields([{match,_Lm,{atom,La,A},Expr}|Fields]) -> - [{record_field,La,{atom,La,A},Expr}|record_fields(Fields)]; +record_fields([{atom,Aa,A}|Fields]) -> + [{record_field,Aa,{atom,Aa,A}}|record_fields(Fields)]; +record_fields([{match,_Am,{atom,Aa,A},Expr}|Fields]) -> + [{record_field,Aa,{atom,Aa,A},Expr}|record_fields(Fields)]; record_fields([{typed,Expr,TypeInfo}|Fields]) -> [Field] = record_fields([Expr]), - TypeInfo1 = - case Expr of - {match, _, _, _} -> TypeInfo; %% If we have an initializer. - {atom, La, _} -> - case has_undefined(TypeInfo) of - false -> - TypeInfo2 = maybe_add_paren(TypeInfo), - lift_unions(abstract(undefined, La), TypeInfo2); - true -> - TypeInfo - end - end, - [{typed_record_field,Field,TypeInfo1}|record_fields(Fields)]; + [{typed_record_field,Field,TypeInfo}|record_fields(Fields)]; record_fields([Other|_Fields]) -> - ret_err(?line(Other), "bad record field"); + ret_err(?anno(Other), "bad record field"); record_fields([]) -> []. -has_undefined({atom,_,undefined}) -> - true; -has_undefined({ann_type,_,[_,T]}) -> - has_undefined(T); -has_undefined({paren_type,_,[T]}) -> - has_undefined(T); -has_undefined({type,_,union,Ts}) -> - lists:any(fun has_undefined/1, Ts); -has_undefined(_) -> - false. - -maybe_add_paren({ann_type,L,T}) -> - {paren_type,L,[{ann_type,L,T}]}; -maybe_add_paren(T) -> - T. - term(Expr) -> try normalise(Expr) - catch _:_R -> ret_err(?line(Expr), "bad attribute") + catch _:_R -> ret_err(?anno(Expr), "bad attribute") end. -%% build_function([Clause]) -> {function,Line,Name,Arity,[Clause]} +%% build_function([Clause]) -> {function,Anno,Name,Arity,[Clause]} build_function(Cs) -> Name = element(3, hd(Cs)), Arity = length(element(4, hd(Cs))), - {function,?line(hd(Cs)),Name,Arity,check_clauses(Cs, Name, Arity)}. + {function,?anno(hd(Cs)),Name,Arity,check_clauses(Cs, Name, Arity)}. -%% build_rule([Clause]) -> {rule,Line,Name,Arity,[Clause]'} +%% build_fun(Anno, [Clause]) -> {'fun',Anno,{clauses,[Clause]}}. -build_rule(Cs) -> - Name = element(3, hd(Cs)), - Arity = length(element(4, hd(Cs))), - {rule,?line(hd(Cs)),Name,Arity,check_clauses(Cs, Name, Arity)}. - -%% build_fun(Line, [Clause]) -> {'fun',Line,{clauses,[Clause]}}. - -build_fun(Line, Cs) -> +build_fun(Anno, Cs) -> Name = element(3, hd(Cs)), Arity = length(element(4, hd(Cs))), CheckedCs = check_clauses(Cs, Name, Arity), case Name of 'fun' -> - {'fun',Line,{clauses,CheckedCs}}; + {'fun',Anno,{clauses,CheckedCs}}; Name -> - {named_fun,Line,Name,CheckedCs} + {named_fun,Anno,Name,CheckedCs} end. check_clauses(Cs, Name, Arity) -> [case C of - {clause,L,N,As,G,B} when N =:= Name, length(As) =:= Arity -> - {clause,L,As,G,B}; - {clause,L,_N,_As,_G,_B} -> - ret_err(L, "head mismatch") + {clause,A,N,As,G,B} when N =:= Name, length(As) =:= Arity -> + {clause,A,As,G,B}; + {clause,A,_N,_As,_G,_B} -> + ret_err(A, "head mismatch") end || C <- Cs]. -build_try(L,Es,Scs,{Ccs,As}) -> - {'try',L,Es,Scs,Ccs,As}. +build_try(A,Es,Scs,{Ccs,As}) -> + {'try',A,Es,Scs,Ccs,As}. -spec ret_err(_, _) -> no_return(). -ret_err(L, S) -> - {location,Location} = get_attribute(L, location), - return_error(Location, S). +ret_err(Anno, S) -> + return_error(location(Anno), S). +location(Anno) -> + erl_anno:location(Anno). %% Convert between the abstract form of a term and a term. @@ -917,7 +1280,8 @@ normalise_list([]) -> Data :: term(), AbsTerm :: abstract_expr(). abstract(T) -> - abstract(T, 0, enc_func(epp:default_encoding())). + Anno = erl_anno:new(0), + abstract(T, Anno, enc_func(epp:default_encoding())). -type encoding_func() :: fun((non_neg_integer()) -> boolean()). @@ -927,16 +1291,18 @@ abstract(T) -> Options :: Line | [Option], Option :: {line, Line} | {encoding, Encoding}, Encoding :: 'latin1' | 'unicode' | 'utf8' | 'none' | encoding_func(), - Line :: erl_scan:line(), + Line :: erl_anno:line(), AbsTerm :: abstract_expr(). abstract(T, Line) when is_integer(Line) -> - abstract(T, Line, enc_func(epp:default_encoding())); + Anno = erl_anno:new(Line), + abstract(T, Anno, enc_func(epp:default_encoding())); abstract(T, Options) when is_list(Options) -> Line = proplists:get_value(line, Options, 0), Encoding = proplists:get_value(encoding, Options,epp:default_encoding()), EncFunc = enc_func(Encoding), - abstract(T, Line, EncFunc). + Anno = erl_anno:new(Line), + abstract(T, Anno, EncFunc). -define(UNICODE(C), (C < 16#D800 orelse @@ -950,53 +1316,53 @@ enc_func(none) -> none; enc_func(Fun) when is_function(Fun, 1) -> Fun; enc_func(Term) -> erlang:error({badarg, Term}). -abstract(T, L, _E) when is_integer(T) -> {integer,L,T}; -abstract(T, L, _E) when is_float(T) -> {float,L,T}; -abstract(T, L, _E) when is_atom(T) -> {atom,L,T}; -abstract([], L, _E) -> {nil,L}; -abstract(B, L, _E) when is_bitstring(B) -> - {bin, L, [abstract_byte(Byte, L) || Byte <- bitstring_to_list(B)]}; -abstract([H|T], L, none=E) -> - {cons,L,abstract(H, L, E),abstract(T, L, E)}; -abstract(List, L, E) when is_list(List) -> - abstract_list(List, [], L, E); -abstract(Tuple, L, E) when is_tuple(Tuple) -> - {tuple,L,abstract_tuple_list(tuple_to_list(Tuple), L, E)}; -abstract(Map, L, E) when is_map(Map) -> - {map,L,abstract_map_fields(maps:to_list(Map),L,E)}. - -abstract_list([H|T], String, L, E) -> +abstract(T, A, _E) when is_integer(T) -> {integer,A,T}; +abstract(T, A, _E) when is_float(T) -> {float,A,T}; +abstract(T, A, _E) when is_atom(T) -> {atom,A,T}; +abstract([], A, _E) -> {nil,A}; +abstract(B, A, _E) when is_bitstring(B) -> + {bin, A, [abstract_byte(Byte, A) || Byte <- bitstring_to_list(B)]}; +abstract([H|T], A, none=E) -> + {cons,A,abstract(H, A, E),abstract(T, A, E)}; +abstract(List, A, E) when is_list(List) -> + abstract_list(List, [], A, E); +abstract(Tuple, A, E) when is_tuple(Tuple) -> + {tuple,A,abstract_tuple_list(tuple_to_list(Tuple), A, E)}; +abstract(Map, A, E) when is_map(Map) -> + {map,A,abstract_map_fields(maps:to_list(Map),A,E)}. + +abstract_list([H|T], String, A, E) -> case is_integer(H) andalso H >= 0 andalso E(H) of true -> - abstract_list(T, [H|String], L, E); + abstract_list(T, [H|String], A, E); false -> - AbstrList = {cons,L,abstract(H, L, E),abstract(T, L, E)}, - not_string(String, AbstrList, L, E) + AbstrList = {cons,A,abstract(H, A, E),abstract(T, A, E)}, + not_string(String, AbstrList, A, E) end; -abstract_list([], String, L, _E) -> - {string, L, lists:reverse(String)}; -abstract_list(T, String, L, E) -> - not_string(String, abstract(T, L, E), L, E). - -not_string([C|T], Result, L, E) -> - not_string(T, {cons, L, {integer, L, C}, Result}, L, E); -not_string([], Result, _L, _E) -> +abstract_list([], String, A, _E) -> + {string, A, lists:reverse(String)}; +abstract_list(T, String, A, E) -> + not_string(String, abstract(T, A, E), A, E). + +not_string([C|T], Result, A, E) -> + not_string(T, {cons, A, {integer, A, C}, Result}, A, E); +not_string([], Result, _A, _E) -> Result. -abstract_tuple_list([H|T], L, E) -> - [abstract(H, L, E)|abstract_tuple_list(T, L, E)]; -abstract_tuple_list([], _L, _E) -> +abstract_tuple_list([H|T], A, E) -> + [abstract(H, A, E)|abstract_tuple_list(T, A, E)]; +abstract_tuple_list([], _A, _E) -> []. -abstract_map_fields(Fs,L,E) -> - [{map_field_assoc,L,abstract(K,L,E),abstract(V,L,E)}||{K,V}<-Fs]. +abstract_map_fields(Fs,A,E) -> + [{map_field_assoc,A,abstract(K,A,E),abstract(V,A,E)}||{K,V}<-Fs]. -abstract_byte(Byte, L) when is_integer(Byte) -> - {bin_element, L, {integer, L, Byte}, default, default}; -abstract_byte(Bits, L) -> +abstract_byte(Byte, A) when is_integer(Byte) -> + {bin_element, A, {integer, A, Byte}, default, default}; +abstract_byte(Bits, A) -> Sz = bit_size(Bits), <<Val:Sz>> = Bits, - {bin_element, L, {integer, L, Val}, {integer, L, Sz}, default}. + {bin_element, A, {integer, A, Val}, {integer, A, Sz}, default}. %% Generate a list of tokens representing the abstract term. @@ -1010,32 +1376,32 @@ tokens(Abs) -> AbsTerm :: abstract_expr(), MoreTokens :: [token()], Tokens :: [token()]. -tokens({char,L,C}, More) -> [{char,L,C}|More]; -tokens({integer,L,N}, More) -> [{integer,L,N}|More]; -tokens({float,L,F}, More) -> [{float,L,F}|More]; -tokens({atom,L,A}, More) -> [{atom,L,A}|More]; -tokens({var,L,V}, More) -> [{var,L,V}|More]; -tokens({string,L,S}, More) -> [{string,L,S}|More]; -tokens({nil,L}, More) -> [{'[',L},{']',L}|More]; -tokens({cons,L,Head,Tail}, More) -> - [{'[',L}|tokens(Head, tokens_tail(Tail, More))]; -tokens({tuple,L,[]}, More) -> - [{'{',L},{'}',L}|More]; -tokens({tuple,L,[E|Es]}, More) -> - [{'{',L}|tokens(E, tokens_tuple(Es, ?line(E), More))]. - -tokens_tail({cons,L,Head,Tail}, More) -> - [{',',L}|tokens(Head, tokens_tail(Tail, More))]; -tokens_tail({nil,L}, More) -> - [{']',L}|More]; +tokens({char,A,C}, More) -> [{char,A,C}|More]; +tokens({integer,A,N}, More) -> [{integer,A,N}|More]; +tokens({float,A,F}, More) -> [{float,A,F}|More]; +tokens({atom,Aa,A}, More) -> [{atom,Aa,A}|More]; +tokens({var,A,V}, More) -> [{var,A,V}|More]; +tokens({string,A,S}, More) -> [{string,A,S}|More]; +tokens({nil,A}, More) -> [{'[',A},{']',A}|More]; +tokens({cons,A,Head,Tail}, More) -> + [{'[',A}|tokens(Head, tokens_tail(Tail, More))]; +tokens({tuple,A,[]}, More) -> + [{'{',A},{'}',A}|More]; +tokens({tuple,A,[E|Es]}, More) -> + [{'{',A}|tokens(E, tokens_tuple(Es, ?anno(E), More))]. + +tokens_tail({cons,A,Head,Tail}, More) -> + [{',',A}|tokens(Head, tokens_tail(Tail, More))]; +tokens_tail({nil,A}, More) -> + [{']',A}|More]; tokens_tail(Other, More) -> - L = ?line(Other), - [{'|',L}|tokens(Other, [{']',L}|More])]. + A = ?anno(Other), + [{'|',A}|tokens(Other, [{']',A}|More])]. -tokens_tuple([E|Es], Line, More) -> - [{',',Line}|tokens(E, tokens_tuple(Es, ?line(E), More))]; -tokens_tuple([], Line, More) -> - [{'}',Line}|More]. +tokens_tuple([E|Es], Anno, More) -> + [{',',Anno}|tokens(E, tokens_tuple(Es, ?anno(E), More))]; +tokens_tuple([], Anno, More) -> + [{'}',Anno}|More]. %% Give the relative precedences of operators. @@ -1090,23 +1456,194 @@ func_prec() -> {800,700}. max_prec() -> 900. -%%% [Experimental]. The parser just copies the attributes of the -%%% scanner tokens to the abstract format. This design decision has -%%% been hidden to some extent: use set_line() and get_attribute() to -%%% access the second element of (almost all) of the abstract format -%%% tuples. A typical use is to negate line numbers to prevent the -%%% compiler from emitting warnings and errors. The second element can -%%% (of course) be set to any value, but then these functions no -%%% longer apply. To get all present attributes as a property list -%%% get_attributes() should be used. - -set_line(L, F) -> - erl_scan:set_attribute(line, L, F). - -get_attribute(L, Name) -> - erl_scan:attributes_info(L, Name). - -get_attributes(L) -> - erl_scan:attributes_info(L). +-type prec() :: non_neg_integer(). + +-type type_inop() :: '::' | '|' | '..' | '+' | '-' | 'bor' | 'bxor' + | 'bsl' | 'bsr' | '*' | '/' | 'div' | 'rem' | 'band'. + +-type type_preop() :: '+' | '-' | 'bnot' | '#'. + +-spec type_inop_prec(type_inop()) -> {prec(), prec(), prec()}. + +type_inop_prec('=') -> {150,100,100}; +type_inop_prec('::') -> {160,150,150}; +type_inop_prec('|') -> {180,170,170}; +type_inop_prec('..') -> {300,200,300}; +type_inop_prec('+') -> {400,400,500}; +type_inop_prec('-') -> {400,400,500}; +type_inop_prec('bor') -> {400,400,500}; +type_inop_prec('bxor') -> {400,400,500}; +type_inop_prec('bsl') -> {400,400,500}; +type_inop_prec('bsr') -> {400,400,500}; +type_inop_prec('*') -> {500,500,600}; +type_inop_prec('/') -> {500,500,600}; +type_inop_prec('div') -> {500,500,600}; +type_inop_prec('rem') -> {500,500,600}; +type_inop_prec('band') -> {500,500,600}; +type_inop_prec('#') -> {800,700,800}. + +-spec type_preop_prec(type_preop()) -> {prec(), prec()}. + +type_preop_prec('+') -> {600,700}; +type_preop_prec('-') -> {600,700}; +type_preop_prec('bnot') -> {600,700}; +type_preop_prec('#') -> {700,800}. + +-type erl_parse_tree() :: abstract_clause() + | abstract_expr() + | abstract_form() + | abstract_type(). + +-spec map_anno(Fun, Abstr) -> NewAbstr when + Fun :: fun((Anno) -> Anno), + Anno :: erl_anno:anno(), + Abstr :: erl_parse_tree(), + NewAbstr :: erl_parse_tree(). + +map_anno(F0, Abstr) -> + F = fun(A, Acc) -> {F0(A), Acc} end, + {NewAbstr, []} = modify_anno1(Abstr, [], F), + NewAbstr. + +-spec fold_anno(Fun, Acc0, Abstr) -> NewAbstr when + Fun :: fun((Anno, AccIn) -> AccOut), + Anno :: erl_anno:anno(), + Acc0 :: term(), + AccIn :: term(), + AccOut :: term(), + Abstr :: erl_parse_tree(), + NewAbstr :: erl_parse_tree(). + +fold_anno(F0, Acc0, Abstr) -> + F = fun(A, Acc) -> {A, F0(A, Acc)} end, + {_, NewAcc} = modify_anno1(Abstr, Acc0, F), + NewAcc. + +-spec mapfold_anno(Fun, Acc0, Abstr) -> {NewAbstr, Acc1} when + Fun :: fun((Anno, AccIn) -> {Anno, AccOut}), + Anno :: erl_anno:anno(), + Acc0 :: term(), + Acc1 :: term(), + AccIn :: term(), + AccOut :: term(), + Abstr :: erl_parse_tree(), + NewAbstr :: erl_parse_tree(). + +mapfold_anno(F, Acc0, Abstr) -> + modify_anno1(Abstr, Acc0, F). + +-spec new_anno(Term) -> Abstr when + Term :: term(), + Abstr :: erl_parse_tree(). + +new_anno(Term) -> + map_anno(fun erl_anno:new/1, Term). + +-spec anno_to_term(Abstr) -> term() when + Abstr :: erl_parse_tree(). + +anno_to_term(Abstract) -> + map_anno(fun erl_anno:to_term/1, Abstract). + +-spec anno_from_term(Term) -> erl_parse_tree() when + Term :: term(). + +anno_from_term(Term) -> + map_anno(fun erl_anno:from_term/1, Term). + +%% Forms. +%% Recognize what sys_pre_expand does: +modify_anno1({'fun',A,F,{_,_,_}=Id}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {F1,Ac2} = modify_anno1(F, Ac1, Mf), + {{'fun',A1,F1,Id},Ac2}; +modify_anno1({named_fun,A,N,F,{_,_,_}=Id}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {F1,Ac2} = modify_anno1(F, Ac1, Mf), + {{named_fun,A1,N,F1,Id},Ac2}; +modify_anno1({attribute,A,N,[V]}, Ac, Mf) -> + {{attribute,A1,N1,V1},Ac1} = modify_anno1({attribute,A,N,V}, Ac, Mf), + {{attribute,A1,N1,[V1]},Ac1}; +%% End of sys_pre_expand special forms. +modify_anno1({function,F,A}, Ac, _Mf) -> + {{function,F,A},Ac}; +modify_anno1({function,M,F,A}, Ac, Mf) -> + {M1,Ac1} = modify_anno1(M, Ac, Mf), + {F1,Ac2} = modify_anno1(F, Ac1, Mf), + {A1,Ac3} = modify_anno1(A, Ac2, Mf), + {{function,M1,F1,A1},Ac3}; +modify_anno1({attribute,A,record,{Name,Fields}}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {Fields1,Ac2} = modify_anno1(Fields, Ac1, Mf), + {{attribute,A1,record,{Name,Fields1}},Ac2}; +modify_anno1({attribute,A,spec,{Fun,Types}}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {Types1,Ac2} = modify_anno1(Types, Ac1, Mf), + {{attribute,A1,spec,{Fun,Types1}},Ac2}; +modify_anno1({attribute,A,callback,{Fun,Types}}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {Types1,Ac2} = modify_anno1(Types, Ac1, Mf), + {{attribute,A1,callback,{Fun,Types1}},Ac2}; +modify_anno1({attribute,A,type,{TypeName,TypeDef,Args}}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {TypeDef1,Ac2} = modify_anno1(TypeDef, Ac1, Mf), + {Args1,Ac3} = modify_anno1(Args, Ac2, Mf), + {{attribute,A1,type,{TypeName,TypeDef1,Args1}},Ac3}; +modify_anno1({attribute,A,opaque,{TypeName,TypeDef,Args}}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {TypeDef1,Ac2} = modify_anno1(TypeDef, Ac1, Mf), + {Args1,Ac3} = modify_anno1(Args, Ac2, Mf), + {{attribute,A1,opaque,{TypeName,TypeDef1,Args1}},Ac3}; +modify_anno1({attribute,A,Attr,Val}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {{attribute,A1,Attr,Val},Ac1}; +modify_anno1({warning,W}, Ac, _Mf) -> + {{warning,W},Ac}; +modify_anno1({error,W}, Ac, _Mf) -> + {{error,W},Ac}; +%% Expressions. +modify_anno1({clauses,Cs}, Ac, Mf) -> + {Cs1,Ac1} = modify_anno1(Cs, Ac, Mf), + {{clauses,Cs1},Ac1}; +modify_anno1({typed_record_field,Field,Type}, Ac, Mf) -> + {Field1,Ac1} = modify_anno1(Field, Ac, Mf), + {Type1,Ac2} = modify_anno1(Type, Ac1, Mf), + {{typed_record_field,Field1,Type1},Ac2}; +modify_anno1({Tag,A}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {{Tag,A1},Ac1}; +modify_anno1({Tag,A,E1}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {E11,Ac2} = modify_anno1(E1, Ac1, Mf), + {{Tag,A1,E11},Ac2}; +modify_anno1({Tag,A,E1,E2}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {E11,Ac2} = modify_anno1(E1, Ac1, Mf), + {E21,Ac3} = modify_anno1(E2, Ac2, Mf), + {{Tag,A1,E11,E21},Ac3}; +modify_anno1({bin_element,A,E1,E2,TSL}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {E11,Ac2} = modify_anno1(E1, Ac1, Mf), + {E21,Ac3} = modify_anno1(E2, Ac2, Mf), + {{bin_element,A1,E11,E21, TSL},Ac3}; +modify_anno1({Tag,A,E1,E2,E3}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {E11,Ac2} = modify_anno1(E1, Ac1, Mf), + {E21,Ac3} = modify_anno1(E2, Ac2, Mf), + {E31,Ac4} = modify_anno1(E3, Ac3, Mf), + {{Tag,A1,E11,E21,E31},Ac4}; +modify_anno1({Tag,A,E1,E2,E3,E4}, Ac, Mf) -> + {A1,Ac1} = Mf(A, Ac), + {E11,Ac2} = modify_anno1(E1, Ac1, Mf), + {E21,Ac3} = modify_anno1(E2, Ac2, Mf), + {E31,Ac4} = modify_anno1(E3, Ac3, Mf), + {E41,Ac5} = modify_anno1(E4, Ac4, Mf), + {{Tag,A1,E11,E21,E31,E41},Ac5}; +modify_anno1([H|T], Ac, Mf) -> + {H1,Ac1} = modify_anno1(H, Ac, Mf), + {T1,Ac2} = modify_anno1(T, Ac1, Mf), + {[H1|T1],Ac2}; +modify_anno1([], Ac, _Mf) -> {[],Ac}; +modify_anno1(E, Ac, _Mf) when not is_tuple(E), not is_list(E) -> {E,Ac}. %% vim: ft=erlang |