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|
-- 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 Ada.Unchecked_Conversion;
with Ada.Unchecked_Deallocation;
with LLVM.Target; use LLVM.Target;
with GNAT.Directory_Operations;
package body Ortho_LLVM is
-- The current function for LLVM (needed to add new basic blocks).
Cur_Func : ValueRef;
-- The current function node (needed for return type).
Cur_Func_Decl : O_Dnode;
-- Wether the code is currently unreachable. LLVM doesn't accept basic
-- blocks that cannot be reached (using trivial rules). So we need to
-- discard instructions after a return, a next or an exit statement.
Unreach : Boolean;
-- Builder for statements.
Builder : BuilderRef;
-- Builder for declarations (local variables).
Decl_Builder : BuilderRef;
-- Temporary builder.
Extra_Builder : BuilderRef;
-- Declaration of llvm.dbg.declare
Llvm_Dbg_Declare : ValueRef;
Debug_ID : unsigned;
Current_Directory : constant String :=
GNAT.Directory_Operations.Get_Current_Dir;
-- Additional data for declare blocks.
type Declare_Block_Type;
type Declare_Block_Acc is access Declare_Block_Type;
type Declare_Block_Type is record
-- First basic block of the declare.
Stmt_Bb : BasicBlockRef;
-- Stack pointer at entry of the block. This value has to be restore
-- when leaving the block (either normally or via exit/next). Set only
-- if New_Alloca was used.
-- FIXME: TODO: restore stack pointer on exit/next stmts.
Stack_Value : ValueRef;
-- Debug data for the scope of the declare block.
Dbg_Scope : ValueRef;
-- Previous element in the stack.
Prev : Declare_Block_Acc;
end record;
-- Current declare block.
Cur_Declare_Block : Declare_Block_Acc;
-- Chain of unused blocks to be recycled.
Old_Declare_Block : Declare_Block_Acc;
Stacksave_Fun : ValueRef;
Stacksave_Name : constant String := "llvm.stacksave" & ASCII.NUL;
Stackrestore_Fun : ValueRef;
Stackrestore_Name : constant String := "llvm.stackrestore" & ASCII.NUL;
Copysign_Fun : ValueRef;
Copysign_Name : constant String := "llvm.copysign.f64" & ASCII.NUL;
Fp_0_5 : ValueRef;
-- For debugging
DW_Version : constant := 16#c_0000#;
DW_TAG_Array_Type : constant := DW_Version + 16#01#;
DW_TAG_Enumeration_Type : constant := DW_Version + 16#04#;
DW_TAG_Lexical_Block : constant := DW_Version + 16#0b#;
DW_TAG_Member : constant := DW_Version + 16#0d#;
DW_TAG_Pointer_Type : constant := DW_Version + 16#0f#;
DW_TAG_Compile_Unit : constant := DW_Version + 16#11#;
DW_TAG_Structure_Type : constant := DW_Version + 16#13#;
DW_TAG_Subroutine_Type : constant := DW_Version + 16#15#;
DW_TAG_Union_Type : constant := DW_Version + 16#17#;
DW_TAG_Subrange_Type : constant := DW_Version + 16#21#;
DW_TAG_Base_Type : constant := DW_Version + 16#24#;
DW_TAG_Enumerator : constant := DW_Version + 16#28#;
DW_TAG_File_Type : constant := DW_Version + 16#29#;
DW_TAG_Subprogram : constant := DW_Version + 16#2e#;
DW_TAG_Variable : constant := DW_Version + 16#34#;
DW_TAG_Auto_Variable : constant := DW_Version + 16#100#;
DW_TAG_Arg_Variable : constant := DW_Version + 16#101#;
DW_ATE_address : constant := 16#01#;
DW_ATE_boolean : constant := 16#02#;
DW_ATE_float : constant := 16#04#;
DW_ATE_signed : constant := 16#05#;
DW_ATE_unsigned : constant := 16#07#;
pragma Unreferenced (DW_ATE_address, DW_ATE_boolean);
-- File + Dir metadata
Dbg_Current_Filedir : ValueRef;
Dbg_Current_File : ValueRef; -- The DW_TAG_File_Type
Dbg_Current_Line : unsigned := 0;
Dbg_Current_Scope : ValueRef := Null_ValueRef;
Scope_Uniq_Id : Unsigned_64 := 0;
-- Metadata for the instruction
Dbg_Insn_MD : ValueRef;
Dbg_Insn_MD_Line : unsigned := 0;
procedure Free is new Ada.Unchecked_Deallocation
(ValueRefArray, ValueRefArray_Acc);
package Dbg_Utils is
type Dyn_MDNode is private;
procedure Append (D : in out Dyn_MDNode; Val : ValueRef);
function Get_Value (D : Dyn_MDNode) return ValueRef;
-- Reset D. FIXME: should be done automatically within Get_Value.
procedure Clear (D : out Dyn_MDNode);
private
Chunk_Length : constant unsigned := 32;
type MD_Chunk;
type MD_Chunk_Acc is access MD_Chunk;
type MD_Chunk is record
Vals : ValueRefArray (1 .. Chunk_Length);
Next : MD_Chunk_Acc;
end record;
type Dyn_MDNode is record
First : MD_Chunk_Acc;
Last : MD_Chunk_Acc;
Nbr : unsigned := 0;
end record;
end Dbg_Utils;
package body Dbg_Utils is
procedure Append (D : in out Dyn_MDNode; Val : ValueRef) is
Chunk : MD_Chunk_Acc;
Pos : constant unsigned := D.Nbr rem Chunk_Length;
begin
if Pos = 0 then
Chunk := new MD_Chunk;
if D.First = null then
D.First := Chunk;
else
D.Last.Next := Chunk;
end if;
D.Last := Chunk;
else
Chunk := D.Last;
end if;
Chunk.Vals (Pos + 1) := Val;
D.Nbr := D.Nbr + 1;
end Append;
procedure Free is new Ada.Unchecked_Deallocation
(MD_Chunk, MD_Chunk_Acc);
function Get_Value (D : Dyn_MDNode) return ValueRef
is
Vals : ValueRefArray (1 .. D.Nbr);
Pos : unsigned;
Chunk : MD_Chunk_Acc := D.First;
Next_Chunk : MD_Chunk_Acc;
Nbr : constant unsigned := D.Nbr;
begin
Pos := 0;
-- Copy by chunks
while Pos + Chunk_Length < Nbr loop
Vals (Pos + 1 .. Pos + Chunk_Length) := Chunk.Vals;
Pos := Pos + Chunk_Length;
Next_Chunk := Chunk.Next;
Free (Chunk);
Chunk := Next_Chunk;
end loop;
-- Last chunk
if Pos < Nbr then
Vals (Pos + 1 .. Pos + Nbr - Pos) := Chunk.Vals (1 .. Nbr - Pos);
Free (Chunk);
end if;
return MDNode (Vals, Vals'Length);
end Get_Value;
procedure Clear (D : out Dyn_MDNode) is
begin
D := (null, null, 0);
end Clear;
end Dbg_Utils;
use Dbg_Utils;
-- List of debug info for subprograms.
Subprg_Nodes: Dyn_MDNode;
-- List of literals for enumerated type
Enum_Nodes : Dyn_MDNode;
-- List of global variables
Global_Nodes : Dyn_MDNode;
-- Create a MDString from an Ada string.
function MDString (Str : String) return ValueRef is
begin
return MDString (Str'Address, Str'Length);
end MDString;
function MDString (Id : O_Ident) return ValueRef is
begin
return MDString (Get_Cstring (Id), unsigned (Get_String_Length (Id)));
end MDString;
function Dbg_Size (Atype : TypeRef) return ValueRef is
begin
return ConstInt (Int64Type, 8 * ABISizeOfType (Target_Data, Atype), 0);
end Dbg_Size;
function Dbg_Align (Atype : TypeRef) return ValueRef is
begin
return ConstInt
(Int64Type,
Unsigned_64 (8 * ABIAlignmentOfType (Target_Data, Atype)), 0);
end Dbg_Align;
function Dbg_Line return ValueRef is
begin
return ConstInt (Int32Type, Unsigned_64 (Dbg_Current_Line), 0);
end Dbg_Line;
-- Set debug metadata on instruction INSN.
-- FIXME: check if INSN is really an instruction
procedure Set_Insn_Dbg (Insn : ValueRef) is
begin
if Flag_Debug_Line and then IsAInstruction (Insn) /= Null_ValueRef then
if Dbg_Current_Line /= Dbg_Insn_MD_Line then
declare
Vals : ValueRefArray (0 .. 3);
begin
Vals := (Dbg_Line,
ConstInt (Int32Type, 0, 0), -- col
Dbg_Current_Scope, -- context
Null_ValueRef); -- inline
Dbg_Insn_MD := MDNode (Vals, Vals'Length);
Dbg_Insn_MD_Line := Dbg_Current_Line;
end;
end if;
SetMetadata (Insn, Debug_ID, Dbg_Insn_MD);
end if;
end Set_Insn_Dbg;
procedure Dbg_Create_Variable (Tag : Unsigned_32;
Ident : O_Ident;
Vtype : O_Tnode;
Argno : Natural;
Addr : ValueRef)
is
Vals : ValueRefArray (0 .. 7);
Str : constant ValueRef := MDString (Ident);
Call_Vals : ValueRefArray (0 .. 1);
Call : ValueRef;
begin
Vals := (ConstInt (Int32Type, Unsigned_64 (Tag), 0),
Dbg_Current_Scope,
Str,
Dbg_Current_File,
ConstInt (Int32Type,
Unsigned_64 (Dbg_Current_Line)
+ Unsigned_64 (Argno) * 2 ** 24, 0),
Vtype.Dbg,
ConstInt (Int32Type, 0, 0), -- flags
ConstInt (Int32Type, 0, 0));
Call_Vals := (MDNode ((0 => Addr), 1),
MDNode (Vals, Vals'Length));
Call := BuildCall (Decl_Builder, Llvm_Dbg_Declare,
Call_Vals, Call_Vals'Length, Empty_Cstring);
Set_Insn_Dbg (Call);
end Dbg_Create_Variable;
procedure Create_Declare_Block
is
Res : Declare_Block_Acc;
begin
-- Try to recycle an unused record.
if Old_Declare_Block /= null then
Res := Old_Declare_Block;
Old_Declare_Block := Res.Prev;
else
-- Create a new one if no unused records.
Res := new Declare_Block_Type;
end if;
-- Chain.
Res.all := (Stmt_Bb => Null_BasicBlockRef,
Stack_Value => Null_ValueRef,
Dbg_Scope => Null_ValueRef,
Prev => Cur_Declare_Block);
Cur_Declare_Block := Res;
if not Unreach then
Res.Stmt_Bb := AppendBasicBlock (Cur_Func, Empty_Cstring);
end if;
end Create_Declare_Block;
procedure Destroy_Declare_Block
is
Blk : constant Declare_Block_Acc := Cur_Declare_Block;
begin
-- Unchain.
Cur_Declare_Block := Blk.Prev;
-- Put on the recyle list.
Blk.Prev := Old_Declare_Block;
Old_Declare_Block := Blk;
end Destroy_Declare_Block;
-----------------------
-- Start_Record_Type --
-----------------------
procedure Start_Record_Type (Elements : out O_Element_List) is
begin
Elements := (Kind => OF_Record,
Nbr_Elements => 0,
Rec_Type => O_Tnode_Null,
Size => 0,
Align => 0,
Align_Type => Null_TypeRef,
First_Elem => null,
Last_Elem => null);
end Start_Record_Type;
----------------------
-- New_Record_Field --
----------------------
procedure Add_Field
(Elements : in out O_Element_List; Ident : O_Ident; Etype : O_Tnode)
is
O_El : O_Element_Acc;
begin
Elements.Nbr_Elements := Elements.Nbr_Elements + 1;
O_El := new O_Element'(Next => null,
Etype => Etype,
Ident => Ident);
if Elements.First_Elem = null then
Elements.First_Elem := O_El;
else
Elements.Last_Elem.Next := O_El;
end if;
Elements.Last_Elem := O_El;
end Add_Field;
procedure New_Record_Field
(Elements : in out O_Element_List;
El : out O_Fnode;
Ident : O_Ident;
Etype : O_Tnode) is
begin
El := (Kind => OF_Record,
Index => Elements.Nbr_Elements,
Ftype => Etype);
Add_Field (Elements, Ident, Etype);
end New_Record_Field;
------------------------
-- Finish_Record_Type --
------------------------
procedure Add_Dbg_Fields
(Elements : in out O_Element_List; Res : O_Tnode)
is
Count : constant unsigned := unsigned (Elements.Nbr_Elements);
Fields : ValueRefArray (1 .. Count);
Vals : ValueRefArray (0 .. 9);
Ftype : TypeRef;
Fields_Arr : ValueRef;
Off : Unsigned_64;
El : O_Element_Acc;
begin
El := Elements.First_Elem;
for I in Fields'Range loop
Ftype := Get_LLVM_Type (El.Etype);
case Elements.Kind is
when OF_Record =>
Off := 8 * OffsetOfElement (Target_Data,
Res.LLVM, Unsigned_32 (I - 1));
when OF_Union =>
Off := 0;
when OF_None =>
raise Program_Error;
end case;
Vals :=
(ConstInt (Int32Type, DW_TAG_Member, 0),
Dbg_Current_File,
Null_ValueRef,
MDString (El.Ident),
ConstInt (Int32Type, 0, 0), -- linenum
Dbg_Size (Ftype),
Dbg_Align (Ftype),
ConstInt (Int32Type, Off, 0),
ConstInt (Int32Type, 0, 0), -- Flags
El.Etype.Dbg);
Fields (I) := MDNode (Vals, Vals'Length);
El := El.Next;
end loop;
Fields_Arr := MDNode (Fields, Fields'Length);
if Elements.Rec_Type /= null then
-- Completion
MDNodeReplaceOperandWith (Res.Dbg, 10, Fields_Arr);
MDNodeReplaceOperandWith (Res.Dbg, 5, Dbg_Size (Res.LLVM));
MDNodeReplaceOperandWith (Res.Dbg, 6, Dbg_Align (Res.LLVM));
else
-- Temporary borrowed.
Res.Dbg := Fields_Arr;
end if;
end Add_Dbg_Fields;
procedure Free_Elements (Elements : in out O_Element_List)
is
procedure Free is new Ada.Unchecked_Deallocation
(O_Element, O_Element_Acc);
El : O_Element_Acc;
Next_El : O_Element_Acc;
begin
-- Free elements
El := Elements.First_Elem;
while El /= null loop
Next_El := El.Next;
Free (El);
El := Next_El;
end loop;
Elements.First_Elem := null;
Elements.Last_Elem := null;
end Free_Elements;
procedure Finish_Record_Type
(Elements : in out O_Element_List; Res : out O_Tnode)
is
Count : constant unsigned := unsigned (Elements.Nbr_Elements);
El : O_Element_Acc;
Types : TypeRefArray (1 .. Count);
begin
El := Elements.First_Elem;
for I in Types'Range loop
Types (I) := Get_LLVM_Type (El.Etype);
El := El.Next;
end loop;
if Elements.Rec_Type /= null then
-- Completion
StructSetBody (Elements.Rec_Type.LLVM, Types, Count, 0);
Res := Elements.Rec_Type;
else
Res := new O_Tnode_Type'(Kind => ON_Record_Type,
LLVM => StructType (Types, Count, 0),
Dbg => Null_ValueRef);
end if;
if Flag_Debug then
Add_Dbg_Fields (Elements, Res);
end if;
Free_Elements (Elements);
end Finish_Record_Type;
--------------------------------
-- New_Uncomplete_Record_Type --
--------------------------------
procedure New_Uncomplete_Record_Type (Res : out O_Tnode) is
begin
-- LLVM type will be created when the type is declared, as the name
-- is required (for unification).
Res := new O_Tnode_Type'(Kind => ON_Incomplete_Record_Type,
LLVM => Null_TypeRef,
Dbg => Null_ValueRef);
end New_Uncomplete_Record_Type;
----------------------------------
-- Start_Uncomplete_Record_Type --
----------------------------------
procedure Start_Uncomplete_Record_Type
(Res : O_Tnode;
Elements : out O_Element_List)
is
begin
if Res.Kind /= ON_Incomplete_Record_Type then
raise Program_Error;
end if;
Elements := (Kind => OF_Record,
Nbr_Elements => 0,
Rec_Type => Res,
Size => 0,
Align => 0,
Align_Type => Null_TypeRef,
First_Elem => null,
Last_Elem => null);
end Start_Uncomplete_Record_Type;
----------------------
-- Start_Union_Type --
----------------------
procedure Start_Union_Type (Elements : out O_Element_List) is
begin
Elements := (Kind => OF_Union,
Nbr_Elements => 0,
Rec_Type => O_Tnode_Null,
Size => 0,
Align => 0,
Align_Type => Null_TypeRef,
First_Elem => null,
Last_Elem => null);
end Start_Union_Type;
---------------------
-- New_Union_Field --
---------------------
procedure New_Union_Field
(Elements : in out O_Element_List;
El : out O_Fnode;
Ident : O_Ident;
Etype : O_Tnode)
is
El_Type : constant TypeRef := Get_LLVM_Type (Etype);
Size : constant unsigned :=
unsigned (ABISizeOfType (Target_Data, El_Type));
Align : constant Unsigned_32 :=
ABIAlignmentOfType (Target_Data, El_Type);
begin
El := (Kind => OF_Union,
Ftype => Etype,
Utype => El_Type,
Ptr_Type => PointerType (El_Type));
if Size > Elements.Size then
Elements.Size := Size;
end if;
if Elements.Align_Type = Null_TypeRef or else Align > Elements.Align then
Elements.Align := Align;
Elements.Align_Type := El_Type;
end if;
Add_Field (Elements, Ident, Etype);
end New_Union_Field;
-----------------------
-- Finish_Union_Type --
-----------------------
procedure Finish_Union_Type
(Elements : in out O_Element_List;
Res : out O_Tnode)
is
Count : unsigned;
Types : TypeRefArray (1 .. 2);
Pad : unsigned;
begin
if Elements.Align_Type = Null_TypeRef then
-- An empty union. Is it allowed ?
Count := 0;
else
-- The first element is the field with the biggest alignment
Types (1) := Elements.Align_Type;
-- Possibly complete with an array of bytes.
Pad := Elements.Size
- unsigned (ABISizeOfType (Target_Data, Elements.Align_Type));
if Pad /= 0 then
Types (2) := ArrayType (Int8Type, Pad);
Count := 2;
else
Count := 1;
end if;
end if;
Res := new O_Tnode_Type'(Kind => ON_Union_Type,
LLVM => StructType (Types, Count, 0),
Dbg => Null_ValueRef,
Un_Size => Elements.Size,
Un_Main_Field => Elements.Align_Type);
if Flag_Debug then
Add_Dbg_Fields (Elements, Res);
end if;
Free_Elements (Elements);
end Finish_Union_Type;
---------------------
-- New_Access_Type --
---------------------
function New_Access_Type (Dtype : O_Tnode) return O_Tnode is
begin
if Dtype = O_Tnode_Null then
-- LLVM type will be built by New_Type_Decl, so that the name
-- can be used for the structure.
return new O_Tnode_Type'(Kind => ON_Incomplete_Access_Type,
LLVM => Null_TypeRef,
Dbg => Null_ValueRef,
Acc_Type => O_Tnode_Null);
else
return new O_Tnode_Type'(Kind => ON_Access_Type,
LLVM => PointerType (Get_LLVM_Type (Dtype)),
Dbg => Null_ValueRef,
Acc_Type => Dtype);
end if;
end New_Access_Type;
------------------------
-- Finish_Access_Type --
------------------------
procedure Finish_Access_Type (Atype : O_Tnode; Dtype : O_Tnode)
is
Types : TypeRefArray (1 .. 1);
begin
if Atype.Kind /= ON_Incomplete_Access_Type then
-- Not an incomplete access type.
raise Program_Error;
end if;
if Atype.Acc_Type /= O_Tnode_Null then
-- Already completed.
raise Program_Error;
end if;
-- Completion
Types (1) := Get_LLVM_Type (Dtype);
StructSetBody (GetElementType (Atype.LLVM), Types, Types'Length, 0);
Atype.Acc_Type := Dtype;
-- Debug.
if Atype.Dbg /= Null_ValueRef then
pragma Assert (GetMDNodeNumOperands (Atype.Dbg) = 10);
MDNodeReplaceOperandWith (Atype.Dbg, 9, Dtype.Dbg);
end if;
end Finish_Access_Type;
--------------------
-- New_Array_Type --
--------------------
function Dbg_Array (El_Type : O_Tnode; Len : ValueRef; Atype : O_Tnode)
return ValueRef
is
Rng : ValueRefArray (0 .. 2);
Rng_Arr : ValueRefArray (0 .. 0);
Vals : ValueRefArray (0 .. 14);
begin
Rng := (ConstInt (Int32Type, DW_TAG_Subrange_Type, 0),
ConstInt (Int64Type, 0, 0), -- Lo
Len); -- Count
Rng_Arr := (0 => MDNode (Rng, Rng'Length));
Vals := (ConstInt (Int32Type, DW_TAG_Array_Type, 0),
Null_ValueRef,
Null_ValueRef, -- context
Null_ValueRef,
ConstInt (Int32Type, 0, 0), -- line
Dbg_Size (Atype.LLVM),
Dbg_Align (Atype.LLVM),
ConstInt (Int32Type, 0, 0), -- Offset
ConstInt (Int32Type, 0, 0), -- Flags
El_Type.Dbg, -- element type
MDNode (Rng_Arr, Rng_Arr'Length), -- subscript
ConstInt (Int32Type, 0, 0),
Null_ValueRef,
Null_ValueRef,
Null_ValueRef); -- Runtime lang
return MDNode (Vals, Vals'Length);
end Dbg_Array;
function New_Array_Type (El_Type : O_Tnode; Index_Type : O_Tnode)
return O_Tnode
is
pragma Unreferenced (Index_Type);
Res : O_Tnode;
begin
Res := new O_Tnode_Type'
(Kind => ON_Array_Type,
LLVM => ArrayType (Get_LLVM_Type (El_Type), 0),
Dbg => Null_ValueRef,
Arr_El_Type => El_Type);
if Flag_Debug then
Res.Dbg := Dbg_Array
(El_Type, ConstInt (Int64Type, Unsigned_64'Last, 1), Res);
end if;
return Res;
end New_Array_Type;
--------------------------------
-- New_Constrained_Array_Type --
--------------------------------
function New_Constrained_Array_Type
(Atype : O_Tnode; Length : O_Cnode) return O_Tnode
is
Res : O_Tnode;
Len : constant unsigned := unsigned (ConstIntGetZExtValue (Length.LLVM));
begin
Res := new O_Tnode_Type'
(Kind => ON_Array_Sub_Type,
LLVM => ArrayType (GetElementType (Get_LLVM_Type (Atype)), Len),
Dbg => Null_ValueRef,
Arr_El_Type => Atype.Arr_El_Type);
if Flag_Debug then
Res.Dbg := Dbg_Array
(Atype.Arr_El_Type,
ConstInt (Int64Type, Unsigned_64 (Len), 0), Res);
end if;
return Res;
end New_Constrained_Array_Type;
-----------------------
-- New_Unsigned_Type --
-----------------------
function Size_To_Llvm (Size : Natural) return TypeRef is
Llvm : TypeRef;
begin
case Size is
when 8 =>
Llvm := Int8Type;
when 32 =>
Llvm := Int32Type;
when 64 =>
Llvm := Int64Type;
when others =>
raise Program_Error;
end case;
return Llvm;
end Size_To_Llvm;
function New_Unsigned_Type (Size : Natural) return O_Tnode is
begin
return new O_Tnode_Type'(Kind => ON_Unsigned_Type,
LLVM => Size_To_Llvm (Size),
Dbg => Null_ValueRef,
Scal_Size => Size);
end New_Unsigned_Type;
---------------------
-- New_Signed_Type --
---------------------
function New_Signed_Type (Size : Natural) return O_Tnode is
begin
return new O_Tnode_Type'(Kind => ON_Signed_Type,
LLVM => Size_To_Llvm (Size),
Dbg => Null_ValueRef,
Scal_Size => Size);
end New_Signed_Type;
--------------------
-- New_Float_Type --
--------------------
function New_Float_Type return O_Tnode is
begin
return new O_Tnode_Type'(Kind => ON_Float_Type,
LLVM => DoubleType,
Dbg => Null_ValueRef,
Scal_Size => 64);
end New_Float_Type;
procedure Dbg_Add_Enumeration (Id : O_Ident; Val : Unsigned_64) is
Vals : ValueRefArray (0 .. 2);
begin
Vals := (ConstInt (Int32Type, DW_TAG_Enumerator, 0),
MDString (Id),
ConstInt (Int64Type, Val, 0));
-- FIXME: make it local to List ?
Append (Enum_Nodes, MDNode (Vals, Vals'Length));
end Dbg_Add_Enumeration;
----------------------
-- New_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)
is
begin
Res := new O_Tnode_Type'(Kind => ON_Boolean_Type,
LLVM => Int1Type,
Dbg => Null_ValueRef,
Scal_Size => 1);
False_E := O_Cnode'(LLVM => ConstInt (Res.LLVM, 0, 0),
Ctype => Res);
True_E := O_Cnode'(LLVM => ConstInt (Res.LLVM, 1, 0),
Ctype => Res);
if Flag_Debug then
Dbg_Add_Enumeration (False_Id, 0);
Dbg_Add_Enumeration (True_Id, 1);
end if;
end New_Boolean_Type;
---------------------
-- Start_Enum_Type --
---------------------
procedure Start_Enum_Type (List : out O_Enum_List; Size : Natural)
is
LLVM : constant TypeRef := Size_To_Llvm (Size);
begin
List := (LLVM => LLVM,
Num => 0,
Etype => new O_Tnode_Type'(Kind => ON_Enum_Type,
LLVM => LLVM,
Scal_Size => Size,
Dbg => Null_ValueRef));
end Start_Enum_Type;
----------------------
-- New_Enum_Literal --
----------------------
procedure New_Enum_Literal
(List : in out O_Enum_List; Ident : O_Ident; Res : out O_Cnode)
is
begin
Res := O_Cnode'(LLVM => ConstInt (List.LLVM, Unsigned_64 (List.Num), 0),
Ctype => List.Etype);
if Flag_Debug then
Dbg_Add_Enumeration (Ident, Unsigned_64 (List.Num));
end if;
List.Num := List.Num + 1;
end New_Enum_Literal;
----------------------
-- Finish_Enum_Type --
----------------------
procedure Finish_Enum_Type (List : in out O_Enum_List; Res : out O_Tnode) is
begin
Res := List.Etype;
end Finish_Enum_Type;
------------------------
-- New_Signed_Literal --
------------------------
function New_Signed_Literal (Ltype : O_Tnode; Value : Integer_64)
return O_Cnode
is
function To_Unsigned_64 is new Ada.Unchecked_Conversion
(Integer_64, Unsigned_64);
begin
return O_Cnode'(LLVM => ConstInt (Get_LLVM_Type (Ltype),
To_Unsigned_64 (Value), 1),
Ctype => Ltype);
end New_Signed_Literal;
--------------------------
-- New_Unsigned_Literal --
--------------------------
function New_Unsigned_Literal (Ltype : O_Tnode; Value : Unsigned_64)
return O_Cnode is
begin
return O_Cnode'(LLVM => ConstInt (Get_LLVM_Type (Ltype), Value, 0),
Ctype => Ltype);
end New_Unsigned_Literal;
-----------------------
-- New_Float_Literal --
-----------------------
function New_Float_Literal (Ltype : O_Tnode; Value : IEEE_Float_64)
return O_Cnode is
begin
return O_Cnode'(LLVM => ConstReal (Get_LLVM_Type (Ltype),
Interfaces.C.double (Value)),
Ctype => Ltype);
end New_Float_Literal;
---------------------
-- New_Null_Access --
---------------------
function New_Null_Access (Ltype : O_Tnode) return O_Cnode is
begin
return O_Cnode'(LLVM => ConstNull (Get_LLVM_Type (Ltype)),
Ctype => Ltype);
end New_Null_Access;
-----------------------
-- Start_Record_Aggr --
-----------------------
procedure Start_Record_Aggr
(List : out O_Record_Aggr_List;
Atype : O_Tnode)
is
Llvm : constant TypeRef := Get_LLVM_Type (Atype);
begin
List :=
(Len => 0,
Vals => new ValueRefArray (1 .. CountStructElementTypes (Llvm)),
Atype => Atype);
end Start_Record_Aggr;
------------------------
-- New_Record_Aggr_El --
------------------------
procedure New_Record_Aggr_El
(List : in out O_Record_Aggr_List; Value : O_Cnode)
is
begin
List.Len := List.Len + 1;
List.Vals (List.Len) := Value.LLVM;
end New_Record_Aggr_El;
------------------------
-- Finish_Record_Aggr --
------------------------
procedure Finish_Record_Aggr
(List : in out O_Record_Aggr_List;
Res : out O_Cnode)
is
begin
Res := (LLVM => ConstStruct (List.Vals.all, List.Len, 0),
Ctype => List.Atype);
Free (List.Vals);
end Finish_Record_Aggr;
----------------------
-- Start_Array_Aggr --
----------------------
procedure Start_Array_Aggr
(List : out O_Array_Aggr_List;
Atype : O_Tnode)
is
Llvm : constant TypeRef := Get_LLVM_Type (Atype);
begin
List := (Len => 0,
Vals => new ValueRefArray (1 .. GetArrayLength (Llvm)),
El_Type => GetElementType (Llvm),
Atype => Atype);
end Start_Array_Aggr;
-----------------------
-- New_Array_Aggr_El --
-----------------------
procedure New_Array_Aggr_El (List : in out O_Array_Aggr_List;
Value : O_Cnode)
is
begin
List.Len := List.Len + 1;
List.Vals (List.Len) := Value.LLVM;
end New_Array_Aggr_El;
-----------------------
-- Finish_Array_Aggr --
-----------------------
procedure Finish_Array_Aggr (List : in out O_Array_Aggr_List;
Res : out O_Cnode)
is
begin
Res := (LLVM => ConstArray (List.El_Type,
List.Vals.all, List.Len),
Ctype => List.Atype);
Free (List.Vals);
end Finish_Array_Aggr;
--------------------
-- New_Union_Aggr --
--------------------
function New_Union_Aggr (Atype : O_Tnode; Field : O_Fnode; Value : O_Cnode)
return O_Cnode
is
Values : ValueRefArray (1 .. 2);
Count : unsigned;
Size : constant unsigned :=
unsigned (ABISizeOfType (Target_Data, Field.Utype));
begin
Values (1) := Value.LLVM;
if Size < Atype.Un_Size then
Values (2) := GetUndef (ArrayType (Int8Type, Atype.Un_Size - Size));
Count := 2;
else
Count := 1;
end if;
-- If `FIELD` is the main field of the union, create a struct using
-- the same type as the union (and possibly pad).
if Field.Utype = Atype.Un_Main_Field then
return O_Cnode'
(LLVM => ConstNamedStruct (Atype.LLVM, Values, Count),
Ctype => Atype);
else
-- Create an on-the-fly record.
return O_Cnode'(LLVM => ConstStruct (Values, Count, 0),
Ctype => Atype);
end if;
end New_Union_Aggr;
----------------
-- New_Sizeof --
----------------
-- Return VAL with type RTYPE (either unsigned or access)
function Const_To_Cnode (Rtype : O_Tnode; Val : Unsigned_64) return O_Cnode
is
Tmp : ValueRef;
begin
case Rtype.Kind is
when ON_Scalar_Types =>
-- Well, unsigned in fact.
return O_Cnode'(LLVM => ConstInt (Rtype.LLVM, Val, 0),
Ctype => Rtype);
when ON_Access_Type =>
Tmp := ConstInt (Int64Type, Val, 0);
return O_Cnode'(LLVM => ConstIntToPtr (Tmp, Rtype.LLVM),
Ctype => Rtype);
when others =>
raise Program_Error;
end case;
end Const_To_Cnode;
function New_Sizeof (Atype : O_Tnode; Rtype : O_Tnode) return O_Cnode is
begin
return Const_To_Cnode
(Rtype, ABISizeOfType (Target_Data, Get_LLVM_Type (Atype)));
end New_Sizeof;
-----------------
-- New_Alignof --
-----------------
function New_Alignof (Atype : O_Tnode; Rtype : O_Tnode) return O_Cnode is
begin
return Const_To_Cnode
(Rtype,
Unsigned_64
(ABIAlignmentOfType (Target_Data, Get_LLVM_Type (Atype))));
end New_Alignof;
------------------
-- New_Offsetof --
------------------
function New_Offsetof (Atype : O_Tnode; Field : O_Fnode; Rtype : O_Tnode)
return O_Cnode is
begin
return Const_To_Cnode
(Rtype,
OffsetOfElement (Target_Data,
Get_LLVM_Type (Atype),
Unsigned_32 (Field.Index)));
end New_Offsetof;
----------------------------
-- New_Subprogram_Address --
----------------------------
function New_Subprogram_Address (Subprg : O_Dnode; Atype : O_Tnode)
return O_Cnode is
begin
return O_Cnode'
(LLVM => ConstBitCast (Subprg.LLVM, Get_LLVM_Type (Atype)),
Ctype => Atype);
end New_Subprogram_Address;
------------------------
-- New_Global_Address --
------------------------
function New_Global_Address (Decl : O_Dnode; Atype : O_Tnode)
return O_Cnode is
begin
return O_Cnode'(LLVM => ConstBitCast (Decl.LLVM, Get_LLVM_Type (Atype)),
Ctype => Atype);
end New_Global_Address;
----------------------------------
-- New_Global_Unchecked_Address --
----------------------------------
function New_Global_Unchecked_Address (Decl : O_Dnode; Atype : O_Tnode)
return O_Cnode
is
begin
return O_Cnode'(LLVM => ConstBitCast (Decl.LLVM, Get_LLVM_Type (Atype)),
Ctype => Atype);
end New_Global_Unchecked_Address;
-------------
-- New_Lit --
-------------
function New_Lit (Lit : O_Cnode) return O_Enode is
begin
return O_Enode'(LLVM => Lit.LLVM,
Etype => Lit.Ctype);
end New_Lit;
-------------------
-- New_Dyadic_Op --
-------------------
function New_Smod (L, R : ValueRef; Res_Type : TypeRef)
return ValueRef
is
Cond : ValueRef;
Br : ValueRef;
pragma Unreferenced (Br);
-- The result of 'L rem R'.
Rm : ValueRef;
-- Rm + R
Rm_Plus_R : ValueRef;
-- The result of 'L xor R'.
R_Xor : ValueRef;
Adj : ValueRef;
Phi : ValueRef;
-- Basic basic for the non-overflow branch
Normal_Bb : constant BasicBlockRef :=
AppendBasicBlock (Cur_Func, Empty_Cstring);
Adjust_Bb : constant BasicBlockRef :=
AppendBasicBlock (Cur_Func, Empty_Cstring);
-- Basic block after the result
Next_Bb : constant BasicBlockRef :=
AppendBasicBlock (Cur_Func, Empty_Cstring);
Vals : ValueRefArray (1 .. 3);
BBs : BasicBlockRefArray (1 .. 3);
begin
-- Avoid overflow with -1:
-- if R = -1 then
-- result := 0;
-- else
-- ...
Cond := BuildICmp
(Builder, IntEQ, R, ConstAllOnes (Res_Type), Empty_Cstring);
Br := BuildCondBr (Builder, Cond, Next_Bb, Normal_Bb);
Vals (1) := ConstNull (Res_Type);
BBs (1) := GetInsertBlock (Builder);
-- Rm := Left rem Right
PositionBuilderAtEnd (Builder, Normal_Bb);
Rm := BuildSRem (Builder, L, R, Empty_Cstring);
-- if Rm = 0 then
-- result := 0
-- else
Cond := BuildICmp
(Builder, IntEQ, Rm, ConstNull (Res_Type), Empty_Cstring);
Br := BuildCondBr (Builder, Cond, Next_Bb, Adjust_Bb);
Vals (2) := ConstNull (Res_Type);
BBs (2) := Normal_Bb;
-- if (L xor R) < 0 then
-- result := Rm + R
-- else
-- result := Rm;
-- end if;
PositionBuilderAtEnd (Builder, Adjust_Bb);
R_Xor := BuildXor (Builder, L, R, Empty_Cstring);
Cond := BuildICmp
(Builder, IntSLT, R_Xor, ConstNull (Res_Type), Empty_Cstring);
Rm_Plus_R := BuildAdd (Builder, Rm, R, Empty_Cstring);
Adj := BuildSelect (Builder, Cond, Rm_Plus_R, Rm, Empty_Cstring);
Br := BuildBr (Builder, Next_Bb);
Vals (3) := Adj;
BBs (3) := Adjust_Bb;
-- The Phi node
PositionBuilderAtEnd (Builder, Next_Bb);
Phi := BuildPhi (Builder, Res_Type, Empty_Cstring);
AddIncoming (Phi, Vals, BBs, Vals'Length);
return Phi;
end New_Smod;
type Dyadic_Builder_Acc is access
function (Builder : BuilderRef;
LHS : ValueRef; RHS : ValueRef; Name : Cstring)
return ValueRef;
pragma Convention (C, Dyadic_Builder_Acc);
function New_Dyadic_Op (Kind : ON_Dyadic_Op_Kind; Left, Right : O_Enode)
return O_Enode
is
Build : Dyadic_Builder_Acc := null;
Res : ValueRef := Null_ValueRef;
begin
if Unreach then
return O_Enode'(LLVM => Null_ValueRef, Etype => Left.Etype);
end if;
case Left.Etype.Kind is
when ON_Integer_Types =>
case Kind is
when ON_And =>
Build := BuildAnd'Access;
when ON_Or =>
Build := BuildOr'Access;
when ON_Xor =>
Build := BuildXor'Access;
when ON_Add_Ov =>
Build := BuildAdd'Access;
when ON_Sub_Ov =>
Build := BuildSub'Access;
when ON_Mul_Ov =>
Build := BuildMul'Access;
when ON_Div_Ov =>
case Left.Etype.Kind is
when ON_Unsigned_Type =>
Build := BuildUDiv'Access;
when ON_Signed_Type =>
Build := BuildSDiv'Access;
when others =>
null;
end case;
when ON_Mod_Ov
| ON_Rem_Ov => -- FIXME...
case Left.Etype.Kind is
when ON_Unsigned_Type =>
Build := BuildURem'Access;
when ON_Signed_Type =>
if Kind = ON_Rem_Ov then
Build := BuildSRem'Access;
else
Res := New_Smod
(Left.LLVM, Right.LLVM, Left.Etype.LLVM);
end if;
when others =>
null;
end case;
end case;
when ON_Float_Type =>
case Kind is
when ON_Add_Ov =>
Build := BuildFAdd'Access;
when ON_Sub_Ov =>
Build := BuildFSub'Access;
when ON_Mul_Ov =>
Build := BuildFMul'Access;
when ON_Div_Ov =>
Build := BuildFDiv'Access;
when others =>
null;
end case;
when others =>
null;
end case;
if Build /= null then
pragma Assert (Res = Null_ValueRef);
Res := Build.all (Builder, Left.LLVM, Right.LLVM, Empty_Cstring);
end if;
if Res = Null_ValueRef then
raise Program_Error with "Unimplemented New_Dyadic_Op "
& ON_Dyadic_Op_Kind'Image (Kind)
& " for type "
& ON_Type_Kind'Image (Left.Etype.Kind);
end if;
Set_Insn_Dbg (Res);
return O_Enode'(LLVM => Res, Etype => Left.Etype);
end New_Dyadic_Op;
--------------------
-- New_Monadic_Op --
--------------------
function New_Monadic_Op (Kind : ON_Monadic_Op_Kind; Operand : O_Enode)
return O_Enode
is
Res : ValueRef;
begin
if Unreach then
return O_Enode'(LLVM => Null_ValueRef, Etype => Operand.Etype);
end if;
case Operand.Etype.Kind is
when ON_Integer_Types =>
case Kind is
when ON_Not =>
Res := BuildNot (Builder, Operand.LLVM, Empty_Cstring);
when ON_Neg_Ov =>
Res := BuildNeg (Builder, Operand.LLVM, Empty_Cstring);
when ON_Abs_Ov =>
Res := BuildSelect
(Builder,
BuildICmp (Builder, IntSLT,
Operand.LLVM,
ConstInt (Get_LLVM_Type (Operand.Etype), 0, 0),
Empty_Cstring),
BuildNeg (Builder, Operand.LLVM, Empty_Cstring),
Operand.LLVM,
Empty_Cstring);
end case;
when ON_Float_Type =>
case Kind is
when ON_Not =>
raise Program_Error;
when ON_Neg_Ov =>
Res := BuildFNeg (Builder, Operand.LLVM, Empty_Cstring);
when ON_Abs_Ov =>
Res := BuildSelect
(Builder,
BuildFCmp (Builder, RealOLT,
Operand.LLVM,
ConstReal (Get_LLVM_Type (Operand.Etype), 0.0),
Empty_Cstring),
BuildFNeg (Builder, Operand.LLVM, Empty_Cstring),
Operand.LLVM,
Empty_Cstring);
end case;
when others =>
raise Program_Error;
end case;
if IsAInstruction (Res) /= Null_ValueRef then
Set_Insn_Dbg (Res);
end if;
return O_Enode'(LLVM => Res, Etype => Operand.Etype);
end New_Monadic_Op;
--------------------
-- New_Compare_Op --
--------------------
type Compare_Op_Entry is record
Signed_Pred : IntPredicate;
Unsigned_Pred : IntPredicate;
Real_Pred : RealPredicate;
end record;
type Compare_Op_Table_Type is array (ON_Compare_Op_Kind) of
Compare_Op_Entry;
Compare_Op_Table : constant Compare_Op_Table_Type :=
(ON_Eq => (IntEQ, IntEQ, RealOEQ),
ON_Neq => (IntNE, IntNE, RealONE),
ON_Le => (IntSLE, IntULE, RealOLE),
ON_Lt => (IntSLT, IntULT, RealOLT),
ON_Ge => (IntSGE, IntUGE, RealOGE),
ON_Gt => (IntSGT, IntUGT, RealOGT));
function New_Compare_Op
(Kind : ON_Compare_Op_Kind;
Left, Right : O_Enode;
Ntype : O_Tnode)
return O_Enode
is
Res : ValueRef;
begin
if Unreach then
return O_Enode'(LLVM => Null_ValueRef, Etype => Ntype);
end if;
case Left.Etype.Kind is
when ON_Unsigned_Type
| ON_Boolean_Type
| ON_Enum_Type
| ON_Access_Type
| ON_Incomplete_Access_Type =>
Res := BuildICmp (Builder, Compare_Op_Table (Kind).Unsigned_Pred,
Left.LLVM, Right.LLVM, Empty_Cstring);
when ON_Signed_Type =>
Res := BuildICmp (Builder, Compare_Op_Table (Kind).Signed_Pred,
Left.LLVM, Right.LLVM, Empty_Cstring);
when ON_Float_Type =>
Res := BuildFCmp (Builder, Compare_Op_Table (Kind).Real_Pred,
Left.LLVM, Right.LLVM, Empty_Cstring);
when ON_Array_Type
| ON_Array_Sub_Type
| ON_Record_Type
| ON_Incomplete_Record_Type
| ON_Union_Type
| ON_No_Type =>
raise Program_Error;
end case;
Set_Insn_Dbg (Res);
return O_Enode'(LLVM => Res, Etype => Ntype);
end New_Compare_Op;
-------------------------
-- New_Indexed_Element --
-------------------------
function New_Indexed_Element (Arr : O_Lnode; Index : O_Enode) return O_Lnode
is
Idx : constant ValueRefArray (1 .. 2) :=
(ConstInt (Int32Type, 0, 0),
Index.LLVM);
begin
return O_Lnode'
(Direct => False,
LLVM => BuildGEP (Builder, Arr.LLVM, Idx, Idx'Length, Empty_Cstring),
Ltype => Arr.Ltype.Arr_El_Type);
end New_Indexed_Element;
---------------
-- New_Slice --
---------------
function New_Slice (Arr : O_Lnode; Res_Type : O_Tnode; Index : O_Enode)
return O_Lnode
is
Idx : constant ValueRefArray (1 .. 2) :=
(ConstInt (Int32Type, 0, 0),
Index.LLVM);
Tmp : ValueRef;
begin
if Unreach then
Tmp := Null_ValueRef;
else
Tmp := BuildGEP (Builder, Arr.LLVM, Idx, Idx'Length, Empty_Cstring);
Tmp := BuildBitCast
(Builder, Tmp, PointerType (Get_LLVM_Type (Res_Type)),
Empty_Cstring);
end if;
return O_Lnode'(Direct => False, LLVM => Tmp, Ltype => Res_Type);
end New_Slice;
--------------------------
-- New_Selected_Element --
--------------------------
function New_Selected_Element (Rec : O_Lnode; El : O_Fnode)
return O_Lnode
is
Res : ValueRef;
begin
if Unreach then
Res := Null_ValueRef;
else
case El.Kind is
when OF_Record =>
declare
Idx : constant ValueRefArray (1 .. 2) :=
(ConstInt (Int32Type, 0, 0),
ConstInt (Int32Type, Unsigned_64 (El.Index), 0));
begin
Res := BuildGEP (Builder, Rec.LLVM, Idx, 2, Empty_Cstring);
end;
when OF_Union =>
Res := BuildBitCast (Builder,
Rec.LLVM, El.Ptr_Type, Empty_Cstring);
when OF_None =>
raise Program_Error;
end case;
end if;
return O_Lnode'(Direct => False, LLVM => Res, Ltype => El.Ftype);
end New_Selected_Element;
------------------------
-- New_Access_Element --
------------------------
function New_Access_Element (Acc : O_Enode) return O_Lnode
is
Res : ValueRef;
begin
case Acc.Etype.Kind is
when ON_Access_Type =>
Res := Acc.LLVM;
when ON_Incomplete_Access_Type =>
-- Unwrap the structure
declare
Idx : constant ValueRefArray (1 .. 2) :=
(ConstInt (Int32Type, 0, 0), ConstInt (Int32Type, 0, 0));
begin
Res := BuildGEP (Builder, Acc.LLVM, Idx, 2, Empty_Cstring);
end;
when others =>
raise Program_Error;
end case;
return O_Lnode'(Direct => False,
LLVM => Res,
Ltype => Acc.Etype.Acc_Type);
end New_Access_Element;
--------------------
-- New_Convert_Ov --
--------------------
function New_Convert_Ov (Val : O_Enode; Rtype : O_Tnode) return O_Enode
is
Res : ValueRef := Null_ValueRef;
begin
if Rtype = Val.Etype then
-- Convertion to itself: nothing to do.
return Val;
end if;
if Rtype.LLVM = Val.Etype.LLVM then
-- Same underlying LLVM type: no conversion but keep new type in
-- case of change of sign.
return O_Enode'(LLVM => Val.LLVM, Etype => Rtype);
end if;
if Unreach then
return O_Enode'(LLVM => Val.LLVM, Etype => Rtype);
end if;
case Rtype.Kind is
when ON_Integer_Types =>
case Val.Etype.Kind is
when ON_Integer_Types =>
-- Int to Int
if Val.Etype.Scal_Size > Rtype.Scal_Size then
-- Truncate
Res := BuildTrunc
(Builder, Val.LLVM, Get_LLVM_Type (Rtype),
Empty_Cstring);
elsif Val.Etype.Scal_Size < Rtype.Scal_Size then
if Val.Etype.Kind = ON_Signed_Type then
Res := BuildSExt
(Builder, Val.LLVM, Get_LLVM_Type (Rtype),
Empty_Cstring);
else
-- Unsigned, enum
Res := BuildZExt
(Builder, Val.LLVM, Get_LLVM_Type (Rtype),
Empty_Cstring);
end if;
else
Res := BuildBitCast
(Builder, Val.LLVM, Get_LLVM_Type (Rtype),
Empty_Cstring);
end if;
when ON_Float_Type =>
-- Float to Int
if Rtype.Kind = ON_Signed_Type then
-- FPtoSI rounds toward zero, so we need to add
-- copysign (0.5, x).
declare
V : ValueRef;
begin
V := BuildCall (Builder, Copysign_Fun,
(Fp_0_5, Val.LLVM), 2, Empty_Cstring);
V := BuildFAdd (Builder, Val.LLVM, V, Empty_Cstring);
Res := BuildFPToSI
(Builder, V, Get_LLVM_Type (Rtype), Empty_Cstring);
end;
end if;
when others =>
null;
end case;
when ON_Float_Type =>
if Val.Etype.Kind = ON_Signed_Type then
Res := BuildSIToFP
(Builder, Val.LLVM, Get_LLVM_Type (Rtype),
Empty_Cstring);
elsif Val.Etype.Kind = ON_Unsigned_Type then
Res := BuildUIToFP
(Builder, Val.LLVM, Get_LLVM_Type (Rtype),
Empty_Cstring);
end if;
when ON_Access_Type
| ON_Incomplete_Access_Type =>
if GetTypeKind (TypeOf (Val.LLVM)) /= PointerTypeKind then
raise Program_Error;
end if;
Res := BuildBitCast (Builder, Val.LLVM, Get_LLVM_Type (Rtype),
Empty_Cstring);
when others =>
null;
end case;
if Res /= Null_ValueRef then
-- FIXME: only if insn was generated
-- Set_Insn_Dbg (Res);
return O_Enode'(LLVM => Res, Etype => Rtype);
else
raise Program_Error with "New_Convert_Ov: not implemented for "
& ON_Type_Kind'Image (Val.Etype.Kind)
& " -> "
& ON_Type_Kind'Image (Rtype.Kind);
end if;
end New_Convert_Ov;
-----------------
-- New_Address --
-----------------
function New_Address (Lvalue : O_Lnode; Atype : O_Tnode) return O_Enode is
begin
return New_Unchecked_Address (Lvalue, Atype);
end New_Address;
---------------------------
-- New_Unchecked_Address --
---------------------------
function New_Unchecked_Address (Lvalue : O_Lnode; Atype : O_Tnode)
return O_Enode
is
Res : ValueRef;
begin
if Unreach then
Res := Null_ValueRef;
else
Res := BuildBitCast (Builder, Lvalue.LLVM, Get_LLVM_Type (Atype),
Empty_Cstring);
end if;
return O_Enode'(LLVM => Res, Etype => Atype);
end New_Unchecked_Address;
---------------
-- New_Value --
---------------
function New_Value (Lvalue : O_Lnode) return O_Enode
is
Res : ValueRef;
begin
if Unreach then
Res := Null_ValueRef;
else
Res := Lvalue.LLVM;
if not Lvalue.Direct then
Res := BuildLoad (Builder, Res, Empty_Cstring);
Set_Insn_Dbg (Res);
end if;
end if;
return O_Enode'(LLVM => Res, Etype => Lvalue.Ltype);
end New_Value;
-------------------
-- New_Obj_Value --
-------------------
function New_Obj_Value (Obj : O_Dnode) return O_Enode is
begin
return New_Value (New_Obj (Obj));
end New_Obj_Value;
-------------
-- New_Obj --
-------------
function New_Obj (Obj : O_Dnode) return O_Lnode is
begin
if Unreach then
return O_Lnode'(Direct => False,
LLVM => Null_ValueRef,
Ltype => Obj.Dtype);
end if;
case Obj.Kind is
when ON_Const_Decl
| ON_Var_Decl
| ON_Local_Decl =>
return O_Lnode'(Direct => False,
LLVM => Obj.LLVM,
Ltype => Obj.Dtype);
when ON_Interface_Decl =>
if Flag_Debug then
-- The argument was allocated.
return O_Lnode'(Direct => False,
LLVM => Obj.Inter.Ival,
Ltype => Obj.Dtype);
else
return O_Lnode'(Direct => True,
LLVM => Obj.Inter.Ival,
Ltype => Obj.Dtype);
end if;
when ON_Type_Decl
| ON_Completed_Type_Decl
| ON_Subprg_Decl
| ON_No_Decl =>
raise Program_Error;
end case;
end New_Obj;
----------------
-- New_Alloca --
----------------
function New_Alloca (Rtype : O_Tnode; Size : O_Enode) return O_Enode
is
Res : ValueRef;
begin
if Unreach then
Res := Null_ValueRef;
else
if Cur_Declare_Block.Stack_Value = Null_ValueRef
and then Cur_Declare_Block.Prev /= null
then
-- Save stack pointer at entry of block
declare
First_Insn : ValueRef;
Bld : BuilderRef;
begin
First_Insn := GetFirstInstruction (Cur_Declare_Block.Stmt_Bb);
if First_Insn = Null_ValueRef then
-- Alloca is the first instruction, save the stack now.
Bld := Builder;
else
-- There are instructions before alloca, insert the save
-- at the beginning.
PositionBuilderBefore (Extra_Builder, First_Insn);
Bld := Extra_Builder;
end if;
Cur_Declare_Block.Stack_Value :=
BuildCall (Bld, Stacksave_Fun,
(1 .. 0 => Null_ValueRef), 0, Empty_Cstring);
end;
end if;
Res := BuildArrayAlloca
(Builder, Int8Type, Size.LLVM, Empty_Cstring);
Set_Insn_Dbg (Res);
Res := BuildBitCast
(Builder, Res, Get_LLVM_Type (Rtype), Empty_Cstring);
Set_Insn_Dbg (Res);
end if;
return O_Enode'(LLVM => Res, Etype => Rtype);
end New_Alloca;
-------------------
-- New_Type_Decl --
-------------------
function Add_Dbg_Basic_Type (Id : O_Ident; Btype : O_Tnode; Enc : Natural)
return ValueRef
is
Vals : ValueRefArray (0 .. 9);
begin
Vals := (ConstInt (Int32Type, DW_TAG_Base_Type, 0),
Null_ValueRef,
Null_ValueRef,
MDString (Id),
ConstInt (Int32Type, 0, 0), -- linenum
Dbg_Size (Btype.LLVM),
Dbg_Align (Btype.LLVM),
ConstInt (Int32Type, 0, 0), -- Offset
ConstInt (Int32Type, 0, 0), -- Flags
ConstInt (Int32Type, Unsigned_64 (Enc), 0)); -- Encoding
return MDNode (Vals, Vals'Length);
end Add_Dbg_Basic_Type;
function Add_Dbg_Enum_Type (Id : O_Ident; Etype : O_Tnode) return ValueRef
is
Vals : ValueRefArray (0 .. 14);
begin
Vals := (ConstInt (Int32Type, DW_TAG_Enumeration_Type, 0),
Dbg_Current_Filedir,
Null_ValueRef, -- context
MDString (Id),
Dbg_Line,
Dbg_Size (Etype.LLVM),
Dbg_Align (Etype.LLVM),
ConstInt (Int32Type, 0, 0), -- Offset
ConstInt (Int32Type, 0, 0), -- Flags
Null_ValueRef,
Get_Value (Enum_Nodes),
ConstInt (Int32Type, 0, 0),
Null_ValueRef,
Null_ValueRef,
Null_ValueRef); -- Runtime lang
Clear (Enum_Nodes);
return MDNode (Vals, Vals'Length);
end Add_Dbg_Enum_Type;
function Add_Dbg_Pointer_Type
(Id : O_Ident; Ptype : O_Tnode; Designated_Dbg : ValueRef)
return ValueRef
is
Vals : ValueRefArray (0 .. 9);
begin
Vals := (ConstInt (Int32Type, DW_TAG_Pointer_Type, 0),
Dbg_Current_Filedir,
Null_ValueRef, -- context
MDString (Id),
Dbg_Line,
Dbg_Size (Ptype.LLVM),
Dbg_Align (Ptype.LLVM),
ConstInt (Int32Type, 0, 0), -- Offset
ConstInt (Int32Type, 1024, 0), -- Flags
Designated_Dbg);
return MDNode (Vals, Vals'Length);
end Add_Dbg_Pointer_Type;
function Add_Dbg_Pointer_Type (Id : O_Ident; Ptype : O_Tnode)
return ValueRef is
begin
pragma Assert (Ptype.Acc_Type /= null);
pragma Assert (Ptype.Acc_Type.Dbg /= Null_ValueRef);
return Add_Dbg_Pointer_Type (Id, Ptype, Ptype.Acc_Type.Dbg);
end Add_Dbg_Pointer_Type;
function Add_Dbg_Incomplete_Pointer_Type (Id : O_Ident; Ptype : O_Tnode)
return ValueRef is
begin
return Add_Dbg_Pointer_Type (Id, Ptype, Null_ValueRef);
end Add_Dbg_Incomplete_Pointer_Type;
function Add_Dbg_Record_Type
(Id : O_Ident; Rtype : O_Tnode; Tag : Unsigned_64) return ValueRef
is
Vals : ValueRefArray (0 .. 14);
begin
Vals := (ConstInt (Int32Type, Tag, 0),
Dbg_Current_Filedir,
Null_ValueRef, -- context
MDString (Id),
Dbg_Line,
Null_ValueRef, -- 5: Size
Null_ValueRef, -- 6: Align
ConstInt (Int32Type, 0, 0), -- Offset
ConstInt (Int32Type, 1024, 0), -- Flags
Null_ValueRef,
Null_ValueRef, -- 10
ConstInt (Int32Type, 0, 0), -- Runtime lang
Null_ValueRef, -- Vtable Holder
Null_ValueRef, -- ?
Null_ValueRef); -- Uniq Id
if Rtype /= O_Tnode_Null then
Vals (5) := Dbg_Size (Rtype.LLVM);
Vals (6) := Dbg_Align (Rtype.LLVM);
Vals (10) := Rtype.Dbg;
end if;
return MDNode (Vals, Vals'Length);
end Add_Dbg_Record_Type;
procedure New_Type_Decl (Ident : O_Ident; Atype : O_Tnode) is
begin
-- Create the incomplete structure. This is the only way in LLVM to
-- build recursive types.
case Atype.Kind is
when ON_Incomplete_Record_Type =>
Atype.LLVM :=
StructCreateNamed (GetGlobalContext, Get_Cstring (Ident));
when ON_Incomplete_Access_Type =>
Atype.LLVM := PointerType
(StructCreateNamed (GetGlobalContext, Get_Cstring (Ident)));
when others =>
null;
end case;
-- Emit debug info.
if Flag_Debug then
case Atype.Kind is
when ON_Unsigned_Type =>
Atype.Dbg := Add_Dbg_Basic_Type (Ident, Atype, DW_ATE_unsigned);
when ON_Signed_Type =>
Atype.Dbg := Add_Dbg_Basic_Type (Ident, Atype, DW_ATE_signed);
when ON_Float_Type =>
Atype.Dbg := Add_Dbg_Basic_Type (Ident, Atype, DW_ATE_float);
when ON_Enum_Type =>
Atype.Dbg := Add_Dbg_Enum_Type (Ident, Atype);
when ON_Boolean_Type =>
Atype.Dbg := Add_Dbg_Enum_Type (Ident, Atype);
when ON_Access_Type =>
Atype.Dbg := Add_Dbg_Pointer_Type (Ident, Atype);
when ON_Incomplete_Access_Type =>
Atype.Dbg := Add_Dbg_Incomplete_Pointer_Type (Ident, Atype);
when ON_Record_Type =>
Atype.Dbg := Add_Dbg_Record_Type
(Ident, Atype, DW_TAG_Structure_Type);
when ON_Incomplete_Record_Type =>
Atype.Dbg := Add_Dbg_Record_Type
(Ident, O_Tnode_Null, DW_TAG_Structure_Type);
when ON_Array_Type
| ON_Array_Sub_Type =>
-- FIXME: typedef
null;
when ON_Union_Type =>
Atype.Dbg := Add_Dbg_Record_Type
(Ident, Atype, DW_TAG_Union_Type);
when ON_No_Type =>
raise Program_Error;
end case;
end if;
end New_Type_Decl;
-----------------------------
-- New_Debug_Filename_Decl --
-----------------------------
procedure New_Debug_Filename_Decl (Filename : String) is
Vals : ValueRefArray (1 .. 2);
begin
if Flag_Debug_Line then
Vals := (MDString (Filename),
MDString (Current_Directory));
Dbg_Current_Filedir := MDNode (Vals, 2);
Vals := (ConstInt (Int32Type, DW_TAG_File_Type, 0),
Dbg_Current_Filedir);
Dbg_Current_File := MDNode (Vals, 2);
end if;
end New_Debug_Filename_Decl;
-------------------------
-- New_Debug_Line_Decl --
-------------------------
procedure New_Debug_Line_Decl (Line : Natural) is
begin
Dbg_Current_Line := unsigned (Line);
end New_Debug_Line_Decl;
----------------------------
-- New_Debug_Comment_Decl --
----------------------------
procedure New_Debug_Comment_Decl (Comment : String) is
begin
null;
end New_Debug_Comment_Decl;
--------------------
-- New_Const_Decl --
--------------------
procedure Dbg_Add_Global_Var (Id : O_Ident;
Atype : O_Tnode;
Storage : O_Storage;
Decl : O_Dnode)
is
pragma Assert (Atype.Dbg /= Null_ValueRef);
Vals : ValueRefArray (0 .. 12);
Name : constant ValueRef := MDString (Id);
Is_Local : constant Boolean := Storage = O_Storage_Private;
Is_Def : constant Boolean := Storage /= O_Storage_External;
begin
Vals :=
(ConstInt (Int32Type, DW_TAG_Variable, 0),
Null_ValueRef,
Null_ValueRef, -- context
Name,
Name,
Null_ValueRef, -- linkageName
Dbg_Current_File,
Dbg_Line,
Atype.Dbg,
ConstInt (Int1Type, Boolean'Pos (Is_Local), 0), -- isLocal
ConstInt (Int1Type, Boolean'Pos (Is_Def), 0), -- isDef
Decl.LLVM,
Null_ValueRef);
Append (Global_Nodes, MDNode (Vals, Vals'Length));
end Dbg_Add_Global_Var;
procedure New_Const_Decl
(Res : out O_Dnode; Ident : O_Ident; Storage : O_Storage; Atype : O_Tnode)
is
Decl : ValueRef;
begin
if Storage = O_Storage_External then
Decl := GetNamedGlobal (Module, Get_Cstring (Ident));
else
Decl := Null_ValueRef;
end if;
if Decl = Null_ValueRef then
Decl := AddGlobal
(Module, Get_LLVM_Type (Atype), Get_Cstring (Ident));
end if;
Res := (Kind => ON_Const_Decl, LLVM => Decl, Dtype => Atype);
SetGlobalConstant (Res.LLVM, 1);
if Storage = O_Storage_Private then
SetLinkage (Res.LLVM, InternalLinkage);
end if;
if Flag_Debug then
Dbg_Add_Global_Var (Ident, Atype, Storage, Res);
end if;
end New_Const_Decl;
-----------------------
-- Start_Const_Value --
-----------------------
procedure Start_Const_Value (Const : in out O_Dnode) is
begin
null;
end Start_Const_Value;
------------------------
-- Finish_Const_Value --
------------------------
procedure Finish_Const_Value (Const : in out O_Dnode; Val : O_Cnode) is
begin
SetInitializer (Const.LLVM, Val.LLVM);
end Finish_Const_Value;
------------------
-- New_Var_Decl --
------------------
procedure New_Var_Decl
(Res : out O_Dnode; Ident : O_Ident; Storage : O_Storage; Atype : O_Tnode)
is
Decl : ValueRef;
begin
if Storage = O_Storage_Local then
Res := (Kind => ON_Local_Decl,
LLVM => BuildAlloca
(Decl_Builder, Get_LLVM_Type (Atype), Get_Cstring (Ident)),
Dtype => Atype);
if Flag_Debug then
Dbg_Create_Variable (DW_TAG_Auto_Variable,
Ident, Atype, 0, Res.LLVM);
end if;
else
if Storage = O_Storage_External then
Decl := GetNamedGlobal (Module, Get_Cstring (Ident));
else
Decl := Null_ValueRef;
end if;
if Decl = Null_ValueRef then
Decl := AddGlobal
(Module, Get_LLVM_Type (Atype), Get_Cstring (Ident));
end if;
Res := (Kind => ON_Var_Decl, LLVM => Decl, Dtype => Atype);
-- Set linkage.
case Storage is
when O_Storage_Private =>
SetLinkage (Res.LLVM, InternalLinkage);
when O_Storage_Public
| O_Storage_External =>
null;
when O_Storage_Local =>
raise Program_Error;
end case;
-- Set initializer.
case Storage is
when O_Storage_Private
| O_Storage_Public =>
SetInitializer (Res.LLVM, ConstNull (Get_LLVM_Type (Atype)));
when O_Storage_External =>
null;
when O_Storage_Local =>
raise Program_Error;
end case;
if Flag_Debug then
Dbg_Add_Global_Var (Ident, Atype, Storage, Res);
end if;
end if;
end New_Var_Decl;
-------------------------
-- Start_Function_Decl --
-------------------------
procedure Start_Function_Decl
(Interfaces : out O_Inter_List;
Ident : O_Ident;
Storage : O_Storage;
Rtype : O_Tnode)
is
begin
Interfaces := (Ident => Ident,
Storage => Storage,
Res_Type => Rtype,
Nbr_Inter => 0,
First_Inter => null,
Last_Inter => null);
end Start_Function_Decl;
--------------------------
-- Start_Procedure_Decl --
--------------------------
procedure Start_Procedure_Decl
(Interfaces : out O_Inter_List;
Ident : O_Ident;
Storage : O_Storage)
is
begin
Interfaces := (Ident => Ident,
Storage => Storage,
Res_Type => O_Tnode_Null,
Nbr_Inter => 0,
First_Inter => null,
Last_Inter => null);
end Start_Procedure_Decl;
------------------------
-- New_Interface_Decl --
------------------------
procedure New_Interface_Decl
(Interfaces : in out O_Inter_List;
Res : out O_Dnode;
Ident : O_Ident;
Atype : O_Tnode)
is
Inter : constant O_Inter_Acc := new O_Inter'(Itype => Atype,
Ival => Null_ValueRef,
Ident => Ident,
Next => null);
begin
Res := (Kind => ON_Interface_Decl,
Dtype => Atype,
LLVM => Null_ValueRef,
Inter => Inter);
Interfaces.Nbr_Inter := Interfaces.Nbr_Inter + 1;
if Interfaces.First_Inter = null then
Interfaces.First_Inter := Inter;
else
Interfaces.Last_Inter.Next := Inter;
end if;
Interfaces.Last_Inter := Inter;
end New_Interface_Decl;
----------------------------
-- Finish_Subprogram_Decl --
----------------------------
procedure Finish_Subprogram_Decl
(Interfaces : in out O_Inter_List;
Res : out O_Dnode)
is
Count : constant unsigned := unsigned (Interfaces.Nbr_Inter);
Inter : O_Inter_Acc;
Types : TypeRefArray (1 .. Count);
Ftype : TypeRef;
Rtype : TypeRef;
Decl : ValueRef;
Id : constant Cstring := Get_Cstring (Interfaces.Ident);
begin
-- Fill Types (from interfaces list)
Inter := Interfaces.First_Inter;
for I in 1 .. Count loop
Types (I) := Inter.Itype.LLVM;
Inter := Inter.Next;
end loop;
-- Build function type.
if Interfaces.Res_Type = O_Tnode_Null then
Rtype := VoidType;
else
Rtype := Interfaces.Res_Type.LLVM;
end if;
Ftype := FunctionType (Rtype, Types, Count, 0);
if Interfaces.Storage = O_Storage_External then
Decl := GetNamedFunction (Module, Id);
else
Decl := Null_ValueRef;
end if;
if Decl = Null_ValueRef then
Decl := AddFunction (Module, Id, Ftype);
AddFunctionAttr (Decl, NoUnwindAttribute + UWTable);
end if;
Res := (Kind => ON_Subprg_Decl,
Dtype => Interfaces.Res_Type,
Subprg_Id => Interfaces.Ident,
Nbr_Args => Count,
Subprg_Inters => Interfaces.First_Inter,
LLVM => Decl);
SetFunctionCallConv (Res.LLVM, CCallConv);
-- Translate interfaces.
Inter := Interfaces.First_Inter;
for I in 1 .. Count loop
Inter.Ival := GetParam (Res.LLVM, I - 1);
SetValueName (Inter.Ival, Get_Cstring (Inter.Ident));
Inter := Inter.Next;
end loop;
end Finish_Subprogram_Decl;
---------------------------
-- Start_Subprogram_Body --
---------------------------
procedure Start_Subprogram_Body (Func : O_Dnode)
is
-- Basic block at function entry that contains all the declarations.
Decl_BB : BasicBlockRef;
begin
if Cur_Func /= Null_ValueRef then
-- No support for nested subprograms.
raise Program_Error;
end if;
Cur_Func := Func.LLVM;
Cur_Func_Decl := Func;
Unreach := False;
Decl_BB := AppendBasicBlock (Cur_Func, Empty_Cstring);
PositionBuilderAtEnd (Decl_Builder, Decl_BB);
Create_Declare_Block;
PositionBuilderAtEnd (Builder, Cur_Declare_Block.Stmt_Bb);
if Flag_Debug_Line then
declare
Type_Vals : ValueRefArray (0 .. Func.Nbr_Args);
Types : ValueRef;
Vals : ValueRefArray (0 .. 14);
Arg : O_Inter_Acc;
Subprg_Type : ValueRef;
Subprg_Vals : ValueRefArray (0 .. 19);
Name : ValueRef;
begin
if Flag_Debug then
-- Create a full subroutine_type.
Arg := Func.Subprg_Inters;
if Func.Dtype /= O_Tnode_Null then
Type_Vals (0) := Func.Dtype.Dbg;
else
-- Void
Type_Vals (0) := Null_ValueRef;
end if;
for I in 1 .. Type_Vals'Last loop
Type_Vals (I) := Arg.Itype.Dbg;
Arg := Arg.Next;
end loop;
Types := MDNode (Type_Vals, Type_Vals'Length);
else
-- Create a dummy subroutine_type.
-- FIXME: create only one subroutine_type ?
Type_Vals (0) := ConstInt (Int32Type, 0, 0);
Types := MDNode (Type_Vals, 1);
end if;
Vals :=
(ConstInt (Int32Type, DW_TAG_Subroutine_Type, 0),
ConstInt (Int32Type, 0, 0), -- 1 ??
Null_ValueRef, -- 2 Context
MDString (Empty_Cstring, 0), -- 3 name
ConstInt (Int32Type, 0, 0), -- 4 linenum
ConstInt (Int64Type, 0, 0), -- 5 size
ConstInt (Int64Type, 0, 0), -- 6 align
ConstInt (Int64Type, 0, 0), -- 7 offset
ConstInt (Int32Type, 0, 0), -- 8 flags
Null_ValueRef, -- 9 derived from
Types, -- 10 type
ConstInt (Int32Type, 0, 0), -- 11 runtime lang
Null_ValueRef, -- 12 containing type
Null_ValueRef, -- 13 template params
Null_ValueRef); -- 14 ??
Subprg_Type := MDNode (Vals, Vals'Length);
-- Create TAG_subprogram.
Name := MDString (Func.Subprg_Id);
Subprg_Vals :=
(ConstInt (Int32Type, DW_TAG_Subprogram, 0),
Dbg_Current_Filedir, -- 1 loc
Dbg_Current_File, -- 2 context
Name, -- 3 name
Name, -- 4 display name
Null_ValueRef, -- 5 linkage name
Dbg_Line, -- 6 line num
Subprg_Type, -- 7 type
ConstInt (Int1Type, 0, 0), -- 8 islocal (FIXME)
ConstInt (Int1Type, 1, 0), -- 9 isdef (FIXME)
ConstInt (Int32Type, 0, 0), -- 10 virtuality
ConstInt (Int32Type, 0, 0), -- 11 virtual index
Null_ValueRef, -- 12 containing type
ConstInt (Int32Type, 256, 0), -- 13 flags: prototyped
ConstInt (Int1Type, 0, 0), -- 14 isOpt (FIXME)
Cur_Func, -- 15 function
Null_ValueRef, -- 16 template param
Null_ValueRef, -- 17 function decl
Null_ValueRef, -- 18 variables ???
Dbg_Line); -- 19 scope ln
Cur_Declare_Block.Dbg_Scope :=
MDNode (Subprg_Vals, Subprg_Vals'Length);
Append (Subprg_Nodes, Cur_Declare_Block.Dbg_Scope);
Dbg_Current_Scope := Cur_Declare_Block.Dbg_Scope;
-- Kill current debug metadata, as it is not upto date.
Dbg_Insn_MD := Null_ValueRef;
end;
end if;
if Flag_Debug then
-- Create local variables for arguments.
declare
Arg : O_Inter_Acc;
Tmp : ValueRef;
St : ValueRef;
pragma Unreferenced (St);
Argno : Natural;
begin
Arg := Func.Subprg_Inters;
Argno := 1;
while Arg /= null loop
Tmp := BuildAlloca (Decl_Builder, Get_LLVM_Type (Arg.Itype),
Empty_Cstring);
Dbg_Create_Variable (DW_TAG_Arg_Variable,
Arg.Ident, Arg.Itype, Argno, Tmp);
St := BuildStore (Decl_Builder, Arg.Ival, Tmp);
Arg.Ival := Tmp;
Arg := Arg.Next;
Argno := Argno + 1;
end loop;
end;
end if;
end Start_Subprogram_Body;
----------------------------
-- Finish_Subprogram_Body --
----------------------------
procedure Finish_Subprogram_Body is
Ret : ValueRef;
pragma Unreferenced (Ret);
begin
-- Add a jump from the declare basic block to the first statement BB.
Ret := BuildBr (Decl_Builder, Cur_Declare_Block.Stmt_Bb);
-- Terminate the statement BB.
if not Unreach then
if Cur_Func_Decl.Dtype = O_Tnode_Null then
Ret := BuildRetVoid (Builder);
else
Ret := BuildUnreachable (Builder);
end if;
end if;
Destroy_Declare_Block;
Cur_Func := Null_ValueRef;
Dbg_Current_Scope := Null_ValueRef;
Dbg_Insn_MD := Null_ValueRef;
end Finish_Subprogram_Body;
-------------------------
-- New_Debug_Line_Stmt --
-------------------------
procedure New_Debug_Line_Stmt (Line : Natural) is
begin
Dbg_Current_Line := unsigned (Line);
end New_Debug_Line_Stmt;
----------------------------
-- New_Debug_Comment_Stmt --
----------------------------
procedure New_Debug_Comment_Stmt (Comment : String) is
begin
null;
end New_Debug_Comment_Stmt;
------------------------
-- Start_Declare_Stmt --
------------------------
procedure Start_Declare_Stmt
is
Br : ValueRef;
pragma Unreferenced (Br);
begin
Create_Declare_Block;
if Unreach then
return;
end if;
-- Add a jump to the new BB.
Br := BuildBr (Builder, Cur_Declare_Block.Stmt_Bb);
PositionBuilderAtEnd (Builder, Cur_Declare_Block.Stmt_Bb);
if Flag_Debug then
declare
Vals : ValueRefArray (0 .. 5);
begin
Vals :=
(ConstInt (Int32Type, DW_TAG_Lexical_Block, 0),
Dbg_Current_Filedir, -- 1 loc
Dbg_Current_Scope, -- 2 context
Dbg_Line, -- 3 line num
ConstInt (Int32Type, 0, 0), -- 4 col
ConstInt (Int32Type, Scope_Uniq_Id, 0));
Cur_Declare_Block.Dbg_Scope := MDNode (Vals, Vals'Length);
Dbg_Current_Scope := Cur_Declare_Block.Dbg_Scope;
Scope_Uniq_Id := Scope_Uniq_Id + 1;
end;
end if;
end Start_Declare_Stmt;
-------------------------
-- Finish_Declare_Stmt --
-------------------------
procedure Finish_Declare_Stmt
is
Bb : BasicBlockRef;
Br : ValueRef;
Tmp : ValueRef;
pragma Unreferenced (Br, Tmp);
begin
if not Unreach then
-- Create a basic block for the statements after the declare.
Bb := AppendBasicBlock (Cur_Func, Empty_Cstring);
if Cur_Declare_Block.Stack_Value /= Null_ValueRef then
-- Restore stack pointer.
Tmp := BuildCall (Builder, Stackrestore_Fun,
(1 .. 1 => Cur_Declare_Block.Stack_Value), 1,
Empty_Cstring);
end if;
-- Execution will continue on the next statement
Br := BuildBr (Builder, Bb);
PositionBuilderAtEnd (Builder, Bb);
end if;
-- Do not reset Unread.
Destroy_Declare_Block;
Dbg_Current_Scope := Cur_Declare_Block.Dbg_Scope;
end Finish_Declare_Stmt;
-----------------------
-- Start_Association --
-----------------------
procedure Start_Association (Assocs : out O_Assoc_List; Subprg : O_Dnode)
is
begin
Assocs := (Subprg => Subprg,
Idx => 0,
Vals => new ValueRefArray (1 .. Subprg.Nbr_Args));
end Start_Association;
---------------------
-- New_Association --
---------------------
procedure New_Association (Assocs : in out O_Assoc_List; Val : O_Enode) is
begin
Assocs.Idx := Assocs.Idx + 1;
Assocs.Vals (Assocs.Idx) := Val.LLVM;
end New_Association;
-----------------------
-- New_Function_Call --
-----------------------
function New_Function_Call (Assocs : O_Assoc_List) return O_Enode
is
Res : ValueRef;
Old_Vals : ValueRefArray_Acc;
begin
if not Unreach then
Res := BuildCall (Builder, Assocs.Subprg.LLVM,
Assocs.Vals.all, Assocs.Vals'Last, Empty_Cstring);
Old_Vals := Assocs.Vals;
Free (Old_Vals);
Set_Insn_Dbg (Res);
else
Res := Null_ValueRef;
end if;
return O_Enode'(LLVM => Res, Etype => Assocs.Subprg.Dtype);
end New_Function_Call;
------------------------
-- New_Procedure_Call --
------------------------
procedure New_Procedure_Call (Assocs : in out O_Assoc_List)
is
Res : ValueRef;
begin
if not Unreach then
Res := BuildCall (Builder, Assocs.Subprg.LLVM,
Assocs.Vals.all, Assocs.Vals'Last, Empty_Cstring);
Set_Insn_Dbg (Res);
end if;
Free (Assocs.Vals);
end New_Procedure_Call;
---------------------
-- New_Assign_Stmt --
---------------------
procedure New_Assign_Stmt (Target : O_Lnode; Value : O_Enode)
is
Res : ValueRef;
begin
if Target.Direct then
raise Program_Error;
end if;
if not Unreach then
Res := BuildStore (Builder, Value.LLVM, Target.LLVM);
Set_Insn_Dbg (Res);
end if;
end New_Assign_Stmt;
---------------------
-- New_Return_Stmt --
---------------------
procedure New_Return_Stmt (Value : O_Enode) is
Res : ValueRef;
begin
if Unreach then
return;
end if;
Res := BuildRet (Builder, Value.LLVM);
Set_Insn_Dbg (Res);
Unreach := True;
end New_Return_Stmt;
---------------------
-- New_Return_Stmt --
---------------------
procedure New_Return_Stmt is
Res : ValueRef;
begin
if Unreach then
return;
end if;
Res := BuildRetVoid (Builder);
Set_Insn_Dbg (Res);
Unreach := True;
end New_Return_Stmt;
-------------------
-- Start_If_Stmt --
-------------------
procedure Start_If_Stmt (Block : in out O_If_Block; Cond : O_Enode) is
Res : ValueRef;
Bb_Then : BasicBlockRef;
begin
if Unreach then
Block := (Bb => Null_BasicBlockRef);
return;
end if;
Bb_Then := AppendBasicBlock (Cur_Func, Empty_Cstring);
Block := (Bb => AppendBasicBlock (Cur_Func, Empty_Cstring));
Res := BuildCondBr (Builder, Cond.LLVM, Bb_Then, Block.Bb);
Set_Insn_Dbg (Res);
PositionBuilderAtEnd (Builder, Bb_Then);
end Start_If_Stmt;
-------------------
-- New_Else_Stmt --
-------------------
procedure New_Else_Stmt (Block : in out O_If_Block) is
Res : ValueRef;
pragma Unreferenced (Res);
Bb_Next : BasicBlockRef;
begin
if not Unreach then
Bb_Next := AppendBasicBlock (Cur_Func, Empty_Cstring);
Res := BuildBr (Builder, Bb_Next);
else
if Block.Bb = Null_BasicBlockRef then
-- The IF statement was unreachable. Else part is also
-- unreachable.
return;
end if;
Bb_Next := Null_BasicBlockRef;
end if;
PositionBuilderAtEnd (Builder, Block.Bb);
Block := (Bb => Bb_Next);
Unreach := False;
end New_Else_Stmt;
--------------------
-- Finish_If_Stmt --
--------------------
procedure Finish_If_Stmt (Block : in out O_If_Block) is
Res : ValueRef;
pragma Unreferenced (Res);
Bb_Next : BasicBlockRef;
begin
if not Unreach then
-- The branch can continue.
if Block.Bb = Null_BasicBlockRef then
Bb_Next := AppendBasicBlock (Cur_Func, Empty_Cstring);
else
Bb_Next := Block.Bb;
end if;
Res := BuildBr (Builder, Bb_Next);
PositionBuilderAtEnd (Builder, Bb_Next);
else
-- The branch doesn't continue.
if Block.Bb /= Null_BasicBlockRef then
-- There is a fall-through (either from the then branch, or
-- there is no else).
Unreach := False;
PositionBuilderAtEnd (Builder, Block.Bb);
else
Unreach := True;
end if;
end if;
end Finish_If_Stmt;
---------------------
-- Start_Loop_Stmt --
---------------------
procedure Start_Loop_Stmt (Label : out O_Snode)
is
Res : ValueRef;
pragma Unreferenced (Res);
begin
-- FIXME: check Unreach
Label := (Bb_Entry => AppendBasicBlock (Cur_Func, Empty_Cstring),
Bb_Exit => AppendBasicBlock (Cur_Func, Empty_Cstring));
Res := BuildBr (Builder, Label.Bb_Entry);
PositionBuilderAtEnd (Builder, Label.Bb_Entry);
end Start_Loop_Stmt;
----------------------
-- Finish_Loop_Stmt --
----------------------
procedure Finish_Loop_Stmt (Label : in out O_Snode) is
Res : ValueRef;
pragma Unreferenced (Res);
begin
if not Unreach then
Res := BuildBr (Builder, Label.Bb_Entry);
end if;
if Label.Bb_Exit /= Null_BasicBlockRef then
-- FIXME: always true...
PositionBuilderAtEnd (Builder, Label.Bb_Exit);
Unreach := False;
else
Unreach := True;
end if;
end Finish_Loop_Stmt;
-------------------
-- New_Exit_Stmt --
-------------------
procedure New_Exit_Stmt (L : O_Snode) is
Res : ValueRef;
begin
if not Unreach then
Res := BuildBr (Builder, L.Bb_Exit);
Set_Insn_Dbg (Res);
Unreach := True;
end if;
end New_Exit_Stmt;
-------------------
-- New_Next_Stmt --
-------------------
procedure New_Next_Stmt (L : O_Snode) is
Res : ValueRef;
begin
if not Unreach then
Res := BuildBr (Builder, L.Bb_Entry);
Set_Insn_Dbg (Res);
Unreach := True;
end if;
end New_Next_Stmt;
---------------------
-- Start_Case_Stmt --
---------------------
procedure Start_Case_Stmt (Block : in out O_Case_Block; Value : O_Enode) is
begin
Block := (BB_Prev => GetInsertBlock (Builder),
Value => Value.LLVM,
Vtype => Value.Etype,
BB_Next => Null_BasicBlockRef,
BB_Others => Null_BasicBlockRef,
BB_Choice => Null_BasicBlockRef,
Nbr_Choices => 0,
Choices => new O_Choice_Array (1 .. 8));
end Start_Case_Stmt;
------------------
-- Start_Choice --
------------------
procedure Finish_Branch (Block : in out O_Case_Block) is
Res : ValueRef;
pragma Unreferenced (Res);
begin
-- Close previous branch.
if not Unreach then
if Block.BB_Next = Null_BasicBlockRef then
Block.BB_Next := AppendBasicBlock (Cur_Func, Empty_Cstring);
end if;
Res := BuildBr (Builder, Block.BB_Next);
end if;
end Finish_Branch;
procedure Start_Choice (Block : in out O_Case_Block) is
Res : ValueRef;
pragma Unreferenced (Res);
begin
if Block.BB_Choice /= Null_BasicBlockRef then
-- Close previous branch.
Finish_Branch (Block);
end if;
Unreach := False;
Block.BB_Choice := AppendBasicBlock (Cur_Func, Empty_Cstring);
PositionBuilderAtEnd (Builder, Block.BB_Choice);
end Start_Choice;
---------------------
-- New_Expr_Choice --
---------------------
procedure Free is new Ada.Unchecked_Deallocation
(O_Choice_Array, O_Choice_Array_Acc);
procedure New_Choice (Block : in out O_Case_Block;
Low, High : ValueRef)
is
Choices : O_Choice_Array_Acc;
begin
if Block.Nbr_Choices = Block.Choices'Last then
Choices := new O_Choice_Array (1 .. Block.Choices'Last * 2);
Choices (1 .. Block.Choices'Last) := Block.Choices.all;
Free (Block.Choices);
Block.Choices := Choices;
end if;
Block.Nbr_Choices := Block.Nbr_Choices + 1;
Block.Choices (Block.Nbr_Choices) := (Low => Low,
High => High,
Bb => Block.BB_Choice);
end New_Choice;
procedure New_Expr_Choice (Block : in out O_Case_Block; Expr : O_Cnode) is
begin
New_Choice (Block, Expr.LLVM, Null_ValueRef);
end New_Expr_Choice;
----------------------
-- New_Range_Choice --
----------------------
procedure New_Range_Choice
(Block : in out O_Case_Block; Low, High : O_Cnode)
is
begin
New_Choice (Block, Low.LLVM, High.LLVM);
end New_Range_Choice;
------------------------
-- New_Default_Choice --
------------------------
procedure New_Default_Choice (Block : in out O_Case_Block) is
begin
Block.BB_Others := Block.BB_Choice;
end New_Default_Choice;
-------------------
-- Finish_Choice --
-------------------
procedure Finish_Choice (Block : in out O_Case_Block) is
begin
null;
end Finish_Choice;
----------------------
-- Finish_Case_Stmt --
----------------------
procedure Finish_Case_Stmt (Block : in out O_Case_Block)
is
Bb_Default : constant BasicBlockRef :=
AppendBasicBlock (Cur_Func, Empty_Cstring);
Bb_Default_Last : BasicBlockRef;
Nbr_Cases : unsigned := 0;
GE, LE : IntPredicate;
Res : ValueRef;
begin
if Block.BB_Choice /= Null_BasicBlockRef then
-- Close previous branch.
Finish_Branch (Block);
end if;
-- Strategy: use a switch instruction for simple choices, put range
-- choices in the default using if statements.
case Block.Vtype.Kind is
when ON_Unsigned_Type
| ON_Enum_Type
| ON_Boolean_Type =>
GE := IntUGE;
LE := IntULE;
when ON_Signed_Type =>
GE := IntSGE;
LE := IntSLE;
when others =>
raise Program_Error;
end case;
-- BB for the default case of the LLVM switch.
PositionBuilderAtEnd (Builder, Bb_Default);
Bb_Default_Last := Bb_Default;
for I in 1 .. Block.Nbr_Choices loop
declare
C : O_Choice_Type renames Block.Choices (I);
begin
if C.High /= Null_ValueRef then
Bb_Default_Last := AppendBasicBlock (Cur_Func, Empty_Cstring);
Res := BuildCondBr (Builder,
BuildAnd (Builder,
BuildICmp (Builder, GE,
Block.Value, C.Low,
Empty_Cstring),
BuildICmp (Builder, LE,
Block.Value, C.High,
Empty_Cstring),
Empty_Cstring),
C.Bb, Bb_Default_Last);
PositionBuilderAtEnd (Builder, Bb_Default_Last);
else
Nbr_Cases := Nbr_Cases + 1;
end if;
end;
end loop;
-- Insert the switch
PositionBuilderAtEnd (Builder, Block.BB_Prev);
Res := BuildSwitch (Builder, Block.Value, Bb_Default, Nbr_Cases);
for I in 1 .. Block.Nbr_Choices loop
declare
C : O_Choice_Type renames Block.Choices (I);
begin
if C.High = Null_ValueRef then
AddCase (Res, C.Low, C.Bb);
end if;
end;
end loop;
-- Insert the others.
PositionBuilderAtEnd (Builder, Bb_Default_Last);
if Block.BB_Others /= Null_BasicBlockRef then
Res := BuildBr (Builder, Block.BB_Others);
else
Res := BuildUnreachable (Builder);
end if;
if Block.BB_Next /= Null_BasicBlockRef then
Unreach := False;
PositionBuilderAtEnd (Builder, Block.BB_Next);
else
Unreach := True;
end if;
Free (Block.Choices);
end Finish_Case_Stmt;
function Get_LLVM_Type (Atype : O_Tnode) return TypeRef is
begin
case Atype.Kind is
when ON_Incomplete_Record_Type
| ON_Incomplete_Access_Type =>
if Atype.LLVM = Null_TypeRef then
raise Program_Error with "early use of incomplete type";
end if;
return Atype.LLVM;
when ON_Union_Type
| ON_Scalar_Types
| ON_Access_Type
| ON_Array_Type
| ON_Array_Sub_Type
| ON_Record_Type =>
return Atype.LLVM;
when others =>
raise Program_Error;
end case;
end Get_LLVM_Type;
procedure Finish_Debug is
begin
declare
Dbg_Cu : constant String := "llvm.dbg.cu" & ASCII.NUL;
Producer : constant String := "ortho llvm";
Vals : ValueRefArray (0 .. 12);
begin
Vals :=
(ConstInt (Int32Type, DW_TAG_Compile_Unit, 0),
Dbg_Current_Filedir, -- 1 file+dir
ConstInt (Int32Type, 1, 0), -- 2 language (C)
MDString (Producer), -- 3 producer
ConstInt (Int1Type, 0, 0), -- 4 isOpt
MDString (""), -- 5 flags
ConstInt (Int32Type, 0, 0), -- 6 runtime version
Null_ValueRef, -- 7 enum types
Null_ValueRef, -- 8 retained types
Get_Value (Subprg_Nodes), -- 9 subprograms
Get_Value (Global_Nodes), -- 10 global var
Null_ValueRef, -- 11 imported entities
Null_ValueRef); -- 12 split debug
AddNamedMetadataOperand
(Module, Dbg_Cu'Address, MDNode (Vals, Vals'Length));
end;
declare
Module_Flags : constant String := "llvm.module.flags" & ASCII.NUL;
Flags1 : ValueRefArray (0 .. 2);
Flags2 : ValueRefArray (0 .. 2);
begin
Flags1 := (ConstInt (Int32Type, 1, 0),
MDString ("Debug Info Version"),
ConstInt (Int32Type, 1, 0));
AddNamedMetadataOperand
(Module, Module_Flags'Address, MDNode (Flags1, Flags1'Length));
Flags2 := (ConstInt (Int32Type, 2, 0),
MDString ("Dwarf Version"),
ConstInt (Int32Type, 2, 0));
AddNamedMetadataOperand
(Module, Module_Flags'Address, MDNode (Flags2, Flags2'Length));
end;
end Finish_Debug;
Dbg_Str : constant String := "dbg";
procedure Init is
-- Some predefined types and functions.
I8_Ptr_Type : TypeRef;
begin
Builder := CreateBuilder;
Decl_Builder := CreateBuilder;
Extra_Builder := CreateBuilder;
-- Create type i8 *.
I8_Ptr_Type := PointerType (Int8Type);
-- Create intrinsic 'i8 *stacksave (void)'.
Stacksave_Fun := AddFunction
(Module, Stacksave_Name'Address,
FunctionType (I8_Ptr_Type, (1 .. 0 => Null_TypeRef), 0, 0));
-- Create intrinsic 'void stackrestore (i8 *)'.
Stackrestore_Fun := AddFunction
(Module, Stackrestore_Name'Address,
FunctionType (VoidType, (1 => I8_Ptr_Type), 1, 0));
-- Create intrinsic 'double llvm.copysign.f64 (double, double)'.
Copysign_Fun := AddFunction
(Module, Copysign_Name'Address,
FunctionType (DoubleType, (0 .. 1 => DoubleType), 2, 0));
Fp_0_5 := ConstReal (DoubleType, 0.5);
if Flag_Debug_Line then
Debug_ID := GetMDKindID (Dbg_Str, Dbg_Str'Length);
declare
Atypes : TypeRefArray (1 .. 2);
Ftype : TypeRef;
Name : String := "llvm.dbg.declare" & ASCII.NUL;
begin
Atypes := (MetadataType, MetadataType);
Ftype := FunctionType (VoidType, Atypes, Atypes'Length, 0);
Llvm_Dbg_Declare := AddFunction (Module, Name'Address, Ftype);
AddFunctionAttr (Llvm_Dbg_Declare,
NoUnwindAttribute + ReadNoneAttribute);
end;
end if;
end Init;
end Ortho_LLVM;
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