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|
-- PSL - Pretty print
-- Copyright (C) 2002-2016 Tristan Gingold
--
-- This program 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 of the License, or
-- (at your option) any later version.
--
-- This program 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 this program. If not, see <gnu.org/licenses>.
with Types; use Types;
with PSL.Types; use PSL.Types;
with PSL.Errors; use PSL.Errors;
with Name_Table; use Name_Table;
with Ada.Text_IO; use Ada.Text_IO;
package body PSL.Prints is
function Get_Priority (N : Node) return Priority is
begin
case Get_Kind (N) is
when N_Never | N_Always =>
return Prio_FL_Invariance;
when N_Eventually
| N_Next
| N_Next_A
| N_Next_E
| N_Next_Event
| N_Next_Event_A
| N_Next_Event_E =>
return Prio_FL_Occurence;
when N_Braced_SERE =>
return Prio_SERE_Brace;
when N_Concat_SERE =>
return Prio_Seq_Concat;
when N_Fusion_SERE =>
return Prio_Seq_Fusion;
when N_Within_SERE =>
return Prio_Seq_Within;
when N_Match_And_Seq
| N_And_Seq =>
return Prio_Seq_And;
when N_Or_Seq =>
return Prio_Seq_Or;
when N_Until
| N_Before =>
return Prio_FL_Bounding;
when N_Abort =>
return Prio_FL_Abort;
when N_Or_Prop =>
return Prio_Seq_Or;
when N_And_Prop =>
return Prio_Seq_And;
when N_Paren_Prop =>
return Prio_FL_Paren;
when N_Imp_Seq
| N_Overlap_Imp_Seq
| N_Log_Imp_Prop
| N_Imp_Bool =>
return Prio_Bool_Imp;
when N_Name_Decl
| N_Number
| N_True
| N_False
| N_EOS
| N_HDL_Expr
| N_HDL_Bool
| N_Property_Instance
| N_Sequence_Instance =>
return Prio_HDL;
when N_Or_Bool =>
return Prio_Seq_Or;
when N_And_Bool =>
return Prio_Seq_And;
when N_Not_Bool =>
return Prio_Bool_Not;
when N_Star_Repeat_Seq
| N_Goto_Repeat_Seq
| N_Equal_Repeat_Seq
| N_Plus_Repeat_Seq =>
return Prio_SERE_Repeat;
when N_Strong =>
return Prio_Strong;
when others =>
Error_Kind ("get_priority", N);
end case;
end Get_Priority;
procedure Print_HDL_Expr (N : HDL_Node) is
begin
Put (Image (Get_Identifier (Node (N))));
end Print_HDL_Expr;
procedure Dump_Expr (N : Node)
is
begin
case Get_Kind (N) is
when N_HDL_Expr =>
if HDL_Expr_Printer = null then
Put ("Expr");
else
HDL_Expr_Printer.all (Get_HDL_Node (N));
end if;
when N_True =>
Put ("TRUE");
when N_False =>
Put ("FALSE");
when N_Not_Bool =>
Put ("!");
Dump_Expr (Get_Boolean (N));
when N_And_Bool =>
Put ("(");
Dump_Expr (Get_Left (N));
Put (" && ");
Dump_Expr (Get_Right (N));
Put (")");
when N_Or_Bool =>
Put ("(");
Dump_Expr (Get_Left (N));
Put (" || ");
Dump_Expr (Get_Right (N));
Put (")");
when others =>
PSL.Errors.Error_Kind ("dump_expr", N);
end case;
end Dump_Expr;
procedure Print_Expr (N : Node; Parent_Prio : Priority := Prio_Lowest)
is
Prio : Priority;
begin
if N = Null_Node then
Put (".");
return;
end if;
Prio := Get_Priority (N);
if Prio < Parent_Prio then
Put ("(");
end if;
case Get_Kind (N) is
when N_Number =>
declare
Str : constant String := Uns32'Image (Get_Value (N));
begin
Put (Str (2 .. Str'Last));
end;
when N_Name_Decl =>
Put (Image (Get_Identifier (N)));
when N_HDL_Expr
| N_HDL_Bool =>
if HDL_Expr_Printer = null then
Put ("HDL_Expr");
else
HDL_Expr_Printer.all (Get_HDL_Node (N));
end if;
-- FIXME: this is true only when using the scanner.
-- Print_Expr (Node (Get_HDL_Node (N)));
when N_True =>
Put ("TRUE");
when N_False =>
Put ("FALSE");
when N_EOS =>
Put ("EOS");
when N_Not_Bool =>
Put ("!");
Print_Expr (Get_Boolean (N), Prio);
when N_And_Bool =>
Print_Expr (Get_Left (N), Prio);
Put (" && ");
Print_Expr (Get_Right (N), Prio);
when N_Or_Bool =>
Print_Expr (Get_Left (N), Prio);
Put (" || ");
Print_Expr (Get_Right (N), Prio);
when N_Imp_Bool =>
Print_Expr (Get_Left (N), Prio);
Put (" -> ");
Print_Expr (Get_Right (N), Prio);
when others =>
Error_Kind ("print_expr", N);
end case;
if Prio < Parent_Prio then
Put (")");
end if;
end Print_Expr;
procedure Print_Count (N : Node) is
B : Node;
begin
B := Get_Low_Bound (N);
if B = Null_Node then
return;
end if;
Print_Expr (B);
B := Get_High_Bound (N);
if B = Null_Node then
return;
end if;
Put (":");
Print_Expr (B);
end Print_Count;
procedure Print_Binary_Sequence (Name : String; N : Node; Prio : Priority)
is
begin
Print_Sequence (Get_Left (N), Prio);
Put (Name);
Print_Sequence (Get_Right (N), Prio);
end Print_Binary_Sequence;
procedure Print_Repeat_Sequence (Name : String; N : Node) is
S : Node;
begin
S := Get_Sequence (N);
if S /= Null_Node then
Print_Sequence (S, Prio_SERE_Repeat);
end if;
Put (Name);
Print_Count (N);
Put ("]");
end Print_Repeat_Sequence;
procedure Print_Sequence (Seq : Node; Parent_Prio : Priority := Prio_Lowest)
is
Prio : constant Priority := Get_Priority (Seq);
Add_Paren : constant Boolean := Prio < Parent_Prio
or else Parent_Prio <= Prio_FL_Paren;
begin
if Add_Paren then
Put ("{");
end if;
case Get_Kind (Seq) is
when N_Braced_SERE =>
Put ("{");
Print_Sequence (Get_SERE (Seq), Prio_Lowest);
Put ("}");
when N_Concat_SERE =>
Print_Binary_Sequence (";", Seq, Prio);
when N_Fusion_SERE =>
Print_Binary_Sequence (":", Seq, Prio);
when N_Within_SERE =>
Print_Binary_Sequence (" within ", Seq, Prio);
when N_Match_And_Seq =>
Print_Binary_Sequence (" && ", Seq, Prio);
when N_Or_Seq =>
Print_Binary_Sequence (" | ", Seq, Prio);
when N_And_Seq =>
Print_Binary_Sequence (" & ", Seq, Prio);
when N_Star_Repeat_Seq =>
Print_Repeat_Sequence ("[*", Seq);
when N_Goto_Repeat_Seq =>
Print_Repeat_Sequence ("[->", Seq);
when N_Equal_Repeat_Seq =>
Print_Repeat_Sequence ("[=", Seq);
when N_Plus_Repeat_Seq =>
Print_Sequence (Get_Sequence (Seq), Prio);
Put ("[+]");
when N_Booleans
| N_Name_Decl =>
Print_Expr (Seq);
when N_Sequence_Instance =>
Put (Image (Get_Identifier (Get_Declaration (Seq))));
when others =>
Error_Kind ("print_sequence", Seq);
end case;
if Add_Paren then
Put ("}");
end if;
end Print_Sequence;
procedure Print_Binary_Property (Name : String; N : Node; Prio : Priority)
is
begin
Print_Property (Get_Left (N), Prio);
Put (Name);
Print_Property (Get_Right (N), Prio);
end Print_Binary_Property;
procedure Print_Binary_Property_SI (Name : String;
N : Node; Prio : Priority)
is
begin
Print_Property (Get_Left (N), Prio);
Put (Name);
if Get_Strong_Flag (N) then
Put ('!');
end if;
if Get_Inclusive_Flag (N) then
Put ('_');
end if;
Put (' ');
Print_Property (Get_Right (N), Prio);
end Print_Binary_Property_SI;
procedure Print_Range_Property (Name : String; N : Node) is
begin
Put (Name);
Put ("[");
Print_Count (N);
Put ("](");
Print_Property (Get_Property (N), Prio_FL_Paren);
Put (")");
end Print_Range_Property;
procedure Print_Boolean_Range_Property (Name : String; N : Node) is
begin
Put (Name);
Put ("(");
Print_Expr (Get_Boolean (N));
Put (")[");
Print_Count (N);
Put ("](");
Print_Property (Get_Property (N), Prio_FL_Paren);
Put (")");
end Print_Boolean_Range_Property;
procedure Print_Property (Prop : Node;
Parent_Prio : Priority := Prio_Lowest)
is
Prio : constant Priority := Get_Priority (Prop);
begin
if Prio < Parent_Prio then
Put ("(");
end if;
case Get_Kind (Prop) is
when N_Never =>
Put ("never ");
Print_Property (Get_Property (Prop), Prio);
when N_Always =>
Put ("always (");
Print_Property (Get_Property (Prop), Prio);
Put (")");
when N_Eventually =>
Put ("eventually! (");
Print_Property (Get_Property (Prop), Prio);
Put (")");
when N_Strong =>
Print_Property (Get_Property (Prop), Prio);
Put ("!");
when N_Next =>
Put ("next");
-- if Get_Strong_Flag (Prop) then
-- Put ('!');
-- end if;
Put (" (");
Print_Property (Get_Property (Prop), Prio);
Put (")");
when N_Next_A =>
Print_Range_Property ("next_a", Prop);
when N_Next_E =>
Print_Range_Property ("next_e", Prop);
when N_Next_Event =>
Put ("next_event");
Put ("(");
Print_Expr (Get_Boolean (Prop));
Put (")(");
Print_Property (Get_Property (Prop), Prio);
Put (")");
when N_Next_Event_A =>
Print_Boolean_Range_Property ("next_event_a", Prop);
when N_Next_Event_E =>
Print_Boolean_Range_Property ("next_event_e", Prop);
when N_Until =>
Print_Binary_Property_SI (" until", Prop, Prio);
when N_Abort =>
Print_Property (Get_Property (Prop), Prio);
Put (" abort ");
Print_Expr (Get_Boolean (Prop));
when N_Before =>
Print_Binary_Property_SI (" before", Prop, Prio);
when N_Or_Prop =>
if True then
Print_Binary_Property (" or ", Prop, Prio);
else
Print_Binary_Property (" || ", Prop, Prio);
end if;
when N_And_Prop =>
if True then
Print_Binary_Property (" and ", Prop, Prio);
else
Print_Binary_Property (" && ", Prop, Prio);
end if;
when N_Paren_Prop =>
Put ("(");
Print_Property (Get_Property (Prop), Prio);
Put (")");
when N_Imp_Seq =>
Print_Property (Get_Sequence (Prop), Prio);
Put (" |=> ");
Print_Property (Get_Property (Prop), Prio);
when N_Overlap_Imp_Seq =>
Print_Property (Get_Sequence (Prop), Prio);
Put (" |-> ");
Print_Property (Get_Property (Prop), Prio);
when N_Log_Imp_Prop =>
Print_Binary_Property (" -> ", Prop, Prio);
when N_Booleans
| N_Name_Decl =>
Print_Expr (Prop);
when N_Sequences =>
Print_Sequence (Prop, Parent_Prio);
when N_Property_Instance =>
Put (Image (Get_Identifier (Get_Declaration (Prop))));
when N_EOS =>
Put ("EOS");
when others =>
Error_Kind ("print_property", Prop);
end case;
if Prio < Parent_Prio then
Put (")");
end if;
end Print_Property;
procedure Print_Assert (N : Node) is
Label : Name_Id;
begin
Put (" ");
Label := Get_Label (N);
if Label /= Null_Identifier then
Put (Image (Label));
Put (": ");
end if;
Put ("assert ");
Print_Property (Get_Property (N));
Put_Line (";");
end Print_Assert;
procedure Print_Property_Declaration (N : Node) is
begin
Put (" ");
Put ("property ");
Put (Image (Get_Identifier (N)));
Put (" = ");
Print_Property (Get_Property (N));
Put_Line (";");
end Print_Property_Declaration;
procedure Print_Unit (Unit : Node) is
Item : Node;
begin
case Get_Kind (Unit) is
when N_Vunit =>
Put ("vunit");
when others =>
Error_Kind ("disp_unit", Unit);
end case;
Put (' ');
Put (Image (Get_Identifier (Unit)));
Put_Line (" {");
Item := Get_Item_Chain (Unit);
while Item /= Null_Node loop
case Get_Kind (Item) is
when N_Name_Decl =>
null;
when N_Assert_Directive =>
Print_Assert (Item);
when N_Property_Declaration =>
Print_Property_Declaration (Item);
when others =>
Error_Kind ("disp_unit", Item);
end case;
Item := Get_Chain (Item);
end loop;
Put_Line ("}");
end Print_Unit;
end PSL.Prints;
|
