------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- E I N F O -- -- -- -- S p e c -- -- -- -- Copyright (C) 1992-2005, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 2, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT 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 distributed with GNAT; see file COPYING. If not, write -- -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, -- -- MA 02111-1307, USA. -- -- -- -- As a special exception, if other files instantiate generics from this -- -- unit, or you link this unit with other files to produce an executable, -- -- this unit does not by itself cause the resulting executable to be -- -- covered by the GNU General Public License. This exception does not -- -- however invalidate any other reasons why the executable file might be -- -- covered by the GNU Public License. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Snames; use Snames; with Types; use Types; with Uintp; use Uintp; with Urealp; use Urealp; package Einfo is -- This package defines the annotations to the abstract syntax tree that -- are needed to support semantic processing of an Ada compilation. -- Note that after editing this spec and the corresponding body it is -- required to run ceinfo to check the consistentcy of spec and body. -- See ceinfo.adb for more information about the checks made. -- These annotations are for the most part attributes of declared entities, -- and they correspond to conventional symbol table information. Other -- attributes include sets of meanings for overloaded names, possible -- types for overloaded expressions, flags to indicate deferred constants, -- incomplete types, etc. These attributes are stored in available fields -- in tree nodes (i.e. fields not used by the parser, as defined by the -- Sinfo package specification), and accessed by means of a set of -- subprograms which define an abstract interface. -- There are two kinds of semantic information -- First, the tree nodes with the following Nkind values: -- N_Defining_Identifier -- N_Defining_Character_Literal -- N_Defining_Operator_Symbol -- are called Entities, and constitute the information that would often -- be stored separately in a symbol table. These nodes are all extended -- to provide extra space, and contain fields which depend on the entity -- kind, as defined by the contents of the Ekind field. The use of the -- Ekind field, and the associated fields in the entity, are defined -- in this package, as are the access functions to these fields. -- Second, in some cases semantic information is stored directly in other -- kinds of nodes, e.g. the Etype field, used to indicate the type of an -- expression. The access functions to these fields are defined in the -- Sinfo package, but their full documentation is to be found in -- the Einfo package specification. -- Declaration processing places information in the nodes of their defining -- identifiers. Name resolution places in all other occurrences of an -- identifier a pointer to the corresponding defining occurrence. -------------------------------- -- The XEINFO Utility Program -- -------------------------------- -- XEINFO is a utility program which automatically produces a C header file, -- a-xeinfo.h from the spec and body of package Einfo. It reads the input -- files einfo.ads and einfo.adb and produces the output file a-xeinfo.h. -- In order for this utility program to operate correctly, the form of the -- einfo.ads and einfo.adb files must meet certain requirements and be laid -- out in a specific manner. -- The general form of einfo.ads is as follows: -- type declaration for type Entity_Kind -- subtype declarations declaring subranges of Entity_Kind -- subtype declarations declaring synonyms for some standard types -- function specs for attributes -- procedure specs -- pragma Inline declarations -- This order must be observed. There are no restrictions on the procedures, -- since the C header file only includes functions (Gigi is not allowed to -- modify the generated tree). However, functions are required to have headers -- that fit on a single line. -- XEINFO reads and processes the function specs and the pragma Inlines. For -- functions that are declared as inlined, XEINFO reads the corresponding body -- from xeinfo.adb, and processes it into C code. This results in some strict -- restrictions on which functions can be inlined: -- The function spec must be on a single line -- There can only be a single statement, contained on a single line, -- not counting any pragma Assert statements. -- This single statement must either by a function call with simple, -- single token arguments, or it must be a membership test of the form -- a in b, where a and b are single tokens. -- For functions that are not inlined, there is no restriction on the body, -- and XEINFO generates a direct reference in the C header file which allows -- the C code in Gigi to directly call the corresponding Ada body. ---------------------------------- -- Handling of Type'Size Values -- ---------------------------------- -- The Ada 95 RM contains some rather peculiar (to us!) rules on the value -- of type'Size (see RM 13.3(55)). We have found that attempting to use -- these RM Size values generally, and in particular for determining the -- default size of objects, creates chaos, and major incompatibilies in -- existing code. -- We proceed as follows, for discrete and fixed-point subtypes, we have -- two separate sizes for each subtype: -- The Object_Size, which is used for determining the default size of -- objects and components. This size value can be referred to using the -- Object_Size attribute. The phrase "is used" here means that it is -- the basis of the determination of the size. The backend is free to -- pad this up if necessary for efficiency, e.g. an 8-bit stand-alone -- character might be stored in 32 bits on a machine with no efficient -- byte access instructions such as the Alpha. -- The default rules for the value of Object_Size for fixed-point and -- discrete types are as follows: -- The Object_Size for base subtypes reflect the natural hardware -- size in bits (see Ttypes and Cstand for integer types). For -- enumeration and fixed-point base subtypes have 8. 16. 32 or 64 -- bits for this size, depending on the range of values to be stored. -- The Object_Size of a subtype is the same as the Object_Size of -- the subtype from which it is obtained. -- The Object_Size of a derived base type is copied from the parent -- base type, and the Object_Size of a derived first subtype is copied -- from the parent first subtype. -- The Value_Size which is the number of bits required to store a value -- of the type. This size can be referred to using the Value_Size -- attribute. This value is used to determine how tightly to pack -- records or arrays with components of this type, and also affects -- the semantics of unchecked conversion (unchecked conversions where -- the Value_Size values differ generate a warning, and are potentially -- target dependent). -- The default rule for the value of Value_Size are as follows: -- The Value_Size for a base subtype is the minimum number of bits -- required to store all values of the type (including the sign bit -- only if negative values are possible). -- If a subtype statically matches the first subtype, then it has -- by default the same Value_Size as the first subtype. This is a -- consequence of RM 13.1(14) ("if two subtypes statically match, -- then their subtype-specific aspects are the same".) -- All other subtypes have a Value_Size corresponding to the minimum -- number of bits required to store all values of the subtype. For -- dynamic bounds, it is assumed that the value can range down or up -- to the corresponding bound of the ancestor -- The RM defined attribute Size corresponds to the Value_Size attribute. -- The Size attribute may be defined for a first-named subtype. This sets -- the Value_Size of the first-named subtype to the given value, and the -- Object_Size of this first-named subtype to the given value padded up -- to an appropriate boundary. It is a consequence of the default rules -- above that this Object_Size will apply to all further subtypes. On the -- otyher hand, Value_Size is affected only for the first subtype, any -- dynamic subtypes obtained from it directly, and any statically matching -- subtypes. The Value_Size of any other static subtypes is not affected. -- Value_Size and Object_Size may be explicitly set for any subtype using -- an attribute definition clause. Note that the use of these attributes -- can cause the RM 13.1(14) rule to be violated. If two access types -- reference aliased objects whose subtypes have differing Object_Size -- values as a result of explicit attribute definition clauses, then it -- is erroneous to convert from one access subtype to the other. -- At the implementation level, Esize stores the Object_Size and the -- RM_Size field stores the Value_Size (and hence the value of the -- Size attribute, which, as noted above, is equivalent to Value_Size). -- To get a feel for the difference, consider the following examples (note -- that in each case the base is short_short_integer with a size of 8): -- Object_Size Value_Size -- type x1 is range 0..5; 8 3 -- type x2 is range 0..5; -- for x2'size use 12; 12 12 -- subtype x3 is x2 range 0 .. 3; 12 2 -- subtype x4 is x2'base range 0 .. 10; 8 4 -- subtype x5 is x2 range 0 .. dynamic; 12 (7) -- subtype x6 is x2'base range 0 .. dynamic; 8 (7) -- Note: the entries marked (7) are not actually specified by the Ada 95 RM, -- but it seems in the spirit of the RM rules to allocate the minimum number -- of bits known to be large enough to hold the given range of values. -- So far, so good, but GNAT has to obey the RM rules, so the question is -- under what conditions must the RM Size be used. The following is a list -- of the occasions on which the RM Size must be used: -- Component size for packed arrays or records -- Value of the attribute Size for a type -- Warning about sizes not matching for unchecked conversion -- The RM_Size field keeps track of the RM Size as needed in these -- three situations. -- For types other than discrete and fixed-point types, the Object_Size -- and Value_Size are the same (and equivalent to the RM attribute Size). -- Only Size may be specified for such types. ----------------------- -- Entity Attributes -- ----------------------- -- This section contains a complete list of the attributes that are defined -- on entities. Some attributes apply to all entities, others only to certain -- kinds of entities. In the latter case the attribute should only be set or -- accessed if the Ekind field indicates an appropriate entity. -- There are two kinds of attributes that apply to entities, stored and -- synthesized. Stored attributes correspond to a field or flag in the entity -- itself. Such attributes are identified in the table below by giving the -- field or flag in the attribute that is used to hold the attribute value. -- Synthesized attributes are not stored directly, but are rather computed as -- needed from other attributes, or from information in the tree. These are -- marked "synthesized" in the table below. The stored attributes have both -- access functions and set procedures to set the corresponding values, while -- synthesized attributes have only access functions. -- Note: in the case of Node, Uint, or Elist fields, there are cases where -- the same physical field is used for different purposes in different -- entities, so these access functions should only be referenced for the -- class of entities in which they are defined as being present. Flags are -- not overlapped in this way, but nevertheless as a matter of style and -- abstraction (which may or may not be checked by assertions in the body), -- this restriction should be observed for flag fields as well. -- Note: certain of the attributes on types apply only to base types, and -- are so noted by the notation [base type only]. These are cases where the -- attribute of any subtype is the same as the attribute of the base type. -- The attribute can be referenced on a subtype (and automatically retrieves -- the value from the base type). However, it is an error to try to set the -- attribute on other than the base type, and if assertions are enabled, -- an attempt to set the attribute on a subtype will raise an assert error. -- Other attributes are noted as applying the implementation base type only. -- These are representation attributes which must always apply to a full -- non-private type, and where the attributes are always on the full type. -- The attribute can be referenced on a subtype (and automatically retries -- the value from the implementation base type). However, it is an error -- to try to set the attribute on other than the implementation base type, -- and if assertions are enabled, an attempt to set the attribute on a -- subtype will raise an assert error. -- Accept_Address (Elist21) -- Present in entries. If an accept has a statement sequence, then an -- address variable is created, which is used to hold the address of the -- parameters, as passed by the runtime. Accept_Address holds an element -- list which represents a stack of entities for these address variables. -- The current entry is the top of the stack, which is the last element -- on the list. A stack is required to handle the case of nested select -- statements referencing the same entry. -- Actual_Subtype (Node17) -- Present in variables, constants, and formal parameters. This is the -- subtype imposed by the value of the object, as opposed to its nominal -- subtype, which is imposed by the declaration. The actual subtype -- differs from the nominal one when the latter is indefinite (as in the -- case of an unconstrained formal parameter, or a variable declared -- with an unconstrained type and an initial value). The nominal subtype -- is the Etype entry for the entity. The Actual_Subtype field is set -- only if the actual subtype differs from the nominal subtype. If the -- actual and nominal subtypes are the same, then the Actual_Subtype -- field is Empty, and Etype indicates both types. -- -- For objects, the Actual_Subtype is set only if this is a discriminated -- type. For arrays, the bounds of the expression are obtained and the -- Etype of the object is directly the constrained subtype. This is -- rather irregular, and the semantic checks that depend on the nominal -- subtype being unconstrained use flag Is_Constr_Subt_For_U_Nominal(qv). -- Access_Disp_Table (Node16) [implementation base type only] -- Present in record type entities. For a tagged type, points to the -- dispatch table associated with the tagged type. For a non-tagged -- record, contains Empty. -- Address_Clause (synthesized) -- Applies to entries, objects and subprograms. Set if an address clause -- is present which references the object or subprogram and points to -- the N_Attribute_Definition_Clause node. Empty if no Address clause. -- The expression in the address clause is always a constant that is -- defined before the entity to which the address clause applies. -- Note: Gigi references this field in E_Task_Type entities??? -- Address_Taken (Flag104) -- Present in all entities. Set if the Address or Unrestricted_Access -- attribute is applied directly to the entity, i.e. the entity is the -- entity of the prefix of the attribute reference. Used by Gigi to -- make sure that the address can be meaningfully taken. -- Alias (Node18) -- Present in overloaded entities (literals, subprograms, entries). -- Points to parent subprogram of a derived subprogram. Also used for -- a subprogram renaming, where it points to the renamed subprogram. -- Always empty for entries. -- Alignment (Uint14) -- Present in entities for types and also in constants, variables, -- loop parameters, and formal parameters. This indicates the desired -- alignment for a type, or the actual alignment for an object. A value -- of zero (Uint_0) indicates that the alignment has not been set yet. -- The alignment can be set by an explicit alignment clause, or set by -- the front-end in package Layout, or set by the back-end as part of -- the back end back-annotation process. The alignment field is also -- present in E_Exception entities, but there it is used only by the -- back-end for back annotation. -- Alignment_Clause (synthesized) -- Appllies to all entities for types and objects. If an alignment -- attribute definition clause is present for the entity, then this -- function returns the N_Attribute_Definition clause that specifies the -- alignment. If no alignment clause applies to the type, then the call -- to this function returns Empty. Note that the call can return a -- non-Empty value even if Has_Alignment_Clause is not set (happens with -- subtype and derived type declarations). Note also that a record -- definition clause with an (obsolescent) mod clause is converted -- into an attribute definition clause for this purpose. -- Ancestor_Subtype (synthesized) -- Applies to all type and subtype entities. If the argument is a -- subtype then it returns the subtype or type from which the subtype -- was obtained, otherwise it returns Empty. -- Associated_Formal_Package (Node12) -- Present in packages that are the actuals of formal_packages. Points -- to the entity in the declaration for the formal package. -- Associated_Node_For_Itype (Node8) -- Present in all type and subtype entities. Set non-Empty only for -- Itypes. Set to point to the associated node for the Itype, i.e. -- the node whose elaboration generated the Itype. This is used for -- copying trees, to determine whether or not to copy an Itype. -- Associated_Storage_Pool (Node22) [root type only] -- Present in simple and general access type entities. References the -- storage pool to be used for the corresponding collection. A value of -- Empty means that the default pool is to be used. This is present -- only in the root type, since derived types must have the same pool -- as the parent type. -- Associated_Final_Chain (Node23) -- Present in simple and general access type entities. References the -- List_Controller object that holds the finalization chain on which -- are attached dynamically allocated objects referenced by the access -- type. Empty when the access type cannot reference a controlled object. -- Barrier_Function (Node12) -- Present in protected entries and entry families. This is the -- subprogram declaration for the body of the function that returns -- the value of the entry barrier. -- Base_Type (synthesized) -- Applies to all type entities. Returns the base type of a type or -- subtype. The base type of a type is the type itself. The base type -- of a subtype is the type that it constrains (which is always a type -- entity, not some other subtype). Note that in the case of a subtype -- of a private type, it is possible for the base type attribute to -- return a private type, even if the subtype to which it applies is -- non-private. See also Implementation_Base_Type. Note: it is allowed -- to apply Base_Type to other than a type, in which case it simply -- returns the entity unchanged. -- Block_Node (Node11) -- Present in block entities. Points to the identifier in the -- Block_Statement itself. Used when retrieving the block construct -- for finalization purposes, The block entity has an implicit label -- declaration in the enclosing declarative part, and has otherwise -- no direct connection in the tree with the block statement. The -- link is to the identifier (which is an occurence of the entity) -- and not to the block_statement itself, because the statement may -- be rewritten, e.g. in the process of removing dead code. -- Body_Entity (Node19) -- Present in package and generic package entities, points to the -- corresponding package body entity if one is present. -- Body_Needed_For_SAL (Flag40) -- Present in package and subprogram entities that are compilation -- units. Indicates that the source for the body must be included -- when the unit is part of a standalone library. -- C_Pass_By_Copy (Flag125) [implementation base type only] -- Present in record types. Set if a pragma Convention for the record -- type specifies convention C_Pass_By_Copy. This convention name is -- treated as identical in all respects to convention C, except that -- if it is specified for a record type, then the C_Pass_By_Copy flag -- is set, and if a foreign convention subprogram has a formal of the -- corresponding type, then the parameter passing mechanism will be -- set to By_Copy (unless specifically overridden by an Import or -- Export pragma). -- Can_Never_Be_Null (Flag38) -- This flag is present in all entities, but can only be set in an -- object which can never have a null value. This is used to avoid -- unncessary resetting of the Is_Known_Non_Null flag for such -- entities. The cases where this is set True are constant access -- values initialized to a non-null value, and access parameters. -- Chars (Name1) -- Present in all entities. This field contains an entry into the names -- table that has the character string of the identifier, character -- literal or operator symbol. See Namet for further details. Note that -- throughout the processing of the front end, this name is the simple -- unqualified name. However, just before gigi is called, a call is made -- to Qualify_All_Entity_Names. This causes entity names to be qualified -- using the encoding described in exp_dbug.ads, and from that point on -- (including post gigi steps such as cross-reference generation), the -- entities will contain the encoded qualified names. -- Checks_May_Be_Suppressed (Flag31) -- Present in all entities. Set if a pragma Suppress or Unsuppress -- mentions the entity specifically in the second argument. If this -- flag is set the the Global_Entity_Suppress and Local_Entity_Suppress -- tables must be consulted to determine if the is actually an active -- Suppress or Unsuppress pragma that applies to the entity. -- Class_Wide_Type (Node9) -- Present in all type entities. For a tagged type or subtype, returns -- the corresponding implicitly declared class-wide type. Set to Empty -- for non-tagged types. -- Cloned_Subtype (Node16) -- Present in E_Record_Subtype and E_Class_Wide_Subtype entities. -- Each such entity can either have a Discriminant_Constraint, in -- which case it represents a distinct type from the base type (and -- will have a list of components and discrimants in the list headed by -- First_Entity) or else no such constraint, in which case it will be a -- copy of the base type. -- -- o Each element of the list in First_Entity is copied from the base -- type; in that case, this field is Empty. -- -- o The list in First_Entity is shared with the base type; in that -- case, this field points to that entity. -- -- A record or classwide subtype may also be a copy of some other -- subtype and share the entities in the First_Entity with that subtype. -- In that case, this field points to that subtype. -- -- For E_Class_Wide_Subtype, the presence of Equivalent_Type overrides -- this field. Note that this field ONLY appears in subtype entries, not -- in type entries, it is not present, and it is an error to reference -- Cloned_Subtype in an E_Record_Type or E_Class_Wide_Type entity. -- Comes_From_Source -- This flag appears on all nodes, including entities, and indicates -- that the node was created by the scanner or parser from the original -- source. Thus for entities, it indicates that the entity is defined -- in the original source program. -- Component_Alignment (special field) [base type only] -- Present in array and record entities. Contains a value of type -- Component_Alignment_Kind indicating the alignment of components. -- Set to Calign_Default normally, but can be overridden by use of -- the Component_Alignment pragma. Note: this field is currently -- stored in a non-standard way, see body for details. -- Component_Bit_Offset (Uint11) -- Present in record components (E_Component, E_Discriminant) if a -- component clause applies to the component. First bit position of -- given component, computed from the first bit and position values -- given in the component clause. A value of No_Uint means that the -- value is not yet known. The value can be set by the appearence of -- an explicit component clause in a record representation clause, -- or it can be set by the front-end in package Layout, or it can be -- set by the backend. By the time backend processing is completed, -- this field is always set. A negative value is used to represent -- a value which is not known at compile time, and must be computed -- at run-time (this happens if fields of a record have variable -- lengths). See package Layout for details of these values. -- -- Note: this field is obsolescent, to be eventually replaced entirely -- by Normalized_First_Bit and Normalized_Position, but for the moment, -- gigi is still using (and back annotating) this field, and gigi does -- not know about the new fields. For the front end layout case, the -- Component_Bit_Offset field is only set if it is static, and otherwise -- the new Normalized_First_Bit and Normalized_Position fields are used. -- Component_Clause (Node13) -- Present in record components and discriminants. If a record -- representation clause is present for the corresponding record -- type a that specifies a position for the component, then the -- Component_Clause field of the E_Component entity points to the -- N_Component_Clause node. Set to Empty if no record representation -- clause was present, or if there was no specification for this -- component. -- Component_Size (Uint22) [implementation base type only] -- Present in array types. It contains the component size value for -- the array. A value of No_Uint means that the value is not yet set. -- The value can be set by the use of a component size clause, or -- by the front end in package Layout, or by the backend. A negative -- value is used to represent a value which is not known at compile -- time, and must be computed at run-time (this happens if the type -- of the component has a variable length size). See package Layout -- for details of these values. -- Component_Type (Node20) [implementation base type only] -- Present in array types and string types. References component type. -- Constant_Value (synthesized) -- Applies to variables, constants, named integers, and named reals. -- Obtains the initialization expression for the entity. Will return -- Empty for for a deferred constant whose full view is not available -- or in some other cases of internal entities, which cannot be treated -- as constants from the point of view of constant folding. Empty is -- also returned for variables with no initialization expression. -- Corresponding_Concurrent_Type (Node18) -- Present in record types that are constructed by the expander to -- represent task and protected types (Is_Concurrent_Record_Type flag -- set True). Points to the entity for the corresponding task type or -- protected type. -- Corresponding_Discriminant (Node19) -- Present in discriminants of a derived type, when the discriminant is -- used to constrain a discriminant of the parent type. Points to the -- corresponding discriminant in the parent type. Otherwise it is Empty. -- Corresponding_Equality (Node13) -- Present in function entities for implicit inequality operators. -- Denotes the explicit or derived equality operation that creates -- the implicit inequality. Note that this field is not present in -- other function entities, only in implicit inequality routines, -- where Comes_From_Source is always False. -- Corresponding_Record_Type (Node18) -- Present in protected and task types and subtypes. References the -- entity for the corresponding record type constructed by the expander -- (see Exp_Ch9). This type is used to represent values of the task type. -- Corresponding_Remote_Type (Node22) -- Present in record types that describe the fat pointer structure for -- Remote_Access_To_Subrogram types. References the original access type. -- CR_Discriminant (Node23) -- Present in discriminants of concurrent types. Denotes the homologous -- discriminant of the corresponding record type. The CR_Discriminant is -- created at the same time as the discriminal, and used to replace -- occurrences of the discriminant within the type declaration. -- Current_Value (Node9) -- Present in E_Variable, E_Out_Parameter and E_In_Out_Parameter -- entities. Set non-Empty if the (constant) current value of the -- variable is known. This value is valid only for references from -- the same sequential scope as the entity. The sequential scope -- of an entity includes the immediate scope and any contained -- scopes that are package specs, package bodies, or blocks (at -- any nesting level). For convenience in coding, this field is -- also present in other object entities (E_Loop_Parameter and -- E_In_Parameter and E_Constant), but is not used to hold a -- constant value, since value tracking is not needed in this case. -- -- Another related use of this field is to record information -- about the value obtained from an IF statement condition. -- If the IF/ELSIF condition has the form "[NOT] OBJ RELOP VAL", -- where OBJ is a reference to an entity with a Current_Value field, -- RELOP is one of the six relational operators, and VAL is a compile- -- time known value, then the Current_Value field if OBJ is set to -- point to the N_If_Statement or N_Elsif_Part node of the relevant -- construct. For more details on this usage, see the procedure -- Exp_Util.Get_Current_Value_Condition. -- Debug_Info_Off (Flag166) -- Present in all entities. Set if a pragma Suppress_Debug_Info applies -- to the entity, or if internal processing in the compiler determines -- that suppression of debug information is desirable. Note that this -- flag is only for use by the front end as part of the processing for -- determining if Needs_Debug_Info should be set. The back end should -- always test Needs_Debug_Info, it should never test Debug_Info_Off. -- Debug_Renaming_Link (Node13) -- Used to link the enumeration literal of a debug renaming declaration -- to the renamed entity. See Exp_Dbug.Debug_Renaming_Declaration for -- details of the use of this field. -- Declaration_Node (synthesized) -- Applies to all entities. Returns the tree node for the declaration -- that declared the entity. Normally this is just the Parent of the -- entity. One exception arises with child units, where the parent of -- the entity is a selected component or a defining program unit name. -- Another exception is that if the entity is an incomplete type that -- has been completed, then we obtain the declaration node denoted by -- the full type, i.e. the full type declaration node. -- Default_Expr_Function (Node21) -- Present in parameters. It holds the entity of the parameterless -- function that is built to evaluate the default expression if it is -- more complex than a simple identifier or literal. For the latter -- simple cases or if there is no default value, this field is Empty. -- Default_Expressions_Processed (Flag108) -- A flag in subprograms (functions, operators, procedures) and in -- entries and entry families used to indicate that default expressions -- have been processed and to avoid multiple calls to process the -- default expressions (see Freeze.Process_Default_Expressions), which -- would not only waste time, but also generate false error messages. -- Default_Value (Node20) -- Present in formal parameters. Points to the node representing the -- expression for the default value for the parameter. Empty if the -- parameter has no default value (which is always the case for OUT -- and IN OUT parameters in the absence of errors). -- Delay_Cleanups (Flag114) -- Present in entities that have finalization lists (subprograms -- blocks, and tasks). Set if there are pending generic body -- instantiations for the corresponding entity. If this flag is -- set, then generation of cleanup actions for the corresponding -- entity must be delayed, since the insertion of the generic body -- may affect cleanup generation (see Inline for further details). -- Delay_Subprogram_Descriptors (Flag50) -- Present in entities for which exception subprogram descriptors -- are generated (subprograms, package declarations and package -- bodies). Present if there are pending generic body instantiations -- for the corresponding entity. If this flag is set, then generation -- of the subprogram descriptor for the corresponding enities must -- be delayed, since the insertion of the generic body may add entries -- to the list of handlers. -- -- Note: for subprograms, Delay_Subprogram_Descriptors is set if and -- only if Delay_Cleanups is set. But Delay_Cleanups can be set for a -- a block (in which case Delay_Subprogram_Descriptors is set for the -- containing subprogram). In addition Delay_Subprogram_Descriptors is -- set for a library level package declaration or body which contains -- delayed instantiations (in this case the descriptor refers to the -- enclosing elaboration procedure). -- Delta_Value (Ureal18) -- Present in fixed and decimal types. Points to a universal real -- that holds value of delta for the type, as given in the declaration -- or as inherited by a subtype or derived type. -- Dependent_Instances (Elist8) -- Present in packages that are instances. Holds list of instances -- of inner generics. Used to place freeze nodes for those instances -- after that of the current one, i.e. after the corresponding generic -- bodies. -- Depends_On_Private (Flag14) -- Present in all type entities. Set if the type is private or if it -- depends on a private type. -- Designated_Type (synthesized) -- Applies to access types. Returns the designated type. Differs -- from Directly_Designated_Type in that if the access type refers -- to an incomplete type, and the full type is available, then this -- full type is returned instead of the incomplete type. -- Digits_Value (Uint17) -- Present in floating point types and subtypes and decimal types and -- subtypes. Contains the Digits value specified in the declaration. -- Directly_Designated_Type (Node20) -- Present in access types. This field points to the type that is -- directly designated by the access type. In the case of an access -- type to an incomplete type, this field references the incomplete -- type. Note that in the semantic processing, what is useful in -- nearly all cases is the full type designated by the access type. -- The function Designated_Type obtains this full type in the case of -- access to an incomplete type. -- Discard_Names (Flag88) -- Present in types and exception entities. Set if pragma Discard_Names -- applies to the entity. It is also set for declarative regions and -- package specs for which a Discard_Names pragma with zero arguments -- has been encountered. The purpose of setting this flag is to be able -- to set the Discard_Names attribute on enumeration types declared -- after the pragma within the same declarative region. This flag is -- set to False if a Keep_Names pragma appears for an enumeration type. -- Discriminal (Node17) -- Present in discriminants (Discriminant formal: GNAT's first -- coinage). The entity used as a formal parameter that corresponds -- to a discriminant. See section "Handling of Discriminants" for -- full details of the use of discriminals. -- Discriminal_Link (Node10) -- Present in discriminals (which have an Ekind of E_In_Parameter, -- or E_Constant), points back to corresponding discriminant. -- Discriminant_Checking_Func (Node20) -- Present in components. Points to the defining identifier of the -- function built by the expander returns a Boolean indicating whether -- the given record component exists for the current discriminant -- values. -- Discriminant_Constraint (Elist21) -- Present in entities whose Has_Discriminants flag is set (concurrent -- types, subtypes, record types and subtypes, private types and -- subtypes, limited private types and subtypes and incomplete types). -- It is an error to reference the Discriminant_Constraint field if -- Has_Discriminants is False. -- -- If the Is_Constrained flag is set, Discriminant_Constraint points -- to an element list containing the discriminant constraints in the -- same order in which the discriminants are declared. -- -- If the Is_Constrained flag is not set but the discriminants of the -- unconstrained type have default initial values then this field -- points to an element list giving these default initial values in -- the same order in which the discriminants are declared. Note that -- in this case the entity cannot be a tagged record type, because -- discriminants in this case cannot have defaults. -- -- If the entity is a tagged record implicit type, then this field is -- inherited from the first subtype (so that the itype is subtype -- conformant with its first subtype, which is needed when the first -- subtype overrides primitive operations inherited by the implicit -- base type). -- -- In all other cases Discriminant_Constraint contains the empty -- Elist (ie it is initialized with a call to New_Elmt_List). -- Discriminant_Default_Value (Node20) -- Present in discriminants. Points to the node representing the -- expression for the default value of the discriminant. Set to -- Empty if the discriminant has no default value. -- Discriminant_Number (Uint15) -- Present in discriminants. Gives the ranking of a discriminant in -- the list of discriminants of the type, i.e. a sequential integer -- index starting at 1 and ranging up to Number_Discriminants. -- DTC_Entity (Node16) -- Present in function and procedure entities. Set to Empty unless -- the subprogram is dispatching in which case it references the -- Dispatch Table pointer Component. That is to say the component _tag -- for regular Ada tagged types, for CPP_Class types and their -- descendants this field points to the component entity in the record -- that is the Vtable pointer for the Vtable containing the entry that -- references the subprogram. -- DT_Entry_Count (Uint15) -- Present in E_Component entities. Only used for component marked -- Is_Tag. Store the number of entries in the Vtable (or Dispatch Table) -- DT_Position (Uint15) -- Present in function and procedure entities which are dispatching -- (should not be referenced without first checking that flag -- Is_Dispatching_Operation is True). Contains the offset into -- the Vtable for the entry that references the subprogram. -- Ekind (Ekind) -- Present in all entities. Contains a value of the enumeration type -- Entity_Kind declared in a subsequent section in this spec. -- Elaborate_All_Desirable (Flag146) -- Present in package and subprogram entities, and in generic package -- and subprogram entities. Set if internal analysis of a client that -- with's this unit determines that Elaborate_All is desirable, i.e. -- that there is a possibility that Program_Error may be raised if -- Elaborate_All conditions cannot be met. -- Elaboration_Entity (Node13) -- Present in generic and non-generic package and subprogram -- entities. This is a boolean entity associated with the unit that -- is initiallly set to False, and is set True when the unit is -- elaborated. This is used for two purposes. First, it is used to -- implement required access before elaboration checks (the flag -- must be true to call a subprogram at elaboration time). Second, -- it is used to guard against repeated execution of the generated -- elaboration code. -- -- Note that we always allocate this flag, and set this field, but -- we do not always actually use it. It is only used if it is needed -- for access-before-elaboration use (see Elaboration_Entity_Required -- flag) or if either the spec or the body has elaboration code. If -- neither of these two conditions holds, then the entity is still -- allocated (since we don't know early enough whether or not there -- is elaboration code), but is simply not used for any purpose. -- Elaboration_Entity_Required (Flag174) -- Present in generics and non-generic package and subprogram -- entities. Set only if Elaboration_Entity is non-Empty to indicate -- that the boolean is required to be set even if there is no other -- elaboration code. This occurs when the Elaboration_Entity flag -- is used for required access-before-elaboration checking. If the -- flag is only for preventing multiple execution of the elaboration -- code, then if there is no other elaboration code, obviously there -- is no need to set the flag. -- Enclosing_Dynamic_Scope (synthesized) -- Appliesa to all entities. Returns the closest dynamic scope in which -- the entity is declared or Standard_Standard for library-level entities -- Enclosing_Scope (Node18) -- Present in labels. Denotes the innermost enclosing construct that -- contains the label. Identical to the scope of the label, except for -- labels declared in the body of an accept statement, in which case the -- entry_name is the Enclosing_Scope. Used to validate goto's within -- accept statements. -- Entry_Accepted (Flag152) -- Present in E_Entry and E_Entry_Family entities. Set if there is -- at least one accept for this entry in the task body. Used to -- generate warnings for missing accepts. -- Entry_Bodies_Array (Node15) -- Present in protected types for which Has_Entries is true. -- This is the defining identifier for the array of entry body -- action procedures and barrier functions used by the runtime to -- execute the user code associated with each entry. -- Entry_Cancel_Parameter (Node23) -- Present in blocks. This only applies to a block statement for -- which the Is_Asynchronous_Call_Block flag is set. It -- contains the defining identifier of an object that must be -- passed to the Cancel_Task_Entry_Call or Cancel_Protected_Entry_Call -- call in the cleanup handler added to the block by -- Exp_Ch7.Expand_Cleanup_Actions. This parameter is a Boolean -- object for task entry calls and a Communications_Block object -- in the case of protected entry calls. In both cases the objects -- are declared in outer scopes to this block. -- Entry_Component (Node11) -- Present in formal parameters (in, in out and out parameters). Used -- only for formals of entries. References the corresponding component -- of the entry parameter record for the entry. -- Entry_Formal (Node16) -- Present in components of the record built to correspond to entry -- parameters. This field points from the component to the formal. It -- is the back pointer corresponding to Entry_Component. -- Entry_Index_Constant (Node18) -- Present in an entry index parameter. This is an identifier that -- eventually becomes the name of a constant representing the index -- of the entry family member whose entry body is being executed. Used -- to expand references to the entry index specification identifier. -- Entry_Index_Type (synthesized) -- Applies to an entry family. Denotes Etype of the subtype indication -- in the entry declaration. Used to resolve the index expression in an -- accept statement for a member of the family, and in the prefix of -- 'COUNT when it applies to a family member. -- Entry_Parameters_Type (Node15) -- Present in entries. Points to the access-to-record type that is -- constructed by the expander to hold a reference to the parameter -- values. This reference is manipulated (as an address) by the -- tasking runtime. The designated record represents a packaging -- up of the entry parameters (see Exp_Ch9.Expand_N_Entry_Declaration -- for further details). Entry_Parameters_Type is Empty if the entry -- has no parameters. -- Enumeration_Pos (Uint11) -- Present in enumeration literals. Contains the position number -- corresponding to the value of the enumeration literal. -- Enumeration_Rep (Uint12) -- Present in enumeration literals. Contains the representation that -- corresponds to the value of the enumeration literal. Note that -- this is normally the same as Enumeration_Pos except in the presence -- of representation clauses, where Pos will still represent the -- position of the literal within the type and Rep will have be the -- value given in the representation clause. -- Enumeration_Rep_Expr (Node22) -- Present in enumeration literals. Points to the expression in an -- associated enumeration rep clause that provides the representation -- value for this literal. Empty if no enumeration rep clause for this -- literal (or if rep clause does not have an entry for this literal, -- an error situation). This is also used to catch duplicate entries -- for the same literal. -- Enum_Pos_To_Rep (Node23) -- Present in enumeration types (but not enumeration subtypes). Set to -- Empty unless the enumeration type has a non-standard representation -- (i.e. at least one literal has a representation value different from -- its pos value). In this case, Enum_Pos_To_Rep is the entity for an -- array constructed when the type is frozen that maps Pos values to -- corresponding Rep values. The index type of this array is Natural, -- and the component type is a suitable integer type that holds the -- full range of representation values. -- Equivalent_Type (Node18) -- Present in class wide types and subtypes, access to protected -- subprogram types, and in exception_types. For a classwide type, it -- is always Empty. For a class wide subtype, it points to an entity -- created by the expander which gives Gigi an easily understandable -- equivalent of the class subtype with a known size (given by an -- initial value). See Exp_Util.Expand_Class_Wide_Subtype for further -- details. For E_exception_type, this points to the record containing -- the data necessary to represent exceptions (for further details, see -- System.Standard_Library. For access_to_protected subprograms, it -- denotes a record that holds pointers to the operation and to the -- protected object. For remote Access_To_Subprogram types, it denotes -- the record that is the fat pointer representation of an RAST. -- Esize (Uint12) -- Present in all types and subtypes, and also for components, constants, -- and variables. Contains the Object_Size of the type or of the object. -- A value of zero indicates that the value is not yet known. -- -- For the case of components where a component clause is present, the -- value is the value from the component clause, which must be non- -- negative (but may be zero, which is acceptable for the case of -- a type with only one possible value). It is also possible for Esize -- of a component to be set without a component clause present, which -- means that the component size is specified, but not the position. -- See also RM_Size and the section on "Handling of Type'Size Values". -- During gigi processing, the value is back annotated for all zero -- values, so that after the call to gigi, the value is properly set. -- Etype (Node5) -- Present in all entities. Represents the type of the entity, which -- is itself another entity. For a type entity, points to the parent -- type for a derived type, or if the type is not derived, points to -- itself. For a subtype entity, Etype points to the base type. For -- a class wide type, points to the parent type. For a subprogram or -- subprogram type, Etype has the return type of a function or is set -- to Standard_Void_Type to represent a procedure. -- Exception_Code (Uint22) -- Present in exception entitites. Set to zero unless either an -- Import_Exception or Export_Exception pragma applies to the -- pragma and specifies a Code value. See description of these -- pragmas for details. Note that this field is relevant only if -- Is_VMS_Exception is set. -- Extra_Formal (Node15) -- Present in formal parameters in the non-generic case. Certain -- parameters require extra implicit information to be passed -- (e.g. the flag indicating if an unconstrained variant record -- argument is constrained, and the accessibility level for -- access parameters. See description of Extra_Constrained, -- Extra_Accessibility fields for further details. Extra formal -- parameters are constructed to represent these values, and -- chained to the end of the list of formals using the -- Extra_Formal field (i.e. the Extra_Formal field of the last -- "real" formal points to the first extra formal, and the -- Extra_Formal field of each extra formal points to the next -- one, with Empty indicating the end of the list of extra -- formals. -- Extra_Accessibility (Node13) -- Present in formal parameters in the non-generic case if -- expansion is active. Normally Empty, but if a parameter is -- one for which a dynamic accessibility check is required, then -- an extra formal of type Natural is created (see description -- of field Extra_Formal), and the Extra_Accessibility field of -- the formal parameter points to the entity for this extra -- formal. Also present in variables when compiling receiving -- stubs. In this case, a non Empty value means that this -- variable's accessibility depth has been transmitted by the -- caller and must be retrieved through the entity designed by -- this field instead of being computed. -- Extra_Constrained (Node23) -- Present in formal parameters in the non-generic case if -- expansion is active. Normally Empty, but if a parameter is -- one for which a dynamic indication of its constrained status -- is required, then an extra formal of type Boolean is created -- (see description of field Extra_Formal), and the -- Extra_Constrained field of the formal parameter points to the -- entity for this extra formal. Also present in variables when -- compiling receiving stubs. In this case, a non empty value -- means that this variable's constrained status has been -- transmitted by the caller and must be retrieved through the -- entity designed by this field instead of being computed. -- Finalization_Chain_Entity (Node19) -- Present in scopes which can have finalizable entities (blocks, -- functions, procedures, tasks, entries). When this field is empty it -- means that there are no finalization actions to perform on exit of the -- scope. When this field contains 'Error', it means that no -- finalization actions should happen at this level and the -- finalization chain of a parent scope shall be used (??? this is -- an improper use of 'Error' and should be changed). otherwise it -- contains an entity of type Finalizable_Ptr that is the head of the -- list of objects to finalize on exit. See "Finalization Management" -- section in exp_ch7.adb for more details. -- Finalize_Storage_Only (Flag158) [base type only] -- Present in all types. Set on direct controlled types to which a -- valid Finalize_Storage_Only pragma applies. This flag is also set on -- composite types when they have at least one controlled component and -- all their controlled components are Finalize_Storage_Only. It is also -- inherited by type derivation except for direct controlled types where -- the Finalize_Storage_Only pragma is required at each level of -- derivation. -- First_Component (synthesized) -- Applies to record types. Returns the first component by following -- the chain of declared entities for the record until a component -- is found (one with an Ekind of E_Component). The discriminants are -- skipped. If the record is null, then Empty is returned. -- First_Discriminant (synthesized) -- Applies to types with discriminants. The discriminants are the -- first entities declared in the type, so normally this is equivalent -- to First_Entity. The exception arises for tagged types, where the -- tag itself is prepended to the front of the entity chain, so the -- First_Discriminant function steps past the tag if it is present. -- First_Entity (Node17) -- Present in all entities which act as scopes to which a list of -- associated entities is attached (blocks, class subtypes and types, -- entries, functions, loops, packages, procedures, protected objects, -- record types and subtypes, private types, task types and subtypes). -- Points to a list of associated entities using the Next_Entity field -- as a chain pointer with Empty marking the end of the list. -- First_Formal (synthesized) -- Applies to subprograms and subprogram types, and also in entries -- and entry families. Returns first formal of the subprogram or entry. -- The formals are the first entities declared in a subprogram or in -- a subprogram type (the designated type of an Access_To_Subprogram -- definition) or in an entry. -- First_Index (Node17) -- Present in array types and subtypes and in string types and subtypes. -- By introducing implicit subtypes for the index constraints, we have -- the same structure for constrained and unconstrained arrays, subtype -- marks and discrete ranges are both represented by a subtype. This -- function returns the tree node corresponding to an occurrence of the -- first index (NOT the entity for the type). Subsequent indexes are -- obtained using Next_Index. Note that this field is present for the -- case of string literal subtypes, but is always Empty. -- First_Literal (Node17) -- Present in all enumeration types, including character and boolean -- types. This field points to the first enumeration literal entity -- for the type (i.e. it is set to First (Literals (N)) where N is -- the enumeration type definition node. A special case occurs with -- standard character and wide character types, where this field is -- Empty, since there are no enumeration literal lists in these cases. -- Note that this field is set in enumeration subtypes, but it still -- points to the first literal of the base type in this case. -- First_Optional_Parameter (Node14) -- Present in (non-generic) function and procedure entities. Set to a -- non-null value only if a pragma Import_Function, Import_Procedure -- or Import_Valued_Procedure specifies a First_Optional_Parameter -- argument, in which case this field points to the parameter entity -- corresponding to the specified parameter. -- First_Private_Entity (Node16) -- Present in all entities containing private parts (packages, -- protected types and subtypes, task types and subtypes). The -- entities on the entity chain are in order of declaration, so the -- entries for private entities are at the end of the chain. This -- field points to the first entity for the private part. It is -- Empty if there are no entities declared in the private part or -- if there is no private part. -- First_Rep_Item (Node6) -- Present in all entities. If non-empty, points to a linked list of -- representation pragmas nodes and representation clause nodes that -- apply to the entity, linked using Next_Rep_Item, with Empty marking -- the end of the list. In the case of derived types and subtypes, the -- new entity inherits the chain at the point of declaration. This -- means that it is possible to have multiple instances of the same -- kind of rep item on the chain, in which case it is the first one -- that applies to the entity. -- -- For most representation items, the representation information is -- reflected in other fields and flags in the entity. For example if -- a record representation clause is present, the component entities -- reflect the specified information. However, there are some items -- that are only reflected in the chain. These include: -- -- Alignment attribute definition clause -- Machine_Attribute pragma -- Link_Alias pragma -- Link-Section pragma -- Weak_External pragma -- -- If any of these items are present, then the flag Has_Gigi_Rep_Item -- is set, indicating that Gigi should search the chain. -- -- Other representation items are included in the chain so that error -- messages can easily locate the relevant nodes for posting errors. -- Note in particular that size clauses are present only for this -- purpose, and should only be accessed if Has_Size_Clause is set. -- First_Stored_Discriminant (synthesized) -- Applies to types with discriminants. Gives the first discriminant -- stored in the object. In many cases, these are the same as the -- normal visible discriminants for the type, but in the case of -- renamed discriminants, this is not always the case. -- -- For tagged types, and untagged types which are root types or -- derived types but which do not rename discriminants in their -- root type, the stored discriminants are the same as the actual -- discriminants of the type, and hence this function is the same -- as First_Discriminant. -- -- For derived non-tagged types that rename discriminants in the root -- type this is the first of the discriminants that occurr in the -- root type. To be precise, in this case stored discriminants are -- entities attached to the entity chain of the derived type which -- are a copy of the discriminants of the root type. Furthermore their -- Is_Completely_Hidden flag is set since although they are actually -- stored in the object, they are not in the set of discriminants that -- is visble in the type. -- -- For derived untagged types, stored discriminants are the real -- discriminants from Gigi's standpoint, i.e. those that will be -- stored in actual objects of the type. -- First_Subtype (synthesized) -- Applies to all types and subtypes. For types, yields the first -- subtype of the type. For subtypes, yields the first subtype of -- the base type of the subtype. -- Freeze_Node (Node7) -- Present in all entities. If there is an associated freeze node for -- the entity, this field references this freeze node. If no freeze -- node is associated with the entity, then this field is Empty. See -- package Freeze for further details. -- From_With_Type (Flag159) -- Present in package and type entities. Indicates that the entity -- appears in a With_Type clause in the context of some other unit, -- either as the prefix (which must be a package), or as a type name. -- The package can only be used to retrieve such a type, and the type -- can be used only in component declarations and access definitions. -- The With_Type clause is used to construct mutually recursive -- types, i.e. record types (Java classes) that hold pointers to each -- other. If such a type is an access type, it has no explicit freeze -- node, so that the back-end does not attempt to elaborate it. -- Currently this flag is also used to implement Ada 2005 (AI-50217). -- It will be renamed to From_Limited_With after removal of the current -- GNAT with_type clause??? -- Full_View (Node11) -- Present in all type and subtype entities and in deferred constants. -- References the entity for the corresponding full type declaration. -- For all types other than private and incomplete types, this field -- always contains Empty. See also Underlying_Type. -- Function_Returns_With_DSP (Flag169) -- Present in all subprogram entities, and type entities for access -- to subprogram values. Set True if the function (or referenced -- function in the case of an access value) returns with using the -- DSP (depressed stack pointer) approach. This can only be set -- True if Targparm.Functions_Return_By_DSP_On_Target is True and -- the function returns a value of a type whose size is not known -- at compile time. -- Generic_Homonym (Node11) -- Present in generic packages. The generic homonym is the entity of -- a renaming declaration inserted in every generic unit. It is used -- to resolve the name of a local entity that is given by a qualified -- name, when the generic entity itself is hidden by a local name. -- Generic_Renamings (Elist23) -- Present in package and subprogram instances. Holds mapping that -- associates generic parameters with the corresponding instances, in -- those cases where the instance is an entity. -- Handler_Records (List10) -- Present in subprogram and package entities. Points to a list of -- identifiers referencing the handler record entities for the -- corresponding unit. -- Has_Aliased_Components (Flag135) [implementation base type only] -- Present in array type entities. Indicates that the component type -- of the array is aliased. -- Has_Alignment_Clause (Flag46) -- Present in all type entities and objects. Indicates if an alignment -- clause has been given for the entity. If set, then Alignment_Clause -- returns the N_Attribute_Definition node for the alignment attribute -- definition clause. Note that it is possible for this flag to be False -- even when Alignment_Clause returns non_Empty (this happens in the case -- of derived type declarations). -- Has_All_Calls_Remote (Flag79) -- Present in all library unit entities. Set true if the library unit -- has an All_Calls_Remote pragma. Note that such entities must also -- be RCI entities, so the flag Is_Remote_Call_Interface will always -- be set if this flag is set. -- Has_Atomic_Components (Flag86) [implementation base type only] -- Present in all types and objects. Set only for an array type or -- an array object if a valid pragma Atomic_Components applies to the -- type or object. Note that in the case of an object, this flag is -- only set on the object if there was an explicit pragma for the -- object. In other words, the proper test for whether an object has -- atomic components is to see if either the object or its base type -- has this flag set. Note that in the case of a type, the pragma will -- be chained to the rep item chain of the first subtype in the usual -- manner. -- Has_Attach_Handler (synthesized) -- Applies to record types that are constructed by the expander to -- represent protected types. Returns True if there is at least one -- Attach_Handler pragma in the corresponding specification. -- Has_Biased_Representation (Flag139) -- Present in discrete types (where it applies to the type'size value), -- and to objects (both stand-alone and components), where it applies to -- the size of the object from a size or record component clause. In -- all cases it indicates that the size in question is smaller than -- would normally be required, but that the size requirement can be -- satisfied by using a biased representation, in which stored values -- have the low bound (Expr_Value (Type_Low_Bound (T)) subtracted to -- reduce the required size. For example, a type with a range of 1..2 -- takes one bit, using 0 to represent 1 and 1 to represent 2. -- -- Note that in the object and component cases, the flag is only set -- if the type is unbiased, but the object specifies a smaller size -- than the size of the type, forcing biased representation for the -- object, but the subtype is still an unbiased type. -- Has_Completion (Flag26) -- Present in all entities that require a completion (functions, -- procedures, private types, limited private types, incomplete types, -- constants and packages that require a body). The flag is set if the -- completion has been encountered and analyzed. -- Has_Completion_In_Body (Flag71) -- Present in "Taft amendment types" that is to say incomplete types -- whose full declaration appears in the package body. -- Has_Complex_Representation (Flag140) [implementation base type only] -- Present in all type entities. Set only for a record base type to -- which a valid pragma Complex_Representation applies. -- Has_Component_Size_Clause (Flag68) [implementation base type only] -- Present in all type entities. Set if a component size clause is -- present for the given type. Note that this flag can be False even -- if Component_Size is non-zero (happens in the case of derived types). -- Has_Contiguous_Rep (Flag181) -- Present in enumeration types. True if the type as a representation -- clause whose entries are successive integers. -- Has_Controlling_Result (Flag98) -- Present in E_Function entities. True if The function is a primitive -- function of a tagged type which can dispatch on result -- Has_Controlled_Component (Flag43) [base type only] -- Present in composite type entities. Indicates that the type has a -- component that either is a controlled type, or itself contains a -- controlled component (i.e. either Has_Controlled_Component or -- Is_Controlled is set for at least one component). -- Has_Convention_Pragma (Flag119) -- Present in an entity for which a Convention, Import, or Export -- pragma has been given. Used to prevent more than one such pragma -- appearing for a given entity (RM B.1(45)). -- Has_Delayed_Freeze (Flag18) -- Present in all entities. Set to indicate that an explicit freeze -- node must be generated for the entity at its freezing point. See -- separate section ("Delayed Freezing and Elaboration") for details. -- Has_Discriminants (Flag5) -- Present in all types and subtypes. For types that are allowed to have -- discriminants (record types and subtypes, task types and subtypes, -- protected types and subtypes, private types, limited private types, -- and incomplete types), indicates if the corresponding type or subtype -- has a known discriminant part. Always false for all other types. -- Has_Entries (synthesized) -- Applies to concurrent types. True if any entries are declared -- within the task or protected definition for the type. -- Has_Enumeration_Rep_Clause (Flag66) -- Present in enumeration types. Set if an enumeration representation -- clause has been given for this enumeration type. Used to prevent more -- than one enumeration representation clause for a given type. Note -- that this does not imply a representation with holes, since the rep -- clause may merely confirm the default 0..N representation. -- Has_External_Tag_Rep_Clause (Flag110) -- Present in tagged types. Set if an external_tag rep. clause has been -- given for this type. Use to avoid the generation of the default -- external_tag. -- Has_Exit (Flag47) -- Present in loop entities. Set if the loop contains an exit statement. -- Has_Foreign_Convention (synthesized) -- Applies to all entities. Determines if the Convention for the -- entity is a foreign convention (i.e. is other than Convention_Ada, -- Convention_Intrinsic, Convention_Entry or Convention_Protected). -- Has_Forward_Instantiation (Flag175) -- Present in package entities. Set true for packages that contain -- instantiations of local generic entities, before the corresponding -- generic body has been seen. If a package has a forward instantiation, -- we cannot inline subprograms appearing in the same package because -- the placement requirements of the instance will conflict with the -- linear elaboration of front-end inlining. -- Has_Fully_Qualified_Name (Flag173) -- Present in all entities. Set True if the name in the Chars field -- has been replaced by the fully qualified name, as used for debug -- output. See Exp_Dbug for a full description of the use of this -- flag and also the related flag Has_Qualified_Name. -- Has_Gigi_Rep_Item (Flag82) -- This flag is set if the rep item chain (referenced by First_Rep_Item -- and linked through the Next_Rep_Item chain contains a representation -- item that needs to be specially processed by Gigi, i.e. one of the -- following items: -- -- Machine_Attribute pragma -- Linker_Alias pragma -- Linker_Section pragma -- Weak_External pragma -- -- If this flag is set, then Gigi should scan the rep item chain to -- process any of these items that appear. At least one such item will -- be present. -- Has_Homonym (Flag56) -- Present in all entities. Set if an entity has a homonym in the same -- scope. Used by Gigi to generate unique names for such entities. -- Has_Interrupt_Handler (synthesized) -- Applies to all protected type entities. Set if the protected type -- definition contains at least one procedure to which a pragma -- Interrupt_Handler applies. -- Has_Machine_Radix_Clause (Flag83) -- Present in decimal types and subtypes, set if a Machine_Radix -- representation clause is present. This flag is used to detect -- the error of multiple machine radix clauses for a single type. -- Has_Master_Entity (Flag21) -- Present in entities that can appear in the scope stack (see spec -- of Sem). It is set if a task master entity (_master) has been -- declared and initialized in the corresponding scope. -- Has_Missing_Return (Flag142) -- Present in functions and generic functions. Set if there is one or -- more missing return statements in the function. This is used to -- control wrapping of the body in Exp_Ch6 to ensure that the program -- error exeption is correctly raised in this case at runtime. -- Has_Nested_Block_With_Handler (Flag101) -- Present in scope entities. Set if there is a nested block within the -- scope that has an exception handler and the two scopes are in the -- same procedure. This is used by the backend for controlling certain -- optimizations to ensure that they are consistent with exceptions. -- See documentation in Gigi for further details. -- Has_Non_Standard_Rep (Flag75) [implementation base type only] -- Present in all type entities. Set when some representation clause -- or pragma causes the representation of the item to be significantly -- modified. In this category are changes of small or radix for a -- fixed-point type, change of component size for an array, and record -- or enumeration representation clauses, as well as packed pragmas. -- All other representation clauses (e.g. Size and Alignment clauses) -- are not considered to be significant since they do not affect -- stored bit patterns. -- Has_Object_Size_Clause (Flag172) -- Present in entities for types and subtypes. Set if an Object_Size -- clause has been processed for the type Used to prevent multiple -- Object_Size clauses for a given entity. -- Has_Per_Object_Constraint (Flag154) -- Present in E_Component entities, true if the subtype of the -- component has a per object constraint. Per object constraints result -- from the following situations: -- -- 1. N_Attribute_Reference - when the prefix is the enclosing type and -- the attribute is Access. -- 2. N_Discriminant_Association - when the expression uses the -- discriminant of the enclosing type. -- 3. N_Index_Or_Discriminant_Constraint - when at least one of the -- individual constraints is a per object constraint. -- 4. N_Range - when the lower or upper bound uses the discriminant of -- the enclosing type. -- 5. N_Range_Constraint - when the range expression uses the -- discriminant of the enclosing type. -- Has_Pragma_Controlled (Flag27) [implementation base type only] -- Present in access type entities. It is set if a pragma Controlled -- applies to the access type. -- Has_Pragma_Elaborate_Body (Flag150) -- Present in all entities. Set in compilation unit entities if a -- pragma Elaborate_Body applies to the compilation unit. -- Has_Pragma_Inline (Flag157) -- Present in all entities. Set for functions and procedures for which -- a pragma Inline or Inline_Always applies to the subprogram. Note -- that this flag can be set even if Is_Inlined is not set. This -- happens for pragma Inline (if Inline_Active is False). In other -- words, the flag Has_Pragma_Inline represents the formal semantic -- status, and is used for checking semantic correctness. -- The flag Is_Inlined indicates whether inlining is actually active -- for the entity. -- Has_Pragma_Pack (Flag121) [implementation base type only] -- Present in all entities. It indicates that a valid pragma Pack was -- was given for the type. Note that this flag is not inherited by a -- derived type. See also the Is_Packed flag. -- Has_Pragma_Pure_Function (Flag179) -- Present in subprogram entities. It indicates that a valid pragma -- Pure_Function was given for the entity. In some cases, we need to -- know that Is_Pure was explicitly set using this pragma. -- Has_Pragma_Unreferenced (Flag180) -- Present in all entities. Set if a valid pragma Unreferenced applies -- to the pragma, indicating that no warning should be given if the -- entity has no references, but a warning should be given if it is -- in fact referenced. -- Has_Primitive_Operations (Flag120) [base type only] -- Present in all type entities. Set if at least one primitive operation -- is defined for the type. -- Has_Private_Ancestor (synthesized) -- Applies to all type and subtype entities. Returns True if at least -- one ancestor is private, and otherwise False if there are no private -- ancestors. -- Has_Private_Declaration (Flag155) -- Present in all entities. Returns True if it is the defining entity -- of a private type declaration or its corresponding full declaration. -- This flag is thus preserved when the full and the partial views are -- exchanged, to indicate if a full type declaration is a completion. -- Used for semantic checks in E.4 (18), and elsewhere. -- Has_Qualified_Name (Flag161) -- Present in all entities. Set True if the name in the Chars field -- has been replaced by its qualified name, as used for debug output. -- See Exp_Dbug for a full description of qualification requirements. -- For some entities, the name is the fully qualified name, but there -- are exceptions. In particular, for local variables in procedures, -- we do not include the procedure itself or higher scopes. See also -- the flag Has_Fully_Qualified_Name, which is set if the name does -- indeed include the fully qualified name. -- Has_Record_Rep_Clause (Flag65) [implementation base type only] -- Present in record types. Set if a record representation clause has -- been given for this record type. Used to prevent more than one such -- clause for a given record type. Note that this is initially cleared -- for a derived type, even though the representation is inherited. See -- also the flag Has_Specified_Layout. -- Has_Recursive_Call (Flag143) -- Present in procedures. Set if a direct parameterless recursive call -- is detected while analyzing the body. Used to activate some error -- checks for infinite recursion. -- Has_Size_Clause (Flag29) -- Present in entities for types and objects. Set if a size clause is -- present for the entity. Used to prevent multiple Size clauses for a -- given entity. Note that it is always initially cleared for a derived -- type, even though the Size for such a type is inherited from a Size -- clause given for the parent type. -- Has_Small_Clause (Flag67) -- Present in ordinary fixed point types (but not subtypes). Indicates -- that a small clause has been given for the entity. Used to prevent -- multiple Small clauses for a given entity. Note that it is always -- initially cleared for a derived type, even though the Small for such -- a type is inherited from a Small clause given for the parent type. -- Has_Specified_Layout (Flag100) [implementation base type only] -- Present in all type entities. Set for a record type or subtype if -- the record layout has been specified by a record representation -- clause. Note that this differs from the flag Has_Record_Rep_Clause -- in that it is inherited by a derived type. Has_Record_Rep_Clause is -- used to indicate that the type is mentioned explicitly in a record -- representation clause, and thus is not inherited by a derived type. -- This flag is always False for non-record types. -- Has_Storage_Size_Clause (Flag23) [implementation base type only] -- Present in task types and access types. It is set if a Storage_Size -- clause is present for the type. Used to prevent multiple clauses for -- one type. Note that this flag is initially cleared for a derived type -- even though the Storage_Size for such a type is inherited from a -- Storage_Size clause given for the parent type. Note that in the case -- of access types, this flag is present only in the root type, since a -- storage size clause cannot be given to a derived type. -- Has_Stream_Size_Clause (Flag184) -- This flag is set on types which have a Stream_Size clause attribute. -- Used to prevent multiple Stream_Size clauses for a given entity. -- Has_Subprogram_Descriptor (Flag93) -- This flag is set on entities for which zero-cost exception subprogram -- descriptors can be generated (subprograms and library level package -- declarations and bodies). It indicates that a subprogram descriptor -- has been generated, and is used to suppress generation of multiple -- descriptors (e.g. when instantiating generic bodies). -- Has_Task (Flag30) [base type only] -- Present in all type entities. Set on task types themselves, and also -- (recursively) on any composite type which has a component for which -- Has_Task is set. The meaning is that an allocator of such an object -- must create the required tasks. Note that the flag is not set on -- access types, even if they designate an object that Has_Task. -- Has_Unchecked_Union (Flag123) [base type only] -- Present in all type entities. Set on unchecked unions themselves -- and (recursively) on any composite type which has a component for -- which Has_Unchecked_Union is set. The meaning is that a comparison -- operation for the type is not permitted. Note that the flag is not -- set on access types, even if they designate an object that has -- the flag Has_Unchecked_Union set. -- Has_Unknown_Discriminants (Flag72) -- Present in all type entities. Types can have unknown discriminants -- either from their declaration or through type derivation. The use -- of this flag exactly meets the spec in RM 3.7(26). Note that all -- class-wide types are considered to have unknown discriminants. -- Note that both Has_Discriminants and Has_Unknown_Discriminants may -- be true for a type. Class-wide types and their subtypes have -- unknown discriminants and can have declared ones as well. Private -- types declared with unknown discriminants may have a full view that -- has explicit discriminants, and both flag will be set on the partial -- view, to insure that discriminants are properly inherited in certain -- contexts. -- Has_Volatile_Components (Flag87) [implementation base type only] -- Present in all types and objects. Set only for an array type or -- array object if a valid pragma Volatile_Components or a valid -- pragma Atomic_Components applies to the type or object. Note that -- in the case of an object, this flag is only set on the object if -- there was an explicit pragma for the object. In other words, the -- proper test for whether an object has volatile components is to -- see if either the object or its base type has this flag set. Note -- that in the case of a type the pragma will be chained to the rep -- item chain of the first subtype in the usual manner. -- Has_Xref_Entry (Flag182) -- This flag is set if an entity has an entry in the Xref information -- generated in ali files. This is true for all source entities in the -- extended main source file. It is also true of entities in other -- packages that are referenced directly or indirectly from the main -- source file (indirect reference occurs when the main source file -- references an entity with a type reference. See package Lib.Xref -- for further details). -- Hiding_Loop_Variable (Node8) -- Present in variables. Set only if a variable of a discrete type is -- hidden by a loop variable in the same local scope, in which case -- the Hiding_Loop_Variable field of the hidden variable points to -- the E_Loop_Parameter entity doing the hiding. Used in processing -- warning messages if the hidden variable turns out to be unused -- or is referenced without being set. -- Homonym (Node4) -- Present in all entities. Link for list of entities that have the -- same source name and that are declared in the same or enclosing -- scopes. Homonyms in the same scope are overloaded. Used for name -- resolution and for the generation of debugging information. -- Implementation_Base_Type (synthesized) -- Applies to all types. Similar to Base_Type, but never returns a -- private type when applied to a non-private type. Instead in this -- case, it always returns the Representation_Type of the base type -- in this case, so that we still have a concrete type. Note: it is -- allowed to apply Implementation_Base_Type to other than a type, -- in which case it simply returns the entity unchanged. -- In_Package_Body (Flag48) -- Set on the entity that denotes the package (the defining occurrence -- of the package declaration) while analyzing and expanding the package -- body. Reset on completion of analysis/expansion. -- In_Private_Part (Flag45) -- Present in package entities. Flag is set to indicate that the -- private part is being analyzed. The flag is reset at the end of the -- package declaration. -- Inner_Instances (Elist23) -- Present in generic units. Contains element list of units that are -- instantiated within the given generic. Used to diagnose circular -- instantiations. -- Interface_Name (Node21) -- Present in exceptions, functions, procedures, variables, constants, -- and packages. Set to Empty unless an export, import, or interface -- name pragma has explicitly specified an external name, in which -- case it references an N_String_Literal node for the specified -- external name. In the case of exceptions, the field is set by -- Import_Exception/Export_Exception (which can be used in OpenVMS -- versions only). Note that if this field is Empty, and Is_Imported -- or Is_Exported is set, then the default interface name is the name -- of the entity, cased in a manner that is appropriate to the system -- in use. Note that Interface_Name is ignored if an address clause -- is present (since it is meaningless in this case). -- -- An additional special case usage of this field is in JGNAT for -- E_Component and E_Discriminant. JGNAT allows these entities to -- be imported by specifying pragma Import within a component's -- containing record definition. This supports interfacing to -- object fields defined within Java classes, and such pragmas -- are generated by the jvm2ada binding generator tool whenever -- it processes classes with public object fields. A pragma Import -- for a component can define the External_Name of the imported -- Java field (which is generally needed, because Java names are -- case sensitive). -- -- In_Use (Flag8) -- Present in packages and types. Set when analyzing a use clause for -- the corresponding entity. Reset at end of corresponding declarative -- part. The flag on a type is also used to determine the visibility of -- the primitive operators of the type. -- Is_Abstract (Flag19) -- Present in all types, and also for functions and procedures. Set -- for abstract types and abstract subprograms. -- Is_Access_Constant (Flag69) -- Present in access types and subtypes. Indicates that the keyword -- constant was present in the access type definition. -- Is_Access_Type (synthesized) -- Applies to all entities, true for access types and subtypes -- Is_Ada_2005 (Flag185) -- Applies to all entities, true if a valid pragma Ada_05 applies to the -- entity, indicating that the entity is Ada 2005 only. -- Is_Aliased (Flag15) -- Present in objects whose declarations carry the keyword aliased, -- and on record components that have the keyword. -- Is_Always_Inlined (synthesized) -- Present in subprograms. True if there is a pragma Inline_Always for -- the subprogram. -- Is_AST_Entry (Flag132) -- Present in entry entities. Set if a valid pragma AST_Entry applies -- to the entry. This flag can only be set in OpenVMS versions of GNAT. -- Note: we also allow the flag to appear in entry families, but given -- the current implementation of the pragma AST_Entry, this flag will -- always be False in entry families. -- Is_Atomic (Flag85) -- Present in all type entities, and also in constants, components and -- variables. Set if a pragma Atomic or Shared applies to the entity. -- In the case of private and incomplete types, this flag is set in -- both the partial view and the full view. -- Is_Array_Type (synthesized) -- Applies to all entities, true for array types and subtypes -- Is_Asynchronous (Flag81) -- Present in all type entities and in procedure entities. Set -- if a pragma Asynchronous applies to the entity. -- Is_Bit_Packed_Array (Flag122) [implementation base type only] -- Present in all entities. This flag is set for a packed array -- type that is bit packed (i.e. the component size is known by the -- front end and is in the range 1-7, 9-15, 17-31, or 33-63). Is_Packed -- is always set if Is_Bit_Packed_Array is set, but it is possible for -- Is_Packed to be set without Is_Bit_Packed_Array for the case of an -- array having one or more index types that are enumeration types -- with non-standard enumeration representations. -- Is_Boolean_Type (synthesized) -- Applies to all entities, true for boolean types and subtypes, -- i.e. Standard.Boolean and all types ultimately derived from it. -- Is_By_Copy_Type (synthesized) -- Applies to all type entities. Returns true if the entity is -- a by copy type (RM 6.2(3)). -- Is_By_Reference_Type (synthesized) -- Applies to all type entities. True if the type is required to -- be passed by reference, as defined in (RM 6.2(4-9)). -- Is_Called (Flag102) -- Present in subprograms. Returns true if the subprogram is called -- in the unit being compiled or in a unit in the context. Used for -- inlining. -- Is_Character_Type (Flag63) -- Present in all entities, true for character types and subtypes, -- i.e. enumeration types that have at least one character literal. -- Is_Child_Unit (Flag73) -- Present in all entities. Set only for defining entities of program -- units that are child units (but False for subunits). -- Is_Class_Wide_Type (synthesized) -- Applies to all entities, true for class wide types and subtypes -- Is_Class_Wide_Equivalent_Type (Flag35) -- Present in record types and subtypes. Set to True, if the type acts -- as a class-wide equivalent type, i.e. the Equivalent_Type field of -- some class-wide subtype entity references this record type. -- Is_Compilation_Unit (Flag149) -- Present in all entities. Set if the entity is a package or subprogram -- entity for a compilation unit other than a subunit (since we treat -- subunits as part of the same compilation operation as the ultimate -- parent, we do not consider them to be separate units for this flag). -- Is_Completely_Hidden (Flag103) -- A flag set on an E_Discriminant entity. This flag can be set only -- for girder discriminants of untagged types. When set, the entity -- is a girder discriminant of a derived untagged type which is not -- directly visible in the derived type because the derived type or -- one of its ancestors have renamed the discriminants in the root -- type. Note that there are girder discriminants which are not -- Completely_Hidden (e.g. the discriminants of a root type). -- Is_Composite_Type (synthesized) -- Applies to all entities, true for all composite types and -- subtypes. Either Is_Composite_Type or Is_Elementary_Type (but -- not both) is true of any type. -- Is_Concurrent_Record_Type (Flag20) -- Present in record types and subtypes. Set if the type was created -- by the expander to represent a task or protected type. For every -- concurrent type, such as record type is constructed, and task and -- protected objects are instances of this record type at runtime -- (Gigi will replace declarations of the concurrent type using the -- declarations of the corresponding record type). See package Exp_Ch9 -- for further details. -- Is_Concurrent_Type (synthesized) -- Applies to all entities, true for task types and subtypes and -- for protected types and subtypes. -- Is_Constrained (Flag12) -- Present in types or subtypes which may have index, discriminant -- or range constraint (i.e. array types and subtypes, record types -- and subtypes, string types and subtypes, and all numeric types). -- Set if the type or subtype is constrained. -- Is_Constr_Subt_For_U_Nominal (Flag80) -- Present in all types and subtypes. Set true only for the constructed -- subtype of an object whose nominal subtype is unconstrained. Note -- that the constructed subtype itself will be constrained. -- Is_Constr_Subt_For_UN_Aliased (Flag141) -- This flag can only be set if Is_Constr_Subt_For_U_Nominal is set. It -- indicates that in addition the object concerned is aliased. This flag -- is used by Gigi to determine whether a template must be constructed. -- Is_Constructor (Flag76) -- Present in function and procedure entities. Set if a pragma -- CPP_Constructor applies to the subprogram. -- Is_Controlled (Flag42) [base type only] -- Present in all type entities. Indicates that the type is controlled, -- i.e. is either a descendant of Ada.Finalization.Controlled or of -- Ada.Finalization.Limited_Controlled. -- Is_Controlling_Formal (Flag97) -- Present in all Formal_Kind entity. Marks the controlling parameters -- of dispatching operations. -- Is_CPP_Class (Flag74) -- Present in all type entities, set only for tagged and untagged -- record types to which the pragma CPP_Class has been applied. -- Is_Decimal_Fixed_Point_Type (synthesized) -- Applies to all type entities, true for decimal fixed point -- types and subtypes. -- Is_Derived_Type (synthesized) -- Applies to all type entities. Determine if given entity is a -- derived type -- Is_Discrete_Type (synthesized) -- Applies to all entities, true for all discrete types and subtypes -- Is_Discrete__Or_Fixed_Point_Type (synthesized) -- Applies to all entities, true for all discrete types and subtypes -- and all fixed-point types and subtypes. -- Is_Discrim_SO_Function (Flag176) -- Present in all entities, set only in E_Function entities that Layout -- creates to compute discriminant-dependent dynamic size/offset values. -- Is_Dispatching_Operation (Flag6) -- Present in all entities. Set true for procedures, functions, -- generic procedures and generic functions if the corresponding -- operation is dispatching. -- Is_Dynamic_Scope (synthesized) -- Applies to all Entities. Returns True if the entity is a dynamic -- scope (i.e. a block, a subprogram a task_type or an entry). -- Is_Elementary_Type (synthesized) -- Applies to all entities, true for all elementary types and -- subtypes. Either Is_Composite_Type or Is_Elementary_Type (but -- not both) is true of any type. -- Is_Eliminated (Flag124) -- Present in type entities, subprogram entities, and object entities. -- Indicates that the corresponding entity has been eliminated by use -- of pragma Eliminate. Also used to mark subprogram entities whose -- declaration and body are within unreachable code that is removed. -- Is_Enumeration_Type (synthesized) -- Present in all entities, true for enumeration types and subtypes -- Is_Entry (synthesized) -- Applies to all entities, True only for entry and entry family -- entities and False for all other entity kinds. -- Is_Entry_Formal (Flag52) -- Present in all entities. Set only for entry formals (which can -- only be in, in-out or out parameters). This flag is used to speed -- up the test for the need to replace references in Exp_Ch2. -- Is_Exported (Flag99) -- Present in all entities. Set if the entity is exported. For now we -- only allow the export of constants, exceptions, functions, procedures -- and variables, but that may well change later on. Exceptions can only -- be exported in the OpenVMS and Java VM implementations of GNAT. -- Is_First_Subtype (Flag70) -- Present in all entities. True for first subtypes (RM 3.2.1(6)), -- i.e. the entity in the type declaration that introduced the type. -- This may be the base type itself (e.g. for record declarations and -- enumeration type declarations), or it may be the first subtype of -- an anonymous base type (e.g. for integer type declarations or -- constrained array declarations). -- Is_Fixed_Point_Type (synthesized) -- Applies to all entities, true for decimal and ordinary fixed -- point types and subtypes -- Is_Floating_Point_Type (synthesized) -- Applies to all entities, true for float types and subtypes -- Is_Formal (synthesized) -- Applies to all entities, true for IN, IN OUT and OUT parameters -- Is_Formal_Subprogram (Flag111) -- Defined on all entities, true for generic formal subprograms. -- Is_For_Access_Subtype (Flag118) -- Present in E_Private_Subtype and E_Record_Subtype entities. -- Means the sole purpose of the type is to be designated by an -- Access_Subtype and hence should not be expanded into components -- because the type may not have been found or frozen yet. -- Is_Frozen (Flag4) -- Present in all type entities. Set if the type has been frozen. -- Is_Generic_Actual_Type (Flag94) -- Present in the subtype declaration that renames the generic formal -- as a subtype of the actual. Guarantees that the subtype is not static -- within the instance. -- Is_Generic_Instance (Flag130) -- Present in all entities. Set to indicate that the entity is an -- instance of a generic unit. -- Is_Generic_Subprogram (synthesized) -- Applies to all entities. Yields True for a generic subprogram -- (generic function, generic subprogram), False for all other entities. -- Is_Generic_Type (Flag13) -- Present in all types and subtypes. Set for types which are generic -- formal types. Such types have an Ekind that corresponds to their -- classification, so the Ekind cannot be used to identify generic types. -- Is_Generic_Unit (synthesized) -- Applies to all entities. Yields True for a generic unit (generic -- package, generic function, generic procedure), and False for all -- other entities. -- Is_Hidden (Flag57) -- Present in all entities. Set true for all entities declared in the -- private part or body of a package. Also marks generic formals of a -- formal package declared without a box. For library level entities, -- this flag is set if the entity is not publicly visible. -- Is_Hidden_Open_Scope (Flag171) -- Present in all entities. Set true for a scope that contains the -- instantiation of a child unit, and whose entities are not visible -- during analysis of the instance. -- Is_Immediately_Visible (Flag7) -- Present in all entities. Set if entity is immediately visible, i.e. -- is defined in some currently open scope (RM 8.3(4)). -- Is_Imported (Flag24) -- Present in all entities. Set if the entity is imported. For now we -- only allow the import of exceptions, functions, procedures, packages. -- and variables. Exceptions can only be imported in the OpenVMS and -- Java VM implementations of GNAT. Packages and types can only be -- imported in the Java VM implementation. -- Is_Incomplete_Or_Private_Type (synthesized) -- Applies to all entities, true for private and incomplete types -- Is_Indefinite_Subtype (synthesized) -- Applies to all entities for types and subtypes. Determines if given -- entity is an unconstrained array type or subtype, a discriminated -- record type or subtype with no initial discriminant values or a -- class wide type or subtype. -- Is_Inlined (Flag11) -- Present in all entities. Set for functions and procedures which are -- to be inlined. For subprograms created during expansion, this flag -- may be set directly by the expander to request inlining. Also set -- for packages that contain inlined subprograms, whose bodies must be -- be compiled. Is_Inlined is also set on generic subprograms and is -- inherited by their instances. It is also set on the body entities -- of inlined subprograms. See also Has_Pragma_Inline. -- Is_Instantiated (Flag126) -- Present in generic packages and generic subprograms. Set if the unit -- is instantiated from somewhere in the extended main source unit. This -- flag is used to control warnings about the unit being uninstantiated. -- Also set in a package that is used as an actual for a generic package -- formal in an instantiation. Also set on a parent instance, in the -- instantiation of a child, which is implicitly declared in the parent. -- Is_Integer_Type (synthesized) -- Applies to all entities, true for integer types and subtypes -- Is_Internal (Flag17) -- Present in all entities. Set to indicate an entity created during -- semantic processing (e.g. an implicit type). Need more documentation -- on this one! ??? -- Is_Interrupt_Handler (Flag89) -- Present in procedures. Set if a pragma Interrupt_Handler applies -- to the procedure. The procedure must be parameterless, and on all -- targets except AAMP it must be a protected procedure. -- Is_Intrinsic_Subprogram (Flag64) -- Present in functions and procedures. It is set if a valid pragma -- Interface or Import is present for this subprogram specifying pragma -- Intrinsic. Valid means that the name and profile of the subprogram -- match the requirements of one of the recognized intrinsic subprograms -- (see package Sem_Intr for details). Note: the value of Convention for -- such an entity will be set to Convention_Intrinsic, but it is the -- setting of Is_Intrinsic_Subprogram, NOT simply having convention set -- to intrinsic, which causes intrinsic code to be generated. -- Is_Itype (Flag91) -- Present in all entities, set for Itypes. If it is set, then the -- declaration for the type does not appear explicitly in the tree. -- Instead gigi will elaborate the type when it is first used. -- Has_Delayed_Freeze can be set for Itypes, and the meaning is that -- the first use (the one which causes the type to be defined) will -- be the freeze node. Note that an important restriction on Itypes -- is that the first use of such a type (the one that causes it to be -- defined) must be in the same scope as the type. -- Is_Known_Non_Null (Flag37) -- Present in all entities. Relevant (and can be set True) only for -- objects of an access type. It is set if the object is currently -- known to have a non-null value (meaning that no access checks -- are needed). The indication can for example come from assignment -- of an access parameter or an allocator. -- -- Note: this flag is set according to the sequential flow of the -- program, watching the current value of the variable. However, -- this processing can miss cases of changing the value of an aliased -- or constant object, so even if this flag is set, it should not -- be believed if the variable is aliased or volatile. It would -- be a little neater to avoid the flag being set in the first -- place in such cases, but that's trickier, and there is only -- one place that tests the value anyway. -- -- The flag is dynamically set and reset as semantic analysis and -- expansion proceeds. Its value is meaningless once the tree is -- fully constructed, since it simply indicates the last state. -- Thus this flag has no meaning to the back end. -- Is_Known_Valid (Flag170) -- Present in all entities. Relevant for types (and subtype) and -- for objects (and enumeration literals) of a discrete type. -- -- The purpose of this flag is to implement the requirement stated -- in (RM 13.9.1(9-11)) which require that the use of possibly invalid -- values may not cause programs to become erroneous. See the function -- Exp_Util.Expr_Known_Valid for further details. Note that the setting -- is conservative, in the sense that if the flag is set, it must be -- right. If the flag is not set, nothing is known about the validity. -- -- For enumeration literals, the flag is always set, since clearly -- an enumeration literal represents a valid value. Range checks -- where necessary will ensure that this valid value is appropriate. -- -- For objects, the flag indicates the state of knowledge about the -- current value of the object. This may be modified during expansion, -- and thus the final value is not relevant to gigi. -- -- For types and subtypes, the flag is set if all possible bit patterns -- of length Object_Size (i.e. Esize of the type) represent valid values -- of the type. In general for such tytpes, all values are valid, the -- only exception being the case where an object of the type has an -- explicit size that is greater than Object_Size. -- -- For non-discrete objects, the setting of the Is_Known_Valid flag is -- not defined, and is not relevant, since the considerations of the -- requirement in (RM 13.9.1(9-11)) do not apply. -- -- The flag is dynamically set and reset as semantic analysis and -- expansion proceeds. Its value is meaningless once the tree is -- fully constructed, since it simply indicates the last state. -- Thus this flag has no meaning to the back end. -- Is_Limited_Composite (Flag106) -- Present in all entities. True for composite types that have a -- limited component. Used to enforce the rule that operations on -- the composite type that depend on the full view of the component -- do not become visible until the immediate scope of the composite -- type itself (RM 7.3.1 (5)). -- Is_Limited_Record (Flag25) -- Present in all entities. Set to true for record (sub)types if the -- record is declared to be limited. Note that this flag is not set -- simply because some components of the record are limited. -- Is_Limited_Type (synthesized) -- Applies to all entities. True if entity is a limited type (limited -- private type, task type, protected type, composite containing a -- limited component, or a subtype of any of these types). -- Is_Machine_Code_Subprogram (Flag137) -- Present in subprogram entities. Set to indicate that the subprogram -- is a machine code subprogram (i.e. its body includes at least one -- code statement). Also indicates that all necessary semantic checks -- as required by RM 13.8(3) have been performed. -- Is_Modular_Integer_Type (synthesized) -- Applies to all entities. True if entity is a modular integer type -- Is_Non_Static_Subtype (Flag109) -- This flag is present in all type and subtype entities. It is set in -- some (but not all) cases in which a subtype is known to be non-static. -- Before this flag was added, the computation of whether a subtype was -- static was entirely synthesized, by looking at the bounds, and the -- immediate subtype parent. However, this method does not work for some -- Itypes that have no parent set (and the only way to find the immediate -- subtype parent is to go through the tree). For now, this flay is set -- conservatively, i.e. if it is set then for sure the subtype is non- -- static, but if it is not set, then the type may or may not be static. -- Thus the test for a static subtype is that this flag is clear AND -- that the bounds are static AND that the parent subtype (if available -- to be tested) is static. Eventually we should make sure this flag -- is always set right, at which point, these comments can be removed, -- and the tests for static subtypes greatly simplified. -- Is_Null_Init_Proc (Flag178) -- Present in procedure entities. Set for generated init proc procedures -- (used to initialize composite types), if the code for the procedure -- is null (i.e. is a return and nothing else). Such null initialization -- procedures are generated in case some client is compiled using the -- Initialize_Scalars pragma, generating a call to this null procedure, -- but there is no need to call such procedures within a compilation -- unit, and this flag is used to suppress such calls. -- Is_Numeric_Type (synthesized) -- Applies to all entities, true for all numeric types and subtypes -- (integer, fixed, float). -- Is_Object (synthesized) -- Applies to all entities, true for entities representing objects, -- including generic formal parameters. -- Is_Obsolescent (Flag153) -- Present in subprogram entities. Set if a valid pragma Obsolescent -- applies to the subprogram. -- Is_Optional_Parameter (Flag134) -- Present in parameter entities. Set if the parameter is specified as -- optional by use of a First_Optional_Parameter argument to one of the -- extended Import pragmas. Can only be set for OpenVMS versions of GNAT. -- Is_Ordinary_Fixed_Point_Type (synthesized) -- Applies to all entities, true for ordinary fixed point types -- and subtypes -- Is_Overriding_Operation (Flag39) -- Present in subprograms. Set if the subprogram is a primitive -- operation of a derived type, that overrides an inherited operation. -- Is_Package (synthesized) -- Applies to all entities. True for packages and generic packages. -- False for all other entities. -- Is_Package_Body_Entity (Flag160) -- Present in all entities. Set for entities defined at the top level -- of a package body. Used to control externally generated names. -- Is_Packed (Flag51) [implementation base type only] -- Present in all type entities. This flag is set only for record and -- array types which have a packed representation. There are three -- cases which cause packing: -- -- 1. Explicit use of pragma Pack for an array of package components -- 2. Explicit use of pragma Pack to pack a record -- 4. Setting Component_Size of an array to a bit-packable value -- 3. Indexing an array with a non-standard enumeration type. -- -- For records, Is_Packed is always set if Has_Pack_Pragma is set, -- and can also be set on its own in a derived type which inherited -- its packed status. -- -- For arrays, Is_Packed is set if an array is bit packed (i.e. the -- component size is known at compile time and is 1-7, 9-15 or 17-31), -- or if the array has one or more index types that are enumeration -- types with non-standard representations (in GNAT, we store such -- arrays compactly, using the Pos of the enumeration type value). -- -- As for the case of records, Is_Packed can be set on its own for a -- derived type, with the same dual before/after freeze meaning. -- Is_Packed can also be set as the result of an explicit component -- size clause that specifies an appropriate component size. -- -- In the bit packed array case, Is_Bit_Packed_Array will be set in -- the bit packed case once the array type is frozen. -- -- Before an array type is frozen, Is_Packed will always be set if -- Has_Pack_Pragma is set. Before the freeze point, it is not possible -- to know the component size, since the component type is not frozen -- until the array type is frozen. Thus Is_Packed for an array type -- before it is frozen means that packed is required. Then if it turns -- out that the component size is not suitable for bit packing, the -- Is_Packed flag gets turned off. -- Is_Packed_Array_Type (Flag138) -- Present in all entities. This flag is set on the entity for the type -- used to implement a packed array (either a modular type, or a subtype -- of Packed_Bytes{1,2,4} as appropriate). The flag is set if and only -- if the type appears in the Packed_Array_Type field of some other type -- entity. It is used by Gigi to activate the special processing for such -- types (unchecked conversions that would not otherwise be allowed are -- allowed for such types). If the Is_Packed_Array_Type flag is set in -- an entity, then the Original_Array_Type field of this entity points -- to the original array type for which this is the packed array type. -- Is_Potentially_Use_Visible (Flag9) -- Present in all entities. Set if entity is potentially use visible, -- i.e. it is defined in a package that appears in a currently active -- use clause (RM 8.4(8)). Note that potentially use visible entities -- are not necessarily use visible (RM 8.4(9-11)). -- Is_Preelaborated (Flag59) -- Present in all entities, set in E_Package and E_Generic_Package -- entities to which a pragma Preelaborate is applied, and also in -- all entities within such packages. Note that the fact that this -- flag is set does not necesarily mean that no elaboration code is -- generated for the package. -- Is_Private_Composite (Flag107) -- Present in composite types that have a private component. Used to -- enforce the rule that operations on the composite type that depend -- on the fulll view of the component, do not become visible until the -- immediate scope of the composite type itself (7.3.1 (5)). Both this -- flag and Is_Limited_Composite are needed. -- Is_Private_Descendant (Flag53) -- Present in entities that can represent library units (packages, -- functions, procedures). Set if the library unit is itself a private -- child unit, or if it is the descendent of a private child unit. -- Is_Private_Type (synthesized) -- Applies to all entities, true for private types and subtypes, -- as well as for record with private types as subtypes -- Is_Protected_Type (synthesized) -- Applies to all entities, true for protected types and subtypes -- Is_Public (Flag10) -- Present in all entities. Set to indicate that an entity defined in -- one compilation unit can be referenced from other compilation units. -- If this reference causes a reference in the generated variable, for -- example in the case of a variable name, then Gigi will generate an -- appropriate external name for use by the linker. -- Is_Protected_Private (synthesized) -- Applies to a record component. Returns true if this component -- is used to represent a private declaration of a protected type. -- Is_Protected_Record_Type (synthesized) -- Applies to all entities, true if Is_Concurrent_Record_Type -- Corresponding_Concurrent_Type is a protected type. -- Is_Pure (Flag44) -- Present in all entities. Set in all entities of a unit to which a -- pragma Pure is applied, and also set for the entity of the unit -- itself. In addition, this flag may be set for any other functions -- or procedures that are known to be side effect free, so in the case -- of subprograms, the Is_Pure flag may be used by the optimizer to -- imply that it can assume freedom from side effects (other than those -- resulting from assignment to out parameters, or to objects designated -- by access parameters). -- Is_Real_Type (synthesized) -- Applies to all entities, true for real types and subtypes -- Is_Record_Type (synthesized) -- Applies to all entities, true for record types and subtypes, -- includes class-wide types and subtypes (which are also records) -- Is_Remote_Call_Interface (Flag62) -- Present in all entities, set in E_Package and E_Generic_Package -- entities to which a pragma Remote_Call_Interace is applied, and -- also in all entities within such packages. -- Is_Remote_Types (Flag61) -- Present in all entities, set in E_Package and E_Generic_Package -- entities to which a pragma Remote_Types is applied, and also in -- all entities within such packages. -- Is_Renaming_Of_Object (Flag112) -- Present in all entities, set only for a variable or constant for -- which the Renamed_Object field is non-empty and for which the -- renaming is handled by the front end, by macro substitution of -- a copy of the (evaluated) name tree whereever the variable is used. -- Is_Return_By_Reference_Type (synthesized) -- Applies to all type entities. True if the type is required to -- be returned by reference, as defined in 6.5(11-16). -- Is_Scalar_Type (synthesized) -- Applies to all entities, true for scalar types and subtypes -- Is_Shared_Passive (Flag60) -- Present in all entities, set in E_Package and E_Generic_Package -- entities to which a pragma Shared_Passive is applied, and also in -- all entities within such packages. -- Is_Statically_Allocated (Flag28) -- Present in all entities. This can only be set True for exception, -- variable, constant, and type/subtype entities. If the flag is set, -- then the variable or constant must be allocated statically rather -- than on the local stack frame. For exceptions, the meaning is that -- the exception data should be allocated statically (and indeed this -- flag is always set for exceptions, since exceptions do not have -- local scope). For a type, the meaning is that the type must be -- elaborated at the global level rather than locally. No type marked -- with this flag may depend on a local variable, or on any other type -- which does not also have this flag set to True. For a variable or -- or constant, if the flag is set, then the type of the object must -- either be declared at the library level, or it must also have the -- flag set (since to allocate the oject statically, its type must -- also be elaborated globally). -- Is_Subprogram (synthesized) -- Applies to all entities, true for bodies of functions, procedures -- and operators. -- Is_String_Type (synthesized) -- Applies to all type entities. Determines if the given type is a -- string type, i.e. it is directly a string type or string subtype, -- or a string slice type, or an array type with one dimension and a -- component type that is a character type. -- Is_Tag (Flag78) -- Present in E_Component. For regular tagged type this flag is set on -- the tag component (whose name is Name_uTag) and for CPP_Class tagged -- types, this flag marks the pointer to the main vtable (i.e. the one -- to be extended by derivation) -- Is_Tagged_Type (Flag55) -- Present in all entities, true for an entity for a tagged type. -- Is_Task_Record_Type (synthesized) -- Applies to all entities, true if Is_Concurrent_Record_Type -- Corresponding_Concurrent_Type is a task type. -- Is_Task_Type (synthesized) -- Applies to all entities, true for task types and subtypes -- Is_Thread_Body (Flag77) -- Applies to subprogram entities. Set if a valid Thread_Body pragma -- applies to this subprogram, which is thus a thread body. -- Is_True_Constant (Flag163) -- This flag is set in constants and variables which have an initial -- value specified but which are never assigned, partially or in the -- whole. For variables, it means that the variable was initialized -- but never modified, and hence can be treated as a constant by the -- code generator. For a constant, it means that the constant was not -- modified by generated code (e.g. to set a discriminant in an init -- proc). Assignments by user or generated code will reset this flag. -- -- Note: there is one situation in which the back end does not permit -- this flag to be set, even if no assignments are generated. This is -- the case of an object of a record or array type which is initialized -- with an aggregate, and is itself used as the expression initializing -- an atomic object, or the right hand side of an assignment to an atomic -- object. In this case the object must not have Is_True_Constant set, -- even though no assignments are generated (the reason for this is that -- the back end must not optimize the object away, because that would -- violate the restriction on aggregates in these positions). -- Is_Type (synthesized) -- Applies to all entities, true for a type entity -- Is_Unchecked_Union (Flag117) -- Present in all entities. Set only in record types to which the -- pragma Unchecked_Union has been validly applied. -- Is_Unsigned_Type (Flag144) -- Present in all types, but can be set only for discrete and fixed-point -- type and subtype entities. This flag is only valid if the entity is -- frozen. If set it indicates that the representation is known to be -- unsigned (i.e. that no negative values appear in the range). This is -- normally just a reflection of the lower bound of the subtype or base -- type, but there is one case in which the setting is non-obvious, -- namely the case of an unsigned subtype of a signed type from which -- a further subtype is obtained using variable bounds. This further -- subtype is still unsigned, but this cannot be determined by looking -- at its bounds or the bounds of the corresponding base type. -- Is_Valued_Procedure (Flag127) -- Present in procedure entities. Set if an Import_Valued_Procedure -- or Export_Valued_Procedure pragma applies to the procedure entity. -- Is_Visible_Child_Unit (Flag116) -- Present in compilation units that are child units. Once compiled, -- child units remain chained to the entities in the parent unit, and -- a separate flag must be used to indicate whether the names are -- visible by selected notation, or not. -- Is_VMS_Exception (Flag133) -- Present in all entities. Set only for exception entities where the -- exception was specified in an Import_Exception or Export_Exception -- pragma with the VMS option for Form. See description of these pragmas -- for details. This flag can only be set in OpenVMS versions of GNAT. -- Is_Volatile (Flag16) -- Present in all type entities, and also in constants, components and -- variables. Set if a pragma Volatile applies to the entity. Also set -- if pragma Shared or pragma Atomic applies to entity. In the case of -- private or incomplete types, this flag is set in both the private -- and full view. The flag is not set reliably on private subtypes, -- and is always retrieved from the base type (but this is not a base- -- type-only attribute because it applies to other entities). Note that -- the back end should use Treat_As_Volatile, rather than Is_Volatile -- to indicate code generation requirements for volatile variables. -- Similarly, any front end test which is concerned with suppressing -- optimizations on volatile objects should test Treat_As_Volatile -- rather than testing this flag. -- Is_Wrapper_Package (synthesized) -- Present in package entities. Indicates that the package has been -- created as a wrapper for a subprogram instantiation. -- Kill_Elaboration_Checks (Flag32) -- Present in all entities. Set by the expander to kill elaboration -- checks which are known not to be needed. Equivalent in effect to -- the use of pragma Supress (Elaboration_Checks) for that entity -- except that the effect is permanent and cannot be undone by a -- subsequent pragma Unsuppress. -- Kill_Range_Checks (Flag33) -- Present in all entities. Set by the expander to kill elaboration -- checks which are known not to be needed. Equivalent in effect to -- the use of pragma Supress (Range_Checks) for that entity except -- that the result is permanent and cannot be undone by a subsequent -- pragma Unsuppress. -- Kill_Tag_Checks (Flag34) -- Present in all entities. Set by the expander to kill elaboration -- checks which are known not to be needed. Equivalent in effect to -- the use of pragma Supress (Tag_Checks) for that entity except -- that the result is permanent and cannot be undone by a subsequent -- pragma Unsuppress. -- Last_Entity (Node20) -- Present in all entities which act as scopes to which a list of -- associated entities is attached (blocks, class subtypes and types, -- entries, functions, loops, packages, procedures, protected objects, -- record types and subtypes, private types, task types and subtypes). -- Points to a the last entry in the list of associated entities chained -- through the Next_Entity field. Empty if no entities are chained. -- Limited_View (Node23) -- Present in non-generic package entities that are not instances. Bona -- fide package with the limited-view list through the first_entity and -- first_private attributes. The elements of this list are the shadow -- entities created for the types and local packages that are declared -- in a package appearing in a limited_with clause (Ada 2005: AI-50217) -- Lit_Indexes (Node15) -- Present in enumeration types and subtypes. Non-empty only for the -- case of an enumeration root type, where it contains the entity for -- the generated indexes entity. See unit Exp_Imgv for full details of -- the nature and use of this entity for implkementing the Image and -- Value attributes for the enumeration type in question. -- -- Lit_Strings (Node16) -- Present in enumeration types and subtypes. Non-empty only for the -- case of an enumeration root type, where it contains the entity for -- the literals string entity. See unit Exp_Imgv for full details of -- the nature and use of this entity for implementing the Image and -- Value attributes for the enumeration type in question. -- Machine_Radix_10 (Flag84) -- Present in decimal types and subtypes, set if the Machine_Radix -- is 10, as the result of the specification of a machine radix -- representation clause. Note that it is possible for this flag -- to be set without having Has_Machine_Radix_Clause True. This -- happens when a type is derived from a type with a clause present. -- Master_Id (Node17) -- Present in access types and subtypes. Empty unless Has_Task is -- set for the designated type, in which case it points to the entity -- for the Master_Id for the access type master. -- Materialize_Entity (Flag168) -- Present in all entities. Set only for constant or renamed entities -- which should be materialized for debugging purposes. In the case of -- a constant, a memory location should be allocated containing the -- value. In the case of a renaming, a memory location containing the -- renamed address should be allocated. -- Mechanism (Uint8) (returned as Mechanism_Type) -- Present in functions and non-generic formal parameters. Indicates -- the mechanism to be used for the function return or for the formal -- parameter. See separate section on passing mechanisms. This field -- is also set (to the default value of zero) in a subprogram body -- entity but not used in this context. -- Modulus (Uint17) [base type only] -- Present in modular types. Contains the modulus. For the binary -- case, this will be a power of 2, but if Non_Binary_Modulus is -- set, then it will not be a power of 2. -- Must_Be_On_Byte_Boundary (Flag183) -- Present in entities for types and subtypes. Set if objects of -- the type must always be allocated on a byte boundary (more -- accurately a storage unit boundary). The front end checks that -- component clauses respect this rule, and the back end ensures -- that record packing does not violate this rule. Currently the -- flag is set only for packed arrays longer than 64 bits. -- Needs_Debug_Info (Flag147) -- Present in all entities. Set if the entity requires debugging -- information to be generated. This is true of all entities that -- have Comes_From_Source set, and also transitively for entities -- associated with such components (e.g. their types). It is true -- for all entities in Debug_Generated_Code mode (-gnatD switch). -- This is the flag that the back end should check to determine -- whether or not to generate debugging information for an entity. -- Needs_No_Actuals (Flag22) -- Present in callable entities (subprograms, entries, access to -- subprograms) which can be called without actuals because all of -- their formals (if any) have default values. This flag simplifies the -- resolution of the syntactic ambiguity involving a call to these -- entities when the return type is an array type, and a call can be -- interpreted as an indexing of the result of the call. It is also -- used to resolve various cases of entry calls. -- Never_Set_In_Source (Flag115) -- Present in all entities, but relevant only for variables and -- parameters. This flag is set if the object is never assigned -- a value in user source code, either by assignment or by the -- use of an initial value, or by some other means. -- This flag is only for the purposes of issuing warnings, it must not -- be used by the code generator to indicate that the variable is in -- fact a constant, since some assignments in generated code do not -- count (for example, the call to an init proc to assign some but -- not all of the fields in a partially initialized record). The code -- generator should instead use the flag Is_True_Constant. -- -- For the purposes of this warning, the default assignment of -- access variables to null is not considered the assignment of -- of a value (so the warning can be given for code that relies -- on this initial null value, when no other value is ever set). -- -- In variables and out parameters, if this flag is set after full -- processing of the corresponding declarative unit, it indicates that -- the variable or parameter was never set, and a warning message can -- be issued. -- -- Note: this flag is initially set, and then cleared on encountering -- any construct that might conceivably legitimately set the value. -- Thus during the analysis of a declarative region and its associated -- statement sequence, the meaning of the flag is "not set yet", and -- once this analysis is complete the flag means "never assigned". -- Note: for variables appearing in package declarations, this flag -- is never set. That is because there is no way to tell if some -- client modifies the variable (or in the case of variables in the -- private part, if some child unit modifies the variables). -- Note: in the case of renamed objects, the flag must be set in the -- ultimate renamed object. Clients noting a possible modification -- should use the Note_Possible_Modification procedure in Sem_Util -- rather than Set_Never_Set_In_Source precisely to deal properly with -- the renaming possibility. -- Next_Component (synthesized) -- Applies to record components. Returns the next component by -- following the chain of declared entities until one is found which -- corresponds to a component (Ekind is E_Component). Any internal types -- generated from the subtype indications of the record components are -- skipped. Returns Empty if no more components. -- Next_Discriminant (synthesized) -- Applies to discriminants returned by First/Next_Discriminant. -- Returns the next language-defined (ie: perhaps non-girder) -- discriminant by following the chain of declared entities as long as -- the kind of the entity corresponds to a discriminant. Note that the -- discriminants might be the only components of the record. -- Returns Empty if there are no more. -- Next_Entity (Node2) -- Present in all entities. The entities of a scope are chained, with -- the head of the list being in the First_Entity field of the scope -- entity. All entities use the Next_Entity field as a forward pointer -- for this list, with Empty indicating the end of the list. Since this -- field is in the base part of the entity, the access routines for this -- field are in Sinfo. -- Next_Formal (synthesized) -- Applies to the entity for a formal parameter. Returns the next -- formal parameter of the subprogram or subprogram type. Returns -- Empty if there are no more formals. -- Next_Formal_With_Extras (synthesized) -- Applies to the entity for a formal parameter. Returns the next -- formal parameter of the subprogram or subprogram type. Returns -- Empty if there are no more formals. The list returned includes -- all the extra formals (see description of Extra_Formal field) -- Next_Girder_Discriminant (synthesized) -- Applies to discriminants. Set only for a discriminant returned by -- a call to First/Next_Girder_Discriminant. Returns next girder -- discriminant, if there are more (see complete description in -- First_Girder_Discriminant), or Empty if there are no more. -- Next_Index (synthesized) -- Applies to array types and subtypes and to string types and -- subtypes. Yields the next index. The first index is obtained by -- using the First_Index attribute, and then subsequent indexes are -- obtained by applying Next_Index to the previous index. Empty is -- returned to indicate that there are no more indexes. Note that -- unlike most attributes in this package, Next_Index applies to -- nodes for the indexes, not to entities. -- Next_Inlined_Subprogram (Node12) -- Present in subprograms. Used to chain inlined subprograms used in -- the current compilation, in the order in which they must be compiled -- by Gigi to insure that all inlinings are performed. -- Next_Literal (synthesized) -- Applies to enumeration literals, returns the next literal, or -- Empty if applied to the last literal. This is actually a synonym -- for Next, but its use is preferred in this context. -- Non_Binary_Modulus (Flag58) [base type only] -- Present in modular integer types. Set if the modulus for the type -- is other than a power of 2. -- Non_Limited_View (Node17) -- Present in incomplete types that are the shadow entities created -- when analyzing a limited_with_clause (Ada 2005: AI-50217). Points to -- the defining entity in the original declaration. -- Nonzero_Is_True (Flag162) [base type only] -- Present in enumeration types. True if any non-zero value is to be -- interpreted as true. Currently this is set true for derived Boolean -- types which have a convention of C, C++ or Fortran. -- No_Pool_Assigned (Flag131) [root type only] -- Present in access types. Set if a storage size clause applies to -- the variable with a compile time known value of zero. This flag is -- used to generate warnings if any attempt is made to allocate or free -- an instance of such an access type. This is set only in the root -- type, since derived types must have the same pool. -- No_Return (Flag113) -- Present in procedure and generic procedure entries. Indicates that -- a pragma No_Return applies to the procedure. -- Normalized_First_Bit (Uint8) -- Present in components and discriminants. Indicates the normalized -- value of First_Bit for the component, i.e. the offset within the -- lowest addressed storage unit containing part or all of the field. -- Set to No_Uint if no first bit position is assigned yet. -- Normalized_Position (Uint14) -- Present in components and discriminants. Indicates the normalized -- value of Position for the component, i.e. the offset in storage -- units from the start of the record to the lowest addressed storage -- unit containing part or all of the field. -- Normalized_Position_Max (Uint10) -- Present in components and discriminants. For almost all cases, this -- is the same as Normalized_Position. The one exception is for the case -- of a discriminated record containing one or more arrays whose length -- depends on discriminants. In this case, the Normalized_Position_Max -- field represents the maximum possible value of Normalized_Position -- assuming min/max values for discriminant subscripts in all fields. -- This is used by Layout in front end layout mode to properly computed -- the maximum size such records (needed for allocation purposes when -- there are default discriminants, and also for the 'Size value). -- No_Strict_Aliasing (Flag136) [base type only] -- Present in access types. Set to direct the back end to avoid any -- optimizations based on an assumption about the aliasing status of -- objects designated by the access type. For the case of the gcc -- back end, the effect is as though all references to objects of -- the type were compiled with -fno-strict-aliasing. This flag is -- set if an unchecked conversion with the access type as a target -- type occurs in the same source unit as the declaration of the -- access type, or if an explicit pragma No_Strict_Aliasing applies. -- Number_Dimensions (synthesized) -- Applies to array types and subtypes. Returns the number of dimensions -- of the array type or subtype as a value of type Pos. -- Number_Discriminants (synthesized) -- Applies to all types with discriminants. Yields the number of -- discriminants as a value of type Pos. -- Number_Entries (synthesized) -- Applies to concurrent types. Returns the number of entries that are -- declared within the task or protected definition for the type. -- Number_Formals (synthesized) -- Applies to subprograms and subprogram types. Yields the number of -- formals as a value of type Pos. -- Obsolescent_Warning (Node24) -- Present in subprogram entities. Set non-empty only if the pragma -- Obsolescent had a string argument, in which case it records the -- contents of the corresponding string literal node. -- Original_Access_Type (Node21) -- Present in access to subprogram types. Anonymous access to protected -- subprogram types are replaced by an occurrence of an internal access -- to subprogram type. This field links the replacement entity with the -- original entity. -- Original_Array_Type (Node21) -- Present in modular types and array types and subtypes. Set only -- if the Is_Packed_Array_Type flag is set, indicating that the type -- is the implementation type for a packed array, and in this case it -- points to the original array type for which this is the packed -- array implementation type. -- Object_Ref (Node17) -- Present in protected bodies. This is an implicit prival for the -- Protection object associated with a protected object. See Prival -- for further details on the use of privals. -- Original_Record_Component (Node22) -- Present in components, including discriminants. The usage depends -- on whether the record is a base type and whether it is tagged. -- -- In base tagged types: -- When the component is inherited in a record extension, it points -- to the original component (the entity of the ancestor component -- which is not itself inherited) otherwise it points to itself. -- Gigi uses this attribute to implement the automatic dereference in -- the extension and to apply the transformation: -- -- Rec_Ext.Comp -> Rec_Ext.Parent. ... .Parent.Comp -- -- In base non-tagged types: -- Always points to itself except for non-girder discriminants, where -- it points to the girder discriminant it renames. -- -- In subtypes (tagged and untagged): -- Points to the component in the base type. -- Packed_Array_Type (Node23) -- Present in array types and subtypes, including the string literal -- subtype case, if the corresponding type is packed (either bit packed -- or packed to eliminate holes in non-contiguous enumeration type -- index types). References the type used to represent the packed array, -- which is either a modular type for short static arrays, or an -- array of System.Unsigned. Note that in some situations (internal -- types, and references to fields of variant records), it is not -- always possible to construct this type in advance of its use. If -- Packed_Array_Type is empty, then the necessary type is declared -- on the fly for each reference to the array. -- Parameter_Mode (synthesized) -- Applies to formal parameter entities. This is a synonym for Ekind, -- used when obtaining the formal kind of a formal parameter (the result -- is one of E_[In/Out/In_Out]_Paramter) -- Parent_Subtype (Node19) -- Present in E_Record_Type. Points to the subtype to use for a -- field that references the parent record. -- Primitive_Operations (Elist15) -- Present in tagged record types and subtypes and in tagged private -- types. Points to an element list of entities for primitive operations -- for the tagged type. Not present (and not set) in untagged types (it -- is an error to reference the primitive operations field of a type -- that is not tagged). -- Private_Dependents (Elist18) -- Present in private (sub)types. Records the subtypes of the -- private type, derivations from it, and records and arrays -- with components dependent on the type. -- -- The subtypes are traversed when installing and deinstalling -- (the full view of) a private type in order to ensure correct -- view of the subtypes. -- -- Used in similar fashion for incomplete types: holds list of subtypes -- of these incomplete types that have discriminant constraints. The -- full views of these subtypes are constructed when the full view of -- the incomplete type is processed. -- In addition, if the incomplete type is the designated type in an -- access definition for an access parameter, the operation may be -- a dispatching primitive operation, which is only known when the full -- declaration of the type is seen. Subprograms that have such an -- access parameter are also placed in the list of private_dependents. -- Prival (Node17) -- Present in components. Used for representing private declarations -- of protected objects (private formal: by analogy to Discriminal_Link). -- Empty unless the synthesized Is_Protected_Private attribute is -- true. The entity used as a formal parameter that corresponds to -- the to the private declaration in protected operations. See -- "Private data in protected objects" for details. -- Privals_Chain (Elist23) -- Present in protected operations (subprograms and entries). Links -- all occurrences of the Privals in the body of the operation, in -- order to patch their types at the end of their expansion. See -- "Private data in protected objects" for details. -- Private_View (Node22) -- For each private type, three entities are allocated, the private view, -- the full view, and the shadow entity. The shadow entity contains a -- copy of the private view and is used for restoring the proper private -- view after a region in which the full view is visible (and is copied -- into the entity normally used for the private view during this period -- of visibility). The Private_View field is self-referential when the -- private view lives in its normal entity, but in the copy that is made -- in the shadow entity, it points to the proper location in which to -- restore the private view saved in the shadow. -- Protected_Formal (Node22) -- Present in formal parameters (in, in out and out parameters). Used -- only for formals of protected operations. References corresponding -- formal parameter in the unprotected version of the operation that -- is created during expansion. -- Protected_Body_Subprogram (Node11) -- Present in protected operations. References the entity for the -- subprogram which implements the body of the operation. -- Protected_Operation (Node23) -- Present in components. Used for representing private declarations -- of protected objects. Empty unless the synthesized attribute -- Is_Protected_Private is True. This is the entity corresponding -- to the body of the protected operation currently being analyzed, -- and which will eventually use the current Prival associated with -- this component to refer to the renaming of a private object -- component. As soon as the expander generates this renaming, this -- attribute is changed to refer to the next protected subprogram. -- See "Private data in protected objects" for details. -- Reachable (Flag49) -- Present in labels. The flag is set over the range of statements in -- which a goto to that label is legal. -- Referenced (Flag156) -- Present in all entities, set if the entity is referenced, except -- for the case of an appearence of a simple variable that is not a -- renaming, as the left side of an assignment in which case the flag -- Referenced_As_LHS is set instead. -- Referenced_As_LHS (Flag36): This flag is set instead of -- Referenced if a simple variable that is not a renaming appears as -- the left side of an assignment. The reason we distinguish this kind -- of reference is that we have a separate warning for variables that -- are only assigned and never read. -- Referenced_Object (Node10) -- Present in all type entities. Set non-Empty only for type entities -- constructed for unconstrained objects, or objects that depend on -- discriminants. Points to the expression from which the actual -- subtype of the object can be evaluated. -- Register_Exception_Call (Node20) -- Present in exception entities. When an exception is declared, -- a call is expanded to Register_Exception. This field points to -- the expanded N_Procedure_Call_Statement node for this call. It -- is used for Import/Export_Exception processing to modify the -- register call to make appropriate entries in the special tables -- used for handling these pragmas at runtime. -- Related_Array_Object (Node19) -- Present in array types and subtypes. Used only for the base type -- and subtype created for an anonymous array object. Set to point -- to the entity of the corresponding array object. Currently used -- only for type-related error messages. -- Related_Instance (Node15) -- Present in the wrapper packages created for subprogram instances. -- The internal subprogram that implements the instance is inside the -- wrapper package, but for debugging purposes its external symbol -- must correspond to the name and scope of the related instance. -- Renamed_Entity (Node18) -- Present in exceptions, packages and generic units that are defined -- by a renaming declaration. Denotes the renamed entity, or transit- -- itively the ultimate renamed entity if there is a chain of renaming -- declarations. -- Renamed_Object (Node18) -- Present in all objects (constants, variables, components, formal -- parameters, generic formal parameters, and loop parameters). Set -- non-Empty if the object was declared by a renaming declaration, in -- which case it references the tree node for the name of the renamed -- object. This is only possible for the variable and constant cases. -- For formal parameters, this field is used in the course of inline -- expansion, to map the formals of a subprogram into the corresponding -- actuals. For formals of a task entry, it denotes the local renaming -- that replaces the actual within the accept statement. -- The field is Empty otherwise. -- Renaming_Map (Uint9) -- Present in generic subprograms, generic packages, and their -- instances. Also present in the instances of the corresponding -- bodies. Denotes the renaming map (generic entities => instance -- entities) used to construct the instance by givin an index into -- the tables used to represent these maps. See Sem_Ch12 for further -- details. The maps for package instances are also used when the -- instance is the actual corresponding to a formal package. -- Return_Present (Flag54) -- Present in function and generic function entities. Set if the -- function contains a return statement (used for error checking). -- This flag can also be set in procedure and generic procedure -- entities (for convenience in setting it), but is only tested -- for the function case. -- Returns_By_Ref (Flag90) -- Present in function entities, to indicate that the function -- returns the result by reference, either because its return typ is a -- by-reference-type or because it uses explicitly the secondary stack. -- Reverse_Bit_Order (Flag164) [base type only] -- Present in all record type entities. Set if a valid pragma an -- attribute represention clause for Bit_Order has reversed the order -- of bits from the default value. When this flag is set, a component -- clause must specify a set of bits entirely contained in a single -- storage unit. -- RM_Size (Uint13) -- Present in all type and subtype entities. Contains the value of -- type'Size as defined in the RM. See also the Esize field and -- and the description on "Handling of Type'Size Values". A value -- of zero in this field for a non-discrete type means that -- the front end has not yet determined the size value. For the -- case of a discrete type, this field is always set by the front -- end and zero is a legitimate value for a type with one value. -- Root_Type (synthesized) -- Applies to all type entities. For class-wide types, return the root -- type of the class covered by the CW type, otherwise returns the -- ultimate derivation ancestor of the given type. This function -- preserves the view, i.e. the Root_Type of a partial view is the -- partial view of the ulimate ancestor, the Root_Type of a full view -- is the full view of the ultimate ancestor. Note that this function -- does not correspond exactly to the use of root type in the RM, since -- in the RM root type applies to a class of types, not to a type. -- Scalar_Range (Node20) -- Present in all scalar types (including modular types, where the -- bounds are 0 .. modulus - 1). References a node in the tree that -- contains the bounds for the range. Note that this information -- could be obtained by rummaging around the tree, but it is more -- convenient to have it immediately at hand in the entity. The -- contents of Scalar_Range can either be an N_Subtype_Indication -- node (with a constraint), or a Range node, but not a simple -- subtype reference (a subtype is converted into a range). -- Scale_Value (Uint15) -- Present in decimal fixed-point types and subtypes. Contains the scale -- for the type (i.e. the value of type'Scale = the number of decimal -- digits after the decimal point). -- Scope (Node3) -- Present in all entities. Points to the entity for the scope (block, -- loop, subprogram, package etc.) in which the entity is declared. -- Since this field is in the base part of the entity node, the access -- routines for this field are in Sinfo. -- Scope_Depth (synth) -- Applies to program units, blocks, concurrent types and entries, -- and also to record types, i.e. to any entity that can appear on -- the scope stack. Yields the scope depth value, which for those -- entities other than records is simply the scope depth value, -- for record entities, it is the Scope_Depth of the record scope. -- Scope_Depth_Value (Uint22) -- Present in program units, blocks, concurrent types and entries. -- Indicates the number of scopes that statically enclose the -- declaration of the unit or type. Library units have a depth of zero. -- Note that record types can act as scopes but do NOT have this field -- set (see Scope_Depth above) -- Scope_Depth_Set (synthesized) -- Applies to a special predicate function that returns a Boolean value -- indicating whether or not the Scope_Depth field has been set. It -- is needed, since returns an invalid value in this case! -- Sec_Stack_Needed_For_Return (Flag167) -- Present in scope entities (blocks, functions, procedures, tasks, -- entries). Set to True when secondary stack is used to hold -- the returned value of a function and thus should not be -- released on scope exit. -- Shadow_Entities (List14) -- Present in package and generic package entities. Points to a list -- of entities that correspond to private types. For each private type -- a shadow entity is created that holds a copy of the private view. -- In regions of the program where the full views of these private -- entities are visible, the full view is copied into the entity that -- is normally used to hold the private view, but the shadow entity -- copy is unchanged. The shadow entities are then used to restore the -- original private views at the end of the region. This list is a -- standard format list (i.e. First (Shadow_Entities) is the first -- entry and subsequent entries are obtained using Next. -- Shared_Var_Assign_Proc (Node22) -- Present in variables. Set non-Empty only if Is_Shared_Passive is -- set, in which case this is the entity for the shared memory assign -- routine. See Exp_Smem for full details. -- Shared_Var_Read_Proc (Node15) -- Present in variables. Set non-Empty only if Is_Shared_Passive is -- set, in which case this is the entity for the shared memory read -- routine. See Exp_Smem for full details. -- Size_Check_Code (Node19) -- Present in constants and variables. Normally Empty. Set if code is -- generated to check the size of the object. This field is used to -- suppress this code if a subsequent address clause is encountered. -- Size_Clause (synthesized) -- Applies to all entities. If a size clause is present in the rep -- item chain for an entity then the attribute definition clause node -- for the size clause is returned. Otherwise Size_Clause returns Empty -- if no item is present. Usually this is only meaningful if the flag -- Has_Size_Clause is set. This is because when the representation item -- chain is copied for a derived type, it can inherit a size clause that -- is not applicable to the entity. -- Size_Depends_On_Discriminant (Flag177) -- Present in all entities for types and subtypes. Indicates that the -- size of the type depends on the value of one or more discriminants. -- Currently, this flag is only set in front end layout mode for arrays -- which have one or more bounds depending on a discriminant value. -- Size_Known_At_Compile_Time (Flag92) -- Present in all entities for types and subtypes. Indicates that the -- size of objects of the type is known at compile time. This flag is -- used to optimize some generated code sequences, and also to enable -- some error checks (e.g. disallowing component clauses on variable -- length objects. It is set conservatively (i.e. if it is True, the -- size is certainly known at compile time, if it is False, then the -- size may or may not be known at compile time, but the code will -- assume that it is not known). -- Small_Value (Ureal21) -- Present in fixed point types. Points to the universal real for the -- Small of the type, either as given in a representation clause, or -- as computed (as a power of two) by the compiler. -- Spec_Entity (Node19) -- Present in package body entities. Points to corresponding package -- spec entity. Also present in subprogram body parameters in the -- case where there is a separate spec, where this field references -- the corresponding parameter entities in the spec. -- Storage_Size_Variable (Node15) [implementation base type only] -- Present in access types and task type entities. This flag is set -- if a valid and effective pragma Storage_Size applies to the base -- type. Points to the entity for a variable that is created to -- hold the value given in a Storage_Size pragma for an access -- collection or a task type. Note that in the access type case, -- this field is present only in the root type (since derived types -- share the same storage pool). -- Stored_Constraint (Elist23) -- Present in entities that can have discriminants (concurrent types -- subtypes, record types and subtypes, private types and subtypes, -- limited private types and subtypes and incomplete types). Points -- to an element list containing the expressions for each of the -- stored discriminants for the record (sub)type. -- Strict_Alignment (Flag145) [implementation base type only] -- Present in all type entities. Indicates that some containing part -- is either aliased or tagged. This prohibits packing the object -- tighter than its natural size and alignment. -- String_Literal_Length (Uint16) -- Present in string literal subtypes (which are created to correspond -- to string literals in the program). Contains the length of the string -- literal. -- String_Literal_Low_Bound (Node15) -- Present in string literal subtypes (which are created to correspond -- to string literals in the program). Contains an expression whose -- value represents the low bound of the literal. This is a copy of -- the low bound of the applicable index constraint if there is one, -- or a copy of the low bound of the index base type if not. -- Suppress_Elaboration_Warnings (Flag148) -- Present in all entities, relevant only for subprogram entities. If -- this flag is set then Sem_Elab will not generate elaboration warnings -- for the subprogram. Suppression of such warnings is automatic for -- subprograms for which elaboration checks are suppressed (without the -- need to set this flag), but the flag is also set for various internal -- entities (such as init procs) which are known not to generate any -- possible access before elaboration. (we need a clear description of -- how this flag differs in effect from Elaboration_Checks_Suppressed???) -- Suppress_Init_Proc (Flag105) [base type only] -- Present in all type entities. Set to suppress the generation of -- initialization procedures where they are known to be not needed. -- For example, the enumeration image table entity uses this flag. -- Suppress_Style_Checks (Flag165) -- Present in all entities. Suppresses any style checks specifically -- associated with the given entity if set. -- Tag_Component (synthesized) -- Applies to tagged record types, returns the entity for the _Tag -- field in this record, which must be present. -- Treat_As_Volatile (Flag41) -- Present in all type entities, and also in constants, components and -- variables. Set if this entity is to be treated as volatile for code -- generation purposes. Always set if Is_Volatile is set, but can also -- be set as a result of situations (such as address overlays) where -- the front end wishes to force volatile handling to inhibit aliasing -- optimization which might be legally ok, but is undesirable. Note -- that the back end always tests this flag rather than Is_Volatile. -- The front end tests Is_Volatile if it is concerned with legality -- checks associated with declared volatile variables, but if the test -- is for the purposes of suppressing optimizations, then the front -- end should test Treat_As_Volatile rather than Is_Volatile. -- Type_High_Bound (synthesized) -- Applies to scalar types. Returns the tree node (Node_Id) that -- contains the high bound of a scalar type. The returned value is a -- literal for a base type, but may be an expression in the case of a -- scalar type with dynamic bounds. Note that in the case of a fixed -- point type, the high bound is in units of small, and is an integer. -- Type_Low_Bound (synthesized) -- Applies to scalar types. Returns the tree node (Node_Id) that -- contains the low bound of a scalar type. The returned value is a -- literal for a base type, but may be an expression in the case of a -- scalar type with dynamic bounds. Note that in the case of a fixed -- point type, the low bound is in units of small, and is an integer. -- Underlying_Full_View (Node19) -- Present in private subtypes that are the completion of other private -- types, or in private types that are derived from private subtypes. -- If the full view of a private type T is derived from another -- private type with discriminants Td, the full view of T is also -- private, and there is no way to attach to it a further full view that -- would convey the structure of T to the back end. The Underlying_Full_ -- View is an attribute of the full view that is a subtype of Td with -- the same constraint as the declaration for T. The declaration for this -- subtype is built at the point of the declaration of T, either as a -- completion, or as a subtype declaration where the base type is private -- and has a private completion. If Td is already constrained, then its -- full view can serve directly as the full view of T. -- Underlying_Type (synthesized) -- Applies to all entities. This is the identity function except in -- the case where it is applied to an incomplete or private type, -- in which case it is the underlying type of the type declared by -- the completion, or Empty if the completion has not yet been -- encountered and analyzed. -- -- Note: the reason this attribute applies to all entities, and not -- just types, is to legitimize code where Underlying_Type is applied -- to an entity which may or may not be a type, with the intent that -- if it is a type, its underlying type is taken. -- Unset_Reference (Node16) -- Present in variables and out parameters. This is normally Empty. -- It is set to point to an identifier that represents a reference -- to the entity before any value has been set. Only the first such -- reference is identified. This field is used to generate a warning -- message if necessary (see Sem_Warn.Check_Unset_Reference). -- Uses_Sec_Stack (Flag95) -- Present in scope entities (blocks,functions, procedures, tasks, -- entries). Set to True when secondary stack is used in this scope and -- must be released on exit unless Sec_Stack_Needed_For_Return is set. -- Vax_Float (Flag151) [base type only] -- Present in all type entities. Set only on the base type of float -- types with Vax format. The particular format is determined by the -- Digits_Value value which is 6,9,15 for F_Float, D_Float, G_Float. -- Warnings_Off (Flag96) -- Present in all entities. Set if a pragma Warnings (Off, entity-name) -- is used to suppress warnings for a given entity. It is also used by -- the compiler in some situations to kill spurious warnings. ------------------ -- Access Kinds -- ------------------ -- The following three entity kinds are introduced by the corresponding -- type definitions: -- E_Access_Type, -- E_General_Access_Type, -- E_Anonymous_Access_Subprogram_Type, -- E_Anonymous_Access_Protected_Subprogram_Type -- E_Anonymous_Access_Type. -- In addition, we define the kind E_Allocator_Type to label -- allocators. This is because special resolution rules apply to this -- construct. Eventually the constructs are labeled with the access -- type imposed by the context. Gigi should never see the type -- E_Allocator. -- Similarly, the type E_Access_Attribute_Type is used as the initial -- kind associated with an access attribute. After resolution a specific -- access type will be established as determined by the context. -- Finally, the type Any_Access is used to label -null- during type -- resolution. Any_Access is also replaced by the context type after -- resolution. -------------------------------- -- Classification of Entities -- -------------------------------- -- The classification of program entities which follows is a refinement of -- the list given in RM 3.1(1). E.g., separate entities denote subtypes of -- different type classes. Ada 95 entities include class wide types, -- protected types, subprogram types, generalized access types, generic -- formal derived types and generic formal packages. -- The order chosen for these kinds allows us to classify related entities -- so that they are contiguous. As a result, they do not appear in the -- exact same order as their order of first appearance in the LRM (For -- example, private types are listed before packages). The contiguity -- allows us to define useful subtypes (see below) such as type entities, -- overloaded entities, etc. -- Each entity (explicitly or implicitly declared) has a kind, which is -- a value of the following type: type Entity_Kind is ( E_Void, -- The initial Ekind value for a newly created entity. Also used as -- the Ekind for Standard_Void_Type, a type entity in Standard used -- as a dummy type for the return type of a procedure (the reason we -- create this type is to share the circuits for performing overload -- resolution on calls). ------------- -- Objects -- ------------- E_Variable, -- Variables created by an object declaration with no constant keyword E_Component, -- Components of a record declaration, private declarations of -- protected objects. E_Constant, -- Constants created by an object declaration with a constant keyword E_Discriminant, -- A discriminant, created by the use of a discriminant in a type -- declaration. E_Loop_Parameter, -- A loop parameter created by a for loop ------------------------ -- Parameter Entities -- ------------------------ -- Parameters are also objects E_In_Parameter, -- An in parameter of a subprogram or entry E_Out_Parameter, -- An out parameter of a subprogram or entry E_In_Out_Parameter, -- An in-out parameter of a subprogram or entry -------------------------------- -- Generic Parameter Entities -- -------------------------------- -- Generic parameters are also objects E_Generic_In_Out_Parameter, -- A generic in out parameter, created by the use of a generic in out -- parameter in a generic declaration. E_Generic_In_Parameter, -- A generic in parameter, created by the use of a generic in -- parameter in a generic declaration. ------------------- -- Named Numbers -- ------------------- E_Named_Integer, -- Named numbers created by a number declaration with an integer value E_Named_Real, -- Named numbers created by a number declaration with a real value ----------------------- -- Enumeration Types -- ----------------------- E_Enumeration_Type, -- Enumeration types, created by an enumeration type declaration E_Enumeration_Subtype, -- Enumeration subtypes, created by an explicit or implicit subtype -- declaration applied to an enumeration type or subtype. ------------------- -- Numeric Types -- ------------------- E_Signed_Integer_Type, -- Signed integer type, used for the anonymous base type of the -- integer subtype created by an integer type declaration. E_Signed_Integer_Subtype, -- Signed integer subtype, created by either an integer subtype or -- integer type declaration (in the latter case an integer type is -- created for the base type, and this is the first named subtype). E_Modular_Integer_Type, -- Modular integer type, used for the anonymous base type of the -- integer subtype created by a modular integer type declaration. E_Modular_Integer_Subtype, -- Modular integer subtype, created by either an modular subtype -- or modular type declaration (in the latter case a modular type -- is created for the base type, and this is the first named subtype). E_Ordinary_Fixed_Point_Type, -- Ordinary fixed type, used for the anonymous base type of the -- fixed subtype created by an ordinary fixed point type declaration. E_Ordinary_Fixed_Point_Subtype, -- Ordinary fixed point subtype, created by either an ordinary fixed -- point subtype or ordinary fixed point type declaration (in the -- latter case a fixed point type is created for the base type, and -- this is the first named subtype). E_Decimal_Fixed_Point_Type, -- Decimal fixed type, used for the anonymous base type of the decimal -- fixed subtype created by an ordinary fixed point type declaration. E_Decimal_Fixed_Point_Subtype, -- Decimal fixed point subtype, created by either a decimal fixed point -- subtype or decimal fixed point type declaration (in the latter case -- a fixed point type is created for the base type, and this is the -- first named subtype). E_Floating_Point_Type, -- Floating point type, used for the anonymous base type of the -- floating point subtype created by a floating point type declaration. E_Floating_Point_Subtype, -- Floating point subtype, created by either a floating point subtype -- or floating point type declaration (in the latter case a floating -- point type is created for the base type, and this is the first -- named subtype). ------------------ -- Access Types -- ------------------ E_Access_Type, -- An access type created by an access type declaration with no all -- keyword present. Note that the predefined type Any_Access, which -- has E_Access_Type Ekind, is used to label NULL in the upwards pass -- of type analysis, to be replaced by the true access type in the -- downwards resolution pass. E_Access_Subtype, -- An access subtype created by a subtype declaration for any access -- type (whether or not it is a general access type). E_Access_Attribute_Type, -- An access type created for an access attribute (such as 'Access, -- 'Unrestricted_Access and Unchecked_Access) E_Allocator_Type, -- A special internal type used to label allocators and attribute -- references using 'Access. This is needed because special resolution -- rules apply to these constructs. On the resolution pass, this type -- is always replaced by the actual access type, so Gigi should never -- see types with this Ekind. E_General_Access_Type, -- An access type created by an access type declaration with the all -- keyword present. E_Access_Subprogram_Type, -- An access to subprogram type, created by an access to subprogram -- declaration. E_Access_Protected_Subprogram_Type, -- An access to a protected subprogram, created by the corresponding -- declaration. Values of such a type denote both a protected object -- and a protected operation within, and have different compile-time -- and run-time properties than other access to subprograms. E_Anonymous_Access_Subprogram_Type, -- An anonymous access to subprogram type, created by an access to -- subprogram declaration. E_Anonymous_Access_Protected_Subprogram_Type, -- An anonymous access to protected subprogram type, created by an -- access to subprogram declaration. E_Anonymous_Access_Type, -- An anonymous access type created by an access parameter or access -- discriminant. --------------------- -- Composite Types -- --------------------- E_Array_Type, -- An array type created by an array type declaration. Includes all -- cases of arrays, except for string types. E_Array_Subtype, -- An array subtype, created by an explicit array subtype declaration, -- or the use of an anonymous array subtype. E_String_Type, -- A string type, i.e. an array type whose component type is a character -- type, and for which string literals can thus be written. E_String_Subtype, -- A string subtype, created by an explicit subtype declaration for a -- string type, or the use of an anonymous subtype of a string type, E_String_Literal_Subtype, -- A special string subtype, used only to describe the type of a string -- literal (will always be one dimensional, with literal bounds). E_Class_Wide_Type, -- A class wide type, created by any tagged type declaration (i.e. if -- a tagged type is declared, the corresponding class type is always -- created, using this Ekind value). E_Class_Wide_Subtype, -- A subtype of a class wide type, created by a subtype declaration -- used to declare a subtype of a class type. E_Record_Type, -- A record type, created by a record type declaration E_Record_Subtype, -- A record subtype, created by a record subtype declaration. E_Record_Type_With_Private, -- Used for types defined by a private extension declaration, and -- for tagged private types. Includes the fields for both private -- types and for record types (with the sole exception of -- Corresponding_Concurrent_Type which is obviously not needed). -- This entity is considered to be both a record type and -- a private type. E_Record_Subtype_With_Private, -- A subtype of a type defined by a private extension declaration. E_Private_Type, -- A private type, created by a private type declaration -- that has neither the keyword limited nor the keyword tagged. E_Private_Subtype, -- A subtype of a private type, created by a subtype declaration used -- to declare a subtype of a private type. E_Limited_Private_Type, -- A limited private type, created by a private type declaration that -- has the keyword limited, but not the keyword tagged. E_Limited_Private_Subtype, -- A subtype of a limited private type, created by a subtype declaration -- used to declare a subtype of a limited private type. E_Incomplete_Type, -- An incomplete type, created by an incomplete type declaration E_Task_Type, -- A task type, created by a task type declaration. An entity with this -- Ekind is also created to describe the anonymous type of a task that -- is created by a single task declaration. E_Task_Subtype, -- A subtype of a task type, created by a subtype declaration used to -- declare a subtype of a task type. E_Protected_Type, -- A protected type, created by a protected type declaration. An entity -- with this Ekind is also created to describe the anonymous type of -- a protected object created by a single protected declaration. E_Protected_Subtype, -- A subtype of a protected type, created by a subtype declaration used -- to declare a subtype of a protected type. ----------------- -- Other Types -- ----------------- E_Exception_Type, -- The type of an exception created by an exception declaration E_Subprogram_Type, -- This is the designated type of an Access_To_Subprogram. Has type -- and signature like a subprogram entity, so can appear in calls, -- which are resolved like regular calls, except that such an entity -- is not overloadable. --------------------------- -- Overloadable Entities -- --------------------------- E_Enumeration_Literal, -- An enumeration literal, created by the use of the literal in an -- enumeration type definition. E_Function, -- A function, created by a function declaration or a function body -- that acts as its own declaration. E_Operator, -- A predefined operator, appearing in Standard, or an implicitly -- defined concatenation operator created whenever an array is -- declared. We do not make normal derived operators explicit in -- the tree, but the concatenation operators are made explicit. E_Procedure, -- A procedure, created by a procedure declaration or a procedure -- body that acts as its own declaration. E_Entry, -- An entry, created by an entry declaration in a task or protected -- object. -------------------- -- Other Entities -- -------------------- E_Entry_Family, -- An entry family, created by an entry family declaration in a -- task or protected type definition. E_Block, -- A block identifier, created by an explicit or implicit label on -- a block or declare statement. E_Entry_Index_Parameter, -- An entry index parameter created by an entry index specification -- for the body of a protected entry family. E_Exception, -- An exception created by an exception declaration. The exception -- itself uses E_Exception for the Ekind, the implicit type that is -- created to represent its type uses the Ekind E_Exception_Type. E_Generic_Function, -- A generic function. This is the entity for a generic function -- created by a generic subprogram declaration. E_Generic_Procedure, -- A generic function. This is the entity for a generic procedure -- created by a generic subprogram declaration. E_Generic_Package, -- A generic package, this is the entity for a generic package created -- by a generic package declaration. E_Label, -- The defining entity for a label. Note that this is created by the -- implicit label declaration, not the occurrence of the label itself, -- which is simply a direct name referring to the label. E_Loop, -- A loop identifier, created by an explicit or implicit label on a -- loop statement. E_Package, -- A package, created by a package declaration E_Package_Body, -- A package body. This entity serves only limited functions, since -- most semantic analysis uses the package entity (E_Package). However -- there are some attributes that are significant for the body entity. -- For example, collection of exception handlers. E_Protected_Object, -- A protected object, created by an object declaration that declares -- an object of a protected type. E_Protected_Body, -- A protected body. This entity serves almost no function, since all -- semantic analysis uses the protected entity (E_Protected_Type) E_Task_Body, -- A task body. This entity serves almost no function, since all -- semantic analysis uses the protected entity (E_Task_Type). E_Subprogram_Body -- A subprogram body. Used when a subprogram has a separate declaration -- to represent the entity for the body. This entity serves almost no -- function, since all semantic analysis uses the subprogram entity -- for the declaration (E_Function or E_Procedure). ); for Entity_Kind'Size use 8; -- The data structures in Atree assume this! -------------------------- -- Subtype Declarations -- -------------------------- -- The above entities are arranged so that they can be conveniently -- grouped into subtype ranges. Note that for each of the xxx_Kind -- ranges defined below, there is a corresponding Is_xxx.. predicate -- which is to be used in preference to direct range tests using the -- subtype name. However, the subtype names are available for direct -- use, e.g. as choices in case statements. subtype Access_Kind is Entity_Kind range E_Access_Type .. -- E_Access_Subtype -- E_Access_Attribute_Type -- E_Allocator_Type -- E_General_Access_Type -- E_Access_Subprogram_Type -- E_Access_Protected_Subprogram_Type -- E_Anonymous_Access_Subprogram_Type -- E_Anonymous_Access_Protected_Subprogram_Type E_Anonymous_Access_Type; subtype Array_Kind is Entity_Kind range E_Array_Type .. -- E_Array_Subtype -- E_String_Type -- E_String_Subtype E_String_Literal_Subtype; subtype Class_Wide_Kind is Entity_Kind range E_Class_Wide_Type .. E_Class_Wide_Subtype; subtype Composite_Kind is Entity_Kind range E_Array_Type .. -- E_Array_Subtype -- E_String_Type -- E_String_Subtype -- E_String_Literal_Subtype -- E_Class_Wide_Type -- E_Class_Wide_Subtype -- E_Record_Type -- E_Record_Subtype -- E_Record_Type_With_Private -- E_Record_Subtype_With_Private -- E_Private_Type -- E_Private_Subtype -- E_Limited_Private_Type -- E_Limited_Private_Subtype -- E_Incomplete_Type -- E_Task_Type -- E_Task_Subtype, -- E_Protected_Type, E_Protected_Subtype; subtype Concurrent_Kind is Entity_Kind range E_Task_Type .. -- E_Task_Subtype, -- E_Protected_Type, E_Protected_Subtype; subtype Concurrent_Body_Kind is Entity_Kind range E_Protected_Body .. E_Task_Body; subtype Decimal_Fixed_Point_Kind is Entity_Kind range E_Decimal_Fixed_Point_Type .. E_Decimal_Fixed_Point_Subtype; subtype Digits_Kind is Entity_Kind range E_Decimal_Fixed_Point_Type .. -- E_Decimal_Fixed_Point_Subtype -- E_Floating_Point_Type E_Floating_Point_Subtype; subtype Discrete_Kind is Entity_Kind range E_Enumeration_Type .. -- E_Enumeration_Subtype -- E_Signed_Integer_Type -- E_Signed_Integer_Subtype -- E_Modular_Integer_Type E_Modular_Integer_Subtype; subtype Discrete_Or_Fixed_Point_Kind is Entity_Kind range E_Enumeration_Type .. -- E_Enumeration_Subtype -- E_Signed_Integer_Type -- E_Signed_Integer_Subtype -- E_Modular_Integer_Type -- E_Modular_Integer_Subtype -- E_Ordinary_Fixed_Point_Type -- E_Ordinary_Fixed_Point_Subtype -- E_Decimal_Fixed_Point_Type E_Decimal_Fixed_Point_Subtype; subtype Elementary_Kind is Entity_Kind range E_Enumeration_Type .. -- E_Enumeration_Subtype -- E_Signed_Integer_Type -- E_Signed_Integer_Subtype -- E_Modular_Integer_Type -- E_Modular_Integer_Subtype -- E_Ordinary_Fixed_Point_Type -- E_Ordinary_Fixed_Point_Subtype -- E_Decimal_Fixed_Point_Type -- E_Decimal_Fixed_Point_Subtype -- E_Floating_Point_Type -- E_Floating_Point_Subtype -- E_Access_Type -- E_Access_Subtype -- E_Access_Attribute_Type -- E_Allocator_Type -- E_General_Access_Type -- E_Access_Subprogram_Type -- E_Access_Protected_Subprogram_Type -- E_Anonymous_Access_Subprogram_Type -- E_Anonymous_Access_Protected_Subprogram_Type E_Anonymous_Access_Type; subtype Enumeration_Kind is Entity_Kind range E_Enumeration_Type .. E_Enumeration_Subtype; subtype Entry_Kind is Entity_Kind range E_Entry .. E_Entry_Family; subtype Fixed_Point_Kind is Entity_Kind range E_Ordinary_Fixed_Point_Type .. -- E_Ordinary_Fixed_Point_Subtype -- E_Decimal_Fixed_Point_Type E_Decimal_Fixed_Point_Subtype; subtype Float_Kind is Entity_Kind range E_Floating_Point_Type .. E_Floating_Point_Subtype; subtype Formal_Kind is Entity_Kind range E_In_Parameter .. -- E_Out_Parameter E_In_Out_Parameter; subtype Generic_Subprogram_Kind is Entity_Kind range E_Generic_Function .. E_Generic_Procedure; subtype Generic_Unit_Kind is Entity_Kind range E_Generic_Function .. -- E_Generic_Procedure E_Generic_Package; subtype Incomplete_Or_Private_Kind is Entity_Kind range E_Record_Type_With_Private .. -- E_Record_Subtype_With_Private -- E_Private_Type -- E_Private_Subtype -- E_Limited_Private_Type -- E_Limited_Private_Subtype E_Incomplete_Type; subtype Integer_Kind is Entity_Kind range E_Signed_Integer_Type .. -- E_Signed_Integer_Subtype -- E_Modular_Integer_Type E_Modular_Integer_Subtype; subtype Modular_Integer_Kind is Entity_Kind range E_Modular_Integer_Type .. E_Modular_Integer_Subtype; subtype Named_Kind is Entity_Kind range E_Named_Integer .. E_Named_Real; subtype Numeric_Kind is Entity_Kind range E_Signed_Integer_Type .. -- E_Signed_Integer_Subtype -- E_Modular_Integer_Type -- E_Modular_Integer_Subtype -- E_Ordinary_Fixed_Point_Type -- E_Ordinary_Fixed_Point_Subtype -- E_Decimal_Fixed_Point_Type -- E_Decimal_Fixed_Point_Subtype -- E_Floating_Point_Type E_Floating_Point_Subtype; subtype Object_Kind is Entity_Kind range E_Variable .. -- E_Component -- E_Constant -- E_Discriminant -- E_Loop_Parameter -- E_In_Parameter -- E_Out_Parameter -- E_In_Out_Parameter -- E_Generic_In_Out_Parameter E_Generic_In_Parameter; subtype Ordinary_Fixed_Point_Kind is Entity_Kind range E_Ordinary_Fixed_Point_Type .. E_Ordinary_Fixed_Point_Subtype; subtype Overloadable_Kind is Entity_Kind range E_Enumeration_Literal .. -- E_Function -- E_Operator -- E_Procedure E_Entry; subtype Private_Kind is Entity_Kind range E_Record_Type_With_Private .. -- E_Record_Subtype_With_Private -- E_Private_Type -- E_Private_Subtype -- E_Limited_Private_Type E_Limited_Private_Subtype; subtype Protected_Kind is Entity_Kind range E_Protected_Type .. E_Protected_Subtype; subtype Real_Kind is Entity_Kind range E_Ordinary_Fixed_Point_Type .. -- E_Ordinary_Fixed_Point_Subtype -- E_Decimal_Fixed_Point_Type -- E_Decimal_Fixed_Point_Subtype -- E_Floating_Point_Type E_Floating_Point_Subtype; subtype Record_Kind is Entity_Kind range E_Class_Wide_Type .. -- E_Class_Wide_Subtype -- E_Record_Type -- E_Record_Subtype -- E_Record_Type_With_Private E_Record_Subtype_With_Private; subtype Scalar_Kind is Entity_Kind range E_Enumeration_Type .. -- E_Enumeration_Subtype -- E_Signed_Integer_Type -- E_Signed_Integer_Subtype -- E_Modular_Integer_Type -- E_Modular_Integer_Subtype -- E_Ordinary_Fixed_Point_Type -- E_Ordinary_Fixed_Point_Subtype -- E_Decimal_Fixed_Point_Type -- E_Decimal_Fixed_Point_Subtype -- E_Floating_Point_Type E_Floating_Point_Subtype; subtype String_Kind is Entity_Kind range E_String_Type .. -- E_String_Subtype E_String_Literal_Subtype; subtype Subprogram_Kind is Entity_Kind range E_Function .. -- E_Operator E_Procedure; subtype Signed_Integer_Kind is Entity_Kind range E_Signed_Integer_Type .. E_Signed_Integer_Subtype; subtype Task_Kind is Entity_Kind range E_Task_Type .. E_Task_Subtype; subtype Type_Kind is Entity_Kind range E_Enumeration_Type .. -- E_Enumeration_Subtype -- E_Signed_Integer_Type -- E_Signed_Integer_Subtype -- E_Modular_Integer_Type -- E_Modular_Integer_Subtype -- E_Ordinary_Fixed_Point_Type -- E_Ordinary_Fixed_Point_Subtype -- E_Decimal_Fixed_Point_Type -- E_Decimal_Fixed_Point_Subtype -- E_Floating_Point_Type -- E_Floating_Point_Subtype -- E_Access_Type -- E_Access_Subtype -- E_Access_Attribute_Type -- E_Allocator_Type, -- E_General_Access_Type -- E_Access_Subprogram_Type, -- E_Access_Protected_Subprogram_Type -- E_Anonymous_Access_Subprogram_Type -- E_Anonymous_Access_Protected_Subprogram_Type -- E_Anonymous_Access_Type -- E_Array_Type -- E_Array_Subtype -- E_String_Type -- E_String_Subtype -- E_String_Literal_Subtype -- E_Class_Wide_Subtype -- E_Class_Wide_Type -- E_Record_Type -- E_Record_Subtype -- E_Record_Type_With_Private -- E_Record_Subtype_With_Private -- E_Private_Type -- E_Private_Subtype -- E_Limited_Private_Type -- E_Limited_Private_Subtype -- E_Incomplete_Type -- E_Task_Type -- E_Task_Subtype -- E_Protected_Type -- E_Protected_Subtype -- E_Exception_Type E_Subprogram_Type; -------------------------------------------------------- -- Description of Defined Attributes for Entity_Kinds -- -------------------------------------------------------- -- For each enumeration value defined in Entity_Kind we list all the -- attributes defined in Einfo which can legally be applied to an entity -- of that kind. The implementation of the attribute functions (and for -- non-synthesized attributes, or the corresponding set procedures) are -- in the Einfo body. -- The following attributes apply to all entities -- Ekind (Ekind) -- Chars (Name1) -- Next_Entity (Node2) -- Scope (Node3) -- Homonym (Node4) -- Etype (Node5) -- First_Rep_Item (Node6) -- Freeze_Node (Node7) -- Address_Taken (Flag104) -- Can_Never_Be_Null (Flag38) -- Checks_May_Be_Suppressed (Flag31) -- Debug_Info_Off (Flag166) -- Has_Convention_Pragma (Flag119) -- Has_Delayed_Freeze (Flag18) -- Has_Fully_Qualified_Name (Flag173) -- Has_Gigi_Rep_Item (Flag82) -- Has_Homonym (Flag56) -- Has_Pragma_Elaborate_Body (Flag150) -- Has_Pragma_Inline (Flag157) -- Has_Pragma_Unreferenced (Flag180) -- Has_Private_Declaration (Flag155) -- Has_Qualified_Name (Flag161) -- Has_Unknown_Discriminants (Flag72) -- Has_Xref_Entry (Flag182) -- Is_Ada_2005 (Flag185) -- Is_Bit_Packed_Array (Flag122) (base type only) -- Is_Child_Unit (Flag73) -- Is_Compilation_Unit (Flag149) -- Is_Completely_Hidden (Flag103) -- Is_Discrim_SO_Function (Flag176) -- Is_Dispatching_Operation (Flag6) -- Is_Exported (Flag99) -- Is_First_Subtype (Flag70) -- Is_Formal_Subprogram (Flag111) -- Is_Generic_Instance (Flag130) -- Is_Hidden (Flag57) -- Is_Hidden_Open_Scope (Flag171) -- Is_Immediately_Visible (Flag7) -- Is_Imported (Flag24) -- Is_Inlined (Flag11) -- Is_Internal (Flag17) -- Is_Itype (Flag91) -- Is_Known_Non_Null (Flag37) -- Is_Known_Valid (Flag170) -- Is_Limited_Composite (Flag106) -- Is_Limited_Record (Flag25) -- Is_Package_Body_Entity (Flag160) -- Is_Packed_Array_Type (Flag138) -- Is_Potentially_Use_Visible (Flag9) -- Is_Preelaborated (Flag59) -- Is_Public (Flag10) -- Is_Pure (Flag44) -- Is_Remote_Call_Interface (Flag62) -- Is_Remote_Types (Flag61) -- Is_Shared_Passive (Flag60) -- Is_Statically_Allocated (Flag28) -- Is_Unchecked_Union (Flag117) -- Is_VMS_Exception (Flag133) -- Kill_Elaboration_Checks (Flag32) -- Kill_Range_Checks (Flag33) -- Kill_Tag_Checks (Flag34) -- Materialize_Entity (Flag168) -- Needs_Debug_Info (Flag147) -- Referenced (Flag156) -- Referenced_As_LHS (Flag36) -- Suppress_Elaboration_Warnings (Flag148) -- Suppress_Style_Checks (Flag165) -- Declaration_Node (synth) -- Enclosing_Dynamic_Scope (synth) -- Has_Foreign_Convention (synth) -- Is_Dynamic_Scope (synth) -- Is_Limited_Type (synth) -- Underlying_Type (synth) -- all classification attributes (synth) -- The following list of access functions applies to all entities for -- types and subtypes. References to this list appear subsequently as -- as "(plus type attributes)" for each appropriate Entity_Kind. -- Associated_Node_For_Itype (Node8) -- Class_Wide_Type (Node9) -- Referenced_Object (Node10) -- Full_View (Node11) -- Esize (Uint12) -- RM_Size (Uint13) -- Alignment (Uint14) -- Depends_On_Private (Flag14) -- Discard_Names (Flag88) -- Finalize_Storage_Only (Flag158) (base type only) -- From_With_Type (Flag159) -- Has_Aliased_Components (Flag135) (base type only) -- Has_Alignment_Clause (Flag46) -- Has_Atomic_Components (Flag86) (base type only) -- Has_Complex_Representation (Flag140) (base type only) -- Has_Discriminants (Flag5) -- Has_Non_Standard_Rep (Flag75) (base type only) -- Has_Object_Size_Clause (Flag172) -- Has_Primitive_Operations (Flag120) (base type only) -- Has_Size_Clause (Flag29) -- Has_Specified_Layout (Flag100) (base type only) -- Has_Task (Flag30) (base type only) -- Has_Unchecked_Union (Flag123) (base type only) -- Has_Volatile_Components (Flag87) (base type only) -- In_Use (Flag8) -- Is_Abstract (Flag19) -- Is_Asynchronous (Flag81) -- Is_Atomic (Flag85) -- Is_Constr_Subt_For_U_Nominal (Flag80) -- Is_Constr_Subt_For_UN_Aliased (Flag141) -- Is_Controlled (Flag42) (base type only) -- Is_Eliminated (Flag124) -- Is_Frozen (Flag4) -- Is_Generic_Actual_Type (Flag94) -- Is_Generic_Type (Flag13) -- Is_Non_Static_Subtype (Flag109) -- Is_Packed (Flag51) (base type only) -- Is_Private_Composite (Flag107) -- Is_Renaming_Of_Object (Flag112) -- Is_Tagged_Type (Flag55) -- Is_Unsigned_Type (Flag144) -- Is_Volatile (Flag16) -- Must_Be_On_Byte_Boundary (Flag183) -- Size_Depends_On_Discriminant (Flag177) -- Size_Known_At_Compile_Time (Flag92) -- Strict_Alignment (Flag145) (base type only) -- Suppress_Init_Proc (Flag105) (base type only) -- Treat_As_Volatile (Flag41) -- Alignment_Clause (synth) -- Ancestor_Subtype (synth) -- Base_Type (synth) -- First_Subtype (synth) -- Has_Private_Ancestor (synth) -- Implementation_Base_Type (synth) -- Is_By_Copy_Type (synth) -- Is_By_Reference_Type (synth) -- Is_Return_By_Reference_Type (synth) -- Root_Type (synth) -- Size_Clause (synth) ------------------------------------------ -- Applicable attributes by entity kind -- ------------------------------------------ -- E_Access_Protected_Subprogram_Type -- Equivalent_Type (Node18) -- Directly_Designated_Type (Node20) -- Original_Access_Type (Node21) -- Needs_No_Actuals (Flag22) -- (plus type attributes) -- E_Access_Subprogram_Type -- Equivalent_Type (Node18) (remote types only) -- Directly_Designated_Type (Node20) -- Original_Access_Type (Node21) -- Needs_No_Actuals (Flag22) -- (plus type attributes) -- E_Access_Type -- E_Access_Subtype -- Storage_Size_Variable (Node15) (base type only) -- Master_Id (Node17) -- Directly_Designated_Type (Node20) -- Associated_Storage_Pool (Node22) (base type only) -- Associated_Final_Chain (Node23) -- Has_Pragma_Controlled (Flag27) (base type only) -- Has_Storage_Size_Clause (Flag23) (base type only) -- Is_Access_Constant (Flag69) -- No_Pool_Assigned (Flag131) (base type only) -- No_Strict_Aliasing (Flag136) (base type only) -- (plus type attributes) -- E_Access_Attribute_Type -- Directly_Designated_Type (Node20) -- (plus type attributes) -- E_Allocator_Type -- Directly_Designated_Type (Node20) -- (plus type attributes) -- E_Anonymous_Access_Subprogram_Type -- E_Anonymous_Access_Protected_Subprogram_Type -- E_Anonymous_Access_Type -- Storage_Size_Variable (Node15) ??? is this needed ??? -- Directly_Designated_Type (Node20) -- (plus type attributes) -- E_Array_Type -- E_Array_Subtype -- First_Index (Node17) -- Related_Array_Object (Node19) -- Component_Type (Node20) (base type only) -- Original_Array_Type (Node21) -- Component_Size (Uint22) (base type only) -- Packed_Array_Type (Node23) -- Component_Alignment (special) (base type only) -- Has_Component_Size_Clause (Flag68) (base type only) -- Has_Controlled_Component (Flag43) (base type only) -- Has_Pragma_Pack (Flag121) (base type only) -- Is_Aliased (Flag15) -- Is_Constrained (Flag12) -- Next_Index (synth) -- Number_Dimensions (synth) -- (plus type attributes) -- E_Block -- Block_Node (Node11) -- First_Entity (Node17) -- Last_Entity (Node20) -- Delay_Cleanups (Flag114) -- Discard_Names (Flag88) -- Finalization_Chain_Entity (Node19) -- Scope_Depth_Value (Uint22) -- Entry_Cancel_Parameter (Node23) -- Has_Master_Entity (Flag21) -- Has_Nested_Block_With_Handler (Flag101) -- Sec_Stack_Needed_For_Return (Flag167) -- Uses_Sec_Stack (Flag95) -- Scope_Depth (synth) -- E_Class_Wide_Type -- E_Class_Wide_Subtype -- Cloned_Subtype (Node16) (subtype case only) -- First_Entity (Node17) -- Equivalent_Type (Node18) (always Empty in type case) -- Last_Entity (Node20) -- Has_Controlled_Component (Flag43) (base type only) -- First_Component (synth) -- (plus type attributes) -- E_Component -- Normalized_First_Bit (Uint8) -- Current_Value (Node9) (always Empty) -- Normalized_Position_Max (Uint10) -- Component_Bit_Offset (Uint11) -- Esize (Uint12) -- Component_Clause (Node13) -- Normalized_Position (Uint14) -- DT_Entry_Count (Uint15) -- Entry_Formal (Node16) -- Prival (Node17) -- Renamed_Object (Node18) (always Empty) -- Discriminant_Checking_Func (Node20) -- Interface_Name (Node21) (JGNAT usage only) -- Original_Record_Component (Node22) -- Protected_Operation (Node23) -- Has_Biased_Representation (Flag139) -- Has_Per_Object_Constraint (Flag154) -- Is_Atomic (Flag85) -- Is_Tag (Flag78) -- Is_Volatile (Flag16) -- Treat_As_Volatile (Flag41) -- Is_Protected_Private (synth) -- Next_Component (synth) -- E_Constant -- E_Loop_Parameter -- Current_Value (Node9) (always Empty) -- Discriminal_Link (Node10) (discriminals only) -- Full_View (Node11) -- Esize (Uint12) -- Alignment (Uint14) -- Actual_Subtype (Node17) -- Renamed_Object (Node18) -- Size_Check_Code (Node19) (constants only) -- Interface_Name (Node21) -- Has_Alignment_Clause (Flag46) -- Has_Atomic_Components (Flag86) -- Has_Biased_Representation (Flag139) -- Has_Completion (Flag26) (constants only) -- Has_Size_Clause (Flag29) -- Has_Volatile_Components (Flag87) -- Is_Atomic (Flag85) -- Is_Eliminated (Flag124) -- Is_True_Constant (Flag163) -- Is_Volatile (Flag16) -- Never_Set_In_Source (Flag115) -- Treat_As_Volatile (Flag41) -- Address_Clause (synth) -- Alignment_Clause (synth) -- Constant_Value (synth) -- Size_Clause (synth) -- E_Decimal_Fixed_Point_Type -- E_Decimal_Fixed_Subtype -- Scale_Value (Uint15) -- Digits_Value (Uint17) -- Scalar_Range (Node20) -- Delta_Value (Ureal18) -- Small_Value (Ureal21) -- Has_Machine_Radix_Clause (Flag83) -- Machine_Radix_10 (Flag84) -- Type_Low_Bound (synth) -- Type_High_Bound (synth) -- (plus type attributes) -- E_Discriminant -- Normalized_First_Bit (Uint8) -- Current_Value (Node9) (always Empty) -- Normalized_Position_Max (Uint10) -- Component_Bit_Offset (Uint11) -- Esize (Uint12) -- Component_Clause (Node13) -- Normalized_Position (Uint14) -- Discriminant_Number (Uint15) -- Discriminal (Node17) -- Renamed_Object (Node18) (always Empty) -- Corresponding_Discriminant (Node19) -- Discriminant_Default_Value (Node20) -- Interface_Name (Node21) (JGNAT usage only) -- Original_Record_Component (Node22) -- CR_Discriminant (Node23) -- Next_Discriminant (synth) -- Next_Stored_Discriminant (synth) -- E_Entry -- E_Entry_Family -- Protected_Body_Subprogram (Node11) -- Barrier_Function (Node12) -- Entry_Parameters_Type (Node15) -- First_Entity (Node17) -- Alias (Node18) (Entry only. Always empty) -- Finalization_Chain_Entity (Node19) -- Last_Entity (Node20) -- Accept_Address (Elist21) -- Scope_Depth_Value (Uint22) -- Privals_Chain (Elist23) (for a protected entry) -- Default_Expressions_Processed (Flag108) -- Entry_Accepted (Flag152) -- Is_AST_Entry (Flag132) (for entry only) -- Needs_No_Actuals (Flag22) -- Sec_Stack_Needed_For_Return (Flag167) -- Uses_Sec_Stack (Flag95) -- Address_Clause (synth) -- First_Formal (synth) -- Entry_Index_Type (synth) -- Number_Formals (synth) -- Scope_Depth (synth) -- E_Entry_Index_Parameter -- Entry_Index_Constant (Node18) -- E_Enumeration_Literal -- Enumeration_Pos (Uint11) -- Enumeration_Rep (Uint12) -- Debug_Renaming_Link (Node13) -- Alias (Node18) -- Enumeration_Rep_Expr (Node22) -- Next_Literal (synth) -- E_Enumeration_Type -- E_Enumeration_Subtype -- Lit_Indexes (Node15) (root type only) -- Lit_Strings (Node16) (root type only) -- First_Literal (Node17) -- Scalar_Range (Node20) -- Enum_Pos_To_Rep (Node23) (type only, not subtype) -- Has_Biased_Representation (Flag139) -- Has_Contiguous_Rep (Flag181) -- Has_Enumeration_Rep_Clause (Flag66) -- Nonzero_Is_True (Flag162) (base type only) -- Type_Low_Bound (synth) -- Type_High_Bound (synth) -- (plus type attributes) -- E_Exception -- Alignment (Uint14) -- Renamed_Entity (Node18) -- Register_Exception_Call (Node20) -- Interface_Name (Node21) -- Exception_Code (Uint22) -- Discard_Names (Flag88) -- Is_VMS_Exception (Flag133) -- E_Exception_Type -- Equivalent_Type (Node18) -- (plus type attributes) -- E_Floating_Point_Type -- E_Floating_Point_Subtype -- Digits_Value (Uint17) -- Scalar_Range (Node20) -- Type_Low_Bound (synth) -- Type_High_Bound (synth) -- (plus type attributes) -- E_Function -- E_Generic_Function -- Mechanism (Uint8) (returns Mechanism_Type) -- Renaming_Map (Uint9) -- Handler_Records (List10) (non-generic case only) -- Protected_Body_Subprogram (Node11) -- Next_Inlined_Subprogram (Node12) -- Corresponding_Equality (Node13) (implicit /= only) -- Elaboration_Entity (Node13) (all other cases) -- First_Optional_Parameter (Node14) (non-generic case only) -- DT_Position (Uint15) -- DTC_Entity (Node16) -- First_Entity (Node17) -- Alias (Node18) (non-generic case only) -- Renamed_Entity (Node18) (generic case only) -- Finalization_Chain_Entity (Node19) -- Last_Entity (Node20) -- Interface_Name (Node21) -- Scope_Depth_Value (Uint22) -- Generic_Renamings (Elist23) (for an instance) -- Inner_Instances (Elist23) (for a generic function) -- Privals_Chain (Elist23) (for a protected function) -- Obsolescent_Warning (Node24) -- Body_Needed_For_SAL (Flag40) -- Elaboration_Entity_Required (Flag174) -- Function_Returns_With_DSP (Flag169) -- Default_Expressions_Processed (Flag108) -- Delay_Cleanups (Flag114) -- Delay_Subprogram_Descriptors (Flag50) -- Discard_Names (Flag88) -- Elaborate_All_Desirable (Flag146) -- Has_Completion (Flag26) -- Has_Controlling_Result (Flag98) -- Has_Master_Entity (Flag21) -- Has_Missing_Return (Flag142) -- Has_Nested_Block_With_Handler (Flag101) -- Has_Pragma_Pure_Function (Flag179) (non-generic case only) -- Has_Recursive_Call (Flag143) -- Has_Subprogram_Descriptor (Flag93) -- Is_Abstract (Flag19) -- Is_Called (Flag102) (non-generic case only) -- Is_Constructor (Flag76) -- Is_Discrim_SO_Function (Flag176) -- Is_Eliminated (Flag124) -- Is_Instantiated (Flag126) (generic case only) -- Is_Intrinsic_Subprogram (Flag64) -- Is_Machine_Code_Subprogram (Flag137) (non-generic case only) -- Is_Obsolescent (Flag153) -- Is_Overriding_Operation (Flag39) (non-generic case only) -- Is_Private_Descendant (Flag53) -- Is_Pure (Flag44) -- Is_Thread_Body (Flag77) (non-generic case only) -- Is_Visible_Child_Unit (Flag116) -- Needs_No_Actuals (Flag22) -- Return_Present (Flag54) -- Returns_By_Ref (Flag90) -- Sec_Stack_Needed_For_Return (Flag167) -- Uses_Sec_Stack (Flag95) -- Address_Clause (synth) -- First_Formal (synth) -- Number_Formals (synth) -- Scope_Depth (synth) -- E_General_Access_Type -- Storage_Size_Variable (Node15) (base type only) -- Master_Id (Node17) -- Directly_Designated_Type (Node20) -- Associated_Storage_Pool (Node22) (base type only) -- Associated_Final_Chain (Node23) -- (plus type attributes) -- E_Generic_In_Parameter -- E_Generic_In_Out_Parameter -- Current_Value (Node9) (always Empty) -- Entry_Component (Node11) -- Actual_Subtype (Node17) -- Renamed_Object (Node18) (always Empty) -- Default_Value (Node20) -- Protected_Formal (Node22) -- Is_Controlling_Formal (Flag97) -- Is_Entry_Formal (Flag52) -- Parameter_Mode (synth) -- E_Incomplete_Type -- Non_Limited_View (Node17) -- Private_Dependents (Elist18) -- Discriminant_Constraint (Elist21) -- Stored_Constraint (Elist23) -- First_Discriminant (synth) -- First_Stored_Discriminant (synth) -- (plus type attributes) -- E_In_Parameter -- E_In_Out_Parameter -- E_Out_Parameter -- Mechanism (Uint8) (returns Mechanism_Type) -- Current_Value (Node9) (always Empty for IN case) -- Discriminal_Link (Node10) (discriminals only) -- Entry_Component (Node11) -- Esize (Uint12) -- Extra_Accessibility (Node13) -- Alignment (Uint14) -- Extra_Formal (Node15) -- Unset_Reference (Node16) -- Actual_Subtype (Node17) -- Renamed_Object (Node18) -- Spec_Entity (Node19) -- Default_Value (Node20) -- Default_Expr_Function (Node21) -- Protected_Formal (Node22) -- Extra_Constrained (Node23) -- Is_Controlling_Formal (Flag97) -- Is_Entry_Formal (Flag52) -- Is_Optional_Parameter (Flag134) -- Never_Set_In_Source (Flag115) -- Parameter_Mode (synth) -- E_Label -- Enclosing_Scope (Node18) -- Reachable (Flag49) -- E_Limited_Private_Type -- E_Limited_Private_Subtype -- First_Entity (Node17) -- Private_Dependents (Elist18) -- Underlying_Full_View (Node19) -- Last_Entity (Node20) -- Discriminant_Constraint (Elist21) -- Private_View (Node22) -- Stored_Constraint (Elist23) -- Has_Completion (Flag26) -- Has_Completion_In_Body (Flag71) -- First_Discriminant (synth) -- First_Stored_Discriminant (synth) -- (plus type attributes) -- E_Loop -- Has_Exit (Flag47) -- Has_Master_Entity (Flag21) -- Has_Nested_Block_With_Handler (Flag101) -- E_Modular_Integer_Type -- E_Modular_Integer_Subtype -- Modulus (Uint17) (base type only) -- Original_Array_Type (Node21) -- Scalar_Range (Node20) -- Non_Binary_Modulus (Flag58) (base type only) -- Has_Biased_Representation (Flag139) -- Type_Low_Bound (synth) -- Type_High_Bound (synth) -- (plus type attributes) -- E_Named_Integer -- Constant_Value (synth) -- E_Named_Real -- Constant_Value (synth) -- E_Operator -- First_Entity (Node17) -- Alias (Node18) -- Last_Entity (Node20) -- Is_Machine_Code_Subprogram (Flag137) -- Is_Pure (Flag44) -- Is_Intrinsic_Subprogram (Flag64) -- Is_Overriding_Operation (Flag39) -- Default_Expressions_Processed (Flag108) -- Has_Pragma_Pure_Function (Flag179) -- E_Ordinary_Fixed_Point_Type -- E_Ordinary_Fixed_Point_Subtype -- Delta_Value (Ureal18) -- Scalar_Range (Node20) -- Small_Value (Ureal21) -- Has_Small_Clause (Flag67) -- Type_Low_Bound (synth) -- Type_High_Bound (synth) -- (plus type attributes) -- E_Package -- E_Generic_Package -- Dependent_Instances (Elist8) (for an instance) -- Renaming_Map (Uint9) -- Handler_Records (List10) (non-generic case only) -- Generic_Homonym (Node11) (generic case only) -- Associated_Formal_Package (Node12) -- Elaboration_Entity (Node13) -- Shadow_Entities (List14) -- Related_Instance (Node15) (non-generic case only) -- First_Private_Entity (Node16) -- First_Entity (Node17) -- Renamed_Entity (Node18) -- Body_Entity (Node19) -- Last_Entity (Node20) -- Interface_Name (Node21) -- Scope_Depth_Value (Uint22) -- Generic_Renamings (Elist23) (for an instance) -- Inner_Instances (Elist23) (generic case only) -- Limited_View (Node23) (non-generic, not instance) -- Delay_Subprogram_Descriptors (Flag50) -- Body_Needed_For_SAL (Flag40) -- Discard_Names (Flag88) -- Elaborate_All_Desirable (Flag146) -- Elaboration_Entity_Required (Flag174) -- From_With_Type (Flag159) -- Has_All_Calls_Remote (Flag79) -- Has_Completion (Flag26) -- Has_Forward_Instantiation (Flag175) -- Has_Master_Entity (Flag21) -- Has_Subprogram_Descriptor (Flag93) -- In_Package_Body (Flag48) -- In_Private_Part (Flag45) -- In_Use (Flag8) -- Is_Instantiated (Flag126) -- Is_Private_Descendant (Flag53) -- Is_Visible_Child_Unit (Flag116) -- Is_Wrapper_Package (synth) (non-generic case only) -- Scope_Depth (synth) -- E_Package_Body -- Handler_Records (List10) (non-generic case only) -- Related_Instance (Node15) (non-generic case only) -- First_Entity (Node17) -- Spec_Entity (Node19) -- Last_Entity (Node20) -- Scope_Depth_Value (Uint22) -- Scope_Depth (synth) -- Delay_Subprogram_Descriptors (Flag50) -- Has_Subprogram_Descriptor (Flag93) -- E_Private_Type -- E_Private_Subtype -- Primitive_Operations (Elist15) -- First_Entity (Node17) -- Private_Dependents (Elist18) -- Underlying_Full_View (Node19) -- Last_Entity (Node20) -- Discriminant_Constraint (Elist21) -- Private_View (Node22) -- Stored_Constraint (Elist23) -- Has_Completion (Flag26) -- Has_Completion_In_Body (Flag71) -- Is_Controlled (Flag42) (base type only) -- Is_For_Access_Subtype (Flag118) (subtype only) -- First_Discriminant (synth) -- First_Stored_Discriminant (synth) -- (plus type attributes) -- E_Procedure -- E_Generic_Procedure -- Renaming_Map (Uint9) -- Handler_Records (List10) (non-generic case only) -- Protected_Body_Subprogram (Node11) -- Next_Inlined_Subprogram (Node12) -- Elaboration_Entity (Node13) -- First_Optional_Parameter (Node14) (non-generic case only) -- DT_Position (Uint15) -- DTC_Entity (Node16) -- First_Entity (Node17) -- Alias (Node18) (non-generic case only) -- Renamed_Entity (Node18) (generic case only) -- Finalization_Chain_Entity (Node19) -- Last_Entity (Node20) -- Interface_Name (Node21) -- Scope_Depth_Value (Uint22) -- Scope_Depth (synth) -- Generic_Renamings (Elist23) (for an instance) -- Inner_Instances (Elist23) (for a generic procedure) -- Privals_Chain (Elist23) (for a protected procedure) -- Obsolescent_Warning (Node24) -- Body_Needed_For_SAL (Flag40) -- Elaboration_Entity_Required (Flag174) -- Function_Returns_With_DSP (Flag169) (always False for procedure) -- Default_Expressions_Processed (Flag108) -- Delay_Cleanups (Flag114) -- Delay_Subprogram_Descriptors (Flag50) -- Discard_Names (Flag88) -- Elaborate_All_Desirable (Flag146) -- Has_Completion (Flag26) -- Has_Master_Entity (Flag21) -- Has_Nested_Block_With_Handler (Flag101) -- Has_Pragma_Pure_Function (Flag179) (non-generic case only) -- Has_Subprogram_Descriptor (Flag93) -- Is_Visible_Child_Unit (Flag116) -- Is_Abstract (Flag19) -- Is_Asynchronous (Flag81) -- Is_Called (Flag102) (non-generic subprogram) -- Is_Constructor (Flag76) -- Is_Eliminated (Flag124) -- Is_Instantiated (Flag126) (generic case only) -- Is_Interrupt_Handler (Flag89) -- Is_Intrinsic_Subprogram (Flag64) -- Is_Machine_Code_Subprogram (Flag137) (non-generic case only) -- Is_Null_Init_Proc (Flag178) -- Is_Obsolescent (Flag153) -- Is_Overriding_Operation (Flag39) (non-generic case only) -- Is_Private_Descendant (Flag53) -- Is_Pure (Flag44) -- Is_Thread_Body (Flag77) (non-generic case only) -- Is_Valued_Procedure (Flag127) -- Is_Visible_Child_Unit (Flag116) -- Needs_No_Actuals (Flag22) -- No_Return (Flag113) -- Sec_Stack_Needed_For_Return (Flag167) -- Address_Clause (synth) -- First_Formal (synth) -- Number_Formals (synth) -- E_Protected_Body -- Object_Ref (Node17) -- (any others??? First/Last Entity, Scope_Depth???) -- E_Protected_Object -- E_Protected_Type -- E_Protected_Subtype -- Entry_Bodies_Array (Node15) -- First_Private_Entity (Node16) -- First_Entity (Node17) -- Corresponding_Record_Type (Node18) -- Finalization_Chain_Entity (Node19) -- Last_Entity (Node20) -- Discriminant_Constraint (Elist21) -- Scope_Depth_Value (Uint22) -- Scope_Depth (synth) -- Stored_Constraint (Elist23) -- Has_Controlled_Component (Flag43) (base type only) -- Has_Interrupt_Handler (synth) -- Sec_Stack_Needed_For_Return (Flag167) ??? -- Uses_Sec_Stack (Flag95) ??? -- Has_Entries (synth) -- Number_Entries (synth) -- E_Record_Type -- E_Record_Subtype -- Primitive_Operations (Elist15) -- Access_Disp_Table (Node16) (base type only) -- Cloned_Subtype (Node16) (subtype case only) -- First_Entity (Node17) -- Corresponding_Concurrent_Type (Node18) -- Parent_Subtype (Node19) -- Last_Entity (Node20) -- Discriminant_Constraint (Elist21) -- Corresponding_Remote_Type (Node22) -- Stored_Constraint (Elist23) -- Component_Alignment (special) (base type only) -- C_Pass_By_Copy (Flag125) (base type only) -- Has_Controlled_Component (Flag43) (base type only) -- Has_External_Tag_Rep_Clause (Flag110) -- Has_Record_Rep_Clause (Flag65) (base type only) -- Is_Class_Wide_Equivalent_Type (Flag35) -- Is_Concurrent_Record_Type (Flag20) -- Is_Constrained (Flag12) -- Is_Controlled (Flag42) (base type only) -- Reverse_Bit_Order (Flag164) (base type only) -- First_Component (synth) -- First_Discriminant (synth) -- First_Stored_Discriminant (synth) -- Tag_Component (synth) -- (plus type attributes) -- E_Record_Type_With_Private -- E_Record_Subtype_With_Private -- Primitive_Operations (Elist15) -- Access_Disp_Table (Node16) (base type only) -- First_Entity (Node17) -- Private_Dependents (Elist18) -- Underlying_Full_View (Node19) -- Last_Entity (Node20) -- Discriminant_Constraint (Elist21) -- Private_View (Node22) -- Stored_Constraint (Elist23) -- Has_Completion (Flag26) -- Has_Completion_In_Body (Flag71) -- Has_Controlled_Component (Flag43) (base type only) -- Has_Record_Rep_Clause (Flag65) (base type only) -- Has_External_Tag_Rep_Clause (Flag110) -- Is_Concurrent_Record_Type (Flag20) -- Is_Constrained (Flag12) -- Is_Controlled (Flag42) (base type only) -- Reverse_Bit_Order (Flag164) (base type only) -- First_Component (synth) -- First_Discriminant (synth) -- First_Stored_Discriminant (synth) -- Tag_Component (synth) -- (plus type attributes) -- E_Signed_Integer_Type -- E_Signed_Integer_Subtype -- Scalar_Range (Node20) -- Has_Biased_Representation (Flag139) -- Type_Low_Bound (synth) -- Type_High_Bound (synth) -- (plus type attributes) -- E_String_Type -- E_String_Subtype -- First_Index (Node17) -- Component_Type (Node20) (base type only) -- Is_Constrained (Flag12) -- Next_Index (synth) -- Number_Dimensions (synth) -- (plus type attributes) -- E_String_Literal_Subtype -- String_Literal_Low_Bound (Node15) -- String_Literal_Length (Uint16) -- First_Index (Node17) (always Empty) -- Packed_Array_Type (Node23) -- (plus type attributes) -- E_Subprogram_Body -- Mechanism (Uint8) -- First_Entity (Node17) -- Last_Entity (Node20) -- Scope_Depth_Value (Uint22) -- Scope_Depth (synth) -- E_Subprogram_Type -- Directly_Designated_Type (Node20) -- First_Formal (synth) -- Number_Formals (synth) -- Function_Returns_With_DSP (Flag169) -- (plus type attributes) -- E_Task_Body -- (any others??? First/Last Entity, Scope_Depth???) -- E_Task_Type -- E_Task_Subtype -- Storage_Size_Variable (Node15) (base type only) -- First_Private_Entity (Node16) -- First_Entity (Node17) -- Corresponding_Record_Type (Node18) -- Finalization_Chain_Entity (Node19) -- Last_Entity (Node20) -- Discriminant_Constraint (Elist21) -- Scope_Depth_Value (Uint22) -- Scope_Depth (synth) -- Stored_Constraint (Elist23) -- Delay_Cleanups (Flag114) -- Has_Master_Entity (Flag21) -- Has_Storage_Size_Clause (Flag23) (base type only) -- Uses_Sec_Stack (Flag95) ??? -- Sec_Stack_Needed_For_Return (Flag167) ??? -- Has_Entries (synth) -- Number_Entries (synth) -- (plus type attributes) -- E_Variable -- Hiding_Loop_Variable (Node8) -- Current_Value (Node9) -- Esize (Uint12) -- Extra_Accessibility (Node13) -- Alignment (Uint14) -- Shared_Var_Read_Proc (Node15) -- Unset_Reference (Node16) -- Actual_Subtype (Node17) -- Renamed_Object (Node18) -- Size_Check_Code (Node19) -- Interface_Name (Node21) -- Shared_Var_Assign_Proc (Node22) -- Extra_Constrained (Node23) -- Has_Alignment_Clause (Flag46) -- Has_Atomic_Components (Flag86) -- Has_Biased_Representation (Flag139) -- Has_Size_Clause (Flag29) -- Has_Volatile_Components (Flag87) -- Is_Atomic (Flag85) -- Is_Eliminated (Flag124) -- Is_Shared_Passive (Flag60) -- Is_True_Constant (Flag163) -- Is_Volatile (Flag16) -- Never_Set_In_Source (Flag115) -- Treat_As_Volatile (Flag41) -- Address_Clause (synth) -- Alignment_Clause (synth) -- Constant_Value (synth) -- Size_Clause (synth) -- E_Void -- Since E_Void is the initial Ekind value of an entity when it is first -- created, one might expect that no attributes would be defined on such -- an entity until its Ekind field is set. However, in practice, there -- are many instances in which fields of an E_Void entity are set in the -- code prior to setting the Ekind field. This is not well documented or -- well controlled, and needs cleaning up later. Meanwhile, the access -- procedures in the body of Einfo permit many, but not all, attributes -- to be applied to an E_Void entity, precisely so that this kind of -- pre-setting of attributes works. This is really a hole in the dynamic -- type checking, since there is no assurance that the eventual Ekind -- value will be appropriate for the attributes set, and the consequence -- is that the dynamic type checking in the Einfo body is unnecessarily -- weak. To be looked at systematically some time ??? --------------------------------- -- Component_Alignment Control -- --------------------------------- -- There are four types of alignment possible for array and record -- types, and a field in the type entities contains a value of the -- following type indicating which alignment choice applies. For full -- details of the meaning of these aligment types, see description -- of the Component_Alignment pragma type Component_Alignment_Kind is ( Calign_Default, -- default alignment Calign_Component_Size, -- natural alignment for component size Calign_Component_Size_4, -- natural for size <= 4, 4 for size >= 4 Calign_Storage_Unit); -- all components byte aligned --------------- -- Iterators -- --------------- -- In addition to attributes that are stored as plain data, other -- attributes are procedural, and require some small amount of -- computation. Of course, from the point of view of a user of this -- package, the distinction is not visible (even the field information -- provided below should be disregarded, as it is subject to change -- without notice!). A number of attributes appear as lists: lists of -- formals, lists of actuals, of discriminants, etc. For these, pairs -- of functions are defined, which take the form: -- function First_Thing (E : Enclosing_Construct) return Thing; -- function Next_Thing (T : Thing) return Thing; -- The end of iteration is always signaled by a value of Empty, so that -- loops over these chains invariably have the form: -- This : Thing; -- ... -- This := First_Thing (E); -- while Present (This) loop -- Do_Something_With (This); -- ... -- This := Next_Thing (This); -- end loop; ----------------------------------- -- Handling of Check Suppression -- ----------------------------------- -- There are three ways that checks can be suppressed: -- 1. At the command line level -- 2. At the scope level. -- 3. At the entity level. -- See spec of Sem in sem.ads for details of the data structures used -- to keep track of these various methods for suppressing checks. ------------------------------- -- Handling of Discriminants -- ------------------------------- -- During semantic processing, discriminants are separate entities which -- reflect the semantic properties and allowed usage of discriminants in -- the language. -- In the case of discriminants used as bounds, the references are handled -- directly, since special processing is needed in any case. However, there -- are two circumstances in which discriminants are referenced in a quite -- general manner, like any other variables: -- In initialization expressions for records. Note that the expressions -- used in Priority, Storage_Size, and Task_Info pragmas are effectively -- in this category, since these pragmas are converted to initialized -- record fields in the Corresponding_Record_Type. -- In task and protected bodies, where the discriminant values may be -- referenced freely within these bodies. Discriminants can also appear -- in bounds of entry families and in defaults of operations. -- In both these cases, the discriminants must be treated essentially as -- objects. The following approach is used to simplify and minimize the -- special processing that is required. -- When a record type with discriminants is processed, the semantic -- processing creates the entities for the discriminants. It also creates -- an additional set of entities, called discriminals, one for each of -- the discriminants, and the Discriminal field of the discriminant entity -- points to this additional entity, which is initially created as an -- uninitialized (E_Void) entity. -- During expansion of expressions, any discriminant reference is replaced -- by a reference to the corresponding discriminal. When the initialization -- procedure for the record is created (there will always be one, since -- discriminants are present, see Exp_Ch3 for further details), the -- discriminals are used as the entities for the formal parameters of -- this initialization procedure. The references to these discriminants -- have already been replaced by references to these discriminals, which -- are now the formal parameters corresponding to the required objects. -- In the case of a task or protected body, the semantics similarly -- creates a set of discriminals for the discriminants of the task or -- protected type. When the procedure is created for the task body, -- the parameter passed in is a reference to the task value type, which -- contains the required discriminant values. The expander creates a -- set of declarations of the form: -- discriminal : constant dtype renames _Task.discriminant; -- where discriminal is the discriminal entity referenced by the task -- discriminant, and _Task is the task value passed in as the parameter. -- Again, any references to discriminants in the task body have been -- replaced by the discriminal reference, which is now an object that -- contains the required value. -- This approach for tasks means that two sets of discriminals are needed -- for a task type, one for the initialization procedure, and one for the -- task body. This works out nicely, since the semantics allocates one set -- for the task itself, and one set for the corresponding record. -- The one bit of trickiness arises in making sure that the right set of -- discriminals is used at the right time. First the task definition is -- processed. Any references to discriminants here are replaced by the -- the corresponding *task* discriminals (the record type doesn't even -- exist yet, since it is constructed as part of the expansion of the -- task declaration, which happens after the semantic processing of the -- task definition). The discriminants to be used for the corresponding -- record are created at the same time as the other discriminals, and -- held in the CR_Discriminant field of the discriminant. A use of the -- discriminant in a bound for an entry family is replaced with the CR_ -- discriminant because it controls the bound of the entry queue array -- which is a component of the corresponding record. -- Just before the record initialization routine is constructed, the -- expander exchanges the task and record discriminals. This has two -- effects. First the generation of the record initialization routine -- uses the discriminals that are now on the record, which is the set -- that used to be on the task, which is what we want. -- Second, a new set of (so far unused) discriminals is now on the task -- discriminants, and it is this set that will be used for expanding the -- task body, and also for the discriminal declarations at the start of -- the task body. --------------------------------------- -- Private data in protected objects -- --------------------------------------- -- Private object declarations in protected types pose problems -- similar to those of discriminants. They are expanded to components -- of a record which is passed as the parameter "_object" to expanded -- forms of all protected operations. As with discriminants, timing -- of this expansion is a problem. The sequence of statements for a -- protected operation is expanded before the operation itself, so the -- formal parameter for the record object containing the private data -- does not exist when the references to that data are expanded. -- For this reason, private data is handled in the same way as -- discriminants, expanding references to private data in protected -- operations (which appear as components) to placeholders which will -- eventually become renamings of the private selected components -- of the "_object" formal parameter. These placeholders are called -- "privals", by analogy to the "discriminals" used to implement -- discriminants. They are attached to the component declaration nodes -- representing the private object declarations of the protected type. -- As with discriminals, each protected subprogram needs a unique set -- of privals, since they must refer to renamings of components of a -- formal parameter of that operation. Entry bodies need another set, -- which they all share and which is associated with renamings in the -- Service_Entries procedure for the protected type (this is not yet -- implemented???). This means that we must associate a new set of -- privals (and discriminals) with the private declarations after -- the body of a protected subprogram is processed. -- The last complication is the presence of discriminants and discriminated -- components. In the corresponding record, the components are constrained -- by the discriminants of the record, but within each protected operation -- they are constrained by the discriminants of the actual. The actual -- subtypes of those components are constructed as for other unconstrained -- formals, but the privals are created before the formal object is added -- to the parameter list of the protected operation, so they carry the -- nominal subtype of the original component. After the protected operation -- is actually created (in the expansion of the protected body) we must -- patch the types of each prival occurrence with the proper actual subtype -- which is by now set. The Privals_Chain is used for this patching. ------------------- -- Type Synonyms -- ------------------- -- The following type synonyms are used to tidy up the function and -- procedure declarations that follow, and also to make it possible -- to meet the requirement for the XEINFO utility that all function -- specs must fit on a single source line. subtype B is Boolean; subtype C is Component_Alignment_Kind; subtype E is Entity_Id; subtype M is Mechanism_Type; subtype N is Node_Id; subtype U is Uint; subtype R is Ureal; subtype L is Elist_Id; subtype S is List_Id; -------------------------------- -- Attribute Access Functions -- -------------------------------- -- All attributes are manipulated through a procedural interface. This -- section contains the functions used to obtain attribute values which -- correspond to values in fields or flags in the entity itself. function Accept_Address (Id : E) return L; function Access_Disp_Table (Id : E) return E; function Actual_Subtype (Id : E) return E; function Address_Taken (Id : E) return B; function Alias (Id : E) return E; function Alignment (Id : E) return U; function Associated_Final_Chain (Id : E) return E; function Associated_Formal_Package (Id : E) return E; function Associated_Node_For_Itype (Id : E) return N; function Associated_Storage_Pool (Id : E) return E; function Barrier_Function (Id : E) return N; function Block_Node (Id : E) return N; function Body_Entity (Id : E) return E; function Body_Needed_For_SAL (Id : E) return B; function CR_Discriminant (Id : E) return E; function C_Pass_By_Copy (Id : E) return B; function Can_Never_Be_Null (Id : E) return B; function Checks_May_Be_Suppressed (Id : E) return B; function Class_Wide_Type (Id : E) return E; function Cloned_Subtype (Id : E) return E; function Component_Alignment (Id : E) return C; function Component_Clause (Id : E) return N; function Component_Bit_Offset (Id : E) return U; function Component_Size (Id : E) return U; function Component_Type (Id : E) return E; function Corresponding_Concurrent_Type (Id : E) return E; function Corresponding_Discriminant (Id : E) return E; function Corresponding_Equality (Id : E) return E; function Corresponding_Record_Type (Id : E) return E; function Corresponding_Remote_Type (Id : E) return E; function Current_Value (Id : E) return N; function Debug_Info_Off (Id : E) return B; function Debug_Renaming_Link (Id : E) return E; function DTC_Entity (Id : E) return E; function DT_Entry_Count (Id : E) return U; function DT_Position (Id : E) return U; function Default_Expr_Function (Id : E) return E; function Default_Expressions_Processed (Id : E) return B; function Default_Value (Id : E) return N; function Delay_Cleanups (Id : E) return B; function Delay_Subprogram_Descriptors (Id : E) return B; function Delta_Value (Id : E) return R; function Dependent_Instances (Id : E) return L; function Depends_On_Private (Id : E) return B; function Digits_Value (Id : E) return U; function Directly_Designated_Type (Id : E) return E; function Discard_Names (Id : E) return B; function Discriminal (Id : E) return E; function Discriminal_Link (Id : E) return E; function Discriminant_Checking_Func (Id : E) return E; function Discriminant_Constraint (Id : E) return L; function Discriminant_Default_Value (Id : E) return N; function Discriminant_Number (Id : E) return U; function Elaborate_All_Desirable (Id : E) return B; function Elaboration_Entity (Id : E) return E; function Elaboration_Entity_Required (Id : E) return B; function Enclosing_Scope (Id : E) return E; function Entry_Accepted (Id : E) return B; function Entry_Bodies_Array (Id : E) return E; function Entry_Cancel_Parameter (Id : E) return E; function Entry_Component (Id : E) return E; function Entry_Formal (Id : E) return E; function Entry_Index_Constant (Id : E) return E; function Entry_Index_Type (Id : E) return E; function Entry_Parameters_Type (Id : E) return E; function Enum_Pos_To_Rep (Id : E) return E; function Enumeration_Pos (Id : E) return U; function Enumeration_Rep (Id : E) return U; function Enumeration_Rep_Expr (Id : E) return N; function Equivalent_Type (Id : E) return E; function Esize (Id : E) return U; function Exception_Code (Id : E) return U; function Extra_Accessibility (Id : E) return E; function Extra_Constrained (Id : E) return E; function Extra_Formal (Id : E) return E; function Finalization_Chain_Entity (Id : E) return E; function Finalize_Storage_Only (Id : E) return B; function First_Entity (Id : E) return E; function First_Index (Id : E) return N; function First_Literal (Id : E) return E; function First_Optional_Parameter (Id : E) return E; function First_Private_Entity (Id : E) return E; function First_Rep_Item (Id : E) return N; function Freeze_Node (Id : E) return N; function From_With_Type (Id : E) return B; function Full_View (Id : E) return E; function Function_Returns_With_DSP (Id : E) return B; function Generic_Homonym (Id : E) return E; function Generic_Renamings (Id : E) return L; function Handler_Records (Id : E) return S; function Has_Aliased_Components (Id : E) return B; function Has_Alignment_Clause (Id : E) return B; function Has_All_Calls_Remote (Id : E) return B; function Has_Atomic_Components (Id : E) return B; function Has_Biased_Representation (Id : E) return B; function Has_Completion (Id : E) return B; function Has_Completion_In_Body (Id : E) return B; function Has_Complex_Representation (Id : E) return B; function Has_Component_Size_Clause (Id : E) return B; function Has_Contiguous_Rep (Id : E) return B; function Has_Controlled_Component (Id : E) return B; function Has_Controlling_Result (Id : E) return B; function Has_Convention_Pragma (Id : E) return B; function Has_Delayed_Freeze (Id : E) return B; function Has_Discriminants (Id : E) return B; function Has_Enumeration_Rep_Clause (Id : E) return B; function Has_Exit (Id : E) return B; function Has_External_Tag_Rep_Clause (Id : E) return B; function Has_Fully_Qualified_Name (Id : E) return B; function Has_Gigi_Rep_Item (Id : E) return B; function Has_Homonym (Id : E) return B; function Has_Interrupt_Handler (Id : E) return B; function Has_Machine_Radix_Clause (Id : E) return B; function Has_Master_Entity (Id : E) return B; function Has_Missing_Return (Id : E) return B; function Has_Nested_Block_With_Handler (Id : E) return B; function Has_Forward_Instantiation (Id : E) return B; function Has_Non_Standard_Rep (Id : E) return B; function Has_Object_Size_Clause (Id : E) return B; function Has_Per_Object_Constraint (Id : E) return B; function Has_Pragma_Controlled (Id : E) return B; function Has_Pragma_Elaborate_Body (Id : E) return B; function Has_Pragma_Inline (Id : E) return B; function Has_Pragma_Pack (Id : E) return B; function Has_Pragma_Pure_Function (Id : E) return B; function Has_Pragma_Unreferenced (Id : E) return B; function Has_Primitive_Operations (Id : E) return B; function Has_Qualified_Name (Id : E) return B; function Has_Record_Rep_Clause (Id : E) return B; function Has_Recursive_Call (Id : E) return B; function Has_Size_Clause (Id : E) return B; function Has_Small_Clause (Id : E) return B; function Has_Specified_Layout (Id : E) return B; function Has_Storage_Size_Clause (Id : E) return B; function Has_Stream_Size_Clause (Id : E) return B; function Has_Subprogram_Descriptor (Id : E) return B; function Has_Task (Id : E) return B; function Has_Unchecked_Union (Id : E) return B; function Has_Unknown_Discriminants (Id : E) return B; function Has_Volatile_Components (Id : E) return B; function Has_Xref_Entry (Id : E) return B; function Hiding_Loop_Variable (Id : E) return E; function Homonym (Id : E) return E; function In_Package_Body (Id : E) return B; function In_Private_Part (Id : E) return B; function In_Use (Id : E) return B; function Inner_Instances (Id : E) return L; function Interface_Name (Id : E) return N; function Is_AST_Entry (Id : E) return B; function Is_Abstract (Id : E) return B; function Is_Access_Constant (Id : E) return B; function Is_Ada_2005 (Id : E) return B; function Is_Aliased (Id : E) return B; function Is_Asynchronous (Id : E) return B; function Is_Atomic (Id : E) return B; function Is_Bit_Packed_Array (Id : E) return B; function Is_CPP_Class (Id : E) return B; function Is_Called (Id : E) return B; function Is_Character_Type (Id : E) return B; function Is_Child_Unit (Id : E) return B; function Is_Class_Wide_Equivalent_Type (Id : E) return B; function Is_Compilation_Unit (Id : E) return B; function Is_Completely_Hidden (Id : E) return B; function Is_Constr_Subt_For_UN_Aliased (Id : E) return B; function Is_Constr_Subt_For_U_Nominal (Id : E) return B; function Is_Constrained (Id : E) return B; function Is_Constructor (Id : E) return B; function Is_Controlled (Id : E) return B; function Is_Controlling_Formal (Id : E) return B; function Is_Discrim_SO_Function (Id : E) return B; function Is_Dispatching_Operation (Id : E) return B; function Is_Eliminated (Id : E) return B; function Is_Entry_Formal (Id : E) return B; function Is_Exported (Id : E) return B; function Is_First_Subtype (Id : E) return B; function Is_For_Access_Subtype (Id : E) return B; function Is_Frozen (Id : E) return B; function Is_Generic_Instance (Id : E) return B; function Is_Hidden (Id : E) return B; function Is_Hidden_Open_Scope (Id : E) return B; function Is_Immediately_Visible (Id : E) return B; function Is_Imported (Id : E) return B; function Is_Inlined (Id : E) return B; function Is_Instantiated (Id : E) return B; function Is_Internal (Id : E) return B; function Is_Interrupt_Handler (Id : E) return B; function Is_Intrinsic_Subprogram (Id : E) return B; function Is_Itype (Id : E) return B; function Is_Known_Non_Null (Id : E) return B; function Is_Known_Valid (Id : E) return B; function Is_Limited_Composite (Id : E) return B; function Is_Machine_Code_Subprogram (Id : E) return B; function Is_Non_Static_Subtype (Id : E) return B; function Is_Null_Init_Proc (Id : E) return B; function Is_Obsolescent (Id : E) return B; function Is_Optional_Parameter (Id : E) return B; function Is_Package_Body_Entity (Id : E) return B; function Is_Packed (Id : E) return B; function Is_Packed_Array_Type (Id : E) return B; function Is_Potentially_Use_Visible (Id : E) return B; function Is_Preelaborated (Id : E) return B; function Is_Private_Composite (Id : E) return B; function Is_Private_Descendant (Id : E) return B; function Is_Public (Id : E) return B; function Is_Pure (Id : E) return B; function Is_Remote_Call_Interface (Id : E) return B; function Is_Remote_Types (Id : E) return B; function Is_Renaming_Of_Object (Id : E) return B; function Is_Shared_Passive (Id : E) return B; function Is_Statically_Allocated (Id : E) return B; function Is_Tag (Id : E) return B; function Is_Tagged_Type (Id : E) return B; function Is_Thread_Body (Id : E) return B; function Is_True_Constant (Id : E) return B; function Is_Unchecked_Union (Id : E) return B; function Is_Unsigned_Type (Id : E) return B; function Is_VMS_Exception (Id : E) return B; function Is_Valued_Procedure (Id : E) return B; function Is_Visible_Child_Unit (Id : E) return B; function Is_Volatile (Id : E) return B; function Is_Wrapper_Package (Id : E) return B; function Kill_Elaboration_Checks (Id : E) return B; function Kill_Range_Checks (Id : E) return B; function Kill_Tag_Checks (Id : E) return B; function Last_Entity (Id : E) return E; function Limited_View (Id : E) return E; function Lit_Indexes (Id : E) return E; function Lit_Strings (Id : E) return E; function Machine_Radix_10 (Id : E) return B; function Master_Id (Id : E) return E; function Materialize_Entity (Id : E) return B; function Mechanism (Id : E) return M; function Modulus (Id : E) return U; function Must_Be_On_Byte_Boundary (Id : E) return B; function Needs_Debug_Info (Id : E) return B; function Needs_No_Actuals (Id : E) return B; function Never_Set_In_Source (Id : E) return B; function Next_Inlined_Subprogram (Id : E) return E; function No_Pool_Assigned (Id : E) return B; function No_Return (Id : E) return B; function No_Strict_Aliasing (Id : E) return B; function Non_Binary_Modulus (Id : E) return B; function Non_Limited_View (Id : E) return E; function Nonzero_Is_True (Id : E) return B; function Normalized_First_Bit (Id : E) return U; function Normalized_Position (Id : E) return U; function Normalized_Position_Max (Id : E) return U; function Object_Ref (Id : E) return E; function Obsolescent_Warning (Id : E) return N; function Original_Access_Type (Id : E) return E; function Original_Array_Type (Id : E) return E; function Original_Record_Component (Id : E) return E; function Packed_Array_Type (Id : E) return E; function Parent_Subtype (Id : E) return E; function Primitive_Operations (Id : E) return L; function Prival (Id : E) return E; function Privals_Chain (Id : E) return L; function Private_Dependents (Id : E) return L; function Private_View (Id : E) return N; function Protected_Body_Subprogram (Id : E) return E; function Protected_Formal (Id : E) return E; function Protected_Operation (Id : E) return E; function RM_Size (Id : E) return U; function Reachable (Id : E) return B; function Referenced (Id : E) return B; function Referenced_As_LHS (Id : E) return B; function Referenced_Object (Id : E) return N; function Register_Exception_Call (Id : E) return N; function Related_Array_Object (Id : E) return E; function Related_Instance (Id : E) return E; function Renamed_Entity (Id : E) return N; function Renamed_Object (Id : E) return N; function Renaming_Map (Id : E) return U; function Return_Present (Id : E) return B; function Returns_By_Ref (Id : E) return B; function Reverse_Bit_Order (Id : E) return B; function Scalar_Range (Id : E) return N; function Scale_Value (Id : E) return U; function Scope_Depth_Value (Id : E) return U; function Sec_Stack_Needed_For_Return (Id : E) return B; function Shadow_Entities (Id : E) return S; function Shared_Var_Assign_Proc (Id : E) return E; function Shared_Var_Read_Proc (Id : E) return E; function Size_Check_Code (Id : E) return N; function Size_Known_At_Compile_Time (Id : E) return B; function Size_Depends_On_Discriminant (Id : E) return B; function Small_Value (Id : E) return R; function Spec_Entity (Id : E) return E; function Storage_Size_Variable (Id : E) return E; function Stored_Constraint (Id : E) return L; function Strict_Alignment (Id : E) return B; function String_Literal_Length (Id : E) return U; function String_Literal_Low_Bound (Id : E) return N; function Suppress_Elaboration_Warnings (Id : E) return B; function Suppress_Init_Proc (Id : E) return B; function Suppress_Style_Checks (Id : E) return B; function Treat_As_Volatile (Id : E) return B; function Underlying_Full_View (Id : E) return E; function Unset_Reference (Id : E) return N; function Uses_Sec_Stack (Id : E) return B; function Vax_Float (Id : E) return B; function Warnings_Off (Id : E) return B; ------------------------------- -- Classification Attributes -- ------------------------------- -- These functions provide a convenient functional notation for testing -- whether an Ekind value belongs to a specified kind, for example the -- function Is_Elementary_Type tests if its argument is in Elementary_Kind. -- In some cases, the test is of an entity attribute (e.g. in the case of -- Is_Generic_Type where the Ekind does not provide the needed information) function Is_Access_Type (Id : E) return B; function Is_Array_Type (Id : E) return B; function Is_Class_Wide_Type (Id : E) return B; function Is_Composite_Type (Id : E) return B; function Is_Concurrent_Body (Id : E) return B; function Is_Concurrent_Record_Type (Id : E) return B; function Is_Concurrent_Type (Id : E) return B; function Is_Decimal_Fixed_Point_Type (Id : E) return B; function Is_Digits_Type (Id : E) return B; function Is_Discrete_Or_Fixed_Point_Type (Id : E) return B; function Is_Discrete_Type (Id : E) return B; function Is_Elementary_Type (Id : E) return B; function Is_Entry (Id : E) return B; function Is_Enumeration_Type (Id : E) return B; function Is_Fixed_Point_Type (Id : E) return B; function Is_Floating_Point_Type (Id : E) return B; function Is_Formal (Id : E) return B; function Is_Formal_Subprogram (Id : E) return B; function Is_Generic_Actual_Type (Id : E) return B; function Is_Generic_Unit (Id : E) return B; function Is_Generic_Type (Id : E) return B; function Is_Generic_Subprogram (Id : E) return B; function Is_Incomplete_Or_Private_Type (Id : E) return B; function Is_Integer_Type (Id : E) return B; function Is_Limited_Record (Id : E) return B; function Is_Modular_Integer_Type (Id : E) return B; function Is_Named_Number (Id : E) return B; function Is_Numeric_Type (Id : E) return B; function Is_Object (Id : E) return B; function Is_Ordinary_Fixed_Point_Type (Id : E) return B; function Is_Overloadable (Id : E) return B; function Is_Overriding_Operation (Id : E) return B; function Is_Private_Type (Id : E) return B; function Is_Protected_Type (Id : E) return B; function Is_Real_Type (Id : E) return B; function Is_Record_Type (Id : E) return B; function Is_Scalar_Type (Id : E) return B; function Is_Signed_Integer_Type (Id : E) return B; function Is_Subprogram (Id : E) return B; function Is_Task_Type (Id : E) return B; function Is_Type (Id : E) return B; ------------------------------------- -- Synthesized Attribute Functions -- ------------------------------------- -- The functions in this section synthesize attributes from the tree, -- so they do not correspond to defined fields in the entity itself. function Address_Clause (Id : E) return N; function Alignment_Clause (Id : E) return N; function Ancestor_Subtype (Id : E) return E; function Base_Type (Id : E) return E; function Constant_Value (Id : E) return N; function Declaration_Node (Id : E) return N; function Designated_Type (Id : E) return E; function Enclosing_Dynamic_Scope (Id : E) return E; function First_Component (Id : E) return E; function First_Discriminant (Id : E) return E; function First_Formal (Id : E) return E; function First_Stored_Discriminant (Id : E) return E; function First_Subtype (Id : E) return E; function Has_Attach_Handler (Id : E) return B; function Has_Entries (Id : E) return B; function Has_Foreign_Convention (Id : E) return B; function Has_Private_Ancestor (Id : E) return B; function Has_Private_Declaration (Id : E) return B; function Implementation_Base_Type (Id : E) return E; function Is_Always_Inlined (Id : E) return B; function Is_Boolean_Type (Id : E) return B; function Is_By_Copy_Type (Id : E) return B; function Is_By_Reference_Type (Id : E) return B; function Is_Derived_Type (Id : E) return B; function Is_Dynamic_Scope (Id : E) return B; function Is_Indefinite_Subtype (Id : E) return B; function Is_Limited_Type (Id : E) return B; function Is_Package (Id : E) return B; function Is_Protected_Private (Id : E) return B; function Is_Protected_Record_Type (Id : E) return B; function Is_Return_By_Reference_Type (Id : E) return B; function Is_String_Type (Id : E) return B; function Is_Task_Record_Type (Id : E) return B; function Next_Component (Id : E) return E; function Next_Discriminant (Id : E) return E; function Next_Formal (Id : E) return E; function Next_Formal_With_Extras (Id : E) return E; function Next_Literal (Id : E) return E; function Next_Stored_Discriminant (Id : E) return E; function Number_Dimensions (Id : E) return Pos; function Number_Discriminants (Id : E) return Pos; function Number_Entries (Id : E) return Nat; function Number_Formals (Id : E) return Pos; function Parameter_Mode (Id : E) return Formal_Kind; function Root_Type (Id : E) return E; function Scope_Depth_Set (Id : E) return B; function Size_Clause (Id : E) return N; function Stream_Size_Clause (Id : E) return N; function Tag_Component (Id : E) return E; function Type_High_Bound (Id : E) return N; function Type_Low_Bound (Id : E) return N; function Underlying_Type (Id : E) return E; ---------------------------------------------- -- Type Representation Attribute Predicates -- ---------------------------------------------- -- These predicates test the setting of the indicated attribute. If -- the value has been set, then Known is True, and Unknown is False. -- If no value is set, then Known is False and Unknown is True. The -- Known_Static predicate is true only if the value is set (Known) -- and is set to a compile time known value. Note that in the case -- of Alignment and Normalized_First_Bit, dynamic values are not -- possible, so we do not need a separate Known_Static calls in -- these cases. The not set (unknown values are as follows: -- Alignment Uint_0 or No_Uint -- Component_Size Uint_0 or No_Uint -- Component_Bit_Offset No_Uint -- Digits_Value Uint_0 or No_Uint -- Esize Uint_0 or No_Uint -- Normalized_First_Bit No_Uint -- Normalized_Position No_Uint -- Normalized_Position_Max No_Uint -- RM_Size Uint_0 or No_Uint -- It would be cleaner to use No_Uint in all these cases, but historically -- we chose to use Uint_0 at first, and the change over will take time ??? -- This is particularly true for the RM_Size field, where a value of zero -- is legitimate. We deal with this by a nasty kludge that knows that the -- value is always known static for discrete types (and no other types can -- have an RM_Size value of zero). function Known_Alignment (E : Entity_Id) return B; function Known_Component_Bit_Offset (E : Entity_Id) return B; function Known_Component_Size (E : Entity_Id) return B; function Known_Esize (E : Entity_Id) return B; function Known_Normalized_First_Bit (E : Entity_Id) return B; function Known_Normalized_Position (E : Entity_Id) return B; function Known_Normalized_Position_Max (E : Entity_Id) return B; function Known_RM_Size (E : Entity_Id) return B; function Known_Static_Component_Bit_Offset (E : Entity_Id) return B; function Known_Static_Component_Size (E : Entity_Id) return B; function Known_Static_Esize (E : Entity_Id) return B; function Known_Static_Normalized_First_Bit (E : Entity_Id) return B; function Known_Static_Normalized_Position (E : Entity_Id) return B; function Known_Static_Normalized_Position_Max (E : Entity_Id) return B; function Known_Static_RM_Size (E : Entity_Id) return B; function Unknown_Alignment (E : Entity_Id) return B; function Unknown_Component_Bit_Offset (E : Entity_Id) return B; function Unknown_Component_Size (E : Entity_Id) return B; function Unknown_Esize (E : Entity_Id) return B; function Unknown_Normalized_First_Bit (E : Entity_Id) return B; function Unknown_Normalized_Position (E : Entity_Id) return B; function Unknown_Normalized_Position_Max (E : Entity_Id) return B; function Unknown_RM_Size (E : Entity_Id) return B; ------------------------------ -- Attribute Set Procedures -- ------------------------------ procedure Set_Accept_Address (Id : E; V : L); procedure Set_Access_Disp_Table (Id : E; V : E); procedure Set_Actual_Subtype (Id : E; V : E); procedure Set_Address_Taken (Id : E; V : B := True); procedure Set_Alias (Id : E; V : E); procedure Set_Alignment (Id : E; V : U); procedure Set_Associated_Final_Chain (Id : E; V : E); procedure Set_Associated_Formal_Package (Id : E; V : E); procedure Set_Associated_Node_For_Itype (Id : E; V : N); procedure Set_Associated_Storage_Pool (Id : E; V : E); procedure Set_Barrier_Function (Id : E; V : N); procedure Set_Block_Node (Id : E; V : N); procedure Set_Body_Entity (Id : E; V : E); procedure Set_Body_Needed_For_SAL (Id : E; V : B := True); procedure Set_CR_Discriminant (Id : E; V : E); procedure Set_C_Pass_By_Copy (Id : E; V : B := True); procedure Set_Can_Never_Be_Null (Id : E; V : B := True); procedure Set_Checks_May_Be_Suppressed (Id : E; V : B := True); procedure Set_Class_Wide_Type (Id : E; V : E); procedure Set_Cloned_Subtype (Id : E; V : E); procedure Set_Component_Alignment (Id : E; V : C); procedure Set_Component_Bit_Offset (Id : E; V : U); procedure Set_Component_Clause (Id : E; V : N); procedure Set_Component_Size (Id : E; V : U); procedure Set_Component_Type (Id : E; V : E); procedure Set_Corresponding_Concurrent_Type (Id : E; V : E); procedure Set_Corresponding_Discriminant (Id : E; V : E); procedure Set_Corresponding_Equality (Id : E; V : E); procedure Set_Corresponding_Record_Type (Id : E; V : E); procedure Set_Corresponding_Remote_Type (Id : E; V : E); procedure Set_Current_Value (Id : E; V : N); procedure Set_Debug_Info_Off (Id : E; V : B := True); procedure Set_Debug_Renaming_Link (Id : E; V : E); procedure Set_DTC_Entity (Id : E; V : E); procedure Set_DT_Entry_Count (Id : E; V : U); procedure Set_DT_Position (Id : E; V : U); procedure Set_Default_Expr_Function (Id : E; V : E); procedure Set_Default_Expressions_Processed (Id : E; V : B := True); procedure Set_Default_Value (Id : E; V : N); procedure Set_Delay_Cleanups (Id : E; V : B := True); procedure Set_Delay_Subprogram_Descriptors (Id : E; V : B := True); procedure Set_Delta_Value (Id : E; V : R); procedure Set_Dependent_Instances (Id : E; V : L); procedure Set_Depends_On_Private (Id : E; V : B := True); procedure Set_Digits_Value (Id : E; V : U); procedure Set_Directly_Designated_Type (Id : E; V : E); procedure Set_Discard_Names (Id : E; V : B := True); procedure Set_Discriminal (Id : E; V : E); procedure Set_Discriminal_Link (Id : E; V : E); procedure Set_Discriminant_Checking_Func (Id : E; V : E); procedure Set_Discriminant_Constraint (Id : E; V : L); procedure Set_Discriminant_Default_Value (Id : E; V : N); procedure Set_Discriminant_Number (Id : E; V : U); procedure Set_Elaborate_All_Desirable (Id : E; V : B := True); procedure Set_Elaboration_Entity (Id : E; V : E); procedure Set_Elaboration_Entity_Required (Id : E; V : B := True); procedure Set_Enclosing_Scope (Id : E; V : E); procedure Set_Entry_Accepted (Id : E; V : B := True); procedure Set_Entry_Bodies_Array (Id : E; V : E); procedure Set_Entry_Cancel_Parameter (Id : E; V : E); procedure Set_Entry_Component (Id : E; V : E); procedure Set_Entry_Formal (Id : E; V : E); procedure Set_Entry_Index_Constant (Id : E; V : E); procedure Set_Entry_Parameters_Type (Id : E; V : E); procedure Set_Enum_Pos_To_Rep (Id : E; V : E); procedure Set_Enumeration_Pos (Id : E; V : U); procedure Set_Enumeration_Rep (Id : E; V : U); procedure Set_Enumeration_Rep_Expr (Id : E; V : N); procedure Set_Equivalent_Type (Id : E; V : E); procedure Set_Esize (Id : E; V : U); procedure Set_Exception_Code (Id : E; V : U); procedure Set_Extra_Accessibility (Id : E; V : E); procedure Set_Extra_Constrained (Id : E; V : E); procedure Set_Extra_Formal (Id : E; V : E); procedure Set_Finalization_Chain_Entity (Id : E; V : E); procedure Set_Finalize_Storage_Only (Id : E; V : B := True); procedure Set_First_Entity (Id : E; V : E); procedure Set_First_Index (Id : E; V : N); procedure Set_First_Literal (Id : E; V : E); procedure Set_First_Optional_Parameter (Id : E; V : E); procedure Set_First_Private_Entity (Id : E; V : E); procedure Set_First_Rep_Item (Id : E; V : N); procedure Set_Freeze_Node (Id : E; V : N); procedure Set_From_With_Type (Id : E; V : B := True); procedure Set_Full_View (Id : E; V : E); procedure Set_Function_Returns_With_DSP (Id : E; V : B := True); procedure Set_Generic_Homonym (Id : E; V : E); procedure Set_Generic_Renamings (Id : E; V : L); procedure Set_Handler_Records (Id : E; V : S); procedure Set_Has_Aliased_Components (Id : E; V : B := True); procedure Set_Has_Alignment_Clause (Id : E; V : B := True); procedure Set_Has_All_Calls_Remote (Id : E; V : B := True); procedure Set_Has_Atomic_Components (Id : E; V : B := True); procedure Set_Has_Biased_Representation (Id : E; V : B := True); procedure Set_Has_Completion (Id : E; V : B := True); procedure Set_Has_Completion_In_Body (Id : E; V : B := True); procedure Set_Has_Complex_Representation (Id : E; V : B := True); procedure Set_Has_Component_Size_Clause (Id : E; V : B := True); procedure Set_Has_Contiguous_Rep (Id : E; V : B := True); procedure Set_Has_Controlled_Component (Id : E; V : B := True); procedure Set_Has_Controlling_Result (Id : E; V : B := True); procedure Set_Has_Convention_Pragma (Id : E; V : B := True); procedure Set_Has_Delayed_Freeze (Id : E; V : B := True); procedure Set_Has_Discriminants (Id : E; V : B := True); procedure Set_Has_Enumeration_Rep_Clause (Id : E; V : B := True); procedure Set_Has_Exit (Id : E; V : B := True); procedure Set_Has_External_Tag_Rep_Clause (Id : E; V : B := True); procedure Set_Has_Fully_Qualified_Name (Id : E; V : B := True); procedure Set_Has_Gigi_Rep_Item (Id : E; V : B := True); procedure Set_Has_Homonym (Id : E; V : B := True); procedure Set_Has_Machine_Radix_Clause (Id : E; V : B := True); procedure Set_Has_Master_Entity (Id : E; V : B := True); procedure Set_Has_Missing_Return (Id : E; V : B := True); procedure Set_Has_Nested_Block_With_Handler (Id : E; V : B := True); procedure Set_Has_Forward_Instantiation (Id : E; V : B := True); procedure Set_Has_Non_Standard_Rep (Id : E; V : B := True); procedure Set_Has_Object_Size_Clause (Id : E; V : B := True); procedure Set_Has_Per_Object_Constraint (Id : E; V : B := True); procedure Set_Has_Pragma_Controlled (Id : E; V : B := True); procedure Set_Has_Pragma_Elaborate_Body (Id : E; V : B := True); procedure Set_Has_Pragma_Inline (Id : E; V : B := True); procedure Set_Has_Pragma_Pack (Id : E; V : B := True); procedure Set_Has_Pragma_Pure_Function (Id : E; V : B := True); procedure Set_Has_Pragma_Unreferenced (Id : E; V : B := True); procedure Set_Has_Primitive_Operations (Id : E; V : B := True); procedure Set_Has_Private_Declaration (Id : E; V : B := True); procedure Set_Has_Qualified_Name (Id : E; V : B := True); procedure Set_Has_Record_Rep_Clause (Id : E; V : B := True); procedure Set_Has_Recursive_Call (Id : E; V : B := True); procedure Set_Has_Size_Clause (Id : E; V : B := True); procedure Set_Has_Small_Clause (Id : E; V : B := True); procedure Set_Has_Specified_Layout (Id : E; V : B := True); procedure Set_Has_Storage_Size_Clause (Id : E; V : B := True); procedure Set_Has_Stream_Size_Clause (Id : E; V : B := True); procedure Set_Has_Subprogram_Descriptor (Id : E; V : B := True); procedure Set_Has_Task (Id : E; V : B := True); procedure Set_Has_Unchecked_Union (Id : E; V : B := True); procedure Set_Has_Unknown_Discriminants (Id : E; V : B := True); procedure Set_Has_Volatile_Components (Id : E; V : B := True); procedure Set_Has_Xref_Entry (Id : E; V : B := True); procedure Set_Hiding_Loop_Variable (Id : E; V : E); procedure Set_Homonym (Id : E; V : E); procedure Set_In_Package_Body (Id : E; V : B := True); procedure Set_In_Private_Part (Id : E; V : B := True); procedure Set_In_Use (Id : E; V : B := True); procedure Set_Inner_Instances (Id : E; V : L); procedure Set_Interface_Name (Id : E; V : N); procedure Set_Is_AST_Entry (Id : E; V : B := True); procedure Set_Is_Abstract (Id : E; V : B := True); procedure Set_Is_Access_Constant (Id : E; V : B := True); procedure Set_Is_Ada_2005 (Id : E; V : B := True); procedure Set_Is_Aliased (Id : E; V : B := True); procedure Set_Is_Asynchronous (Id : E; V : B := True); procedure Set_Is_Atomic (Id : E; V : B := True); procedure Set_Is_Bit_Packed_Array (Id : E; V : B := True); procedure Set_Is_CPP_Class (Id : E; V : B := True); procedure Set_Is_Called (Id : E; V : B := True); procedure Set_Is_Character_Type (Id : E; V : B := True); procedure Set_Is_Child_Unit (Id : E; V : B := True); procedure Set_Is_Class_Wide_Equivalent_Type (Id : E; V : B := True); procedure Set_Is_Compilation_Unit (Id : E; V : B := True); procedure Set_Is_Completely_Hidden (Id : E; V : B := True); procedure Set_Is_Concurrent_Record_Type (Id : E; V : B := True); procedure Set_Is_Constr_Subt_For_UN_Aliased (Id : E; V : B := True); procedure Set_Is_Constr_Subt_For_U_Nominal (Id : E; V : B := True); procedure Set_Is_Constrained (Id : E; V : B := True); procedure Set_Is_Constructor (Id : E; V : B := True); procedure Set_Is_Controlled (Id : E; V : B := True); procedure Set_Is_Controlling_Formal (Id : E; V : B := True); procedure Set_Is_Discrim_SO_Function (Id : E; V : B := True); procedure Set_Is_Dispatching_Operation (Id : E; V : B := True); procedure Set_Is_Eliminated (Id : E; V : B := True); procedure Set_Is_Entry_Formal (Id : E; V : B := True); procedure Set_Is_Exported (Id : E; V : B := True); procedure Set_Is_First_Subtype (Id : E; V : B := True); procedure Set_Is_For_Access_Subtype (Id : E; V : B := True); procedure Set_Is_Formal_Subprogram (Id : E; V : B := True); procedure Set_Is_Frozen (Id : E; V : B := True); procedure Set_Is_Generic_Actual_Type (Id : E; V : B := True); procedure Set_Is_Generic_Instance (Id : E; V : B := True); procedure Set_Is_Generic_Type (Id : E; V : B := True); procedure Set_Is_Hidden (Id : E; V : B := True); procedure Set_Is_Hidden_Open_Scope (Id : E; V : B := True); procedure Set_Is_Immediately_Visible (Id : E; V : B := True); procedure Set_Is_Imported (Id : E; V : B := True); procedure Set_Is_Inlined (Id : E; V : B := True); procedure Set_Is_Instantiated (Id : E; V : B := True); procedure Set_Is_Internal (Id : E; V : B := True); procedure Set_Is_Interrupt_Handler (Id : E; V : B := True); procedure Set_Is_Intrinsic_Subprogram (Id : E; V : B := True); procedure Set_Is_Itype (Id : E; V : B := True); procedure Set_Is_Known_Non_Null (Id : E; V : B := True); procedure Set_Is_Known_Valid (Id : E; V : B := True); procedure Set_Is_Limited_Composite (Id : E; V : B := True); procedure Set_Is_Limited_Record (Id : E; V : B := True); procedure Set_Is_Machine_Code_Subprogram (Id : E; V : B := True); procedure Set_Is_Non_Static_Subtype (Id : E; V : B := True); procedure Set_Is_Null_Init_Proc (Id : E; V : B := True); procedure Set_Is_Obsolescent (Id : E; V : B := True); procedure Set_Is_Optional_Parameter (Id : E; V : B := True); procedure Set_Is_Overriding_Operation (Id : E; V : B := True); procedure Set_Is_Package_Body_Entity (Id : E; V : B := True); procedure Set_Is_Packed (Id : E; V : B := True); procedure Set_Is_Packed_Array_Type (Id : E; V : B := True); procedure Set_Is_Potentially_Use_Visible (Id : E; V : B := True); procedure Set_Is_Preelaborated (Id : E; V : B := True); procedure Set_Is_Private_Composite (Id : E; V : B := True); procedure Set_Is_Private_Descendant (Id : E; V : B := True); procedure Set_Is_Public (Id : E; V : B := True); procedure Set_Is_Pure (Id : E; V : B := True); procedure Set_Is_Remote_Call_Interface (Id : E; V : B := True); procedure Set_Is_Remote_Types (Id : E; V : B := True); procedure Set_Is_Renaming_Of_Object (Id : E; V : B := True); procedure Set_Is_Shared_Passive (Id : E; V : B := True); procedure Set_Is_Statically_Allocated (Id : E; V : B := True); procedure Set_Is_Tag (Id : E; V : B := True); procedure Set_Is_Tagged_Type (Id : E; V : B := True); procedure Set_Is_Thread_Body (Id : E; V : B := True); procedure Set_Is_True_Constant (Id : E; V : B := True); procedure Set_Is_Unchecked_Union (Id : E; V : B := True); procedure Set_Is_Unsigned_Type (Id : E; V : B := True); procedure Set_Is_VMS_Exception (Id : E; V : B := True); procedure Set_Is_Valued_Procedure (Id : E; V : B := True); procedure Set_Is_Visible_Child_Unit (Id : E; V : B := True); procedure Set_Is_Volatile (Id : E; V : B := True); procedure Set_Kill_Elaboration_Checks (Id : E; V : B := True); procedure Set_Kill_Range_Checks (Id : E; V : B := True); procedure Set_Kill_Tag_Checks (Id : E; V : B := True); procedure Set_Last_Entity (Id : E; V : E); procedure Set_Limited_View (Id : E; V : E); procedure Set_Lit_Indexes (Id : E; V : E); procedure Set_Lit_Strings (Id : E; V : E); procedure Set_Machine_Radix_10 (Id : E; V : B := True); procedure Set_Master_Id (Id : E; V : E); procedure Set_Materialize_Entity (Id : E; V : B := True); procedure Set_Mechanism (Id : E; V : M); procedure Set_Modulus (Id : E; V : U); procedure Set_Must_Be_On_Byte_Boundary (Id : E; V : B := True); procedure Set_Needs_Debug_Info (Id : E; V : B := True); procedure Set_Needs_No_Actuals (Id : E; V : B := True); procedure Set_Never_Set_In_Source (Id : E; V : B := True); procedure Set_Next_Inlined_Subprogram (Id : E; V : E); procedure Set_No_Pool_Assigned (Id : E; V : B := True); procedure Set_No_Return (Id : E; V : B := True); procedure Set_No_Strict_Aliasing (Id : E; V : B := True); procedure Set_Non_Binary_Modulus (Id : E; V : B := True); procedure Set_Non_Limited_View (Id : E; V : E); procedure Set_Nonzero_Is_True (Id : E; V : B := True); procedure Set_Normalized_First_Bit (Id : E; V : U); procedure Set_Normalized_Position (Id : E; V : U); procedure Set_Normalized_Position_Max (Id : E; V : U); procedure Set_Object_Ref (Id : E; V : E); procedure Set_Obsolescent_Warning (Id : E; V : N); procedure Set_Original_Access_Type (Id : E; V : E); procedure Set_Original_Array_Type (Id : E; V : E); procedure Set_Original_Record_Component (Id : E; V : E); procedure Set_Packed_Array_Type (Id : E; V : E); procedure Set_Parent_Subtype (Id : E; V : E); procedure Set_Primitive_Operations (Id : E; V : L); procedure Set_Prival (Id : E; V : E); procedure Set_Privals_Chain (Id : E; V : L); procedure Set_Private_Dependents (Id : E; V : L); procedure Set_Private_View (Id : E; V : N); procedure Set_Protected_Body_Subprogram (Id : E; V : E); procedure Set_Protected_Formal (Id : E; V : E); procedure Set_Protected_Operation (Id : E; V : N); procedure Set_RM_Size (Id : E; V : U); procedure Set_Reachable (Id : E; V : B := True); procedure Set_Referenced (Id : E; V : B := True); procedure Set_Referenced_As_LHS (Id : E; V : B := True); procedure Set_Referenced_Object (Id : E; V : N); procedure Set_Register_Exception_Call (Id : E; V : N); procedure Set_Related_Array_Object (Id : E; V : E); procedure Set_Related_Instance (Id : E; V : E); procedure Set_Renamed_Entity (Id : E; V : N); procedure Set_Renamed_Object (Id : E; V : N); procedure Set_Renaming_Map (Id : E; V : U); procedure Set_Return_Present (Id : E; V : B := True); procedure Set_Returns_By_Ref (Id : E; V : B := True); procedure Set_Reverse_Bit_Order (Id : E; V : B := True); procedure Set_Scalar_Range (Id : E; V : N); procedure Set_Scale_Value (Id : E; V : U); procedure Set_Scope_Depth_Value (Id : E; V : U); procedure Set_Sec_Stack_Needed_For_Return (Id : E; V : B := True); procedure Set_Shadow_Entities (Id : E; V : S); procedure Set_Shared_Var_Assign_Proc (Id : E; V : E); procedure Set_Shared_Var_Read_Proc (Id : E; V : E); procedure Set_Size_Check_Code (Id : E; V : N); procedure Set_Size_Depends_On_Discriminant (Id : E; V : B := True); procedure Set_Size_Known_At_Compile_Time (Id : E; V : B := True); procedure Set_Small_Value (Id : E; V : R); procedure Set_Spec_Entity (Id : E; V : E); procedure Set_Storage_Size_Variable (Id : E; V : E); procedure Set_Stored_Constraint (Id : E; V : L); procedure Set_Strict_Alignment (Id : E; V : B := True); procedure Set_String_Literal_Length (Id : E; V : U); procedure Set_String_Literal_Low_Bound (Id : E; V : N); procedure Set_Suppress_Elaboration_Warnings (Id : E; V : B := True); procedure Set_Suppress_Init_Proc (Id : E; V : B := True); procedure Set_Suppress_Style_Checks (Id : E; V : B := True); procedure Set_Treat_As_Volatile (Id : E; V : B := True); procedure Set_Underlying_Full_View (Id : E; V : E); procedure Set_Unset_Reference (Id : E; V : N); procedure Set_Uses_Sec_Stack (Id : E; V : B := True); procedure Set_Vax_Float (Id : E; V : B := True); procedure Set_Warnings_Off (Id : E; V : B := True); ----------------------------------- -- Field Initialization Routines -- ----------------------------------- -- These routines are overloadings of some of the above Set procedures -- where the argument is normally a Uint. The overloadings take an Int -- parameter instead, and appropriately convert it. There are also -- versions that implicitly initialize to the appropriate "not set" -- value. The not set (unknown) values are as follows: -- Alignment Uint_0 -- Component_Size Uint_0 -- Component_Bit_Offset No_Uint -- Digits_Value Uint_0 -- Esize Uint_0 -- Normalized_First_Bit No_Uint -- Normalized_Position No_Uint -- Normalized_Position_Max No_Uint -- RM_Size Uint_0 -- It would be cleaner to use No_Uint in all these cases, but historically -- we chose to use Uint_0 at first, and the change over will take time ??? -- This is particularly true for the RM_Size field, where a value of zero -- is legitimate and causes some kludges around the code. procedure Init_Alignment (Id : E; V : Int); procedure Init_Component_Size (Id : E; V : Int); procedure Init_Component_Bit_Offset (Id : E; V : Int); procedure Init_Digits_Value (Id : E; V : Int); procedure Init_Esize (Id : E; V : Int); procedure Init_Normalized_First_Bit (Id : E; V : Int); procedure Init_Normalized_Position (Id : E; V : Int); procedure Init_Normalized_Position_Max (Id : E; V : Int); procedure Init_RM_Size (Id : E; V : Int); procedure Init_Alignment (Id : E); procedure Init_Component_Size (Id : E); procedure Init_Component_Bit_Offset (Id : E); procedure Init_Digits_Value (Id : E); procedure Init_Esize (Id : E); procedure Init_Normalized_First_Bit (Id : E); procedure Init_Normalized_Position (Id : E); procedure Init_Normalized_Position_Max (Id : E); procedure Init_RM_Size (Id : E); procedure Init_Size_Align (Id : E); -- This procedure initializes both size fields and the alignment -- field to all be Unknown. procedure Init_Size (Id : E; V : Int); -- Initialize both the Esize and RM_Size fields of E to V procedure Init_Component_Location (Id : E); -- Initializes all fields describing the location of a component -- (Normalized_Position, Component_Bit_Offset, Normalized_First_Bit, -- Normalized_Position_Max, Esize) to all be Unknown. --------------- -- Iterators -- --------------- -- The call to Next_xxx (obj) is equivalent to obj := Next_xxx (obj) -- We define the set of Proc_Next_xxx routines simply for the purposes -- of inlining them without necessarily inlining the function. procedure Proc_Next_Component (N : in out Node_Id); procedure Proc_Next_Discriminant (N : in out Node_Id); procedure Proc_Next_Formal (N : in out Node_Id); procedure Proc_Next_Formal_With_Extras (N : in out Node_Id); procedure Proc_Next_Index (N : in out Node_Id); procedure Proc_Next_Inlined_Subprogram (N : in out Node_Id); procedure Proc_Next_Literal (N : in out Node_Id); procedure Proc_Next_Stored_Discriminant (N : in out Node_Id); pragma Inline (Proc_Next_Component); pragma Inline (Proc_Next_Discriminant); pragma Inline (Proc_Next_Formal); pragma Inline (Proc_Next_Formal_With_Extras); pragma Inline (Proc_Next_Index); pragma Inline (Proc_Next_Inlined_Subprogram); pragma Inline (Proc_Next_Literal); pragma Inline (Proc_Next_Stored_Discriminant); procedure Next_Component (N : in out Node_Id) renames Proc_Next_Component; procedure Next_Discriminant (N : in out Node_Id) renames Proc_Next_Discriminant; procedure Next_Formal (N : in out Node_Id) renames Proc_Next_Formal; procedure Next_Formal_With_Extras (N : in out Node_Id) renames Proc_Next_Formal_With_Extras; procedure Next_Index (N : in out Node_Id) renames Proc_Next_Index; procedure Next_Inlined_Subprogram (N : in out Node_Id) renames Proc_Next_Inlined_Subprogram; procedure Next_Literal (N : in out Node_Id) renames Proc_Next_Literal; procedure Next_Stored_Discriminant (N : in out Node_Id) renames Proc_Next_Stored_Discriminant; ---------------------------------------------- -- Subprograms for Accessing Rep Item Chain -- ---------------------------------------------- -- The First_Rep_Item field of every entity points to a linked list -- (linked through Next_Rep_Item) of representation pragmas and -- attribute definition clauses that apply to the item. Note that -- in the case of types, it is assumed that any such rep items for -- a base type also apply to all subtypes. This is implemented by -- having the chain for subtypes link onto the chain for the base -- type, so that any new entries for the subtype are added at the -- start of the chain. function Get_Attribute_Definition_Clause (E : Entity_Id; Id : Attribute_Id) return Node_Id; -- Searches the Rep_Item chain for a given entity E, for an instance -- of an attribute definition clause with the given attibute Id Id. If -- found, the value returned is the N_Attribute_Definition_Clause node, -- otherwise Empty is returned. function Get_Rep_Pragma (E : Entity_Id; Nam : Name_Id) return Node_Id; -- Searches the Rep_Item chain for the given entity E, for an instance -- of a representation pragma with the given name Nam. If found then -- the value returned is the N_Pragma node, otherwise Empty is returned. function Has_Rep_Pragma (E : Entity_Id; Nam : Name_Id) return Boolean; -- Searches the Rep_Item chain for the given entity E, for an instance -- of representation pragma with the given name Nam. If found then True -- is returned, otherwise False indicates that no matching entry was found. function Has_Attribute_Definition_Clause (E : Entity_Id; Id : Attribute_Id) return Boolean; -- Searches the Rep_Item chain for a given entity E, for an instance -- of an attribute definition clause with the given attibute Id Id. If -- found, True is returned, otherwise False indicates that no matching -- entry was found. procedure Record_Rep_Item (E : Entity_Id; N : Node_Id); -- N is the node for either a representation pragma or an attribute -- definition clause that applies to entity E. This procedure links -- the node N onto the Rep_Item chain for entity E. ------------------------------- -- Miscellaneous Subprograms -- ------------------------------- procedure Append_Entity (Id : Entity_Id; V : Entity_Id); -- Add an entity to the list of entities declared in the scope V function Is_Entity_Name (N : Node_Id) return Boolean; -- Test if the node N is the name of an entity (i.e. is an identifier, -- expanded name, or an attribute reference that returns an entity). function Next_Index (Id : Node_Id) return Node_Id; -- Given an index from a previous call to First_Index or Next_Index, -- returns a node representing the occurrence of the next index subtype, -- or Empty if there are no more index subtypes. function Scope_Depth (Id : Entity_Id) return Uint; -- Returns the scope depth value of the Id, unless the Id is a record -- type, in which case it returns the scope depth of the record scope. function Subtype_Kind (K : Entity_Kind) return Entity_Kind; -- Given an entity_kind K this function returns the entity_kind -- corresponding to subtype kind of the type represented by K. For -- example if K is E_Signed_Integer_Type then E_Signed_Integer_Subtype -- is returned. If K is already a subtype kind it itself is returned. An -- internal error is generated if no such correspondence exists for K. ---------------------------------- -- Debugging Output Subprograms -- ---------------------------------- procedure Write_Entity_Flags (Id : Entity_Id; Prefix : String); -- Writes a series of entries giving a line for each flag that is -- set to True. Each line is prefixed by the given string procedure Write_Entity_Info (Id : Entity_Id; Prefix : String); -- A debugging procedure to write out information about an entity procedure Write_Field6_Name (Id : Entity_Id); procedure Write_Field7_Name (Id : Entity_Id); procedure Write_Field8_Name (Id : Entity_Id); procedure Write_Field9_Name (Id : Entity_Id); procedure Write_Field10_Name (Id : Entity_Id); procedure Write_Field11_Name (Id : Entity_Id); procedure Write_Field12_Name (Id : Entity_Id); procedure Write_Field13_Name (Id : Entity_Id); procedure Write_Field14_Name (Id : Entity_Id); procedure Write_Field15_Name (Id : Entity_Id); procedure Write_Field16_Name (Id : Entity_Id); procedure Write_Field17_Name (Id : Entity_Id); procedure Write_Field18_Name (Id : Entity_Id); procedure Write_Field19_Name (Id : Entity_Id); procedure Write_Field20_Name (Id : Entity_Id); procedure Write_Field21_Name (Id : Entity_Id); procedure Write_Field22_Name (Id : Entity_Id); procedure Write_Field23_Name (Id : Entity_Id); procedure Write_Field24_Name (Id : Entity_Id); procedure Write_Field25_Name (Id : Entity_Id); procedure Write_Field26_Name (Id : Entity_Id); procedure Write_Field27_Name (Id : Entity_Id); -- These routines are used to output a nice symbolic name for the given -- field, depending on the Ekind. No blanks or end of lines are output, -- just the characters of the field name. -------------------- -- Inline Pragmas -- -------------------- -- Note that these inline pragmas are referenced by the XEINFO utility -- program in preparing the corresponding C header, and only those -- subprograms meeting the requirements documented in the section on -- XEINFO may be referenced in this section. pragma Inline (Accept_Address); pragma Inline (Access_Disp_Table); pragma Inline (Actual_Subtype); pragma Inline (Address_Taken); pragma Inline (Alias); pragma Inline (Alignment); pragma Inline (Associated_Final_Chain); pragma Inline (Associated_Formal_Package); pragma Inline (Associated_Node_For_Itype); pragma Inline (Associated_Storage_Pool); pragma Inline (Barrier_Function); pragma Inline (Block_Node); pragma Inline (Body_Entity); pragma Inline (Body_Needed_For_SAL); pragma Inline (CR_Discriminant); pragma Inline (C_Pass_By_Copy); pragma Inline (Can_Never_Be_Null); pragma Inline (Checks_May_Be_Suppressed); pragma Inline (Class_Wide_Type); pragma Inline (Cloned_Subtype); pragma Inline (Component_Bit_Offset); pragma Inline (Component_Clause); pragma Inline (Component_Size); pragma Inline (Component_Type); pragma Inline (Corresponding_Concurrent_Type); pragma Inline (Corresponding_Discriminant); pragma Inline (Corresponding_Equality); pragma Inline (Corresponding_Record_Type); pragma Inline (Corresponding_Remote_Type); pragma Inline (Current_Value); pragma Inline (Debug_Info_Off); pragma Inline (Debug_Renaming_Link); pragma Inline (DTC_Entity); pragma Inline (DT_Entry_Count); pragma Inline (DT_Position); pragma Inline (Default_Expr_Function); pragma Inline (Default_Expressions_Processed); pragma Inline (Default_Value); pragma Inline (Delay_Cleanups); pragma Inline (Delay_Subprogram_Descriptors); pragma Inline (Delta_Value); pragma Inline (Dependent_Instances); pragma Inline (Depends_On_Private); pragma Inline (Digits_Value); pragma Inline (Directly_Designated_Type); pragma Inline (Discard_Names); pragma Inline (Discriminal); pragma Inline (Discriminal_Link); pragma Inline (Discriminant_Checking_Func); pragma Inline (Discriminant_Constraint); pragma Inline (Discriminant_Default_Value); pragma Inline (Discriminant_Number); pragma Inline (Elaborate_All_Desirable); pragma Inline (Elaboration_Entity); pragma Inline (Elaboration_Entity_Required); pragma Inline (Enclosing_Scope); pragma Inline (Entry_Accepted); pragma Inline (Entry_Bodies_Array); pragma Inline (Entry_Cancel_Parameter); pragma Inline (Entry_Component); pragma Inline (Entry_Formal); pragma Inline (Entry_Index_Constant); pragma Inline (Entry_Index_Type); pragma Inline (Entry_Parameters_Type); pragma Inline (Enum_Pos_To_Rep); pragma Inline (Enumeration_Pos); pragma Inline (Enumeration_Rep); pragma Inline (Enumeration_Rep_Expr); pragma Inline (Equivalent_Type); pragma Inline (Esize); pragma Inline (Exception_Code); pragma Inline (Extra_Accessibility); pragma Inline (Extra_Constrained); pragma Inline (Extra_Formal); pragma Inline (Finalization_Chain_Entity); pragma Inline (First_Entity); pragma Inline (First_Index); pragma Inline (First_Literal); pragma Inline (First_Optional_Parameter); pragma Inline (First_Private_Entity); pragma Inline (First_Rep_Item); pragma Inline (Freeze_Node); pragma Inline (From_With_Type); pragma Inline (Full_View); pragma Inline (Function_Returns_With_DSP); pragma Inline (Generic_Homonym); pragma Inline (Generic_Renamings); pragma Inline (Handler_Records); pragma Inline (Has_Aliased_Components); pragma Inline (Has_Alignment_Clause); pragma Inline (Has_All_Calls_Remote); pragma Inline (Has_Atomic_Components); pragma Inline (Has_Biased_Representation); pragma Inline (Has_Completion); pragma Inline (Has_Completion_In_Body); pragma Inline (Has_Complex_Representation); pragma Inline (Has_Component_Size_Clause); pragma Inline (Has_Contiguous_Rep); pragma Inline (Has_Controlled_Component); pragma Inline (Has_Controlling_Result); pragma Inline (Has_Convention_Pragma); pragma Inline (Has_Delayed_Freeze); pragma Inline (Has_Discriminants); pragma Inline (Has_Enumeration_Rep_Clause); pragma Inline (Has_Exit); pragma Inline (Has_External_Tag_Rep_Clause); pragma Inline (Has_Fully_Qualified_Name); pragma Inline (Has_Gigi_Rep_Item); pragma Inline (Has_Homonym); pragma Inline (Has_Machine_Radix_Clause); pragma Inline (Has_Master_Entity); pragma Inline (Has_Missing_Return); pragma Inline (Has_Nested_Block_With_Handler); pragma Inline (Has_Forward_Instantiation); pragma Inline (Has_Non_Standard_Rep); pragma Inline (Has_Object_Size_Clause); pragma Inline (Has_Per_Object_Constraint); pragma Inline (Has_Pragma_Controlled); pragma Inline (Has_Pragma_Elaborate_Body); pragma Inline (Has_Pragma_Inline); pragma Inline (Has_Pragma_Pack); pragma Inline (Has_Pragma_Pure_Function); pragma Inline (Has_Pragma_Unreferenced); pragma Inline (Has_Primitive_Operations); pragma Inline (Has_Private_Declaration); pragma Inline (Has_Qualified_Name); pragma Inline (Has_Record_Rep_Clause); pragma Inline (Has_Recursive_Call); pragma Inline (Has_Size_Clause); pragma Inline (Has_Small_Clause); pragma Inline (Has_Specified_Layout); pragma Inline (Has_Storage_Size_Clause); pragma Inline (Has_Stream_Size_Clause); pragma Inline (Has_Subprogram_Descriptor); pragma Inline (Has_Task); pragma Inline (Has_Unchecked_Union); pragma Inline (Has_Unknown_Discriminants); pragma Inline (Has_Volatile_Components); pragma Inline (Has_Xref_Entry); pragma Inline (Hiding_Loop_Variable); pragma Inline (Homonym); pragma Inline (In_Package_Body); pragma Inline (In_Private_Part); pragma Inline (In_Use); pragma Inline (Inner_Instances); pragma Inline (Interface_Name); pragma Inline (Is_AST_Entry); pragma Inline (Is_Abstract); pragma Inline (Is_Access_Constant); pragma Inline (Is_Ada_2005); pragma Inline (Is_Access_Type); pragma Inline (Is_Aliased); pragma Inline (Is_Array_Type); pragma Inline (Is_Asynchronous); pragma Inline (Is_Atomic); pragma Inline (Is_Bit_Packed_Array); pragma Inline (Is_CPP_Class); pragma Inline (Is_Called); pragma Inline (Is_Character_Type); pragma Inline (Is_Child_Unit); pragma Inline (Is_Class_Wide_Equivalent_Type); pragma Inline (Is_Class_Wide_Type); pragma Inline (Is_Compilation_Unit); pragma Inline (Is_Completely_Hidden); pragma Inline (Is_Composite_Type); pragma Inline (Is_Concurrent_Body); pragma Inline (Is_Concurrent_Record_Type); pragma Inline (Is_Concurrent_Type); pragma Inline (Is_Constr_Subt_For_UN_Aliased); pragma Inline (Is_Constr_Subt_For_U_Nominal); pragma Inline (Is_Constrained); pragma Inline (Is_Constructor); pragma Inline (Is_Controlled); pragma Inline (Is_Controlling_Formal); pragma Inline (Is_Decimal_Fixed_Point_Type); pragma Inline (Is_Discrim_SO_Function); pragma Inline (Is_Digits_Type); pragma Inline (Is_Discrete_Or_Fixed_Point_Type); pragma Inline (Is_Discrete_Type); pragma Inline (Is_Dispatching_Operation); pragma Inline (Is_Elementary_Type); pragma Inline (Is_Eliminated); pragma Inline (Is_Entry); pragma Inline (Is_Entry_Formal); pragma Inline (Is_Enumeration_Type); pragma Inline (Is_Exported); pragma Inline (Is_First_Subtype); pragma Inline (Is_Fixed_Point_Type); pragma Inline (Is_Floating_Point_Type); pragma Inline (Is_For_Access_Subtype); pragma Inline (Is_Formal); pragma Inline (Is_Formal_Subprogram); pragma Inline (Is_Frozen); pragma Inline (Is_Generic_Actual_Type); pragma Inline (Is_Generic_Instance); pragma Inline (Is_Generic_Subprogram); pragma Inline (Is_Generic_Type); pragma Inline (Is_Generic_Unit); pragma Inline (Is_Hidden); pragma Inline (Is_Hidden_Open_Scope); pragma Inline (Is_Immediately_Visible); pragma Inline (Is_Imported); pragma Inline (Is_Incomplete_Or_Private_Type); pragma Inline (Is_Inlined); pragma Inline (Is_Instantiated); pragma Inline (Is_Integer_Type); pragma Inline (Is_Internal); pragma Inline (Is_Interrupt_Handler); pragma Inline (Is_Intrinsic_Subprogram); pragma Inline (Is_Itype); pragma Inline (Is_Known_Non_Null); pragma Inline (Is_Known_Valid); pragma Inline (Is_Limited_Composite); pragma Inline (Is_Limited_Record); pragma Inline (Is_Machine_Code_Subprogram); pragma Inline (Is_Modular_Integer_Type); pragma Inline (Is_Named_Number); pragma Inline (Is_Non_Static_Subtype); pragma Inline (Is_Null_Init_Proc); pragma Inline (Is_Obsolescent); pragma Inline (Is_Numeric_Type); pragma Inline (Is_Object); pragma Inline (Is_Optional_Parameter); pragma Inline (Is_Package_Body_Entity); pragma Inline (Is_Ordinary_Fixed_Point_Type); pragma Inline (Is_Overloadable); pragma Inline (Is_Overriding_Operation); pragma Inline (Is_Packed); pragma Inline (Is_Packed_Array_Type); pragma Inline (Is_Potentially_Use_Visible); pragma Inline (Is_Preelaborated); pragma Inline (Is_Private_Composite); pragma Inline (Is_Private_Descendant); pragma Inline (Is_Private_Type); pragma Inline (Is_Protected_Type); pragma Inline (Is_Public); pragma Inline (Is_Pure); pragma Inline (Is_Real_Type); pragma Inline (Is_Record_Type); pragma Inline (Is_Remote_Call_Interface); pragma Inline (Is_Remote_Types); pragma Inline (Is_Renaming_Of_Object); pragma Inline (Is_Scalar_Type); pragma Inline (Is_Shared_Passive); pragma Inline (Is_Signed_Integer_Type); pragma Inline (Is_Statically_Allocated); pragma Inline (Is_Subprogram); pragma Inline (Is_Tag); pragma Inline (Is_Tagged_Type); pragma Inline (Is_Thread_Body); pragma Inline (Is_True_Constant); pragma Inline (Is_Task_Type); pragma Inline (Is_Type); pragma Inline (Is_Unchecked_Union); pragma Inline (Is_Unsigned_Type); pragma Inline (Is_VMS_Exception); pragma Inline (Is_Valued_Procedure); pragma Inline (Is_Visible_Child_Unit); pragma Inline (Kill_Elaboration_Checks); pragma Inline (Kill_Range_Checks); pragma Inline (Kill_Tag_Checks); pragma Inline (Last_Entity); pragma Inline (Limited_View); pragma Inline (Lit_Indexes); pragma Inline (Lit_Strings); pragma Inline (Machine_Radix_10); pragma Inline (Master_Id); pragma Inline (Materialize_Entity); pragma Inline (Mechanism); pragma Inline (Modulus); pragma Inline (Must_Be_On_Byte_Boundary); pragma Inline (Needs_Debug_Info); pragma Inline (Needs_No_Actuals); pragma Inline (Never_Set_In_Source); pragma Inline (Next_Index); pragma Inline (Next_Inlined_Subprogram); pragma Inline (Next_Literal); pragma Inline (No_Pool_Assigned); pragma Inline (No_Return); pragma Inline (No_Strict_Aliasing); pragma Inline (Non_Binary_Modulus); pragma Inline (Non_Limited_View); pragma Inline (Nonzero_Is_True); pragma Inline (Normalized_First_Bit); pragma Inline (Normalized_Position); pragma Inline (Normalized_Position_Max); pragma Inline (Object_Ref); pragma Inline (Obsolescent_Warning); pragma Inline (Original_Access_Type); pragma Inline (Original_Array_Type); pragma Inline (Original_Record_Component); pragma Inline (Packed_Array_Type); pragma Inline (Parameter_Mode); pragma Inline (Parent_Subtype); pragma Inline (Primitive_Operations); pragma Inline (Prival); pragma Inline (Privals_Chain); pragma Inline (Private_Dependents); pragma Inline (Private_View); pragma Inline (Protected_Body_Subprogram); pragma Inline (Protected_Formal); pragma Inline (Protected_Operation); pragma Inline (RM_Size); pragma Inline (Reachable); pragma Inline (Referenced); pragma Inline (Referenced_As_LHS); pragma Inline (Referenced_Object); pragma Inline (Register_Exception_Call); pragma Inline (Related_Array_Object); pragma Inline (Related_Instance); pragma Inline (Renamed_Entity); pragma Inline (Renamed_Object); pragma Inline (Renaming_Map); pragma Inline (Return_Present); pragma Inline (Returns_By_Ref); pragma Inline (Reverse_Bit_Order); pragma Inline (Scalar_Range); pragma Inline (Scale_Value); pragma Inline (Scope_Depth_Value); pragma Inline (Sec_Stack_Needed_For_Return); pragma Inline (Shadow_Entities); pragma Inline (Shared_Var_Assign_Proc); pragma Inline (Shared_Var_Read_Proc); pragma Inline (Size_Check_Code); pragma Inline (Size_Depends_On_Discriminant); pragma Inline (Size_Known_At_Compile_Time); pragma Inline (Small_Value); pragma Inline (Spec_Entity); pragma Inline (Storage_Size_Variable); pragma Inline (Stored_Constraint); pragma Inline (Strict_Alignment); pragma Inline (String_Literal_Length); pragma Inline (String_Literal_Low_Bound); pragma Inline (Suppress_Elaboration_Warnings); pragma Inline (Suppress_Init_Proc); pragma Inline (Suppress_Style_Checks); pragma Inline (Treat_As_Volatile); pragma Inline (Underlying_Full_View); pragma Inline (Unset_Reference); pragma Inline (Uses_Sec_Stack); pragma Inline (Vax_Float); pragma Inline (Warnings_Off); pragma Inline (Init_Alignment); pragma Inline (Init_Component_Bit_Offset); pragma Inline (Init_Component_Size); pragma Inline (Init_Digits_Value); pragma Inline (Init_Esize); pragma Inline (Init_RM_Size); pragma Inline (Set_Accept_Address); pragma Inline (Set_Access_Disp_Table); pragma Inline (Set_Actual_Subtype); pragma Inline (Set_Address_Taken); pragma Inline (Set_Alias); pragma Inline (Set_Alignment); pragma Inline (Set_Associated_Final_Chain); pragma Inline (Set_Associated_Formal_Package); pragma Inline (Set_Associated_Node_For_Itype); pragma Inline (Set_Associated_Storage_Pool); pragma Inline (Set_Barrier_Function); pragma Inline (Set_Block_Node); pragma Inline (Set_Body_Entity); pragma Inline (Set_Body_Needed_For_SAL); pragma Inline (Set_CR_Discriminant); pragma Inline (Set_C_Pass_By_Copy); pragma Inline (Set_Can_Never_Be_Null); pragma Inline (Set_Checks_May_Be_Suppressed); pragma Inline (Set_Class_Wide_Type); pragma Inline (Set_Cloned_Subtype); pragma Inline (Set_Component_Bit_Offset); pragma Inline (Set_Component_Clause); pragma Inline (Set_Component_Size); pragma Inline (Set_Component_Type); pragma Inline (Set_Corresponding_Concurrent_Type); pragma Inline (Set_Corresponding_Discriminant); pragma Inline (Set_Corresponding_Equality); pragma Inline (Set_Corresponding_Record_Type); pragma Inline (Set_Corresponding_Remote_Type); pragma Inline (Set_Current_Value); pragma Inline (Set_Debug_Info_Off); pragma Inline (Set_Debug_Renaming_Link); pragma Inline (Set_DTC_Entity); pragma Inline (Set_DT_Position); pragma Inline (Set_Default_Expr_Function); pragma Inline (Set_Default_Expressions_Processed); pragma Inline (Set_Default_Value); pragma Inline (Set_Delay_Cleanups); pragma Inline (Set_Delay_Subprogram_Descriptors); pragma Inline (Set_Delta_Value); pragma Inline (Set_Dependent_Instances); pragma Inline (Set_Depends_On_Private); pragma Inline (Set_Digits_Value); pragma Inline (Set_Directly_Designated_Type); pragma Inline (Set_Discard_Names); pragma Inline (Set_Discriminal); pragma Inline (Set_Discriminal_Link); pragma Inline (Set_Discriminant_Checking_Func); pragma Inline (Set_Discriminant_Constraint); pragma Inline (Set_Discriminant_Default_Value); pragma Inline (Set_Discriminant_Number); pragma Inline (Set_Elaborate_All_Desirable); pragma Inline (Set_Elaboration_Entity); pragma Inline (Set_Elaboration_Entity_Required); pragma Inline (Set_Enclosing_Scope); pragma Inline (Set_Entry_Accepted); pragma Inline (Set_Entry_Bodies_Array); pragma Inline (Set_Entry_Cancel_Parameter); pragma Inline (Set_Entry_Component); pragma Inline (Set_Entry_Formal); pragma Inline (Set_Entry_Parameters_Type); pragma Inline (Set_Enum_Pos_To_Rep); pragma Inline (Set_Enumeration_Pos); pragma Inline (Set_Enumeration_Rep); pragma Inline (Set_Enumeration_Rep_Expr); pragma Inline (Set_Equivalent_Type); pragma Inline (Set_Esize); pragma Inline (Set_Exception_Code); pragma Inline (Set_Extra_Accessibility); pragma Inline (Set_Extra_Constrained); pragma Inline (Set_Extra_Formal); pragma Inline (Set_Finalization_Chain_Entity); pragma Inline (Set_First_Entity); pragma Inline (Set_First_Index); pragma Inline (Set_First_Literal); pragma Inline (Set_First_Optional_Parameter); pragma Inline (Set_First_Private_Entity); pragma Inline (Set_First_Rep_Item); pragma Inline (Set_Freeze_Node); pragma Inline (Set_From_With_Type); pragma Inline (Set_Full_View); pragma Inline (Set_Function_Returns_With_DSP); pragma Inline (Set_Generic_Homonym); pragma Inline (Set_Generic_Renamings); pragma Inline (Set_Handler_Records); pragma Inline (Set_Has_Aliased_Components); pragma Inline (Set_Has_Alignment_Clause); pragma Inline (Set_Has_All_Calls_Remote); pragma Inline (Set_Has_Atomic_Components); pragma Inline (Set_Has_Biased_Representation); pragma Inline (Set_Has_Completion); pragma Inline (Set_Has_Completion_In_Body); pragma Inline (Set_Has_Complex_Representation); pragma Inline (Set_Has_Component_Size_Clause); pragma Inline (Set_Has_Contiguous_Rep); pragma Inline (Set_Has_Controlled_Component); pragma Inline (Set_Has_Controlling_Result); pragma Inline (Set_Has_Convention_Pragma); pragma Inline (Set_Has_Delayed_Freeze); pragma Inline (Set_Has_Discriminants); pragma Inline (Set_Has_Enumeration_Rep_Clause); pragma Inline (Set_Has_Exit); pragma Inline (Set_Has_External_Tag_Rep_Clause); pragma Inline (Set_Has_Fully_Qualified_Name); pragma Inline (Set_Has_Gigi_Rep_Item); pragma Inline (Set_Has_Homonym); pragma Inline (Set_Has_Machine_Radix_Clause); pragma Inline (Set_Has_Master_Entity); pragma Inline (Set_Has_Missing_Return); pragma Inline (Set_Has_Nested_Block_With_Handler); pragma Inline (Set_Has_Forward_Instantiation); pragma Inline (Set_Has_Non_Standard_Rep); pragma Inline (Set_Has_Object_Size_Clause); pragma Inline (Set_Has_Per_Object_Constraint); pragma Inline (Set_Has_Pragma_Controlled); pragma Inline (Set_Has_Pragma_Elaborate_Body); pragma Inline (Set_Has_Pragma_Inline); pragma Inline (Set_Has_Pragma_Pack); pragma Inline (Set_Has_Pragma_Pure_Function); pragma Inline (Set_Has_Pragma_Unreferenced); pragma Inline (Set_Has_Primitive_Operations); pragma Inline (Set_Has_Private_Declaration); pragma Inline (Set_Has_Qualified_Name); pragma Inline (Set_Has_Record_Rep_Clause); pragma Inline (Set_Has_Recursive_Call); pragma Inline (Set_Has_Size_Clause); pragma Inline (Set_Has_Small_Clause); pragma Inline (Set_Has_Specified_Layout); pragma Inline (Set_Has_Storage_Size_Clause); pragma Inline (Set_Has_Subprogram_Descriptor); pragma Inline (Set_Has_Task); pragma Inline (Set_Has_Unchecked_Union); pragma Inline (Set_Has_Unknown_Discriminants); pragma Inline (Set_Has_Volatile_Components); pragma Inline (Set_Has_Xref_Entry); pragma Inline (Set_Hiding_Loop_Variable); pragma Inline (Set_Homonym); pragma Inline (Set_In_Package_Body); pragma Inline (Set_In_Private_Part); pragma Inline (Set_In_Use); pragma Inline (Set_Inner_Instances); pragma Inline (Set_Interface_Name); pragma Inline (Set_Is_AST_Entry); pragma Inline (Set_Is_Abstract); pragma Inline (Set_Is_Access_Constant); pragma Inline (Set_Is_Ada_2005); pragma Inline (Set_Is_Aliased); pragma Inline (Set_Is_Asynchronous); pragma Inline (Set_Is_Atomic); pragma Inline (Set_Is_Bit_Packed_Array); pragma Inline (Set_Is_CPP_Class); pragma Inline (Set_Is_Called); pragma Inline (Set_Is_Character_Type); pragma Inline (Set_Is_Child_Unit); pragma Inline (Set_Is_Class_Wide_Equivalent_Type); pragma Inline (Set_Is_Compilation_Unit); pragma Inline (Set_Is_Completely_Hidden); pragma Inline (Set_Is_Concurrent_Record_Type); pragma Inline (Set_Is_Constr_Subt_For_U_Nominal); pragma Inline (Set_Is_Constr_Subt_For_UN_Aliased); pragma Inline (Set_Is_Constrained); pragma Inline (Set_Is_Constructor); pragma Inline (Set_Is_Controlled); pragma Inline (Set_Is_Controlling_Formal); pragma Inline (Set_Is_Discrim_SO_Function); pragma Inline (Set_Is_Dispatching_Operation); pragma Inline (Set_Is_Eliminated); pragma Inline (Set_Is_Entry_Formal); pragma Inline (Set_Is_Exported); pragma Inline (Set_Is_First_Subtype); pragma Inline (Set_Is_For_Access_Subtype); pragma Inline (Set_Is_Formal_Subprogram); pragma Inline (Set_Is_Frozen); pragma Inline (Set_Is_Generic_Actual_Type); pragma Inline (Set_Is_Generic_Instance); pragma Inline (Set_Is_Generic_Type); pragma Inline (Set_Is_Hidden); pragma Inline (Set_Is_Hidden_Open_Scope); pragma Inline (Set_Is_Immediately_Visible); pragma Inline (Set_Is_Imported); pragma Inline (Set_Is_Inlined); pragma Inline (Set_Is_Instantiated); pragma Inline (Set_Is_Internal); pragma Inline (Set_Is_Interrupt_Handler); pragma Inline (Set_Is_Intrinsic_Subprogram); pragma Inline (Set_Is_Itype); pragma Inline (Set_Is_Known_Non_Null); pragma Inline (Set_Is_Known_Valid); pragma Inline (Set_Is_Limited_Composite); pragma Inline (Set_Is_Limited_Record); pragma Inline (Set_Is_Machine_Code_Subprogram); pragma Inline (Set_Is_Non_Static_Subtype); pragma Inline (Set_Is_Null_Init_Proc); pragma Inline (Set_Is_Obsolescent); pragma Inline (Set_Is_Optional_Parameter); pragma Inline (Set_Is_Overriding_Operation); pragma Inline (Set_Is_Package_Body_Entity); pragma Inline (Set_Is_Packed); pragma Inline (Set_Is_Packed_Array_Type); pragma Inline (Set_Is_Potentially_Use_Visible); pragma Inline (Set_Is_Preelaborated); pragma Inline (Set_Is_Private_Composite); pragma Inline (Set_Is_Private_Descendant); pragma Inline (Set_Is_Public); pragma Inline (Set_Is_Pure); pragma Inline (Set_Is_Remote_Call_Interface); pragma Inline (Set_Is_Remote_Types); pragma Inline (Set_Is_Renaming_Of_Object); pragma Inline (Set_Is_Shared_Passive); pragma Inline (Set_Is_Statically_Allocated); pragma Inline (Set_Is_Tag); pragma Inline (Set_Is_Tagged_Type); pragma Inline (Set_Is_Thread_Body); pragma Inline (Set_Is_True_Constant); pragma Inline (Set_Is_Unchecked_Union); pragma Inline (Set_Is_Unsigned_Type); pragma Inline (Set_Is_VMS_Exception); pragma Inline (Set_Is_Valued_Procedure); pragma Inline (Set_Is_Visible_Child_Unit); pragma Inline (Set_Is_Volatile); pragma Inline (Set_Kill_Elaboration_Checks); pragma Inline (Set_Kill_Range_Checks); pragma Inline (Set_Kill_Tag_Checks); pragma Inline (Set_Last_Entity); pragma Inline (Set_Limited_View); pragma Inline (Set_Lit_Indexes); pragma Inline (Set_Lit_Strings); pragma Inline (Set_Machine_Radix_10); pragma Inline (Set_Master_Id); pragma Inline (Set_Materialize_Entity); pragma Inline (Set_Mechanism); pragma Inline (Set_Modulus); pragma Inline (Set_Must_Be_On_Byte_Boundary); pragma Inline (Set_Needs_Debug_Info); pragma Inline (Set_Needs_No_Actuals); pragma Inline (Set_Never_Set_In_Source); pragma Inline (Set_Next_Inlined_Subprogram); pragma Inline (Set_No_Pool_Assigned); pragma Inline (Set_No_Return); pragma Inline (Set_No_Strict_Aliasing); pragma Inline (Set_Non_Binary_Modulus); pragma Inline (Set_Non_Limited_View); pragma Inline (Set_Nonzero_Is_True); pragma Inline (Set_Normalized_First_Bit); pragma Inline (Set_Normalized_Position); pragma Inline (Set_Normalized_Position_Max); pragma Inline (Set_Object_Ref); pragma Inline (Set_Obsolescent_Warning); pragma Inline (Set_Original_Access_Type); pragma Inline (Set_Original_Array_Type); pragma Inline (Set_Original_Record_Component); pragma Inline (Set_Packed_Array_Type); pragma Inline (Set_Parent_Subtype); pragma Inline (Set_Primitive_Operations); pragma Inline (Set_Prival); pragma Inline (Set_Privals_Chain); pragma Inline (Set_Private_Dependents); pragma Inline (Set_Private_View); pragma Inline (Set_Protected_Body_Subprogram); pragma Inline (Set_Protected_Formal); pragma Inline (Set_Protected_Operation); pragma Inline (Set_RM_Size); pragma Inline (Set_Reachable); pragma Inline (Set_Referenced); pragma Inline (Set_Referenced_As_LHS); pragma Inline (Set_Referenced_Object); pragma Inline (Set_Register_Exception_Call); pragma Inline (Set_Related_Array_Object); pragma Inline (Set_Related_Instance); pragma Inline (Set_Renamed_Entity); pragma Inline (Set_Renamed_Object); pragma Inline (Set_Renaming_Map); pragma Inline (Set_Return_Present); pragma Inline (Set_Returns_By_Ref); pragma Inline (Set_Reverse_Bit_Order); pragma Inline (Set_Scalar_Range); pragma Inline (Set_Scale_Value); pragma Inline (Set_Scope_Depth_Value); pragma Inline (Set_Sec_Stack_Needed_For_Return); pragma Inline (Set_Shadow_Entities); pragma Inline (Set_Shared_Var_Assign_Proc); pragma Inline (Set_Shared_Var_Read_Proc); pragma Inline (Set_Size_Check_Code); pragma Inline (Set_Size_Depends_On_Discriminant); pragma Inline (Set_Size_Known_At_Compile_Time); pragma Inline (Set_Small_Value); pragma Inline (Set_Spec_Entity); pragma Inline (Set_Storage_Size_Variable); pragma Inline (Set_Stored_Constraint); pragma Inline (Set_Strict_Alignment); pragma Inline (Set_String_Literal_Length); pragma Inline (Set_String_Literal_Low_Bound); pragma Inline (Set_Suppress_Elaboration_Warnings); pragma Inline (Set_Suppress_Init_Proc); pragma Inline (Set_Suppress_Style_Checks); pragma Inline (Set_Treat_As_Volatile); pragma Inline (Set_Underlying_Full_View); pragma Inline (Set_Unset_Reference); pragma Inline (Set_Uses_Sec_Stack); pragma Inline (Set_Vax_Float); pragma Inline (Set_Warnings_Off); -- END XEINFO INLINES -- The following Inline pragmas are *not* read by xeinfo when building -- the C version of this interface automatically (so the C version will -- end up making out of line calls). The pragma scan in xeinfo will be -- terminated on encountering the END XEINFO INLINES line. We inline -- things here which are small, but not of the canonical attribute -- access/set format that can be handled by xeinfo. pragma Inline (Is_Package); pragma Inline (Is_Wrapper_Package); pragma Inline (Known_RM_Size); pragma Inline (Known_Static_Component_Bit_Offset); pragma Inline (Known_Static_RM_Size); pragma Inline (Scope_Depth); pragma Inline (Scope_Depth_Set); pragma Inline (Unknown_RM_Size); end Einfo;