-- Environment definition for synthesis. -- Copyright (C) 2017 Tristan Gingold -- -- This file is part of GHDL. -- -- 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 . with Types; use Types; with Tables; with Netlists; use Netlists; with Netlists.Builders; generic -- Declaration type use for reporting errors. type Decl_Type is private; -- Static value type Static_Type is private; with function Is_Equal (L, R : Static_Type) return Boolean; with function Get_Width (Val : Static_Type) return Uns32; with function Static_To_Net (Ctxt : Builders.Context_Acc; Val : Static_Type) return Net; with function Partial_Static_To_Net (Ctxt : Builders.Context_Acc; Val : Static_Type; Off : Uns32; Wd : Uns32) return Net; with procedure Warning_No_Assignment (Decl : Decl_Type; First_Off : Uns32; Last_Off : Uns32); with procedure Error_Multiple_Assignments (Decl : Decl_Type; First_Off : Uns32; Last_Off : Uns32); package Synth.Environment is -- This package declares the type Wire_Id and its methods. -- -- A wire_id represents an HDL signal or variable and keeps the current -- value of it accross control statements. -- This is not a memory storage, because: -- * the current value may not be static. -- e.g.: a <= b + 1; -- If B is a port, the value of A is defined but -- -- not known -- * the current value depends on the control statements. -- e.g.: a := data; -- a0 -- if cond then -- a := a + 4; -- Reads a0, but writes to a1 -- b := a + 1; -- Reads a1, writes b1 -- else -- b <= a + 2; -- Reads a0, writes b2 -- end if; -- c <= b * 2; -- b = phi(cond, b1, b2) -- -- This is very similar to SSA (static single assignments) type Wire_Id is private; No_Wire_Id : constant Wire_Id; -- Wire_Id can be ordered, so that merges can be efficient. function Is_Lt (L, R : Wire_Id) return Boolean; -- A Wire is either a signal, a variable or a port. We need to know the -- nature of a wire as the assignment semantic is not the same (a variable -- assignment overwrite the old value, while a signal assignment is -- effective at the next cycle). type Wire_Kind is ( Wire_None, Wire_Variable, Wire_Enable, Wire_Signal, Wire_Unset, Wire_Input, Wire_Output, Wire_Inout ); -- Create a wire. function Alloc_Wire (Kind : Wire_Kind; Decl : Decl_Type) return Wire_Id; -- Mark the wire as free. procedure Free_Wire (Wid : Wire_Id); -- Change wire WID kind. -- The only allowed transitions are Unset <-> (Variable or Signal). procedure Set_Kind (Wid : Wire_Id; Kind : Wire_Kind); function Get_Kind (Wid : Wire_Id) return Wire_Kind; -- Read and write the mark flag. function Get_Wire_Mark (Wid : Wire_Id) return Boolean; procedure Set_Wire_Mark (Wid : Wire_Id; Mark : Boolean := True); -- Simple mark & release. This is a very simple mechanism (will free -- all wires allocated after the mark), but efficient and working well -- for the stack based allocation. -- Not related to the mark flag. procedure Mark (M : out Wire_Id); procedure Release (M : in out Wire_Id); -- Check that all the wires have been released. procedure All_Released; -- Remove wires WID1 and WID2 from current phi. -- Used for internal wires (exit/quit) when exiting their scope. procedure Phi_Discard_Wires (Wid1 : Wire_Id; Wid2 : Wire_Id); -- For signals, only the future value can be assigned. But the current -- value can be read. A gate is needed to represent the current value -- (as only a gate can provide a net). In most cases, this is a virtual -- gate whose output is equal to the input and this virtual gate would be -- later removed during cleanup. -- -- Set the gate for a wire. procedure Set_Wire_Gate (Wid : Wire_Id; Gate : Net); function Get_Wire_Gate (Wid : Wire_Id) return Net; procedure Replace_Wire_Gate (Wid : Wire_Id; Gate : Net); -- The current value of WID. For variables, this is the last assigned -- value. For signals, this is the gate. -- A builder is needed in case of concatenation. function Get_Current_Value (Ctxt : Builders.Context_Acc; Wid : Wire_Id) return Net; -- Get the currently assigned value of WID at OFF/WD. -- Used when assigning as a memory. function Get_Current_Assign_Value (Ctxt : Builders.Context_Acc; Wid : Wire_Id; Off : Uns32; Wd : Width) return Net; -- In the current phi context, assign VAL to DEST. procedure Phi_Assign_Net (Ctxt : Builders.Context_Acc; Dest : Wire_Id; Val : Net; Offset : Uns32); -- Assign a static value to DEST. VAL is copied. procedure Phi_Assign_Static (Dest : Wire_Id; Val : Static_Type); -- A Phi represent a split in the control flow (two or more branches). type Phi_Type is private; -- Create a new phi context. procedure Push_Phi; procedure Pop_Phi (Phi : out Phi_Type); -- Destroy the current phi context and merge it. Can apply only for the -- first non-top level phi context. procedure Pop_And_Merge_Phi (Ctxt : Builders.Context_Acc; Loc : Location_Type); -- All assignments in PHI to wires below MARK are propagated to the -- current phi. Used to propagate assignments to wires defined out of -- a subprogram when leaving a subprogram. procedure Propagate_Phi_Until_Mark (Ctxt : Builders.Context_Acc; Phi : Phi_Type; Mark : Wire_Id); -- Merge current Phi for an initialization. All the assignments must -- be static values. May upgrade Output gates to Ioutput. procedure Pop_And_Merge_Initial_Phi (Ctxt : Builders.Context_Acc; Loc : Location_Type); -- Handle if statement. According to SEL, the value of the wires are -- those from T or from F. procedure Merge_Phis (Ctxt : Builders.Context_Acc; Sel : Net; T, F : Phi_Type; Loc : Location_Type); -- Create or get (if already created) a net that is true iff the current -- phi is selected. Used to enable sequential assertions. -- Because a wire is created, inference will run on it and therefore -- a dff is created if needed. function Phi_Enable (Ctxt : Builders.Context_Acc; Decl : Decl_Type; Val_0 : Static_Type; Val_1 : Static_Type; Loc : Location_Type) return Net; -- Lower level part. -- Currently public to handle case statements. -- Within a Phi, assignments are represented as a linked list of -- sequential assignments. type Seq_Assign is private; No_Seq_Assign : constant Seq_Assign; -- Sort all seq assign of P by wire id. Used to more easily merge them. function Sort_Phi (P : Phi_Type) return Seq_Assign; -- A sequential assignment represent an assignment to a wire. function Get_Wire_Id (W : Seq_Assign) return Wire_Id; function Get_Assign_Chain (Asgn : Seq_Assign) return Seq_Assign; function Get_Assign_Value (Ctxt : Builders.Context_Acc; Asgn : Seq_Assign) return Net; -- Return the value from the gate. function Get_Gate_Value (Wid : Wire_Id) return Net; -- Return the current assigned value. function Get_Assigned_Value (Ctxt : Builders.Context_Acc; Wid : Wire_Id) return Net; -- For low-level phi merge. -- A sequential assignment is a linked list of partial assignment. type Partial_Assign is private; No_Partial_Assign : constant Partial_Assign; type Seq_Assign_Value (Is_Static : Tri_State_Type := True) is record case Is_Static is when Unknown => -- Used only for no value (in that case, it will use the previous -- value). -- This is used only for temporary handling, and is never stored -- in Seq_Assign. null; when True => Val : Static_Type; when False => -- Values assigned. Asgns : Partial_Assign; end case; end record; function Get_Seq_Assign_Value (Asgn : Seq_Assign) return Seq_Assign_Value; function New_Partial_Assign (Val : Net; Offset : Uns32) return Partial_Assign; type Partial_Assign_Array is array (Int32 range <>) of Partial_Assign; type Seq_Assign_Value_Array is array (Int32 range <>) of Seq_Assign_Value; -- Return the unique value from array of Seq_Assign_Value if it exists, -- otherwise return Null_Memtyp. -- To be more precise, a value is returned iff: -- 1) All present values in Arr are static -- 2) There is no missing values *or* the previous value is static. -- 3) All the values are equal. -- then assign directly. -- WID is used in case of unknown value. -- function Is_Assign_Value_Array_Static -- (Wid : Wire_Id; Arr : Seq_Assign_Value_Array) return Static_Type; type Partial_Assign_List is limited private; procedure Partial_Assign_Init (List : out Partial_Assign_List); procedure Partial_Assign_Append (List : in out Partial_Assign_List; Pasgn : Partial_Assign); -- Phi_Assign for each element of LIST. procedure Merge_Partial_Assigns (Ctxt : Builders.Context_Acc; Wid : Wire_Id; List : in out Partial_Assign_List); -- P is an array of Partial_Assign. Each element is a list -- of partial assign from a different basic block. -- Extract the value to nets N of the maximal partial assignment starting -- at offset OFF for all partial assignments. Fully handled partial -- assignments are poped. Set the offset and width to OFF and WD of the -- result. procedure Extract_Merge_Partial_Assigns (Ctxt : Builders.Context_Acc; P : in out Seq_Assign_Value_Array; N : out Net_Array; Off : in out Uns32; Wd : out Width); -- Concurrent assignments. type Conc_Assign is private; No_Conc_Assign : constant Conc_Assign; -- Add a concurrent assignment to WID. procedure Add_Conc_Assign (Wid : Wire_Id; Val : Net; Off : Uns32; Loc : Location_Type); procedure Finalize_Assignment (Ctxt : Builders.Context_Acc; Wid : Wire_Id); procedure Finalize_Wires; -- A static wire is a wire_signal which has one whole (same width as the -- wire) assignment and whose assignment value is a const net. -- That's rather restrictive but still efficient. function Is_Static_Wire (Wid : Wire_Id) return Boolean; -- Return the corresponding net for a static wire. function Get_Static_Wire (Wid : Wire_Id) return Static_Type; private type Wire_Id is new Uns32; No_Wire_Id : constant Wire_Id := 0; function Is_Lt (L, R : Wire_Id) return Boolean renames "<"; type Seq_Assign is new Uns32; No_Seq_Assign : constant Seq_Assign := 0; type Partial_Assign is new Uns32; No_Partial_Assign : constant Partial_Assign := 0; type Partial_Assign_List is record First, Last : Partial_Assign; end record; type Conc_Assign is new Uns32; No_Conc_Assign : constant Conc_Assign := 0; type Phi_Id is new Uns32; No_Phi_Id : constant Phi_Id := 0; -- Get current phi context. function Current_Phi return Phi_Id; pragma Inline (Current_Phi); type Wire_Id_Record is record -- Kind of wire: signal, variable... -- Set at initialization and cannot be changed. -- Used to know what is the current value of the wire (could be either -- Gate when it is a signal or Cur_Assign when it is a variable). Kind : Wire_Kind; -- Used in various algorithms: a flag on a wire. This flag must be -- cleared after usage. Mark_Flag : Boolean; -- Source node that created the wire. Only for diagnostic purposes. Decl : Decl_Type; -- The initial net for the wire. -- This is a pseudo gate that is needed because the value of the wire -- can be read before anything was assigned to it. Gate : Net; -- Current assignment (if there is one). -- This is needed so that the current value (for variable) can be read. Cur_Assign : Seq_Assign; -- Chain of concurrent assigns for this wire. -- This is used to detect multiple collision and to handle partial -- assignments. Final_Assign : Conc_Assign; Nbr_Final_Assign : Natural; end record; type Seq_Assign_Record is record -- Target of the assignment. Id : Wire_Id; -- Assignment in the previous phi context. -- Used to restore Cur_Assign of the wire when the phi context is poped. Prev : Seq_Assign; -- Corresponding phi context for this wire. Phi : Phi_Id; -- Next wire in the phi context. Chain : Seq_Assign; -- Current value. Val : Seq_Assign_Value; end record; type Partial_Assign_Record is record Next : Partial_Assign; -- Assignment at OFFSET. The width is set by the width of the value. Value : Net; Offset : Uns32; end record; type Conc_Assign_Record is record Next : Conc_Assign; -- Location of the assignment. Loc : Location_Type; -- Concurrent assignment at OFFSET. The width is set by value width. Value : Net; Offset : Uns32; end record; type Phi_Type is record -- Chain of sequential assignments in the current phi context (BB). First : Seq_Assign; Last : Seq_Assign; -- Number of assignments. Nbr : Uns32; -- Enable wire created for this phi. En : Wire_Id; end record; No_Seq_Assign_Value : constant Seq_Assign_Value := (Is_Static => Unknown); package Phis_Table is new Tables (Table_Component_Type => Phi_Type, Table_Index_Type => Phi_Id, Table_Low_Bound => No_Phi_Id, Table_Initial => 16); package Wire_Id_Table is new Tables (Table_Component_Type => Wire_Id_Record, Table_Index_Type => Wire_Id, Table_Low_Bound => No_Wire_Id, Table_Initial => 1024); package Assign_Table is new Tables (Table_Component_Type => Seq_Assign_Record, Table_Index_Type => Seq_Assign, Table_Low_Bound => No_Seq_Assign, Table_Initial => 1024); package Partial_Assign_Table is new Tables (Table_Component_Type => Partial_Assign_Record, Table_Index_Type => Partial_Assign, Table_Low_Bound => No_Partial_Assign, Table_Initial => 1024); package Conc_Assign_Table is new Tables (Table_Component_Type => Conc_Assign_Record, Table_Index_Type => Conc_Assign, Table_Low_Bound => No_Conc_Assign, Table_Initial => 1024); end Synth.Environment;