ref: 27c39c735ad6b88784ed7450af2ab088a4f13770
dir: /char.c/
#include <ctype.h> #include <stdio.h> #include <string.h> #include "roff.h" int utf8len(int c) { if (c > 0 && c <= 0x7f) return 1; if (c >= 0xfc) return 6; if (c >= 0xf8) return 5; if (c >= 0xf0) return 4; if (c >= 0xe0) return 3; if (c >= 0xc0) return 2; return c != 0; } int utf8read(char **s, char *d) { int l = utf8len((unsigned char) **s); int i; for (i = 0; i < l; i++) d[i] = (*s)[i]; d[l] = '\0'; *s += l; return l; } int utf8next(char *s, int (*next)(void)) { int c = next(); int l = utf8len(c); int i; if (c < 0) return 0; s[0] = c; for (i = 1; i < l; i++) s[i] = next(); s[l] = '\0'; return l; } /* * read the next character or escape sequence (x, \x, \(xy, \[xyz], \C'xyz') * * character returned contents of c * x '\0' x * \4x c_ni \4x * \\x '\\' \\x * \\(xy '(' xy * \\[xyz] '[' xyz * \\C'xyz' 'C' xyz */ int charnext(char *c, int (*next)(void), void (*back)(int)) { int l, n; if (!utf8next(c, next)) return -1; if (c[0] == c_ni) { utf8next(c + 1, next); return c_ni; } if (c[0] == c_ec) { utf8next(c + 1, next); if (c[1] == '(') { l = utf8next(c, next); l += utf8next(c + l, next); return '('; } else if (!n_cp && c[1] == '[') { l = 0; n = next(); while (n >= 0 && n != '\n' && n != ']' && l < GNLEN - 1) { c[l++] = n; n = next(); } c[l] = '\0'; return '['; } else if (c[1] == 'C') { argnext(c, 'C', next, back); return 'C'; } return '\\'; } return '\0'; } /* like nextchar(), but return -1 if delim was read */ int charnext_delim(char *c, int (*next)(void), void (*back)(int), char *delim) { int t = charnext(c, next, back); return strcmp(c, delim) ? t : -1; } /* convert back the character read from nextchar() (e.g. xy -> \\(xy) */ void charnext_str(char *d, char *c) { if (c[0] == c_ec || c[0] == c_ni || !c[1] || utf8len(c[0]) == strlen(c)) { strcpy(d, c); return; } if (!c[2] && utf8len(c[0]) == 1) sprintf(d, "%c(%s", c_ec, c); else sprintf(d, "%cC'%s'", c_ec, c); } /* like charnext() for string buffers */ int charread(char **s, char *c) { int ret; sstr_push(*s); ret = charnext(c, sstr_next, sstr_back); *s = sstr_pop(); return ret; } /* read the argument of a troff escape sequence */ void argnext(char *d, int cmd, int (*next)(void), void (*back)(int)) { char delim[GNLEN], cs[GNLEN]; int c; if (strchr(ESC_P, cmd)) { c = next(); if (cmd == 's' && (c == '-' || c == '+')) { *d++ = c; c = next(); } if (c == '(') { *d++ = next(); *d++ = next(); } else if (!n_cp && c == '[') { c = next(); while (c > 0 && c != '\n' && c != ']') { *d++ = c; c = next(); } } else { *d++ = c; if (cmd == 's' && c >= '1' && c <= '3') { c = next(); if (isdigit(c)) *d++ = c; else back(c); } } } if (strchr(ESC_Q, cmd)) { charnext(delim, next, back); while (charnext_delim(cs, next, back, delim) >= 0) { charnext_str(d, cs); d = strchr(d, '\0'); } } *d = '\0'; } /* this is called only for internal neatroff strings */ void argread(char **sp, char *d, int cmd) { char *s = *sp; int q; if (strchr(ESC_P, cmd)) { if (cmd == 's' && (*s == '-' || *s == '+')) *d++ = *s++; if (*s == '(') { s++; *d++ = *s++; *d++ = *s++; } else if (!n_cp && *s == '[') { s++; while (*s && *s != ']') *d++ = *s++; if (*s == ']') s++; } else { *d++ = *s++; if (cmd == 's' && s[-1] >= '1' && s[-1] <= '3') if (isdigit(*s)) *d++ = *s++; } } if (strchr(ESC_Q, cmd)) { q = *s++; while (*s && *s != q) *d++ = *s++; if (*s == q) s++; } if (cmd == 'z') *d++ = *s++; *d = '\0'; *sp = s; } /* * read a glyph or an escape sequence * * This functions reads from s either an output troff request * (only the ones emitted by wb.c) or a glyph name and updates * s. The return value is the name of the troff request (the * argument is copied into d) or zero for glyph names (it is * copied into d). Returns -1 when the end of s is reached. */ int escread(char **s, char *d) { char *r = d; if (!**s) return -1; utf8read(s, d); if (d[0] == c_ec) { utf8read(s, d + 1); if (d[1] == '(') { utf8read(s, d); utf8read(s, d + strlen(d)); } else if (!n_cp && d[1] == '[') { while (**s && **s != ']') *r++ = *(*s)++; if (**s == ']') (*s)++; } else if (strchr("CDfhmsvXx", d[1])) { int c = d[1]; argread(s, d, d[1]); return c == 'C' ? 0 : c; } } if (d[0] == c_ni) utf8read(s, d + 1); return 0; } /* * string streams: provide next()/back() interface for string buffers * * Functions like charnext() require a next()/back() interface * for reading input streams. In order to provide this interface * for string buffers, the following functions can be used: * * sstr_push(s); * charnext(c, sstr_next, sstr_back); * sstr_pop(); * * The calls to sstr_push()/sstr_pop() may be nested. */ static char *sstr_bufs[NSSTR]; /* buffer stack */ static int sstr_n; /* numbers of items in sstr_bufs[] */ static char *sstr_s; /* current buffer */ void sstr_push(char *s) { sstr_bufs[sstr_n++] = sstr_s; sstr_s = s; } char *sstr_pop(void) { char *ret = sstr_s; sstr_s = sstr_bufs[--sstr_n]; return ret; } int sstr_next(void) { return *sstr_s ? (unsigned char) *sstr_s++ : -1; } void sstr_back(int c) { sstr_s--; }