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PScope.h
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PScope.h
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#ifndef IVL_PScope_H
#define IVL_PScope_H
/*
* Copyright (c) 2008-2024 Stephen Williams ([email protected])
*
* 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 "PNamedItem.h"
# include "StringHeap.h"
# include "pform_types.h"
# include "ivl_target.h"
# include <map>
# include <set>
# include <unordered_set>
# include <vector>
class PEvent;
class PExpr;
class PFunction;
class PPackage;
class AProcess;
class PProcess;
class PClass;
class PTask;
class PWire;
class Statement;
class PCallTask;
class Design;
class NetScope;
/*
* The PScope class is a base representation of an object that
* represents lexical scope. For example, a module, a function/task, a
* named block is derived from a PScope.
*
* NOTE: This is not the same concept as the "scope" of an elaborated
* hierarchy. That is represented by NetScope objects after elaboration.
*/
class LexicalScope {
public:
enum lifetime_t { INHERITED, STATIC, AUTOMATIC };
explicit LexicalScope(LexicalScope*parent)
: default_lifetime(INHERITED), has_parameter_port_list(false),
generate_counter(0), parent_(parent) { }
// A virtual destructor is so that dynamic_cast can work.
virtual ~LexicalScope() { }
lifetime_t default_lifetime;
// Symbols that are defined or declared in this scope.
std::map<perm_string,PNamedItem*>local_symbols;
// Symbols that are explicitly imported. This contains the package where
// the symbol has been decelared. When using exports, this might not be
// the same as the package where it has been imported from.
std::map<perm_string,PPackage*>explicit_imports;
// Symbols that are explicitly imported. This contains the set of
// packages from which the symbol has been imported. When using exports
// the same identifier can be imported via multiple packages.
std::map<perm_string,std::unordered_set<PPackage*>> explicit_imports_from;
// Packages that are wildcard imported. When identifiers from
// these packages are referenced, they will be added to the
// explicit imports (IEEE 1800-2012 26.3).
std::list<PPackage*>potential_imports;
// A task or function call may reference a task or function defined
// later in the scope. So here we stash the potential imports for
// task and function calls. They will be added to the explicit
// imports if we don't find a local definition.
std::map<perm_string,PPackage*>possible_imports;
struct range_t {
// True if this is an exclude
bool exclude_flag;
// lower bound
// If low_open_flag is false and low_expr=0, then use -inf
bool low_open_flag;
PExpr*low_expr;
// upper bound
// If high_open_flag is false and high_expr=0, then use +inf
bool high_open_flag;
PExpr*high_expr;
// Next range description in list
struct range_t*next;
};
/* The scope has parameters that are evaluated when the scope
is elaborated. During parsing, I put the parameters into
this map. */
struct param_expr_t : public PNamedItem {
inline param_expr_t() : data_type(0), expr(0), range(0),
local_flag(false), overridable(true) { }
// Type information.
data_type_t*data_type;
// Value expression
PExpr*expr;
// If there are range constraints, list them here
range_t*range;
// Whether it is a local parameter
bool local_flag;
// Whether the parameter can be overridden
bool overridable;
// Whether the parameter is a type parameter
bool type_flag = false;
// The lexical position of the declaration
unsigned lexical_pos = 0;
SymbolType symbol_type() const;
};
std::map<perm_string,param_expr_t*>parameters;
bool has_parameter_port_list;
// Defined types in the scope.
typedef std::map<perm_string,typedef_t*> typedef_map_t;
typedef_map_t typedefs;
// Named events in the scope.
std::map<perm_string,PEvent*>events;
// Nets and variables (wires) in the scope
std::map<perm_string,PWire*>wires;
PWire* wires_find(perm_string name);
// Genvars in the scope. These will only be present in module
// scopes, but are listed here to allow them to be found when
// creating implicit nets.
std::map<perm_string,LineInfo*> genvars;
// Variable initializations in this scope
std::vector<Statement*> var_inits;
// Behaviors (processes) in this scope
std::list<PProcess*> behaviors;
std::list<AProcess*> analog_behaviors;
// The elaboration tasks in this scope
std::list<PCallTask*> elab_tasks;
// Enumeration sets.
std::vector<enum_type_t*> enum_sets;
// A count of the generate constructs in this scope. This is
// used to automatically name unnamed generate blocks, as
// specified in the LRM.
unsigned generate_counter;
LexicalScope* parent_scope() const { return parent_; }
virtual bool var_init_needs_explicit_lifetime() const;
protected:
void dump_typedefs_(std::ostream&out, unsigned indent) const;
void dump_parameters_(std::ostream&out, unsigned indent) const;
void dump_enumerations_(std::ostream&out, unsigned indent) const;
void dump_events_(std::ostream&out, unsigned indent) const;
void dump_wires_(std::ostream&out, unsigned indent) const;
void dump_var_inits_(std::ostream&out, unsigned indent) const;
bool elaborate_var_inits_(Design*des, NetScope*scope) const;
private:
LexicalScope*parent_;
};
class PScope : public LexicalScope {
public:
// When created, a scope has a name and a parent. The name is
// the name of the definition. For example, if this is a
// module declaration, the name is the name after the "module"
// keyword, and if this is a task scope, the name is the task
// name. The parent is the lexical parent of this scope. Since
// modules do not nest in Verilog, the parent must be nil for
// modules. Scopes for tasks and functions point to their
// containing module.
explicit PScope(perm_string name, LexicalScope*parent =0);
virtual ~PScope();
perm_string pscope_name() const { return name_; }
/* These are the timescale for this scope. The value is
set by the `timescale directive or, in SystemVerilog,
by timeunit and timeprecision statements. */
int time_unit, time_precision;
/* Flags used to support warnings about timescales. */
bool time_unit_is_default;
bool time_prec_is_default;
bool has_explicit_timescale() const {
return !(time_unit_is_default || time_prec_is_default);
}
protected:
bool elaborate_sig_wires_(Design*des, NetScope*scope) const;
bool elaborate_behaviors_(Design*des, NetScope*scope) const;
private:
perm_string name_;
};
/*
* Some scopes can carry definitions. These include Modules and PClass
* scopes. These derive from PScopeExtra so that they hold the maps of
* extra definitions.
*/
class PScopeExtra : public PScope {
public:
explicit PScopeExtra(perm_string, LexicalScope*parent =0);
~PScopeExtra();
/* Task definitions within this module */
std::map<perm_string,PTask*> tasks;
std::map<perm_string,PFunction*> funcs;
/* Class definitions within this module. */
std::map<perm_string,PClass*> classes;
/* This is the lexical order of the classes, and is used by
elaboration to choose an elaboration order. */
std::vector<PClass*> classes_lexical;
/* Flags used to support warnings about timescales. */
bool time_unit_is_local;
bool time_prec_is_local;
protected:
void dump_classes_(std::ostream&out, unsigned indent) const;
void dump_tasks_(std::ostream&out, unsigned indent) const;
void dump_funcs_(std::ostream&out, unsigned indent) const;
};
#endif /* IVL_PScope_H */