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PGate.h
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PGate.h
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#ifndef IVL_PGate_H
#define IVL_PGate_H
/*
* Copyright (c) 1998-2021 Stephen Williams (steve@icarus.com)
*
* This source code is free software; you can redistribute it
* and/or modify it in source code form 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, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
# include "StringHeap.h"
# include "named.h"
# include "PNamedItem.h"
# include "PDelays.h"
# include "netlist.h"
# include <map>
# include <list>
# include <vector>
# include <string>
class PExpr;
class PUdp;
class Module;
/*
* A PGate represents a Verilog gate. The gate has a name and other
* properties, and a set of pins that connect to wires. It is known at
* the time a gate is constructed how many pins the gate has.
*
* This pins of a gate are connected to expressions. The elaboration
* step will need to convert expressions to a network of gates in
* order to elaborate expression inputs, but that can easily be done.
*
* The PGate base class also carries the strength0 and strength1
* strengths for those gates where the driver[s] can be described by a
* single strength pair. There is a strength of the 0 drive, and a
* strength of the 1 drive.
*/
class PGate : public PNamedItem {
public:
explicit PGate(perm_string name, std::list<PExpr*>*pins,
const std::list<PExpr*>*del);
explicit PGate(perm_string name, std::list<PExpr*>*pins,
PExpr*del);
explicit PGate(perm_string name, std::list<PExpr*>*pins);
virtual ~PGate();
void set_ranges(std::list<pform_range_t>*ranges);
bool is_array() const { return ranges_ != 0; }
perm_string get_name() const { return name_; }
// This evaluates the delays as far as possible, but returns
// an expression, and do not signal errors.
void eval_delays(Design*des, NetScope*scope,
NetExpr*&rise_time,
NetExpr*&fall_time,
NetExpr*&decay_time,
bool as_net_flag =false) const;
unsigned delay_count() const;
unsigned pin_count() const { return pins_.size(); }
PExpr*pin(unsigned idx) const { return pins_[idx]; }
ivl_drive_t strength0() const;
ivl_drive_t strength1() const;
void strength0(ivl_drive_t);
void strength1(ivl_drive_t);
std::map<perm_string,PExpr*> attributes;
virtual void dump(std::ostream&out, unsigned ind =4) const;
virtual void elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*sc) const;
virtual bool elaborate_sig(Design*des, NetScope*scope) const;
SymbolType symbol_type() const;
protected:
const std::vector<PExpr*>& get_pins() const { return pins_; }
unsigned calculate_array_size_(Design*, NetScope*,
long&high, long&low) const;
void dump_pins(std::ostream&out) const;
void dump_delays(std::ostream&out) const;
void dump_ranges(std::ostream&out) const;
private:
perm_string name_;
PDelays delay_;
std::vector<PExpr*>pins_;
std::list<pform_range_t>*ranges_;
ivl_drive_t str0_, str1_;
void set_pins_(std::list<PExpr*>*pins);
private: // not implemented
PGate(const PGate&);
PGate& operator= (const PGate&);
};
/* A continuous assignment has a single output and a single input. The
input is passed directly to the output. This is different from a
BUF because elaboration may need to turn this into a vector of
gates. */
class PGAssign : public PGate {
public:
explicit PGAssign(std::list<PExpr*>*pins);
explicit PGAssign(std::list<PExpr*>*pins, std::list<PExpr*>*dels);
~PGAssign();
void dump(std::ostream&out, unsigned ind =4) const;
virtual void elaborate(Design*des, NetScope*scope) const;
virtual bool elaborate_sig(Design*des, NetScope*scope) const;
private:
void elaborate_unpacked_array_(Design*des, NetScope*scope, NetNet*lval) const;
};
/*
* The Builtin class is specifically a gate with one of the builtin
* types. The parser recognizes these types during parse. These types
* have special properties that allow them to be treated specially.
*
* A PGBuiltin can be grouped into an array of devices. If this is
* done, the msb_ and lsb_ are set to the indices of the array
* range. Elaboration causes a gate to be created for each element of
* the array, and a name will be generated for each gate.
*/
class PGBuiltin : public PGate {
public:
enum Type { AND, NAND, OR, NOR, XOR, XNOR, BUF, BUFIF0, BUFIF1,
NOT, NOTIF0, NOTIF1, PULLDOWN, PULLUP, NMOS, RNMOS,
PMOS, RPMOS, CMOS, RCMOS, TRAN, RTRAN, TRANIF0,
TRANIF1, RTRANIF0, RTRANIF1 };
public:
explicit PGBuiltin(Type t, perm_string name,
std::list<PExpr*>*pins,
std::list<PExpr*>*del);
explicit PGBuiltin(Type t, perm_string name,
std::list<PExpr*>*pins,
PExpr*del);
~PGBuiltin();
Type type() const { return type_; }
const char * gate_name() const;
virtual void dump(std::ostream&out, unsigned ind =4) const;
virtual void elaborate(Design*, NetScope*scope) const;
virtual bool elaborate_sig(Design*des, NetScope*scope) const;
private:
void calculate_gate_and_lval_count_(unsigned&gate_count,
unsigned&lval_count) const;
NetNode* create_gate_for_output_(Design*, NetScope*,
perm_string gate_name,
unsigned instance_width) const;
bool check_delay_count(Design*des) const;
Type type_;
};
/*
* This kind of gate is an instantiation of a module. The stored type
* is the name of a module definition somewhere in the pform. This
* type also handles UDP devices, because it is generally not known at
* parse time whether a name belongs to a module or a UDP.
*/
class PGModule : public PGate {
public:
// The name is the *instance* name of the gate.
// If the binding of ports is by position, this constructor
// builds everything all at once.
explicit PGModule(perm_string type, perm_string name,
std::list<PExpr*>*pins);
// If the binding of ports is by name, this constructor takes
// the bindings and stores them for later elaboration.
explicit PGModule(perm_string type, perm_string name,
named_pexpr_t *pins, unsigned npins);
// If the module type is known by design, then use this
// constructor.
explicit PGModule(Module*type, perm_string name);
~PGModule();
// Parameter overrides can come as an ordered list, or a set
// of named expressions.
void set_parameters(std::list<PExpr*>*o);
void set_parameters(named_pexpr_t *pa, unsigned npa);
std::map<perm_string,PExpr*> attributes;
virtual void dump(std::ostream&out, unsigned ind =4) const;
virtual void elaborate(Design*, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*sc) const;
virtual bool elaborate_sig(Design*des, NetScope*scope) const;
// This returns the module name of this module. It is a
// permallocated string.
perm_string get_type() const;
private:
Module*bound_type_;
perm_string type_;
std::list<PExpr*>*overrides_;
named_pexpr_t *pins_;
unsigned npins_;
// These members support parameter override by name
named_pexpr_t *parms_;
unsigned nparms_;
friend class delayed_elaborate_scope_mod_instances;
void elaborate_mod_(Design*, Module*mod, NetScope*scope) const;
void elaborate_udp_(Design*, PUdp *udp, NetScope*scope) const;
void elaborate_scope_mod_(Design*des, Module*mod, NetScope*sc) const;
void elaborate_scope_mod_instances_(Design*des, Module*mod, NetScope*sc) const;
bool elaborate_sig_mod_(Design*des, NetScope*scope, Module*mod) const;
// Not currently used.
#if 0
bool elaborate_sig_udp_(Design*des, NetScope*scope, PUdp*udp) const;
#endif
NetNet*resize_net_to_port_(Design*des, NetScope*scope,
NetNet*sig, unsigned port_wid,
NetNet::PortType dir, bool as_signed) const;
};
#endif /* IVL_PGate_H */