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|
-- DO NOT MODIFY - this file was generated from:
-- ortho_nodes.common.ads and ortho_llvm.private.ads
--
-- LLVM back-end for ortho.
-- Copyright (C) 2014 Tristan Gingold
--
-- GHDL is free software; you can redistribute it and/or modify it under
-- the terms of the GNU General Public License as published by the Free
-- Software Foundation; either version 2, or (at your option) any later
-- version.
--
-- GHDL is distributed in the hope that it will be useful, but WITHOUT ANY
-- WARRANTY; without even the implied warranty of MERCHANTABILITY or
-- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
-- for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with GCC; see the file COPYING. If not, write to the Free
-- Software Foundation, 59 Temple Place - Suite 330, Boston, MA
-- 02111-1307, USA.
with Interfaces; use Interfaces;
with Interfaces.C; use Interfaces.C;
with Ortho_Ident; use Ortho_Ident;
with LLVM.Core; use LLVM.Core;
with LLVM.TargetMachine;
with LLVM.Target;
-- Interface to create nodes.
package Ortho_LLVM is
procedure Init;
procedure Finish_Debug;
-- LLVM specific: the module.
Module : ModuleRef;
-- Descriptor for the layout.
Target_Data : LLVM.Target.TargetDataRef;
Target_Machine : LLVM.TargetMachine.TargetMachineRef;
-- Optimization level
Optimization : LLVM.TargetMachine.CodeGenOptLevel :=
LLVM.TargetMachine.CodeGenLevelDefault;
-- Set by -g to generate debug info.
Flag_Debug : Boolean := False;
-- Start of common part
type O_Enode is private;
type O_Cnode is private;
type O_Lnode is private;
type O_Tnode is private;
type O_Snode is private;
type O_Dnode is private;
type O_Fnode is private;
O_Cnode_Null : constant O_Cnode;
O_Dnode_Null : constant O_Dnode;
O_Enode_Null : constant O_Enode;
O_Fnode_Null : constant O_Fnode;
O_Lnode_Null : constant O_Lnode;
O_Snode_Null : constant O_Snode;
O_Tnode_Null : constant O_Tnode;
-- True if the code generated supports nested subprograms.
Has_Nested_Subprograms : constant Boolean;
------------------------
-- Type definitions --
------------------------
type O_Element_List is limited private;
-- Build a record type.
procedure Start_Record_Type (Elements : out O_Element_List);
-- Add a field in the record; not constrained array are prohibited, since
-- its size is unlimited.
procedure New_Record_Field
(Elements : in out O_Element_List;
El : out O_Fnode;
Ident : O_Ident; Etype : O_Tnode);
-- Finish the record type.
procedure Finish_Record_Type
(Elements : in out O_Element_List; Res : out O_Tnode);
-- Build an uncomplete record type:
-- First call NEW_UNCOMPLETE_RECORD_TYPE, which returns a record type.
-- This type can be declared or used to define access types on it.
-- Then, complete (if necessary) the record type, by calling
-- START_UNCOMPLETE_RECORD_TYPE, NEW_RECORD_FIELD and FINISH_RECORD_TYPE.
procedure New_Uncomplete_Record_Type (Res : out O_Tnode);
procedure Start_Uncomplete_Record_Type (Res : O_Tnode;
Elements : out O_Element_List);
-- Build an union type.
procedure Start_Union_Type (Elements : out O_Element_List);
procedure New_Union_Field
(Elements : in out O_Element_List;
El : out O_Fnode;
Ident : O_Ident;
Etype : O_Tnode);
procedure Finish_Union_Type
(Elements : in out O_Element_List; Res : out O_Tnode);
-- Build an access type.
-- DTYPE may be O_tnode_null in order to build an incomplete access type.
-- It is completed with finish_access_type.
function New_Access_Type (Dtype : O_Tnode) return O_Tnode;
procedure Finish_Access_Type (Atype : O_Tnode; Dtype : O_Tnode);
-- Build an array type.
-- The array is not constrained and unidimensional.
function New_Array_Type (El_Type : O_Tnode; Index_Type : O_Tnode)
return O_Tnode;
-- Build a constrained array type.
function New_Constrained_Array_Type (Atype : O_Tnode; Length : O_Cnode)
return O_Tnode;
-- Build a scalar type; size may be 8, 16, 32 or 64.
function New_Unsigned_Type (Size : Natural) return O_Tnode;
function New_Signed_Type (Size : Natural) return O_Tnode;
-- Build a float type.
function New_Float_Type return O_Tnode;
-- Build a boolean type.
procedure New_Boolean_Type (Res : out O_Tnode;
False_Id : O_Ident;
False_E : out O_Cnode;
True_Id : O_Ident;
True_E : out O_Cnode);
-- Create an enumeration
type O_Enum_List is limited private;
-- Elements are declared in order, the first is ordered from 0.
procedure Start_Enum_Type (List : out O_Enum_List; Size : Natural);
procedure New_Enum_Literal (List : in out O_Enum_List;
Ident : O_Ident; Res : out O_Cnode);
procedure Finish_Enum_Type (List : in out O_Enum_List; Res : out O_Tnode);
----------------
-- Literals --
----------------
-- Create a literal from an integer.
function New_Signed_Literal (Ltype : O_Tnode; Value : Integer_64)
return O_Cnode;
function New_Unsigned_Literal (Ltype : O_Tnode; Value : Unsigned_64)
return O_Cnode;
function New_Float_Literal (Ltype : O_Tnode; Value : IEEE_Float_64)
return O_Cnode;
-- Create a null access literal.
function New_Null_Access (Ltype : O_Tnode) return O_Cnode;
-- Build a record/array aggregate.
-- The aggregate is constant, and therefore can be only used to initialize
-- constant declaration.
-- ATYPE must be either a record type or an array subtype.
-- Elements must be added in the order, and must be literals or aggregates.
type O_Record_Aggr_List is limited private;
type O_Array_Aggr_List is limited private;
procedure Start_Record_Aggr (List : out O_Record_Aggr_List;
Atype : O_Tnode);
procedure New_Record_Aggr_El (List : in out O_Record_Aggr_List;
Value : O_Cnode);
procedure Finish_Record_Aggr (List : in out O_Record_Aggr_List;
Res : out O_Cnode);
procedure Start_Array_Aggr (List : out O_Array_Aggr_List; Atype : O_Tnode);
procedure New_Array_Aggr_El (List : in out O_Array_Aggr_List;
Value : O_Cnode);
procedure Finish_Array_Aggr (List : in out O_Array_Aggr_List;
Res : out O_Cnode);
-- Build an union aggregate.
function New_Union_Aggr (Atype : O_Tnode; Field : O_Fnode; Value : O_Cnode)
return O_Cnode;
-- Returns the size in bytes of ATYPE. The result is a literal of
-- unsigned type RTYPE
-- ATYPE cannot be an unconstrained array type.
function New_Sizeof (Atype : O_Tnode; Rtype : O_Tnode) return O_Cnode;
-- Returns the alignment in bytes for ATYPE. The result is a literal of
-- unsgined type RTYPE.
function New_Alignof (Atype : O_Tnode; Rtype : O_Tnode) return O_Cnode;
-- Returns the offset of FIELD in its record ATYPE. The result is a
-- literal of unsigned type or access type RTYPE.
function New_Offsetof (Atype : O_Tnode; Field : O_Fnode; Rtype : O_Tnode)
return O_Cnode;
-- Get the address of a subprogram.
function New_Subprogram_Address (Subprg : O_Dnode; Atype : O_Tnode)
return O_Cnode;
-- Get the address of LVALUE.
-- ATYPE must be a type access whose designated type is the type of LVALUE.
-- FIXME: what about arrays.
function New_Global_Address (Decl : O_Dnode; Atype : O_Tnode)
return O_Cnode;
-- Same as New_Address but without any restriction.
function New_Global_Unchecked_Address (Decl : O_Dnode; Atype : O_Tnode)
return O_Cnode;
-------------------
-- Expressions --
-------------------
type ON_Op_Kind is
(
-- Not an operation; invalid.
ON_Nil,
-- Dyadic operations.
ON_Add_Ov, -- ON_Dyadic_Op_Kind
ON_Sub_Ov, -- ON_Dyadic_Op_Kind
ON_Mul_Ov, -- ON_Dyadic_Op_Kind
ON_Div_Ov, -- ON_Dyadic_Op_Kind
ON_Rem_Ov, -- ON_Dyadic_Op_Kind
ON_Mod_Ov, -- ON_Dyadic_Op_Kind
-- Binary operations.
ON_And, -- ON_Dyadic_Op_Kind
ON_Or, -- ON_Dyadic_Op_Kind
ON_Xor, -- ON_Dyadic_Op_Kind
-- Monadic operations.
ON_Not, -- ON_Monadic_Op_Kind
ON_Neg_Ov, -- ON_Monadic_Op_Kind
ON_Abs_Ov, -- ON_Monadic_Op_Kind
-- Comparaisons
ON_Eq, -- ON_Compare_Op_Kind
ON_Neq, -- ON_Compare_Op_Kind
ON_Le, -- ON_Compare_Op_Kind
ON_Lt, -- ON_Compare_Op_Kind
ON_Ge, -- ON_Compare_Op_Kind
ON_Gt -- ON_Compare_Op_Kind
);
subtype ON_Dyadic_Op_Kind is ON_Op_Kind range ON_Add_Ov .. ON_Xor;
subtype ON_Monadic_Op_Kind is ON_Op_Kind range ON_Not .. ON_Abs_Ov;
subtype ON_Compare_Op_Kind is ON_Op_Kind range ON_Eq .. ON_Gt;
type O_Storage is (O_Storage_External,
O_Storage_Public,
O_Storage_Private,
O_Storage_Local);
-- Specifies the storage kind of a declaration.
-- O_STORAGE_EXTERNAL:
-- The declaration do not either reserve memory nor generate code, and
-- is imported either from an other file or from a later place in the
-- current file.
-- O_STORAGE_PUBLIC, O_STORAGE_PRIVATE:
-- The declaration reserves memory or generates code.
-- With O_STORAGE_PUBLIC, the declaration is exported outside of the
-- file while with O_STORAGE_PRIVATE, the declaration is local to the
-- file.
Type_Error : exception;
Syntax_Error : exception;
-- Create a value from a literal.
function New_Lit (Lit : O_Cnode) return O_Enode;
-- Create a dyadic operation.
-- Left and right nodes must have the same type.
-- Binary operation is allowed only on boolean types.
-- The result is of the type of the operands.
function New_Dyadic_Op (Kind : ON_Dyadic_Op_Kind; Left, Right : O_Enode)
return O_Enode;
-- Create a monadic operation.
-- Result is of the type of operand.
function New_Monadic_Op (Kind : ON_Monadic_Op_Kind; Operand : O_Enode)
return O_Enode;
-- Create a comparaison operator.
-- NTYPE is the type of the result and must be a boolean type.
function New_Compare_Op
(Kind : ON_Compare_Op_Kind; Left, Right : O_Enode; Ntype : O_Tnode)
return O_Enode;
type O_Inter_List is limited private;
type O_Assoc_List is limited private;
type O_If_Block is limited private;
type O_Case_Block is limited private;
-- Get an element of an array.
-- INDEX must be of the type of the array index.
function New_Indexed_Element (Arr : O_Lnode; Index : O_Enode)
return O_Lnode;
-- Get a slice of an array; this is equivalent to a conversion between
-- an array or an array subtype and an array subtype.
-- RES_TYPE must be an array_sub_type whose base type is the same as the
-- base type of ARR.
-- INDEX must be of the type of the array index.
function New_Slice (Arr : O_Lnode; Res_Type : O_Tnode; Index : O_Enode)
return O_Lnode;
-- Get an element of a record.
-- Type of REC must be a record type.
function New_Selected_Element (Rec : O_Lnode; El : O_Fnode)
return O_Lnode;
-- Reference an access.
-- Type of ACC must be an access type.
function New_Access_Element (Acc : O_Enode) return O_Lnode;
-- Do a conversion.
-- Allowed conversions are:
-- FIXME: to write.
function New_Convert_Ov (Val : O_Enode; Rtype : O_Tnode) return O_Enode;
-- Get the address of LVALUE.
-- ATYPE must be a type access whose designated type is the type of LVALUE.
-- FIXME: what about arrays.
function New_Address (Lvalue : O_Lnode; Atype : O_Tnode) return O_Enode;
-- Same as New_Address but without any restriction.
function New_Unchecked_Address (Lvalue : O_Lnode; Atype : O_Tnode)
return O_Enode;
-- Get the value of an Lvalue.
function New_Value (Lvalue : O_Lnode) return O_Enode;
function New_Obj_Value (Obj : O_Dnode) return O_Enode;
-- Get an lvalue from a declaration.
function New_Obj (Obj : O_Dnode) return O_Lnode;
-- Return a pointer of type RTPE to SIZE bytes allocated on the stack.
function New_Alloca (Rtype : O_Tnode; Size : O_Enode) return O_Enode;
-- Declare a type.
-- This simply gives a name to a type.
procedure New_Type_Decl (Ident : O_Ident; Atype : O_Tnode);
---------------------
-- Declarations. --
---------------------
-- Filename of the next declaration.
procedure New_Debug_Filename_Decl (Filename : String);
-- Line number of the next declaration.
procedure New_Debug_Line_Decl (Line : Natural);
-- Add a comment in the declarative region.
procedure New_Debug_Comment_Decl (Comment : String);
-- Declare a constant.
-- This simply gives a name to a constant value or aggregate.
-- A constant cannot be modified and its storage cannot be local.
-- ATYPE must be constrained.
procedure New_Const_Decl
(Res : out O_Dnode;
Ident : O_Ident;
Storage : O_Storage;
Atype : O_Tnode);
-- Set the value of a non-external constant.
procedure Start_Const_Value (Const : in out O_Dnode);
procedure Finish_Const_Value (Const : in out O_Dnode; Val : O_Cnode);
-- Create a variable declaration.
-- A variable can be local only inside a function.
-- ATYPE must be constrained.
procedure New_Var_Decl
(Res : out O_Dnode;
Ident : O_Ident;
Storage : O_Storage;
Atype : O_Tnode);
-- Start a subprogram declaration.
-- Note: nested subprograms are allowed, ie o_storage_local subprograms can
-- be declared inside a subprograms. It is not allowed to declare
-- o_storage_external subprograms inside a subprograms.
-- Return type and interfaces cannot be a composite type.
procedure Start_Function_Decl
(Interfaces : out O_Inter_List;
Ident : O_Ident;
Storage : O_Storage;
Rtype : O_Tnode);
-- For a subprogram without return value.
procedure Start_Procedure_Decl
(Interfaces : out O_Inter_List;
Ident : O_Ident;
Storage : O_Storage);
-- Add an interface declaration to INTERFACES.
procedure New_Interface_Decl
(Interfaces : in out O_Inter_List;
Res : out O_Dnode;
Ident : O_Ident;
Atype : O_Tnode);
-- Finish the function declaration, get the node and a statement list.
procedure Finish_Subprogram_Decl
(Interfaces : in out O_Inter_List; Res : out O_Dnode);
-- Start a subprogram body.
-- Note: the declaration may have an external storage, in this case it
-- becomes public.
procedure Start_Subprogram_Body (Func : O_Dnode);
-- Finish a subprogram body.
procedure Finish_Subprogram_Body;
-------------------
-- Statements. --
-------------------
-- Add a line number as a statement.
procedure New_Debug_Line_Stmt (Line : Natural);
-- Add a comment as a statement.
procedure New_Debug_Comment_Stmt (Comment : String);
-- Start a declarative region.
procedure Start_Declare_Stmt;
procedure Finish_Declare_Stmt;
-- Create a function call or a procedure call.
procedure Start_Association (Assocs : out O_Assoc_List; Subprg : O_Dnode);
procedure New_Association (Assocs : in out O_Assoc_List; Val : O_Enode);
function New_Function_Call (Assocs : O_Assoc_List) return O_Enode;
procedure New_Procedure_Call (Assocs : in out O_Assoc_List);
-- Assign VALUE to TARGET, type must be the same or compatible.
-- FIXME: what about slice assignment?
procedure New_Assign_Stmt (Target : O_Lnode; Value : O_Enode);
-- Exit from the subprogram and return VALUE.
procedure New_Return_Stmt (Value : O_Enode);
-- Exit from the subprogram, which doesn't return value.
procedure New_Return_Stmt;
-- Build an IF statement.
procedure Start_If_Stmt (Block : in out O_If_Block; Cond : O_Enode);
procedure New_Else_Stmt (Block : in out O_If_Block);
procedure Finish_If_Stmt (Block : in out O_If_Block);
-- Create a infinite loop statement.
procedure Start_Loop_Stmt (Label : out O_Snode);
procedure Finish_Loop_Stmt (Label : in out O_Snode);
-- Exit from a loop stmt or from a for stmt.
procedure New_Exit_Stmt (L : O_Snode);
-- Go to the start of a loop stmt or of a for stmt.
-- Loops/Fors between L and the current points are exited.
procedure New_Next_Stmt (L : O_Snode);
-- Case statement.
-- VALUE is the selector and must be a discrete type.
procedure Start_Case_Stmt (Block : in out O_Case_Block; Value : O_Enode);
-- A choice branch is composed of expr, range or default choices.
-- A choice branch is enclosed between a Start_Choice and a Finish_Choice.
-- The statements are after the finish_choice.
procedure Start_Choice (Block : in out O_Case_Block);
procedure New_Expr_Choice (Block : in out O_Case_Block; Expr : O_Cnode);
procedure New_Range_Choice (Block : in out O_Case_Block;
Low, High : O_Cnode);
procedure New_Default_Choice (Block : in out O_Case_Block);
procedure Finish_Choice (Block : in out O_Case_Block);
procedure Finish_Case_Stmt (Block : in out O_Case_Block);
-- End of common part
private
-- No support for nested subprograms in LLVM.
Has_Nested_Subprograms : constant Boolean := False;
type O_Tnode_Type (<>);
type O_Tnode is access O_Tnode_Type;
O_Tnode_Null : constant O_Tnode := null;
type ON_Type_Kind is
(ON_No_Type,
ON_Unsigned_Type, ON_Signed_Type, ON_Enum_Type, ON_Boolean_Type,
ON_Float_Type,
ON_Array_Type, ON_Array_Sub_Type,
ON_Incomplete_Record_Type,
ON_Record_Type, ON_Union_Type,
ON_Incomplete_Access_Type, ON_Access_Type);
subtype ON_Scalar_Types is ON_Type_Kind range
ON_Unsigned_Type .. ON_Float_Type;
subtype ON_Integer_Types is ON_Type_Kind range
ON_Unsigned_Type .. ON_Boolean_Type;
type O_Tnode_Type (Kind : ON_Type_Kind := ON_No_Type) is record
LLVM : TypeRef;
Dbg : ValueRef;
case Kind is
when ON_No_Type =>
null;
when ON_Union_Type =>
Un_Size : unsigned;
Un_Main_Field : TypeRef;
when ON_Access_Type
| ON_Incomplete_Access_Type =>
Acc_Type : O_Tnode;
when ON_Scalar_Types =>
Scal_Size : Natural;
when ON_Array_Type
| ON_Array_Sub_Type =>
-- Type of the element
Arr_El_Type : O_Tnode;
when ON_Record_Type
| ON_Incomplete_Record_Type =>
null;
end case;
end record;
type O_Inter;
type O_Inter_Acc is access O_Inter;
type O_Inter is record
Itype : O_Tnode;
Ival : ValueRef;
Ident : O_Ident;
Next : O_Inter_Acc;
end record;
type On_Decl_Kind is
(ON_Type_Decl, ON_Completed_Type_Decl,
ON_Const_Decl,
ON_Var_Decl, ON_Local_Decl, ON_Interface_Decl,
ON_Subprg_Decl,
ON_No_Decl);
type O_Dnode (Kind : On_Decl_Kind := ON_No_Decl) is record
Dtype : O_Tnode;
LLVM : ValueRef;
case Kind is
when ON_Var_Decl
| ON_Const_Decl
| ON_Local_Decl =>
null;
when ON_Subprg_Decl =>
Subprg_Id : O_Ident;
Nbr_Args : unsigned;
Subprg_Inters : O_Inter_Acc;
when ON_Interface_Decl =>
Inter : O_Inter_Acc;
when others =>
null;
end case;
end record;
O_Dnode_Null : constant O_Dnode := (Kind => ON_No_Decl,
Dtype => O_Tnode_Null,
LLVM => Null_ValueRef);
type OF_Kind is (OF_None, OF_Record, OF_Union);
type O_Fnode (Kind : OF_Kind := OF_None) is record
Ftype : O_Tnode;
case Kind is
when OF_None =>
null;
when OF_Record =>
Index : Natural;
when OF_Union =>
Utype : TypeRef;
end case;
end record;
O_Fnode_Null : constant O_Fnode := (Kind => OF_None,
Ftype => O_Tnode_Null);
type O_Anode_Type;
type O_Anode is access O_Anode_Type;
type O_Anode_Type is record
Next : O_Anode;
Formal : O_Dnode;
Actual : O_Enode;
end record;
type O_Cnode is record
LLVM : ValueRef;
Ctype : O_Tnode;
end record;
O_Cnode_Null : constant O_Cnode := (LLVM => Null_ValueRef,
Ctype => O_Tnode_Null);
type O_Enode is record
LLVM : ValueRef;
Etype : O_Tnode;
end record;
O_Enode_Null : constant O_Enode := (LLVM => Null_ValueRef,
Etype => O_Tnode_Null);
type O_Lnode is record
-- If True, the LLVM component is the value (used for arguments).
-- If False, the LLVM component is the address of the value (used
-- for everything else).
Direct : Boolean;
LLVM : ValueRef;
Ltype : O_Tnode;
end record;
O_Lnode_Null : constant O_Lnode := (False, Null_ValueRef, O_Tnode_Null);
type O_Snode is record
-- First BB in the loop body.
Bb_Entry : BasicBlockRef;
-- BB after the loop.
Bb_Exit : BasicBlockRef;
end record;
O_Snode_Null : constant O_Snode := (Null_BasicBlockRef,
Null_BasicBlockRef);
type O_Inter_List is record
Ident : O_Ident;
Storage : O_Storage;
Res_Type : O_Tnode;
Nbr_Inter : Natural;
First_Inter, Last_Inter : O_Inter_Acc;
end record;
type O_Element;
type O_Element_Acc is access O_Element;
type O_Element is record
-- Identifier for the element
Ident : O_Ident;
-- Type of the element
Etype : O_Tnode;
-- Next element (in the linked list)
Next : O_Element_Acc;
end record;
-- Record and union builder.
type O_Element_List is record
Nbr_Elements : Natural;
-- For record: the access to the incomplete (but named) type.
Rec_Type : O_Tnode;
-- For unions: biggest for size and alignment
Size : unsigned;
Align : Unsigned_32;
Align_Type : TypeRef;
First_Elem, Last_Elem : O_Element_Acc;
end record;
type ValueRefArray_Acc is access ValueRefArray;
type O_Record_Aggr_List is record
-- Current number of elements in Vals.
Len : unsigned;
-- Value of elements.
Vals : ValueRefArray_Acc;
-- Type of the aggregate.
Atype : O_Tnode;
end record;
type O_Array_Aggr_List is record
-- Current number of elements in Vals.
Len : unsigned;
-- Value of elements.
Vals : ValueRefArray_Acc;
El_Type : TypeRef;
-- Type of the aggregate.
Atype : O_Tnode;
end record;
type O_Assoc_List is record
Subprg : O_Dnode;
Idx : unsigned;
Vals : ValueRefArray_Acc;
end record;
type O_Enum_List is record
LLVM : TypeRef;
Num : Natural;
Etype : O_Tnode;
end record;
type O_Choice_Type is record
Low, High : ValueRef;
Bb : BasicBlockRef;
end record;
type O_Choice_Array is array (Natural range <>) of O_Choice_Type;
type O_Choice_Array_Acc is access O_Choice_Array;
type O_Case_Block is record
-- BB before the case.
BB_Prev : BasicBlockRef;
-- Select expression
Value : ValueRef;
Vtype : O_Tnode;
-- BB after the case statement.
BB_Next : BasicBlockRef;
-- BB for others
BB_Others : BasicBlockRef;
-- BB for the current choice
BB_Choice : BasicBlockRef;
-- List of choices.
Nbr_Choices : Natural;
Choices : O_Choice_Array_Acc;
end record;
type O_If_Block is record
-- The next basic block.
-- After the 'If', this is the BB for the else part. If there is no
-- else part, this is the BB for statements after the if.
-- After the 'else', this is the BB for statements after the if.
Bb : BasicBlockRef;
end record;
function Get_LLVM_Type (Atype : O_Tnode) return TypeRef;
end Ortho_LLVM;
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