ref: 8188b4f4f0e07b6669e6ae3c6c1099af917eaab4
dir: /sys/src/cmd/tcs/utf.c/
#include <u.h> #include <libc.h> #include <bio.h> #include "hdr.h" /* the our_* routines are implementations for the corresponding library routines. for a while, i tried to actually name them wctomb etc but stopped that after i found a system which made wchar_t an unsigned char. */ int our_wctomb(char *s, unsigned long wc); int our_mbtowc(unsigned long *p, char *s, unsigned n); int runetoisoutf(char *str, Rune *rune); int fullisorune(char *str, int n); int isochartorune(Rune *rune, char *str); void utf_in(int fd, long *, struct convert *out) { char buf[N]; int i, j, c, n, tot; unsigned long l; tot = 0; while((n = read(fd, buf+tot, N-tot)) >= 0){ tot += n; for(i=j=0; i<=tot-UTFmax || (i<tot && (n==0 || fullrune(buf+i, tot-i))); ){ c = our_mbtowc(&l, buf+i, tot-i); if(c == -1){ if(squawk) warn("bad UTF sequence near byte %ld in input", ninput+i); if(clean){ i++; continue; } nerrors++; l = Runeerror; c = 1; } runes[j++] = l; i += c; } OUT(out, runes, j); tot -= i; ninput += i; if(tot) memmove(buf, buf+i, tot); if(n == 0) break; } OUT(out, runes, 0); } void utf_out(Rune *base, int n, long *) { char *p; Rune *r; nrunes += n; for(r = base, p = obuf; n-- > 0; r++){ p += our_wctomb(p, *r); } noutput += p-obuf; if(p > obuf) write(1, obuf, p-obuf); } void isoutf_in(int fd, long *, struct convert *out) { char buf[N]; int i, j, c, n, tot; tot = 0; while((n = read(fd, buf+tot, N-tot)) >= 0){ tot += n; for(i=j=0; i<tot; ){ if(!fullisorune(buf+i, tot-i)) break; c = isochartorune(&runes[j], buf+i); if(runes[j] == Runeerror){ if(squawk) warn("bad UTF sequence near byte %ld in input", ninput+i); if(clean){ i++; continue; } nerrors++; } j++; i += c; } OUT(out, runes, j); tot -= i; ninput += i; if(tot) memmove(buf, buf+i, tot); if(n == 0) break; } OUT(out, runes, 0); } void isoutf_out(Rune *base, int n, long *) { char *p; Rune *r; nrunes += n; for(r = base, p = obuf; n-- > 0; r++) p += runetoisoutf(p, r); noutput += p-obuf; if(p > obuf) write(1, obuf, p-obuf); } enum { Char1 = Runeself, Rune1 = Runeself, Char21 = 0xA1, Rune21 = 0x0100, Char22 = 0xF6, Rune22 = 0x4016, Char3 = 0xFC, Rune3 = 0x10000, /* really 0x38E2E */ Esc = 0xBE, Bad = Runeerror }; static uchar U[256]; static uchar T[256]; static void mktable(void) { int i, u; for(i=0; i<256; i++) { u = i + (0x5E - 0xA0); if(i < 0xA0) u = i + (0xDF - 0x7F); if(i < 0x7F) u = i + (0x00 - 0x21); if(i < 0x21) u = i + (0xBE - 0x00); U[i] = u; T[u] = i; } } int isochartorune(Rune *rune, char *str) { int c, c1, c2; long l; if(U[0] == 0) mktable(); /* * one character sequence * 00000-0009F => 00-9F */ c = *(uchar*)str; if(c < Char1) { *rune = c; return 1; } /* * two character sequence * 000A0-000FF => A0; A0-FF */ c1 = *(uchar*)(str+1); if(c < Char21) { if(c1 >= Rune1 && c1 < Rune21) { *rune = c1; return 2; } goto bad; } /* * two character sequence * 00100-04015 => A1-F5; 21-7E/A0-FF */ c1 = U[c1]; if(c1 >= Esc) goto bad; if(c < Char22) { *rune = (c-Char21)*Esc + c1 + Rune21; return 2; } /* * three character sequence * 04016-38E2D => A6-FB; 21-7E/A0-FF */ c2 = U[*(uchar*)(str+2)]; if(c2 >= Esc) goto bad; if(c < Char3) { l = (c-Char22)*Esc*Esc + c1*Esc + c2 + Rune22; if(l >= Rune3) goto bad; *rune = l; return 3; } /* * bad decoding */ bad: *rune = Bad; return 1; } int runetoisoutf(char *str, Rune *rune) { long c; if(T[0] == 0) mktable(); /* * one character sequence * 00000-0009F => 00-9F */ c = *rune; if(c < Rune1) { str[0] = c; return 1; } /* * two character sequence * 000A0-000FF => A0; A0-FF */ if(c < Rune21) { str[0] = Char1; str[1] = c; return 2; } /* * two character sequence * 00100-04015 => A1-F5; 21-7E/A0-FF */ if(c < Rune22) { c -= Rune21; str[0] = c/Esc + Char21; str[1] = T[c%Esc]; return 2; } /* * three character sequence * 04016-38E2D => A6-FB; 21-7E/A0-FF */ c -= Rune22; str[0] = c/(Esc*Esc) + Char22; str[1] = T[c/Esc%Esc]; str[2] = T[c%Esc]; return 3; } int fullisorune(char *str, int n) { int c; if(n > 0) { c = *(uchar*)str; if(c < Char1) return 1; if(n > 1) if(c < Char22 || n > 2) return 1; } return 0; } enum { T1 = 0x00, Tx = 0x80, T2 = 0xC0, T3 = 0xE0, T4 = 0xF0, T5 = 0xF8, T6 = 0xFC, Bit1 = 7, Bitx = 6, Bit2 = 5, Bit3 = 4, Bit4 = 3, Bit5 = 2, Bit6 = 2, Mask1 = (1<<Bit1)-1, Maskx = (1<<Bitx)-1, Mask2 = (1<<Bit2)-1, Mask3 = (1<<Bit3)-1, Mask4 = (1<<Bit4)-1, Mask5 = (1<<Bit5)-1, Mask6 = (1<<Bit6)-1, Wchar1 = (1UL<<Bit1)-1, Wchar2 = (1UL<<(Bit2+Bitx))-1, Wchar3 = (1UL<<(Bit3+2*Bitx))-1, Wchar4 = (1UL<<(Bit4+3*Bitx))-1, Wchar5 = (1UL<<(Bit5+4*Bitx))-1, }; int our_wctomb(char *s, unsigned long wc) { if(s == 0) return 0; /* no shift states */ if(wc & ~Wchar2) { if(wc & ~Wchar4) { if(wc & ~Wchar5) { /* 6 bytes */ s[0] = T6 | ((wc >> 5*Bitx) & Mask6); s[1] = Tx | ((wc >> 4*Bitx) & Maskx); s[2] = Tx | ((wc >> 3*Bitx) & Maskx); s[3] = Tx | ((wc >> 2*Bitx) & Maskx); s[4] = Tx | ((wc >> 1*Bitx) & Maskx); s[5] = Tx | (wc & Maskx); return 6; } /* 5 bytes */ s[0] = T5 | (wc >> 4*Bitx); s[1] = Tx | ((wc >> 3*Bitx) & Maskx); s[2] = Tx | ((wc >> 2*Bitx) & Maskx); s[3] = Tx | ((wc >> 1*Bitx) & Maskx); s[4] = Tx | (wc & Maskx); return 5; } if(wc & ~Wchar3) { /* 4 bytes */ s[0] = T4 | (wc >> 3*Bitx); s[1] = Tx | ((wc >> 2*Bitx) & Maskx); s[2] = Tx | ((wc >> 1*Bitx) & Maskx); s[3] = Tx | (wc & Maskx); return 4; } /* 3 bytes */ s[0] = T3 | (wc >> 2*Bitx); s[1] = Tx | ((wc >> 1*Bitx) & Maskx); s[2] = Tx | (wc & Maskx); return 3; } if(wc & ~Wchar1) { /* 2 bytes */ s[0] = T2 | (wc >> 1*Bitx); s[1] = Tx | (wc & Maskx); return 2; } /* 1 byte */ s[0] = T1 | wc; return 1; } int our_mbtowc(unsigned long *p, char *s, unsigned n) { uchar *us; int c0, c1, c2, c3, c4, c5; unsigned long wc; if(s == 0) return 0; /* no shift states */ if(n < 1) goto bad; us = (uchar*)s; c0 = us[0]; if(c0 >= T3) { if(n < 3) goto bad; c1 = us[1] ^ Tx; c2 = us[2] ^ Tx; if((c1|c2) & T2) goto bad; if(c0 >= T5) { if(n < 5) goto bad; c3 = us[3] ^ Tx; c4 = us[4] ^ Tx; if((c3|c4) & T2) goto bad; if(c0 >= T6) { /* 6 bytes */ if(n < 6) goto bad; c5 = us[5] ^ Tx; if(c5 & T2) goto bad; wc = ((((((((((c0 & Mask6) << Bitx) | c1) << Bitx) | c2) << Bitx) | c3) << Bitx) | c4) << Bitx) | c5; if(wc <= Wchar5) goto bad; *p = wc; return 6; } /* 5 bytes */ wc = ((((((((c0 & Mask5) << Bitx) | c1) << Bitx) | c2) << Bitx) | c3) << Bitx) | c4; if(wc <= Wchar4) goto bad; *p = wc; return 5; } if(c0 >= T4) { /* 4 bytes */ if(n < 4) goto bad; c3 = us[3] ^ Tx; if(c3 & T2) goto bad; wc = ((((((c0 & Mask4) << Bitx) | c1) << Bitx) | c2) << Bitx) | c3; if(wc <= Wchar3) goto bad; *p = wc; return 4; } /* 3 bytes */ wc = ((((c0 & Mask3) << Bitx) | c1) << Bitx) | c2; if(wc <= Wchar2) goto bad; *p = wc; return 3; } if(c0 >= T2) { /* 2 bytes */ if(n < 2) goto bad; c1 = us[1] ^ Tx; if(c1 & T2) goto bad; wc = ((c0 & Mask2) << Bitx) | c1; if(wc <= Wchar1) goto bad; *p = wc; return 2; } /* 1 byte */ if(c0 >= Tx) goto bad; *p = c0; return 1; bad: return -1; }