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|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- C S T A N D --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2003 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. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Atree; use Atree;
with Csets; use Csets;
with Debug; use Debug;
with Einfo; use Einfo;
with Layout; use Layout;
with Namet; use Namet;
with Nlists; use Nlists;
with Nmake; use Nmake;
with Opt; use Opt;
with Targparm; use Targparm;
with Tbuild; use Tbuild;
with Ttypes; use Ttypes;
with Ttypef; use Ttypef;
with Sem_Mech; use Sem_Mech;
with Sem_Util; use Sem_Util;
with Sinfo; use Sinfo;
with Snames; use Snames;
with Stand; use Stand;
with Uintp; use Uintp;
with Urealp; use Urealp;
package body CStand is
Stloc : constant Source_Ptr := Standard_Location;
Staloc : constant Source_Ptr := Standard_ASCII_Location;
-- Standard abbreviations used throughout this package
-----------------------
-- Local Subprograms --
-----------------------
procedure Build_Float_Type (E : Entity_Id; Siz : Int; Digs : Int);
-- Procedure to build standard predefined float base type. The first
-- parameter is the entity for the type, and the second parameter
-- is the size in bits. The third parameter is the digits value.
procedure Build_Signed_Integer_Type (E : Entity_Id; Siz : Int);
-- Procedure to build standard predefined signed integer subtype. The
-- first parameter is the entity for the subtype. The second parameter
-- is the size in bits. The corresponding base type is not built by
-- this routine but instead must be built by the caller where needed.
procedure Create_Operators;
-- Make entries for each of the predefined operators in Standard
procedure Create_Unconstrained_Base_Type
(E : Entity_Id;
K : Entity_Kind);
-- The predefined signed integer types are constrained subtypes which
-- must have a corresponding unconstrained base type. This type is almost
-- useless. The only place it has semantics is Subtypes_Statically_Match.
-- Consequently, we arrange for it to be identical apart from the setting
-- of the constrained bit. This routine takes an entity E for the Type,
-- copies it to estabish the base type, then resets the Ekind of the
-- original entity to K (the Ekind for the subtype). The Etype field of
-- E is set by the call (to point to the created base type entity), and
-- also the Is_Constrained flag of E is set.
--
-- To understand the exact requirement for this, see RM 3.5.4(11) which
-- makes it clear that Integer, for example, is constrained, with the
-- constraint bounds matching the bounds of the (unconstrained) base
-- type. The point is that Integer and Integer'Base have identical
-- bounds, but do not statically match, since a subtype with constraints
-- never matches a subtype with no constraints.
function Identifier_For (S : Standard_Entity_Type) return Node_Id;
-- Returns an identifier node with the same name as the defining
-- identifier corresponding to the given Standard_Entity_Type value
procedure Make_Component
(Rec : Entity_Id;
Typ : Entity_Id;
Nam : String);
-- Build a record component with the given type and name, and append to
-- the list of components of Rec.
function Make_Formal
(Typ : Entity_Id;
Formal_Name : String)
return Entity_Id;
-- Construct entity for subprogram formal with given name and type
function Make_Integer (V : Uint) return Node_Id;
-- Builds integer literal with given value
procedure Make_Name (Id : Entity_Id; Nam : String);
-- Make an entry in the names table for Nam, and set as Chars field of Id
function New_Operator (Op : Name_Id; Typ : Entity_Id) return Entity_Id;
-- Build entity for standard operator with given name and type.
function New_Standard_Entity
(New_Node_Kind : Node_Kind := N_Defining_Identifier)
return Entity_Id;
-- Builds a new entity for Standard
procedure Set_Integer_Bounds
(Id : Entity_Id;
Typ : Entity_Id;
Lb : Uint;
Hb : Uint);
-- Procedure to set bounds for integer type or subtype. Id is the entity
-- whose bounds and type are to be set. The Typ parameter is the Etype
-- value for the entity (which will be the same as Id for all predefined
-- integer base types. The third and fourth parameters are the bounds.
----------------------
-- Build_Float_Type --
----------------------
procedure Build_Float_Type (E : Entity_Id; Siz : Int; Digs : Int) is
begin
Set_Type_Definition (Parent (E),
Make_Floating_Point_Definition (Stloc,
Digits_Expression => Make_Integer (UI_From_Int (Digs))));
Set_Ekind (E, E_Floating_Point_Type);
Set_Etype (E, E);
Init_Size (E, Siz);
Set_Prim_Alignment (E);
Init_Digits_Value (E, Digs);
Set_Float_Bounds (E);
Set_Is_Frozen (E);
Set_Is_Public (E);
Set_Size_Known_At_Compile_Time (E);
end Build_Float_Type;
-------------------------------
-- Build_Signed_Integer_Type --
-------------------------------
procedure Build_Signed_Integer_Type (E : Entity_Id; Siz : Int) is
U2Siz1 : constant Uint := 2 ** (Siz - 1);
Lbound : constant Uint := -U2Siz1;
Ubound : constant Uint := U2Siz1 - 1;
begin
Set_Type_Definition (Parent (E),
Make_Signed_Integer_Type_Definition (Stloc,
Low_Bound => Make_Integer (Lbound),
High_Bound => Make_Integer (Ubound)));
Set_Ekind (E, E_Signed_Integer_Type);
Set_Etype (E, E);
Init_Size (E, Siz);
Set_Prim_Alignment (E);
Set_Integer_Bounds (E, E, Lbound, Ubound);
Set_Is_Frozen (E);
Set_Is_Public (E);
Set_Is_Known_Valid (E);
Set_Size_Known_At_Compile_Time (E);
end Build_Signed_Integer_Type;
----------------------
-- Create_Operators --
----------------------
-- Each operator has an abbreviated signature. The formals have the names
-- LEFT and RIGHT. Their types are not actually used for resolution.
procedure Create_Operators is
Op_Node : Entity_Id;
-- Following list has two entries for concatenation, to include
-- explicitly the operation on wide strings.
Binary_Ops : constant array (S_Binary_Ops) of Name_Id :=
(Name_Op_Add, Name_Op_And, Name_Op_Concat, Name_Op_Concat,
Name_Op_Divide, Name_Op_Eq, Name_Op_Expon, Name_Op_Ge,
Name_Op_Gt, Name_Op_Le, Name_Op_Lt, Name_Op_Mod,
Name_Op_Multiply, Name_Op_Ne, Name_Op_Or, Name_Op_Rem,
Name_Op_Subtract, Name_Op_Xor);
Bin_Op_Types : constant array (S_Binary_Ops) of Entity_Id :=
(Universal_Integer, Standard_Boolean,
Standard_String, Standard_Wide_String,
Universal_Integer, Standard_Boolean,
Universal_Integer, Standard_Boolean,
Standard_Boolean, Standard_Boolean,
Standard_Boolean, Universal_Integer,
Universal_Integer, Standard_Boolean,
Standard_Boolean, Universal_Integer,
Universal_Integer, Standard_Boolean);
Unary_Ops : constant array (S_Unary_Ops) of Name_Id :=
(Name_Op_Abs, Name_Op_Subtract, Name_Op_Not, Name_Op_Add);
Unary_Op_Types : constant array (S_Unary_Ops) of Entity_Id :=
(Universal_Integer, Universal_Integer,
Standard_Boolean, Universal_Integer);
-- Corresponding to Abs, Minus, Not, and Plus.
begin
for J in S_Binary_Ops loop
Op_Node := New_Operator (Binary_Ops (J), Bin_Op_Types (J));
SE (J) := Op_Node;
Append_Entity (Make_Formal (Any_Type, "LEFT"), Op_Node);
Append_Entity (Make_Formal (Any_Type, "RIGHT"), Op_Node);
end loop;
for J in S_Unary_Ops loop
Op_Node := New_Operator (Unary_Ops (J), Unary_Op_Types (J));
SE (J) := Op_Node;
Append_Entity (Make_Formal (Any_Type, "RIGHT"), Op_Node);
end loop;
-- For concatenation, we create a separate operator for each
-- array type. This simplifies the resolution of the component-
-- component concatenation operation. In Standard, we set the types
-- of the formals for string and wide string concatenation.
Set_Etype (First_Entity (Standard_Op_Concat), Standard_String);
Set_Etype (Last_Entity (Standard_Op_Concat), Standard_String);
Set_Etype (First_Entity (Standard_Op_Concatw), Standard_Wide_String);
Set_Etype (Last_Entity (Standard_Op_Concatw), Standard_Wide_String);
end Create_Operators;
---------------------
-- Create_Standard --
---------------------
-- The tree for the package Standard is prefixed to all compilations.
-- Several entities required by semantic analysis are denoted by global
-- variables that are initialized to point to the corresponding
-- occurrences in STANDARD. The visible entities of STANDARD are
-- created here. The private entities defined in STANDARD are created
-- by Initialize_Standard in the semantics module.
procedure Create_Standard is
Decl_S : List_Id;
-- List of declarations in Standard
Decl_A : List_Id;
-- List of declarations in ASCII
Decl : Node_Id;
Pspec : Node_Id;
Tdef_Node : Node_Id;
Ident_Node : Node_Id;
Ccode : Char_Code;
E_Id : Entity_Id;
R_Node : Node_Id;
B_Node : Node_Id;
procedure Build_Exception (S : Standard_Entity_Type);
-- Procedure to declare given entity as an exception
---------------------
-- Build_Exception --
---------------------
procedure Build_Exception (S : Standard_Entity_Type) is
begin
Set_Ekind (Standard_Entity (S), E_Exception);
Set_Etype (Standard_Entity (S), Standard_Exception_Type);
Set_Exception_Code (Standard_Entity (S), Uint_0);
Set_Is_Public (Standard_Entity (S), True);
Decl :=
Make_Exception_Declaration (Stloc,
Defining_Identifier => Standard_Entity (S));
Append (Decl, Decl_S);
end Build_Exception;
-- Start of processing for Create_Standard
begin
Decl_S := New_List;
-- First step is to create defining identifiers for each entity
for S in Standard_Entity_Type loop
declare
S_Name : constant String := Standard_Entity_Type'Image (S);
-- Name of entity (note we skip S_ at the start)
Ident_Node : Node_Id;
-- Defining identifier node
begin
Ident_Node := New_Standard_Entity;
Make_Name (Ident_Node, S_Name (3 .. S_Name'Length));
Standard_Entity (S) := Ident_Node;
end;
end loop;
-- Create package declaration node for package Standard
Standard_Package_Node := New_Node (N_Package_Declaration, Stloc);
Pspec := New_Node (N_Package_Specification, Stloc);
Set_Specification (Standard_Package_Node, Pspec);
Set_Defining_Unit_Name (Pspec, Standard_Standard);
Set_Visible_Declarations (Pspec, Decl_S);
Set_Ekind (Standard_Standard, E_Package);
Set_Is_Pure (Standard_Standard);
Set_Is_Compilation_Unit (Standard_Standard);
-- Create type declaration nodes for standard types
for S in S_Types loop
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Entity (S));
Set_Is_Frozen (Standard_Entity (S));
Set_Is_Public (Standard_Entity (S));
Append (Decl, Decl_S);
end loop;
-- Create type definition node for type Boolean. The Size is set to
-- 1 as required by Ada 95 and current ARG interpretations for Ada/83.
-- Note: Object_Size of Boolean is 8. This means that we do NOT in
-- general know that Boolean variables have valid values, so we do
-- not set the Is_Known_Valid flag.
Tdef_Node := New_Node (N_Enumeration_Type_Definition, Stloc);
Set_Literals (Tdef_Node, New_List);
Append (Standard_False, Literals (Tdef_Node));
Append (Standard_True, Literals (Tdef_Node));
Set_Type_Definition (Parent (Standard_Boolean), Tdef_Node);
Set_Ekind (Standard_Boolean, E_Enumeration_Type);
Set_First_Literal (Standard_Boolean, Standard_False);
Set_Etype (Standard_Boolean, Standard_Boolean);
Init_Esize (Standard_Boolean, Standard_Character_Size);
Init_RM_Size (Standard_Boolean, 1);
Set_Prim_Alignment (Standard_Boolean);
Set_Is_Unsigned_Type (Standard_Boolean);
Set_Size_Known_At_Compile_Time (Standard_Boolean);
Set_Ekind (Standard_True, E_Enumeration_Literal);
Set_Etype (Standard_True, Standard_Boolean);
Set_Enumeration_Pos (Standard_True, Uint_1);
Set_Enumeration_Rep (Standard_True, Uint_1);
Set_Is_Known_Valid (Standard_True, True);
Set_Ekind (Standard_False, E_Enumeration_Literal);
Set_Etype (Standard_False, Standard_Boolean);
Set_Enumeration_Pos (Standard_False, Uint_0);
Set_Enumeration_Rep (Standard_False, Uint_0);
Set_Is_Known_Valid (Standard_False, True);
-- For the bounds of Boolean, we create a range node corresponding to
-- range False .. True
-- where the occurrences of the literals must point to the
-- corresponding definition.
R_Node := New_Node (N_Range, Stloc);
B_Node := New_Node (N_Identifier, Stloc);
Set_Chars (B_Node, Chars (Standard_False));
Set_Entity (B_Node, Standard_False);
Set_Etype (B_Node, Standard_Boolean);
Set_Is_Static_Expression (B_Node);
Set_Low_Bound (R_Node, B_Node);
B_Node := New_Node (N_Identifier, Stloc);
Set_Chars (B_Node, Chars (Standard_True));
Set_Entity (B_Node, Standard_True);
Set_Etype (B_Node, Standard_Boolean);
Set_Is_Static_Expression (B_Node);
Set_High_Bound (R_Node, B_Node);
Set_Scalar_Range (Standard_Boolean, R_Node);
Set_Etype (R_Node, Standard_Boolean);
Set_Parent (R_Node, Standard_Boolean);
-- Create type definition nodes for predefined integer types
Build_Signed_Integer_Type
(Standard_Short_Short_Integer, Standard_Short_Short_Integer_Size);
Build_Signed_Integer_Type
(Standard_Short_Integer, Standard_Short_Integer_Size);
Build_Signed_Integer_Type
(Standard_Integer, Standard_Integer_Size);
declare
LIS : Nat;
begin
if Debug_Flag_M then
LIS := 64;
else
LIS := Standard_Long_Integer_Size;
end if;
Build_Signed_Integer_Type (Standard_Long_Integer, LIS);
end;
Build_Signed_Integer_Type
(Standard_Long_Long_Integer, Standard_Long_Long_Integer_Size);
Create_Unconstrained_Base_Type
(Standard_Short_Short_Integer, E_Signed_Integer_Subtype);
Create_Unconstrained_Base_Type
(Standard_Short_Integer, E_Signed_Integer_Subtype);
Create_Unconstrained_Base_Type
(Standard_Integer, E_Signed_Integer_Subtype);
Create_Unconstrained_Base_Type
(Standard_Long_Integer, E_Signed_Integer_Subtype);
Create_Unconstrained_Base_Type
(Standard_Long_Long_Integer, E_Signed_Integer_Subtype);
-- Create type definition nodes for predefined float types
Build_Float_Type
(Standard_Short_Float,
Standard_Short_Float_Size,
Standard_Short_Float_Digits);
Build_Float_Type
(Standard_Float,
Standard_Float_Size,
Standard_Float_Digits);
Build_Float_Type
(Standard_Long_Float,
Standard_Long_Float_Size,
Standard_Long_Float_Digits);
Build_Float_Type
(Standard_Long_Long_Float,
Standard_Long_Long_Float_Size,
Standard_Long_Long_Float_Digits);
-- Create type definition node for type Character. Note that we do not
-- set the Literals field, since type Character is handled with special
-- routine that do not need a literal list.
Tdef_Node := New_Node (N_Enumeration_Type_Definition, Stloc);
Set_Type_Definition (Parent (Standard_Character), Tdef_Node);
Set_Ekind (Standard_Character, E_Enumeration_Type);
Set_Etype (Standard_Character, Standard_Character);
Init_Esize (Standard_Character, Standard_Character_Size);
Init_RM_Size (Standard_Character, 8);
Set_Prim_Alignment (Standard_Character);
Set_Is_Unsigned_Type (Standard_Character);
Set_Is_Character_Type (Standard_Character);
Set_Is_Known_Valid (Standard_Character);
Set_Size_Known_At_Compile_Time (Standard_Character);
-- Create the bounds for type Character.
R_Node := New_Node (N_Range, Stloc);
-- Low bound for type Character (Standard.Nul)
B_Node := New_Node (N_Character_Literal, Stloc);
Set_Is_Static_Expression (B_Node);
Set_Chars (B_Node, No_Name);
Set_Char_Literal_Value (B_Node, 16#00#);
Set_Entity (B_Node, Empty);
Set_Etype (B_Node, Standard_Character);
Set_Low_Bound (R_Node, B_Node);
-- High bound for type Character
B_Node := New_Node (N_Character_Literal, Stloc);
Set_Is_Static_Expression (B_Node);
Set_Chars (B_Node, No_Name);
Set_Char_Literal_Value (B_Node, 16#FF#);
Set_Entity (B_Node, Empty);
Set_Etype (B_Node, Standard_Character);
Set_High_Bound (R_Node, B_Node);
Set_Scalar_Range (Standard_Character, R_Node);
Set_Etype (R_Node, Standard_Character);
Set_Parent (R_Node, Standard_Character);
-- Create type definition for type Wide_Character. Note that we do not
-- set the Literals field, since type Wide_Character is handled with
-- special routines that do not need a literal list.
Tdef_Node := New_Node (N_Enumeration_Type_Definition, Stloc);
Set_Type_Definition (Parent (Standard_Wide_Character), Tdef_Node);
Set_Ekind (Standard_Wide_Character, E_Enumeration_Type);
Set_Etype (Standard_Wide_Character, Standard_Wide_Character);
Init_Size (Standard_Wide_Character, Standard_Wide_Character_Size);
Set_Prim_Alignment (Standard_Wide_Character);
Set_Is_Unsigned_Type (Standard_Wide_Character);
Set_Is_Character_Type (Standard_Wide_Character);
Set_Is_Known_Valid (Standard_Wide_Character);
Set_Size_Known_At_Compile_Time (Standard_Wide_Character);
-- Create the bounds for type Wide_Character.
R_Node := New_Node (N_Range, Stloc);
-- Low bound for type Wide_Character
B_Node := New_Node (N_Character_Literal, Stloc);
Set_Is_Static_Expression (B_Node);
Set_Chars (B_Node, No_Name); -- ???
Set_Char_Literal_Value (B_Node, 16#0000#);
Set_Entity (B_Node, Empty);
Set_Etype (B_Node, Standard_Wide_Character);
Set_Low_Bound (R_Node, B_Node);
-- High bound for type Wide_Character
B_Node := New_Node (N_Character_Literal, Stloc);
Set_Is_Static_Expression (B_Node);
Set_Chars (B_Node, No_Name); -- ???
Set_Char_Literal_Value (B_Node, 16#FFFF#);
Set_Entity (B_Node, Empty);
Set_Etype (B_Node, Standard_Wide_Character);
Set_High_Bound (R_Node, B_Node);
Set_Scalar_Range (Standard_Wide_Character, R_Node);
Set_Etype (R_Node, Standard_Wide_Character);
Set_Parent (R_Node, Standard_Wide_Character);
-- Create type definition node for type String
Tdef_Node := New_Node (N_Unconstrained_Array_Definition, Stloc);
Set_Subtype_Indication (Tdef_Node, Identifier_For (S_Character));
Set_Subtype_Marks (Tdef_Node, New_List);
Append (Identifier_For (S_Positive), Subtype_Marks (Tdef_Node));
Set_Type_Definition (Parent (Standard_String), Tdef_Node);
Set_Ekind (Standard_String, E_String_Type);
Set_Etype (Standard_String, Standard_String);
Set_Component_Type (Standard_String, Standard_Character);
Set_Component_Size (Standard_String, Uint_8);
Init_Size_Align (Standard_String);
-- Set index type of String
E_Id := First
(Subtype_Marks (Type_Definition (Parent (Standard_String))));
Set_First_Index (Standard_String, E_Id);
Set_Entity (E_Id, Standard_Positive);
Set_Etype (E_Id, Standard_Positive);
-- Create type definition node for type Wide_String
Tdef_Node := New_Node (N_Unconstrained_Array_Definition, Stloc);
Set_Subtype_Indication (Tdef_Node, Identifier_For (S_Wide_Character));
Set_Subtype_Marks (Tdef_Node, New_List);
Append (Identifier_For (S_Positive), Subtype_Marks (Tdef_Node));
Set_Type_Definition (Parent (Standard_Wide_String), Tdef_Node);
Set_Ekind (Standard_Wide_String, E_String_Type);
Set_Etype (Standard_Wide_String, Standard_Wide_String);
Set_Component_Type (Standard_Wide_String, Standard_Wide_Character);
Set_Component_Size (Standard_Wide_String, Uint_16);
Init_Size_Align (Standard_Wide_String);
-- Set index type of Wide_String
E_Id := First
(Subtype_Marks (Type_Definition (Parent (Standard_Wide_String))));
Set_First_Index (Standard_Wide_String, E_Id);
Set_Entity (E_Id, Standard_Positive);
Set_Etype (E_Id, Standard_Positive);
-- Create subtype declaration for Natural
Decl := New_Node (N_Subtype_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Natural);
Set_Subtype_Indication (Decl,
New_Occurrence_Of (Standard_Integer, Stloc));
Append (Decl, Decl_S);
Set_Ekind (Standard_Natural, E_Signed_Integer_Subtype);
Set_Etype (Standard_Natural, Base_Type (Standard_Integer));
Init_Esize (Standard_Natural, Standard_Integer_Size);
Init_RM_Size (Standard_Natural, Standard_Integer_Size - 1);
Set_Prim_Alignment (Standard_Natural);
Set_Size_Known_At_Compile_Time
(Standard_Natural);
Set_Integer_Bounds (Standard_Natural,
Typ => Base_Type (Standard_Integer),
Lb => Uint_0,
Hb => Intval (High_Bound (Scalar_Range (Standard_Integer))));
Set_Is_Constrained (Standard_Natural);
Set_Is_Frozen (Standard_Natural);
Set_Is_Public (Standard_Natural);
-- Create subtype declaration for Positive
Decl := New_Node (N_Subtype_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Positive);
Set_Subtype_Indication (Decl,
New_Occurrence_Of (Standard_Integer, Stloc));
Append (Decl, Decl_S);
Set_Ekind (Standard_Positive, E_Signed_Integer_Subtype);
Set_Etype (Standard_Positive, Base_Type (Standard_Integer));
Init_Esize (Standard_Positive, Standard_Integer_Size);
Init_RM_Size (Standard_Positive, Standard_Integer_Size - 1);
Set_Prim_Alignment (Standard_Positive);
Set_Size_Known_At_Compile_Time (Standard_Positive);
Set_Integer_Bounds (Standard_Positive,
Typ => Base_Type (Standard_Integer),
Lb => Uint_1,
Hb => Intval (High_Bound (Scalar_Range (Standard_Integer))));
Set_Is_Constrained (Standard_Positive);
Set_Is_Frozen (Standard_Positive);
Set_Is_Public (Standard_Positive);
-- Create declaration for package ASCII
Decl := New_Node (N_Package_Declaration, Stloc);
Append (Decl, Decl_S);
Pspec := New_Node (N_Package_Specification, Stloc);
Set_Specification (Decl, Pspec);
Set_Defining_Unit_Name (Pspec, Standard_Entity (S_ASCII));
Set_Ekind (Standard_Entity (S_ASCII), E_Package);
Decl_A := New_List; -- for ASCII declarations
Set_Visible_Declarations (Pspec, Decl_A);
-- Create control character definitions in package ASCII. Note that
-- the character literal entries created here correspond to literal
-- values that are impossible in the source, but can be represented
-- internally with no difficulties.
Ccode := 16#00#;
for S in S_ASCII_Names loop
Decl := New_Node (N_Object_Declaration, Staloc);
Set_Constant_Present (Decl, True);
declare
A_Char : constant Entity_Id := Standard_Entity (S);
Expr_Decl : Node_Id;
begin
Set_Sloc (A_Char, Staloc);
Set_Ekind (A_Char, E_Constant);
Set_Never_Set_In_Source (A_Char, True);
Set_Is_True_Constant (A_Char, True);
Set_Etype (A_Char, Standard_Character);
Set_Scope (A_Char, Standard_Entity (S_ASCII));
Set_Is_Immediately_Visible (A_Char, False);
Set_Is_Public (A_Char, True);
Set_Is_Known_Valid (A_Char, True);
Append_Entity (A_Char, Standard_Entity (S_ASCII));
Set_Defining_Identifier (Decl, A_Char);
Set_Object_Definition (Decl, Identifier_For (S_Character));
Expr_Decl := New_Node (N_Character_Literal, Staloc);
Set_Expression (Decl, Expr_Decl);
Set_Is_Static_Expression (Expr_Decl);
Set_Chars (Expr_Decl, No_Name);
Set_Etype (Expr_Decl, Standard_Character);
Set_Char_Literal_Value (Expr_Decl, Ccode);
end;
Append (Decl, Decl_A);
-- Increment character code, dealing with non-contiguities
Ccode := Ccode + 1;
if Ccode = 16#20# then
Ccode := 16#21#;
elsif Ccode = 16#27# then
Ccode := 16#3A#;
elsif Ccode = 16#3C# then
Ccode := 16#3F#;
elsif Ccode = 16#41# then
Ccode := 16#5B#;
end if;
end loop;
-- Create semantic phase entities
Standard_Void_Type := New_Standard_Entity;
Set_Ekind (Standard_Void_Type, E_Void);
Set_Etype (Standard_Void_Type, Standard_Void_Type);
Set_Scope (Standard_Void_Type, Standard_Standard);
Make_Name (Standard_Void_Type, "_void_type");
-- The type field of packages is set to void
Set_Etype (Standard_Standard, Standard_Void_Type);
Set_Etype (Standard_ASCII, Standard_Void_Type);
-- Standard_A_String is actually used in generated code, so it has a
-- type name that is reasonable, but does not overlap any Ada name.
Standard_A_String := New_Standard_Entity;
Set_Ekind (Standard_A_String, E_Access_Type);
Set_Scope (Standard_A_String, Standard_Standard);
Set_Etype (Standard_A_String, Standard_A_String);
if Debug_Flag_6 then
Init_Size (Standard_A_String, System_Address_Size);
else
Init_Size (Standard_A_String, System_Address_Size * 2);
end if;
Init_Alignment (Standard_A_String);
Set_Directly_Designated_Type
(Standard_A_String, Standard_String);
Make_Name (Standard_A_String, "access_string");
Standard_A_Char := New_Standard_Entity;
Set_Ekind (Standard_A_Char, E_Access_Type);
Set_Scope (Standard_A_Char, Standard_Standard);
Set_Etype (Standard_A_Char, Standard_A_String);
Init_Size (Standard_A_Char, System_Address_Size);
Set_Prim_Alignment (Standard_A_Char);
Set_Directly_Designated_Type (Standard_A_Char, Standard_Character);
Make_Name (Standard_A_Char, "access_character");
-- Note on type names. The type names for the following special types
-- are constructed so that they will look reasonable should they ever
-- appear in error messages etc, although in practice the use of the
-- special insertion character } for types results in special handling
-- of these type names in any case. The blanks in these names would
-- trouble in Gigi, but that's OK here, since none of these types
-- should ever get through to Gigi! Attributes of these types are
-- filled out to minimize problems with cascaded errors (for example,
-- Any_Integer is given reasonable and consistent type and size values)
Any_Type := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Any_Type);
Set_Scope (Any_Type, Standard_Standard);
Build_Signed_Integer_Type (Any_Type, Standard_Integer_Size);
Make_Name (Any_Type, "any type");
Any_Id := New_Standard_Entity;
Set_Ekind (Any_Id, E_Variable);
Set_Scope (Any_Id, Standard_Standard);
Set_Etype (Any_Id, Any_Type);
Init_Size_Align (Any_Id);
Make_Name (Any_Id, "any id");
Any_Access := New_Standard_Entity;
Set_Ekind (Any_Access, E_Access_Type);
Set_Scope (Any_Access, Standard_Standard);
Set_Etype (Any_Access, Any_Access);
Init_Size (Any_Access, System_Address_Size);
Set_Prim_Alignment (Any_Access);
Make_Name (Any_Access, "an access type");
Any_Array := New_Standard_Entity;
Set_Ekind (Any_Array, E_String_Type);
Set_Scope (Any_Array, Standard_Standard);
Set_Etype (Any_Array, Any_Array);
Set_Component_Type (Any_Array, Any_Character);
Init_Size_Align (Any_Array);
Make_Name (Any_Array, "an array type");
Any_Boolean := New_Standard_Entity;
Set_Ekind (Any_Boolean, E_Enumeration_Type);
Set_Scope (Any_Boolean, Standard_Standard);
Set_Etype (Any_Boolean, Standard_Boolean);
Init_Esize (Any_Boolean, Standard_Character_Size);
Init_RM_Size (Any_Boolean, 1);
Set_Prim_Alignment (Any_Boolean);
Set_Is_Unsigned_Type (Any_Boolean);
Set_Scalar_Range (Any_Boolean, Scalar_Range (Standard_Boolean));
Make_Name (Any_Boolean, "a boolean type");
Any_Character := New_Standard_Entity;
Set_Ekind (Any_Character, E_Enumeration_Type);
Set_Scope (Any_Character, Standard_Standard);
Set_Etype (Any_Character, Any_Character);
Set_Is_Unsigned_Type (Any_Character);
Set_Is_Character_Type (Any_Character);
Init_Esize (Any_Character, Standard_Character_Size);
Init_RM_Size (Any_Character, 8);
Set_Prim_Alignment (Any_Character);
Set_Scalar_Range (Any_Character, Scalar_Range (Standard_Character));
Make_Name (Any_Character, "a character type");
Any_Composite := New_Standard_Entity;
Set_Ekind (Any_Composite, E_Array_Type);
Set_Scope (Any_Composite, Standard_Standard);
Set_Etype (Any_Composite, Any_Composite);
Set_Component_Size (Any_Composite, Uint_0);
Set_Component_Type (Any_Composite, Standard_Integer);
Init_Size_Align (Any_Composite);
Make_Name (Any_Composite, "a composite type");
Any_Discrete := New_Standard_Entity;
Set_Ekind (Any_Discrete, E_Signed_Integer_Type);
Set_Scope (Any_Discrete, Standard_Standard);
Set_Etype (Any_Discrete, Any_Discrete);
Init_Size (Any_Discrete, Standard_Integer_Size);
Set_Prim_Alignment (Any_Discrete);
Make_Name (Any_Discrete, "a discrete type");
Any_Fixed := New_Standard_Entity;
Set_Ekind (Any_Fixed, E_Ordinary_Fixed_Point_Type);
Set_Scope (Any_Fixed, Standard_Standard);
Set_Etype (Any_Fixed, Any_Fixed);
Init_Size (Any_Fixed, Standard_Integer_Size);
Set_Prim_Alignment (Any_Fixed);
Make_Name (Any_Fixed, "a fixed-point type");
Any_Integer := New_Standard_Entity;
Set_Ekind (Any_Integer, E_Signed_Integer_Type);
Set_Scope (Any_Integer, Standard_Standard);
Set_Etype (Any_Integer, Standard_Long_Long_Integer);
Init_Size (Any_Integer, Standard_Long_Long_Integer_Size);
Set_Prim_Alignment (Any_Integer);
Set_Integer_Bounds
(Any_Integer,
Typ => Base_Type (Standard_Integer),
Lb => Uint_0,
Hb => Intval (High_Bound (Scalar_Range (Standard_Integer))));
Make_Name (Any_Integer, "an integer type");
Any_Modular := New_Standard_Entity;
Set_Ekind (Any_Modular, E_Modular_Integer_Type);
Set_Scope (Any_Modular, Standard_Standard);
Set_Etype (Any_Modular, Standard_Long_Long_Integer);
Init_Size (Any_Modular, Standard_Long_Long_Integer_Size);
Set_Prim_Alignment (Any_Modular);
Set_Is_Unsigned_Type (Any_Modular);
Make_Name (Any_Modular, "a modular type");
Any_Numeric := New_Standard_Entity;
Set_Ekind (Any_Numeric, E_Signed_Integer_Type);
Set_Scope (Any_Numeric, Standard_Standard);
Set_Etype (Any_Numeric, Standard_Long_Long_Integer);
Init_Size (Any_Numeric, Standard_Long_Long_Integer_Size);
Set_Prim_Alignment (Any_Numeric);
Make_Name (Any_Numeric, "a numeric type");
Any_Real := New_Standard_Entity;
Set_Ekind (Any_Real, E_Floating_Point_Type);
Set_Scope (Any_Real, Standard_Standard);
Set_Etype (Any_Real, Standard_Long_Long_Float);
Init_Size (Any_Real, Standard_Long_Long_Float_Size);
Set_Prim_Alignment (Any_Real);
Make_Name (Any_Real, "a real type");
Any_Scalar := New_Standard_Entity;
Set_Ekind (Any_Scalar, E_Signed_Integer_Type);
Set_Scope (Any_Scalar, Standard_Standard);
Set_Etype (Any_Scalar, Any_Scalar);
Init_Size (Any_Scalar, Standard_Integer_Size);
Set_Prim_Alignment (Any_Scalar);
Make_Name (Any_Scalar, "a scalar type");
Any_String := New_Standard_Entity;
Set_Ekind (Any_String, E_String_Type);
Set_Scope (Any_String, Standard_Standard);
Set_Etype (Any_String, Any_String);
Set_Component_Type (Any_String, Any_Character);
Init_Size_Align (Any_String);
Make_Name (Any_String, "a string type");
declare
Index : Node_Id;
begin
Index :=
Make_Range (Stloc,
Low_Bound => Make_Integer (Uint_0),
High_Bound => Make_Integer (Uint_2 ** Standard_Integer_Size));
Set_Etype (Index, Standard_Integer);
Set_First_Index (Any_String, Index);
end;
Standard_Integer_8 := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Integer_8);
Make_Name (Standard_Integer_8, "integer_8");
Set_Scope (Standard_Integer_8, Standard_Standard);
Build_Signed_Integer_Type (Standard_Integer_8, 8);
Standard_Integer_16 := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Integer_16);
Make_Name (Standard_Integer_16, "integer_16");
Set_Scope (Standard_Integer_16, Standard_Standard);
Build_Signed_Integer_Type (Standard_Integer_16, 16);
Standard_Integer_32 := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Integer_32);
Make_Name (Standard_Integer_32, "integer_32");
Set_Scope (Standard_Integer_32, Standard_Standard);
Build_Signed_Integer_Type (Standard_Integer_32, 32);
Standard_Integer_64 := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Integer_64);
Make_Name (Standard_Integer_64, "integer_64");
Set_Scope (Standard_Integer_64, Standard_Standard);
Build_Signed_Integer_Type (Standard_Integer_64, 64);
Standard_Unsigned := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Standard_Unsigned);
Make_Name (Standard_Unsigned, "unsigned");
Set_Ekind (Standard_Unsigned, E_Modular_Integer_Type);
Set_Scope (Standard_Unsigned, Standard_Standard);
Set_Etype (Standard_Unsigned, Standard_Unsigned);
Init_Size (Standard_Unsigned, Standard_Integer_Size);
Set_Prim_Alignment (Standard_Unsigned);
Set_Modulus (Standard_Unsigned,
Uint_2 ** Standard_Integer_Size);
Set_Is_Unsigned_Type (Standard_Unsigned);
Set_Size_Known_At_Compile_Time
(Standard_Unsigned);
R_Node := New_Node (N_Range, Stloc);
Set_Low_Bound (R_Node, Make_Integer (Uint_0));
Set_High_Bound (R_Node, Make_Integer (Modulus (Standard_Unsigned) - 1));
Set_Etype (Low_Bound (R_Node), Standard_Unsigned);
Set_Etype (High_Bound (R_Node), Standard_Unsigned);
Set_Scalar_Range (Standard_Unsigned, R_Node);
-- Note: universal integer and universal real are constructed as fully
-- formed signed numeric types, with parameters corresponding to the
-- longest runtime types (Long_Long_Integer and Long_Long_Float). This
-- allows Gigi to properly process references to universal types that
-- are not folded at compile time.
Universal_Integer := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Universal_Integer);
Make_Name (Universal_Integer, "universal_integer");
Set_Scope (Universal_Integer, Standard_Standard);
Build_Signed_Integer_Type
(Universal_Integer, Standard_Long_Long_Integer_Size);
Universal_Real := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Universal_Real);
Make_Name (Universal_Real, "universal_real");
Set_Scope (Universal_Real, Standard_Standard);
Build_Float_Type
(Universal_Real,
Standard_Long_Long_Float_Size,
Standard_Long_Long_Float_Digits);
-- Note: universal fixed, unlike universal integer and universal real,
-- is never used at runtime, so it does not need to have bounds set.
Universal_Fixed := New_Standard_Entity;
Decl := New_Node (N_Full_Type_Declaration, Stloc);
Set_Defining_Identifier (Decl, Universal_Fixed);
Make_Name (Universal_Fixed, "universal_fixed");
Set_Ekind (Universal_Fixed, E_Ordinary_Fixed_Point_Type);
Set_Etype (Universal_Fixed, Universal_Fixed);
Set_Scope (Universal_Fixed, Standard_Standard);
Init_Size (Universal_Fixed, Standard_Long_Long_Integer_Size);
Set_Prim_Alignment (Universal_Fixed);
Set_Size_Known_At_Compile_Time
(Universal_Fixed);
-- Create type declaration for Duration, using a 64-bit size. The
-- delta and size values depend on the mode set in system.ads.
Build_Duration : declare
Dlo : Uint;
Dhi : Uint;
Delta_Val : Ureal;
begin
-- In 32 bit mode, the size is 32 bits, and the delta and
-- small values are set to 20 milliseconds (20.0**(10.0**(-3)).
if Duration_32_Bits_On_Target then
Dlo := Intval (Type_Low_Bound (Standard_Integer_32));
Dhi := Intval (Type_High_Bound (Standard_Integer_32));
Delta_Val := UR_From_Components (UI_From_Int (20), Uint_3, 10);
-- In standard 64-bit mode, the size is 64-bits and the delta and
-- amll values are set to nanoseconds (1.0**(10.0**(-9))
else
Dlo := Intval (Type_Low_Bound (Standard_Integer_64));
Dhi := Intval (Type_High_Bound (Standard_Integer_64));
Delta_Val := UR_From_Components (Uint_1, Uint_9, 10);
end if;
Decl :=
Make_Full_Type_Declaration (Stloc,
Defining_Identifier => Standard_Duration,
Type_Definition =>
Make_Ordinary_Fixed_Point_Definition (Stloc,
Delta_Expression => Make_Real_Literal (Stloc, Delta_Val),
Real_Range_Specification =>
Make_Real_Range_Specification (Stloc,
Low_Bound => Make_Real_Literal (Stloc,
Realval => Dlo * Delta_Val),
High_Bound => Make_Real_Literal (Stloc,
Realval => Dhi * Delta_Val))));
Set_Ekind (Standard_Duration, E_Ordinary_Fixed_Point_Type);
Set_Etype (Standard_Duration, Standard_Duration);
if Duration_32_Bits_On_Target then
Init_Size (Standard_Duration, 32);
else
Init_Size (Standard_Duration, 64);
end if;
Set_Prim_Alignment (Standard_Duration);
Set_Delta_Value (Standard_Duration, Delta_Val);
Set_Small_Value (Standard_Duration, Delta_Val);
Set_Scalar_Range (Standard_Duration,
Real_Range_Specification
(Type_Definition (Decl)));
-- Normally it does not matter that nodes in package Standard are
-- not marked as analyzed. The Scalar_Range of the fixed-point
-- type Standard_Duration is an exception, because of the special
-- test made in Freeze.Freeze_Fixed_Point_Type.
Set_Analyzed (Scalar_Range (Standard_Duration));
Set_Etype (Type_High_Bound (Standard_Duration), Standard_Duration);
Set_Etype (Type_Low_Bound (Standard_Duration), Standard_Duration);
Set_Is_Static_Expression (Type_High_Bound (Standard_Duration));
Set_Is_Static_Expression (Type_Low_Bound (Standard_Duration));
Set_Corresponding_Integer_Value
(Type_High_Bound (Standard_Duration), Dhi);
Set_Corresponding_Integer_Value
(Type_Low_Bound (Standard_Duration), Dlo);
Set_Size_Known_At_Compile_Time (Standard_Duration);
end Build_Duration;
-- Build standard exception type. Note that the type name here is
-- actually used in the generated code, so it must be set correctly
Standard_Exception_Type := New_Standard_Entity;
Set_Ekind (Standard_Exception_Type, E_Record_Type);
Set_Etype (Standard_Exception_Type, Standard_Exception_Type);
Set_Scope (Standard_Exception_Type, Standard_Standard);
Set_Stored_Constraint
(Standard_Exception_Type, No_Elist);
Init_Size_Align (Standard_Exception_Type);
Set_Size_Known_At_Compile_Time
(Standard_Exception_Type, True);
Make_Name (Standard_Exception_Type, "exception");
Make_Component (Standard_Exception_Type, Standard_Boolean,
"Not_Handled_By_Others");
Make_Component (Standard_Exception_Type, Standard_Character, "Lang");
Make_Component (Standard_Exception_Type, Standard_Natural,
"Name_Length");
Make_Component (Standard_Exception_Type, Standard_A_Char,
"Full_Name");
Make_Component (Standard_Exception_Type, Standard_A_Char,
"HTable_Ptr");
Make_Component (Standard_Exception_Type, Standard_Integer,
"Import_Code");
Make_Component (Standard_Exception_Type, Standard_A_Char,
"Raise_Hook");
-- Build tree for record declaration, for use by the back-end.
declare
Comp_List : List_Id;
Comp : Entity_Id;
begin
Comp := First_Entity (Standard_Exception_Type);
Comp_List := New_List;
while Present (Comp) loop
Append (
Make_Component_Declaration (Stloc,
Defining_Identifier => Comp,
Subtype_Indication => New_Occurrence_Of (Etype (Comp), Stloc)),
Comp_List);
Next_Entity (Comp);
end loop;
Decl := Make_Full_Type_Declaration (Stloc,
Defining_Identifier => Standard_Exception_Type,
Type_Definition =>
Make_Record_Definition (Stloc,
End_Label => Empty,
Component_List =>
Make_Component_List (Stloc,
Component_Items => Comp_List)));
end;
Append (Decl, Decl_S);
Layout_Type (Standard_Exception_Type);
-- Create declarations of standard exceptions
Build_Exception (S_Constraint_Error);
Build_Exception (S_Program_Error);
Build_Exception (S_Storage_Error);
Build_Exception (S_Tasking_Error);
-- Numeric_Error is a normal exception in Ada 83, but in Ada 95
-- it is a renaming of Constraint_Error
if Ada_83 then
Build_Exception (S_Numeric_Error);
else
Decl := New_Node (N_Exception_Renaming_Declaration, Stloc);
E_Id := Standard_Entity (S_Numeric_Error);
Set_Ekind (E_Id, E_Exception);
Set_Exception_Code (E_Id, Uint_0);
Set_Etype (E_Id, Standard_Exception_Type);
Set_Is_Public (E_Id);
Set_Renamed_Entity (E_Id, Standard_Entity (S_Constraint_Error));
Set_Defining_Identifier (Decl, E_Id);
Append (Decl, Decl_S);
Ident_Node := New_Node (N_Identifier, Stloc);
Set_Chars (Ident_Node, Chars (Standard_Entity (S_Constraint_Error)));
Set_Entity (Ident_Node, Standard_Entity (S_Constraint_Error));
Set_Name (Decl, Ident_Node);
end if;
-- Abort_Signal is an entity that does not get made visible
Abort_Signal := New_Standard_Entity;
Set_Chars (Abort_Signal, Name_uAbort_Signal);
Set_Ekind (Abort_Signal, E_Exception);
Set_Exception_Code (Abort_Signal, Uint_0);
Set_Etype (Abort_Signal, Standard_Exception_Type);
Set_Scope (Abort_Signal, Standard_Standard);
Set_Is_Public (Abort_Signal, True);
Decl :=
Make_Exception_Declaration (Stloc,
Defining_Identifier => Abort_Signal);
-- Create defining identifiers for shift operator entities. Note
-- that these entities are used only for marking shift operators
-- generated internally, and hence need no structure, just a name
-- and a unique identity.
Standard_Op_Rotate_Left := New_Standard_Entity;
Set_Chars (Standard_Op_Rotate_Left, Name_Rotate_Left);
Set_Ekind (Standard_Op_Rotate_Left, E_Operator);
Standard_Op_Rotate_Right := New_Standard_Entity;
Set_Chars (Standard_Op_Rotate_Right, Name_Rotate_Right);
Set_Ekind (Standard_Op_Rotate_Right, E_Operator);
Standard_Op_Shift_Left := New_Standard_Entity;
Set_Chars (Standard_Op_Shift_Left, Name_Shift_Left);
Set_Ekind (Standard_Op_Shift_Left, E_Operator);
Standard_Op_Shift_Right := New_Standard_Entity;
Set_Chars (Standard_Op_Shift_Right, Name_Shift_Right);
Set_Ekind (Standard_Op_Shift_Right, E_Operator);
Standard_Op_Shift_Right_Arithmetic := New_Standard_Entity;
Set_Chars (Standard_Op_Shift_Right_Arithmetic,
Name_Shift_Right_Arithmetic);
Set_Ekind (Standard_Op_Shift_Right_Arithmetic,
E_Operator);
-- Create standard operator declarations
Create_Operators;
-- Initialize visibility table with entities in Standard
for E in Standard_Entity_Type loop
if Ekind (Standard_Entity (E)) /= E_Operator then
Set_Name_Entity_Id
(Chars (Standard_Entity (E)), Standard_Entity (E));
Set_Homonym (Standard_Entity (E), Empty);
end if;
if E not in S_ASCII_Names then
Set_Scope (Standard_Entity (E), Standard_Standard);
Set_Is_Immediately_Visible (Standard_Entity (E));
end if;
end loop;
-- The predefined package Standard itself does not have a scope;
-- it is the only entity in the system not to have one, and this
-- is what identifies the package to Gigi.
Set_Scope (Standard_Standard, Empty);
-- Set global variables indicating last Id values and version
Last_Standard_Node_Id := Last_Node_Id;
Last_Standard_List_Id := Last_List_Id;
-- The Error node has an Etype of Any_Type to help error recovery
Set_Etype (Error, Any_Type);
end Create_Standard;
------------------------------------
-- Create_Unconstrained_Base_Type --
------------------------------------
procedure Create_Unconstrained_Base_Type
(E : Entity_Id;
K : Entity_Kind)
is
New_Ent : constant Entity_Id := New_Copy (E);
begin
Set_Ekind (E, K);
Set_Is_Constrained (E, True);
Set_Is_First_Subtype (E, True);
Set_Etype (E, New_Ent);
Append_Entity (New_Ent, Standard_Standard);
Set_Is_Constrained (New_Ent, False);
Set_Etype (New_Ent, New_Ent);
Set_Is_Known_Valid (New_Ent, True);
if K = E_Signed_Integer_Subtype then
Set_Etype (Low_Bound (Scalar_Range (E)), New_Ent);
Set_Etype (High_Bound (Scalar_Range (E)), New_Ent);
end if;
end Create_Unconstrained_Base_Type;
--------------------
-- Identifier_For --
--------------------
function Identifier_For (S : Standard_Entity_Type) return Node_Id is
Ident_Node : Node_Id;
begin
Ident_Node := New_Node (N_Identifier, Stloc);
Set_Chars (Ident_Node, Chars (Standard_Entity (S)));
return Ident_Node;
end Identifier_For;
--------------------
-- Make_Component --
--------------------
procedure Make_Component
(Rec : Entity_Id;
Typ : Entity_Id;
Nam : String)
is
Id : constant Entity_Id := New_Standard_Entity;
begin
Set_Ekind (Id, E_Component);
Set_Etype (Id, Typ);
Set_Scope (Id, Rec);
Init_Component_Location (Id);
Set_Original_Record_Component (Id, Id);
Make_Name (Id, Nam);
Append_Entity (Id, Rec);
end Make_Component;
-----------------
-- Make_Formal --
-----------------
function Make_Formal
(Typ : Entity_Id;
Formal_Name : String)
return Entity_Id
is
Formal : Entity_Id;
begin
Formal := New_Standard_Entity;
Set_Ekind (Formal, E_In_Parameter);
Set_Mechanism (Formal, Default_Mechanism);
Set_Scope (Formal, Standard_Standard);
Set_Etype (Formal, Typ);
Make_Name (Formal, Formal_Name);
return Formal;
end Make_Formal;
------------------
-- Make_Integer --
------------------
function Make_Integer (V : Uint) return Node_Id is
N : constant Node_Id := Make_Integer_Literal (Stloc, V);
begin
Set_Is_Static_Expression (N);
return N;
end Make_Integer;
---------------
-- Make_Name --
---------------
procedure Make_Name (Id : Entity_Id; Nam : String) is
begin
for J in 1 .. Nam'Length loop
Name_Buffer (J) := Fold_Lower (Nam (Nam'First + (J - 1)));
end loop;
Name_Len := Nam'Length;
Set_Chars (Id, Name_Find);
end Make_Name;
------------------
-- New_Operator --
------------------
function New_Operator (Op : Name_Id; Typ : Entity_Id) return Entity_Id is
Ident_Node : Entity_Id;
begin
Ident_Node := Make_Defining_Identifier (Stloc, Op);
Set_Is_Pure (Ident_Node, True);
Set_Ekind (Ident_Node, E_Operator);
Set_Etype (Ident_Node, Typ);
Set_Scope (Ident_Node, Standard_Standard);
Set_Homonym (Ident_Node, Get_Name_Entity_Id (Op));
Set_Convention (Ident_Node, Convention_Intrinsic);
Set_Is_Immediately_Visible (Ident_Node, True);
Set_Is_Intrinsic_Subprogram (Ident_Node, True);
Set_Name_Entity_Id (Op, Ident_Node);
Append_Entity (Ident_Node, Standard_Standard);
return Ident_Node;
end New_Operator;
-------------------------
-- New_Standard_Entity --
-------------------------
function New_Standard_Entity
(New_Node_Kind : Node_Kind := N_Defining_Identifier)
return Entity_Id
is
E : constant Entity_Id := New_Entity (New_Node_Kind, Stloc);
begin
-- All standard entities are Pure and Public
Set_Is_Pure (E);
Set_Is_Public (E);
-- All standard entity names are analyzed manually, and are thus
-- frozen as soon as they are created.
Set_Is_Frozen (E);
-- Set debug information required for all standard types
Set_Needs_Debug_Info (E);
-- All standard entities are built with fully qualified names, so
-- set the flag to prevent an abortive attempt at requalification!
Set_Has_Qualified_Name (E);
-- Return newly created entity to be completed by caller
return E;
end New_Standard_Entity;
----------------------
-- Set_Float_Bounds --
----------------------
procedure Set_Float_Bounds (Id : Entity_Id) is
L : Node_Id;
-- Low bound of literal value
H : Node_Id;
-- High bound of literal value
R : Node_Id;
-- Range specification
Digs : constant Nat := UI_To_Int (Digits_Value (Id));
-- Digits value, used to select bounds
begin
-- Note: for the call from Cstand to initially create the types in
-- Standard, Vax_Float will always be False. Circuitry in Sem_Vfpt
-- will adjust these types appropriately in the Vax_Float case if
-- a pragma Float_Representation (VAX_Float) is used.
if Vax_Float (Id) then
if Digs = VAXFF_Digits then
L := Real_Convert
(VAXFF_First'Universal_Literal_String);
H := Real_Convert
(VAXFF_Last'Universal_Literal_String);
elsif Digs = VAXDF_Digits then
L := Real_Convert
(VAXDF_First'Universal_Literal_String);
H := Real_Convert
(VAXDF_Last'Universal_Literal_String);
else
pragma Assert (Digs = VAXGF_Digits);
L := Real_Convert
(VAXGF_First'Universal_Literal_String);
H := Real_Convert
(VAXGF_Last'Universal_Literal_String);
end if;
elsif Is_AAMP_Float (Id) then
if Digs = AAMPS_Digits then
L := Real_Convert
(AAMPS_First'Universal_Literal_String);
H := Real_Convert
(AAMPS_Last'Universal_Literal_String);
else
pragma Assert (Digs = AAMPL_Digits);
L := Real_Convert
(AAMPL_First'Universal_Literal_String);
H := Real_Convert
(AAMPL_Last'Universal_Literal_String);
end if;
elsif Digs = IEEES_Digits then
L := Real_Convert
(IEEES_First'Universal_Literal_String);
H := Real_Convert
(IEEES_Last'Universal_Literal_String);
elsif Digs = IEEEL_Digits then
L := Real_Convert
(IEEEL_First'Universal_Literal_String);
H := Real_Convert
(IEEEL_Last'Universal_Literal_String);
else
pragma Assert (Digs = IEEEX_Digits);
L := Real_Convert
(IEEEX_First'Universal_Literal_String);
H := Real_Convert
(IEEEX_Last'Universal_Literal_String);
end if;
Set_Etype (L, Id);
Set_Is_Static_Expression (L);
Set_Etype (H, Id);
Set_Is_Static_Expression (H);
R := New_Node (N_Range, Stloc);
Set_Low_Bound (R, L);
Set_High_Bound (R, H);
Set_Includes_Infinities (R, True);
Set_Scalar_Range (Id, R);
Set_Etype (R, Id);
Set_Parent (R, Id);
end Set_Float_Bounds;
------------------------
-- Set_Integer_Bounds --
------------------------
procedure Set_Integer_Bounds
(Id : Entity_Id;
Typ : Entity_Id;
Lb : Uint;
Hb : Uint)
is
L : Node_Id; -- Low bound of literal value
H : Node_Id; -- High bound of literal value
R : Node_Id; -- Range specification
begin
L := Make_Integer (Lb);
H := Make_Integer (Hb);
Set_Etype (L, Typ);
Set_Etype (H, Typ);
R := New_Node (N_Range, Stloc);
Set_Low_Bound (R, L);
Set_High_Bound (R, H);
Set_Scalar_Range (Id, R);
Set_Etype (R, Typ);
Set_Parent (R, Id);
Set_Is_Unsigned_Type (Id, Lb >= 0);
end Set_Integer_Bounds;
end CStand;
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