ref: 6b41566d90bd04e7899587e71d3f4fee0bc0d3f7
dir: /main.c/
/* * Mostly based on the original source codes of Plan 9 release 2 * distribution. * by Kenji Okamoto, August 4 2000 * Osaka Prefecture Univ. * [email protected] */ #include <u.h> #include <libc.h> #include <bio.h> #include "ktrans.h" #include "jisho.h" #define LSIZE 256 Rune lbuf[LSIZE]; /* hiragana buffer for key input written by send() */ Map *table = hira; /* default language conversion table */ uchar okurigana[LSIZE]; /* buffer for okurigana */ char okuri = 0; /* buffer/flag for capital input char */ int in, out; int llen, olen, joshi = 0; int natural = 1; /* not Japanese but English mode */ int changelang(int); int dotrans(Dictionary*); int nrune(char *); void send(uchar *, int); Map *match(uchar *p, int *nc, Map *table); extern Dictionary *openQDIC(char *); extern KouhoList *getKouhoHash(Dictionary*, char *); extern KouhoList *getKouhoFile(DicList*, char *); extern void freeQDIC(Dictionary*); extern void selectKouho(KouhoList **, KouhoList*); void kbdopen(void) { int n, kinfd, koutfd, fd[2]; char buf[128]; int kbd; kbd = 1; if((kinfd = open("/dev/kbd", OREAD)) < 0){ kbd = 0; if((kinfd = open("/dev/cons", OREAD)) < 0) sysfatal("open kbd: %r"); } if(bind("#|", "/n/temp", MREPL) < 0) sysfatal("bind /n/temp: %r"); if((koutfd = open("/n/temp/data1", OWRITE)) < 0) sysfatal("open kbd pipe: %r"); if(bind("/n/temp/data", kbd? "/dev/kbd": "/dev/cons", MREPL) < 0) sysfatal("bind kbd pipe: %r"); unmount(nil, "/n/temp"); if(!kbd){ in = kinfd; out = koutfd; return; } if(pipe(fd) < 0) sysfatal("pipe: %r"); if(fork()){ in = out = fd[0]; close(fd[1]); close(kinfd); close(koutfd); return; } close(fd[0]); if(fork()){ Biobuf b; long r; Binit(&b, fd[1], OREAD); while((r = Bgetrune(&b)) >= 0){ n = snprint(buf, sizeof(buf), "c%C", (Rune)r)+1; write(koutfd, buf, n); /* pass on result */ } } else { while((n = read(kinfd, buf, sizeof(buf))) > 0){ buf[n-1] = 0; if(n < 2 || buf[0] != 'c') write(koutfd, buf, n); /* pass on */ else write(fd[1], buf+1, n-2); /* to translator */ } } exits(0); } void main(int argc, char **argv) { uchar *bp, *ep, buf[128]; Map *mp; int nchar, wantmore; int n, c; char jishoname[64], *dicname; Dictionary *jisho; USED(argc); USED(argv); dicname = getenv("jisho"); if(!dicname) dicname = strcat(getenv("home"), "/lib/kanji.dict"); strcpy(jishoname, dicname); jisho = openQDIC(jishoname); kbdopen(); if(fork()) exits(0); /* parent process will exit */ bp = ep = buf; /* bp = base point of input string */ /* ep = end point of input string */ /* buf = unsigned buffer array */ wantmore = 0; for (;;) { /* key board input loop */ getmore: if (bp>=ep || wantmore) { if (wantmore==0) bp = ep = buf; /* clear all */ n = read(in, ep, &buf[sizeof(buf)]-ep); /* read from stdin */ if (n<=0) exits(""); ep += n; /* ep => end point of input string */ *ep = '\0'; } while (bp<ep) { /* there are input data */ if (table == hira && natural != 1 && (*bp>'A' && *bp<='Z') && ep-bp<2 && !strchr("EIOU", *bp)) { wantmore = 1; goto getmore; } if (!fullrune((char *)bp, ep-bp)) { /* not enough length of input */ wantmore = 1; goto getmore; } wantmore = 0; if (*bp=='') { /* ^x read ktrans-jisho once more */ freeQDIC(jisho); jisho = openQDIC(jishoname); llen = 0; olen = okuri = joshi = 0; wantmore=0; bp=ep=buf; continue; } if (*bp=='') { /* Shift+Space (start translate comannd) */ c = dotrans(jisho); if (c) *bp = c; /* pointer to translated rune */ else bp++; continue; } if (*bp=='') { /* ^l (no translate comannd) */ bp++; llen = 0; olen = okuri = joshi = 0; continue; } if (changelang(*bp)) { /* change language mode OK */ bp++; olen = okuri = joshi = 0; continue; } if (natural || *bp<=' ' || *bp>='{') { /* English mode but not ascii */ Rune r; int rlen = chartorune(&r, (char *)bp); send(bp, rlen); /* write bp to /dev/cons */ bp += rlen; continue; } if (table == hira && (*bp >= 'A' && *bp <= 'Z') && (*(bp+1) < 'A' || *(bp+1) > 'Z')) { *bp = okuri = tolower(*bp); joshi = olen = 0; } else if (table == hira && (*bp >= 'A' && *bp <= 'Z') && (*(bp+1) >= 'A' && *(bp+1) <= 'Z')) { *bp = okuri = tolower(*bp); *(bp+1) = tolower(*(bp+1)); joshi = 1; olen = 0; } /* BUG! we have to hit ^l at every beginning of the new line... sorry if (table == hira && *bp == '\n') { Rune r; int rlen = chartorune(&r, (char *)bp); send(bp, rlen); bp++; olen = okuri = joshi = 0; continue; } */ mp = match(bp, &nchar, table); if (mp == 0) { if (nchar>0) { /* match, longer possible */ wantmore++; break; } send(bp++, 1); /* alphabet in kana mode */ } else { send((uchar*)mp->kana, strlen(mp->kana)); bp += nchar; } } } } int min(int a, int b) { return a<b? a: b; } /* *send UTF string (p) with length (n) to stdout * and write rune (r) in global lbuf[] buffer * or okurigana[] buffer if okuri (verb or joshi) mode */ void send(uchar *p, int n) { Rune r; uchar *ep; if (write(out, (char *)p, n) != n) /* write to stdout */ exits(""); if (llen>LSIZE-64) { memmove((char*)lbuf, (char*)lbuf+64, 64*sizeof(Rune)); llen -= 64; } if (table!=hira || natural) return; ep = p+n; if(okuri) { while (olen<LSIZE && p<ep) okurigana[olen++] = *p++; } else { while (llen<LSIZE && p<ep) { p += chartorune(&r, (char*)p); if (r=='\b') { /* handle backspace */ if (llen>0) llen--; continue; } if (r==0x80) /* ignore view key */ continue; /* if (r<0x3041 || r>0x309e) { reset if out of hiragana range llen = 0; we use this for okuri-ari entries continue; } */ lbuf[llen++] = r; } } } /* * Romaji to Hiragana/Katakana conversion * romaji shoud be input as small letter * returns the matched address in table, hira, kata etc. * nc: nubmer of character(return value) */ Map * match(uchar *p, int *nc, Map *table) { register Map *longp = 0, *kp; static char last; int longest = 0; *nc = -1; for (kp=table; kp->roma; kp++) { if (*p == *kp->roma) { int lr = strlen(kp->roma); int len = min(lr, strlen((char *)p)); if (strncmp(kp->roma, (char *)p, len)==0) { if (len<lr) { *nc = 1; return 0; } if (len>longest) { longest = len; longp = kp; } } } } if (longp) { last = longp->roma[longest-1]; *nc = longp->advance; } return(longp); } int changelang(int c) { if (c=='') { /* ^k (Japanese Katakana input mode) */ natural = 0; table = kata; llen = 0; return 1; } if (c=='') { /* ^n (Japanese hiragana mode ) */ natural = 0; llen = 0; table = hira; return 1; } if (c=='') { /* ^s (Korean mode) */ natural = 0; table = hangul; llen = 0; return 1; } if (c=='') { /* ^t (English mode) */ natural = 1; llen = 0; return 1; } if (c=='') { /* ^r (Russian mode) */ natural = 0; table = cyril; llen = 0; return 1; } if (c=='') { /* ^o (Greek mode ) */ natural = 0; table = greek; llen = 0; return 1; } return 0; } /* * write translated kanji runes to stdout * and returns last charcter if it's not Shift+Space. * if the last is Shift+Space, proceed translation to next kouho */ int dotrans(Dictionary *dic) { Rune *res, r[1]; char v[1024], *p, tbuf[64], hirabuf[64]; int j, lastlen, nokouho = 0; char ch; KouhoList *fstkouho, *currentkouho; if (llen==0) return 0; /* not use kanji transform function */ if (okuri && joshi != 1) { lbuf[llen++] = (Rune)okuri; lbuf[llen] = 0; }else lbuf[llen] = 0; okurigana[olen] = 0; /* * search the mached index to the key word from the dict hash table , and * returns a pointer to the matched kouho if success, * or returns 0 if failed. */ res = lbuf; for (j=0; *res != L'\0'; j += runetochar(v+j, res++)); v[j] = '\0'; strcpy(tbuf, v); strcpy(hirabuf, v); /* to remeber the initial hiragana input */ if (okuri && joshi != 1) hirabuf[strlen(hirabuf) - 1] = '\0'; /* verb mode */ if(!(fstkouho = getKouhoHash(dic, v))) { /* not found */ llen = olen = okuri = joshi = 0; okurigana[0] = 0; return 0; } currentkouho = fstkouho; for(;;) { p = currentkouho->kouhotop; /* p to the head of kanji kouho array */ lastlen = nrune(tbuf); /* number of rune chars */ if (okuri && joshi != 1) /* verb mode */ for (j=0; j<lastlen-1; j++) write(out, "\b", 1); /* clear hiragana input */ else for (j=0; j<lastlen; j++) write(out, "\b", 1); /* clear hiragana input */ if (okuri) { lastlen = nrune((char *)okurigana); for (j=0; j<lastlen; j++) write(out, "\b", 1); } write(out, p, strlen(p)); /* write kanji to stdout */ if (okuri) write(out, (char *)okurigana, olen); if (read(in, &ch, 1)<=0) /* read from stdin */ exits(0); if (ch == '') { /* if next input is Shift+Space, once more */ if(currentkouho->nextkouho != 0) { /* have next kouho */ nokouho = 0; strcpy(tbuf, p); currentkouho = currentkouho->nextkouho; if (okuri && joshi != 1) { /* verb mode */ for (j=0; j<nrune(tbuf); j++) write(out, "\b", 1); } continue; } else { /* the last kouho */ if (okuri) { lastlen = nrune((char *)okurigana); for (j=0; j<lastlen; j++) write(out, "\b", 1); } for (lastlen=0; *p != 0; p += j) { j = chartorune(r, p); lastlen++; } for (j=0; j<lastlen; j++) write(out, "\b", 1); if(hirabuf[0]) write(out, hirabuf, strlen(hirabuf)); if(okurigana[0]) write(out, (char *)okurigana, olen); olen = okuri = joshi = 0; okurigana[0] = 0; break; } } else { if(!nokouho) /* learn the previous use of the kouho */ selectKouho(&(fstkouho->dicitem->kouho), currentkouho); olen = okuri = joshi = 0; okurigana[0] = 0; break; } } llen = 0; return ch; } /* * returns number of characters in the pointed Rune */ int nrune(char *p) { int n = 0; Rune r; while (*p) { p += chartorune(&r, p); n++; } return n; }