source: src/Parser/cfa.y@ 0c7a885

//
// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
//
// The contents of this file are covered under the licence agreement in the
// file "LICENCE" distributed with Cforall.
//
// cfa.y -- 
// 
// Author           : Peter A. Buhr
// Created On       : Sat Sep  1 20:22:55 2001
// Last Modified By : Peter A. Buhr
// Last Modified On : Sat May 16 11:55:39 2015
// Update Count     : 975
// 

// This grammar is based on the ANSI99/11 C grammar, specifically parts of EXPRESSION and STATEMENTS, and on
// the C grammar by James A. Roskind, specifically parts of DECLARATIONS and EXTERNAL DEFINITIONS.  While
// parts have been copied, important changes have been made in all sections; these changes are sufficient to
// constitute a new grammar.  In particular, this grammar attempts to be more syntactically precise, i.e., it
// parses less incorrect language syntax that must be subsequently rejected by semantic checks.  Nevertheless,
// there are still several semantic checks required and many are noted in the grammar. Finally, the grammar is
// extended with GCC and CFA language extensions.

// Acknowledgments to Richard Bilson, Glen Ditchfield, and Rodolfo Gabriel Esteves who all helped when I got
// stuck with the grammar.

// The root language for this grammar is ANSI99/11 C. All of ANSI99/11 is parsed, except for:
//
// 1. designation with '=' (use ':' instead)
//
// Most of the syntactic extensions from ANSI90 to ANSI11 C are marked with the comment "C99/C11". This
// grammar also has two levels of extensions. The first extensions cover most of the GCC C extensions, except for:
//
// 1. nested functions
// 2. generalized lvalues
// 3. designation with and without '=' (use ':' instead)
// 4. attributes not allowed in parenthesis of declarator
//
// All of the syntactic extensions for GCC C are marked with the comment "GCC". The second extensions are for
// Cforall (CFA), which fixes several of C's outstanding problems and extends C with many modern language
// concepts. All of the syntactic extensions for CFA C are marked with the comment "CFA". As noted above,
// there is one unreconcileable parsing problem between C99 and CFA with respect to designators; this is
// discussed in detail before the "designation" grammar rule.

%{
#define YYDEBUG_LEXER_TEXT (yylval)                                             // lexer loads this up each time
#define YYDEBUG 1                                                                               // get the pretty debugging code to compile

#undef __GNUC_MINOR__

#include <cstdio>
#include <stack>
#include "TypedefTable.h"
#include "lex.h"
#include "ParseNode.h"
#include "LinkageSpec.h"

DeclarationNode *theTree = 0;                                                   // the resulting parse tree
LinkageSpec::Type linkage = LinkageSpec::Cforall;
std::stack< LinkageSpec::Type > linkageStack;
TypedefTable typedefTable;
%}

//************************* TERMINAL TOKENS ********************************

// keywords
%token TYPEDEF
%token AUTO EXTERN REGISTER STATIC
%token INLINE                                                                                   // C99
%token FORTRAN                                                                                  // C99, extension ISO/IEC 9899:1999 Section J.5.9(1)
%token CONST VOLATILE
%token RESTRICT                                                                                 // C99
%token FORALL LVALUE                                                                    // CFA
%token VOID CHAR SHORT INT LONG FLOAT DOUBLE SIGNED UNSIGNED
%token BOOL COMPLEX IMAGINARY                                                   // C99
%token TYPEOF LABEL                                                                             // GCC
%token ENUM STRUCT UNION
%token TYPE FTYPE DTYPE CONTEXT                                                 // CFA
%token SIZEOF
%token ATTRIBUTE EXTENSION                                                              // GCC
%token IF ELSE SWITCH CASE DEFAULT DO WHILE FOR BREAK CONTINUE GOTO RETURN
%token CHOOSE FALLTHRU TRY CATCH FINALLY THROW                  // CFA
%token ASM                                                                                              // C99, extension ISO/IEC 9899:1999 Section J.5.10(1)
%token ALIGNAS ALIGNOF ATOMIC GENERIC NORETURN STATICASSERT THREADLOCAL // C11

// names and constants: lexer differentiates between identifier and typedef names
%token<tok> IDENTIFIER                  QUOTED_IDENTIFIER               TYPEDEFname                             TYPEGENname
%token<tok> ATTR_IDENTIFIER             ATTR_TYPEDEFname                ATTR_TYPEGENname
%token<tok> INTEGERconstant             FLOATINGconstant                CHARACTERconstant               STRINGliteral
%token<tok> ZERO                                ONE                                             // CFA

// multi-character operators
%token ARROW                                                                                    // ->
%token ICR DECR                                                                                 // ++   --
%token LS RS                                                                                    // <<   >>
%token LE GE EQ NE                                                                              // <=   >=      ==      !=
%token ANDAND OROR                                                                              // &&   ||
%token ELLIPSIS                                                                                 // ...

%token MULTassign       DIVassign       MODassign                               // *=   /=      %=/
%token PLUSassign       MINUSassign                                                     // +=   -=
%token LSassign         RSassign                                                        // <<=  >>=
%token ANDassign        ERassign        ORassign                                // &=   ^=      |=

// Types declaration
%union
{
        Token tok;
        ParseNode *pn;
        ExpressionNode *en;
        DeclarationNode *decl;
        DeclarationNode::TyCon aggKey;
        DeclarationNode::TypeClass tclass;
        StatementNode *sn;
        ConstantNode *constant;
        InitializerNode *in;
}

%type<tok> zero_one  identifier  no_attr_identifier  no_01_identifier
%type<tok> identifier_or_typedef_name  no_attr_identifier_or_typedef_name  no_01_identifier_or_typedef_name
%type<constant> string_literal_list

// expressions
%type<constant> constant
%type<en> tuple                                                 tuple_expression_list
%type<en> unary_operator                                assignment_operator
%type<en> primary_expression                    postfix_expression                      unary_expression
%type<en> cast_expression                               multiplicative_expression       additive_expression                     shift_expression
%type<en> relational_expression                 equality_expression                     AND_expression                          exclusive_OR_expression
%type<en> inclusive_OR_expression               logical_AND_expression          logical_OR_expression           conditional_expression
%type<en> constant_expression                   assignment_expression           assignment_expression_opt
%type<en> comma_expression                              comma_expression_opt
%type<en> argument_expression_list              argument_expression                     for_control_expression          assignment_opt
%type<en> subrange

// statements
%type<sn> labeled_statement                             compound_statement                      expression_statement            selection_statement
%type<sn> iteration_statement                   jump_statement                          exception_statement                     asm_statement
%type<sn> fall_through_opt                              fall_through
%type<sn> statement                                             statement_list
%type<sn> block_item_list                               block_item
%type<sn> case_clause
%type<en> case_value                                    case_value_list
%type<sn> case_label                                    case_label_list
%type<sn> switch_clause_list_opt                switch_clause_list                      choose_clause_list_opt          choose_clause_list
%type<pn> handler_list                                  handler_clause                          finally_clause

// declarations
%type<decl> abstract_array abstract_declarator abstract_function abstract_parameter_array
%type<decl> abstract_parameter_declaration abstract_parameter_declarator abstract_parameter_function
%type<decl> abstract_parameter_ptr abstract_ptr

%type<aggKey> aggregate_key
%type<decl>  aggregate_name

%type<decl> array_dimension array_parameter_1st_dimension array_parameter_dimension multi_array_dimension

%type<decl> assertion assertion_list_opt

%type<en>   bit_subrange_size_opt bit_subrange_size

%type<decl> basic_declaration_specifier basic_type_name basic_type_specifier direct_type_name indirect_type_name

%type<decl> context_declaration context_declaration_list context_declaring_list context_specifier

%type<decl> declaration declaration_list declaration_list_opt declaration_qualifier_list
%type<decl> declaration_specifier declarator declaring_list

%type<decl> elaborated_type_name

%type<decl> enumerator_list enum_name
%type<en> enumerator_value_opt

%type<decl> exception_declaration external_definition external_definition_list external_definition_list_opt

%type<decl> field_declaration field_declaration_list field_declarator field_declaring_list
%type<en> field field_list

%type<decl> function_array function_declarator function_definition function_no_ptr function_ptr

%type<decl> identifier_parameter_array identifier_parameter_declarator identifier_parameter_function
%type<decl> identifier_parameter_ptr identifier_list

%type<decl> new_abstract_array new_abstract_declarator_no_tuple new_abstract_declarator_tuple
%type<decl> new_abstract_function new_abstract_parameter_declaration new_abstract_parameter_list
%type<decl> new_abstract_ptr new_abstract_tuple

%type<decl> new_array_parameter_1st_dimension

%type<decl> new_context_declaring_list new_declaration new_field_declaring_list
%type<decl> new_function_declaration new_function_return new_function_specifier

%type<decl> new_identifier_parameter_array new_identifier_parameter_declarator_no_tuple
%type<decl> new_identifier_parameter_declarator_tuple new_identifier_parameter_ptr

%type<decl> new_parameter_declaration new_parameter_list new_parameter_type_list new_parameter_type_list_opt

%type<decl> new_typedef_declaration new_variable_declaration new_variable_specifier

%type<decl> old_declaration old_declaration_list old_declaration_list_opt old_function_array
%type<decl> old_function_declarator old_function_no_ptr old_function_ptr

%type<decl> parameter_declaration parameter_list parameter_type_list
%type<decl> parameter_type_list_opt

%type<decl> paren_identifier paren_typedef

%type<decl> storage_class storage_class_name storage_class_list

%type<decl> sue_declaration_specifier sue_type_specifier

%type<tclass> type_class
%type<decl> type_declarator type_declarator_name type_declaring_list

%type<decl> typedef typedef_array typedef_declaration typedef_declaration_specifier typedef_expression
%type<decl> typedef_function typedef_parameter_array typedef_parameter_function typedef_parameter_ptr
%type<decl> typedef_parameter_redeclarator typedef_ptr typedef_redeclarator typedef_type_specifier
%type<decl> typegen_declaration_specifier typegen_type_specifier

%type<decl> type_name type_name_no_function
%type<decl> type_parameter type_parameter_list

%type<en> type_name_list

%type<decl> type_qualifier type_qualifier_name type_qualifier_list type_qualifier_list_opt type_specifier

%type<decl> variable_abstract_array variable_abstract_declarator variable_abstract_function
%type<decl> variable_abstract_ptr variable_array variable_declarator variable_function variable_ptr

// initializers
%type<in>  initializer initializer_list initializer_opt

// designators
%type<en>  designator designator_list designation


// Handle single shift/reduce conflict for dangling else by shifting the ELSE token. For example, this string
// is ambiguous:
// .---------.                          matches IF '(' comma_expression ')' statement
// if ( C ) S1 else S2
// `-----------------'          matches IF '(' comma_expression ')' statement ELSE statement */

%nonassoc THEN  // rule precedence for IF '(' comma_expression ')' statement
%nonassoc ELSE  // token precedence for start of else clause in IF statement

%start translation_unit                                                                 // parse-tree root

%%
//************************* Namespace Management ********************************

// The grammar in the ANSI C standard is not strictly context-free, since it relies upon the distinct terminal
// symbols "identifier" and "TYPEDEFname" that are lexically identical.  While it is possible to write a
// purely context-free grammar, such a grammar would obscure the relationship between syntactic and semantic
// constructs.  Hence, this grammar uses the ANSI style.
//
// Cforall compounds this problem by introducing type names local to the scope of a declaration (for instance,
// those introduced through "forall" qualifiers), and by introducing "type generators" -- parametrized types.
// This latter type name creates a third class of identifiers that must be distinguished by the scanner.
//
// Since the scanner cannot distinguish among the different classes of identifiers without some context
// information, it accesses a data structure (the TypedefTable) to allow classification of an identifier that
// it has just read.  Semantic actions during the parser update this data structure when the class of
// identifiers change.
//
// Because the Cforall language is block-scoped, there is the possibility that an identifier can change its
// class in a local scope; it must revert to its original class at the end of the block.  Since type names can
// be local to a particular declaration, each declaration is itself a scope.  This requires distinguishing
// between type names that are local to the current declaration scope and those that persist past the end of
// the declaration (i.e., names defined in "typedef" or "type" declarations).
//
// The non-terminals "push" and "pop" derive the empty string; their only use is to denote the opening and
// closing of scopes.  Every push must have a matching pop, although it is regrettable the matching pairs do
// not always occur within the same rule.  These non-terminals may appear in more contexts than strictly
// necessary from a semantic point of view.  Unfortunately, these extra rules are necessary to prevent parsing
// conflicts -- the parser may not have enough context and look-ahead information to decide whether a new
// scope is necessary, so the effect of these extra rules is to open a new scope unconditionally.  As the
// grammar evolves, it may be neccesary to add or move around "push" and "pop" nonterminals to resolve
// conflicts of this sort.

push:
                                {
                                        typedefTable.enterScope();
                                }
                ;

pop:
                                {
                                        typedefTable.leaveScope();
                                }
                ;

//************************* CONSTANTS ********************************

constant:
                                // ENUMERATIONconstant is not included here; it is treated as a variable with type
                                // "enumeration constant".
                INTEGERconstant                                                                 { $$ = new ConstantNode(ConstantNode::Integer, $1); }
                | FLOATINGconstant                                                              { $$ = new ConstantNode(ConstantNode::Float, $1); }
                | CHARACTERconstant                                                             { $$ = new ConstantNode(ConstantNode::Character, $1); }
                ;

identifier:
                IDENTIFIER
                | ATTR_IDENTIFIER                                                               // CFA
                | zero_one                                                                              // CFA
                ;

no_01_identifier:
                IDENTIFIER
                | ATTR_IDENTIFIER                                                               // CFA
                ;

no_attr_identifier:
                IDENTIFIER
                ;

zero_one:                                                                                               // CFA
                ZERO
                | ONE
                ;

string_literal_list:                                                                    // juxtaposed strings are concatenated
                STRINGliteral                                                                   { $$ = new ConstantNode(ConstantNode::String, $1); }
                | string_literal_list STRINGliteral                             { $$ = $1->append( $2 ); }
                ;

//************************* EXPRESSIONS ********************************

primary_expression:
                IDENTIFIER                                                                              // typedef name cannot be used as a variable name
                                { $$ = new VarRefNode($1); }
                | zero_one
                                { $$ = new VarRefNode($1); }
                | constant
                                { $$ = $1; }
                | string_literal_list
                                { $$ = $1; }
                | '(' comma_expression ')'
                                { $$ = $2; }
                | '(' compound_statement ')'                                    // GCC, lambda expression
                                { $$ = new ValofExprNode($2); }
                ;

postfix_expression:
                primary_expression
                | postfix_expression '[' push assignment_expression pop ']'
                                // CFA, comma_expression disallowed in the context because it results in a commom user error:
                                // subscripting a matrix with x[i,j] instead of x[i][j]. While this change is not backwards
                                // compatible, there seems to be little advantage to this feature and many disadvantages. It
                                // is possible to write x[(i,j)] in CFA, which is equivalent to the old x[i,j].
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Index), $1, $4); }
                | postfix_expression '(' argument_expression_list ')'
                                { $$ = new CompositeExprNode($1, $3); }
                | postfix_expression '.' no_attr_identifier
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::FieldSel), $1, new VarRefNode($3)); }
                | postfix_expression '.' '[' push field_list pop ']' // CFA, tuple field selector
                | postfix_expression ARROW no_attr_identifier
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::PFieldSel), $1, new VarRefNode($3)); }
                | postfix_expression ARROW '[' push field_list pop ']' // CFA, tuple field selector
                | postfix_expression ICR
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::IncrPost), $1); }
                | postfix_expression DECR
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::DecrPost), $1); }
                                // GCC has priority: cast_expression
                | '(' type_name_no_function ')' '{' initializer_list comma_opt '}' // C99
                                { $$ = 0; }
                ;

argument_expression_list:
                argument_expression
                | argument_expression_list ',' argument_expression
                                { $$ = (ExpressionNode *)($1->set_link($3)); }
                ;

argument_expression:
                // empty
                                { $$ = 0; }                                                             // use default argument
                | assignment_expression
                | no_attr_identifier ':' assignment_expression
                                { $$ = $3->set_asArgName($1); }
                                // Only a list of no_attr_identifier_or_typedef_name is allowed in this context. However,
                                // there is insufficient look ahead to distinguish between this list of parameter names and a
                                // tuple, so the tuple form must be used with an appropriate semantic check.
                | '[' push assignment_expression pop ']' ':' assignment_expression
                                { $$ = $7->set_asArgName($3); }
                | '[' push assignment_expression ',' tuple_expression_list pop ']' ':' assignment_expression
                                { $$ = $9->set_asArgName(new CompositeExprNode( new OperatorNode( OperatorNode::TupleC ), (ExpressionNode *)$3->set_link( flattenCommas( $5 )))); }
                ;

field_list:                                                                                             // CFA, tuple field selector
                field
                | field_list ',' field                                                  { $$ = (ExpressionNode *)$1->set_link( $3 ); }
                ;

field:                                                                                                  // CFA, tuple field selector
                no_attr_identifier
                                { $$ = new VarRefNode( $1 ); }
                | no_attr_identifier '.' field
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::FieldSel), new VarRefNode( $1 ), $3); }
                | no_attr_identifier '.' '[' push field_list pop ']'
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::FieldSel), new VarRefNode( $1 ), $5); }
                | no_attr_identifier ARROW field
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::PFieldSel), new VarRefNode( $1 ), $3); }
                | no_attr_identifier ARROW '[' push field_list pop ']'
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::PFieldSel), new VarRefNode( $1 ), $5); }
                ;

unary_expression:
                postfix_expression
                | ICR unary_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Incr), $2); }
                | DECR unary_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Decr), $2); }
                | EXTENSION cast_expression                                             // GCC
                                { $$ = $2; }
                | unary_operator cast_expression
                                { $$ = new CompositeExprNode($1, $2); }
                | '!' cast_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Neg), $2); }
                | '*' cast_expression                                                   // CFA
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::PointTo), $2); }
                                // '*' is is separated from unary_operator because of shift/reduce conflict in:
                                //              { * X; } // dereference X
                                //              { * int X; } // CFA declaration of pointer to int
                                // '&' must be moved here if C++ reference variables are supported.
                | SIZEOF unary_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::SizeOf), $2); }
                | SIZEOF '(' type_name_no_function ')'
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::SizeOf), new TypeValueNode($3)); }
                | ATTR_IDENTIFIER
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Attr), new VarRefNode($1)); }
                | ATTR_IDENTIFIER '(' type_name ')'
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Attr), new VarRefNode($1), new TypeValueNode($3)); }
                | ATTR_IDENTIFIER '(' argument_expression ')'
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Attr), new VarRefNode($1), $3); }
                | ALIGNOF unary_expression                                              // GCC, variable alignment
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::AlignOf), $2); }
                | ALIGNOF '(' type_name_no_function ')'                 // GCC, type alignment
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::AlignOf), new TypeValueNode($3)); }
                | ANDAND no_attr_identifier                                             // GCC, address of label
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::LabelAddress), new VarRefNode($2, true)); }
                ;

unary_operator:
                '&'                                                                                             { $$ = new OperatorNode(OperatorNode::AddressOf); }
                | '+'                                                                                   { $$ = new OperatorNode(OperatorNode::UnPlus); }
                | '-'                                                                                   { $$ = new OperatorNode(OperatorNode::UnMinus); }
                | '~'                                                                                   { $$ = new OperatorNode(OperatorNode::BitNeg); }
                ;

cast_expression:
                unary_expression
                | '(' type_name_no_function ')' cast_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Cast), new TypeValueNode($2), $4); }
                | '(' type_name_no_function ')' tuple
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Cast), new TypeValueNode($2), $4); }
                ;

multiplicative_expression:
                cast_expression
                | multiplicative_expression '*' cast_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Mul),$1,$3); }
                | multiplicative_expression '/' cast_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Div),$1,$3); }
                | multiplicative_expression '%' cast_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Mod),$1,$3); }
                ;

additive_expression:
                multiplicative_expression
                | additive_expression '+' multiplicative_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Plus),$1,$3); }
                | additive_expression '-' multiplicative_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Minus),$1,$3); }
                ;

shift_expression:
                additive_expression
                | shift_expression LS additive_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::LShift),$1,$3); }
                | shift_expression RS additive_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::RShift),$1,$3); }
                ;

relational_expression:
                shift_expression
                | relational_expression '<' shift_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::LThan),$1,$3); }
                | relational_expression '>' shift_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::GThan),$1,$3); }
                | relational_expression LE shift_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::LEThan),$1,$3); }
                | relational_expression GE shift_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::GEThan),$1,$3); }
                ;

equality_expression:
                relational_expression
                | equality_expression EQ relational_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Eq), $1, $3); }
                | equality_expression NE relational_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Neq), $1, $3); }
                ;

AND_expression:
                equality_expression
                | AND_expression '&' equality_expression
                                { $$ =new CompositeExprNode(new OperatorNode(OperatorNode::BitAnd), $1, $3); }
                ;

exclusive_OR_expression:
                AND_expression
                | exclusive_OR_expression '^' AND_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Xor), $1, $3); }
                ;

inclusive_OR_expression:
                exclusive_OR_expression
                | inclusive_OR_expression '|' exclusive_OR_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::BitOr), $1, $3); }
                ;

logical_AND_expression:
                inclusive_OR_expression
                | logical_AND_expression ANDAND inclusive_OR_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::And), $1, $3); }
                ;

logical_OR_expression:
                logical_AND_expression
                | logical_OR_expression OROR logical_AND_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Or), $1, $3); }
                ;

conditional_expression:
                logical_OR_expression
                | logical_OR_expression '?' comma_expression ':' conditional_expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Cond), (ExpressionNode *)mkList((*$1,*$3,*$5))); }
                | logical_OR_expression '?' /* empty */ ':' conditional_expression // GCC, omitted first operand
                                { $$=new CompositeExprNode(new OperatorNode(OperatorNode::NCond),$1,$4); }
                | logical_OR_expression '?' comma_expression ':' tuple // CFA, tuple expression
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Cond), (ExpressionNode *)mkList(( *$1, *$3, *$5 ))); }
                ;

constant_expression:
                conditional_expression
                ;

assignment_expression:
                                // CFA, assignment is separated from assignment_operator to ensure no assignment operations
                                // for tuples
                conditional_expression
                | unary_expression '=' assignment_expression
                                { $$ =new CompositeExprNode(new OperatorNode(OperatorNode::Assign), $1, $3); }
                | unary_expression assignment_operator assignment_expression
                                { $$ =new CompositeExprNode($2, $1, $3); }
                | tuple assignment_opt                                                  // CFA, tuple expression
                                { $$ = ($2 == 0) ? $1 : new CompositeExprNode( new OperatorNode( OperatorNode::Assign ), $1, $2 ); }
                ;

assignment_expression_opt:
                // empty
                                { $$ = new NullExprNode; }
                | assignment_expression
                ;

tuple:                                                                                                  // CFA, tuple
                                // CFA, one assignment_expression is factored out of comma_expression to eliminate a
                                // shift/reduce conflict with comma_expression in new_identifier_parameter_array and
                                // new_abstract_array
                '[' push pop ']'
                                { $$ = new CompositeExprNode( new OperatorNode( OperatorNode::TupleC ) ); }
                | '[' push assignment_expression pop ']'
                                { $$ = new CompositeExprNode( new OperatorNode( OperatorNode::TupleC ), $3 ); }
                | '[' push ',' tuple_expression_list pop ']'
                                { $$ = new CompositeExprNode( new OperatorNode( OperatorNode::TupleC ), (ExpressionNode *)(new NullExprNode)->set_link( $4 ) ); }
                | '[' push assignment_expression ',' tuple_expression_list pop ']'
                                { $$ = new CompositeExprNode( new OperatorNode( OperatorNode::TupleC ), (ExpressionNode *)$3->set_link( flattenCommas( $5 ) ) ); }
                ;

tuple_expression_list:
                assignment_expression_opt
                | tuple_expression_list ',' assignment_expression_opt
                                { $$ = (ExpressionNode *)$1->set_link( $3 ); }
                ;

assignment_operator:
                MULTassign                                                                              { $$ = new OperatorNode(OperatorNode::MulAssn); }
                | DIVassign                                                                             { $$ = new OperatorNode(OperatorNode::DivAssn); }
                | MODassign                                                                             { $$ = new OperatorNode(OperatorNode::ModAssn); }
                | PLUSassign                                                                    { $$ = new OperatorNode(OperatorNode::PlusAssn); }
                | MINUSassign                                                                   { $$ = new OperatorNode(OperatorNode::MinusAssn); }
                | LSassign                                                                              { $$ = new OperatorNode(OperatorNode::LSAssn); }
                | RSassign                                                                              { $$ = new OperatorNode(OperatorNode::RSAssn); }
                | ANDassign                                                                             { $$ = new OperatorNode(OperatorNode::AndAssn); }
                | ERassign                                                                              { $$ = new OperatorNode(OperatorNode::ERAssn); }
                | ORassign                                                                              { $$ = new OperatorNode(OperatorNode::OrAssn); }
                ;

comma_expression:
                assignment_expression
                | comma_expression ',' assignment_expression    // { $$ = (ExpressionNode *)$1->add_to_list($3); }
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Comma),$1,$3); }
                ;

comma_expression_opt:
                // empty
                                { $$ = 0; }
                | comma_expression
                ;

//*************************** STATEMENTS *******************************

statement:
                labeled_statement
                | compound_statement
                | expression_statement                                                  { $$ = $1; }
                | selection_statement
                | iteration_statement
                | jump_statement
                | exception_statement
                | asm_statement
                ;

labeled_statement:
                no_attr_identifier ':' attribute_list_opt statement
                                { $$ = $4->add_label($1);}
                ;

compound_statement:
                '{' '}'
                                { $$ = new CompoundStmtNode( (StatementNode *)0 ); }
                | '{'
                                // Two scopes are necessary because the block itself has a scope, but every declaration within
                                // the block also requires its own scope
                  push push
                  label_declaration_opt                                                 // GCC, local labels
                  block_item_list pop '}'                                               // C99, intermix declarations and statements
                                { $$ = new CompoundStmtNode( $5 ); }
                ;

block_item_list:                                                                                // C99
                block_item
                | block_item_list push block_item
                                { if ($1 != 0) { $1->set_link($3); $$ = $1; } }
                ;

block_item:
                declaration                                                                             // CFA, new & old style declarations
                                { $$ = new StatementNode( $1 ); }
                | EXTENSION declaration                                                 // GCC
                                { $$ = new StatementNode( $2 ); }
                | statement pop
                ;

statement_list:
                statement
                | statement_list statement
                                { if ($1 != 0) { $1->set_link($2); $$ = $1; } }
                ;

expression_statement:
                comma_expression_opt ';'
                                { $$ = new StatementNode(StatementNode::Exp, $1, 0); }
                ;

selection_statement:
                IF '(' comma_expression ')' statement                           %prec THEN
                                // explicitly deal with the shift/reduce conflict on if/else
                                { $$ = new StatementNode(StatementNode::If, $3, $5); }
                | IF '(' comma_expression ')' statement ELSE statement
                                { $$ = new StatementNode(StatementNode::If, $3, (StatementNode *)mkList((*$5, *$7)) ); }
                | SWITCH '(' comma_expression ')' case_clause   // CFA
                                { $$ = new StatementNode(StatementNode::Switch, $3, $5); }
                | SWITCH '(' comma_expression ')' '{' push declaration_list_opt switch_clause_list_opt '}' // CFA
                                { $$ = new StatementNode(StatementNode::Switch, $3, $8); /* xxx */ }
                                // The semantics of the declaration list is changed to include any associated initialization,
                                // which is performed *before* the transfer to the appropriate case clause.  Statements after
                                // the initial declaration list can never be executed, and therefore, are removed from the
                                // grammar even though C allows it.
                | CHOOSE '(' comma_expression ')' case_clause   // CFA
                                { $$ = new StatementNode(StatementNode::Choose, $3, $5); }
                | CHOOSE '(' comma_expression ')' '{' push declaration_list_opt choose_clause_list_opt '}' // CFA
                                { $$ = new StatementNode(StatementNode::Choose, $3, $8); }
                ;

// CASE and DEFAULT clauses are only allowed in the SWITCH statement, precluding Duff's device. In addition, a
// case clause allows a list of values and subranges.

case_value:                                                                                             // CFA
                constant_expression                                                             { $$ = $1; }
                | constant_expression ELLIPSIS constant_expression // GCC, subrange
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Range),$1,$3); }
                | subrange                                                                              // CFA, subrange
                ;

case_value_list:                                                                                // CFA
                case_value
                | case_value_list ',' case_value
                                { $$ = new CompositeExprNode(new OperatorNode( OperatorNode::TupleC ), (ExpressionNode *)(tupleContents($1))->set_link($3) ); }
                ;

case_label:                                                                                             // CFA
                CASE case_value_list ':'                                                { $$ = new StatementNode(StatementNode::Case, $2, 0); }
                | DEFAULT ':'                                                               { $$ = new StatementNode(StatementNode::Default); }
                                // A semantic check is required to ensure only one default clause per switch/choose statement.
                ;

case_label_list:                                                                                // CFA
                case_label
                | case_label_list case_label                                    { $$ = (StatementNode *)($1->set_link($2)); }
                ;

case_clause:                                                                                    // CFA
                case_label_list statement                                               { $$ = $1->append_last_case($2); }
                ;

switch_clause_list_opt:                                                                 // CFA
                // empty
                                { $$ = 0; }
                | switch_clause_list
                ;

switch_clause_list:                                                                             // CFA
                case_label_list statement_list
                                { $$ = $1->append_last_case($2); }
                | switch_clause_list case_label_list statement_list
                                { $$ = (StatementNode *)($1->set_link($2->append_last_case($3))); }
                ;

choose_clause_list_opt:                                                                 // CFA
                // empty
                                { $$ = 0; }
                | choose_clause_list
                ;

choose_clause_list:                                                                             // CFA
                case_label_list fall_through
                                { $$ = $1->append_last_case($2); }
                | case_label_list statement_list fall_through_opt
                                { $$ = $1->append_last_case((StatementNode *)mkList((*$2,*$3))); }
                | choose_clause_list case_label_list fall_through
                                { $$ = (StatementNode *)($1->set_link($2->append_last_case($3))); }
                | choose_clause_list case_label_list statement_list fall_through_opt
                                { $$ = (StatementNode *)($1->set_link($2->append_last_case((StatementNode *)mkList((*$3,*$4))))); }
                ;

fall_through_opt:                                                                               // CFA
                // empty
                                { $$ = 0; }
                | fall_through
                ;

fall_through:                                                                                   // CFA
                FALLTHRU                                                                                { $$ = new StatementNode(StatementNode::Fallthru, 0, 0); }
                | FALLTHRU ';'                                                                  { $$ = new StatementNode(StatementNode::Fallthru, 0, 0); }
                ;

iteration_statement:
                WHILE '(' comma_expression ')' statement
                                { $$ = new StatementNode(StatementNode::While, $3, $5); }
                | DO statement WHILE '(' comma_expression ')' ';'
                                { $$ = new StatementNode(StatementNode::Do, $5, $2); }
                | FOR '(' push for_control_expression ')' statement
                                { $$ = new StatementNode(StatementNode::For, $4, $6); }
                ;

for_control_expression:
                comma_expression_opt pop ';' comma_expression_opt ';' comma_expression_opt
                                { $$ = new ForCtlExprNode($1, $4, $6); }
                | declaration comma_expression_opt ';' comma_expression_opt // C99
                                // Like C++, the loop index can be declared local to the loop.
                                { $$ = new ForCtlExprNode($1, $2, $4); }
                ;

jump_statement:
                GOTO no_attr_identifier ';'
                                { $$ = new StatementNode(StatementNode::Goto, $2); }
                | GOTO '*' comma_expression ';'                         // GCC, computed goto
                                // The syntax for the GCC computed goto violates normal expression precedence, e.g., goto
                                // *i+3; => goto *(i+3); whereas normal operator precedence yields goto (*i)+3;
                                { $$ = new StatementNode(StatementNode::Goto, $3); }
                | CONTINUE ';'
                                // A semantic check is required to ensure this statement appears only in the body of an
                                // iteration statement.
                                { $$ = new StatementNode(StatementNode::Continue, 0, 0); }
                | CONTINUE no_attr_identifier ';'               // CFA, multi-level continue
                                // A semantic check is required to ensure this statement appears only in the body of an
                                // iteration statement, and the target of the transfer appears only at the start of an
                                // iteration statement.
                                { $$ = new StatementNode(StatementNode::Continue, $2); }
                | BREAK ';'
                                // A semantic check is required to ensure this statement appears only in the body of an
                                // iteration statement.
                                { $$ = new StatementNode(StatementNode::Break, 0, 0); }
                | BREAK no_attr_identifier ';'                          // CFA, multi-level exit
                                // A semantic check is required to ensure this statement appears only in the body of an
                                // iteration statement, and the target of the transfer appears only at the start of an
                                // iteration statement.
                                { $$ = new StatementNode(StatementNode::Break, $2 ); }
                | RETURN comma_expression_opt ';'
                                { $$ = new StatementNode(StatementNode::Return, $2, 0); }
                | THROW assignment_expression ';'
                                { $$ = new StatementNode(StatementNode::Throw, $2, 0); }
                | THROW ';'
                                { $$ = new StatementNode(StatementNode::Throw, 0, 0); }
                ;

exception_statement:
                TRY compound_statement handler_list
                                { $$ = new StatementNode(StatementNode::Try, 0,(StatementNode *)(mkList((*$2,*$3)))); }
                | TRY compound_statement finally_clause
                                { $$ = new StatementNode(StatementNode::Try, 0,(StatementNode *)(mkList((*$2,*$3)))); }
                | TRY compound_statement handler_list finally_clause
                                { 
                                        $3->set_link($4);
                                        $$ = new StatementNode(StatementNode::Try, 0,(StatementNode *)(mkList((*$2,*$3))));
                                }
                ;

handler_list:
                                // There must be at least one catch clause
                handler_clause
                                // ISO/IEC 9899:1999 Section 15.3(6) If present, a "..." handler shall be the last handler for
                                // its try block.
                | CATCH '(' ELLIPSIS ')' compound_statement
                                { $$ = StatementNode::newCatchStmt( 0, $5, true ); }
                | handler_clause CATCH '(' ELLIPSIS ')' compound_statement
                                { $$ = $1->set_link( StatementNode::newCatchStmt( 0, $6, true ) ); }
                ;

handler_clause:
                CATCH '(' push push exception_declaration pop ')' compound_statement pop
                                { $$ = StatementNode::newCatchStmt($5, $8); }
                | handler_clause CATCH '(' push push exception_declaration pop ')' compound_statement pop
                                { $$ = $1->set_link( StatementNode::newCatchStmt($6, $9) ); }
                ;

finally_clause:
                FINALLY compound_statement
                                { $$ = new StatementNode(StatementNode::Finally, 0, $2);
                                        std::cout << "Just created a finally node" << std::endl;
                                }
                ;

exception_declaration:
                                // A semantic check is required to ensure type_specifier does not create a new type, e.g.:
                                //
                                //              catch ( struct { int i; } x ) ...
                                //
                                // This new type cannot catch any thrown type because of name equivalence among types.
                type_specifier
                | type_specifier declarator
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $2->addType( $1 );
                                }
                | type_specifier variable_abstract_declarator
                                { $$ = $2->addType( $1 ); }
                | new_abstract_declarator_tuple no_attr_identifier // CFA
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $1->addName( $2 );
                                }
                | new_abstract_declarator_tuple                                 // CFA
                ;

asm_statement:
                ASM type_qualifier_list_opt '(' constant_expression ')' ';'
                                { $$ = new StatementNode(StatementNode::Asm, 0, 0); }
                | ASM type_qualifier_list_opt '(' constant_expression ':' asm_operands_opt ')' ';' // remaining GCC
                                { $$ = new StatementNode(StatementNode::Asm, 0, 0); }
                | ASM type_qualifier_list_opt '(' constant_expression ':' asm_operands_opt ':' asm_operands_opt ')' ';'
                                { $$ = new StatementNode(StatementNode::Asm, 0, 0); }
                | ASM type_qualifier_list_opt '(' constant_expression ':' asm_operands_opt ':' asm_operands_opt ':'
                                                asm_clobbers_list ')' ';'
                                { $$ = new StatementNode(StatementNode::Asm, 0, 0); }
                ;

asm_operands_opt:                                                                               // GCC
                // empty
                | asm_operands_list
                ;

asm_operands_list:                                                                              // GCC
                asm_operand
                | asm_operands_list ',' asm_operand
                ;

asm_operand:                                                                                    // GCC
                STRINGliteral '(' constant_expression ')'               {}
                ;

asm_clobbers_list:                                                                              // GCC
                STRINGliteral                                                                   {}
                | asm_clobbers_list ',' STRINGliteral
                ;

//******************************* DECLARATIONS *********************************

declaration_list_opt:                                                                   // used at beginning of switch statement
                pop
                                { $$ = 0; }
                | declaration_list
                ;

declaration_list:
                declaration
                | declaration_list push declaration
                                { $$ = $1->appendList( $3 ); }
                ;

old_declaration_list_opt:                                                               // used to declare parameter types in K&R style functions
                pop
                                { $$ = 0; }
                | old_declaration_list
                ;

old_declaration_list:
                old_declaration
                | old_declaration_list push old_declaration
                                { $$ = $1->appendList( $3 ); }
                ;

label_declaration_opt:                                                                  // GCC, local label
                // empty
                | label_declaration_list
                ;

label_declaration_list:                                                                 // GCC, local label
                LABEL label_list ';'
                | label_declaration_list LABEL label_list ';'
                ;

label_list:                                                                                             // GCC, local label
                no_attr_identifier_or_typedef_name                              {}
                | label_list ',' no_attr_identifier_or_typedef_name {}
                ;

declaration:                                                                                    // CFA, new & old style declarations
                new_declaration
                | old_declaration
                ;

// C declaration syntax is notoriously confusing and error prone. Cforall provides its own type, variable and
// function declarations. CFA declarations use the same declaration tokens as in C; however, CFA places
// declaration modifiers to the left of the base type, while C declarations place modifiers to the right of
// the base type. CFA declaration modifiers are interpreted from left to right and the entire type
// specification is distributed across all variables in the declaration list (as in Pascal).  ANSI C and the
// new CFA declarations may appear together in the same program block, but cannot be mixed within a specific
// declaration.
//
//                      CFA                                     C
//              [10] int x;                     int x[10];              // array of 10 integers
//              [10] * char y;          char *y[10];    // array of 10 pointers to char

new_declaration:                                                                                // CFA
                new_variable_declaration pop ';'
                | new_typedef_declaration pop ';'
                | new_function_declaration pop ';'
                | type_declaring_list pop ';'
                | context_specifier pop ';'
                ;

new_variable_declaration:                                                               // CFA
                new_variable_specifier initializer_opt
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $1;
                                }
                | declaration_qualifier_list new_variable_specifier initializer_opt
                                // declaration_qualifier_list also includes type_qualifier_list, so a semantic check is
                                // necessary to preclude them as a type_qualifier cannot appear in that context.
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $2->addQualifiers( $1 );
                                }
                | new_variable_declaration pop ',' push identifier_or_typedef_name initializer_opt
                                {
                                        typedefTable.addToEnclosingScope( *$5, TypedefTable::ID );
                                        $$ = $1->appendList( $1->cloneType( $5 ) );
                                }
                ;

new_variable_specifier:                                                                 // CFA
                                // A semantic check is required to ensure asm_name only appears on declarations with implicit
                                // or explicit static storage-class
                new_abstract_declarator_no_tuple identifier_or_typedef_name asm_name_opt
                                {
                                        typedefTable.setNextIdentifier( *$2 );
                                        $$ = $1->addName( $2 );
                                }
                | new_abstract_tuple identifier_or_typedef_name asm_name_opt
                                {
                                        typedefTable.setNextIdentifier( *$2 );
                                        $$ = $1->addName( $2 );
                                }
                | type_qualifier_list new_abstract_tuple identifier_or_typedef_name asm_name_opt
                                {
                                        typedefTable.setNextIdentifier( *$3 );
                                        $$ = $2->addQualifiers( $1 )->addName( $3 );
                                }
                ;

new_function_declaration:                                                               // CFA
                new_function_specifier
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $1;
                                }
                | declaration_qualifier_list new_function_specifier
                                // declaration_qualifier_list also includes type_qualifier_list, so a semantic check is
                                // necessary to preclude them as a type_qualifier cannot appear in this context.
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $2->addQualifiers( $1 );
                                }
                | new_function_declaration pop ',' push identifier_or_typedef_name
                                {
                                        typedefTable.addToEnclosingScope( *$5, TypedefTable::ID );
                                        $$ = $1->appendList( $1->cloneType( $5 ) );
                                }
                ;

new_function_specifier:                                                                 // CFA
                '[' push pop ']' identifier '(' push new_parameter_type_list_opt pop ')'
                                {
                                        typedefTable.setNextIdentifier( *($5) );
                                        $$ = DeclarationNode::newFunction( $5, DeclarationNode::newTuple( 0 ), $8, 0, true );
                                }
                | '[' push pop ']' TYPEDEFname '(' push new_parameter_type_list_opt pop ')'
                                {
                                        typedefTable.setNextIdentifier( *($5) );
                                        $$ = DeclarationNode::newFunction( $5, DeclarationNode::newTuple( 0 ), $8, 0, true );
                                }
                                // identifier_or_typedef_name must be broken apart because of the sequence:
                                //
                                //   '[' ']' identifier_or_typedef_name '(' new_parameter_type_list_opt ')'
                                //   '[' ']' type_specifier
                                //
                                // type_specifier can resolve to just TYPEDEFname (e.g. typedef int T; int f( T );). Therefore
                                // this must be flattened to allow lookahead to the '(' without having to reduce
                                // identifier_or_typedef_name.
                | new_abstract_tuple identifier_or_typedef_name '(' push new_parameter_type_list_opt pop ')'
                                // To obtain LR(1), this rule must be factored out from function return type (see
                                //   new_abstract_declarator).
                                {
                                        $$ = DeclarationNode::newFunction( $2, $1, $5, 0, true );
                                }
                | new_function_return identifier_or_typedef_name '(' push new_parameter_type_list_opt pop ')'
                                {
                                        $$ = DeclarationNode::newFunction( $2, $1, $5, 0, true );
                                }
                ;

new_function_return:                                                                    // CFA
                '[' push new_parameter_list pop ']'
                                { $$ = DeclarationNode::newTuple( $3 ); }
                | '[' push new_parameter_list pop ',' push new_abstract_parameter_list pop ']'
                                // To obtain LR(1), the last new_abstract_parameter_list is added into this flattened rule to
                                // lookahead to the ']'.
                                { $$ = DeclarationNode::newTuple( $3->appendList( $7 ) ); }
                ;

new_typedef_declaration:                                                                // CFA
                TYPEDEF new_variable_specifier
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::TD);
                                        $$ = $2->addTypedef();
                                }
                | TYPEDEF new_function_specifier
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::TD);
                                        $$ = $2->addTypedef();
                                }
                | new_typedef_declaration pop ',' push no_attr_identifier
                                {
                                        typedefTable.addToEnclosingScope( *$5, TypedefTable::TD);
                                        $$ = $1->appendList( $1->cloneType( $5 ) );
                                }
                ;

// Traditionally typedef is part of storage-class specifier for syntactic convenience only. Here, it is
// factored out as a separate form of declaration, which syntactically precludes storage-class specifiers and
// initialization.

typedef_declaration:
                TYPEDEF type_specifier declarator
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::TD);
                                        $$ = $3->addType( $2 )->addTypedef();
                                }
                | typedef_declaration pop ',' push declarator
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::TD);
                                        $$ = $1->appendList( $1->cloneBaseType( $5 )->addTypedef() );
                                }
                | type_qualifier_list TYPEDEF type_specifier declarator // remaining OBSOLESCENT (see 2)
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::TD);
                                        $$ = $4->addType( $3 )->addQualifiers( $1 )->addTypedef();
                                }
                | type_specifier TYPEDEF declarator
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::TD);
                                        $$ = $3->addType( $1 )->addTypedef();
                                }
                | type_specifier TYPEDEF type_qualifier_list declarator
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::TD);
                                        $$ = $4->addQualifiers($1)->addTypedef()->addType($1);
                                }
                ;

typedef_expression:                                                                             // GCC, naming expression type
                TYPEDEF no_attr_identifier '=' assignment_expression
                                {
                                        typedefTable.addToEnclosingScope(*($2), TypedefTable::TD);
                                        $$ = DeclarationNode::newName( 0 ); // XXX
                                }
                | typedef_expression pop ',' push no_attr_identifier '=' assignment_expression
                                {
                                        typedefTable.addToEnclosingScope(*($5), TypedefTable::TD);
                                        $$ = DeclarationNode::newName( 0 ); // XXX
                                }
                ;

old_declaration:
                declaring_list pop ';'
                | typedef_declaration pop ';'
                | typedef_expression pop ';'                                    // GCC, naming expression type
                | sue_declaration_specifier pop ';'
                ;

declaring_list:
                                // A semantic check is required to ensure asm_name only appears on declarations with implicit
                                // or explicit static storage-class
                declaration_specifier declarator asm_name_opt initializer_opt
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = ($2->addType( $1 ))->addInitializer($4);
                                }
                | declaring_list ',' attribute_list_opt declarator asm_name_opt initializer_opt
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $1->appendList( $1->cloneBaseType( $4->addInitializer($6) ) );
                                }
                ;

declaration_specifier:                                                                  // type specifier + storage class
                basic_declaration_specifier
                | sue_declaration_specifier
                | typedef_declaration_specifier
                | typegen_declaration_specifier
                ;

type_specifier:                                                                                 // declaration specifier - storage class
                basic_type_specifier
                | sue_type_specifier
                | typedef_type_specifier
                | typegen_type_specifier
                ;

type_qualifier_list_opt:                                                                // GCC, used in asm_statement
                // empty
                                { $$ = 0; }
                | type_qualifier_list
                ;

type_qualifier_list:
                                // A semantic check is necessary to ensure a type qualifier is appropriate for the kind of
                                // declaration.
                                //
                                // ISO/IEC 9899:1999 Section 6.7.3(4) : If the same qualifier appears more than once in the
                                // same specifier-qualifier-list, either directly or via one or more typedefs, the behavior is
                                // the same as if it appeared only once.
                type_qualifier
                | type_qualifier_list type_qualifier
                                { $$ = $1->addQualifiers( $2 ); }
                ;

type_qualifier:
                type_qualifier_name
                | attribute
                                { $$ = DeclarationNode::newQualifier( DeclarationNode::Attribute ); }
                ;

type_qualifier_name:
                CONST
                                { $$ = DeclarationNode::newQualifier( DeclarationNode::Const ); }
                | RESTRICT
                                { $$ = DeclarationNode::newQualifier( DeclarationNode::Restrict ); }
                | VOLATILE
                                { $$ = DeclarationNode::newQualifier( DeclarationNode::Volatile ); }
                | LVALUE                                                                                // CFA
                                { $$ = DeclarationNode::newQualifier( DeclarationNode::Lvalue ); }
                | ATOMIC
                                { $$ = DeclarationNode::newQualifier( DeclarationNode::Atomic ); }
                | FORALL '('
                                {
                                        typedefTable.enterScope();
                                }
                  type_parameter_list ')'                                               // CFA
                                {
                                        typedefTable.leaveScope();
                                        $$ = DeclarationNode::newForall( $4 );
                                }
                ;

declaration_qualifier_list:
                storage_class_list
                | type_qualifier_list storage_class_list                // remaining OBSOLESCENT (see 2)
                                { $$ = $1->addQualifiers( $2 ); }
                | declaration_qualifier_list type_qualifier_list storage_class_list
                                { $$ = $1->addQualifiers( $2 )->addQualifiers( $3 ); }
                ;

storage_class_list:
                                // A semantic check is necessary to ensure a storage class is appropriate for the kind of
                                // declaration and that only one of each is specified, except for inline, which can appear
                                // with the others.
                                //
                                // ISO/IEC 9899:1999 Section 6.7.1(2) : At most, one storage-class specifier may be given in
                                // the declaration specifiers in a declaration.
                storage_class
                | storage_class_list storage_class
                                { $$ = $1->addQualifiers( $2 ); }
                ;

storage_class:
                storage_class_name
                ;

storage_class_name:
                EXTERN
                                { $$ = DeclarationNode::newStorageClass( DeclarationNode::Extern ); }
                | STATIC
                                { $$ = DeclarationNode::newStorageClass( DeclarationNode::Static ); }
                | AUTO
                                { $$ = DeclarationNode::newStorageClass( DeclarationNode::Auto ); }
                | REGISTER
                                { $$ = DeclarationNode::newStorageClass( DeclarationNode::Register ); }
                | INLINE                                                                                // C99
                                // INLINE is essentially a storage class specifier for functions, and hence, belongs here.
                                { $$ = DeclarationNode::newStorageClass( DeclarationNode::Inline ); }
                | FORTRAN                                                                               // C99
                                { $$ = DeclarationNode::newStorageClass( DeclarationNode::Fortran ); }
                ;

basic_type_name:
                CHAR
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Char ); }
                | DOUBLE
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Double ); }
                | FLOAT
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Float ); }
                | INT
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Int ); }
                | LONG
                                { $$ = DeclarationNode::newModifier( DeclarationNode::Long ); }
                | SHORT
                                { $$ = DeclarationNode::newModifier( DeclarationNode::Short ); }
                | SIGNED
                                { $$ = DeclarationNode::newModifier( DeclarationNode::Signed ); }
                | UNSIGNED
                                { $$ = DeclarationNode::newModifier( DeclarationNode::Unsigned ); }
                | VOID
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Void ); }
                | BOOL                                                                                  // C99
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Bool ); }
                | COMPLEX                                                                               // C99
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Complex ); }
                | IMAGINARY                                                                             // C99
                                { $$ = DeclarationNode::newBasicType( DeclarationNode::Imaginary ); }
                ;

basic_declaration_specifier:
                                // A semantic check is necessary for conflicting storage classes.
                basic_type_specifier
                | declaration_qualifier_list basic_type_specifier
                                { $$ = $2->addQualifiers( $1 ); }
                | basic_declaration_specifier storage_class             // remaining OBSOLESCENT (see 2)
                                { $$ = $1->addQualifiers( $2 ); }
                | basic_declaration_specifier storage_class type_qualifier_list
                                { $$ = $1->addQualifiers( $2 )->addQualifiers( $3 ); }
                | basic_declaration_specifier storage_class basic_type_specifier
                                { $$ = $3->addQualifiers( $2 )->addType( $1 ); }
                ;

basic_type_specifier:
                direct_type_name
                | type_qualifier_list_opt indirect_type_name type_qualifier_list_opt
                                { $$ = $2->addQualifiers( $1 )->addQualifiers( $3 ); }
                ;

direct_type_name:
                                // A semantic check is necessary for conflicting type qualifiers.
                basic_type_name
                | type_qualifier_list basic_type_name
                                { $$ = $2->addQualifiers( $1 ); }
                | direct_type_name type_qualifier
                                { $$ = $1->addQualifiers( $2 ); }
                | direct_type_name basic_type_name
                                { $$ = $1->addType( $2 ); }
                ;

indirect_type_name:
                TYPEOF '(' type_name ')'                                                // GCC: typeof(x) y;
                                { $$ = $3; }
                | TYPEOF '(' comma_expression ')'                               // GCC: typeof(a+b) y;
                                { $$ = DeclarationNode::newTypeof( $3 ); }
                | ATTR_TYPEGENname '(' type_name ')'                    // CFA: e.g., @type(x) y;
                                { $$ = DeclarationNode::newAttr( $1, $3 ); }
                | ATTR_TYPEGENname '(' comma_expression ')'             // CFA: e.g., @type(a+b) y;
                                { $$ = DeclarationNode::newAttr( $1, $3 ); }
                ;

sue_declaration_specifier:
                sue_type_specifier
                | declaration_qualifier_list sue_type_specifier
                                { $$ = $2->addQualifiers( $1 ); }
                | sue_declaration_specifier storage_class               // remaining OBSOLESCENT (see 2)
                                { $$ = $1->addQualifiers( $2 ); }
                | sue_declaration_specifier storage_class type_qualifier_list
                                { $$ = $1->addQualifiers( $2 )->addQualifiers( $3 ); }
                ;

sue_type_specifier:
                elaborated_type_name                                                    // struct, union, enum
                | type_qualifier_list elaborated_type_name
                                { $$ = $2->addQualifiers( $1 ); }
                | sue_type_specifier type_qualifier
                                { $$ = $1->addQualifiers( $2 ); }
                ;

typedef_declaration_specifier:
                typedef_type_specifier
                | declaration_qualifier_list typedef_type_specifier
                                { $$ = $2->addQualifiers( $1 ); }
                | typedef_declaration_specifier storage_class   // remaining OBSOLESCENT (see 2)
                                { $$ = $1->addQualifiers( $2 ); }
                | typedef_declaration_specifier storage_class type_qualifier_list
                                { $$ = $1->addQualifiers( $2 )->addQualifiers( $3 ); }
                ;

typedef_type_specifier:                                                                 // typedef types
                TYPEDEFname
                                { $$ = DeclarationNode::newFromTypedef( $1 ); }
                | type_qualifier_list TYPEDEFname
                                { $$ = DeclarationNode::newFromTypedef( $2 )->addQualifiers( $1 ); }
                | typedef_type_specifier type_qualifier
                                { $$ = $1->addQualifiers( $2 ); }
                ;

elaborated_type_name:
                aggregate_name
                | enum_name
                ;

aggregate_name:
                aggregate_key '{' field_declaration_list '}'
                                { $$ = DeclarationNode::newAggregate( $1, 0, 0, 0, $3 ); }
                | aggregate_key no_attr_identifier_or_typedef_name
                                { $$ = DeclarationNode::newAggregate( $1, $2, 0, 0, 0 ); }
                | aggregate_key no_attr_identifier_or_typedef_name '{' field_declaration_list '}'
                                { $$ = DeclarationNode::newAggregate( $1, $2, 0, 0, $4 ); }
                | aggregate_key '(' push type_parameter_list pop ')' '{' field_declaration_list '}' // CFA
                                { $$ = DeclarationNode::newAggregate( $1, 0, $4, 0, $8 ); }
                | aggregate_key '(' push type_parameter_list pop ')' no_attr_identifier_or_typedef_name // CFA
                                { $$ = DeclarationNode::newAggregate( $1, $7, $4, 0, 0 ); }
                | aggregate_key '(' push type_parameter_list pop ')' no_attr_identifier_or_typedef_name '{' field_declaration_list '}' // CFA
                                { $$ = DeclarationNode::newAggregate( $1, $7, $4, 0, $9 ); }
                | aggregate_key '(' push type_parameter_list pop ')' '(' type_name_list ')' '{' field_declaration_list '}' // CFA
                                { $$ = DeclarationNode::newAggregate( $1, 0, $4, $8, $11 ); }
                | aggregate_key '(' push type_name_list pop ')' no_attr_identifier_or_typedef_name // CFA
                                // push and pop are only to prevent S/R conflicts
                                { $$ = DeclarationNode::newAggregate( $1, $7, 0, $4, 0 ); }
                | aggregate_key '(' push type_parameter_list pop ')' '(' type_name_list ')' no_attr_identifier_or_typedef_name '{' field_declaration_list '}' // CFA
                                { $$ = DeclarationNode::newAggregate( $1, $10, $4, $8, $12 ); }
                ;

aggregate_key:
                STRUCT attribute_list_opt
                                { $$ = DeclarationNode::Struct; }
                | UNION attribute_list_opt
                                { $$ = DeclarationNode::Union; }
                ;

field_declaration_list:
                field_declaration
                                { $$ = $1; }
                | field_declaration_list field_declaration
                                { $$ = $1->appendList( $2 ); }
                ;

field_declaration:
                new_field_declaring_list ';'                                    // CFA, new style field declaration
                | EXTENSION new_field_declaring_list ';'                // GCC
                                { $$ = $2; }
                | field_declaring_list ';'
                | EXTENSION field_declaring_list ';'                    // GCC
                                { $$ = $2; }
                ;

new_field_declaring_list:                                                               // CFA, new style field declaration
                new_abstract_declarator_tuple                                   // CFA, no field name
                | new_abstract_declarator_tuple no_attr_identifier_or_typedef_name
                                { $$ = $1->addName( $2 ); }
                | new_field_declaring_list ',' no_attr_identifier_or_typedef_name
                                { $$ = $1->appendList( $1->cloneType( $3 ) ); }
                | new_field_declaring_list ','                                  // CFA, no field name
                                { $$ = $1->appendList( $1->cloneType( 0 ) ); }
                ;

field_declaring_list:
                type_specifier field_declarator
                                { $$ = $2->addType( $1 ); }
                | field_declaring_list ',' attribute_list_opt field_declarator
                                { $$ = $1->appendList( $1->cloneBaseType( $4 ) ); }
                ;

field_declarator:
                // empty
                                { $$ = DeclarationNode::newName( 0 ); /* XXX */ } // CFA, no field name
                | bit_subrange_size                                                             // no field name
                                { $$ = DeclarationNode::newBitfield( $1 ); }
                | variable_declarator bit_subrange_size_opt
                                // A semantic check is required to ensure bit_subrange only appears on base type int.
                                { $$ = $1->addBitfield( $2 ); }
                | typedef_redeclarator bit_subrange_size_opt
                                // A semantic check is required to ensure bit_subrange only appears on base type int.
                                { $$ = $1->addBitfield( $2 ); }
                | variable_abstract_declarator                                  // CFA, no field name
                ;

bit_subrange_size_opt:
                // empty
                                { $$ = 0; }
                | bit_subrange_size
                                { $$ = $1; }
                ;

bit_subrange_size:
                ':' constant_expression
                                { $$ = $2; }
                ;

enum_key:
                ENUM attribute_list_opt
                ;

enum_name:
                enum_key '{' enumerator_list comma_opt '}'
                                { $$ = DeclarationNode::newEnum( 0, $3 ); }
                | enum_key no_attr_identifier_or_typedef_name '{' enumerator_list comma_opt '}'
                                { $$ = DeclarationNode::newEnum( $2, $4 ); }
                | enum_key no_attr_identifier_or_typedef_name
                                { $$ = DeclarationNode::newEnum( $2, 0 ); }
                ;

enumerator_list:
                no_attr_identifier_or_typedef_name enumerator_value_opt
                                { $$ = DeclarationNode::newEnumConstant( $1, $2 ); }
                | enumerator_list ',' no_attr_identifier_or_typedef_name enumerator_value_opt
                                { $$ = $1->appendList( DeclarationNode::newEnumConstant( $3, $4 ) ); }
                ;

enumerator_value_opt:
                // empty
                                { $$ = 0; }
                | '=' constant_expression
                                { $$ = $2; }
                ;

// Minimum of one parameter after which ellipsis is allowed only at the end.

new_parameter_type_list_opt:                                                    // CFA
                // empty
                                { $$ = 0; }
                | new_parameter_type_list
                ;

new_parameter_type_list:                                                                // CFA, abstract + real
                new_abstract_parameter_list
                | new_parameter_list
                | new_parameter_list pop ',' push new_abstract_parameter_list
                                { $$ = $1->appendList( $5 ); }
                | new_abstract_parameter_list pop ',' push ELLIPSIS
                                { $$ = $1->addVarArgs(); }
                | new_parameter_list pop ',' push ELLIPSIS
                                { $$ = $1->addVarArgs(); }
                ;

new_parameter_list:                                                                             // CFA
                                // To obtain LR(1) between new_parameter_list and new_abstract_tuple, the last
                                // new_abstract_parameter_list is factored out from new_parameter_list, flattening the rules
                                // to get lookahead to the ']'.
                new_parameter_declaration
                | new_abstract_parameter_list pop ',' push new_parameter_declaration
                                { $$ = $1->appendList( $5 ); }
                | new_parameter_list pop ',' push new_parameter_declaration
                                { $$ = $1->appendList( $5 ); }
                | new_parameter_list pop ',' push new_abstract_parameter_list pop ',' push new_parameter_declaration
                                { $$ = $1->appendList( $5 )->appendList( $9 ); }
                ;

new_abstract_parameter_list:                                                    // CFA, new & old style abstract
                new_abstract_parameter_declaration
                | new_abstract_parameter_list pop ',' push new_abstract_parameter_declaration
                                { $$ = $1->appendList( $5 ); }
                ;

parameter_type_list_opt:
                // empty
                                { $$ = 0; }
                | parameter_type_list
                ;

parameter_type_list:
                parameter_list
                | parameter_list pop ',' push ELLIPSIS
                                { $$ = $1->addVarArgs(); }
                ;

parameter_list:                                                                                 // abstract + real
                abstract_parameter_declaration
                | parameter_declaration
                | parameter_list pop ',' push abstract_parameter_declaration
                                { $$ = $1->appendList( $5 ); }
                | parameter_list pop ',' push parameter_declaration
                                { $$ = $1->appendList( $5 ); }
                ;

// Provides optional identifier names (abstract_declarator/variable_declarator), no initialization, different
// semantics for typedef name by using typedef_parameter_redeclarator instead of typedef_redeclarator, and
// function prototypes.

new_parameter_declaration:                                                              // CFA, new & old style parameter declaration
                parameter_declaration
                | new_identifier_parameter_declarator_no_tuple identifier_or_typedef_name assignment_opt
                                { $$ = $1->addName( $2 ); }
                | new_abstract_tuple identifier_or_typedef_name assignment_opt
                                // To obtain LR(1), these rules must be duplicated here (see new_abstract_declarator).
                                { $$ = $1->addName( $2 ); }
                | type_qualifier_list new_abstract_tuple identifier_or_typedef_name assignment_opt
                                { $$ = $2->addName( $3 )->addQualifiers( $1 ); }
                | new_function_specifier
                ;

new_abstract_parameter_declaration:                                             // CFA, new & old style parameter declaration
                abstract_parameter_declaration
                | new_identifier_parameter_declarator_no_tuple
                | new_abstract_tuple
                                // To obtain LR(1), these rules must be duplicated here (see new_abstract_declarator).
                | type_qualifier_list new_abstract_tuple
                                { $$ = $2->addQualifiers( $1 ); }
                | new_abstract_function
                ;

parameter_declaration:
                declaration_specifier identifier_parameter_declarator assignment_opt
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $2->addType( $1 )->addInitializer( new InitializerNode($3) );
                                }
                | declaration_specifier typedef_parameter_redeclarator assignment_opt
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        $$ = $2->addType( $1 )->addInitializer( new InitializerNode($3) );
                                }
                ;

abstract_parameter_declaration:
                declaration_specifier
                | declaration_specifier abstract_parameter_declarator
                                { $$ = $2->addType( $1 ); }
                ;

// ISO/IEC 9899:1999 Section 6.9.1(6) : "An identifier declared as a typedef name shall not be redeclared as a
// parameter." Because the scope of the K&R-style parameter-list sees the typedef first, the following is
// based only on identifiers.  The ANSI-style parameter-list can redefine a typedef name.

identifier_list:                                                                                // K&R-style parameter list => no types
                no_attr_identifier
                                { $$ = DeclarationNode::newName( $1 ); }
                | identifier_list ',' no_attr_identifier
                                { $$ = $1->appendList( DeclarationNode::newName( $3 ) ); }
                ;

identifier_or_typedef_name:
                identifier
                | TYPEDEFname
                | TYPEGENname
                ;

no_01_identifier_or_typedef_name:
                no_01_identifier
                | TYPEDEFname
                | TYPEGENname
                ;

no_attr_identifier_or_typedef_name:
                no_attr_identifier
                | TYPEDEFname
                | TYPEGENname
                ;

type_name_no_function:                                                                  // sizeof, alignof, cast (constructor)
                new_abstract_declarator_tuple                                   // CFA
                | type_specifier
                | type_specifier variable_abstract_declarator
                                { $$ = $2->addType( $1 ); }
                ;

type_name:                                                                                              // typeof, assertion
                new_abstract_declarator_tuple                                   // CFA
                | new_abstract_function                                                 // CFA
                | type_specifier
                | type_specifier abstract_declarator
                                { $$ = $2->addType( $1 ); }
                ;

initializer_opt:
                // empty
                                { $$ = 0; }
                | '=' initializer                                                               { $$ = $2; }
                ;

initializer:
                assignment_expression                                                   { $$ = new InitializerNode($1); }
                | '{' initializer_list comma_opt '}'                    { $$ = new InitializerNode($2, true); }
                ;

initializer_list:
                initializer
                | designation initializer                                               { $$ = $2->set_designators( $1 ); }
                | initializer_list ',' initializer                              { $$ = (InitializerNode *)( $1->set_link($3) ); }
                | initializer_list ',' designation initializer
                                { $$ = (InitializerNode *)( $1->set_link( $4->set_designators($3) ) ); }
                ;

// There is an unreconcileable parsing problem between C99 and CFA with respect to designators. The problem is
// use of '=' to separator the designator from the initializer value, as in:
//
//              int x[10] = { [1] = 3 };
//
// The string "[1] = 3" can be parsed as a designator assignment or a tuple assignment.  To disambiguate this
// case, CFA changes the syntax from "=" to ":" as the separator between the designator and initializer. GCC
// does uses ":" for field selection. The optional use of the "=" in GCC, or in this case ":", cannot be
// supported either due to shift/reduce conflicts

designation:
                designator_list ':'                                                             // C99, CFA uses ":" instead of "="
                | no_attr_identifier_or_typedef_name ':'                // GCC, field name
                                                { $$ = new VarRefNode( $1 ); }
                ;

designator_list:                                                                                // C99
                designator
                | designator_list designator                                            { $$ = (ExpressionNode *)($1->set_link( $2 )); }
                ;

designator:
                '.' no_attr_identifier_or_typedef_name                  // C99, field name
                                { $$ = new VarRefNode( $2 ); }
                | '[' push assignment_expression pop ']'                // C99, single array element
                                // assignment_expression used instead of constant_expression because of shift/reduce conflicts
                                // with tuple.
                                { $$ = $3; }
                | '[' push subrange pop ']'                                             // CFA, multiple array elements
                                { $$ = $3; }
                | '[' push constant_expression ELLIPSIS constant_expression pop ']' // GCC, multiple array elements
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Range), $3, $5); }
                | '.' '[' push field_list pop ']'                               // CFA, tuple field selector
                                { $$ = $4; }
                ;

// The CFA type system is based on parametric polymorphism, the ability to declare functions with type
// parameters, rather than an object-oriented type system. This required four groups of extensions:
//
// Overloading: function, data, and operator identifiers may be overloaded.
//
// Type declarations: "type" is used to generate new types for declaring objects. Similarly, "dtype" is used
//     for object and incomplete types, and "ftype" is used for function types. Type declarations with
//     initializers provide definitions of new types. Type declarations with storage class "extern" provide
//     opaque types.
//
// Polymorphic functions: A forall clause declares a type parameter. The corresponding argument is inferred at
//     the call site. A polymorphic function is not a template; it is a function, with an address and a type.
//
// Specifications and Assertions: Specifications are collections of declarations parameterized by one or more
//     types. They serve many of the purposes of abstract classes, and specification hierarchies resemble
//     subclass hierarchies. Unlike classes, they can define relationships between types.  Assertions declare
//     that a type or types provide the operations declared by a specification.  Assertions are normally used
//     to declare requirements on type arguments of polymorphic functions.

typegen_declaration_specifier:                                                  // CFA
                typegen_type_specifier
                | declaration_qualifier_list typegen_type_specifier
                                { $$ = $2->addQualifiers( $1 ); }
                | typegen_declaration_specifier storage_class   // remaining OBSOLESCENT (see 2)
                                { $$ = $1->addQualifiers( $2 ); }
                | typegen_declaration_specifier storage_class type_qualifier_list
                                { $$ = $1->addQualifiers( $2 )->addQualifiers( $3 ); }
                ;

typegen_type_specifier:                                                                 // CFA
                TYPEGENname '(' type_name_list ')'
                                { $$ = DeclarationNode::newFromTypeGen( $1, $3 ); }
                | type_qualifier_list TYPEGENname '(' type_name_list ')'
                                { $$ = DeclarationNode::newFromTypeGen( $2, $4 )->addQualifiers( $1 ); }
                | typegen_type_specifier type_qualifier
                                { $$ = $1->addQualifiers( $2 ); }
                ;

type_parameter_list:                                                                    // CFA
                type_parameter assignment_opt
                | type_parameter_list ',' type_parameter assignment_opt
                                { $$ = $1->appendList( $3 ); }
                ;

type_parameter:                                                                                 // CFA
                type_class no_attr_identifier_or_typedef_name
                                { typedefTable.addToEnclosingScope(*($2), TypedefTable::TD); }
                  assertion_list_opt
                                { $$ = DeclarationNode::newTypeParam( $1, $2 )->addAssertions( $4 ); }
                | type_specifier identifier_parameter_declarator
                ;

type_class:                                                                                             // CFA
                TYPE
                                { $$ = DeclarationNode::Type; }
                | DTYPE
                                { $$ = DeclarationNode::Ftype; }
                | FTYPE
                                { $$ = DeclarationNode::Dtype; }
                ;

assertion_list_opt:                                                                             // CFA
                // empty
                                { $$ = 0; }
                | assertion_list_opt assertion
                                { $$ = $1 == 0 ? $2 : $1->appendList( $2 ); }
                ;

assertion:                                                                                              // CFA
                '|' no_attr_identifier_or_typedef_name '(' type_name_list ')'
                                {
                                        typedefTable.openContext( *($2) );
                                        $$ = DeclarationNode::newContextUse( $2, $4 );
                                }
                | '|' '{' push context_declaration_list '}'
                                { $$ = $4; }
                | '|' '(' push type_parameter_list pop ')' '{' push context_declaration_list '}' '(' type_name_list ')'
                                { $$ = 0; }
                ;

type_name_list:                                                                                 // CFA
                type_name
                                { $$ = new TypeValueNode( $1 ); }
                | assignment_expression
                | type_name_list ',' type_name
                                { $$ = (ExpressionNode *)($1->set_link(new TypeValueNode( $3 ))); }
                | type_name_list ',' assignment_expression
                                { $$ = (ExpressionNode *)($1->set_link($3)); }
                ;

type_declaring_list:                                                                    // CFA
                TYPE type_declarator
                                { $$ = $2; }
                | storage_class_list TYPE type_declarator
                                { $$ = $3->addQualifiers( $1 ); }
                | type_declaring_list ',' type_declarator
                                { $$ = $1->appendList( $3->copyStorageClasses( $1 ) ); }
                ;

type_declarator:                                                                                // CFA
                type_declarator_name assertion_list_opt
                                { $$ = $1->addAssertions( $2 ); }
                | type_declarator_name assertion_list_opt '=' type_name
                                { $$ = $1->addAssertions( $2 )->addType( $4 ); }
                ;

type_declarator_name:                                                                   // CFA
                no_attr_identifier_or_typedef_name
                                {
                                        typedefTable.addToEnclosingScope(*($1), TypedefTable::TD);
                                        $$ = DeclarationNode::newTypeDecl( $1, 0 );
                                }
                | no_01_identifier_or_typedef_name '(' push type_parameter_list pop ')'
                                {
                                        typedefTable.addToEnclosingScope(*($1), TypedefTable::TG);
                                        $$ = DeclarationNode::newTypeDecl( $1, $4 );
                                }
                ;

context_specifier:                                                                              // CFA
                CONTEXT no_attr_identifier_or_typedef_name '(' push type_parameter_list pop ')' '{' '}'
                                {
                                        typedefTable.addToEnclosingScope(*($2), TypedefTable::ID );
                                        $$ = DeclarationNode::newContext( $2, $5, 0 );
                                }
                | CONTEXT no_attr_identifier_or_typedef_name '(' push type_parameter_list pop ')' '{'
                                {
                                        typedefTable.enterContext( *($2) );
                                        typedefTable.enterScope();
                                }
                  context_declaration_list '}'
                                {
                                        typedefTable.leaveContext();
                                        typedefTable.addToEnclosingScope(*($2), TypedefTable::ID );
                                        $$ = DeclarationNode::newContext( $2, $5, $10 );
                                }
                ;

context_declaration_list:                                                               // CFA
                context_declaration
                | context_declaration_list push context_declaration
                                { $$ = $1->appendList( $3 ); }
                ;

context_declaration:                                                                    // CFA
                new_context_declaring_list pop ';'
                | context_declaring_list pop ';'
                ;

new_context_declaring_list:                                                             // CFA
                new_variable_specifier
                                {
                                        typedefTable.addToEnclosingScope2( TypedefTable::ID );
                                        $$ = $1;
                                }
                | new_function_specifier
                                {
                                        typedefTable.addToEnclosingScope2( TypedefTable::ID );
                                        $$ = $1;
                                }
                | new_context_declaring_list pop ',' push identifier_or_typedef_name
                                {
                                        typedefTable.addToEnclosingScope2( *($5), TypedefTable::ID );
                                        $$ = $1->appendList( $1->cloneType( $5 ) );
                                }
                ;

context_declaring_list:                                                                 // CFA
                type_specifier declarator
                                {
                                        typedefTable.addToEnclosingScope2( TypedefTable::ID );
                                        $$ = $2->addType( $1 );
                                }
                | context_declaring_list pop ',' push declarator
                                {
                                        typedefTable.addToEnclosingScope2( TypedefTable::ID );
                                        $$ = $1->appendList( $1->cloneBaseType( $5 ) );
                                }
                ;

//***************************** EXTERNAL DEFINITIONS *****************************

translation_unit:
                // empty
                                {}                                                                              // empty input file
                | external_definition_list
                                {
                                        if ( theTree ) {
                                                theTree->appendList( $1 );
                                        } else {
                                                theTree = $1;
                                        }
                                }
                ;

external_definition_list:
                external_definition
                | external_definition_list push external_definition
                                { $$ = ($1 != NULL ) ? $1->appendList( $3 ) : $3; }
                ;

external_definition_list_opt:
                // empty
                                { $$ = 0; }
                | external_definition_list
                ;

external_definition:
                declaration
                | function_definition
                | asm_statement                                                                 // GCC, global assembler statement
                                {}
                | EXTERN STRINGliteral
                                {
                                        linkageStack.push( linkage );
                                        linkage = LinkageSpec::fromString( *$2 );
                                }
                  '{' external_definition_list_opt '}'                  // C++-style linkage specifier
                                {
                                        linkage = linkageStack.top();
                                        linkageStack.pop();
                                        $$ = $5;
                                }
                | EXTENSION external_definition
                                { $$ = $2; }
                ;

function_definition:
                new_function_specifier compound_statement               // CFA
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $1->addFunctionBody( $2 );
                                }
                | declaration_qualifier_list new_function_specifier compound_statement // CFA
                                // declaration_qualifier_list also includes type_qualifier_list, so a semantic check is
                                // necessary to preclude them as a type_qualifier cannot appear in this context.
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $2->addFunctionBody( $3 )->addQualifiers( $1 );
                                }

                | declaration_specifier function_declarator compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $2->addFunctionBody( $3 )->addType( $1 );
                                }

                                // These rules are a concession to the "implicit int" type_specifier because there is a
                                // significant amount of code with functions missing a type-specifier on the return type.
                                // Parsing is possible because function_definition does not appear in the context of an
                                // expression (nested functions would preclude this concession). A function prototype
                                // declaration must still have a type_specifier. OBSOLESCENT (see 1)
                | function_declarator compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $1->addFunctionBody( $2 );
                                }
                | type_qualifier_list function_declarator compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $2->addFunctionBody( $3 )->addQualifiers( $1 );
                                }
                | declaration_qualifier_list function_declarator compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $2->addFunctionBody( $3 )->addQualifiers( $1 );
                                }
                | declaration_qualifier_list type_qualifier_list function_declarator compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $3->addFunctionBody( $4 )->addQualifiers( $2 )->addQualifiers( $1 );
                                }

                                // Old-style K&R function definition, OBSOLESCENT (see 4)
                | declaration_specifier old_function_declarator push old_declaration_list_opt compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $2->addOldDeclList( $4 )->addFunctionBody( $5 )->addType( $1 );
                                }
                | old_function_declarator push old_declaration_list_opt compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $1->addOldDeclList( $3 )->addFunctionBody( $4 );
                                }
                | type_qualifier_list old_function_declarator push old_declaration_list_opt compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $2->addOldDeclList( $4 )->addFunctionBody( $5 )->addQualifiers( $1 );
                                }

                                // Old-style K&R function definition with "implicit int" type_specifier, OBSOLESCENT (see 4)
                | declaration_qualifier_list old_function_declarator push old_declaration_list_opt compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $2->addOldDeclList( $4 )->addFunctionBody( $5 )->addQualifiers( $1 );
                                }
                | declaration_qualifier_list type_qualifier_list old_function_declarator push old_declaration_list_opt compound_statement
                                {
                                        typedefTable.addToEnclosingScope( TypedefTable::ID );
                                        typedefTable.leaveScope();
                                        $$ = $3->addOldDeclList( $5 )->addFunctionBody( $6 )->addQualifiers( $2 )->addQualifiers( $1 );
                                }
                ;

declarator:
                variable_declarator
                | function_declarator
                | typedef_redeclarator
                ;

subrange:
                constant_expression '~' constant_expression             // CFA, integer subrange
                                { $$ = new CompositeExprNode(new OperatorNode(OperatorNode::Range), $1, $3); }
                ;

asm_name_opt:                                                                                   // GCC
                // empty
                | ASM '(' string_literal_list ')' attribute_list_opt
                ;

attribute_list_opt:                                                                             // GCC
                // empty
                | attribute_list
                ;

attribute_list:                                                                                 // GCC
                attribute
                | attribute_list attribute
                ;

attribute:                                                                                              // GCC
                ATTRIBUTE '(' '(' attribute_parameter_list ')' ')'
                ;

attribute_parameter_list:                                                               // GCC
                attrib
                | attribute_parameter_list ',' attrib
                ;

attrib:                                                                                                 // GCC
                // empty
                | any_word
                | any_word '(' comma_expression_opt ')'
                ;

any_word:                                                                                               // GCC
                identifier_or_typedef_name {}
                | storage_class_name {}
                | basic_type_name {}
                | type_qualifier {}
                ;

// ============================================================================
// The following sections are a series of grammar patterns used to parse declarators. Multiple patterns are
// necessary because the type of an identifier in wrapped around the identifier in the same form as its usage
// in an expression, as in:
//
//              int (*f())[10] { ... };
//              ... (*f())[3] += 1;             // definition mimics usage
//
// Because these patterns are highly recursive, changes at a lower level in the recursion require copying some
// or all of the pattern. Each of these patterns has some subtle variation to ensure correct syntax in a
// particular context.
// ============================================================================

// ----------------------------------------------------------------------------
// The set of valid declarators before a compound statement for defining a function is less than the set of
// declarators to define a variable or function prototype, e.g.:
//
//              valid declaration               invalid definition
//              -----------------               ------------------
//              int f;                                          int f {}
//              int *f;                                         int *f {}
//              int f[10];                              int f[10] {}
//              int (*f)(int);                          int (*f)(int) {}
//
// To preclude this syntactic anomaly requires separating the grammar rules for variable and function
// declarators, hence variable_declarator and function_declarator.
// ----------------------------------------------------------------------------

// This pattern parses a declaration of a variable that is not redefining a typedef name. The pattern
// precludes declaring an array of functions versus a pointer to an array of functions.

variable_declarator:
                paren_identifier attribute_list_opt
                | variable_ptr
                | variable_array attribute_list_opt
                | variable_function attribute_list_opt
                ;

paren_identifier:
                identifier
                                {
                                        typedefTable.setNextIdentifier( *($1) );
                                        $$ = DeclarationNode::newName( $1 );
                                }
                | '(' paren_identifier ')'                                              // redundant parenthesis
                                { $$ = $2; }
                ;

variable_ptr:
                '*' variable_declarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list variable_declarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' variable_ptr ')'
                                { $$ = $2; }
                ;

variable_array:
                paren_identifier array_dimension
                                { $$ = $1->addArray( $2 ); }
                | '(' variable_ptr ')' array_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' variable_array ')' multi_array_dimension  // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' variable_array ')'                                                // redundant parenthesis
                                { $$ = $2; }
                ;

variable_function:
                '(' variable_ptr ')' '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $2->addParamList( $6 ); }
                | '(' variable_function ')'                                             // redundant parenthesis
                                { $$ = $2; }
                ;

// This pattern parses a function declarator that is not redefining a typedef name. Because functions cannot
// be nested, there is no context where a function definition can redefine a typedef name. To allow nested
// functions requires further separation of variable and function declarators in typedef_redeclarator.  The
// pattern precludes returning arrays and functions versus pointers to arrays and functions.

function_declarator:
                function_no_ptr attribute_list_opt
                | function_ptr
                | function_array attribute_list_opt
                ;

function_no_ptr:
                paren_identifier '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $1->addParamList( $4 ); }
                | '(' function_ptr ')' '(' push parameter_type_list_opt pop ')'
                                { $$ = $2->addParamList( $6 ); }
                | '(' function_no_ptr ')'                                               // redundant parenthesis
                                { $$ = $2; }
                ;

function_ptr:
                '*' function_declarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list function_declarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' function_ptr ')'
                                { $$ = $2; }
                ;

function_array:
                '(' function_ptr ')' array_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' function_array ')' multi_array_dimension  // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' function_array ')'                                                // redundant parenthesis
                                { $$ = $2; }
                ;

// This pattern parses an old-style K&R function declarator (OBSOLESCENT, see 4) that is not redefining a
// typedef name (see function_declarator for additional comments). The pattern precludes returning arrays and
// functions versus pointers to arrays and functions.

old_function_declarator:
                old_function_no_ptr
                | old_function_ptr
                | old_function_array
                ;

old_function_no_ptr:
                paren_identifier '(' identifier_list ')'                // function_declarator handles empty parameter
                                { $$ = $1->addIdList( $3 ); }
                | '(' old_function_ptr ')' '(' identifier_list ')'
                                { $$ = $2->addIdList( $5 ); }
                | '(' old_function_no_ptr ')'                                   // redundant parenthesis
                                { $$ = $2; }
                ;

old_function_ptr:
                '*' old_function_declarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list old_function_declarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' old_function_ptr ')'
                                { $$ = $2; }
                ;

old_function_array:
                '(' old_function_ptr ')' array_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' old_function_array ')' multi_array_dimension // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' old_function_array ')'                                    // redundant parenthesis
                                { $$ = $2; }
                ;

// This pattern parses a declaration for a variable or function prototype that redefines a typedef name, e.g.:
//
//              typedef int foo;
//              {
//                 int foo; // redefine typedef name in new scope
//              }
//
// The pattern precludes declaring an array of functions versus a pointer to an array of functions, and
// returning arrays and functions versus pointers to arrays and functions.

typedef_redeclarator:
                paren_typedef attribute_list_opt
                | typedef_ptr
                | typedef_array attribute_list_opt
                | typedef_function attribute_list_opt
                ;

paren_typedef:
                TYPEDEFname
                                {
                                typedefTable.setNextIdentifier( *($1) );
                                $$ = DeclarationNode::newName( $1 );
                                }
                | '(' paren_typedef ')'
                                { $$ = $2; }
                ;

typedef_ptr:
                '*' typedef_redeclarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list typedef_redeclarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' typedef_ptr ')'
                                { $$ = $2; }
                ;

typedef_array:
                paren_typedef array_dimension
                                { $$ = $1->addArray( $2 ); }
                | '(' typedef_ptr ')' array_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' typedef_array ')' multi_array_dimension   // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' typedef_array ')'                                                 // redundant parenthesis
                                { $$ = $2; }
                ;

typedef_function:
                paren_typedef '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $1->addParamList( $4 ); }
                | '(' typedef_ptr ')' '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $2->addParamList( $6 ); }
                | '(' typedef_function ')'                                              // redundant parenthesis
                                { $$ = $2; }
                ;

// This pattern parses a declaration for a parameter variable or function prototype that is not redefining a
// typedef name and allows the C99 array options, which can only appear in a parameter list.  The pattern
// precludes declaring an array of functions versus a pointer to an array of functions, and returning arrays
// and functions versus pointers to arrays and functions.

identifier_parameter_declarator:
                paren_identifier attribute_list_opt
                | identifier_parameter_ptr
                | identifier_parameter_array attribute_list_opt
                | identifier_parameter_function attribute_list_opt
                ;

identifier_parameter_ptr:
                '*' identifier_parameter_declarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list identifier_parameter_declarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' identifier_parameter_ptr ')'
                                { $$ = $2; }
                ;

identifier_parameter_array:
                paren_identifier array_parameter_dimension
                                { $$ = $1->addArray( $2 ); }
                | '(' identifier_parameter_ptr ')' array_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' identifier_parameter_array ')' multi_array_dimension // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' identifier_parameter_array ')'                    // redundant parenthesis
                                { $$ = $2; }
                ;

identifier_parameter_function:
                paren_identifier '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $1->addParamList( $4 ); }
                | '(' identifier_parameter_ptr ')' '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $2->addParamList( $6 ); }
                | '(' identifier_parameter_function ')'                 // redundant parenthesis
                                { $$ = $2; }
                ;

// This pattern parses a declaration for a parameter variable or function prototype that is redefining a
// typedef name, e.g.:
//
//              typedef int foo;
//              int f( int foo ); // redefine typedef name in new scope
//
// and allows the C99 array options, which can only appear in a parameter list.  In addition, the pattern
// handles the special meaning of parenthesis around a typedef name:
//
//              ISO/IEC 9899:1999 Section 6.7.5.3(11) : "In a parameter declaration, a single typedef name in
//              parentheses is taken to be an abstract declarator that specifies a function with a single parameter,
//              not as redundant parentheses around the identifier."
//
// which precludes the following cases:
//
//              typedef float T;
//              int f( int ( T [5] ) );                                         // see abstract_parameter_declarator
//              int g( int ( T ( int ) ) );                             // see abstract_parameter_declarator
//              int f( int f1( T a[5] ) );                              // see identifier_parameter_declarator
//              int g( int g1( T g2( int p ) ) );               // see identifier_parameter_declarator
//
// In essence, a '(' immediately to the left of typedef name, T, is interpreted as starting a parameter type
// list, and not as redundant parentheses around a redeclaration of T. Finally, the pattern also precludes
// declaring an array of functions versus a pointer to an array of functions, and returning arrays and
// functions versus pointers to arrays and functions.

typedef_parameter_redeclarator:
                typedef attribute_list_opt
                | typedef_parameter_ptr
                | typedef_parameter_array attribute_list_opt
                | typedef_parameter_function attribute_list_opt
                ;

typedef:
                TYPEDEFname
                                {
                                        typedefTable.setNextIdentifier( *($1) );
                                        $$ = DeclarationNode::newName( $1 );
                                }
                ;

typedef_parameter_ptr:
                '*' typedef_parameter_redeclarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list typedef_parameter_redeclarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' typedef_parameter_ptr ')'
                                { $$ = $2; }
                ;

typedef_parameter_array:
                typedef array_parameter_dimension
                                { $$ = $1->addArray( $2 ); }
                | '(' typedef_parameter_ptr ')' array_parameter_dimension
                                { $$ = $2->addArray( $4 ); }
                ;

typedef_parameter_function:
                typedef '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $1->addParamList( $4 ); }
                | '(' typedef_parameter_ptr ')' '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $2->addParamList( $6 ); }
                ;

// This pattern parses a declaration of an abstract variable or function prototype, i.e., there is no
// identifier to which the type applies, e.g.:
//
//              sizeof( int );
//              sizeof( int [10] );
//
// The pattern precludes declaring an array of functions versus a pointer to an array of functions, and
// returning arrays and functions versus pointers to arrays and functions.

abstract_declarator:
                abstract_ptr
                | abstract_array attribute_list_opt
                | abstract_function attribute_list_opt
                ;

abstract_ptr:
                '*'
                                { $$ = DeclarationNode::newPointer( 0 ); }
                | '*' type_qualifier_list
                                { $$ = DeclarationNode::newPointer( $2 ); }
                | '*' abstract_declarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list abstract_declarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' abstract_ptr ')'
                                { $$ = $2; }
                ;

abstract_array:
                array_dimension
                | '(' abstract_ptr ')' array_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' abstract_array ')' multi_array_dimension  // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' abstract_array ')'                                                // redundant parenthesis
                                { $$ = $2; }
                ;

abstract_function:
                '(' push parameter_type_list_opt pop ')'                // empty parameter list OBSOLESCENT (see 3)
                                { $$ = DeclarationNode::newFunction( 0, 0, $3, 0 ); }
                | '(' abstract_ptr ')' '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $2->addParamList( $6 ); }
                | '(' abstract_function ')'                                             // redundant parenthesis
                                { $$ = $2; }
                ;

array_dimension:
                                // Only the first dimension can be empty.
                '[' push pop ']'
                                { $$ = DeclarationNode::newArray( 0, 0, false ); }
                | '[' push pop ']' multi_array_dimension
                                { $$ = DeclarationNode::newArray( 0, 0, false )->addArray( $5 ); }
                | multi_array_dimension
                ;

multi_array_dimension:
                '[' push assignment_expression pop ']'
                                { $$ = DeclarationNode::newArray( $3, 0, false ); }
                | '[' push '*' pop ']'                                                          // C99
                                { $$ = DeclarationNode::newVarArray( 0 ); }
                | multi_array_dimension '[' push assignment_expression pop ']'
                                { $$ = $1->addArray( DeclarationNode::newArray( $4, 0, false ) ); }
                | multi_array_dimension '[' push '*' pop ']'            // C99
                                { $$ = $1->addArray( DeclarationNode::newVarArray( 0 ) ); }
                ;

// This pattern parses a declaration of a parameter abstract variable or function prototype, i.e., there is no
// identifier to which the type applies, e.g.:
//
//              int f( int );                   // abstract variable parameter; no parameter name specified
//              int f( int (int) );             // abstract function-prototype parameter; no parameter name specified
//
// The pattern precludes declaring an array of functions versus a pointer to an array of functions, and
// returning arrays and functions versus pointers to arrays and functions.

abstract_parameter_declarator:
                abstract_parameter_ptr
                | abstract_parameter_array attribute_list_opt
                | abstract_parameter_function attribute_list_opt
                ;

abstract_parameter_ptr:
                '*'
                                { $$ = DeclarationNode::newPointer( 0 ); }
                | '*' type_qualifier_list
                                { $$ = DeclarationNode::newPointer( $2 ); }
                | '*' abstract_parameter_declarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list abstract_parameter_declarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' abstract_parameter_ptr ')'
                                { $$ = $2; }
                ;

abstract_parameter_array:
                array_parameter_dimension
                | '(' abstract_parameter_ptr ')' array_parameter_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' abstract_parameter_array ')' multi_array_dimension // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' abstract_parameter_array ')'                              // redundant parenthesis
                                { $$ = $2; }
                ;

abstract_parameter_function:
                '(' push parameter_type_list_opt pop ')'                // empty parameter list OBSOLESCENT (see 3)
                                { $$ = DeclarationNode::newFunction( 0, 0, $3, 0 ); }
                | '(' abstract_parameter_ptr ')' '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $2->addParamList( $6 ); }
                | '(' abstract_parameter_function ')'                   // redundant parenthesis
                                { $$ = $2; }
                ;

array_parameter_dimension:
                                // Only the first dimension can be empty or have qualifiers.
                array_parameter_1st_dimension
                | array_parameter_1st_dimension multi_array_dimension
                                { $$ = $1->addArray( $2 ); }
                | multi_array_dimension
                ;

// The declaration of an array parameter has additional syntax over arrays in normal variable declarations:
//
//              ISO/IEC 9899:1999 Section 6.7.5.2(1) : "The optional type qualifiers and the keyword static shall
//              appear only in a declaration of a function parameter with an array type, and then only in the
//              outermost array type derivation."

array_parameter_1st_dimension:
                '[' push pop ']'
                                { $$ = DeclarationNode::newArray( 0, 0, false ); }
                // multi_array_dimension handles the '[' '*' ']' case
                | '[' push type_qualifier_list '*' pop ']'              // remaining C99
                                { $$ = DeclarationNode::newVarArray( $3 ); }
                | '[' push type_qualifier_list pop ']'
                                { $$ = DeclarationNode::newArray( 0, $3, false ); }
                // multi_array_dimension handles the '[' assignment_expression ']' case
                | '[' push type_qualifier_list assignment_expression pop ']'
                                { $$ = DeclarationNode::newArray( $4, $3, false ); }
                | '[' push STATIC type_qualifier_list_opt assignment_expression pop ']'
                                { $$ = DeclarationNode::newArray( $5, $4, true ); }
                | '[' push type_qualifier_list STATIC assignment_expression pop ']'
                                { $$ = DeclarationNode::newArray( $5, $3, true ); }
                ;

// This pattern parses a declaration of an abstract variable, i.e., there is no identifier to which the type
// applies, e.g.:
//
//              sizeof( int ); // abstract variable; no identifier name specified
//
// The pattern precludes declaring an array of functions versus a pointer to an array of functions, and
// returning arrays and functions versus pointers to arrays and functions.

variable_abstract_declarator:
                variable_abstract_ptr
                | variable_abstract_array attribute_list_opt
                | variable_abstract_function attribute_list_opt
                ;

variable_abstract_ptr:
                '*'
                                { $$ = DeclarationNode::newPointer( 0 ); }
                | '*' type_qualifier_list
                                { $$ = DeclarationNode::newPointer( $2 ); }
                | '*' variable_abstract_declarator
                                { $$ = $2->addPointer( DeclarationNode::newPointer( 0 ) ); }
                | '*' type_qualifier_list variable_abstract_declarator
                                { $$ = $3->addPointer( DeclarationNode::newPointer( $2 ) ); }
                | '(' variable_abstract_ptr ')'
                                { $$ = $2; }
                ;

variable_abstract_array:
                array_dimension
                | '(' variable_abstract_ptr ')' array_dimension
                                { $$ = $2->addArray( $4 ); }
                | '(' variable_abstract_array ')' multi_array_dimension // redundant parenthesis
                                { $$ = $2->addArray( $4 ); }
                | '(' variable_abstract_array ')'                               // redundant parenthesis
                                { $$ = $2; }
                ;

variable_abstract_function:
                '(' variable_abstract_ptr ')' '(' push parameter_type_list_opt pop ')' // empty parameter list OBSOLESCENT (see 3)
                                { $$ = $2->addParamList( $6 ); }
                | '(' variable_abstract_function ')'                    // redundant parenthesis
                                { $$ = $2; }
                ;

// This pattern parses a new-style declaration for a parameter variable or function prototype that is either
// an identifier or typedef name and allows the C99 array options, which can only appear in a parameter list.

new_identifier_parameter_declarator_tuple:                              // CFA
                new_identifier_parameter_declarator_no_tuple
                | new_abstract_tuple
                | type_qualifier_list new_abstract_tuple
                                { $$ = $2->addQualifiers( $1 ); }
                ;

new_identifier_parameter_declarator_no_tuple:                   // CFA
                new_identifier_parameter_ptr
                | new_identifier_parameter_array
                ;

new_identifier_parameter_ptr:                                                   // CFA
                '*' type_specifier
                                { $$ = $2->addNewPointer( DeclarationNode::newPointer( 0 ) ); }
                | type_qualifier_list '*' type_specifier
                                { $$ = $3->addNewPointer( DeclarationNode::newPointer( $1 ) ); }
                | '*' new_abstract_function
                                { $$ = $2->addNewPointer( DeclarationNode::newPointer( 0 ) ); }
                | type_qualifier_list '*' new_abstract_function
                                { $$ = $3->addNewPointer( DeclarationNode::newPointer( $1 ) ); }
                | '*' new_identifier_parameter_declarator_tuple
                                { $$ = $2->addNewPointer( DeclarationNode::newPointer( 0 ) ); }
                | type_qualifier_list '*' new_identifier_parameter_declarator_tuple
                                { $$ = $3->addNewPointer( DeclarationNode::newPointer( $1 ) ); }
                ;

new_identifier_parameter_array:                                                 // CFA
                                // Only the first dimension can be empty or have qualifiers. Empty dimension must be factored
                                // out due to shift/reduce conflict with new-style empty (void) function return type.
                '[' push pop ']' type_specifier
                                { $$ = $5->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | new_array_parameter_1st_dimension type_specifier
                                { $$ = $2->addNewArray( $1 ); }
                | '[' push pop ']' multi_array_dimension type_specifier
                                { $$ = $6->addNewArray( $5 )->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | new_array_parameter_1st_dimension multi_array_dimension type_specifier
                                { $$ = $3->addNewArray( $2 )->addNewArray( $1 ); }
                | multi_array_dimension type_specifier
                                { $$ = $2->addNewArray( $1 ); }
                | '[' push pop ']' new_identifier_parameter_ptr
                                { $$ = $5->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | new_array_parameter_1st_dimension new_identifier_parameter_ptr
                                { $$ = $2->addNewArray( $1 ); }
                | '[' push pop ']' multi_array_dimension new_identifier_parameter_ptr
                                { $$ = $6->addNewArray( $5 )->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | new_array_parameter_1st_dimension multi_array_dimension new_identifier_parameter_ptr
                                { $$ = $3->addNewArray( $2 )->addNewArray( $1 ); }
                | multi_array_dimension new_identifier_parameter_ptr
                                { $$ = $2->addNewArray( $1 ); }
                ;

new_array_parameter_1st_dimension:
                '[' push type_qualifier_list '*' pop ']'                // remaining C99
                                { $$ = DeclarationNode::newVarArray( $3 ); }
                | '[' push type_qualifier_list assignment_expression pop ']'
                                { $$ = DeclarationNode::newArray( $4, $3, false ); }
                | '[' push declaration_qualifier_list assignment_expression pop ']'
                                // declaration_qualifier_list must be used because of shift/reduce conflict with
                                // assignment_expression, so a semantic check is necessary to preclude them as a
                                // type_qualifier cannot appear in this context.
                                { $$ = DeclarationNode::newArray( $4, $3, true ); }
                | '[' push declaration_qualifier_list type_qualifier_list assignment_expression pop ']'
                                { $$ = DeclarationNode::newArray( $5, $4->addQualifiers( $3 ), true ); }
                ;

// This pattern parses a new-style declaration of an abstract variable or function prototype, i.e., there is
// no identifier to which the type applies, e.g.:
//
//              [int] f( int );                         // abstract variable parameter; no parameter name specified
//              [int] f( [int] (int) );         // abstract function-prototype parameter; no parameter name specified
//
// These rules need LR(3):
//
//              new_abstract_tuple identifier_or_typedef_name
//              '[' new_parameter_list ']' identifier_or_typedef_name '(' new_parameter_type_list_opt ')'
//
// since a function return type can be syntactically identical to a tuple type:
//
//              [int, int] t;
//              [int, int] f( int );
//
// Therefore, it is necessary to look at the token after identifier_or_typedef_name to know when to reduce
// new_abstract_tuple. To make this LR(1), several rules have to be flattened (lengthened) to allow the
// necessary lookahead. To accomplish this, new_abstract_declarator has an entry point without tuple, and
// tuple declarations are duplicated when appearing with new_function_specifier.

new_abstract_declarator_tuple:                                                  // CFA
                new_abstract_tuple
                | type_qualifier_list new_abstract_tuple
                                { $$ = $2->addQualifiers( $1 ); }
                | new_abstract_declarator_no_tuple
                ;

new_abstract_declarator_no_tuple:                                               // CFA
                new_abstract_ptr
                | new_abstract_array
                ;

new_abstract_ptr:                                                                               // CFA
                '*' type_specifier
                                { $$ = $2->addNewPointer( DeclarationNode::newPointer( 0 ) ); }
                | type_qualifier_list '*' type_specifier
                                { $$ = $3->addNewPointer( DeclarationNode::newPointer( $1 ) ); }
                | '*' new_abstract_function
                                { $$ = $2->addNewPointer( DeclarationNode::newPointer( 0 ) ); }
                | type_qualifier_list '*' new_abstract_function
                                { $$ = $3->addNewPointer( DeclarationNode::newPointer( $1 ) ); }
                | '*' new_abstract_declarator_tuple
                                { $$ = $2->addNewPointer( DeclarationNode::newPointer( 0 ) ); }
                | type_qualifier_list '*' new_abstract_declarator_tuple
                                { $$ = $3->addNewPointer( DeclarationNode::newPointer( $1 ) ); }
                ;

new_abstract_array:                                                                             // CFA
                                // Only the first dimension can be empty. Empty dimension must be factored out due to
                                // shift/reduce conflict with empty (void) function return type.
                '[' push pop ']' type_specifier
                                { $$ = $5->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | '[' push pop ']' multi_array_dimension type_specifier
                                { $$ = $6->addNewArray( $5 )->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | multi_array_dimension type_specifier
                                { $$ = $2->addNewArray( $1 ); }
                | '[' push pop ']' new_abstract_ptr
                                { $$ = $5->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | '[' push pop ']' multi_array_dimension new_abstract_ptr
                                { $$ = $6->addNewArray( $5 )->addNewArray( DeclarationNode::newArray( 0, 0, false ) ); }
                | multi_array_dimension new_abstract_ptr
                                { $$ = $2->addNewArray( $1 ); }
                ;

new_abstract_tuple:                                                                             // CFA
                '[' push new_abstract_parameter_list pop ']'
                                { $$ = DeclarationNode::newTuple( $3 ); }
                ;

new_abstract_function:                                                                  // CFA
                '[' push pop ']' '(' new_parameter_type_list_opt ')'
                                { $$ = DeclarationNode::newFunction( 0, DeclarationNode::newTuple( 0 ), $6, 0 ); }
                | new_abstract_tuple '(' push new_parameter_type_list_opt pop ')'
                                { $$ = DeclarationNode::newFunction( 0, $1, $4, 0 ); }
                | new_function_return '(' push new_parameter_type_list_opt pop ')'
                                { $$ = DeclarationNode::newFunction( 0, $1, $4, 0 ); }
                ;

// 1) ISO/IEC 9899:1999 Section 6.7.2(2) : "At least one type specifier shall be given in the declaration
//    specifiers in each declaration, and in the specifier-qualifier list in each structure declaration and
//    type name."
//
// 2) ISO/IEC 9899:1999 Section 6.11.5(1) : "The placement of a storage-class specifier other than at the
//    beginning of the declaration specifiers in a declaration is an obsolescent feature."
//
// 3) ISO/IEC 9899:1999 Section 6.11.6(1) : "The use of function declarators with empty parentheses (not
//    prototype-format parameter type declarators) is an obsolescent feature."
//
// 4) ISO/IEC 9899:1999 Section 6.11.7(1) : "The use of function definitions with separate parameter
//    identifier and declaration lists (not prototype-format parameter type and identifier declarators) is an
//    obsolescent feature.

//************************* MISCELLANEOUS ********************************

comma_opt:                                                                                              // redundant comma
                // empty
                | ','
                ;

assignment_opt:
                // empty
                                { $$ = 0; }
                | '=' assignment_expression
                                { $$ = $2; }
                ;

%%
// ----end of grammar----

void yyerror( char *string ) {
        using std::cout;
        using std::endl;
        cout << "Error ";
        if ( yyfilename ) {
                cout << "in file " << yyfilename << " ";
        }
        cout << "at line " << yylineno << " reading token \"" << *(yylval.tok.str) << "\"" << endl;
}

// Local Variables: //
// fill-column: 110 //
// tab-width: 4 //
// mode: c++ //
// compile-command: "make install" //
// End: //