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/**************************************************************************** * Copyright (c) 1998-2007,2008 Free Software Foundation, Inc. * * * * Permission is hereby granted, free of charge, to any person obtaining a * * copy of this software and associated documentation files (the * * "Software"), to deal in the Software without restriction, including * * without limitation the rights to use, copy, modify, merge, publish, * * distribute, distribute with modifications, sublicense, and/or sell * * copies of the Software, and to permit persons to whom the Software is * * furnished to do so, subject to the following conditions: * * * * The above copyright notice and this permission notice shall be included * * in all copies or substantial portions of the Software. * * * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * * IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR * * THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * * * Except as contained in this notice, the name(s) of the above copyright * * holders shall not be used in advertising or otherwise to promote the * * sale, use or other dealings in this Software without prior written * * authorization. * ****************************************************************************/ /**************************************************************************** * Author: Zeyd M. Ben-Halim <zmbenhal@netcom.com> 1992,1995 * * and: Eric S. Raymond <esr@snark.thyrsus.com> * * and: Thomas E. Dickey, 1996 on * ****************************************************************************/ /* * tparm.c * */ #include <curses.priv.h> #include <ctype.h> #include <term.h> #include <tic.h> MODULE_ID("$Id: lib_tparm.c,v 1.76 2008/08/16 19:22:55 tom Exp $") /* * char * * tparm(string, ...) * * Substitute the given parameters into the given string by the following * rules (taken from terminfo(5)): * * Cursor addressing and other strings requiring parame- * ters in the terminal are described by a parameterized string * capability, with like escapes %x in it. For example, to * address the cursor, the cup capability is given, using two * parameters: the row and column to address to. (Rows and * columns are numbered from zero and refer to the physical * screen visible to the user, not to any unseen memory.) If * the terminal has memory relative cursor addressing, that can * be indicated by * * The parameter mechanism uses a stack and special % * codes to manipulate it. Typically a sequence will push one * of the parameters onto the stack and then print it in some * format. Often more complex operations are necessary. * * The % encodings have the following meanings: * * %% outputs `%' * %c print pop() like %c in printf() * %s print pop() like %s in printf() * %[[:]flags][width[.precision]][doxXs] * as in printf, flags are [-+#] and space * The ':' is used to avoid making %+ or %- * patterns (see below). * * %p[1-9] push ith parm * %P[a-z] set dynamic variable [a-z] to pop() * %g[a-z] get dynamic variable [a-z] and push it * %P[A-Z] set static variable [A-Z] to pop() * %g[A-Z] get static variable [A-Z] and push it * %l push strlen(pop) * %'c' push char constant c * %{nn} push integer constant nn * * %+ %- %* %/ %m * arithmetic (%m is mod): push(pop() op pop()) * %& %| %^ bit operations: push(pop() op pop()) * %= %> %< logical operations: push(pop() op pop()) * %A %O logical and & or operations for conditionals * %! %~ unary operations push(op pop()) * %i add 1 to first two parms (for ANSI terminals) * * %? expr %t thenpart %e elsepart %; * if-then-else, %e elsepart is optional. * else-if's are possible ala Algol 68: * %? c1 %t b1 %e c2 %t b2 %e c3 %t b3 %e c4 %t b4 %e b5 %; * * For those of the above operators which are binary and not commutative, * the stack works in the usual way, with * %gx %gy %m * resulting in x mod y, not the reverse. */ NCURSES_EXPORT_VAR(int) _nc_tparm_err = 0; #define TPS(var) _nc_prescreen.tparm_state.var #if NO_LEAKS NCURSES_EXPORT(void) _nc_free_tparm(void) { if (TPS(out_buff) != 0) { FreeAndNull(TPS(out_buff)); TPS(out_size) = 0; TPS(out_used) = 0; FreeAndNull(TPS(fmt_buff)); TPS(fmt_size) = 0; } } #endif static NCURSES_INLINE void get_space(size_t need) { need += TPS(out_used); if (need > TPS(out_size)) { TPS(out_size) = need * 2; TPS(out_buff) = typeRealloc(char, TPS(out_size), TPS(out_buff)); if (TPS(out_buff) == 0) _nc_err_abort(MSG_NO_MEMORY); } } static NCURSES_INLINE void save_text(const char *fmt, const char *s, int len) { size_t s_len = strlen(s); if (len > (int) s_len) s_len = len; get_space(s_len + 1); (void) sprintf(TPS(out_buff) + TPS(out_used), fmt, s); TPS(out_used) += strlen(TPS(out_buff) + TPS(out_used)); } static NCURSES_INLINE void save_number(const char *fmt, int number, int len) { if (len < 30) len = 30; /* actually log10(MAX_INT)+1 */ get_space((unsigned) len + 1); (void) sprintf(TPS(out_buff) + TPS(out_used), fmt, number); TPS(out_used) += strlen(TPS(out_buff) + TPS(out_used)); } static NCURSES_INLINE void save_char(int c) { if (c == 0) c = 0200; get_space(1); TPS(out_buff)[TPS(out_used)++] = (char) c; } static NCURSES_INLINE void npush(int x) { if (TPS(stack_ptr) < STACKSIZE) { TPS(stack)[TPS(stack_ptr)].num_type = TRUE; TPS(stack)[TPS(stack_ptr)].data.num = x; TPS(stack_ptr)++; } else { DEBUG(2, ("npush: stack overflow: %s", _nc_visbuf(TPS(tparam_base)))); _nc_tparm_err++; } } static NCURSES_INLINE int npop(void) { int result = 0; if (TPS(stack_ptr) > 0) { TPS(stack_ptr)--; if (TPS(stack)[TPS(stack_ptr)].num_type) result = TPS(stack)[TPS(stack_ptr)].data.num; } else { DEBUG(2, ("npop: stack underflow: %s", _nc_visbuf(TPS(tparam_base)))); _nc_tparm_err++; } return result; } static NCURSES_INLINE void spush(char *x) { if (TPS(stack_ptr) < STACKSIZE) { TPS(stack)[TPS(stack_ptr)].num_type = FALSE; TPS(stack)[TPS(stack_ptr)].data.str = x; TPS(stack_ptr)++; } else { DEBUG(2, ("spush: stack overflow: %s", _nc_visbuf(TPS(tparam_base)))); _nc_tparm_err++; } } static NCURSES_INLINE char * spop(void) { static char dummy[] = ""; /* avoid const-cast */ char *result = dummy; if (TPS(stack_ptr) > 0) { TPS(stack_ptr)--; if (!TPS(stack)[TPS(stack_ptr)].num_type && TPS(stack)[TPS(stack_ptr)].data.str != 0) result = TPS(stack)[TPS(stack_ptr)].data.str; } else { DEBUG(2, ("spop: stack underflow: %s", _nc_visbuf(TPS(tparam_base)))); _nc_tparm_err++; } return result; } static NCURSES_INLINE const char * parse_format(const char *s, char *format, int *len) { *len = 0; if (format != 0) { bool done = FALSE; bool allowminus = FALSE; bool dot = FALSE; bool err = FALSE; char *fmt = format; int my_width = 0; int my_prec = 0; int value = 0; *len = 0; *format++ = '%'; while (*s != '\0' && !done) { switch (*s) { case 'c': /* FALLTHRU */ case 'd': /* FALLTHRU */ case 'o': /* FALLTHRU */ case 'x': /* FALLTHRU */ case 'X': /* FALLTHRU */ case 's': *format++ = *s; done = TRUE; break; case '.': *format++ = *s++; if (dot) { err = TRUE; } else { /* value before '.' is the width */ dot = TRUE; my_width = value; } value = 0; break; case '#': *format++ = *s++; break; case ' ': *format++ = *s++; break; case ':': s++; allowminus = TRUE; break; case '-': if (allowminus) { *format++ = *s++; } else { done = TRUE; } break; default: if (isdigit(UChar(*s))) { value = (value * 10) + (*s - '0'); if (value > 10000) err = TRUE; *format++ = *s++; } else { done = TRUE; } } } /* * If we found an error, ignore (and remove) the flags. */ if (err) { my_width = my_prec = value = 0; format = fmt; *format++ = '%'; *format++ = *s; } /* * Any value after '.' is the precision. If we did not see '.', then * the value is the width. */ if (dot) my_prec = value; else my_width = value; *format = '\0'; /* return maximum string length in print */ *len = (my_width > my_prec) ? my_width : my_prec; } return s; } #define isUPPER(c) ((c) >= 'A' && (c) <= 'Z') #define isLOWER(c) ((c) >= 'a' && (c) <= 'z') /* * Analyze the string to see how many parameters we need from the varargs list, * and what their types are. We will only accept string parameters if they * appear as a %l or %s format following an explicit parameter reference (e.g., * %p2%s). All other parameters are numbers. * * 'number' counts coarsely the number of pop's we see in the string, and * 'popcount' shows the highest parameter number in the string. We would like * to simply use the latter count, but if we are reading termcap strings, there * may be cases that we cannot see the explicit parameter numbers. */ NCURSES_EXPORT(int) _nc_tparm_analyze(const char *string, char *p_is_s[NUM_PARM], int *popcount) { size_t len2; int i; int lastpop = -1; int len; int number = 0; const char *cp = string; static char dummy[] = ""; if (cp == 0) return 0; if ((len2 = strlen(cp)) > TPS(fmt_size)) { TPS(fmt_size) = len2 + TPS(fmt_size) + 2; TPS(fmt_buff) = typeRealloc(char, TPS(fmt_size), TPS(fmt_buff)); if (TPS(fmt_buff) == 0) return 0; } memset(p_is_s, 0, sizeof(p_is_s[0]) * NUM_PARM); *popcount = 0; while ((cp - string) < (int) len2) { if (*cp == '%') { cp++; cp = parse_format(cp, TPS(fmt_buff), &len); switch (*cp) { default: break; case 'd': /* FALLTHRU */ case 'o': /* FALLTHRU */ case 'x': /* FALLTHRU */ case 'X': /* FALLTHRU */ case 'c': /* FALLTHRU */ if (lastpop <= 0) number++; lastpop = -1; break; case 'l': case 's': if (lastpop > 0) p_is_s[lastpop - 1] = dummy; ++number; break; case 'p': cp++; i = (UChar(*cp) - '0'); if (i >= 0 && i <= NUM_PARM) { lastpop = i; if (lastpop > *popcount) *popcount = lastpop; } break; case 'P': ++number; ++cp; break; case 'g': cp++; break; case S_QUOTE: cp += 2; lastpop = -1; break; case L_BRACE: cp++; while (isdigit(UChar(*cp))) { cp++; } break; case '+': case '-': case '*': case '/': case 'm': case 'A': case 'O': case '&': case '|': case '^': case '=': case '<': case '>': lastpop = -1; number += 2; break; case '!': case '~': lastpop = -1; ++number; break; case 'i': /* will add 1 to first (usually two) parameters */ break; } } if (*cp != '\0') cp++; } if (number > NUM_PARM) number = NUM_PARM; return number; } static NCURSES_INLINE char * tparam_internal(const char *string, va_list ap) { char *p_is_s[NUM_PARM]; TPARM_ARG param[NUM_PARM]; int popcount; int number; int len; int level; int x, y; int i; const char *cp = string; size_t len2; if (cp == NULL) return NULL; TPS(out_used) = 0; len2 = strlen(cp); /* * Find the highest parameter-number referred to in the format string. * Use this value to limit the number of arguments copied from the * variable-length argument list. */ number = _nc_tparm_analyze(cp, p_is_s, &popcount); if (TPS(fmt_buff) == 0) return NULL; for (i = 0; i < max(popcount, number); i++) { /* * A few caps (such as plab_norm) have string-valued parms. * We'll have to assume that the caller knows the difference, since * a char* and an int may not be the same size on the stack. The * normal prototype for this uses 9 long's, which is consistent with * our va_arg() usage. */ if (p_is_s[i] != 0) { p_is_s[i] = va_arg(ap, char *); } else { param[i] = va_arg(ap, TPARM_ARG); } } /* * This is a termcap compatibility hack. If there are no explicit pop * operations in the string, load the stack in such a way that * successive pops will grab successive parameters. That will make * the expansion of (for example) \E[%d;%dH work correctly in termcap * style, which means tparam() will expand termcap strings OK. */ TPS(stack_ptr) = 0; if (popcount == 0) { popcount = number; for (i = number - 1; i >= 0; i--) { if (p_is_s[i]) spush(p_is_s[i]); else npush(param[i]); } } #ifdef TRACE if (USE_TRACEF(TRACE_CALLS)) { for (i = 0; i < popcount; i++) { if (p_is_s[i] != 0) save_text(", %s", _nc_visbuf(p_is_s[i]), 0); else save_number(", %d", param[i], 0); } _tracef(T_CALLED("%s(%s%s)"), TPS(tname), _nc_visbuf(cp), TPS(out_buff)); TPS(out_used) = 0; _nc_unlock_global(tracef); } #endif /* TRACE */ while ((cp - string) < (int) len2) { if (*cp != '%') { save_char(UChar(*cp)); } else { TPS(tparam_base) = cp++; cp = parse_format(cp, TPS(fmt_buff), &len); switch (*cp) { default: break; case '%': save_char('%'); break; case 'd': /* FALLTHRU */ case 'o': /* FALLTHRU */ case 'x': /* FALLTHRU */ case 'X': /* FALLTHRU */ save_number(TPS(fmt_buff), npop(), len); break; case 'c': /* FALLTHRU */ save_char(npop()); break; case 'l': save_number("%d", (int) strlen(spop()), 0); break; case 's': save_text(TPS(fmt_buff), spop(), len); break; case 'p': cp++; i = (UChar(*cp) - '1'); if (i >= 0 && i < NUM_PARM) { if (p_is_s[i]) spush(p_is_s[i]); else npush(param[i]); } break; case 'P': cp++; if (isUPPER(*cp)) { i = (UChar(*cp) - 'A'); TPS(static_vars)[i] = npop(); } else if (isLOWER(*cp)) { i = (UChar(*cp) - 'a'); TPS(dynamic_var)[i] = npop(); } break; case 'g': cp++; if (isUPPER(*cp)) { i = (UChar(*cp) - 'A'); npush(TPS(static_vars)[i]); } else if (isLOWER(*cp)) { i = (UChar(*cp) - 'a'); npush(TPS(dynamic_var)[i]); } break; case S_QUOTE: cp++; npush(UChar(*cp)); cp++; break; case L_BRACE: number = 0; cp++; while (isdigit(UChar(*cp))) { number = (number * 10) + (UChar(*cp) - '0'); cp++; } npush(number); break; case '+': npush(npop() + npop()); break; case '-': y = npop(); x = npop(); npush(x - y); break; case '*': npush(npop() * npop()); break; case '/': y = npop(); x = npop(); npush(y ? (x / y) : 0); break; case 'm': y = npop(); x = npop(); npush(y ? (x % y) : 0); break; case 'A': npush(npop() && npop()); break; case 'O': npush(npop() || npop()); break; case '&': npush(npop() & npop()); break; case '|': npush(npop() | npop()); break; case '^': npush(npop() ^ npop()); break; case '=': y = npop(); x = npop(); npush(x == y); break; case '<': y = npop(); x = npop(); npush(x < y); break; case '>': y = npop(); x = npop(); npush(x > y); break; case '!': npush(!npop()); break; case '~': npush(~npop()); break; case 'i': if (p_is_s[0] == 0) param[0]++; if (p_is_s[1] == 0) param[1]++; break; case '?': break; case 't': x = npop(); if (!x) { /* scan forward for %e or %; at level zero */ cp++; level = 0; while (*cp) { if (*cp == '%') { cp++; if (*cp == '?') level++; else if (*cp == ';') { if (level > 0) level--; else break; } else if (*cp == 'e' && level == 0) break; } if (*cp) cp++; } } break; case 'e': /* scan forward for a %; at level zero */ cp++; level = 0; while (*cp) { if (*cp == '%') { cp++; if (*cp == '?') level++; else if (*cp == ';') { if (level > 0) level--; else break; } } if (*cp) cp++; } break; case ';': break; } /* endswitch (*cp) */ } /* endelse (*cp == '%') */ if (*cp == '\0') break; cp++; } /* endwhile (*cp) */ get_space(1); TPS(out_buff)[TPS(out_used)] = '\0'; T((T_RETURN("%s"), _nc_visbuf(TPS(out_buff)))); return (TPS(out_buff)); } #if NCURSES_TPARM_VARARGS #define tparm_varargs tparm #else #define tparm_proto tparm #endif NCURSES_EXPORT(char *) tparm_varargs(NCURSES_CONST char *string,...) { va_list ap; char *result; _nc_tparm_err = 0; va_start(ap, string); #ifdef TRACE TPS(tname) = "tparm"; #endif /* TRACE */ result = tparam_internal(string, ap); va_end(ap); return result; } #if !NCURSES_TPARM_VARARGS NCURSES_EXPORT(char *) tparm_proto(NCURSES_CONST char *string, TPARM_ARG a1, TPARM_ARG a2, TPARM_ARG a3, TPARM_ARG a4, TPARM_ARG a5, TPARM_ARG a6, TPARM_ARG a7, TPARM_ARG a8, TPARM_ARG a9) { return tparm_varargs(string, a1, a2, a3, a4, a5, a6, a7, a8, a9); } #endif /* NCURSES_TPARM_VARARGS */