libpp/common/ppfsm.c

	ppfsm.c revision 34f9b3eef6fdadbda0a846aa4d68691ac40eace5
/***********************************************************************
*                                                                      *
*               This software is part of the ast package               *
*          Copyright (c) 1986-2009 AT&T Intellectual Property          *
*                      and is licensed under the                       *
*                  Common Public License, Version 1.0                  *
*                    by AT&T Intellectual Property                     *
*                                                                      *
*                A copy of the License is available at                 *
*            http://www.opensource.org/licenses/cpl1.0.txt             *
*         (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9)         *
*                                                                      *
*              Information and Software Systems Research               *
*                            AT&T Research                             *
*                           Florham Park NJ                            *
*                                                                      *
*                 Glenn Fowler <gsf@research.att.com>                  *
*                                                                      *
***********************************************************************/
#pragma prototyped
/*
 * Glenn Fowler
 * AT&T Research
 *
 * preprocessor and proto lexical analyzer fsm
 * define PROTOMAIN for standalone proto
 */

#include "pplib.h"
#include "ppfsm.h"

/*
 * lexical FSM encoding
 * derived from a standalone ansi cpp by Dennis Ritchie
 * modified for libpp by Glenn Fowler
 *
 *   fsm[] is initialized from fsminit[].  The encoding is blown out into
 *   fsm[] for time efficiency.  When in state state, and one of the
 *   characters in ch arrives, enter nextstate.  States >= TERMINAL are
 *   either final, or at least require special action.  In fsminit[] there
 *   is a line for each <state,charset,nextstate>.  Early entries are
 *   overwritten by later ones.  C_XXX is the universal set and should
 *   always be first.  Some of the fsminit[] entries are templates for
 *   groups of states.  The OP entries trigger the state copies.  States
 *   above TERMINAL are represented in fsm[] as negative values.  S_TOK and
 *   S_TOKB encode the resulting token type in the upper bits.  These actions
 *   differ in that S_TOKB has a lookahead char.
 *
 *   fsm[] has three start states:
 *
 *  PROTO   proto (ANSI -> K&R,C++,ANSI)
 *  QUICK   standalone ppcpp()
 *  TOKEN   tokenizing pplex()
 *
 *   If the next state remains the same then the fsm[] transition value is 0.
 *   MAX+1 is a power of 2 so that fsm[state][EOF==MAX+1] actually accesses
 *   fsm[state+1][0] which is ~S_EOB for all states.  This preserves the
 *   power of 2 fsm[] row size for efficient array indexing.  Thanks to
 *   D. G. Korn for the last two observations.  The pseudo non-terminal state
 *   fsm[TERMINAL][state+1] is used to differentiate EOB from EOF.
 *
 *   The bit layout is:
 *
 *  TERM    arg SPLICE  next
 *  15  14-8    7   6-0
 */

/*
 * NOTE: these must be `control' characters for all native codesets
 *       currently ok for {ascii,ebcdic1,ebcdic2,ebcdic3}
 */

#define C_DEC       001
#define C_EOF       002
#define C_HEX       003
#define C_LET       021
#define C_OCT       022
#define C_XXX       023

#define OP      (-1)
#define END     0
#define COPY        1

#define copy(t,f)   (memcpy(&fsm[t][1],&fsm[f][1],(MAX+1)*sizeof(short)),fsm[TERMINAL][(t)+1]=fsm[TERMINAL][(f)+1])

struct fsminit              /* fsm initialization row   */
{
    int     state;      /* if in this state     */
    unsigned char   ch[4];      /* and see one of these     */
    int     nextstate;  /* enter this state if <TERMINAL*/
};

static struct fsminit   fsminit[] =
{
    /* proto start state */
    {   PROTO,  { C_XXX },      S_CHR,          },
    {   PROTO,  { C_EOF },      S_EOF,          },
    {   PROTO,  { C_DEC },      BAD1,           },
    {   PROTO,  { '.' },        DOT,            },
    {   PROTO,  { C_LET },      NID,            },
    {   PROTO,  { 'L' },        LIT,            },
    {   PROTO,  { 'd', 'e', 'f', 'i' }, RES1,           },
    {   PROTO,  { 'r', 's', 't', 'v' }, RES1,           },
    {   PROTO,  { 'w', 'N' },       RES1,           },
    {   PROTO,  { '"', '\'' },      S_LITBEG,       },
    {   PROTO,  { '/' },        COM1,           },
    {   PROTO,  { '\n' },       S_NL,           },
    {   PROTO,  { ' ','\t','\f','\v' }, WS1,            },

/* proto {do,else,extern,for,if,inline,return,static,typedef,va_start,void,while,NoN} */
    {   RES1,   { C_XXX },      S_MACRO,        },
    {   RES1,   { C_LET, C_DEC },   NID,            },
    {   RES1,   { 'a' },        RES1a,          },
    {   RES1,   { 'e' },        RES1e,          },
    {   RES1,   { 'f' },        RES1f,          },
    {   RES1,   { 'h' },        RES1h,          },
    {   RES1,   { 'l' },        RES1l,          },
    {   RES1,   { 'n' },        RES1n,          },
    {   RES1,   { 'o' },        RES1o,          },
    {   RES1,   { 't' },        RES1t,          },
    {   RES1,   { 'x' },        RES1x,          },
    {   RES1,   { 'y' },        RES1y,          },

    /* proto reserved {va_start} */
    {   RES1a,  { C_XXX },      S_RESERVED,     },
    {   RES1a,  { C_LET, C_DEC },   NID,            },
    {   RES1a,  { '_','s','t','a' },    RES1a,          },
    {   RES1a,  { 'r' },        RES1a,          },

    /* proto reserved {return} */
    {   RES1e,  { C_XXX },      S_RESERVED,     },
    {   RES1e,  { C_LET, C_DEC },   NID,            },
    {   RES1e,  { 't','u','r','n' },    RES1e,          },

    /* proto reserved {if} */
    {   RES1f,  { C_XXX },      S_RESERVED,     },
    {   RES1f,  { C_LET, C_DEC },   NID,            },

    /* proto reserved {while} */
    {   RES1h,  { C_XXX },      S_RESERVED,     },
    {   RES1h,  { C_LET, C_DEC },   NID,            },
    {   RES1h,  { 'i','l','e' },    RES1h,          },

    /* proto reserved {else} */
    {   RES1l,  { C_XXX },      S_RESERVED,     },
    {   RES1l,  { C_LET, C_DEC },   NID,            },
    {   RES1l,  { 's','e' },        RES1l,          },

    /* proto reserved {inline} */
    {   RES1n,  { C_XXX },      S_RESERVED,     },
    {   RES1n,  { C_LET, C_DEC },   NID,            },
    {   RES1n,  { 'l','i','n','e' },    RES1n,          },

    /* proto reserved {do,for,void} */
    {   RES1o,  { C_XXX },      S_RESERVED,     },
    {   RES1o,  { C_LET, C_DEC },   NID,            },
    {   RES1o,  { 'r','i','d','N' },    RES1o,          },

    /* proto reserved {static} */
    {   RES1t,  { C_XXX },      S_RESERVED,     },
    {   RES1t,  { C_LET, C_DEC },   NID,            },
    {   RES1t,  { 'a','t','i','c' },    RES1t,          },

    /* proto reserved {extern} */
    {   RES1x,  { C_XXX },      S_RESERVED,     },
    {   RES1x,  { C_LET, C_DEC },   NID,            },
    {   RES1x,  { 't','e','r','n' },    RES1x,          },

    /* proto reserved {typedef} */
    {   RES1y,  { C_XXX },      S_RESERVED,     },
    {   RES1y,  { C_LET, C_DEC },   NID,            },
    {   RES1y,  { 'p','e','d','f' },    RES1y,          },

    /* saw /, perhaps start of comment */
    {   COM1,   { C_XXX },      S_CHRB,         },
    {   COM1,   { '*' },        COM2,           },
#if PROTOMAIN
    {   COM1,   { '/' },        COM5,           },
#endif

    /* saw / *, start of comment */
    {   COM2,   { C_XXX },      COM2,           },
    {   COM2,   { '\n', C_EOF },    S_COMMENT,      },
    {   COM2,   { '/' },        COM4,           },
    {   COM2,   { '*' },        COM3,           },
    {   COM2,   { '#', ';', ')' },  QUAL(COM2),     },

    /* saw the * possibly ending a comment */
    {   COM3,   { C_XXX },      COM2,           },
    {   COM3,   { '\n', C_EOF },    S_COMMENT,      },
    {   COM3,   { '#', ';', ')' },  QUAL(COM2),     },
    {   COM3,   { '*' },        COM3,           },
    {   COM3,   { '/' },        S_COMMENT,      },

    /* saw / in / * comment, possible malformed nest */
    {   COM4,   { C_XXX },      COM2,           },
    {   COM4,   { '*', '\n', C_EOF },   S_COMMENT,      },
    {   COM4,   { '/' },        COM4,           },

    /* saw / /, start of comment */
    {   COM5,   { C_XXX },      COM5,           },
    {   COM5,   { '\n', C_EOF },    S_COMMENT,      },
    {   COM5,   { '/' },        COM6,           },
    {   COM5,   { '*' },        COM7,           },

    /* saw / in / / comment, possible malformed nest */
    {   COM6,   { C_XXX },      COM5,           },
    {   COM6,   { '*', '\n', C_EOF },   S_COMMENT,      },
    {   COM6,   { '/' },        COM6,           },

    /* saw * in / /, possible malformed nest */
    {   COM7,   { C_XXX },      COM5,           },
    {   COM7,   { '\n', C_EOF },    S_COMMENT,      },
    {   COM7,   { '*' },        COM7,           },
    {   COM7,   { '/' },        S_COMMENT,      },

    /* normal identifier -- always a macro candidate */
    {   NID,    { C_XXX },      S_MACRO,        },
    {   NID,    { C_LET, C_DEC },   NID,            },

    /* saw ., operator or dbl constant */
    {   DOT,    { C_XXX },      S_CHRB,         },
    {   DOT,    { '.' },        DOT2,           },
    {   DOT,    { C_DEC },      BAD1,           },

    /* saw .., possible ... */
    {   DOT2,   { C_XXX },      BACK(T_INVALID),    },
    {   DOT2,   { '.' },        KEEP(T_VARIADIC),   },

    /* saw L (possible start of normal wide literal) */
    {   LIT,    { C_XXX },      S_MACRO,        },
    {   LIT,    { C_LET, C_DEC },   NID,            },
    {   LIT,    { '"', '\'' },      QUAL(LIT1),     },

    /* saw " or ' beginning literal */
    {   LIT1,   { C_XXX },      LIT1,           },
    {   LIT1,   { '"', '\'' },      S_LITEND,       },
    {   LIT1,   { '\n', C_EOF },    S_LITEND,       },
    {   LIT1,   { '\\' },       LIT2,           },

    /* saw \ in literal */
    {   LIT2,   { C_XXX },      S_LITESC,       },
    {   LIT2,   { '\n', C_EOF },    S_LITEND,       },

    /* eat malformed numeric constant */
    {   BAD1,   { C_XXX },      BACK(T_INVALID),    },
    {   BAD1,   { C_LET, C_DEC, '.' },  BAD1,           },
    {   BAD1,   { 'e', 'E' },       BAD2,           },

    /* eat malformed numeric fraction|exponent */
    {   BAD2,   { C_XXX },      BACK(T_INVALID),    },
    {   BAD2,   { C_LET, C_DEC, '.' },  BAD1,           },
    {   BAD2,   { '+', '-' },       BAD1,           },

    /* saw white space, eat it up */
    {   WS1,    { C_XXX },      S_WS,           },
    {   WS1,    { ' ', '\t' },      WS1,            },
    {   WS1,    { '\f', '\v' },     S_VS,           },

#if !PROTOMAIN

    /* quick template */
    {   QUICK,  { C_XXX },      QTOK,           },
    {   QUICK,  { C_EOF, MARK },    S_CHRB,         },
    {   QUICK,  { C_LET, C_DEC },   QID,            },
    {   QUICK,  { 'L' },        LIT0,           },
    {   QUICK,  { '"', '\'' },      S_LITBEG,       },
    {   QUICK,  { '/' },        S_CHRB,         },
    {   QUICK,  { '*' },        QCOM,           },
    {   QUICK,  { '#' },        SHARP1,         },
    {   QUICK,  { '\n' },       S_NL,           },
    {   QUICK,  { '\f', '\v' },     S_VS,           },

    /* copy QUICK to QUICK+1 through MAC0+1 */
    {   OP, {QUICK,QUICK+1,MAC0+1}, COPY,           },

    /* quick start state */
    {   QUICK,  { C_EOF },      S_EOF,          },
    {   QUICK,  { C_DEC },      QNUM,           },
    {   QUICK,  { MARK },       QTOK,           },
    {   QUICK,  { '/' },        COM1,           },
    {   QUICK,  { ' ', '\t' },      QUICK,          },

    /* grab non-macro tokens */
    {   QTOK,   { C_DEC },      QNUM,           },

    /* grab numeric and invalid tokens */
    {   QNUM,   { C_LET, C_DEC, '.' },  QNUM,           },
    {   QNUM,   { 'e', 'E' },       QEXP,           },

    /* grab exponent token */
    {   QEXP,   { C_LET, C_DEC, '.' },  QNUM,           },
    {   QEXP,   { '+', '-' },       QNUM,           },

    /* saw *, grab possible bad comment terminator */
    {   QCOM,   { C_DEC },      QNUM,           },
    {   QCOM,   { '/' },        S_COMMENT,      },

    /* saw L (possible start of wide string or first macro char) */
    {   MAC0,   { 'L' },        QID,            },
    {   MAC0,   { '"', '\'' },      QUAL(LIT1),     },

    /* macro candidate template */
    {   MAC0+1, { 'L' },        QID,            },

    /* copy MAC0+1 to MAC0+2 through MACN */
    {   OP, {MAC0+1,MAC0+2,MACN},   COPY            },

    /* saw L (possible start of wide string or macro L) */
    {   HIT0,   { C_XXX },      S_MACRO,        },
    {   HIT0,   { C_LET, C_DEC },   QID,            },
    {   HIT0,   { '"', '\'' },      QUAL(LIT1),     },

    /* macro hit template */
    {   HIT0+1, { C_XXX },      S_MACRO,        },
    {   HIT0+1, { C_LET, C_DEC },   QID,            },

    /* copy HIT0+1 to HIT0+2 through HITN */
    {   OP, {HIT0+1,HIT0+2,HITN},   COPY            },

    /* saw L (possible start of wide literal) */
    {   LIT0,   { C_XXX },      S_MACRO,        },
    {   LIT0,   { C_LET, C_DEC },   QID,            },
    {   LIT0,   { '"', '\'' },      QUAL(LIT1),     },

    /* (!PROTOMAIN COM1) saw /, perhaps start of comment or /= */
    {   COM1,   { '=' },        KEEP(T_DIVEQ),      },

    /* normal start state */
    {   TOKEN,  { C_XXX },      S_HUH,          },
    {   TOKEN,  { C_EOF },      S_EOF,          },
    {   TOKEN,  { C_DEC },      DEC1,           },
    {   TOKEN,  { '0' },        OCT1,           },
    {   TOKEN,  { '.' },        DOT1,           },
    {   TOKEN,  { C_LET },      NID,            },
    {   TOKEN,  { 'L' },        LIT,            },
    {   TOKEN,  { '"', '\'', '<' }, S_LITBEG,       },
    {   TOKEN,  { '/' },        COM1,           },
    {   TOKEN,  { '\n' },       S_NL,           },
    {   TOKEN,  { ' ', '\t' },      WS1,            },
    {   TOKEN,  { '\f', '\v' },     S_VS,           },
    {   TOKEN,  { '#' },        SHARP1,         },
    {   TOKEN,  { ':' },        COLON1,         },
    {   TOKEN,  { '%' },        PCT1,           },
    {   TOKEN,  { '&' },        AND1,           },
    {   TOKEN,  { '*' },        STAR1,          },
    {   TOKEN,  { '+' },        PLUS1,          },
    {   TOKEN,  { '-' },        MINUS1,         },
    {   TOKEN,  { '=' },        EQ1,            },
    {   TOKEN,  { '!' },        NOT1,           },
    {   TOKEN,  { '>' },        GT1,            },
    {   TOKEN,  { '^' },        CIRC1,          },
    {   TOKEN,  { '|' },        OR1,            },
    {   TOKEN,  { '(', ')', '[', ']' }, S_CHR,          },
    {   TOKEN,  { '{', '}', ',', ';' }, S_CHR,          },
    {   TOKEN,  { '~', '?' },       S_CHR,          },

    /* saw 0, possible oct|hex|dec|dbl constant */
    {   OCT1,   { C_XXX },      BACK(T_DECIMAL),    },
    {   OCT1,   { C_LET, C_DEC },   BAD1,           },
    {   OCT1,   { C_OCT },      OCT2,           },
    {   OCT1,   { 'e', 'E' },       DBL2,           },
    {   OCT1,   { 'l', 'L', 'u', 'U' }, QUAL(DEC2),     },
    {   OCT1,   { 'x', 'X' },       HEX1,           },
    {   OCT1,   { '.' },        DBL1,           },

    /* saw 0<oct>, oct constant */
    {   OCT2,   { C_XXX },      BACK(T_OCTAL),      },
    {   OCT2,   { C_LET, C_DEC },   BAD1,           },
    {   OCT2,   { C_OCT },      OCT2,           },
    {   OCT2,   { 'e', 'E' },       DBL2,           },
    {   OCT2,   { 'l', 'L', 'u', 'U' }, QUAL(OCT3),     },
    {   OCT2,   { '.' },        DBL1,           },

    /* oct constant qualifier */
    {   OCT3,   { C_XXX },      BACK(T_OCTAL),      },
    {   OCT3,   { C_LET, C_DEC, '.' },  BAD1,           },
    {   OCT3,   { 'l', 'L', 'u', 'U' }, QUAL(OCT3),     },

    /* saw 0 [xX], hex constant */
    {   HEX1,   { C_XXX },      BACK(T_HEXADECIMAL),    },
    {   HEX1,   { C_LET },      BAD1,           },
    {   HEX1,   { C_HEX },      HEX1,           },
    {   HEX1,   { 'e', 'E' },       HEX3,           },
    {   HEX1,   { 'l', 'L', 'u', 'U' }, QUAL(HEX2),     },
    {   HEX1,   { '.' },        HEX4,           },
    {   HEX1,   { 'p', 'P' },       HEX5,           },

    /* hex constant qualifier */
    {   HEX2,   { C_XXX },      BACK(T_HEXADECIMAL),    },
    {   HEX2,   { C_LET, C_DEC, '.' },  BAD1,           },
    {   HEX2,   { 'l', 'L', 'u', 'U' }, QUAL(HEX2),     },

    /* hex [eE][-+] botch */
    {   HEX3,   { C_XXX },      BACK(T_HEXADECIMAL),    },
    {   HEX3,   { C_LET, '.', '-', '+'},BAD1,           },
    {   HEX3,   { C_HEX },      HEX1,           },
    {   HEX3,   { 'e', 'E' },       HEX3,           },
    {   HEX3,   { 'l', 'L', 'u', 'U' }, QUAL(HEX2),     },

    /* hex dbl fraction */
    {   HEX4,   { C_XXX },      BACK(T_HEXDOUBLE),  },
    {   HEX4,   { C_LET, '.' },     BAD1,           },
    {   HEX4,   { C_HEX },      HEX4,           },
    {   HEX4,   { 'p', 'P' },       HEX5,           },
    {   HEX4,   { 'f', 'F', 'l', 'L' }, QUAL(HEX8),     },

    /* optional hex dbl exponent sign */
    {   HEX5,   { C_XXX },      BACK(T_INVALID),    },
    {   HEX5,   { C_LET, '.' },     BAD1,           },
    {   HEX5,   { '+', '-' },       HEX6,           },
    {   HEX5,   { C_DEC },      HEX7,           },

    /* mandatory hex dbl exponent first digit */
    {   HEX6,   { C_XXX },      BACK(T_INVALID),    },
    {   HEX6,   { C_LET, '.' },     BAD1,           },
    {   HEX6,   { C_DEC },      HEX7,           },

    /* hex dbl exponent digits */
    {   HEX7,   { C_XXX },      BACK(T_HEXDOUBLE),  },
    {   HEX7,   { C_LET, '.' },     BAD1,           },
    {   HEX7,   { C_DEC },      HEX7,           },
    {   HEX7,   { 'f', 'F', 'l', 'L' }, QUAL(HEX8),     },

    /* hex dbl constant qualifier */
    {   HEX8,   { C_XXX },      BACK(T_HEXDOUBLE),  },
    {   HEX8,   { C_LET, '.' },     BAD1,           },
    {   HEX8,   { 'f', 'F', 'l', 'L' }, QUAL(HEX8),     },

    /* saw <dec>, dec constant */
    {   DEC1,   { C_XXX },      BACK(T_DECIMAL),    },
    {   DEC1,   { C_LET },      BAD1,           },
    {   DEC1,   { C_DEC },      DEC1,           },
    {   DEC1,   { 'e', 'E' },       DBL2,           },
    {   DEC1,   { 'l', 'L', 'u', 'U' }, QUAL(DEC2),     },
    {   DEC1,   { '.' },        DBL1,           },

    /* dec constant qualifier */
    {   DEC2,   { C_XXX },      BACK(T_DECIMAL),    },
    {   DEC2,   { C_LET, C_DEC },   BAD1,           },
    {   DEC2,   { 'l', 'L', 'u', 'U' }, QUAL(DEC2),     },

    /* saw ., operator or dbl constant */
    {   DOT1,   { C_XXX },      S_CHRB,         },
    {   DOT1,   { '.' },        DOT2,           },
    {   DOT1,   { C_DEC },      DBL1,           },

    /* dbl fraction */
    {   DBL1,   { C_XXX },      BACK(T_DOUBLE),     },
    {   DBL1,   { C_LET, '.' },     BAD1,           },
    {   DBL1,   { C_DEC },      DBL1,           },
    {   DBL1,   { 'e', 'E' },       DBL2,           },
    {   DBL1,   { 'f', 'F', 'l', 'L' }, QUAL(DBL5),     },

    /* optional dbl exponent sign */
    {   DBL2,   { C_XXX },      BACK(T_INVALID),    },
    {   DBL2,   { C_LET, '.' },     BAD1,           },
    {   DBL2,   { '+', '-' },       DBL3,           },
    {   DBL2,   { C_DEC },      DBL4,           },

    /* mandatory dbl exponent first digit */
    {   DBL3,   { C_XXX },      BACK(T_INVALID),    },
    {   DBL3,   { C_LET, '.' },     BAD1,           },
    {   DBL3,   { C_DEC },      DBL4,           },

    /* dbl exponent digits */
    {   DBL4,   { C_XXX },      BACK(T_DOUBLE),     },
    {   DBL4,   { C_LET, '.' },     BAD1,           },
    {   DBL4,   { C_DEC },      DBL4,           },
    {   DBL4,   { 'f', 'F', 'l', 'L' }, QUAL(DBL5),     },

    /* dbl constant qualifier */
    {   DBL5,   { C_XXX },      BACK(T_DOUBLE),     },
    {   DBL5,   { C_LET, '.' },     BAD1,           },
    {   DBL5,   { 'f', 'F', 'l', 'L' }, QUAL(DBL5),     },

    /* saw < starting include header */
    {   HDR1,   { C_XXX },      HDR1,           },
    {   HDR1,   { '>', '\n', C_EOF },   S_LITEND,       },

    /* saw <binop><space> expecting = */
    {   BIN1,   { C_XXX },      S_HUH,          },
    {   BIN1,   { ' ', '\t' },      BIN1,           },

    /* 2-char ops */

    {   SHARP1, { C_XXX },      S_SHARP,        },

    {   PCT1,   { C_XXX },      S_CHRB,         },
    {   PCT1,   { '=' },        KEEP(T_MODEQ),      },

    {   AND1,   { C_XXX },      S_CHRB,         },
    {   AND1,   { '=' },        KEEP(T_ANDEQ),      },
    {   AND1,   { '&' },        KEEP(T_ANDAND),     },

    {   STAR1,  { C_XXX },      S_CHRB,         },
    {   STAR1,  { '=' },        KEEP(T_MPYEQ),      },
    {   STAR1,  { '/' },        S_COMMENT,      },

    {   PLUS1,  { C_XXX },      S_CHRB,         },
    {   PLUS1,  { '=' },        KEEP(T_ADDEQ),      },
    {   PLUS1,  { '+' },        KEEP(T_ADDADD),     },

    {   MINUS1, { C_XXX },      S_CHRB,         },
    {   MINUS1, { '=' },        KEEP(T_SUBEQ),      },
    {   MINUS1, { '-' },        KEEP(T_SUBSUB),     },
    {   MINUS1, { '>' },        KEEP(T_PTRMEM),     },

    {   COLON1, { C_XXX },      S_CHRB,         },
    {   COLON1, { '=', '>' },       S_HUH,          },

    {   LT1,    { C_XXX },      S_CHRB,         },
    {   LT1,    { '=' },        KEEP(T_LE),     },
    {   LT1,    { '<' },        LSH1,           },

    {   EQ1,    { C_XXX },      S_CHRB,         },
    {   EQ1,    { '=' },        KEEP(T_EQ),     },

    {   NOT1,   { C_XXX },      S_CHRB,         },
    {   NOT1,   { '=' },        KEEP(T_NE),     },

    {   GT1,    { C_XXX },      S_CHRB,         },
    {   GT1,    { '=' },        KEEP(T_GE),     },
    {   GT1,    { '>' },        RSH1,           },

    {   CIRC1,  { C_XXX },      S_CHRB,         },
    {   CIRC1,  { '=' },        KEEP(T_XOREQ),      },

    {   OR1,    { C_XXX },      S_CHRB,         },
    {   OR1,    { '=' },        KEEP(T_OREQ),       },
    {   OR1,    { '|' },        KEEP(T_OROR),       },

    /* 3-char ops */

    {   ARROW1, { C_XXX },      BACK(T_PTRMEM),     },
    {   ARROW1, { '*' },        KEEP(T_PTRMEMREF),  },

    {   LSH1,   { C_XXX },      BACK(T_LSHIFT),     },
    {   LSH1,   { '=' },        KEEP(T_LSHIFTEQ),   },

    {   RSH1,   { C_XXX },      BACK(T_RSHIFT),     },
    {   RSH1,   { '=' },        KEEP(T_RSHIFTEQ),   },

#endif

    /* end */
    {   OP, { 0 },          END,            }
};

short       fsm[TERMINAL+1][MAX+1];

char        trigraph[MAX+1];

#if PROTOMAIN
static char spl[] = { '\\', '\r', 0 };
static char aln[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_$@";
#else
static char spl[] = { MARK, '?', '\\', '\r', CC_sub, 0 };
static char aln[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_";
#endif
static char*    let = &aln[10];
static char hex[] = "fedcbaFEDCBA9876543210";
static char*    dec = &hex[12];
static char*    oct = &hex[14];

/*
 * runtime FSM modifications
 * ppfsm(FSM_INIT,0) must be called first
 */

void
ppfsm(int op, register char* s)
{
    register int            c;
    register int            n;
    register int            i;
    register short*         rp;
    register struct fsminit*    fp;
#if !PROTOMAIN
    char*               t;
    int             x;
#endif

    switch (op)
    {

#if !PROTOMAIN

    case FSM_IDADD:
        while (c = *s++)
            if (!ppisid(c))
            {
                if (fsm[TOKEN][c] == ~S_HUH)
                {
                    setid(c);
                    for (i = 0; i < TERMINAL; i++)
                        fsm[i][c] = IDSTATE(fsm[i]['_']);
                }
                else error(2, "%c: cannot add to identifier set", c);
            }
        break;

    case FSM_IDDEL:
        while (c = *s++)
            if (ppisid(c))
            {
                clrid(c);
                for (i = 0; i < TERMINAL; i++)
                    fsm[i][c] = ~S_HUH;
            }
        break;

#endif

    case FSM_INIT:
        for (fp = fsminit;; fp++)
        {
            if ((n = fp->nextstate) >= TERMINAL) n = ~n;
            if (fp->state == OP)
            {
#if !PROTOMAIN
                switch (n)
                {
                case COPY:
                    c = fp->ch[0];
                    n = fp->ch[2];
                    for (i = fp->ch[1]; i <= n; i++)
                        copy(i, c);
                    continue;
                default:
                    break;
                }
#endif
                break;
            }
            rp = fsm[fp->state];
            for (i = 0; i < sizeof(fp->ch) && (c = fp->ch[i]); i++)
            {
                switch (c)
                {
                case C_XXX:
                    for (c = 0; c <= MAX; c++)
                        rp[c] = n;
                    /*FALLTHROUGH*/

                case C_EOF:
                    fsm[TERMINAL][fp->state+1] = n < 0 ? ~n : n;
                    continue;

                case C_LET:
                    s = let;
                    break;

                case C_HEX:
                    s = hex;
                    break;

                case C_DEC:
                    s = dec;
                    break;

                case C_OCT:
                    s = oct;
                    break;

                default:
                    rp[c] = n;
                    continue;
                }
                while (c = *s++)
                    rp[c] = n;
            }
        }

        /*
         * install splice special cases
         * and same non-terminal transitions
         */

        for (i = 0; i < TERMINAL; i++)
        {
            rp = fsm[i];
            s = spl;
            while (c = *s++)
                if (c != MARK || !INCOMMENT(rp))
                {
                    if (rp[c] >= 0) rp[c] = ~rp[c];
                    rp[c] &= ~SPLICE;
                }
            rp[EOB] = ~S_EOB;
            for (c = 0; c <= MAX; c++)
                if (rp[c] == i)
                    rp[c] = 0;
        }
        fsm[TERMINAL][0] = ~S_EOB;

#if !PROTOMAIN

        /*
         * default character types
         */

        s = let;
        while (c = *s++)
            setid(c);
        s = dec;
        while (c = *s++)
            setdig(c);
        s = spl;
        do setsplice(c = *s++); while (c);

        /*
         * trigraph map
         */

        trigraph['='] = '#';
        trigraph['('] = '[';
        trigraph['/'] = '\\';
        trigraph[')'] = ']';
        trigraph['\''] = '^';
        trigraph['<'] = '{';
        trigraph['!'] = '|';
        trigraph['>'] = '}';
        trigraph['-'] = '~';
#endif
        break;

#if !PROTOMAIN

    case FSM_PLUSPLUS:
        if (pp.option & PLUSPLUS)
        {
            fsm[COLON1][':'] = ~KEEP(T_SCOPE);
            fsm[DOT1]['*'] = ~KEEP(T_DOTREF);
            fsm[MINUS1]['>'] = ARROW1;
            fsm[COM1]['/'] = COM5;
            t = "%<:";
            for (i = 0; i < TERMINAL; i++)
            {
                rp = fsm[i];
                if (!INCOMMENT(rp) && !INQUOTE(rp))
                {
                    s = t;
                    while (c = *s++)
                    {
                        if (rp[c] > 0) rp[c] = ~rp[c];
                        else if (!rp[c]) rp[c] = ~i;
                        rp[c] &= ~SPLICE;
                    }
                }
            }
            s = t;
            while (c = *s++) setsplice(c);
        }
        else
        {
            fsm[COLON1][':'] = ~S_CHRB;
            fsm[DOT1]['*'] = ~S_CHRB;
            fsm[MINUS1]['>'] = ~KEEP(T_PTRMEM);
            fsm[COM1]['/'] = (pp.option & PLUSCOMMENT) ? COM5 : ~S_CHRB;
        }
        break;

#if COMPATIBLE

    case FSM_COMPATIBILITY:
        if (pp.state & COMPATIBILITY)
        {
            fsm[HEX1]['e'] = HEX1;
            fsm[HEX1]['E'] = HEX1;
            fsm[QNUM]['e'] = QNUM;
            fsm[QNUM]['E'] = QNUM;
            fsm[QNUM]['u'] = ~QUAL(QNUM);
            fsm[QNUM]['U'] = ~QUAL(QNUM);
        }
        else
        {
            fsm[HEX1]['e'] = HEX3;
            fsm[HEX1]['E'] = HEX3;
            fsm[QNUM]['e'] = QEXP;
            fsm[QNUM]['E'] = QEXP;
            fsm[QNUM]['u'] = QNUM;
            fsm[QNUM]['U'] = QNUM;
        }
        break;

#endif

    case FSM_QUOTADD:
        while (c = *s++)
            if (fsm[TOKEN][c] == ~S_HUH)
                for (i = 0; i < TERMINAL; i++)
                    fsm[i][c] = fsm[i]['"'];
            else error(2, "%c: cannot add to quote set", c);
        break;

    case FSM_QUOTDEL:
        while (c = *s++)
            if (c != '"' && fsm[TOKEN][c] == fsm[TOKEN]['"'])
                for (i = 0; i < TERMINAL; i++)
                    fsm[i][c] = fsm[i]['_'];
        break;

    case FSM_OPSPACE:
        n = s ? BIN1 : ~S_CHRB;
        fsm[COM1][' '] = fsm[COM1]['\t'] = n;
        fsm[AND1][' '] = fsm[AND1]['\t'] = n;
        fsm[STAR1][' '] = fsm[STAR1]['\t'] = n;
        fsm[PCT1][' '] = fsm[PCT1]['\t'] = n;
        fsm[PLUS1][' '] = fsm[PLUS1]['\t'] = n;
        fsm[MINUS1][' '] = fsm[MINUS1]['\t'] = n;
        fsm[CIRC1][' '] = fsm[CIRC1]['\t'] = n;
        fsm[OR1][' '] = fsm[OR1]['\t'] = n;
        fsm[LSH1][' '] = fsm[LSH1]['\t'] = s ? BIN1 : ~BACK(T_LSHIFT);
        fsm[RSH1][' '] = fsm[RSH1]['\t'] = s ? BIN1 : ~BACK(T_RSHIFT);
        break;

    case FSM_MACRO:
        if (pp.truncate && strlen(s) >= pp.truncate)
        {
            x = s[pp.truncate];
            s[pp.truncate] = 0;
        }
        else x = -1;
        i = MAC0 + ((c = *s++) != 'L');
        if ((n = fsm[QUICK][c]) != (i + NMAC))
        {
            n = i;
            if (!*s) n += NMAC;
        }
        if (fsm[QUICK][c] != n)
            fsm[QUICK][c] = fsm[QCOM][c] = fsm[QTOK][c] = n;
        if (c = *s++)
        {
            for (;;)
            {
                if ((i = n) < HIT0)
                {
                    if (n < MACN) n++;
                    if (!*s)
                    {
                        n += NMAC;
                        break;
                    }
                    if (fsm[i][c] < HIT0)
                        fsm[i][c] = n;
                    if (fsm[i + NMAC][c] < HIT0)
                        fsm[i + NMAC][c] = n;
                }
                else
                {
                    if (n < HITN) n++;
                    if (!*s) break;
                    if (fsm[i][c] < HIT0)
                    {
                        n -= NMAC;
                        fsm[i][c] = n;
                    }
                }
                c = *s++;
            }
            if (x >= 0)
            {
                *s = x;
                for (n = CHAR_MIN; n <= CHAR_MAX; n++)
                    if (ppisidig(n))
                        fsm[HITN][n] = HITN;
                n = HITN;
            }
            if (fsm[i][c] < n)
                fsm[i][c] = n;
            if (i < HIT0 && fsm[i + NMAC][c] < n)
                fsm[i + NMAC][c] = n;
        }
        break;

#endif

    }
}

#if !PROTOMAIN

/*
 * file buffer refill
 * c is current input char
 */

void
refill(register int c)
{
    if (pp.in->flags & IN_eof)
    {
        pp.in->nextchr--;
        c = 0;
    }
    else
    {
        *((pp.in->nextchr = pp.in->buffer + PPBAKSIZ) - 1) = c;
        c =
#if PROTOTYPE
        (pp.in->flags & IN_prototype) ? pppread(pp.in->nextchr) :
#endif
        read(pp.in->fd, pp.in->nextchr, PPBUFSIZ);
    }
    if (c > 0)
    {
        if (pp.in->nextchr[c - 1] == '\n') pp.in->flags |= IN_newline;
        else pp.in->flags &= ~IN_newline;
#if PROTOTYPE
        if (!(pp.in->flags & IN_prototype))
#endif
        if (c < PPBUFSIZ && (pp.in->flags & IN_regular))
        {
            pp.in->flags |= IN_eof;
            close(pp.in->fd);
            pp.in->fd = -1;
        }
    }
    else
    {
        if (c < 0)
        {
            error(ERROR_SYSTEM|3, "read error");
            c = 0;
        }
        else if ((pp.in->flags ^ pp.in->prev->flags) & IN_c)
        {
            static char ket[] = { 0, '}', '\n', 0 };

            pp.in->flags ^= IN_c;
            pp.in->nextchr = ket + 1;
            c = 2;
        }
        pp.in->flags |= IN_eof;
    }
#if CHECKPOINT
    pp.in->buflen = c;
#endif
    pp.in->nextchr[c] = 0;
    debug((-7, "refill(\"%s\") = %d = \"%-.*s%s\"", error_info.file, c, (c > 32 ? 32 : c), pp.in->nextchr, c > 32 ? "..." : ""));
    if (pp.test & 0x0080)
        sfprintf(sfstderr, "===== refill(\"%s\") = %d =====\n%s\n===== eob(\"%s\") =====\n", error_info.file, c, pp.in->nextchr, error_info.file);
}

#endif