gzdoom/tools/re2c/re.h
Randy Heit ec17f5a5b9 - Undid some of the changes from lempar.c v1.30->v1.31, because it broke
error handling.
- Fixed: dehsupp/scanner.re defined "}" as the token RPAREN. dehsupp/parse.y
  also defined action_list_def as needing a RBARCE. I'm surprised it worked
  at all before. I guess Lemon really was too accepting.
- Changed the way that xlatcc handles include statements so that I don't need
  to modify the logic of lempar.c. I also discovered that the grammar was
  improperly defined and only accepted the first statement. It worked before
  because Lemon used to accept multiple times before reaching the EOF token.
  I have also verified that it is still generating the proper lumps.
- Removed some unused wadsrc files from the repository.
- Fixed my re2c upgrade.
- Updated lemon.c to v1.53.

SVN r711 (trunk)
2008-01-26 04:33:34 +00:00

496 lines
7.1 KiB
C++

/* $Id: re.h 775 2007-07-10 19:33:17Z helly $ */
#ifndef _re_h
#define _re_h
#include <iostream>
#include <set>
#include "token.h"
#include "ins.h"
#include "globals.h"
namespace re2c
{
template<class _Ty>
class free_list: protected std::set<_Ty>
{
public:
typedef typename std::set<_Ty>::iterator iterator;
typedef typename std::set<_Ty>::size_type size_type;
typedef typename std::set<_Ty>::key_type key_type;
free_list(): in_clear(false)
{
}
using std::set<_Ty>::insert;
size_type erase(const key_type& key)
{
if (!in_clear)
{
return std::set<_Ty>::erase(key);
}
return 0;
}
void clear()
{
in_clear = true;
for(iterator it = this->begin(); it != this->end(); ++it)
{
delete *it;
}
std::set<_Ty>::clear();
in_clear = false;
}
~free_list()
{
clear();
}
protected:
bool in_clear;
};
typedef struct extop
{
char op;
int minsize;
int maxsize;
}
ExtOp;
struct CharPtn
{
uint card;
CharPtn *fix;
CharPtn *nxt;
};
typedef CharPtn *CharPtr;
struct CharSet
{
CharSet();
~CharSet();
CharPtn *fix;
CharPtn *freeHead, **freeTail;
CharPtr *rep;
CharPtn *ptn;
};
class Range
{
public:
Range *next;
uint lb, ub; // [lb,ub)
static free_list<Range*> vFreeList;
public:
Range(uint l, uint u) : next(NULL), lb(l), ub(u)
{
vFreeList.insert(this);
}
Range(Range &r) : next(NULL), lb(r.lb), ub(r.ub)
{
vFreeList.insert(this);
}
~Range()
{
vFreeList.erase(this);
}
friend std::ostream& operator<<(std::ostream&, const Range&);
friend std::ostream& operator<<(std::ostream&, const Range*);
};
inline std::ostream& operator<<(std::ostream &o, const Range *r)
{
return r ? o << *r : o;
}
class RegExp
{
public:
uint size;
static free_list<RegExp*> vFreeList;
public:
RegExp() : size(0)
{
vFreeList.insert(this);
}
virtual ~RegExp()
{
vFreeList.erase(this);
}
virtual const char *typeOf() = 0;
RegExp *isA(const char *t)
{
return typeOf() == t ? this : NULL;
}
virtual void split(CharSet&) = 0;
virtual void calcSize(Char*) = 0;
virtual uint fixedLength();
virtual void compile(Char*, Ins*) = 0;
virtual void display(std::ostream&) const = 0;
friend std::ostream& operator<<(std::ostream&, const RegExp&);
friend std::ostream& operator<<(std::ostream&, const RegExp*);
};
inline std::ostream& operator<<(std::ostream &o, const RegExp &re)
{
re.display(o);
return o;
}
inline std::ostream& operator<<(std::ostream &o, const RegExp *re)
{
return o << *re;
}
class NullOp: public RegExp
{
public:
static const char *type;
public:
const char *typeOf()
{
return type;
}
void split(CharSet&);
void calcSize(Char*);
uint fixedLength();
void compile(Char*, Ins*);
void display(std::ostream &o) const
{
o << "_";
}
};
class MatchOp: public RegExp
{
public:
static const char *type;
Range *match;
public:
MatchOp(Range *m) : match(m)
{
}
const char *typeOf()
{
return type;
}
void split(CharSet&);
void calcSize(Char*);
uint fixedLength();
void compile(Char*, Ins*);
void display(std::ostream&) const;
#ifdef PEDANTIC
private:
MatchOp(const MatchOp& oth)
: RegExp(oth)
, match(oth.match)
{
}
MatchOp& operator = (const MatchOp& oth)
{
new(this) MatchOp(oth);
return *this;
}
#endif
};
class RuleOp: public RegExp
{
public:
static const char *type;
private:
RegExp *exp;
public:
RegExp *ctx;
Ins *ins;
uint accept;
Token *code;
uint line;
public:
RuleOp(RegExp*, RegExp*, Token*, uint);
~RuleOp()
{
delete code;
}
const char *typeOf()
{
return type;
}
void split(CharSet&);
void calcSize(Char*);
void compile(Char*, Ins*);
void display(std::ostream &o) const
{
o << exp << "/" << ctx << ";";
}
#ifdef PEDANTIC
private:
RuleOp(const RuleOp& oth)
: RegExp(oth)
, exp(oth.exp)
, ctx(oth.ctx)
, ins(oth.ins)
, accept(oth.accept)
, code(oth.code)
, line(oth.line)
{
}
RuleOp& operator = (const RuleOp& oth)
{
new(this) RuleOp(oth);
return *this;
}
#endif
};
class RuleLine: public line_number
{
public:
RuleLine(const RuleOp& _op)
: op(_op)
{
}
uint get_line() const
{
return op.code->line;
}
const RuleOp& op;
};
RegExp *mkAlt(RegExp*, RegExp*);
class AltOp: public RegExp
{
private:
RegExp *exp1, *exp2;
public:
static const char *type;
public:
AltOp(RegExp *e1, RegExp *e2)
: exp1(e1)
, exp2(e2)
{
}
const char *typeOf()
{
return type;
}
void split(CharSet&);
void calcSize(Char*);
uint fixedLength();
void compile(Char*, Ins*);
void display(std::ostream &o) const
{
o << exp1 << "|" << exp2;
}
friend RegExp *mkAlt(RegExp*, RegExp*);
#ifdef PEDANTIC
private:
AltOp(const AltOp& oth)
: RegExp(oth)
, exp1(oth.exp1)
, exp2(oth.exp2)
{
}
AltOp& operator = (const AltOp& oth)
{
new(this) AltOp(oth);
return *this;
}
#endif
};
class CatOp: public RegExp
{
private:
RegExp *exp1, *exp2;
public:
static const char *type;
public:
CatOp(RegExp *e1, RegExp *e2)
: exp1(e1)
, exp2(e2)
{
}
const char *typeOf()
{
return type;
}
void split(CharSet&);
void calcSize(Char*);
uint fixedLength();
void compile(Char*, Ins*);
void display(std::ostream &o) const
{
o << exp1 << exp2;
}
#ifdef PEDANTIC
private:
CatOp(const CatOp& oth)
: RegExp(oth)
, exp1(oth.exp1)
, exp2(oth.exp2)
{
}
CatOp& operator = (const CatOp& oth)
{
new(this) CatOp(oth);
return *this;
}
#endif
};
class CloseOp: public RegExp
{
private:
RegExp *exp;
public:
static const char *type;
public:
CloseOp(RegExp *e)
: exp(e)
{
}
const char *typeOf()
{
return type;
}
void split(CharSet&);
void calcSize(Char*);
void compile(Char*, Ins*);
void display(std::ostream &o) const
{
o << exp << "+";
}
#ifdef PEDANTIC
private:
CloseOp(const CloseOp& oth)
: RegExp(oth)
, exp(oth.exp)
{
}
CloseOp& operator = (const CloseOp& oth)
{
new(this) CloseOp(oth);
return *this;
}
#endif
};
class CloseVOp: public RegExp
{
private:
RegExp *exp;
int min;
int max;
public:
static const char *type;
public:
CloseVOp(RegExp *e, int lb, int ub)
: exp(e)
, min(lb)
, max(ub)
{
}
const char *typeOf()
{
return type;
}
void split(CharSet&);
void calcSize(Char*);
void compile(Char*, Ins*);
void display(std::ostream &o) const
{
o << exp << "+";
}
#ifdef PEDANTIC
private:
CloseVOp(const CloseVOp& oth)
: RegExp(oth)
, exp(oth.exp)
, min(oth.min)
, max(oth.max)
{
}
CloseVOp& operator = (const CloseVOp& oth)
{
new(this) CloseVOp(oth);
return *this;
}
#endif
};
extern void genCode(std::ostream&, RegExp*);
extern void genCode(std::ostream&, uint, RegExp*);
extern void genGetState(std::ostream&, uint&, uint);
extern RegExp *mkDiff(RegExp*, RegExp*);
extern RegExp *mkAlt(RegExp*, RegExp*);
} // end namespace re2c
#endif