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Statement.h
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Statement.h
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#ifndef IVL_Statement_H
#define IVL_Statement_H
/*
* Copyright (c) 1998-2017 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 <string>
# include <vector>
# include <list>
# include "ivl_target.h"
# include "svector.h"
# include "StringHeap.h"
# include "PDelays.h"
# include "PExpr.h"
# include "PScope.h"
# include "HName.h"
# include "LineInfo.h"
class PExpr;
class PChainConstructor;
class PPackage;
class Statement;
class PEventStatement;
class Design;
class NetAssign_;
class NetCAssign;
class NetDeassign;
class NetForce;
class NetScope;
/*
* The PProcess is the root of a behavioral process. Each process gets
* one of these, which contains its type (initial, always, or final)
* and a pointer to the single statement that is the process. A module
* may have several concurrent processes.
*/
class PProcess : public LineInfo {
public:
PProcess(ivl_process_type_t t, Statement*st)
: type_(t), statement_(st) { }
virtual ~PProcess();
bool elaborate(Design*des, NetScope*scope) const;
ivl_process_type_t type() const { return type_; }
Statement*statement() { return statement_; }
map<perm_string,PExpr*> attributes;
virtual void dump(ostream&out, unsigned ind) const;
private:
ivl_process_type_t type_;
Statement*statement_;
};
/*
* The PProcess is a process, the Statement is the actual action. In
* fact, the Statement class is abstract and represents all the
* possible kinds of statements that exist in Verilog.
*/
class Statement : public LineInfo {
public:
Statement() { }
virtual ~Statement() =0;
virtual void dump(ostream&out, unsigned ind) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
map<perm_string,PExpr*> attributes;
};
/*
* Assignment statements of the various forms are handled by this
* type. The rvalue is an expression. The lvalue needs to be figured
* out by the parser as much as possible.
*/
class PAssign_ : public Statement {
public:
explicit PAssign_(PExpr*lval, PExpr*ex, bool is_constant);
explicit PAssign_(PExpr*lval, PExpr*de, PExpr*ex);
explicit PAssign_(PExpr*lval, PExpr*cnt, PEventStatement*de, PExpr*ex);
virtual ~PAssign_() =0;
const PExpr* lval() const { return lval_; }
PExpr* rval() const { return rval_; }
protected:
NetAssign_* elaborate_lval(Design*, NetScope*scope) const;
NetExpr* elaborate_rval_(Design*, NetScope*, ivl_type_t lv_net_type,
ivl_variable_type_t lv_type,
unsigned lv_width,
bool force_unsigned =false) const;
NetExpr* elaborate_rval_(Design*, NetScope*, ivl_type_t ntype) const;
NetExpr* elaborate_rval_obj_(Design*, NetScope*,
ivl_variable_type_t type) const;
PExpr* delay_;
PEventStatement*event_;
PExpr* count_;
private:
PExpr* lval_;
PExpr* rval_;
bool is_constant_;
};
class PAssign : public PAssign_ {
public:
// lval - assignment l-value
// ex - assignment r-value
// op - compressed assignment operator (i.e. '+', '-', ...)
// de - delayed assignment delay expression
explicit PAssign(PExpr*lval, PExpr*ex);
explicit PAssign(PExpr*lval, char op, PExpr*ex);
explicit PAssign(PExpr*lval, PExpr*de, PExpr*ex);
explicit PAssign(PExpr*lval, PExpr*cnt, PEventStatement*de, PExpr*ex);
explicit PAssign(PExpr*lval, PExpr*ex, bool is_constant);
~PAssign();
virtual void dump(ostream&out, unsigned ind) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
private:
NetProc* elaborate_compressed_(Design*des, NetScope*scope) const;
char op_;
};
class PAssignNB : public PAssign_ {
public:
explicit PAssignNB(PExpr*lval, PExpr*ex);
explicit PAssignNB(PExpr*lval, PExpr*de, PExpr*ex);
explicit PAssignNB(PExpr*lval, PExpr*cnt, PEventStatement*de, PExpr*ex);
~PAssignNB();
virtual void dump(ostream&out, unsigned ind) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
private:
NetProc*assign_to_memory_(class NetMemory*, PExpr*,
Design*des, NetScope*scope) const;
};
/*
* A block statement is an ordered list of statements that make up the
* block. The block can be sequential or parallel, which only affects
* how the block is interpreted. The parser collects the list of
* statements before constructing this object, so it knows a priori
* what is contained.
*/
class PBlock : public PScope, public Statement {
public:
enum BL_TYPE { BL_SEQ, BL_PAR, BL_JOIN_NONE, BL_JOIN_ANY };
// If the block has a name, it is a scope and also has a parent.
explicit PBlock(perm_string n, LexicalScope*parent, BL_TYPE t);
// If it doesn't have a name, it's not a scope
explicit PBlock(BL_TYPE t);
~PBlock();
BL_TYPE bl_type() const { return bl_type_; }
bool var_init_needs_explicit_lifetime() const;
// This is only used if this block is the statement list for a
// constructor. We look for a PChainConstructor as the first
// statement, and if it is there, extract it.
PChainConstructor*extract_chain_constructor();
// If the bl_type() is BL_PAR, it is possible to replace it
// with JOIN_NONE or JOIN_ANY. This is to help the parser.
void set_join_type(BL_TYPE);
void set_statement(const std::vector<Statement*>&st);
// Copy the statement from that block to the front of this
// block.
void push_statement_front(Statement*that);
virtual void dump(ostream&out, unsigned ind) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
private:
BL_TYPE bl_type_;
std::vector<Statement*>list_;
};
class PCallTask : public Statement {
public:
explicit PCallTask(PPackage*pkg, const pform_name_t&n, const list<PExpr*>&parms);
explicit PCallTask(const pform_name_t&n, const list<PExpr*>&parms);
explicit PCallTask(perm_string n, const list<PExpr*>&parms);
~PCallTask();
const pform_name_t& path() const;
virtual void dump(ostream&out, unsigned ind) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
private:
NetProc* elaborate_sys(Design*des, NetScope*scope) const;
NetProc* elaborate_usr(Design*des, NetScope*scope) const;
NetProc*elaborate_method_(Design*des, NetScope*scope,
bool add_this_flag = false) const;
NetProc*elaborate_function_(Design*des, NetScope*scope) const;
NetProc*elaborate_build_call_(Design*des, NetScope*scope,
NetScope*task, NetExpr*use_this) const;
NetProc*elaborate_sys_task_method_(Design*des, NetScope*scope,
NetNet*net,
perm_string method_name,
const char*sys_task_name) const;
bool test_task_calls_ok_(Design*des, NetScope*scope) const;
PPackage*package_;
pform_name_t path_;
vector<PExpr*> parms_;
};
class PCase : public Statement {
public:
struct Item {
list<PExpr*>expr;
Statement*stat;
};
PCase(NetCase::TYPE, PExpr*ex, svector<Item*>*);
~PCase();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
NetCase::TYPE type_;
PExpr*expr_;
svector<Item*>*items_;
private: // not implemented
PCase(const PCase&);
PCase& operator= (const PCase&);
};
class PCAssign : public Statement {
public:
explicit PCAssign(PExpr*l, PExpr*r);
~PCAssign();
virtual NetCAssign* elaborate(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*lval_;
PExpr*expr_;
};
/*
* This represents the syntax "super.new(...)". This is not really an
* executable statement, but the elaborator will handle these
* specially and will remove them from the statement stream. If any
*/
class PChainConstructor : public Statement {
public:
explicit PChainConstructor(const list<PExpr*>&parms);
~PChainConstructor();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
inline const std::vector<PExpr*>& chain_args(void) const
{ return parms_; }
private:
std::vector<PExpr*> parms_;
};
class PCondit : public Statement {
public:
PCondit(PExpr*ex, Statement*i, Statement*e);
~PCondit();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*expr_;
Statement*if_;
Statement*else_;
private: // not implemented
PCondit(const PCondit&);
PCondit& operator= (const PCondit&);
};
class PDeassign : public Statement {
public:
explicit PDeassign(PExpr*l);
~PDeassign();
virtual NetDeassign* elaborate(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*lval_;
};
class PDelayStatement : public Statement {
public:
PDelayStatement(PExpr*d, Statement*st);
~PDelayStatement();
virtual void dump(ostream&out, unsigned ind) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
private:
PExpr*delay_;
Statement*statement_;
};
/*
* This represents the parsing of a disable <scope> statement.
*/
class PDisable : public Statement {
public:
explicit PDisable(const pform_name_t&sc);
~PDisable();
virtual void dump(ostream&out, unsigned ind) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
private:
pform_name_t scope_;
};
class PDoWhile : public Statement {
public:
PDoWhile(PExpr*ex, Statement*st);
~PDoWhile();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*cond_;
Statement*statement_;
};
/*
* The event statement represents the event delay in behavioral
* code. It comes from such things as:
*
* @name <statement>;
* @(expr) <statement>;
* @* <statement>;
*/
class PEventStatement : public Statement {
public:
explicit PEventStatement(const svector<PEEvent*>&ee);
explicit PEventStatement(PEEvent*ee);
// Make an @* statement or make a special @* version with the items
// from functions added and ouputs removed for always_comb/latch.
explicit PEventStatement(bool search_funcs = false);
~PEventStatement();
void set_statement(Statement*st);
virtual void dump(ostream&out, unsigned ind) const;
// Call this with a NULL statement only. It is used to print
// the event expression for inter-assignment event controls.
virtual void dump_inline(ostream&out) const;
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
bool has_aa_term(Design*des, NetScope*scope);
// This method is used to elaborate, but attach a previously
// elaborated statement to the event.
NetProc* elaborate_st(Design*des, NetScope*scope, NetProc*st) const;
NetProc* elaborate_wait(Design*des, NetScope*scope, NetProc*st) const;
NetProc* elaborate_wait_fork(Design*des, NetScope*scope) const;
private:
svector<PEEvent*>expr_;
Statement*statement_;
bool search_funcs_;
};
ostream& operator << (ostream&o, const PEventStatement&obj);
class PForce : public Statement {
public:
explicit PForce(PExpr*l, PExpr*r);
~PForce();
virtual NetForce* elaborate(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*lval_;
PExpr*expr_;
};
class PForeach : public Statement {
public:
explicit PForeach(perm_string var, const std::list<perm_string>&ix, Statement*stmt);
~PForeach();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
NetProc* elaborate_static_array_(Design*des, NetScope*scope,
const std::vector<netrange_t>&dims) const;
private:
perm_string array_var_;
std::vector<perm_string> index_vars_;
Statement*statement_;
};
class PForever : public Statement {
public:
explicit PForever(Statement*s);
~PForever();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
Statement*statement_;
};
class PForStatement : public Statement {
public:
PForStatement(PExpr*n1, PExpr*e1, PExpr*cond,
Statement*step, Statement*body);
~PForStatement();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr* name1_;
PExpr* expr1_;
PExpr*cond_;
Statement*step_;
Statement*statement_;
};
class PNoop : public Statement {
public:
PNoop() { }
~PNoop() { }
};
class PRepeat : public Statement {
public:
explicit PRepeat(PExpr*expr, Statement*s);
~PRepeat();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*expr_;
Statement*statement_;
};
class PRelease : public Statement {
public:
explicit PRelease(PExpr*l);
~PRelease();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*lval_;
};
class PReturn : public Statement {
public:
explicit PReturn(PExpr*e);
~PReturn();
NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void dump(std::ostream&out, unsigned ind) const;
private:
PExpr*expr_;
};
/*
* The PTrigger statement sends a trigger to a named event. Take the
* name here.
*/
class PTrigger : public Statement {
public:
explicit PTrigger(const pform_name_t&ev);
~PTrigger();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
pform_name_t event_;
};
class PWhile : public Statement {
public:
PWhile(PExpr*ex, Statement*st);
~PWhile();
virtual NetProc* elaborate(Design*des, NetScope*scope) const;
virtual void elaborate_scope(Design*des, NetScope*scope) const;
virtual void elaborate_sig(Design*des, NetScope*scope) const;
virtual void dump(ostream&out, unsigned ind) const;
private:
PExpr*cond_;
Statement*statement_;
};
#endif /* IVL_Statement_H */