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/* This file contains the definitions and documentation for the additional tree codes used in the GNU C++ compiler (see tree.def for the standard codes). Copyright (C) 1987-2017 Free Software Foundation, Inc. Hacked by Michael Tiemann (tiemann@cygnus.com) This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see <http://www.gnu.org/licenses/>. */ /* An OFFSET_REF is used in two situations: 1. An expression of the form `A::m' where `A' is a class and `m' is a non-static member. In this case, operand 0 will be a TYPE (corresponding to `A') and operand 1 will be a FIELD_DECL, BASELINK, or TEMPLATE_ID_EXPR (corresponding to `m'). The expression is a pointer-to-member if its address is taken, but simply denotes a member of the object if its address is not taken. This form is only used during the parsing phase; once semantic analysis has taken place they are eliminated. 2. An expression of the form `x.*p'. In this case, operand 0 will be an expression corresponding to `x' and operand 1 will be an expression with pointer-to-member type. */ DEFTREECODE (OFFSET_REF, "offset_ref", tcc_reference, 2) /* A pointer-to-member constant. For a pointer-to-member constant `X::Y' The PTRMEM_CST_CLASS is the RECORD_TYPE for `X' and the PTRMEM_CST_MEMBER is the _DECL for `Y'. */ DEFTREECODE (PTRMEM_CST, "ptrmem_cst", tcc_constant, 0) /* For NEW_EXPR, operand 0 is the placement list. Operand 1 is the new-declarator. Operand 2 is the number of elements in the array. Operand 3 is the initializer. */ DEFTREECODE (NEW_EXPR, "nw_expr", tcc_expression, 4) DEFTREECODE (VEC_NEW_EXPR, "vec_nw_expr", tcc_expression, 3) /* For DELETE_EXPR, operand 0 is the store to be destroyed. Operand 1 is the value to pass to the destroying function saying whether the store should be deallocated as well. */ DEFTREECODE (DELETE_EXPR, "dl_expr", tcc_expression, 2) DEFTREECODE (VEC_DELETE_EXPR, "vec_dl_expr", tcc_expression, 2) /* Value is reference to particular overloaded class method. Operand 0 is the class, operand 1 is the field The COMPLEXITY field holds the class level (usually 0). */ DEFTREECODE (SCOPE_REF, "scope_ref", tcc_reference, 2) /* When composing an object with a member, this is the result. Operand 0 is the object. Operand 1 is the member (usually a dereferenced pointer to member). */ DEFTREECODE (MEMBER_REF, "member_ref", tcc_reference, 2) /* Type conversion operator in C++. TREE_TYPE is type that this operator converts to. Operand is expression to be converted. */ DEFTREECODE (TYPE_EXPR, "type_expr", tcc_expression, 1) /* AGGR_INIT_EXPRs have a variably-sized representation similar to that of CALL_EXPRs. Operand 0 is an INTEGER_CST node containing the operand count, operand 1 is the function which performs initialization, operand 2 is the slot which was allocated for this expression, and the remaining operands are the arguments to the initialization function. */ DEFTREECODE (AGGR_INIT_EXPR, "aggr_init_expr", tcc_vl_exp, 3) /* Initialization of an array from another array, expressed at a high level so that it works with TARGET_EXPR. Operand 0 is the target, operand 1 is the initializer. */ DEFTREECODE (VEC_INIT_EXPR, "vec_init_expr", tcc_expression, 2) /* A throw expression. operand 0 is the expression, if there was one, else it is NULL_TREE. */ DEFTREECODE (THROW_EXPR, "throw_expr", tcc_expression, 1) /* An empty class object. The TREE_TYPE gives the class type. We use these to avoid actually creating instances of the empty classes. */ DEFTREECODE (EMPTY_CLASS_EXPR, "empty_class_expr", tcc_expression, 0) /* A reference to a member function or member functions from a base class. BASELINK_FUNCTIONS gives the FUNCTION_DECL, TEMPLATE_DECL, OVERLOAD, or TEMPLATE_ID_EXPR corresponding to the functions. BASELINK_BINFO gives the base from which the functions come, i.e., the base to which the `this' pointer must be converted before the functions are called. BASELINK_ACCESS_BINFO gives the base used to name the functions. A BASELINK is an expression; the TREE_TYPE of the BASELINK gives the type of the expression. This type is either a FUNCTION_TYPE, METHOD_TYPE, or `unknown_type_node' indicating that the function is overloaded. */ DEFTREECODE (BASELINK, "baselink", tcc_exceptional, 0) /* Template definition. The following fields have the specified uses, although there are other macros in cp-tree.h that should be used for accessing this data. DECL_ARGUMENTS template parm vector DECL_TEMPLATE_INFO template text &c DECL_VINDEX list of instantiations already produced; only done for functions so far For class template: DECL_INITIAL associated templates (methods &c) DECL_TEMPLATE_RESULT null For non-class templates: TREE_TYPE type of object to be constructed DECL_TEMPLATE_RESULT decl for object to be created (e.g., FUNCTION_DECL with tmpl parms used) */ DEFTREECODE (TEMPLATE_DECL, "template_decl", tcc_declaration, 0) /* Index into a template parameter list. The TEMPLATE_PARM_IDX gives the index (from 0) of the parameter, while the TEMPLATE_PARM_LEVEL gives the level (from 1) of the parameter. Here's an example: template <class T> // Index 0, Level 1. struct S { template <class U, // Index 0, Level 2. class V> // Index 1, Level 2. void f(); }; The DESCENDANTS will be a chain of TEMPLATE_PARM_INDEXs descended from this one. The first descendant will have the same IDX, but its LEVEL will be one less. The TREE_CHAIN field is used to chain together the descendants. The TEMPLATE_PARM_DECL is the declaration of this parameter, either a TYPE_DECL or CONST_DECL. The TEMPLATE_PARM_ORIG_LEVEL is the LEVEL of the most distant parent, i.e., the LEVEL that the parameter originally had when it was declared. For example, if we instantiate S<int>, we will have: struct S<int> { template <class U, // Index 0, Level 1, Orig Level 2 class V> // Index 1, Level 1, Orig Level 2 void f(); }; The LEVEL is the level of the parameter when we are worrying about the types of things; the ORIG_LEVEL is the level when we are worrying about instantiating things. */ DEFTREECODE (TEMPLATE_PARM_INDEX, "template_parm_index", tcc_exceptional, 0) /* Index into a template parameter list for template template parameters. This parameter must be a type. The TYPE_FIELDS value will be a TEMPLATE_PARM_INDEX. It is used without template arguments like TT in C<TT>, TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO is NULL_TREE and TYPE_NAME is a TEMPLATE_DECL. */ DEFTREECODE (TEMPLATE_TEMPLATE_PARM, "template_template_parm", tcc_type, 0) /* The ordering of the following codes is optimized for the checking macros in tree.h. Changing the order will degrade the speed of the compiler. TEMPLATE_TYPE_PARM, TYPENAME_TYPE, TYPEOF_TYPE, BOUND_TEMPLATE_TEMPLATE_PARM. */ /* Index into a template parameter list. This parameter must be a type. The type.values field will be a TEMPLATE_PARM_INDEX. */ DEFTREECODE (TEMPLATE_TYPE_PARM, "template_type_parm", tcc_type, 0) /* A type designated by `typename T::t'. TYPE_CONTEXT is `T', TYPE_NAME is an IDENTIFIER_NODE for `t'. If the type was named via template-id, TYPENAME_TYPE_FULLNAME will hold the TEMPLATE_ID_EXPR. TREE_TYPE is always NULL. */ DEFTREECODE (TYPENAME_TYPE, "typename_type", tcc_type, 0) /* A type designated by `__typeof (expr)'. TYPEOF_TYPE_EXPR is the expression in question. */ DEFTREECODE (TYPEOF_TYPE, "typeof_type", tcc_type, 0) /* Like TEMPLATE_TEMPLATE_PARM it is used with bound template arguments like TT<int>. In this case, TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO contains the template name and its bound arguments. TYPE_NAME is a TYPE_DECL. */ DEFTREECODE (BOUND_TEMPLATE_TEMPLATE_PARM, "bound_template_template_parm", tcc_type, 0) /* For template template argument of the form `T::template C'. TYPE_CONTEXT is `T', the template parameter dependent object. TYPE_NAME is an IDENTIFIER_NODE for `C', the member class template. */ DEFTREECODE (UNBOUND_CLASS_TEMPLATE, "unbound_class_template", tcc_type, 0) /* A using declaration. USING_DECL_SCOPE contains the specified scope. In a variadic using-declaration, this is a TYPE_PACK_EXPANSION. In a member using decl, unless DECL_DEPENDENT_P is true, USING_DECL_DECLS contains the _DECL or OVERLOAD so named. This is not an alias, but is later expanded into multiple aliases. */ DEFTREECODE (USING_DECL, "using_decl", tcc_declaration, 0) /* A using directive. The operand is USING_STMT_NAMESPACE. */ DEFTREECODE (USING_STMT, "using_stmt", tcc_statement, 1) /* An un-parsed default argument. Holds a vector of input tokens and a vector of places where the argument was instantiated before parsing had occurred. */ DEFTREECODE (DEFAULT_ARG, "default_arg", tcc_exceptional, 0) /* An uninstantiated/unevaluated noexcept-specification. For the uninstantiated case, DEFERRED_NOEXCEPT_PATTERN is the pattern from the template, and DEFERRED_NOEXCEPT_ARGS are the template arguments to substitute into the pattern when needed. For the unevaluated case, those slots are NULL_TREE and we use get_defaulted_eh_spec to find the exception-specification. */ DEFTREECODE (DEFERRED_NOEXCEPT, "deferred_noexcept", tcc_exceptional, 0) /* A template-id, like foo<int>. The first operand is the template. The second is NULL if there are no explicit arguments, or a TREE_VEC of arguments. The template will be a FUNCTION_DECL, TEMPLATE_DECL, or an OVERLOAD. If the template-id refers to a member template, the template may be an IDENTIFIER_NODE. */ DEFTREECODE (TEMPLATE_ID_EXPR, "template_id_expr", tcc_expression, 2) /* A list-like node for chaining overloading candidates. TREE_TYPE is the original name, and the parameter is the FUNCTION_DECL. */ DEFTREECODE (OVERLOAD, "overload", tcc_exceptional, 0) /* A pseudo-destructor, of the form "OBJECT.~DESTRUCTOR" or "OBJECT.SCOPE::~DESTRUCTOR. The first operand is the OBJECT. The second operand (if non-NULL) is the SCOPE. The third operand is the TYPE node corresponding to the DESTRUCTOR. The type of the first operand will always be a scalar type. The type of a PSEUDO_DTOR_EXPR is always "void", even though it can be used as if it were a zero-argument function. We handle the function-call case specially, and giving it "void" type prevents it being used in expressions in ways that are not permitted. */ DEFTREECODE (PSEUDO_DTOR_EXPR, "pseudo_dtor_expr", tcc_expression, 3) /* A whole bunch of tree codes for the initial, superficial parsing of templates. */ DEFTREECODE (MODOP_EXPR, "modop_expr", tcc_expression, 3) DEFTREECODE (CAST_EXPR, "cast_expr", tcc_unary, 1) DEFTREECODE (REINTERPRET_CAST_EXPR, "reinterpret_cast_expr", tcc_unary, 1) DEFTREECODE (CONST_CAST_EXPR, "const_cast_expr", tcc_unary, 1) DEFTREECODE (STATIC_CAST_EXPR, "static_cast_expr", tcc_unary, 1) DEFTREECODE (DYNAMIC_CAST_EXPR, "dynamic_cast_expr", tcc_unary, 1) DEFTREECODE (IMPLICIT_CONV_EXPR, "implicit_conv_expr", tcc_unary, 1) DEFTREECODE (DOTSTAR_EXPR, "dotstar_expr", tcc_expression, 2) DEFTREECODE (TYPEID_EXPR, "typeid_expr", tcc_expression, 1) DEFTREECODE (NOEXCEPT_EXPR, "noexcept_expr", tcc_unary, 1) /* A placeholder for an expression that is not type-dependent, but does occur in a template. When an expression that is not type-dependent appears in a larger expression, we must compute the type of that larger expression. That computation would normally modify the original expression, which would change the mangling of that expression if it appeared in a template argument list. In that situation, we create a NON_DEPENDENT_EXPR to take the place of the original expression. The expression is the only operand -- it is only needed for diagnostics. */ DEFTREECODE (NON_DEPENDENT_EXPR, "non_dependent_expr", tcc_expression, 1) /* CTOR_INITIALIZER is a placeholder in template code for a call to setup_vtbl_pointer (and appears in all functions, not just ctors). */ DEFTREECODE (CTOR_INITIALIZER, "ctor_initializer", tcc_expression, 1) DEFTREECODE (TRY_BLOCK, "try_block", tcc_statement, 2) DEFTREECODE (EH_SPEC_BLOCK, "eh_spec_block", tcc_statement, 2) /* A HANDLER wraps a catch handler for the HANDLER_TYPE. If this is CATCH_ALL_TYPE, then the handler catches all types. The declaration of the catch variable is in HANDLER_PARMS, and the body block in HANDLER_BODY. */ DEFTREECODE (HANDLER, "handler", tcc_statement, 2) /* A MUST_NOT_THROW_EXPR wraps an expression that may not throw, and must call terminate if it does. The second argument is a condition, used in templates to express noexcept (condition). */ DEFTREECODE (MUST_NOT_THROW_EXPR, "must_not_throw_expr", tcc_expression, 2) /* A CLEANUP_STMT marks the point at which a declaration is fully constructed. The CLEANUP_EXPR is run on behalf of CLEANUP_DECL when CLEANUP_BODY completes. */ DEFTREECODE (CLEANUP_STMT, "cleanup_stmt", tcc_statement, 3) /* Represents an 'if' statement. The operands are IF_COND, THEN_CLAUSE, and ELSE_CLAUSE, and the current scope, respectively. */ /* ??? It is currently still necessary to distinguish between IF_STMT and COND_EXPR for the benefit of templates. */ DEFTREECODE (IF_STMT, "if_stmt", tcc_statement, 4) /* Used to represent a `for' statement. The operands are FOR_INIT_STMT, FOR_COND, FOR_EXPR, and FOR_BODY, respectively. */ DEFTREECODE (FOR_STMT, "for_stmt", tcc_statement, 5) /* Used to represent a range-based `for' statement. The operands are RANGE_FOR_DECL, RANGE_FOR_EXPR, RANGE_FOR_BODY, and RANGE_FOR_SCOPE, respectively. Only used in templates. */ DEFTREECODE (RANGE_FOR_STMT, "range_for_stmt", tcc_statement, 4) /* Used to represent a 'while' statement. The operands are WHILE_COND and WHILE_BODY, respectively. */ DEFTREECODE (WHILE_STMT, "while_stmt", tcc_statement, 2) /* Used to represent a 'do' statement. The operands are DO_BODY and DO_COND, respectively. */ DEFTREECODE (DO_STMT, "do_stmt", tcc_statement, 2) /* Used to represent a 'break' statement. */ DEFTREECODE (BREAK_STMT, "break_stmt", tcc_statement, 0) /* Used to represent a 'continue' statement. */ DEFTREECODE (CONTINUE_STMT, "continue_stmt", tcc_statement, 0) /* Used to represent a 'switch' statement. The operands are SWITCH_STMT_COND, SWITCH_STMT_BODY, SWITCH_STMT_TYPE, and SWITCH_STMT_SCOPE, respectively. */ DEFTREECODE (SWITCH_STMT, "switch_stmt", tcc_statement, 4) /* Used to represent an expression statement. Use `EXPR_STMT_EXPR' to obtain the expression. */ DEFTREECODE (EXPR_STMT, "expr_stmt", tcc_expression, 1) DEFTREECODE (TAG_DEFN, "tag_defn", tcc_expression, 0) /* Represents an 'offsetof' expression during template expansion. */ DEFTREECODE (OFFSETOF_EXPR, "offsetof_expr", tcc_expression, 2) /* Represents an '__builtin_addressof' expression during template expansion. This is similar to ADDR_EXPR, but it doesn't invoke overloaded & operators. */ DEFTREECODE (ADDRESSOF_EXPR, "addressof_expr", tcc_expression, 1) /* Represents the -> operator during template expansion. */ DEFTREECODE (ARROW_EXPR, "arrow_expr", tcc_expression, 1) /* Represents an '__alignof__' expression during template expansion. */ DEFTREECODE (ALIGNOF_EXPR, "alignof_expr", tcc_expression, 1) /* Represents an Objective-C++ '@encode' expression during template expansion. */ DEFTREECODE (AT_ENCODE_EXPR, "at_encode_expr", tcc_expression, 1) /* A STMT_EXPR represents a statement-expression during template expansion. This is the GCC extension { ( ... ) }. The STMT_EXPR_STMT is the statement given by the expression. */ DEFTREECODE (STMT_EXPR, "stmt_expr", tcc_expression, 1) /* Unary plus. Operand 0 is the expression to which the unary plus is applied. */ DEFTREECODE (UNARY_PLUS_EXPR, "unary_plus_expr", tcc_unary, 1) /** C++11 extensions. */ /* A static assertion. This is a C++11 extension. STATIC_ASSERT_CONDITION contains the condition that is being checked. STATIC_ASSERT_MESSAGE contains the message (a string literal) to be displayed if the condition fails to hold. */ DEFTREECODE (STATIC_ASSERT, "static_assert", tcc_exceptional, 0) /* Represents an argument pack of types (or templates). An argument pack stores zero or more arguments that will be used to instantiate a parameter pack. ARGUMENT_PACK_ARGS retrieves the arguments stored in the argument pack. Example: template<typename... Values> class tuple { ... }; tuple<int, float, double> t; Values is a (template) parameter pack. When tuple<int, float, double> is instantiated, the Values parameter pack is instantiated with the argument pack <int, float, double>. ARGUMENT_PACK_ARGS will be a TREE_VEC containing int, float, and double. */ DEFTREECODE (TYPE_ARGUMENT_PACK, "type_argument_pack", tcc_type, 0) /* Represents an argument pack of values, which can be used either for non-type template arguments or function call arguments. NONTYPE_ARGUMENT_PACK plays precisely the same role as TYPE_ARGUMENT_PACK, but will be used for packing non-type template arguments (e.g., "int... Dimensions") or function arguments ("const Args&... args"). */ DEFTREECODE (NONTYPE_ARGUMENT_PACK, "nontype_argument_pack", tcc_expression, 1) /* Represents a type expression that will be expanded into a list of types when instantiated with one or more argument packs. PACK_EXPANSION_PATTERN retrieves the expansion pattern. This is the type or expression that we will substitute into with each argument in an argument pack. SET_PACK_EXPANSION_PATTERN sets the expansion pattern. PACK_EXPANSION_PARAMETER_PACKS contains a TREE_LIST of the parameter packs that are used in this pack expansion. Example: template<typename... Values> struct tied : tuple<Values&...> { // ... }; The derivation from tuple contains a TYPE_PACK_EXPANSION for the template arguments. Its PACK_EXPANSION_PATTERN is "Values&" and its PACK_EXPANSION_PARAMETER_PACKS will contain "Values". */ DEFTREECODE (TYPE_PACK_EXPANSION, "type_pack_expansion", tcc_type, 0) /* Represents an expression that will be expanded into a list of expressions when instantiated with one or more argument packs. EXPR_PACK_EXPANSION plays precisely the same role as TYPE_PACK_EXPANSION, but will be used for expressions. */ DEFTREECODE (EXPR_PACK_EXPANSION, "expr_pack_expansion", tcc_expression, 3) /* Selects the Ith parameter out of an argument pack. This node will be used when instantiating pack expansions; see tsubst_pack_expansion. ARGUMENT_PACK_SELECT_FROM_PACK contains the *_ARGUMENT_PACK node from which the argument will be selected. ARGUMENT_PACK_SELECT_INDEX contains the index into the argument pack that will be returned by this ARGUMENT_PACK_SELECT node. The index is a machine integer. */ DEFTREECODE (ARGUMENT_PACK_SELECT, "argument_pack_select", tcc_exceptional, 0) /* Fold expressions allow the expansion of a template argument pack over a binary operator. FOLD_EXPR_MOD_P is true when the fold operation is a compound assignment operator. FOLD_EXPR_OP is an INTEGER_CST storing the tree code for the folded expression. Note that when FOLDEXPR_MOD_P is true, the operator is a compound assignment operator for that kind of expression. FOLD_EXPR_PACK is an expression containing an unexpanded parameter pack; when expanded, each term becomes an argument of the folded expression. In a BINARY_FOLD_EXPRESSION, FOLD_EXPR_INIT is the non-pack argument. */ DEFTREECODE (UNARY_LEFT_FOLD_EXPR, "unary_left_fold_expr", tcc_expression, 2) DEFTREECODE (UNARY_RIGHT_FOLD_EXPR, "unary_right_fold_expr", tcc_expression, 2) DEFTREECODE (BINARY_LEFT_FOLD_EXPR, "binary_left_fold_expr", tcc_expression, 3) DEFTREECODE (BINARY_RIGHT_FOLD_EXPR, "binary_right_fold_expr", tcc_expression, 3) /** C++ extensions. */ /* Represents a trait expression during template expansion. */ DEFTREECODE (TRAIT_EXPR, "trait_expr", tcc_exceptional, 0) /* A lambda expression. This is a C++0x extension. LAMBDA_EXPR_DEFAULT_CAPTURE_MODE is an enum for the default, which may be none. LAMBDA_EXPR_CAPTURE_LIST holds the capture-list, including `this'. LAMBDA_EXPR_THIS_CAPTURE goes straight to the capture of `this', if it exists. LAMBDA_EXPR_PENDING_PROXIES is a vector of capture proxies which need to be pushed once scope returns to the lambda. LAMBDA_EXPR_MUTABLE_P signals whether this lambda was declared mutable. LAMBDA_EXPR_RETURN_TYPE holds the return type, if it was specified. */ DEFTREECODE (LAMBDA_EXPR, "lambda_expr", tcc_exceptional, 0) /* The declared type of an expression. This is a C++0x extension. DECLTYPE_TYPE_EXPR is the expression whose type we are computing. DECLTYPE_TYPE_ID_EXPR_OR_MEMBER_ACCESS_P states whether the expression was parsed as an id-expression or a member access expression. When false, it was parsed as a full expression. DECLTYPE_FOR_LAMBDA_CAPTURE is set if we want lambda capture semantics. DECLTYPE_FOR_LAMBDA_RETURN is set if we want lambda return deduction. */ DEFTREECODE (DECLTYPE_TYPE, "decltype_type", tcc_type, 0) /* A type designated by `__underlying_type (type)'. UNDERLYING_TYPE_TYPE is the type in question. */ DEFTREECODE (UNDERLYING_TYPE, "underlying_type", tcc_type, 0) /* A type designated by one of the bases type traits. BASES_TYPE is the type in question. */ DEFTREECODE (BASES, "bases", tcc_type, 0) /* Used to represent the template information stored by template specializations. The accessors are: TI_TEMPLATE the template declaration associated to the specialization TI_ARGS the arguments of the template specialization TI_TYPEDEFS_NEEDING_ACCESS_CHECKING the vector of typedefs used in the pattern of the template for which access check is needed at template instantiation time. */ DEFTREECODE (TEMPLATE_INFO, "template_info", tcc_exceptional, 0) /* Extensions for Concepts. */ /* Used to represent information associated with constrained declarations. */ DEFTREECODE (CONSTRAINT_INFO, "constraint_info", tcc_exceptional, 0) /* A wildcard declaration is a placeholder for a template parameter used to resolve constrained-type-names in concepts. During resolution, the matching argument is saved as the TREE_TYPE of the wildcard. */ DEFTREECODE (WILDCARD_DECL, "wildcard_decl", tcc_declaration, 0) /* A requires-expr is a binary expression. The first operand is its parameter list (possibly NULL). The second is a list of requirements, which are denoted by the _REQ* tree codes below. */ DEFTREECODE (REQUIRES_EXPR, "requires_expr", tcc_expression, 2) /* A requirement for an expression. */ DEFTREECODE (SIMPLE_REQ, "simple_req", tcc_expression, 1) /* A requirement for a type. */ DEFTREECODE (TYPE_REQ, "type_req", tcc_expression, 1) /* A requirement for an expression and its properties. The first operand is the expression, and the 2nd is its type. The accessor COMPOUND_REQ_NOEXCEPT determines whether the noexcept keyword was present. */ DEFTREECODE (COMPOUND_REQ, "compound_req", tcc_expression, 2) /* A requires clause within a requires expression. */ DEFTREECODE (NESTED_REQ, "nested_req", tcc_expression, 1) /* Constraints are modeled as kinds of expressions. The operands of a constraint can be either types or expressions. Unlike expressions, constraints do not have a type. */ /* A predicate constraint evaluates an expression E. PRED_CONSTR_EXPR has the expression to be evaluated. */ DEFTREECODE (PRED_CONSTR, "pred_constr", tcc_expression, 1) /* A check constraint represents the checking of a concept C. It has two operands: the template defining the concept and a sequence of template arguments. CHECK_CONSTR_CONCEPT has the concept definition CHECK_CONSTR_ARGUMENTS are the template arguments */ DEFTREECODE (CHECK_CONSTR, "check_constr", tcc_expression, 2) /* An expression constraint determines the validity of a expression E. EXPR_CONST_EXPR has the expression being validated. */ DEFTREECODE (EXPR_CONSTR, "expr_constr", tcc_expression, 1) /* A type constraint determines the validity of a type T. Note that TYPE_CONST_TYPE has the type being validated */ DEFTREECODE (TYPE_CONSTR, "type_constr", tcc_expression, 1) /* An implicit conversion constraint determines if an expression E is implicitly convertible to a type T. Note that T may be dependent but does not contain any placeholders. ICONV_CONSTR_EXPR has the expression E. ICONV_CONSTR_TYPE has the type T. */ DEFTREECODE (ICONV_CONSTR, "iconv_constr", tcc_expression, 2) /* An argument deduction constraint determines if the type of an expression E can be deduced from a type pattern T. Note that T must contain at least one place holder. DEDUCT_CONSTR_EXPR has the expression E DEDUCT_CONSTR_PATTERN has the type pattern T. DEDUCT_CONSTR_PLACEHOLDERS has the list of placeholder nodes in T. */ DEFTREECODE (DEDUCT_CONSTR, "deduct_constr", tcc_expression, 3) /* An exception constraint determines if, for an expression E, noexcept(E) is true. EXCEPT_CONSTR_EXPR has the expression E. */ DEFTREECODE (EXCEPT_CONSTR, "except_constr", tcc_expression, 1) /* A parameterized constraint declares constraint variables, which are used in expression, type, and exception constraints. PARM_CONSTR_PARMS has a TREE_LIST of parameter declarations. PARM_CONSTR_OPERAND has the nested constraint. */ DEFTREECODE (PARM_CONSTR, "parm_constr", tcc_expression, 2) /* The conjunction and disjunction of two constraints, respectively. Operands are accessed using TREE_OPERAND. */ DEFTREECODE (CONJ_CONSTR, "conj_constr", tcc_expression, 2) DEFTREECODE (DISJ_CONSTR, "disj_constr", tcc_expression, 2) /* Local variables: mode:c End: */