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|
-- GHDL Run Time (GRT) - VITAL annotator.
-- Copyright (C) 2002 - 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.
--
-- As a special exception, if other files instantiate generics from this
-- unit, or you link this unit with other files to produce an executable,
-- this unit does not by itself cause the resulting executable to be
-- covered by the GNU General Public License. This exception does not
-- however invalidate any other reasons why the executable file might be
-- covered by the GNU Public License.
with Grt.Types; use Grt.Types;
with Grt.Hooks; use Grt.Hooks;
with Grt.Astdio; use Grt.Astdio;
with Grt.Stdio; use Grt.Stdio;
with Grt.Options;
with Grt.Avhpi; use Grt.Avhpi;
with Grt.Errors; use Grt.Errors;
package body Grt.Vital_Annotate is
-- Point of the annotation.
Sdf_Top : VhpiHandleT;
-- Instance being annotated.
Sdf_Inst : VhpiHandleT;
Flag_Dump : Boolean := False;
Flag_Verbose : constant Boolean := False;
function Name_Compare (Handle : VhpiHandleT;
Name : String;
Property : VhpiStrPropertyT := VhpiNameP)
return Boolean
is
Obj_Name : String (1 .. Name'Length);
Len : Natural;
begin
Vhpi_Get_Str (Property, Handle, Obj_Name, Len);
if Len = Name'Length and then Obj_Name = Name then
return True;
else
return False;
end if;
end Name_Compare;
-- Note: RES may alias CUR.
procedure Find_Instance (Cur : VhpiHandleT;
Res : out VhpiHandleT;
Name : String;
Ok : out Boolean)
is
Error : AvhpiErrorT;
It : VhpiHandleT;
begin
Ok := False;
Vhpi_Iterator (VhpiInternalRegions, Cur, It, Error);
if Error /= AvhpiErrorOk then
return;
end if;
loop
Vhpi_Scan (It, Res, Error);
exit when Error /= AvhpiErrorOk;
if Name_Compare (Res, Name) then
Ok := True;
return;
end if;
end loop;
return;
-- Put ("find instance: ");
-- Put (Name);
-- New_Line;
end Find_Instance;
procedure Find_Generic (Gen_Name : String;
Gen_Handle : out VhpiHandleT;
Port1_Name : String;
Port1_Handle : out VhpiHandleT;
Port2_Name : String;
Port2_Handle : out VhpiHandleT)
is
Error : AvhpiErrorT;
It : VhpiHandleT;
Decl : VhpiHandleT;
begin
Gen_Handle := Null_Handle;
Port1_Handle := Null_Handle;
Port2_Handle := Null_Handle;
Vhpi_Iterator (VhpiDecls, Sdf_Inst, It, Error);
if Error /= AvhpiErrorOk then
return;
end if;
-- Look for the generic.
loop
Vhpi_Scan (It, Decl, Error);
if Error /= AvhpiErrorOk then
return;
end if;
exit when Vhpi_Get_Kind (Decl) /= VhpiGenericDeclK;
if Name_Compare (Decl, Gen_Name) then
Gen_Handle := Decl;
exit;
end if;
end loop;
-- Skip generics.
while Vhpi_Get_Kind (Decl) = VhpiGenericDeclK loop
Vhpi_Scan (It, Decl, Error);
if Error /= AvhpiErrorOk then
return;
end if;
end loop;
-- Look for ports.
loop
exit when Vhpi_Get_Kind (Decl) /= VhpiPortDeclK;
if Name_Compare (Decl, Port1_Name) then
Port1_Handle := Decl;
exit when Port2_Name'Length = 0;
end if;
if Port2_Name'Length > 0
and then Name_Compare (Decl, Port2_Name)
then
Port2_Handle := Decl;
exit when Vhpi_Get_Kind (Port1_Handle) /= VhpiUndefined;
end if;
Vhpi_Scan (It, Decl, Error);
if Error /= AvhpiErrorOk then
return;
end if;
end loop;
end Find_Generic;
procedure Sdf_Header (Context : Sdf_Context_Type)
is
begin
if Flag_Dump then
case Context.Version is
when Sdf_2_1 =>
Put ("found SDF file version 2.1");
when Sdf_Version_Unknown =>
Put ("found SDF file without version");
when Sdf_Version_Bad =>
Put ("found SDF file with unknown version");
end case;
New_Line;
end if;
end Sdf_Header;
procedure Sdf_Celltype (Context : Sdf_Context_Type)
is
begin
if Flag_Dump then
Put ("celltype: ");
Put (Context.Celltype (1 .. Context.Celltype_Len));
New_Line;
Put ("instance:");
return;
end if;
Sdf_Inst := Sdf_Top;
end Sdf_Celltype;
procedure Sdf_Instance (Context : in out Sdf_Context_Type;
Instance : String;
Status : out Boolean)
is
pragma Unreferenced (Context);
begin
if Flag_Dump then
Put (' ');
Put (Instance);
Status := True;
return;
end if;
Find_Instance (Sdf_Inst, Sdf_Inst, Instance, Status);
end Sdf_Instance;
procedure Sdf_Instance_End (Context : Sdf_Context_Type;
Status : out Boolean)
is
begin
if Flag_Dump then
Status := True;
New_Line;
return;
end if;
case Vhpi_Get_Kind (Sdf_Inst) is
when VhpiRootInstK =>
declare
Hdl : VhpiHandleT;
Error : AvhpiErrorT;
begin
Status := False;
Vhpi_Handle (VhpiDesignUnit, Sdf_Inst, Hdl, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("VhpiDesignUnit");
return;
end if;
case Vhpi_Get_Kind (Hdl) is
when VhpiArchBodyK =>
Vhpi_Handle (VhpiPrimaryUnit, Hdl, Hdl, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("VhpiPrimaryUnit");
return;
end if;
when others =>
Internal_Error ("sdf_instance_end");
end case;
Status := Name_Compare
(Hdl, Context.Celltype (1 .. Context.Celltype_Len));
end;
when VhpiCompInstStmtK =>
Status := Name_Compare
(Sdf_Inst,
Context.Celltype (1 .. Context.Celltype_Len),
VhpiCompNameP);
when others =>
Status := False;
end case;
end Sdf_Instance_End;
VitalDelayType01 : VhpiHandleT;
VitalDelayType01Z : VhpiHandleT;
VitalDelayType01ZX : VhpiHandleT;
VitalDelayArrayType01 : VhpiHandleT;
VitalDelayType : VhpiHandleT;
VitalDelayArrayType : VhpiHandleT;
type Map_Type is array (1 .. 12) of Natural;
Map_1 : constant Map_Type := (1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0);
Map_2 : constant Map_Type := (1, 2, 1, 1, 2, 2, 0, 0, 0, 0, 0, 0);
Map_3 : constant Map_Type := (1, 2, 3, 1, 3, 2, 0, 0, 0, 0, 0, 0);
Map_6 : constant Map_Type := (1, 2, 3, 4, 5, 6, 0, 0, 0, 0, 0, 0);
--Map_12 : constant Map_Type := (1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12);
function Write_Td_Delay_Generic (Context : Sdf_Context_Type;
Gen : VhpiHandleT;
Nbr : Natural;
Map : Map_Type)
return Boolean
is
It : VhpiHandleT;
El : VhpiHandleT;
Error : AvhpiErrorT;
N : Natural;
begin
Vhpi_Iterator (VhpiIndexedNames, Gen, It, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiIndexedNames");
return False;
end if;
for I in 1 .. Nbr loop
Vhpi_Scan (It, El, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("scan on vhpiIndexedNames");
return False;
end if;
N := Map (I);
if Context.Timing_Set (N) then
if Vhpi_Put_Value (El, Context.Timing (N) * 1000) /= AvhpiErrorOk
then
Internal_Error ("vhpi_put_value");
return False;
end if;
end if;
end loop;
return True;
end Write_Td_Delay_Generic;
function Write_Td_Delay_Generic (Context : Sdf_Context_Type;
Gen : VhpiHandleT)
return Boolean
is
Gen_Basetype : VhpiHandleT;
Error : AvhpiErrorT;
begin
Vhpi_Handle (VhpiBaseType, Gen, Gen_Basetype, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("write_td_delay_generic: vhpiBaseType");
return False;
end if;
if Vhpi_Compare_Handles (Gen_Basetype, VitalDelayType01) then
case Context.Timing_Nbr is
when 1 =>
return Write_Td_Delay_Generic (Context, Gen, 2, Map_1);
when 2 =>
return Write_Td_Delay_Generic (Context, Gen, 2, Map_2);
when others =>
Errors.Error
("timing generic type mismatch SDF timing specification");
end case;
elsif Vhpi_Compare_Handles (Gen_Basetype, VitalDelayType01Z) then
case Context.Timing_Nbr is
when 1 =>
return Write_Td_Delay_Generic (Context, Gen, 6, Map_1);
when 2 =>
return Write_Td_Delay_Generic (Context, Gen, 6, Map_2);
when 3 =>
return Write_Td_Delay_Generic (Context, Gen, 6, Map_3);
when 6 =>
return Write_Td_Delay_Generic (Context, Gen, 6, Map_6);
when others =>
Errors.Error
("timing generic type mismatch SDF timing specification");
end case;
elsif Vhpi_Compare_Handles (Gen_Basetype, VitalDelayType) then
if Vhpi_Put_Value (Gen, Context.Timing (1) * 1000) /= AvhpiErrorOk
then
Internal_Error ("vhpi_put_value (vitaldelaytype)");
else
return True;
end if;
else
Internal_Error ("write_td_delay_generic: unhandled generic type");
end if;
end Write_Td_Delay_Generic;
procedure Generic_Get_Bounds (Port : VhpiHandleT;
Left : out Ghdl_I32;
Len : out Ghdl_Index_Type;
Up : out Boolean)
is
Port_Type, Port_Range : VhpiHandleT;
Error : AvhpiErrorT;
Right : VhpiIntT;
begin
Vhpi_Handle (VhpiSubtype, Port, Port_Type, Error);
Left := 0;
Len := 0;
Up := True;
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiSubtype - port");
return;
end if;
Vhpi_Handle_By_Index (VhpiConstraints, Port_Type, 1, Port_Range, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiIndexConstraints - port");
return;
end if;
Vhpi_Get (VhpiLeftBoundP, Port_Range, Left, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiLeftBoundP - port");
return;
end if;
Vhpi_Get (VhpiRightBoundP, Port_Range, Right, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiRightBoundP - port");
return;
end if;
Vhpi_Get (VhpiIsUpP, Port_Range, Up, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiIsUpP - port");
return;
end if;
if Up then
Len := Ghdl_Index_Type (Right - Left) + 1;
else
Len := Ghdl_Index_Type (Left - Right) + 1;
end if;
end Generic_Get_Bounds;
procedure Sdf_Generic (Context : in out Sdf_Context_Type;
Name : String;
Ok : out Boolean)
is
Gen : VhpiHandleT;
Gen_Basetype : VhpiHandleT;
Port1, Port2 : VhpiHandleT;
Error : AvhpiErrorT;
begin
if Flag_Dump then
Put ("generic: ");
Put (Name);
if Context.Timing_Nbr = 0 then
Put (' ');
Put_I64 (stdout, Context.Timing (1));
else
for I in 1 .. 12 loop
Put (' ');
if Context.Timing_Set (I) then
Put_I64 (stdout, Context.Timing (I));
else
Put ('?');
end if;
end loop;
end if;
New_Line;
Ok := True;
return;
end if;
Ok := False;
if Context.Port_Num = 1 then
Context.Ports (2).Name_Len := 0;
end if;
Find_Generic
(Name, Gen,
Context.Ports (1).Name (1 .. Context.Ports (1).Name_Len), Port1,
Context.Ports (2).Name (1 .. Context.Ports (2).Name_Len), Port2);
if Vhpi_Get_Kind (Gen) = VhpiUndefined
or else Vhpi_Get_Kind (Port1) = VhpiUndefined
or else (Context.Port_Num = 2
and then Vhpi_Get_Kind (Port2) = VhpiUndefined)
then
return;
end if;
-- Extract subtype.
Vhpi_Handle (VhpiBaseType, Gen, Gen_Basetype, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiBaseType");
return;
end if;
if Vhpi_Compare_Handles (Gen_Basetype, VitalDelayType01)
or else Vhpi_Compare_Handles (Gen_Basetype, VitalDelayType01Z)
or else Vhpi_Compare_Handles (Gen_Basetype, VitalDelayType01ZX)
or else Vhpi_Compare_Handles (Gen_Basetype, VitalDelayType)
then
Ok := Write_Td_Delay_Generic (Context, Gen);
elsif Vhpi_Compare_Handles (Gen_Basetype, VitalDelayArrayType01)
or else Vhpi_Compare_Handles (Gen_Basetype, VitalDelayArrayType)
then
declare
Left_Gen, Left1, Left2 : Ghdl_I32;
Len_Gen, Len1, Len2 : Ghdl_Index_Type;
Up_Gen, Up1, Up2 : Boolean;
Pos : Ghdl_Index_Type;
Gen_El : VhpiHandleT;
begin
Generic_Get_Bounds (Gen, Left_Gen, Len_Gen, Up_Gen);
if Context.Port_Num >= 1
and then Context.Ports (1).L /= Invalid_Dnumber
then
Generic_Get_Bounds (Port1, Left1, Len1, Up1);
if Up1 then
Pos := Ghdl_Index_Type (Context.Ports (1).L - Left1);
else
Pos := Ghdl_Index_Type (Left1 - Context.Ports (1).L);
end if;
else
Pos := 0;
end if;
if Context.Port_Num >= 2
and then Context.Ports (2).L /= Invalid_Dnumber
then
Generic_Get_Bounds (Port2, Left2, Len2, Up2);
Pos := Pos * Len2;
if Up2 then
Pos := Pos + Ghdl_Index_Type (Context.Ports (2).L - Left2);
else
Pos := Pos + Ghdl_Index_Type (Left2 - Context.Ports (2).L);
end if;
end if;
Vhpi_Handle_By_Index
(VhpiIndexedNames, Gen, Integer (Pos), Gen_El, Error);
if Error /= AvhpiErrorOk then
Internal_Error ("vhpiIndexedNames - gen_el");
return;
end if;
Ok := Write_Td_Delay_Generic (Context, Gen_El);
end;
else
Errors.Error_C ("vital: unhandled generic type for generic ");
Errors.Error_E (Name);
end if;
end Sdf_Generic;
procedure Annotate (Arg : String)
is
S, E : Natural;
Ok : Boolean;
begin
if Flag_Verbose then
Put ("sdf annotate: ");
Put (Arg);
New_Line;
end if;
-- Find scope by name.
Get_Root_Inst (Sdf_Top);
E := Arg'First;
S := E;
L1: loop
-- Skip path separator.
while Arg (E) = '/' or Arg (E) = '.' loop
E := E + 1;
exit L1 when E > Arg'Last;
end loop;
exit L1 when E > Arg'Last or else Arg (E) = '=';
-- Instance element.
S := E;
while Arg (E) /= '=' and Arg (E) /= '.' and Arg (E) /= '/' loop
E := E + 1;
exit L1 when E > Arg'Last;
end loop;
-- Path element.
if E - 1 >= S then
Find_Instance (Sdf_Top, Sdf_Top, Arg (S .. E - 1), Ok);
if not Ok then
Error_C ("cannot find instance '");
Error_C (Arg (S .. E - 1));
Error_E ("' for sdf annotation");
return;
end if;
end if;
end loop L1;
-- start annotation.
if E >= Arg'Last or else Arg (E) /= '=' then
Error_C ("no filename in sdf option '");
Error_C (Arg);
Error_E ("'");
return;
end if;
if not Sdf.Parse_Sdf_File (Arg (E + 1 .. Arg'Last)) then
null;
end if;
end Annotate;
procedure Extract_Vital_Delay_Type
is
It : VhpiHandleT;
Pkg : VhpiHandleT;
Decl : VhpiHandleT;
Basetype : VhpiHandleT;
Status : AvhpiErrorT;
begin
Get_Package_Inst (It);
loop
Vhpi_Scan (It, Pkg, Status);
exit when Status /= AvhpiErrorOk;
exit when Name_Compare (Pkg, "vital_timing")
and then Name_Compare (Pkg, "ieee", VhpiLibLogicalNameP);
end loop;
if Status /= AvhpiErrorOk then
Error ("package ieee.vital_timing not found, SDF annotation aborted");
return;
end if;
Vhpi_Iterator (VhpiDecls, Pkg, It, Status);
if Status /= AvhpiErrorOk then
Error ("cannot iterate on vital_timing");
return;
end if;
loop
Vhpi_Scan (It, Decl, Status);
exit when Status /= AvhpiErrorOk;
if Vhpi_Get_Kind (Decl) = VhpiSubtypeDeclK
or else Vhpi_Get_Kind (Decl) = VhpiArrayTypeDeclK
then
Vhpi_Handle (VhpiBaseType, Decl, Basetype, Status);
if Status = AvhpiErrorOk then
if Name_Compare (Decl, "vitaldelaytype01") then
VitalDelayType01 := Basetype;
elsif Name_Compare (Decl, "vitaldelaytype01z") then
VitalDelayType01Z := Basetype;
elsif Name_Compare (Decl, "vitaldelaytype01zx") then
VitalDelayType01ZX := Basetype;
elsif Name_Compare (Decl, "vitaldelayarraytype01") then
VitalDelayArrayType01 := Basetype;
elsif Name_Compare (Decl, "vitaldelaytype") then
VitalDelayType := Basetype;
elsif Name_Compare (Decl, "vitaldelayarraytype") then
VitalDelayArrayType := Basetype;
end if;
end if;
end if;
end loop;
if Vhpi_Get_Kind (VitalDelayType01) = VhpiUndefined then
Error ("cannot find VitalDelayType01 in ieee.vital_timing");
return;
end if;
if Vhpi_Get_Kind (VitalDelayType01Z) = VhpiUndefined then
Error ("cannot find VitalDelayType01Z in ieee.vital_timing");
return;
end if;
if Vhpi_Get_Kind (VitalDelayType01ZX) = VhpiUndefined then
Error ("cannot find VitalDelayType01ZX in ieee.vital_timing");
return;
end if;
if Vhpi_Get_Kind (VitalDelayArrayType01) = VhpiUndefined then
Error ("cannot find VitalDelayArrayType01 in ieee.vital_timing");
return;
end if;
if Vhpi_Get_Kind (VitalDelayType) = VhpiUndefined then
Error ("cannot find VitalDelayType in ieee.vital_timing");
return;
end if;
end Extract_Vital_Delay_Type;
Has_Sdf_Option : Boolean := False;
procedure Sdf_Start
is
use Grt.Options;
Len : Integer;
Beg : Integer;
Arg : Ghdl_C_String;
begin
if not Has_Sdf_Option then
-- Nothing to do.
return;
end if;
Flag_Dump := False;
-- Extract VitalDelayType(s) from VITAL_Timing package.
Extract_Vital_Delay_Type;
-- Annotate.
for I in 1 .. Last_Opt loop
Arg := Argv (I);
Len := strlen (Arg);
if Len > 5 and then Arg (1 .. 6) = "--sdf=" then
Sdf_Mtm := Typical;
Beg := 7;
if Len > 10 then
if Arg (7 .. 10) = "typ=" then
Beg := 11;
elsif Arg (7 .. 10) = "min=" then
Sdf_Mtm := Minimum;
Beg := 11;
elsif Arg (7 .. 10) = "max=" then
Sdf_Mtm := Maximum;
Beg := 11;
end if;
end if;
Annotate (Arg (Beg .. Len));
end if;
end loop;
end Sdf_Start;
function Sdf_Option (Option : String) return Boolean
is
Opt : constant String (1 .. Option'Length) := Option;
begin
if Opt'Length > 11 and then Opt (1 .. 11) = "--sdf-dump=" then
Flag_Dump := True;
if Sdf.Parse_Sdf_File (Opt (12 .. Opt'Last)) then
null;
end if;
return True;
end if;
if Opt'Length > 5 and then Opt (1 .. 6) = "--sdf=" then
Has_Sdf_Option := True;
return True;
else
return False;
end if;
end Sdf_Option;
procedure Sdf_Help is
begin
Put_Line (" --sdf=[min=|typ=|max=]TOP=FILENAME");
Put_Line (" annotate TOP with SDF delay file FILENAME");
end Sdf_Help;
Sdf_Hooks : aliased constant Hooks_Type :=
(Option => Sdf_Option'Access,
Help => Sdf_Help'Access,
Init => Proc_Hook_Nil'Access,
Start => Sdf_Start'Access,
Finish => Proc_Hook_Nil'Access);
procedure Register is
begin
Register_Hooks (Sdf_Hooks'Access);
end Register;
end Grt.Vital_Annotate;
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