Current Path : /usr/src/contrib/ee/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/ee/new_curse.c |
/* | new_curse.c | | A subset of curses developed for use with ae. | | written by Hugh Mahon | | Copyright (c) 1986, 1987, 1988, 1991, 1992, 1993, 1994, 1995, 2009 Hugh Mahon | All rights reserved. | | Redistribution and use in source and binary forms, with or without | modification, are permitted provided that the following conditions | are met: | | * Redistributions of source code must retain the above copyright | notice, this list of conditions and the following disclaimer. | * Redistributions in binary form must reproduce the above | copyright notice, this list of conditions and the following | disclaimer in the documentation and/or other materials provided | with the distribution. | | THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS | "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT | LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS | FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE | COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, | INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, | BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; | LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER | CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT | LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN | ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE | POSSIBILITY OF SUCH DAMAGE. | | | All are rights reserved. | | $Header: /home/hugh/sources/old_ae/RCS/new_curse.c,v 1.54 2002/09/21 00:47:14 hugh Exp $ | */ char *copyright_message[] = { "Copyright (c) 1986, 1987, 1988, 1991, 1992, 1993, 1994, 1995, 2009 Hugh Mahon", "All rights are reserved."}; char * new_curse_name= "@(#) new_curse.c $Revision: 1.54 $"; #include "new_curse.h" #include <signal.h> #include <fcntl.h> #ifdef SYS5 #include <string.h> #else #include <strings.h> #endif #ifdef BSD_SELECT #include <sys/types.h> #include <sys/time.h> #ifdef SLCT_HDR #include <sys/select.h> /* on AIX */ #endif /* SLCT_HDR */ #endif /* BSD_SELECT */ #ifdef HAS_STDLIB #include <stdlib.h> #endif #if defined(__STDC__) #include <stdarg.h> #else #include <varargs.h> #endif #ifdef HAS_UNISTD #include <unistd.h> #endif #ifdef HAS_SYS_IOCTL #include <sys/ioctl.h> #endif WINDOW *curscr; static WINDOW *virtual_scr; WINDOW *stdscr; WINDOW *last_window_refreshed; #ifdef TIOCGWINSZ struct winsize ws; #endif #define min(a, b) (a < b ? a : b) #define highbitset(a) ((a) & 0x80) #ifndef CAP #define String_Out(table, stack, place) Info_Out(table, stack, place) #else #define String_Out(table, stack, place) Cap_Out(table, stack, place) #endif #define bw__ 0 /* booleans */ #define am__ 1 #define xb__ 2 #define xs__ 3 /* hp glitch (standout not erased by overwrite) */ #define xn__ 4 #define eo__ 5 #define gn__ 6 /* generic type terminal */ #define hc__ 7 /* hardcopy terminal */ #define km__ 8 #define hs__ 9 #define in__ 10 #define da__ 11 #define db__ 12 #define mi__ 13 /* safe to move during insert mode */ #define ms__ 14 /* safe to move during standout mode */ #define os__ 15 #define es__ 16 #define xt__ 17 #define hz__ 18 /* hazeltine glitch */ #define ul__ 19 #define xo__ 20 #define chts__ 21 #define nxon__ 22 #define nrrmc__ 23 #define npc__ 24 #define mc5i__ 25 #define co__ 0 /* number of columns */ /* numbers */ #define it__ 1 /* spaces per tab */ #define li__ 2 /* number of lines */ #define lm__ 3 #define sg__ 4 /* magic cookie glitch */ #define pb__ 5 #define vt__ 6 #define ws__ 7 #define cols__ 0 #define lines__ 2 #define xmc__ 4 #define vt__ 6 #define wsl__ 7 #define nlab__ 8 #define lh__ 9 #define lw__ 10 #define bt__ 0 /* back tab */ /* strings */ #define bl__ 1 /* bell */ #define cr__ 2 /* carriage return */ #define cs__ 3 /* change scroll region */ #define ct__ 4 /* clear all tab stops */ #define cl__ 5 /* clear screen and home cursor */ #define ce__ 6 /* clear to end of line */ #define cd__ 7 /* clear to end of display */ #define ch__ 8 /* set cursor column */ #define CC__ 9 /* term, settable cmd char in */ #define cm__ 10 /* screen rel cursor motion, row, column */ #define do__ 11 /* down one line */ #define ho__ 12 /* home cursor */ #define vi__ 13 /* make cursor invisible */ #define le__ 14 /* move cursor left one space */ #define CM__ 15 /* memory rel cursor addressing */ #define ve__ 16 /* make cursor appear normal */ #define nd__ 17 /* non-destructive space (cursor right) */ #define ll__ 18 /* last line, first col */ #define up__ 19 /* cursor up */ #define vs__ 20 #define dc__ 21 /* delete character */ #define dl__ 22 /* delete line */ #define ds__ 23 #define hd__ 24 #define as__ 25 #define mb__ 26 #define md__ 27 /* turn on bold */ #define ti__ 28 #define dm__ 29 /* turn on delete mode */ #define mh__ 30 /* half bright mode */ #define im__ 31 /* insert mode */ #define mk__ 32 #define mp__ 33 #define mr__ 34 #define so__ 35 /* enter standout mode */ #define us__ 36 #define ec__ 37 #define ae__ 38 #define me__ 39 #define te__ 40 #define ed__ 41 #define ei__ 42 /* exit insert mode */ #define se__ 43 /* exit standout mode */ #define ue__ 44 #define vb__ 45 #define ff__ 46 #define fs__ 47 #define i1__ 48 #define i2__ 49 #define i3__ 50 #define if__ 51 #define ic__ 52 #define al__ 53 #define ip__ 54 #define kb__ 55 /* backspace key */ #define ka__ 56 #define kC__ 57 #define kt__ 58 #define kD__ 59 #define kL__ 60 #define kd__ 61 #define kM__ 62 #define kE__ 63 #define kS__ 64 #define k0__ 65 #define k1__ 66 #define kf10__ 67 #define k2__ 68 #define k3__ 69 #define k4__ 70 #define k5__ 71 #define k6__ 72 #define k7__ 73 #define k8__ 74 #define k9__ 75 #define kh__ 76 #define kI__ 77 #define kA__ 78 #define kl__ 79 #define kH__ 80 #define kN__ 81 #define kP__ 82 #define kr__ 83 #define kF__ 84 #define kR__ 85 #define kT__ 86 #define ku__ 87 /* key up */ #define ke__ 88 #define ks__ 89 #define l0__ 90 #define l1__ 91 #define la__ 92 #define l2__ 93 #define l3__ 94 #define l4__ 95 #define l5__ 96 #define l6__ 97 #define l7__ 98 #define l8__ 99 #define l9__ 100 #define mo__ 101 #define mm__ 102 #define nw__ 103 #define pc__ 104 #define DC__ 105 #define DL__ 106 #define DO__ 107 #define IC__ 118 #define SF__ 109 #define AL__ 110 #define LE__ 111 #define RI__ 112 #define SR__ 113 #define UP__ 114 #define pk__ 115 #define pl__ 116 #define px__ 117 #define ps__ 118 #define pf__ 119 #define po__ 120 #define rp__ 121 #define r1__ 122 #define r2__ 123 #define r3__ 124 #define rf__ 125 #define rc__ 126 #define cv__ 127 #define sc__ 128 #define sf__ 129 #define sr__ 130 #define sa__ 131 /* sgr */ #define st__ 132 #define wi__ 133 #define ta__ 134 #define ts__ 135 #define uc__ 136 #define hu__ 137 #define iP__ 138 #define K1__ 139 #define K2__ 140 #define K3__ 141 #define K4__ 142 #define K5__ 143 #define pO__ 144 #define ml__ 145 #define mu__ 146 #define rmp__ 145 #define acsc__ 146 #define pln__ 147 #define kcbt__ 148 #define smxon__ 149 #define rmxon__ 150 #define smam__ 151 #define rmam__ 152 #define xonc__ 153 #define xoffc__ 154 #define enacs__ 155 #define smln__ 156 #define rmln__ 157 #define kbeg__ 158 #define kcan__ 159 #define kclo__ 160 #define kcmd__ 161 #define kcpy__ 162 #define kcrt__ 163 #define kend__ 164 #define kent__ 165 #define kext__ 166 #define kfnd__ 167 #define khlp__ 168 #define kmrk__ 169 #define kmsg__ 170 #define kmov__ 171 #define knxt__ 172 #define kopn__ 173 #define kopt__ 174 #define kprv__ 175 #define kprt__ 176 #define krdo__ 177 #define kref__ 178 #define krfr__ 179 #define krpl__ 180 #define krst__ 181 #define kres__ 182 #define ksav__ 183 #define kspd__ 184 #define kund__ 185 #define kBEG__ 186 #define kCAN__ 187 #define kCMD__ 188 #define kCPY__ 189 #define kCRT__ 190 #define kDC__ 191 #define kDL__ 192 #define kslt__ 193 #define kEND__ 194 #define kEOL__ 195 #define kEXT__ 196 #define kFND__ 197 #define kHLP__ 198 #define kHOM__ 199 #define kIC__ 200 #define kLFT__ 201 #define kMSG__ 202 #define kMOV__ 203 #define kNXT__ 204 #define kOPT__ 205 #define kPRV__ 206 #define kPRT__ 207 #define kRDO__ 208 #define kRPL__ 209 #define kRIT__ 210 #define kRES__ 211 #define kSAV__ 212 #define kSPD__ 213 #define kUND__ 214 #define rfi__ 215 #define kf11__ 216 #define kf12__ 217 #define kf13__ 218 #define kf14__ 219 #define kf15__ 220 #define kf16__ 221 #define kf17__ 222 #define kf18__ 223 #define kf19__ 224 #define kf20__ 225 #define kf21__ 226 #define kf22__ 227 #define kf23__ 228 #define kf24__ 229 #define kf25__ 230 #define kf26__ 231 #define kf27__ 232 #define kf28__ 233 #define kf29__ 234 #define kf30__ 235 #define kf31__ 236 #define kf32__ 237 #define kf33__ 238 #define kf34__ 239 #define kf35__ 240 #define kf36__ 241 #define kf37__ 242 #define kf38__ 243 #define kf39__ 244 #define kf40__ 245 #define kf41__ 246 #define kf42__ 247 #define kf43__ 248 #define kf44__ 249 #define kf45__ 250 #define kf46__ 251 #define kf47__ 252 #define kf48__ 253 #define kf49__ 254 #define kf50__ 255 #define kf51__ 256 #define kf52__ 257 #define kf53__ 258 #define kf54__ 259 #define kf55__ 260 #define kf56__ 261 #define kf57__ 262 #define kf58__ 263 #define kf59__ 264 #define kf60__ 265 #define kf61__ 266 #define kf62__ 267 #define kf63__ 268 #define el1__ 269 #define mgc__ 270 #define smgl__ 271 #define smgr__ 272 #ifdef CAP char *Boolean_names[] = { "bw", "am", "xb", "xs", "xn", "eo", "gn", "hc", "km", "hs", "in", "da", "db", "mi", "ms", "os", "es", "xt", "hz", "ul", "xo", "HC", "nx", "NR", "NP", "5i" }; char *Number_names[] = { "co#", "it#", "li#", "lm#", "sg#", "pb#", "vt#", "ws#", "Nl#", "lh#", "lw#" }; char *String_names[] = { "bt=", "bl=", "cr=", "cs=", "ct=", "cl=", "ce=", "cd=", "ch=", "CC=", "cm=", "do=", "ho=", "vi=", "le=", "CM=", "ve=", "nd=", "ll=", "up=", "vs=", "dc=", "dl=", "ds=", "hd=", "as=", "mb=", "md=", "ti=", "dm=", "mh=", "im=", "mk=", "mp=", "mr=", "so=", "us=", "ec=", "ae=", "me=", "te=", "ed=", "ei=", "se=", "ue=", "vb=", "ff=", "fs=", "i1=", "i2=", "i3=", "if=", "ic=", "al=", "ip=", "kb=", "ka=", "kC=", "kt=", "kD=", "kL=", "kd=", "kM=", "kE=", "kS=", "k0=", "k1=", "k;=", "k2=", "k3=", "k4=", "k5=", "k6=", "k7=", "k8=", "k9=", "kh=", "kI=", "kA=", "kl=", "kH=", "kN=", "kP=", "kr=", "kF=", "kR=", "kT=", "ku=", "ke=", "ks=", "l0=", "l1=", "la=", "l2=", "l3=", "l4=", "l5=", "l6=", "l7=", "l8=", "l9=", "mo=", "mm=", "nw=", "pc=", "DC=", "DL=", "DO=", "IC=", "SF=", "AL=", "LE=", "RI=", "SR=", "UP=", "pk=", "pl=", "px=", "ps=", "pf=", "po=", "rp=", "r1=", "r2=", "r3=", "rf=", "rc=", "cv=", "sc=", "sf=", "sr=", "sa=", "st=", "wi=", "ta=", "ts=", "uc=", "hu=", "iP=", "K1=", "K3=", "K2=", "K4=", "K5=", "pO=", "rP=", "ac=", "pn=", "kB=", "SX=", "RX=", "SA=", "RA=", "XN=", "XF=", "eA=", "LO=", "LF=", "@1=", "@2=", "@3=", "@4=", "@5=", "@6=", "@7=", "@8=", "@9=", "@0=", "%1=", "%2=", "%3=", "%4=", "%5=", "%6=", "%7=", "%8=", "%9=", "%0=", "&1=", "&2=", "&3=", "&4=", "&5=", "&6=", "&7=", "&8=", "&9=", "&0=", "*1=", "*2=", "*3=", "*4=", "*5=", "*6=", "*7=", "*8=", "*9=", "*0=", "#1=", "#2=", "#3=", "#4=", "%a=", "%b=", "%c=", "%d=", "%e=", "%f=", "%g=", "%h=", "%i=", "%j=", "!1=", "!2=", "!3=", "RF=", "F1=", "F2=", "F3=", "F4=", "F5=", "F6=", "F7=", "F8=", "F9=", "FA=", "FB=", "FC=", "FD=", "FE=", "FF=", "FG=", "FH=", "FI=", "FJ=", "FK=", "FL=", "FM=", "FN=", "FO=", "FP=", "FQ=", "FR=", "FS=", "FT=", "FU=", "FV=", "FW=", "FX=", "FY=", "FZ=", "Fa=", "Fb=", "Fc=", "Fd=", "Fe=", "Ff=", "Fg=", "Fh=", "Fi=", "Fj=", "Fk=", "Fl=", "Fm=", "Fn=", "Fo=", "Fp=", "Fq=", "Fr=", "cb=", "MC=", "ML=", "MR=" }; #endif char *new_curse = "October 1987"; char in_buff[100]; /* buffer for ungetch */ int bufp; /* next free position in in_buff */ char *TERMINAL_TYPE = NULL; /* terminal type to be gotten from environment */ int CFOUND = FALSE; int Data_Line_len = 0; int Max_Key_len; /* max length of a sequence sent by a key */ char *Data_Line = NULL; char *TERM_PATH = NULL; char *TERM_data_ptr = NULL; char *Term_File_name = NULL; /* name of file containing terminal description */ FILE *TFP; /* file pointer to file with terminal des. */ int Fildes; /* file descriptor for terminfo file */ int STAND = FALSE; /* is standout mode activated? */ int TERM_INFO = FALSE; /* is terminfo being used (TRUE), or termcap (FALSE) */ int Time_Out; /* set when time elapsed while trying to read function key */ int Curr_x; /* current x position on screen */ int Curr_y; /* current y position on the screen */ int LINES; int COLS; int Move_It; /* flag to move cursor if magic cookie glitch */ int initialized = FALSE; /* tells whether new_curse is initialized */ float speed; float chars_per_millisecond; int Repaint_screen; /* if an operation to change screen impossible, repaint screen */ int Intr; /* storeage for interrupt character */ int Parity; /* 0 = no parity, 1 = odd parity, 2 = even parity */ int Noblock; /* for BSD systems */ int Num_bits; /* number of bits per character */ int Flip_Bytes; /* some systems have byte order reversed */ int interrupt_flag = FALSE; /* set true if SIGWINCH received */ #ifndef CAP char *Strings; #endif #if !defined(TERMCAP) #define TERMCAP "/etc/termcap" #endif struct KEYS { int length; /* length of string sent by key */ char *string; /* string sent by key */ int value; /* CURSES value of key (9-bit) */ }; struct KEY_STACK { struct KEYS *element; struct KEY_STACK *next; }; struct KEY_STACK *KEY_TOS = NULL; struct KEY_STACK *KEY_POINT; /* | | Not all systems have good terminal information, so we will define | keyboard information here for the most widely used terminal type, | the VT100. | */ struct KEYS vt100[] = { { 3, "\033[A", 0403 }, /* key up */ { 3, "\033[C", 0405 }, /* key right */ { 3, "\033[D", 0404 }, /* key left */ { 4, "\033[6~", 0522 }, /* key next page */ { 4, "\033[5~", 0523 }, /* key prev page */ { 3, "\033[[", 0550 }, /* key end */ { 3, "\033[@", 0406 }, /* key home */ { 4, "\033[2~", 0513 }, /* key insert char */ { 3, "\033[y", 0410 }, /* key F0 */ { 3, "\033[P", 0411 }, /* key F1 */ { 3, "\033[Q", 0412 }, /* key F2 */ { 3, "\033[R", 0413 }, /* key F3 */ { 3, "\033[S", 0414 }, /* key F4 */ { 3, "\033[t", 0415 }, /* key F5 */ { 3, "\033[u", 0416 }, /* key F6 */ { 3, "\033[v", 0417 }, /* key F7 */ { 3, "\033[l", 0420 }, /* key F8 */ { 3, "\033[w", 0421 }, /* key F9 */ { 3, "\033[x", 0422 }, /* key F10 */ { 5, "\033[10~", 0410 }, /* key F0 */ { 5, "\033[11~", 0411 }, /* key F1 */ { 5, "\033[12~", 0412 }, /* key F2 */ { 5, "\033[13~", 0413 }, /* key F3 */ { 5, "\033[14~", 0414 }, /* key F4 */ { 5, "\033[15~", 0415 }, /* key F5 */ { 5, "\033[17~", 0416 }, /* key F6 */ { 5, "\033[18~", 0417 }, /* key F7 */ { 5, "\033[19~", 0420 }, /* key F8 */ { 5, "\033[20~", 0421 }, /* key F9 */ { 5, "\033[21~", 0422 }, /* key F10 */ { 5, "\033[23~", 0423 }, /* key F11 */ { 5, "\033[24~", 0424 }, /* key F12 */ { 3, "\033[q", 0534 }, /* ka1 upper-left of keypad */ { 3, "\033[s", 0535 }, /* ka3 upper-right of keypad */ { 3, "\033[r", 0536 }, /* kb2 center of keypad */ { 3, "\033[p", 0537 }, /* kc1 lower-left of keypad */ { 3, "\033[n", 0540 }, /* kc3 lower-right of keypad */ /* | The following are the same keys as above, but with | a different character following the escape char. */ { 3, "\033OA", 0403 }, /* key up */ { 3, "\033OC", 0405 }, /* key right */ { 3, "\033OD", 0404 }, /* key left */ { 3, "\033OB", 0402 }, /* key down */ { 4, "\033O6~", 0522 }, /* key next page */ { 4, "\033O5~", 0523 }, /* key prev page */ { 3, "\033O[", 0550 }, /* key end */ { 3, "\033O@", 0406 }, /* key home */ { 4, "\033O2~", 0513 }, /* key insert char */ { 3, "\033Oy", 0410 }, /* key F0 */ { 3, "\033OP", 0411 }, /* key F1 */ { 3, "\033OQ", 0412 }, /* key F2 */ { 3, "\033OR", 0413 }, /* key F3 */ { 3, "\033OS", 0414 }, /* key F4 */ { 3, "\033Ot", 0415 }, /* key F5 */ { 3, "\033Ou", 0416 }, /* key F6 */ { 3, "\033Ov", 0417 }, /* key F7 */ { 3, "\033Ol", 0420 }, /* key F8 */ { 3, "\033Ow", 0421 }, /* key F9 */ { 3, "\033Ox", 0422 }, /* key F10 */ { 5, "\033O10~", 0410 }, /* key F0 */ { 5, "\033O11~", 0411 }, /* key F1 */ { 5, "\033O12~", 0412 }, /* key F2 */ { 5, "\033O13~", 0413 }, /* key F3 */ { 5, "\033O14~", 0414 }, /* key F4 */ { 5, "\033O15~", 0415 }, /* key F5 */ { 5, "\033O17~", 0416 }, /* key F6 */ { 5, "\033O18~", 0417 }, /* key F7 */ { 5, "\033O19~", 0420 }, /* key F8 */ { 5, "\033O20~", 0421 }, /* key F9 */ { 5, "\033O21~", 0422 }, /* key F10 */ { 5, "\033O23~", 0423 }, /* key F11 */ { 5, "\033O24~", 0424 }, /* key F12 */ { 3, "\033Oq", 0534 }, /* ka1 upper-left of keypad */ { 3, "\033Os", 0535 }, /* ka3 upper-right of keypad */ { 3, "\033Or", 0536 }, /* kb2 center of keypad */ { 3, "\033Op", 0537 }, /* kc1 lower-left of keypad */ { 3, "\033On", 0540 }, /* kc3 lower-right of keypad */ { 0, "", 0 } /* end */ }; struct Parameters { int value; struct Parameters *next; }; int Key_vals[] = { 0407, 0526, 0515, 0525, 0512, 0510, 0402, 0514, 0517, 0516, 0410, 0411, 0422, 0412, 0413, 0414, 0415, 0416, 0417, 0420, 0421, 0406, 0513, 0511, 0404, 0533, 0522, 0523, 0405, 0520, 0521, 0524, 0403, 0534, 0535, 0536, 0537, 0540, 0541, 0542, 0543, 0544, 0545, 0546, 0547, 0550, 0527, 0551, 0552, 0553, 0554, 0555, 0556, 0557, 0560, 0561, 0562, 0532, 0563, 0564, 0565, 0566, 0567, 0570, 0571, 0627, 0630, 0572, 0573, 0574, 0575, 0576, 0577, 0600, 0601, 0602, 0603, 0604, 0605, 0606, 0607, 0610, 0611, 0612, 0613, 0614, 0615, 0616, 0617, 0620, 0621, 0622, 0623, 0624, 0625, 0626, 0423, 0424, 0425, 0426, 0427, 0430, 0431, 0432, 0433, 0434, 0435, 0436, 0437, 0440, 0441, 0442, 0443, 0444, 0445, 0446, 0447, 0450, 0451, 0452, 0453, 0454, 0455, 0456, 0457, 0460, 0461, 0462, 0463, 0464, 0465, 0466, 0467, 0470, 0471, 0472, 0473, 0474, 0475, 0476, 0477, 0500, 0501, 0502, 0503, 0504, 0505, 0506, 0507 }; int attributes_set[9]; static int nc_attributes = 0; /* global attributes for new_curse to observe */ #ifdef SYS5 struct termio Terminal; struct termio Saved_tty; #else struct sgttyb Terminal; struct sgttyb Saved_tty; #endif char *tc_; int Booleans[128]; int Numbers[128]; char *String_table[1024]; int *virtual_lines; static char nc_scrolling_ability = FALSE; char *terminfo_path[] = { "/usr/lib/terminfo", "/usr/share/lib/terminfo", "/usr/share/terminfo", NULL }; #ifdef CAP #if defined(__STDC__) || defined(__cplusplus) #define P_(s) s #else #define P_(s) () #endif /* __STDC__ */ int tc_Get_int P_((int)); void CAP_PARSE P_((void)); void Find_term P_((void)); #undef P_ #endif /* CAP */ #ifndef __STDC__ #ifndef HAS_STDLIB extern char *fgets(); extern char *malloc(); extern char *getenv(); FILE *fopen(); /* declaration for open function */ #endif /* HAS_STDLIB */ #endif /* __STDC__ */ #ifdef SIGWINCH /* | Copy the contents of one window to another. */ void copy_window(origin, destination) WINDOW *origin, *destination; { int row, column; struct _line *orig, *dest; orig = origin->first_line; dest = destination->first_line; for (row = 0; row < (min(origin->Num_lines, destination->Num_lines)); row++) { for (column = 0; column < (min(origin->Num_cols, destination->Num_cols)); column++) { dest->row[column] = orig->row[column]; dest->attributes[column] = orig->attributes[column]; } dest->changed = orig->changed; dest->scroll = orig->scroll; dest->last_char = min(orig->last_char, destination->Num_cols); orig = orig->next_screen; dest = dest->next_screen; } destination->LX = min((destination->Num_cols - 1), origin->LX); destination->LY = min((destination->Num_lines - 1), origin->LY); destination->Attrib = origin->Attrib; destination->scroll_up = origin->scroll_up; destination->scroll_down = origin->scroll_down; destination->SCROLL_CLEAR = origin->SCROLL_CLEAR; } void reinitscr(foo) int foo; { WINDOW *local_virt; WINDOW *local_std; WINDOW *local_cur; signal(SIGWINCH, reinitscr); #ifdef TIOCGWINSZ if (ioctl(0, TIOCGWINSZ, &ws) >= 0) { if (ws.ws_row == LINES && ws.ws_col == COLS) return; if (ws.ws_row > 0) LINES = ws.ws_row; if (ws.ws_col > 0) COLS = ws.ws_col; } #endif /* TIOCGWINSZ */ local_virt = newwin(LINES, COLS, 0, 0); local_std = newwin(LINES, COLS, 0, 0); local_cur = newwin(LINES, COLS, 0, 0); copy_window(virtual_scr, local_virt); copy_window(stdscr, local_std); copy_window(curscr, local_cur); delwin(virtual_scr); delwin(stdscr); delwin(curscr); virtual_scr = local_virt; stdscr = local_std; curscr = local_cur; free(virtual_lines); virtual_lines = (int *) malloc(LINES * (sizeof(int))); interrupt_flag = TRUE; } #endif /* SIGWINCH */ void initscr() /* initialize terminal for operations */ { int value; int counter; char *lines_string; char *columns_string; #ifdef CAP char *pointer; #endif /* CAP */ #ifdef DIAG printf("starting initscr \n");fflush(stdout); #endif if (initialized) return; #ifdef BSD_SELECT setbuf(stdin, NULL); #endif /* BSD_SELECT */ Flip_Bytes = FALSE; Parity = 0; Time_Out = FALSE; bufp = 0; Move_It = FALSE; Noblock = FALSE; #ifdef SYS5 value = ioctl(0, TCGETA, &Terminal); if (Terminal.c_cflag & PARENB) { if (Terminal.c_cflag & PARENB) Parity = 1; else Parity = 2; } if ((Terminal.c_cflag & CS8) == CS8) { Num_bits = 8; } else if ((Terminal.c_cflag & CS7) == CS7) Num_bits = 7; else if ((Terminal.c_cflag & CS6) == CS6) Num_bits = 6; else Num_bits = 5; value = Terminal.c_cflag & 037; switch (value) { case 01: speed = 50.0; break; case 02: speed = 75.0; break; case 03: speed = 110.0; break; case 04: speed = 134.5; break; case 05: speed = 150.0; break; case 06: speed = 200.0; break; case 07: speed = 300.0; break; case 010: speed = 600.0; break; case 011: speed = 900.0; break; case 012: speed = 1200.0; break; case 013: speed = 1800.0; break; case 014: speed = 2400.0; break; case 015: speed = 3600.0; break; case 016: speed = 4800.0; break; case 017: speed = 7200.0; break; case 020: speed = 9600.0; break; case 021: speed = 19200.0; break; case 022: speed = 38400.0; break; default: speed = 0.0; } #else value = ioctl(0, TIOCGETP, &Terminal); if (Terminal.sg_flags & EVENP) Parity = 2; else if (Terminal.sg_flags & ODDP) Parity = 1; value = Terminal.sg_ospeed; switch (value) { case 01: speed = 50.0; break; case 02: speed = 75.0; break; case 03: speed = 110.0; break; case 04: speed = 134.5; break; case 05: speed = 150.0; break; case 06: speed = 200.0; break; case 07: speed = 300.0; break; case 010: speed = 600.0; break; case 011: speed = 1200.0; break; case 012: speed = 1800.0; break; case 013: speed = 2400.0; break; case 014: speed = 4800.0; break; case 015: speed = 9600.0; break; default: speed = 0.0; } #endif chars_per_millisecond = (0.001 * speed) / 8.0; TERMINAL_TYPE = getenv("TERM"); if (TERMINAL_TYPE == NULL) { printf("unknown terminal type\n"); exit(0); } #ifndef CAP Fildes = -1; TERM_PATH = getenv("TERMINFO"); if (TERM_PATH != NULL) { Data_Line_len = 23 + strlen(TERM_PATH) + strlen(TERMINAL_TYPE); Term_File_name = malloc(Data_Line_len); sprintf(Term_File_name, "%s/%c/%s", TERM_PATH, *TERMINAL_TYPE, TERMINAL_TYPE); Fildes = open(Term_File_name, O_RDONLY); if (Fildes == -1) { sprintf(Term_File_name, "%s/%x/%s", TERM_PATH, *TERMINAL_TYPE, TERMINAL_TYPE); Fildes = open(Term_File_name, O_RDONLY); } } counter = 0; while ((Fildes == -1) && (terminfo_path[counter] != NULL)) { TERM_PATH = terminfo_path[counter]; Data_Line_len = 23 + strlen(TERM_PATH) + strlen(TERMINAL_TYPE); Term_File_name = malloc(Data_Line_len); sprintf(Term_File_name, "%s/%c/%s", TERM_PATH, *TERMINAL_TYPE, TERMINAL_TYPE); Fildes = open(Term_File_name, O_RDONLY); if (Fildes == -1) { sprintf(Term_File_name, "%s/%x/%s", TERM_PATH, *TERMINAL_TYPE, TERMINAL_TYPE); Fildes = open(Term_File_name, O_RDONLY); } counter++; } if (Fildes == -1) { free(Term_File_name); Term_File_name = NULL; } else TERM_INFO = INFO_PARSE(); #else /* | termcap information can be in the TERMCAP env variable, if so | use that, otherwise check the /etc/termcap file */ if ((pointer = Term_File_name = getenv("TERMCAP")) != NULL) { if (*Term_File_name != '/') Term_File_name = TERMCAP; } else { Term_File_name = TERMCAP; } if ((TFP = fopen(Term_File_name, "r")) == NULL) { printf("unable to open %s file \n", TERMCAP); exit(0); } for (value = 0; value < 1024; value++) String_table[value] = NULL; for (value = 0; value < 128; value++) Booleans[value] = 0; for (value = 0; value < 128; value++) Numbers[value] = 0; Data_Line = malloc(512); if (pointer && *pointer != '/') { TERM_data_ptr = pointer; CAP_PARSE(); } else { Find_term(); CAP_PARSE(); } #endif if (String_table[pc__] == NULL) String_table[pc__] = "\0"; if ((String_table[cm__] == NULL) || (Booleans[hc__])) { fprintf(stderr, "sorry, unable to use this terminal type for screen editing\n"); exit(0); } Key_Get(); keys_vt100(); LINES = Numbers[li__]; COLS = Numbers[co__]; if ((lines_string = getenv("LINES")) != NULL) { value = atoi(lines_string); if (value > 0) LINES = value; } if ((columns_string = getenv("COLUMNS")) != NULL) { value = atoi(columns_string); if (value > 0) COLS = value; } #ifdef TIOCGWINSZ /* | get the window size */ if (ioctl(0, TIOCGWINSZ, &ws) >= 0) { if (ws.ws_row > 0) LINES = ws.ws_row; if (ws.ws_col > 0) COLS = ws.ws_col; } #endif virtual_scr = newwin(LINES, COLS, 0, 0); stdscr = newwin(LINES, COLS, 0, 0); curscr = newwin(LINES, COLS, 0, 0); wmove(stdscr, 0, 0); werase(stdscr); Repaint_screen = TRUE; initialized = TRUE; virtual_lines = (int *) malloc(LINES * (sizeof(int))); #ifdef SIGWINCH /* | reset size of windows and LINES and COLS if term window | changes size */ signal(SIGWINCH, reinitscr); #endif /* SIGWINCH */ /* | check if scrolling is available */ nc_scrolling_ability = ((String_table[al__] != NULL) && (String_table[dl__])) || ((String_table[cs__]) && (String_table[sr__])); } #ifndef CAP int Get_int() /* get a two-byte integer from the terminfo file */ { int High_byte; int Low_byte; int temp; Low_byte = *((unsigned char *) TERM_data_ptr++); High_byte = *((unsigned char *) TERM_data_ptr++); if (Flip_Bytes) { temp = Low_byte; Low_byte = High_byte; High_byte = temp; } if ((High_byte == 255) && (Low_byte == 255)) return (-1); else return(Low_byte + (High_byte * 256)); } int INFO_PARSE() /* parse off the data in the terminfo data file */ { int offset; int magic_number = 0; int counter = 0; int Num_names = 0; int Num_bools = 0; int Num_ints = 0; int Num_strings = 0; int string_table_len = 0; char *temp_ptr; TERM_data_ptr = Data_Line = malloc((10240 * (sizeof(char)))); Data_Line_len = read(Fildes, Data_Line, 10240); if ((Data_Line_len >= 10240) || (Data_Line_len < 0)) return(0); /* | get magic number */ magic_number = Get_int(); /* | if magic number not right, reverse byte order and check again */ if (magic_number != 282) { Flip_Bytes = TRUE; TERM_data_ptr--; TERM_data_ptr--; magic_number = Get_int(); if (magic_number != 282) return(0); } /* | get the number of each type in the terminfo data file */ Num_names = Get_int(); Num_bools = Get_int(); Num_ints = Get_int(); Num_strings = Get_int(); string_table_len = Get_int(); Strings = malloc(string_table_len); while (Num_names > 0) { TERM_data_ptr++; Num_names--; } counter = 0; while (Num_bools) { Num_bools--; Booleans[counter++] = *TERM_data_ptr++; } if ((unsigned long)TERM_data_ptr & 1) /* force alignment */ TERM_data_ptr++; counter = 0; while (Num_ints) { Num_ints--; Numbers[counter] = Get_int(); counter++; } temp_ptr = TERM_data_ptr + Num_strings + Num_strings; memcpy(Strings, temp_ptr, string_table_len); counter = bt__; while (Num_strings) { Num_strings--; if ((offset=Get_int()) != -1) { if (String_table[counter] == NULL) String_table[counter] = Strings + offset; } else String_table[counter] = NULL; counter++; } close(Fildes); free(Data_Line); return(TRUE); } #endif /* ifndef CAP */ int AtoI() /* convert ascii text to integers */ { int Temp; Temp = 0; while ((*TERM_data_ptr >= '0') && (*TERM_data_ptr <= '9')) { Temp = (Temp * 10) + (*TERM_data_ptr - '0'); TERM_data_ptr++; } return(Temp); } void Key_Get() /* create linked list with all key sequences obtained from terminal database */ { int Counter; int Klen; int key_def; struct KEY_STACK *Spoint; Max_Key_len = 0; Counter = 0; key_def = kb__; while (key_def <= kf63__) { if (key_def == ke__) key_def = K1__; else if (key_def == (K5__ + 1)) key_def = kcbt__; else if (key_def == (kcbt__ + 1)) key_def = kbeg__; else if (key_def == (kUND__ + 1)) key_def = kf11__; if (String_table[key_def] != NULL) { if (KEY_TOS == NULL) Spoint = KEY_TOS = (struct KEY_STACK *) malloc(sizeof(struct KEY_STACK)); else { Spoint = KEY_TOS; while (Spoint->next != NULL) Spoint = Spoint->next; Spoint->next = (struct KEY_STACK *) malloc(sizeof(struct KEY_STACK)); Spoint = Spoint->next; } Spoint->next = NULL; Spoint->element = (struct KEYS *) malloc(sizeof(struct KEYS)); Spoint->element->string = String_table[key_def]; Spoint->element->length = strlen(String_table[key_def]); Spoint->element->value = Key_vals[Counter]; Klen = strlen(Spoint->element->string); if (Klen > Max_Key_len) Max_Key_len = Klen; /* | Some terminal types accept keystrokes of the form | \E[A and \EOA, substituting '[' for 'O'. Make a | duplicate of such key strings (since the | database will only have one version) so new_curse | can understand both. */ if ((Spoint->element->length > 1) && ((String_table[key_def][1] == '[') || (String_table[key_def][1] == 'O'))) { Spoint->next = (struct KEY_STACK *) malloc(sizeof(struct KEY_STACK)); Spoint = Spoint->next; Spoint->next = NULL; Spoint->element = (struct KEYS *) malloc(sizeof(struct KEYS)); Spoint->element->length = strlen(String_table[key_def]); Spoint->element->string = malloc(Spoint->element->length + 1); strcpy(Spoint->element->string, String_table[key_def]); Spoint->element->value = Key_vals[Counter]; Klen = strlen(Spoint->element->string); if (Klen > Max_Key_len) Max_Key_len = Klen; if (String_table[key_def][1] == '[') Spoint->element->string[1] = 'O'; else Spoint->element->string[1] = '['; } } key_def++; Counter++; } } /* | insert information about keys for a vt100 terminal */ void keys_vt100() { int counter; int Klen; struct KEY_STACK *Spoint; Spoint = KEY_TOS; while (Spoint->next != NULL) Spoint = Spoint->next; for (counter = 0; vt100[counter].length != 0; counter++) { Spoint->next = (struct KEY_STACK *) malloc(sizeof(struct KEY_STACK)); Spoint = Spoint->next; Spoint->next = NULL; Spoint->element = &vt100[counter]; Klen = strlen(Spoint->element->string); if (Klen > Max_Key_len) Max_Key_len = Klen; } } #ifdef CAP char * String_Get(param) /* read the string */ char *param; { char *String; char *Temp; int Counter; if (param == NULL) { while (*TERM_data_ptr != '=') TERM_data_ptr++; Temp = ++TERM_data_ptr; Counter = 1; while ((*Temp != ':') && (*Temp != (char)NULL)) { Counter++; Temp++; } if (Counter == 1) /* no data */ return(NULL); String = Temp = malloc(Counter); while ((*TERM_data_ptr != ':') && (*TERM_data_ptr != (char)NULL)) { if (*TERM_data_ptr == '\\') { TERM_data_ptr++; if (*TERM_data_ptr == 'n') *Temp = '\n'; else if (*TERM_data_ptr == 't') *Temp = '\t'; else if (*TERM_data_ptr == 'b') *Temp = '\b'; else if (*TERM_data_ptr == 'r') *Temp = '\r'; else if (*TERM_data_ptr == 'f') *Temp = '\f'; else if ((*TERM_data_ptr == 'e') || (*TERM_data_ptr == 'E')) *Temp = '\033'; /* escape */ else if (*TERM_data_ptr == '\\') *Temp = '\\'; else if (*TERM_data_ptr == '\'') *Temp = '\''; else if ((*TERM_data_ptr >= '0') && (*TERM_data_ptr <= '9')) { Counter = 0; while ((*TERM_data_ptr >= '0') && (*TERM_data_ptr <= '9')) { Counter = (8 * Counter) + (*TERM_data_ptr - '0'); TERM_data_ptr++; /* ? */ } *Temp = Counter; TERM_data_ptr--; } TERM_data_ptr++; Temp++; } else if (*TERM_data_ptr == '^') { TERM_data_ptr++; if ((*TERM_data_ptr >= '@') && (*TERM_data_ptr <= '_')) *Temp = *TERM_data_ptr - '@'; else if (*TERM_data_ptr == '?') *Temp = 127; TERM_data_ptr++; Temp++; } else *Temp++ = *TERM_data_ptr++; } *Temp = (char)NULL; param = String; } else { while ((*TERM_data_ptr != (char)NULL) && (*TERM_data_ptr != ':')) TERM_data_ptr++; } return(param); } int tc_Get_int(param) /* read the integer */ int param; { int Itemp; if (param == 0) { while ((*TERM_data_ptr != (char)NULL) && (*TERM_data_ptr != '#')) TERM_data_ptr++; TERM_data_ptr++; Itemp = AtoI(); param = Itemp; } else { while (*TERM_data_ptr != ':') TERM_data_ptr++; } return(param); } void Find_term() /* find terminal description in termcap file */ { char *Name; char *Ftemp; Ftemp = Name = malloc(strlen(TERMINAL_TYPE) + 2); strcpy(Name, TERMINAL_TYPE); while (*Ftemp != (char)NULL) Ftemp++; *Ftemp++ = '|'; *Ftemp = (char)NULL; CFOUND = FALSE; Data_Line_len = strlen(TERMINAL_TYPE) + 1; while ((!CFOUND) && ((TERM_data_ptr=fgets(Data_Line, 512, TFP)) != NULL)) { if ((*TERM_data_ptr != ' ') && (*TERM_data_ptr != '\t') && (*TERM_data_ptr != '#')) { while ((!CFOUND) && (*TERM_data_ptr != (char)NULL)) { CFOUND = !strncmp(TERM_data_ptr, Name, Data_Line_len); while ((*TERM_data_ptr != (char)NULL) && (*TERM_data_ptr != '|') && (*TERM_data_ptr != '#') && (*TERM_data_ptr != ':')) TERM_data_ptr++; if (*TERM_data_ptr == '|') TERM_data_ptr++; else if (!CFOUND) *TERM_data_ptr = (char)NULL; } } } if (!CFOUND) { printf("terminal type %s not found\n", TERMINAL_TYPE); exit(0); } } void CAP_PARSE() /* parse off the data in the termcap data file */ { int offset; int found; do { while (*TERM_data_ptr != (char)NULL) { for (found = FALSE, offset = 0; (!found) && (offset < 26); offset++) { if (!strncmp(TERM_data_ptr, Boolean_names[offset], 2)) { found = TRUE; Booleans[offset] = TRUE; } } if (!found) { for (found = FALSE, offset = 0; (!found) && (offset < lw__); offset++) { if (!strncmp(TERM_data_ptr, Number_names[offset], 3)) { found = TRUE; Numbers[offset] = tc_Get_int(Numbers[offset]); } } } if (!found) { for (found = FALSE, offset = 0; (!found) && (offset < smgr__); offset++) { if (!strncmp(TERM_data_ptr, String_names[offset], 3)) { found = TRUE; String_table[offset] = String_Get(String_table[offset]); } } } if (!strncmp(TERM_data_ptr, "tc=", 3)) tc_ = String_Get(NULL); while ((*TERM_data_ptr != ':') && (*TERM_data_ptr != (char)NULL)) TERM_data_ptr++; if (*TERM_data_ptr == ':') TERM_data_ptr++; } } while (((TERM_data_ptr = fgets(Data_Line, 512, TFP)) != NULL) && ((*TERM_data_ptr == ' ') || (*TERM_data_ptr == '\t'))); if (tc_ != NULL) { TERMINAL_TYPE = tc_; rewind(TFP); Find_term(); tc_ = NULL; CAP_PARSE(); } else fclose(TFP); } #endif /* ifdef CAP */ struct _line * Screenalloc(columns) int columns; { int i; struct _line *tmp; tmp = (struct _line *) malloc(sizeof (struct _line)); tmp->row = malloc(columns + 1); tmp->attributes = malloc(columns + 1); tmp->prev_screen = NULL; tmp->next_screen = NULL; for (i = 0; i < columns; i++) { tmp->row[i] = ' '; tmp->attributes[i] = '\0'; } tmp->scroll = tmp->changed = FALSE; tmp->row[0] = '\0'; tmp->attributes[0] = '\0'; tmp->row[columns] = '\0'; tmp->attributes[columns] = '\0'; tmp->last_char = 0; return(tmp); } WINDOW *newwin(lines, cols, start_l, start_c) int lines, cols; /* number of lines and columns to be in window */ int start_l, start_c; /* starting line and column to be inwindow */ { WINDOW *Ntemp; struct _line *temp_screen; int i; Ntemp = (WINDOW *) malloc(sizeof(WINDOW)); Ntemp->SR = start_l; Ntemp->SC = start_c; Ntemp->Num_lines = lines; Ntemp->Num_cols = cols; Ntemp->LX = 0; Ntemp->LY = 0; Ntemp->scroll_down = Ntemp->scroll_up = 0; Ntemp->SCROLL_CLEAR = FALSE; Ntemp->Attrib = FALSE; Ntemp->first_line = temp_screen = Screenalloc(cols); Ntemp->first_line->number = 0; Ntemp->line_array = (struct _line **) malloc(LINES * sizeof(struct _line *)); Ntemp->line_array[0] = Ntemp->first_line; for (i = 1; i < lines; i++) { temp_screen->next_screen = Screenalloc(cols); temp_screen->next_screen->number = i; temp_screen->next_screen->prev_screen = temp_screen; temp_screen = temp_screen->next_screen; Ntemp->line_array[i] = temp_screen; } Ntemp->first_line->prev_screen = NULL; temp_screen->next_screen = NULL; return(Ntemp); } #ifdef CAP void Cap_Out(string, p_list, place) /* interpret the output string if necessary */ char *string; int p_list[]; /* stack of values */ int place; /* place keeper of top of stack */ { char *Otemp; /* temporary string pointer to parse output */ int delay; int p1, p2, temp; float chars; if (string == NULL) return; if (p_list != NULL) { p1 = p_list[--place]; p2 = p_list[--place]; } delay = 0; Otemp = string; if ((*Otemp >= '0') && (*Otemp <= '9')) { delay = atoi(Otemp); while ((*Otemp >= '0') && (*Otemp <= '9')) Otemp++; if (*Otemp == '*') Otemp++; } while (*Otemp != (char)NULL) { if (*Otemp == '%') { Otemp++; if ((*Otemp == 'd') || (*Otemp == '2') || (*Otemp == '3') || (*Otemp == '.') || (*Otemp == '+')) { if (*Otemp == 'd') printf("%d", p1); else if (*Otemp == '2') printf("%02d", p1); else if (*Otemp == '3') printf("%03d", p1); else if (*Otemp == '+') { Otemp++; p1 += *Otemp; putchar(p1); } else if (*Otemp == '.') putchar(p1); p1 = p2; p2 = 0; } else if (*Otemp == '>') { Otemp++; if (p1 > *Otemp) { Otemp++; p1 += *Otemp; } else Otemp++; } else if (*Otemp == 'r') { temp = p1; p1 = p2; p2 = temp; } else if (*Otemp == 'i') { p1++; p2++; } else if (*Otemp == '%') putchar(*Otemp); else if (*Otemp == 'n') { p1 ^= 0140; p2 ^= 0140; } else if (*Otemp == 'B') { p1 = (16 * (p1/10)) + (p1 % 10); p2 = (16 * (p2/10)) + (p2 % 10); } else if (*Otemp == 'D') { p1 = (p1 - 2 * (p1 % 16)); p2 = (p2 - 2 * (p2 % 16)); } } else putchar (*Otemp); Otemp++; } if (delay != 0) { chars = delay * chars_per_millisecond; delay = chars; if ((chars - delay) > 0.0) delay++; for (; delay > 0; delay--) putchar(*String_table[pc__]); } fflush(stdout); } #else char *Otemp; /* temporary string pointer to parse output */ float chars; int p[10]; int variable[27]; int Operation(Temp_Stack, place) /* handle conditional operations */ int Temp_Stack[]; int place; { int temp; if (*Otemp == 'd') { Otemp++; temp = Temp_Stack[--place]; printf("%d", temp); } else if (!strncmp(Otemp, "2d", 2)) { temp = Temp_Stack[--place]; printf("%2d", temp); Otemp++; Otemp++; } else if (!strncmp(Otemp, "3d", 2)) { temp = Temp_Stack[--place]; printf("%0d", temp); Otemp++; Otemp++; } else if (!strncmp(Otemp, "02d", 3)) { temp = Temp_Stack[--place]; printf("%02d", temp); Otemp++; Otemp++; Otemp++; } else if (!strncmp(Otemp, "03d", 3)) { temp = Temp_Stack[--place]; printf("%03d", temp); Otemp++; Otemp++; Otemp++; } else if (*Otemp == '+') { Otemp++; temp = Temp_Stack[--place]; temp += Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '-') { Otemp++; temp = Temp_Stack[--place]; temp -= Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '*') { Otemp++; temp = Temp_Stack[--place]; temp *= Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '/') { Otemp++; temp = Temp_Stack[--place]; temp /= Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == 'm') { Otemp++; temp = Temp_Stack[--place]; temp %= Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '&') { Otemp++; temp = Temp_Stack[--place]; temp &= Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '|') { Otemp++; temp = Temp_Stack[--place]; temp |= Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '^') { Otemp++; temp = Temp_Stack[--place]; temp ^= Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '=') { Otemp++; temp = Temp_Stack[--place]; temp = (temp == Temp_Stack[--place]); Temp_Stack[place++] = temp; } else if (*Otemp == '>') { Otemp++; temp = Temp_Stack[--place]; temp = temp > Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == '<') { Otemp++; temp = Temp_Stack[--place]; temp = temp < Temp_Stack[--place]; Temp_Stack[place++] = temp; } else if (*Otemp == 'c') { Otemp++; putchar(Temp_Stack[--place]); } else if (*Otemp == 'i') { Otemp++; p[1]++; p[2]++; } else if (*Otemp == '%') { putchar(*Otemp); Otemp++; } else if (*Otemp == '!') { temp = ! Temp_Stack[--place]; Temp_Stack[place++] = temp; Otemp++; } else if (*Otemp == '~') { temp = ~Temp_Stack[--place]; Temp_Stack[place++] = temp; Otemp++; } else if (*Otemp == 'p') { Otemp++; Temp_Stack[place++] = p[*Otemp - '0']; Otemp++; } else if (*Otemp == 'P') { Otemp++; Temp_Stack[place++] = variable[*Otemp - 'a']; Otemp++; } else if (*Otemp == 'g') { Otemp++; variable[*Otemp - 'a'] = Temp_Stack[--place]; Otemp++; } else if (*Otemp == '\'') { Otemp++; Temp_Stack[place++] = *Otemp; Otemp++; Otemp++; } else if (*Otemp == '{') { Otemp++; temp = atoi(Otemp); Temp_Stack[place++] = temp; while (*Otemp != '}') Otemp++; Otemp++; } return(place); } void Info_Out(string, p_list, place) /* interpret the output string if necessary */ char *string; int p_list[]; int place; { char *tchar; int delay; int temp; int Cond_FLAG; int EVAL; int Cond_Stack[128]; int Cond_place; int Stack[128]; int Top_of_stack; if (string == NULL) return; Cond_FLAG = FALSE; Cond_place = 0; Top_of_stack = 0; p[0] = 0; p[1] = 0; p[2] = 0; p[3] = 0; p[4] = 0; p[5] = 0; p[6] = 0; p[7] = 0; p[8] = 0; p[9] = 0; if (p_list != NULL) { for (temp = 1; (place != 0); temp++) { p[temp] = p_list[--place]; } } delay = 0; Otemp = string; while (*Otemp != '\0') { if (*Otemp == '%') { Otemp++; if ((*Otemp == '?') || (*Otemp == 't') || (*Otemp == 'e') || (*Otemp == ';')) { if (*Otemp == '?') { Otemp++; Cond_FLAG = TRUE; EVAL = TRUE; while (EVAL) { /* | find the end of the | conditional statement */ while ((strncmp(Otemp, "%t", 2)) && (*Otemp != '\0')) { /* | move past '%' */ Otemp++; Cond_place = Operation(Cond_Stack, Cond_place); } /* | if condition is true */ if ((Cond_place > 0) && (Cond_Stack[Cond_place-1])) { /* | end conditional | parsing */ EVAL = FALSE; Otemp++; Otemp++; } else /* condition is false */ { /* | find 'else' or end | of if statement */ while ((strncmp(Otemp, "%e", 2)) && (strncmp(Otemp, "%;", 2)) && (*Otemp != '\0')) Otemp++; /* | if an 'else' found */ if ((*Otemp != '\0') && (!strncmp(Otemp, "%e", 2))) { Otemp++; Otemp++; tchar = Otemp; /* | check for 'then' part */ while ((*tchar != '\0') && (strncmp(tchar, "%t", 2)) && (strncmp(tchar, "%;", 2))) tchar++; /* | if end of string */ if (*tchar == '\0') { EVAL = FALSE; Cond_FLAG = FALSE; Otemp = tchar; } /* | if end of if found, | set up to parse | info */ else if (!strncmp(tchar, "%;", 2)) EVAL = FALSE; /* | otherwise, check | conditional in | 'else' */ } /* | if end of if found, | get out of if | statement */ else if ((*Otemp != '\0') && (!strncmp(Otemp, "%;", 2))) { EVAL = FALSE; Otemp++; Otemp++; } else /* Otemp == NULL */ { EVAL = FALSE; Cond_FLAG = FALSE; } } } } else { Otemp++; Cond_FLAG = FALSE; if (*Otemp != ';') { while ((*Otemp != '\0') && (strncmp(Otemp, "%;", 2))) Otemp++; if (*Otemp != '\0') { Otemp++; Otemp++; } } else Otemp++; } } else { Top_of_stack = Operation(Stack, Top_of_stack); } } else if (!strncmp(Otemp, "$<", 2)) { Otemp++; Otemp++; delay = atoi(Otemp); while (*Otemp != '>') Otemp++; Otemp++; chars = delay * chars_per_millisecond; delay = chars; if ((chars - delay) > 0.0) delay++; if (String_table[pc__] == NULL) temp = 0; else temp = *String_table[pc__]; for (; delay > 0; delay--) putc(temp, stdout); } else { putchar(*Otemp); Otemp++; } } fflush(stdout); } #endif void wmove(window, row, column) /* move cursor to indicated position in window */ WINDOW *window; int row, column; { if ((row < window->Num_lines) && (column < window->Num_cols)) { window->LX = column; window->LY = row; } } void clear_line(line, column, cols) struct _line *line; int column; int cols; { int j; if (column > line->last_char) { for (j = line->last_char; j < column; j++) { line->row[j] = ' '; line->attributes[j] = '\0'; } } line->last_char = column; line->row[column] = '\0'; line->attributes[column] = '\0'; line->changed = TRUE; } void werase(window) /* clear the specified window */ WINDOW *window; { int i; struct _line *tmp; window->SCROLL_CLEAR = CLEAR; window->scroll_up = window->scroll_down = 0; for (i = 0, tmp = window->first_line; i < window->Num_lines; i++, tmp = tmp->next_screen) clear_line(tmp, 0, window->Num_cols); } void wclrtoeol(window) /* erase from current cursor position to end of line */ WINDOW *window; { int column, row; struct _line *tmp; window->SCROLL_CLEAR = CHANGE; column = window->LX; row = window->LY; for (row = 0, tmp = window->first_line; row < window->LY; row++) tmp = tmp->next_screen; clear_line(tmp, column, window->Num_cols); } void wrefresh(window) /* flush all previous output */ WINDOW *window; { wnoutrefresh(window); #ifdef DIAG { struct _line *temp; int value; fprintf(stderr, "columns=%d, lines=%d, SC=%d, SR=%d\n",window->Num_cols, window->Num_lines, window->SC, window->SR); for (value = 0, temp = window->first_line; value < window->Num_lines; value++, temp = temp->next_screen) { if (temp->number == -1) fprintf(stderr, "line moved "); if (temp->scroll) fprintf(stderr, "scroll_x is set: "); fprintf(stderr, "lc%d=%s|\n", temp->last_char, temp->row); } fprintf(stderr, "+-------------------- virtual screen ----------------------------------------+\n"); fprintf(stderr, "columns=%d, lines=%d \n",virtual_scr->Num_cols, virtual_scr->Num_lines); for (value = 0, temp = virtual_scr->first_line; value < virtual_scr->Num_lines; value++, temp = temp->next_screen) { if (temp->number == -1) fprintf(stderr, "line moved "); if (temp->scroll) fprintf(stderr, "scroll_x is set: "); fprintf(stderr, "lc%d=%s|\n", temp->last_char, temp->row); } fprintf(stderr, "columns=%d, lines=%d \n",curscr->Num_cols, curscr->Num_lines); for (value = 0, temp = curscr->first_line; value < curscr->Num_lines; value++, temp = temp->next_screen) fprintf(stderr, "line=%s|\n", temp->row); } #endif doupdate(); virtual_scr->SCROLL_CLEAR = FALSE; virtual_scr->scroll_down = virtual_scr->scroll_up = 0; fflush(stdout); } void touchwin(window) WINDOW *window; { struct _line *user_line; int line_counter = 0; for (line_counter = 0, user_line = window->first_line; line_counter < window->Num_lines; line_counter++) { user_line->changed = TRUE; } window->SCROLL_CLEAR = TRUE; } void wnoutrefresh(window) WINDOW *window; { struct _line *user_line; struct _line *virtual_line; int line_counter = 0; int user_col = 0; int virt_col = 0; if (window->SR >= virtual_scr->Num_lines) return; user_line = window->first_line; virtual_line = virtual_scr->first_line; virtual_scr->SCROLL_CLEAR = window->SCROLL_CLEAR; virtual_scr->LX = window->LX + window->SC; virtual_scr->LY = window->LY + window->SR; virtual_scr->scroll_up = window->scroll_up; virtual_scr->scroll_down = window->scroll_down; if ((last_window_refreshed == window) && (!window->SCROLL_CLEAR)) return; for (line_counter = 0; line_counter < window->SR; line_counter++) { virtual_line = virtual_line->next_screen; } for (line_counter = 0; (line_counter < window->Num_lines) && ((line_counter + window->SR) < virtual_scr->Num_lines); line_counter++) { if ((last_window_refreshed != window) || (user_line->changed) || ((SCROLL | CLEAR) & window->SCROLL_CLEAR)) { for (user_col = 0, virt_col = window->SC; (virt_col < virtual_scr->Num_cols) && (user_col < user_line->last_char); virt_col++, user_col++) { virtual_line->row[virt_col] = user_line->row[user_col]; virtual_line->attributes[virt_col] = user_line->attributes[user_col]; } for (user_col = user_line->last_char, virt_col = window->SC + user_line->last_char; (virt_col < virtual_scr->Num_cols) && (user_col < window->Num_cols); virt_col++, user_col++) { virtual_line->row[virt_col] = ' '; virtual_line->attributes[virt_col] = '\0'; } } if (virtual_scr->Num_cols != window->Num_cols) { if (virtual_line->last_char < (user_line->last_char + window->SC)) { if (virtual_line->row[virtual_line->last_char] == '\0') virtual_line->row[virtual_line->last_char] = ' '; virtual_line->last_char = min(virtual_scr->Num_cols, (user_line->last_char + window->SC)); } } else virtual_line->last_char = user_line->last_char; virtual_line->row[virtual_line->last_char] = '\0'; virtual_line->changed = user_line->changed; virtual_line = virtual_line->next_screen; user_line = user_line->next_screen; } window->SCROLL_CLEAR = FALSE; window->scroll_up = window->scroll_down = 0; last_window_refreshed = window; } void flushinp() /* flush input */ { } void ungetch(c) /* push a character back on input */ int c; { if (bufp < 100) in_buff[bufp++] = c; } #ifdef BSD_SELECT int timed_getchar() { struct timeval tv; fd_set fds; int ret_val; int nfds = 1; char temp; FD_ZERO(&fds); tv.tv_sec = 0; tv.tv_usec = 500000; /* half a second */ FD_SET(0, &fds); Time_Out = FALSE; /* just in case */ ret_val = select(nfds, &fds, 0, 0, &tv); /* | if ret_val is less than zero, there was no input | otherwise, get a character and return it */ if (ret_val <= 0) { Time_Out = TRUE; return(-1); } return(read(0, &temp, 1)? temp : -1); } #endif int wgetch(window) /* get character from specified window */ WINDOW *window; { int in_value; char temp; #ifndef SYS5 int old_arg; #endif /* SYS5 */ #ifdef BSD_SELECT if (Noblock) in_value = ((bufp > 0) ? in_buff[--bufp] : timed_getchar()); else in_value = ((bufp > 0) ? in_buff[--bufp] : read(0, &temp, 1)? temp : -1); #else /* BSD_SELECT */ #ifdef SYS5 in_value = ((bufp > 0) ? in_buff[--bufp] : (read(0, &temp, 1)> 0) ? temp : -1); #else /* SYS5 */ if (Noblock) { Time_Out = FALSE; old_arg = fcntl(0, F_GETFL, 0); in_value = fcntl(0, F_SETFL, old_arg | FNDELAY); } in_value = ((bufp > 0) ? in_buff[--bufp] : read(0, &temp, 1)? temp : -1); if (Noblock) { fcntl(0, F_SETFL, old_arg); if (Time_Out) in_value = -1; } #endif /* SYS5 */ #endif /* BSD_SELECT */ if (in_value != -1) { in_value &= 0xff; if ((Parity) && (Num_bits < 8)) /* strip eighth bit if parity in use */ in_value &= 0177; } else if (interrupt_flag) { interrupt_flag = FALSE; in_value = wgetch(window); } if ((in_value == '\033') || (in_value == '\037'))/* escape character */ in_value = Get_key(in_value); return(in_value); } #ifndef BSD_SELECT void Clear(arg) /* notify that time out has occurred */ int arg; { Time_Out = TRUE; #ifdef DEBUG fprintf(stderr, "inside Clear()\n"); fflush(stderr); #endif /* DEBUG */ } #endif /* BSD_SELECT */ int Get_key(first_char) /* try to decode key sequence */ int first_char; /* first character of sequence */ { int in_char; int Count; char string[128]; char *Gtemp; int Found; #ifdef SYS5 struct termio Gterminal; #else struct sgttyb Gterminal; #endif struct KEY_STACK *St_point; #if (!defined( BSD_SELECT)) || (!defined(SYS5)) int value; #endif /* BSD_SELECT */ Count = 0; Gtemp = string; string[Count++] = first_char; string[Count] = '\0'; Time_Out = FALSE; #ifndef BSD_SELECT signal(SIGALRM, Clear); value = alarm(1); #endif /* BSD_SELECT */ Noblock = TRUE; #ifdef SYS5 Gterminal.c_cc[VTIME] = 0; /* timeout value */ Gterminal.c_lflag &= ~ICANON; /* disable canonical operation */ Gterminal.c_lflag &= ~ECHO; /* disable echo */ #endif Count = 1; Found = FALSE; while ((Count < Max_Key_len) && (!Time_Out) && (!Found)) { in_char = wgetch(stdscr); #ifdef DEBUG fprintf(stderr, "back in GetKey()\n"); fflush(stderr); #endif /* DEBUG */ if (in_char != -1) { string[Count++] = in_char; string[Count] = '\0'; St_point = KEY_TOS; while ((St_point != NULL) && (!Found)) { if (!strcmp(string, St_point->element->string)) Found = TRUE; else St_point = St_point->next; } } } #ifndef BSD_SELECT if (!Time_Out) value = alarm(0); #endif /* BSD_SELECT */ #ifdef SYS5 /* value = ioctl(0, TCSETA, &Terminal);*/ #else value = ioctl(0, TIOCSETP, &Terminal); /* value = fcntl(0, F_SETFL, old_arg);*/ #endif Noblock = FALSE; if (Found) { return(St_point->element->value); } else { while (Count > 1) { if ((string[--Count] != -1) && ((unsigned char) (string[Count]) != 255)) { #ifdef DIAG fprintf(stderr, "ungetting character %d\n", string[Count]);fflush(stdout); #endif ungetch(string[Count]); } } return(first_char); } } void waddch(window, c) /* output the character in the specified window */ WINDOW *window; int c; { int column, j; int shift; /* number of spaces to shift if a tab */ struct _line *tmpline; #ifdef DIAG /*printf("starting waddch \n");fflush(stdout);*/ #endif column = window->LX; if (c == '\t') { shift = (column + 1) % 8; if (shift == 0) shift++; else shift = 9 - shift; while (shift > 0) { shift--; waddch(window, ' '); } } else if ((column < window->Num_cols) && (window->LY < window->Num_lines)) { if ((c == '~') && (Booleans[hz__])) c = '@'; if (( c != '\b') && (c != '\n') && (c != '\r')) { tmpline = window->line_array[window->LY]; tmpline->row[column] = c; tmpline->attributes[column] = window->Attrib; tmpline->changed = TRUE; if (column >= tmpline->last_char) { if (column > tmpline->last_char) for (j = tmpline->last_char; j < column; j++) { tmpline->row[j] = ' '; tmpline->attributes[j] = '\0'; } tmpline->row[column + 1] = '\0'; tmpline->attributes[column + 1] = '\0'; tmpline->last_char = column + 1; } } if (c == '\n') { wclrtoeol(window); window->LX = window->Num_cols; } else if (c == '\r') window->LX = 0; else if (c == '\b') window->LX--; else window->LX++; } if (window->LX >= window->Num_cols) { window->LX = 0; window->LY++; if (window->LY >= window->Num_lines) { window->LY = window->Num_lines - 1; /* window->LY = row; wmove(window, 0, 0); wdeleteln(window); wmove(window, row, 0);*/ } } window->SCROLL_CLEAR = CHANGE; } void winsertln(window) /* insert a blank line into the specified window */ WINDOW *window; { int row, column; struct _line *tmp; struct _line *tmp1; window->scroll_down += 1; window->SCROLL_CLEAR = SCROLL; column = window->LX; row = window->LY; for (row = 0, tmp = window->first_line; (row < window->Num_lines) && (tmp->next_screen != NULL); row++) tmp = tmp->next_screen; if (tmp->prev_screen != NULL) tmp->prev_screen->next_screen = NULL; tmp1 = tmp; clear_line(tmp1, 0, window->Num_cols); tmp1->number = -1; for (row = 0, tmp = window->first_line; (row < window->LY) && (tmp->next_screen != NULL); row++) tmp = tmp->next_screen; if ((window->LY == (window->Num_lines - 1)) && (window->Num_lines > 1)) { tmp1->next_screen = tmp->next_screen; tmp->next_screen = tmp1; tmp->changed = TRUE; tmp->next_screen->prev_screen = tmp; } else if (window->Num_lines > 1) { if (tmp->prev_screen != NULL) tmp->prev_screen->next_screen = tmp1; tmp1->prev_screen = tmp->prev_screen; tmp->prev_screen = tmp1; tmp1->next_screen = tmp; tmp->changed = TRUE; tmp->scroll = DOWN; } if (window->LY == 0) window->first_line = tmp1; for (row = 0, tmp1 = window->first_line; row < window->Num_lines; row++) { window->line_array[row] = tmp1; tmp1 = tmp1->next_screen; } } void wdeleteln(window) /* delete a line in the specified window */ WINDOW *window; { int row, column; struct _line *tmp; struct _line *tmpline; if (window->Num_lines > 1) { window->scroll_up += 1; window->SCROLL_CLEAR = SCROLL; column = window->LX; row = window->LY; for (row = 0, tmp = window->first_line; row < window->LY; row++) tmp = tmp->next_screen; if (window->LY == 0) window->first_line = tmp->next_screen; if (tmp->prev_screen != NULL) tmp->prev_screen->next_screen = tmp->next_screen; if (tmp->next_screen != NULL) { tmp->next_screen->changed = TRUE; tmp->next_screen->scroll = UP; tmp->next_screen->prev_screen = tmp->prev_screen; } tmpline = tmp; clear_line(tmpline, 0, window->Num_cols); tmpline->number = -1; for (row = 0, tmp = window->first_line; tmp->next_screen != NULL; row++) tmp = tmp->next_screen; if (tmp != NULL) { tmp->next_screen = tmpline; tmp->next_screen->prev_screen = tmp; tmp->changed = TRUE; tmp = tmp->next_screen; } else tmp = tmpline; tmp->next_screen = NULL; for (row = 0, tmp = window->first_line; row < window->Num_lines; row++) { window->line_array[row] = tmp; tmp = tmp->next_screen; } } else { clear_line(window->first_line, 0, window->Num_cols); } } void wclrtobot(window) /* delete from current position to end of the window */ WINDOW *window; { int row, column; struct _line *tmp; window->SCROLL_CLEAR |= CLEAR; column = window->LX; row = window->LY; for (row = 0, tmp = window->first_line; row < window->LY; row++) tmp = tmp->next_screen; clear_line(tmp, column, window->Num_cols); for (row = (window->LY + 1); row < window->Num_lines; row++) { tmp = tmp->next_screen; clear_line(tmp, 0, window->Num_cols); } wmove(window, row, column); } void wstandout(window) /* begin standout mode in window */ WINDOW *window; { if (Numbers[sg__] < 1) /* if not magic cookie glitch */ window->Attrib |= A_STANDOUT; } void wstandend(window) /* end standout mode in window */ WINDOW *window; { window->Attrib &= ~A_STANDOUT; } void waddstr(window, string) /* write 'string' in window */ WINDOW *window; char *string; { char *wstring; for (wstring = string; *wstring != '\0'; wstring++) waddch(window, *wstring); } void clearok(window, flag) /* erase screen and redraw at next refresh */ WINDOW *window; int flag; { Repaint_screen = TRUE; } void echo() /* turn on echoing */ { int value; #ifdef SYS5 Terminal.c_lflag |= ECHO; /* enable echo */ value = ioctl(0, TCSETA, &Terminal); /* set characteristics */ #else Terminal.sg_flags |= ECHO; /* enable echo */ value = ioctl(0, TIOCSETP, &Terminal); /* set characteristics */ #endif } void noecho() /* turn off echoing */ { int value; #ifdef SYS5 Terminal.c_lflag &= ~ECHO; /* disable echo */ value = ioctl(0, TCSETA, &Terminal); /* set characteristics */ #else Terminal.sg_flags &= ~ECHO; /* disable echo */ value = ioctl(0, TIOCSETP, &Terminal); /* set characteristics */ #endif } void raw() /* set to read characters immediately */ { int value; #ifdef SYS5 Intr = Terminal.c_cc[VINTR]; /* get the interrupt character */ Terminal.c_lflag &= ~ICANON; /* disable canonical operation */ Terminal.c_lflag &= ~ISIG; /* disable signal checking */ #ifdef FLUSHO Terminal.c_lflag &= ~FLUSHO; #endif #ifdef PENDIN Terminal.c_lflag &= ~PENDIN; #endif #ifdef IEXTEN Terminal.c_lflag &= ~IEXTEN; #endif Terminal.c_cc[VMIN] = 1; /* minimum of one character */ Terminal.c_cc[VTIME] = 0; /* timeout value */ Terminal.c_cc[VINTR] = 0; /* eliminate interrupt */ value = ioctl(0, TCSETA, &Terminal); /* set characteristics */ #else Terminal.sg_flags |= RAW; /* enable raw mode */ value = ioctl(0, TIOCSETP, &Terminal); /* set characteristics */ #endif } void noraw() /* set to normal character read mode */ { int value; #ifdef SYS5 Terminal.c_lflag |= ICANON; /* enable canonical operation */ Terminal.c_lflag |= ISIG; /* enable signal checking */ Terminal.c_cc[VEOF] = 4; /* EOF character = 4 */ Terminal.c_cc[VEOL] = '\0'; /* EOL = 0 */ Terminal.c_cc[VINTR] = Intr; /* reset interrupt char */ value = ioctl(0, TCSETA, &Terminal); /* set characteristics */ #else Terminal.sg_flags &= ~RAW; /* disable raw mode */ value = ioctl(0, TIOCSETP, &Terminal); /* set characteristics */ /* old_arg = fcntl(0, F_GETFL, 0); value = fcntl(0, F_SETFL, old_arg & ~FNDELAY);*/ #endif } void nl() { int value; #ifdef SYS5 Terminal.c_iflag |= ICRNL; /* enable carriage-return to line-feed mapping */ value = ioctl(0, TCSETA, &Terminal); /* set characteristics */ #endif } void nonl() { int value; #ifdef SYS5 Terminal.c_iflag &= ~ICRNL; /* disable carriage-return to line-feed mapping */ Terminal.c_iflag &= ~IGNCR; /* do not ignore carriage-return */ value = ioctl(0, TCSETA, &Terminal); /* set characteristics */ #endif } void saveterm() { } void fixterm() { } void resetterm() { } void nodelay(window, flag) WINDOW *window; int flag; { } void idlok(window, flag) WINDOW *window; int flag; { } void keypad(window, flag) WINDOW *window; int flag; { if (flag) String_Out(String_table[ks__], NULL, 0); else String_Out(String_table[ke__], NULL, 0); } void savetty() /* save current tty stats */ { int value; #ifdef SYS5 value = ioctl(0, TCGETA, &Saved_tty); /* set characteristics */ #else value = ioctl(0, TIOCGETP, &Saved_tty); /* set characteristics */ #endif } void resetty() /* restore previous tty stats */ { int value; #ifdef SYS5 value = ioctl(0, TCSETA, &Saved_tty); /* set characteristics */ #else value = ioctl(0, TIOCSETP, &Saved_tty); /* set characteristics */ #endif } void endwin() /* end windows */ { keypad(stdscr, FALSE); initialized = FALSE; delwin(curscr); delwin(virtual_scr); delwin(stdscr); #ifndef SYS5 { int old_arg, value; /* old_arg = fcntl(0, F_GETFL, 0); value = fcntl(0, F_SETFL, old_arg & ~FNDELAY);*/ } #endif } void delwin(window) /* delete the window structure */ WINDOW *window; { int i; for (i = 1; (i < window->Num_lines) && (window->first_line->next_screen != NULL); i++) { window->first_line = window->first_line->next_screen; free(window->first_line->prev_screen->row); free(window->first_line->prev_screen->attributes); free(window->first_line->prev_screen); } if (window == last_window_refreshed) last_window_refreshed = 0; if (window->first_line != NULL) { free(window->first_line->row); free(window->first_line->attributes); free(window->first_line); free(window); } } #ifndef __STDC__ void wprintw(va_alist) va_dcl #else /* __STDC__ */ void wprintw(WINDOW *window, const char *format, ...) #endif /* __STDC__ */ { #ifndef __STDC__ WINDOW *window; char *format; va_list ap; #else va_list ap; #endif int value; char *fpoint; char *wtemp; #ifndef __STDC__ va_start(ap); window = va_arg(ap, WINDOW *); format = va_arg(ap, char *); #else /* __STDC__ */ va_start(ap, format); #endif /* __STDC__ */ fpoint = (char *) format; while (*fpoint != '\0') { if (*fpoint == '%') { fpoint++; if (*fpoint == 'd') { value = va_arg(ap, int); iout(window, value); } else if (*fpoint == 'c') { value = va_arg(ap, int); waddch(window, value); } else if (*fpoint == 's') { wtemp = va_arg(ap, char *); waddstr(window, wtemp); } fpoint++; } else if (*fpoint == '\\') { fpoint++; if (*fpoint == 'n') waddch(window, '\n'); else if ((*fpoint >= '0') && (*fpoint <= '9')) { value = 0; while ((*fpoint >= '0') && (*fpoint <= '9')) { value = (value * 8) + (*fpoint - '0'); fpoint++; } waddch(window, value); } fpoint++; } else waddch(window, *fpoint++); } #ifdef __STDC__ va_end(ap); #endif /* __STDC__ */ } void iout(window, value) /* output characters */ WINDOW *window; int value; { int i; if ((i = value / 10) != 0) iout(window, i); waddch(window, ((value % 10) + '0')); } int Comp_line(line1, line2) /* compare lines */ struct _line *line1; struct _line *line2; { int count1; int i; char *att1, *att2; char *c1, *c2; if (line1->last_char != line2->last_char) return(2); c1 = line1->row; c2 = line2->row; att1 = line1->attributes; att2 = line2->attributes; i = 0; while ((c1[i] != '\0') && (c2[i] != '\0') && (c1[i] == c2[i]) && (att1[i] == att2[i])) i++; count1 = i + 1; if ((count1 == 1) && (c1[i] == '\0') && (c2[i] == '\0')) count1 = 0; /* both lines blank */ else if ((c1[i] == '\0') && (c2[i] == '\0')) count1 = -1; /* equal */ else count1 = 1; /* lines unequal */ return(count1); } struct _line * Insert_line(row, end_row, window) /* insert line into screen */ int row; int end_row; WINDOW *window; { int i; struct _line *tmp; struct _line *tmp1; for (i = 0, tmp = curscr->first_line; i < window->SR; i++) tmp = tmp->next_screen; if ((end_row + window->SR) == 0) curscr->first_line = curscr->first_line->next_screen; top_of_win = tmp; /* | find bottom line to delete */ for (i = 0, tmp = top_of_win; (tmp->next_screen != NULL) && (i < end_row); i++) tmp = tmp->next_screen; if (tmp->prev_screen != NULL) tmp->prev_screen->next_screen = tmp->next_screen; if (tmp->next_screen != NULL) tmp->next_screen->prev_screen = tmp->prev_screen; tmp1 = tmp; /* | clear deleted line */ clear_line(tmp, 0, window->Num_cols); tmp1->number = -1; for (i = 0, tmp = curscr->first_line; (tmp->next_screen != NULL) && (i < window->SR); i++) tmp = tmp->next_screen; top_of_win = tmp; for (i = 0, tmp = top_of_win; i < row; i++) tmp = tmp->next_screen; if ((tmp->prev_screen != NULL) && (window->Num_lines > 0)) tmp->prev_screen->next_screen = tmp1; tmp1->prev_screen = tmp->prev_screen; tmp->prev_screen = tmp1; tmp1->next_screen = tmp; if ((row + window->SR) == 0) curscr->first_line = tmp1; if (tmp1->next_screen != NULL) tmp1 = tmp1->next_screen; if ((!String_table[cs__]) && (end_row < window->Num_lines)) { Position(window, (window->SR + end_row), 0); String_Out(String_table[dl__], NULL, 0); } Position(window, (window->SR + row), 0); if (String_table[al__] != NULL) String_Out(String_table[al__], NULL, 0); else String_Out(String_table[sr__], NULL, 0); for (i = 0, top_of_win = curscr->first_line; (top_of_win->next_screen != NULL) && (i < window->SR); i++) top_of_win = top_of_win->next_screen; return(tmp1); } struct _line * Delete_line(row, end_row, window) /* delete a line on screen */ int row; int end_row; WINDOW *window; { int i; struct _line *tmp; struct _line *tmp1; struct _line *tmp2; i = 0; tmp = curscr->first_line; while (i < window->SR) { i++; tmp = tmp->next_screen; } /* | find line to delete */ top_of_win = tmp; if ((row + window->SR) == 0) curscr->first_line = top_of_win->next_screen; for (i = 0, tmp = top_of_win; i < row; i++) tmp = tmp->next_screen; if (tmp->prev_screen != NULL) tmp->prev_screen->next_screen = tmp->next_screen; if (tmp->next_screen != NULL) tmp->next_screen->prev_screen = tmp->prev_screen; tmp2 = tmp->next_screen; tmp1 = tmp; /* | clear deleted line */ clear_line(tmp1, 0, window->Num_cols); tmp1->number = -1; /* | find location to insert deleted line */ for (i = 0, tmp = curscr->first_line; (tmp->next_screen != NULL) && (i < window->SR); i++) tmp = tmp->next_screen; top_of_win = tmp; for (i = 0, tmp = top_of_win; (i < end_row) && (tmp->next_screen != NULL); i++) tmp = tmp->next_screen; tmp1->next_screen = tmp; tmp1->prev_screen = tmp->prev_screen; if (tmp1->prev_screen != NULL) tmp1->prev_screen->next_screen = tmp1; tmp->prev_screen = tmp1; Position(window, (window->SR + row), 0); String_Out(String_table[dl__], NULL, 0); if ((!String_table[cs__]) && (end_row < window->Num_lines)) { Position(window, (window->SR + end_row), 0); String_Out(String_table[al__], NULL, 0); } else if ((String_table[cs__] != NULL) && (String_table[dl__] == NULL)) { Position(window, (window->SR + end_row), 0); putchar('\n'); } if (row == (window->Num_lines-1)) tmp2 = tmp1; if ((row + window->SR) == 0) curscr->first_line = top_of_win = tmp2; return(tmp2); } void CLEAR_TO_EOL(window, row, column) WINDOW *window; int row, column; { int x, y; struct _line *tmp1; for (y = 0, tmp1 = curscr->first_line; (y < (window->SR+row)) && (tmp1->next_screen != NULL); y++) tmp1 = tmp1->next_screen; for (x = column; x<window->Num_cols; x++) { tmp1->row[x] = ' '; tmp1->attributes[x] = '\0'; } tmp1->row[column] = '\0'; tmp1->last_char = column; if (column < COLS) { if (STAND) { STAND = FALSE; Position(window, row, column); attribute_off(); } if (String_table[ce__] != NULL) String_Out(String_table[ce__], NULL, 0); else { for (x = column; x < window->Num_cols; x++) putchar(' '); Curr_x = x; } } } int check_delete(window, line, offset, pointer_new, pointer_old) WINDOW *window; int line, offset; struct _line *pointer_new, *pointer_old; { int end_old; int end_new; int k; int changed; char *old_lin; char *new_lin; char *old_att; char *new_att; changed = FALSE; new_lin = pointer_new->row; new_att = pointer_new->attributes; old_lin = pointer_old->row; old_att = pointer_old->attributes; end_old = end_new = offset; while (((new_lin[end_new] != old_lin[end_old]) || (new_att[end_new] != old_att[end_old])) && (old_lin[end_old] != '\0') && (new_lin[end_old] != '\0')) end_old++; if (old_lin[end_old] != '\0') { k = 0; while ((old_lin[end_old+k] == new_lin[end_new+k]) && (new_att[end_new+k] == old_att[end_old+k]) && (new_lin[end_new+k] != '\0') && (old_lin[end_old+k] != '\0') && (k < 10)) k++; if ((k > 8) || ((new_lin[end_new+k] == '\0') && (k != 0))) { if (new_lin[end_new+k] == '\0') { Position(window, line, (end_new+k)); CLEAR_TO_EOL(window, line, (end_new+k)); } Position(window, line, offset); for (k = offset; k < end_old; k++) Char_del(old_lin, old_att, offset, window->Num_cols); while ((old_lin[offset] != '\0') && (offset < COLS)) offset++; pointer_old->last_char = offset; changed = TRUE; } } return(changed); } /* | Check if characters were inserted in the middle of a line, and if | so, insert them. */ int check_insert(window, line, offset, pointer_new, pointer_old) WINDOW *window; int line, offset; struct _line *pointer_new, *pointer_old; { int changed; int end_old, end_new; int k; int same = FALSE; int old_off; int insert; char *old_lin; char *new_lin; char *old_att; char *new_att; changed = FALSE; new_lin = pointer_new->row; new_att = pointer_new->attributes; old_lin = pointer_old->row; old_att = pointer_old->attributes; end_old = end_new = offset; while (((new_lin[end_new] != old_lin[end_old]) || (new_att[end_new] != old_att[end_old])) && (new_lin[end_new] != '\0') && (old_lin[end_new] != '\0')) end_new++; if (new_lin[end_new] != '\0') { k = 0; while ((old_lin[end_old+k] == new_lin[end_new+k]) && (old_att[end_old+k] == new_att[end_new+k]) && (new_lin[end_new+k] != '\0') && (old_lin[end_old+k] != '\0') && (k < 10)) k++; /* | check for commonality between rest of lines (are the old | and new lines the same, except for a chunk in the middle?) | if the rest of the lines are common, do not insert text */ old_off = end_new; while ((old_lin[old_off] != '\0') && (new_lin[old_off] != '\0') && (old_lin[old_off] == new_lin[old_off]) && (old_att[old_off] == new_att[old_off])) old_off++; if ((old_lin[old_off] == new_lin[old_off]) && (old_att[old_off] == new_att[old_off])) same = TRUE; if ((!same) && ((k > 8) || ((new_lin[end_new+k] == '\0') && (k != 0)))) { Position(window, line, offset); insert = FALSE; if (String_table[ic__] == NULL) { String_Out(String_table[im__], NULL, 0); insert = TRUE; } for (k = offset; k < end_new; k++) { if (!insert) String_Out(String_table[ic__], NULL, 0); Char_ins(old_lin, old_att, new_lin[k], new_att[k], k, window->Num_cols); } if (insert) String_Out(String_table[ei__], NULL, 0); while ((old_lin[offset] != '\0') && (offset < COLS)) offset++; pointer_old->last_char = offset; changed = TRUE; } } return(changed); } void doupdate() { WINDOW *window; int similar; int diff; int begin_old, begin_new; int end_old, end_new; int count1, j; int from_top, tmp_ft, offset; int changed; int first_time; int first_same; int last_same; int list[10]; int bottom; struct _line *curr; struct _line *virt; struct _line *old; struct _line *new; struct _line *old1, *new1; char *cur_lin; char *vrt_lin; char *cur_att; char *vrt_att; char *att1, *att2; char *c1, *c2; char NC_chinese = FALSE; /* flag to indicate handling Chinese */ window = virtual_scr; if ((nc_attributes & A_NC_BIG5) != 0) NC_chinese = TRUE; if (Repaint_screen) { if (String_table[cl__]) String_Out(String_table[cl__], NULL, 0); else { from_top = 0; while (from_top < LINES) { Position(curscr, from_top, 0); if (String_table[ce__] != NULL) String_Out(String_table[ce__], NULL, 0); else { for (j = 0; j < window->Num_cols; j++) putchar(' '); } from_top++; } } for (from_top = 0, curr = curscr->first_line; from_top < curscr->Num_lines; from_top++, curr = curr->next_screen) { Position(curscr, from_top, 0); for (j = 0; (curr->row[j] != '\0') && (j < curscr->Num_cols); j++) { Char_out(curr->row[j], curr->attributes[j], curr->row, curr->attributes, j); } if (STAND) { STAND = FALSE; Position(curscr, from_top, j); attribute_off(); } } Repaint_screen = FALSE; } similar = 0; diff = FALSE; top_of_win = curscr->first_line; for (from_top = 0, curr = top_of_win, virt = window->first_line; from_top < window->Num_lines; from_top++) { virtual_lines[from_top] = TRUE; if ((similar = Comp_line(curr, virt)) > 0) { virtual_lines[from_top] = FALSE; diff = TRUE; } curr = curr->next_screen; virt = virt->next_screen; } from_top = 0; virt = window->first_line; curr = top_of_win; similar = 0; /* | if the window has lines that are different, check for scrolling */ if (diff) { last_same = -1; changed = FALSE; for (first_same = window->Num_lines; (first_same > from_top) && (virtual_lines[first_same - 1]); first_same--) ; for (last_same = 0; (last_same < window->Num_lines) && (virtual_lines[last_same]== FALSE); last_same++) ; while ((from_top < first_same) && nc_scrolling_ability) /* check entire lines for diffs */ { if (from_top >= last_same) { for (last_same = from_top; (last_same < window->Num_lines) && (virtual_lines[last_same] == FALSE); last_same++) ; } if (!virtual_lines[from_top]) { diff = TRUE; /* | check for lines deleted (scroll up) */ for (tmp_ft = from_top+1, old = curr->next_screen; ((window->scroll_up) && (diff) && (tmp_ft < last_same) && (!virtual_lines[tmp_ft])); tmp_ft++) { if ((Comp_line(old, virt) == -1) && (!virtual_lines[from_top])) { /* | Find the bottom of the | area that should be | scrolled. */ for (bottom = tmp_ft, old1 = old, new1 = virt, count1 = 0; (bottom < window->Num_lines) && (Comp_line(old1, new1) <= 0); bottom++, old1 = old1->next_screen, new1 = new1->next_screen, count1++) ; if (count1 > 3) { if (String_table[cs__]) /* scrolling region */ { list[1] = from_top; list[0] = min((bottom - 1), (window->Num_lines - 1)); String_Out(String_table[cs__], list, 2); Curr_y = Curr_x = -1; } for (offset = (tmp_ft - from_top); (offset > 0); offset--) { old = Delete_line(from_top, min((bottom - 1), (window->Num_lines - 1)), window); diff = FALSE; } if (String_table[cs__]) /* scrolling region */ { list[1] = 0; list[0] = LINES - 1; String_Out(String_table[cs__], list, 2); Curr_y = Curr_x = -1; } top_of_win = curscr->first_line; curr = top_of_win; for (offset = 0; offset < from_top; offset++) curr = curr->next_screen; for (offset = from_top, old=curr, new=virt; offset < window->Num_lines; old=old->next_screen, new=new->next_screen, offset++) { similar = Comp_line(old, new); virtual_lines[offset] = (similar > 0 ? FALSE : TRUE); } } } else old = old->next_screen; } /* | check for lines inserted (scroll down) */ for (tmp_ft = from_top-1, old = curr->prev_screen; ((window->scroll_down) && (tmp_ft >= 0) && (diff) && (!virtual_lines[tmp_ft])); tmp_ft--) { if (Comp_line(old, virt) == -1) { /* | Find the bottom of the | area that should be | scrolled. */ for (bottom = from_top, old1 = old, new1 = virt, count1 = 0; (bottom < window->Num_lines) && (Comp_line(old1, new1) <= 0); bottom++, old1 = old1->next_screen, new1 = new1->next_screen, count1++) ; if (count1 > 3) { if (String_table[cs__]) /* scrolling region */ { list[1] = tmp_ft; list[0] = min((bottom - 1), (window->Num_lines - 1)); String_Out(String_table[cs__], list, 2); Curr_y = Curr_x = -1; } for (offset = (from_top - tmp_ft); (offset > 0); offset--) { old = Insert_line(tmp_ft, min((bottom - 1), (window->Num_lines -1)), window); diff = FALSE; } if (String_table[cs__]) /* scrolling region */ { list[1] = 0; list[0] = LINES - 1; String_Out(String_table[cs__], list, 2); Curr_y = Curr_x = -1; } top_of_win = curscr->first_line; curr = top_of_win; for (offset = 0; offset < from_top; offset++) curr = curr->next_screen; for (offset = from_top, old=curr, new=virt; offset < window->Num_lines; old=old->next_screen, new=new->next_screen, offset++) { similar = Comp_line(old, new); virtual_lines[offset] = (similar > 0 ? FALSE : TRUE); } } } else old = old->prev_screen; } } from_top++; curr = curr->next_screen; virt = virt->next_screen; } } /* | Scrolling done, now need to insert, delete, or modify text | within lines. */ for (from_top = 0, curr = curscr->first_line; from_top < window->SR; from_top++) curr = curr->next_screen; top_of_win = curr; for (from_top = 0, curr = top_of_win, virt = window->first_line; from_top < window->Num_lines; from_top++, curr = curr->next_screen, virt = virt->next_screen) { /* | If either 'insert mode' or 'insert char' are | available, enter the following 'if' statement, | else, need to simply rewrite the contents of the line | at the point where the contents of the line change. */ if (((String_table[ic__]) || (String_table[im__])) && (String_table[dc__]) && (curr->row[0] != '\0') && (!NC_chinese)) { j = 0; first_time = TRUE; vrt_lin = virt->row; vrt_att = virt->attributes; cur_lin = curr->row; cur_att = curr->attributes; while ((vrt_lin[j] != '\0') && (j < window->Num_cols)) { if ((STAND) && (Booleans[xs__])) { while ((vrt_lin[j] == cur_lin[j]) && (vrt_att[j] == cur_att[j]) && (vrt_lin[j] != '\0') && (vrt_att[j])) j++; if ((STAND) && (!vrt_att[j])) { STAND = FALSE; Position(window, from_top, j); attribute_off(); attribute_off(); } } else { while ((vrt_lin[j] == cur_lin[j]) && (vrt_att[j] == cur_att[j]) && (vrt_lin[j] != '\0')) j++; } if ((vrt_att[j] != cur_att[j]) && (cur_att[j]) && (Booleans[xs__])) { Position(window, from_top, j); /* CLEAR_TO_EOL(window, from_top, j);*/ attribute_off(); attribute_off(); } if (vrt_lin[j] != '\0') { begin_new = j; begin_old = j; end_old = j; end_new = j; if ((first_time) && (virt->changed)) { if (curr->last_char <= virt->last_char) changed = check_insert(window, from_top, j, virt, curr); } changed = check_delete(window, from_top, j, virt, curr); first_time = FALSE; virt->changed = FALSE; if (!changed) changed = check_insert(window, from_top, j, virt, curr); if (((!changed) || (cur_lin[j] != vrt_lin[j]) || (cur_att[j] != vrt_att[j])) && (j < window->Num_cols)) { if ((vrt_lin[j] == ' ') && (cur_lin[j] == '\0') && (vrt_att[j] == cur_att[j])) cur_lin[j] = ' '; else { Position(window, from_top, j); Char_out(vrt_lin[j], vrt_att[j], cur_lin, cur_att, j); } } if ((vrt_lin[j] != '\0')) j++; } if ((STAND) && (!vrt_att[j])) { STAND = FALSE; Position(window, from_top, j); attribute_off(); } } if ((vrt_lin[j] == '\0') && (cur_lin[j] != '\0')) { Position(window, from_top, j); CLEAR_TO_EOL(window, from_top, j); } } else /*if ((similar != -1) && (similar != 0))*/ { j = 0; c1 = curr->row; att1 = curr->attributes; c2 = virt->row; att2 = virt->attributes; while ((j < window->Num_cols) && (c2[j] != '\0')) { while ((c1[j] == c2[j]) && (att1[j] == att2[j]) && (j < window->Num_cols) && (c2[j] != '\0')) j++; /* | if previous character is an eight bit | char, start redraw from that character */ if ((NC_chinese) && (highbitset(c1[j - 1]))) j--; begin_old = j; begin_new = j; if ((j < window->Num_cols) && (c2[j] != '\0')) { Position(window, from_top, begin_old); CLEAR_TO_EOL(window, from_top, j); Position(window, from_top, begin_old); for (j = begin_old; (c2[j] != '\0') && (j < window->Num_cols); j++) Char_out(c2[j], att2[j], c1, att1, j); } } if ((c2[j] == '\0') && (c1[j] != '\0')) { Position(window, from_top, j); CLEAR_TO_EOL(window, from_top, j); } } if (STAND) { STAND = FALSE; Position(window, from_top, j); attribute_off(); } virt->number = from_top; } Position(window, window->LY, window->LX); } void Position(window, row, col) /* position the cursor for output on the screen */ WINDOW *window; int row; int col; { int list[10]; int place; int pos_row; int pos_column; pos_row = row + window->SR; pos_column = col + window->SC; if ((pos_row != Curr_y) || (pos_column != Curr_x)) { if (String_table[cm__] != NULL) /* && (row < window->Num_lines) && (column < window->Num_cols))*/ { place = 0; list[place++] = pos_column; list[place++] = pos_row; String_Out(String_table[cm__], list, place); if ((STAND) && (!Booleans[ms__])) attribute_on(); } Curr_x = pos_column; Curr_y = pos_row; } } void Char_del(line, attrib, offset, maxlen) /* delete chars from line */ char *line; char *attrib; int offset; int maxlen; { int one, two; for (one = offset, two = offset+1; (line[one] != '\0') && (one < maxlen); one++, two++) { line[one] = line[two]; attrib[one] = attrib[two]; } String_Out(String_table[dc__], NULL, 0); } void Char_ins(line, attrib, newc, newatt, offset, maxlen) /* insert chars in line */ char *line; char *attrib; char newc; char newatt; int offset; int maxlen; { int one, two; one = 0; while ((line[one] != '\0') && (one < (maxlen - 2))) one++; for (two = one + 1; (two > offset); one--, two--) { line[two] = line[one]; attrib[two] = attrib[one]; } line[offset] = newc; attrib[offset] = newatt; Char_out(newc, newatt, line, attrib, offset); } void attribute_on() { if (String_table[sa__]) { attributes_set[0] = 1; String_Out(String_table[sa__], attributes_set, 1); } else if (String_table[so__]) String_Out(String_table[so__], NULL, 0); } void attribute_off() { if (String_table[me__]) String_Out(String_table[me__], NULL, 0); else if (String_table[sa__]) { attributes_set[0] = 0; String_Out(String_table[sa__], attributes_set, 1); } else if (String_table[se__]) String_Out(String_table[se__], NULL, 0); } void Char_out(newc, newatt, line, attrib, offset) /* output character with proper attribute */ char newc; char newatt; char *line; char *attrib; int offset; { if ((newatt) && (!STAND)) { STAND = TRUE; attribute_on(); } else if ((STAND) && (!newatt)) { STAND = FALSE; attribute_off(); } if ((newatt) && (STAND) && (Booleans[xs__])) { attribute_on(); } if (!((Curr_y >= (LINES - 1)) && (Curr_x >= (COLS - 1)))) { putchar(newc); line[offset] = newc; attrib[offset] = newatt; } Curr_x++; } /* | | The two routines that follow, nc_setattrib(), nc_clearattrib(), are | hacks that notify new_curse to handle characters that have the high | bit set as the first of two bytes of a multi-byte string. | */ void nc_setattrib(flag) int flag; { nc_attributes |= flag; } void nc_clearattrib(flag) int flag; { nc_attributes &= ~flag; }