/* * File: grkelot.c * * Synopsis: string -> greek ELOT928 or IBM437 string; * 4-state FSM implementation. * * System: Any (ANSI C) * * This is code derived from a more generic key remapper written by the same * author and used in other environments. It was not written only * for greek kbd bindings. An extension to other languages is easy * (well don't know how the FSM lends itself to Far East languages). * * The FSM can have MAX_STATES states (change it for more). * Each state contains: * 1. many tranlsation tables (registered via kstate_add_xlat()) * 2. many switch codes for transition to other states (registered via * kstate_add_switcher()) : limit is static now: MAX_SWITCHER * 3. life: the number of xlations allowed in a state (0 = unlimited) * * Format of tranlation strings: * -:n1,n2,n3,... * Format of switcher string: * A: * (other switchers apart from A=ascii can be supported; not in this context) * Format of life string: * L (N=0,1,...) * * Copyright (c) 1994,1995 Angelo Haritsis. All rights reserved. * * Redistribution and use in source and binary forms are permitted provided * that the above copyright notice and this paragraph are duplicated in all * such forms and that any documentation, advertising materials, and other * materials related to such distribution and use acknowledge that the * software was developed by Angelo Haritsis. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. * * NB: DO NOT ALTER! THIS CODE IS USED IN MANY PLATFORMS!!! * * TODO: make it more dynamic (linked lists is an idea but slower) */ static const char cvs_ident[] = "$Id$"; #include "config.h" #include "feature.h" #ifdef GREEK_SUPPORT # include "grkelot.h" # include # include /* --- Macros, Types --------- */ # define MAX_STATES 4 /* max # states for the FSM */ # define MAX_SWITCHER 2U /* per state */ # define MAX_VAL 256 /* for temp allocation */ typedef unsigned char u_char; typedef unsigned int u_int; typedef unsigned long u_long; typedef struct s_xlat { u_int first, last; u_int *pval; /* array of translated values */ } K_XLAT; typedef struct s_switch { u_char type; /* Ascii, Virtual, Scan */ u_int code; u_char nextstate; u_char on; /* current state of key: 0 = off */ } K_SWITCH; typedef struct s_state { u_int num_xlat; /* number of translations */ K_XLAT *xlat; /* State translations ((dynamic - realloc'ed) */ u_int num_switcher; /* number of switcher keys */ K_SWITCH switcher[MAX_SWITCHER]; /* switcher keys to other states */ u_char life; /* 0 = until switched by key */ u_char prev_state; /* filled when jumped to a new state */ } K_STATE; /* type for each one of the different greek standards (xlat types) */ typedef struct s_xlat_type { char *plain; char *accent; char *accent_xtra; char *umlaut; char *acc_uml; } XLAT_TYPE; /* --- Local Data ------------ */ static K_STATE State[MAX_STATES]; /* Current State */ static u_char nStateNow = 0; static K_STATE *pStateNow = &State[0]; static int GreekMode = GREEK_ELOT928; /* * The following are hard-coded for now. The idea is that such strings would * be read from a config file making it possible to change language/encodings * more flexibly. */ /* elot 928 xlations */ static char elot_xlat_plain[] = "65-122:193,194,216,196,197,214,195,199,201,206,202,203,204,205,207,208,81,209,211,212,200,217,87,215,213,198,91,92,93,94,95,96,225,226,248,228,229,246,227,231,233,238,234,235,236,237,239,240,113,241,243,244,232,249,242,247,245,230"; /* c and s give copyright and section sign */ static char elot_xlat_acc[] = "65-122:182,194,216,196,184,214,195,185,186,206,202,203,204,205,188,208,81,209,211,212,200,191,87,215,190,198,91,92,93,94,95,96,220,226," /*248 */ "169,228,221,246,227,222,223,238,234,235,236,237,252,240,113,241," /*243 */ "167,244,232,254,242,247,253,230"; static char elot_xlat_acc_xtra[] = "46-62:183,47,48,49,50,51,52,53,54,55,56,57,58,59,171,61,187"; /* anw teleia, quotes */ static char elot_xlat_uml[] = "65-122:193,194,216,196,197,214,195,199,218,206,202,203,204,205,207,208,81,209,211,212,200,217,87,215,219,198,91,92,93,94,95,96,225,226,248,228,229,246,227,231,250,238,234,235,236,237,239,240,113,241,243,244,232,249,242,247,251,230"; static char elot_xlat_umacc[] = "65-122:193,194,216,196,197,214,195,199,201,206,202,203,204,205,207,208,81,209,211,212,200,217,87,215,213,198,91,92,93,94,95,96,225,226,248,228,229,246,227,231,192,238,234,235,236,237,239,240,113,241,243,244,232,249,242,247,224,230"; /* ibm 437 xlations */ static char i437_xlat_plain[] = "65-122:128,129,150,131,132,148,130,134,136,141,137,138,139,140,142,143,81,144,145,146,135,151,87,149,147,133,91,92,93,94,95,96,152,153,175,155,156,173,154,158,160,165,161,162,163,164,166,167,113,168,169,171,159,224,170,174,172,157"; static char i437_xlat_acc[] = "65-122:234,129,150,131,235,148,130,236,237,141,137,138,139,140,238,143,81,144,145,146,135,240,87,149,239,133,91,92,93,94,95,96,225,153,175,155,226,173,154,227,229,165,161,162,163,164,230,167,113,168,169,171,159,233,170,174,231,157"; static char i437_xlat_acc_xtra[] = "46-46:250"; /* anw teleia */ static char i437_xlat_uml[] = "65-122:128,129,150,131,132,148,130,134,136,141,137,138,139,140,142,143,81,144,145,146,135,151,87,149,147,133,91,92,93,94,95,96,152,153,175,155,156,173,154,158,228,165,161,162,163,164,166,167,113,168,169,171,159,224,170,174,232,157"; static char i437_xlat_umacc[] = "65-122:128,129,150,131,132,148,130,134,136,141,137,138,139,140,142,143,81,144,145,146,135,151,87,149,147,133,91,92,93,94,95,96,152,153,175,155,156,173,154,158,42,165,161,162,163,164,166,167,113,168,169,171,159,224,170,174,42,157"; /* * currently ELOT928 and IBM437 are supported; easy to include others * (not recommended: stick to just these 2 if not only the ELOT one) */ static XLAT_TYPE xlat_type[] = { {elot_xlat_plain, elot_xlat_acc, elot_xlat_acc_xtra, elot_xlat_uml, elot_xlat_umacc}, {i437_xlat_plain, i437_xlat_acc, i437_xlat_acc_xtra, i437_xlat_uml, i437_xlat_umacc}, }; /* the current trasnaltion type */ static XLAT_TYPE *xlat_now = &xlat_type[GREEK_ELOT928]; # define NUM_XLAT_TYPES (sizeof(xlat_type) / sizeof(xlat_type[0])) static void kstate_add_xlat(char *str); static void kstate_add_switcher(char *str); static void kstate_set_life(char *str); /* --- Functions ------------- */ static void kstate_setcurr(int stateno) { u_char prev_state; if ((u_int) stateno > (u_int) MAX_STATES) return; if (pStateNow->life == 1) prev_state = pStateNow->prev_state; else prev_state = nStateNow; pStateNow = &State[nStateNow = stateno]; pStateNow->prev_state = prev_state; } static void kstate_init(void) { pStateNow->num_xlat = pStateNow->num_switcher = pStateNow->life = pStateNow->prev_state = 0; pStateNow->xlat = NULL; } static void kstate_end(void) { int i; for (i = 0; i < pStateNow->num_xlat; i++) FREE(pStateNow->xlat[i].pval); if (pStateNow->num_xlat > 0) FREE(pStateNow->xlat); } /* * Hard coded ELOT-928 translations. Could read these from an rc-type file * to support other remappers. */ static void kstate_init_all(int greek_mode) { /* the translation tables for the 4 FSM states for ELOT-928 mappings */ int i; for (i = 0; i < MAX_STATES; i++) { kstate_setcurr(i); kstate_init(); } if (greek_mode < 0 || greek_mode >= NUM_XLAT_TYPES) /* avoid death */ greek_mode = GREEK_ELOT928; xlat_now = &xlat_type[greek_mode]; kstate_setcurr(0); kstate_add_xlat(xlat_now->plain); kstate_add_switcher("A;:1"); kstate_add_switcher("A::2"); kstate_set_life("L0"); kstate_setcurr(1); kstate_add_xlat(xlat_now->accent); kstate_add_xlat(xlat_now->accent_xtra); kstate_add_switcher("A::3"); kstate_set_life("L1"); kstate_setcurr(2); kstate_add_xlat(xlat_now->umlaut); kstate_add_switcher("A;:3"); kstate_set_life("L1"); kstate_setcurr(3); kstate_add_xlat(xlat_now->acc_uml); kstate_set_life("L1"); } static void kstate_end_all(void) { int i; for (i = 0; i < MAX_STATES; i++) { kstate_setcurr(i); kstate_end(); } kstate_setcurr(0); } /* * reset FSM */ static void kstate_reset(void) { kstate_setcurr(0); } static void kstate_add_xlat(char *str) { K_XLAT *xlat; u_int *pval_tmp; char *sval; int i; if (!str) return; /* add a new xlat table in state */ if (pStateNow->num_xlat == 0) { pStateNow->xlat = MALLOC(sizeof(K_XLAT)); } else /* prefer contiguous data, realloc */ pStateNow->xlat = REALLOC(pStateNow->xlat, (pStateNow->num_xlat + 1) * sizeof(K_XLAT)); xlat = &pStateNow->xlat[pStateNow->num_xlat]; /* parse str and derive first, last, values */ xlat->first = (u_int) atoi(strtok(str, "-")); xlat->last = (u_int) atoi(strtok(NULL, ":")); i = 0; pval_tmp = CALLOC(MAX_VAL, sizeof(K_XLAT)); while ((sval = strtok(NULL, ","))) { pval_tmp[i++] = (u_int) (atoi(sval)); } xlat->pval = CALLOC(i, sizeof(K_XLAT)); if (xlat->pval) memcpy(xlat->pval, pval_tmp, i * sizeof(u_int)); FREE(pval_tmp); pStateNow->num_xlat++; } /* * Ascii only for this implementation */ static void kstate_add_switcher(char *str) { K_SWITCH *switcher; if (!str) return; if (pStateNow->num_switcher >= MAX_SWITCHER) return; switcher = &pStateNow->switcher[pStateNow->num_switcher]; switch (switcher->type = str[0]) { case 'A': /* ascii eg: A;:2 */ switcher->code = str[1]; switcher->nextstate = atoi(&str[3]); break; } switcher->on = 0; pStateNow->num_switcher++; } /* L1 or L0 */ static void kstate_set_life(char *str) { pStateNow->life = atoi(&str[1]); } static unsigned int kstate_cxlat(unsigned int c) { int i; /* check for ascii switcher */ for (i = 0; i < pStateNow->num_switcher; i++) if (pStateNow->switcher[i].type == 'A' && /* only ascii here */ c == pStateNow->switcher[i].code) { kstate_setcurr(pStateNow->switcher[i].nextstate); pStateNow->switcher[i].on = 1; return ((unsigned int) -1); } /* do translation */ for (i = 0; i < pStateNow->num_xlat; i++) if (c >= pStateNow->xlat[i].first && c <= pStateNow->xlat[i].last) { c = pStateNow->xlat[i].pval[c - pStateNow->xlat[i].first]; break; } /* switch back to previous state if life of current is 1 */ if (pStateNow->life == 1) kstate_setcurr(pStateNow->prev_state); return (c); } void greek_init(void) { kstate_init_all(GreekMode); } void greek_end(void) { kstate_end_all(); } void greek_reset(void) { kstate_reset(); } void greek_setmode(int greek_mode) { GreekMode = greek_mode; } int greek_getmode(void) { return (GreekMode); } /* * xlate a given string in-place - return new string length */ int greek_xlat(char *s, int num_chars) { int i, count; unsigned int c; for (i = 0, count = 0; i < num_chars; i++) { c = kstate_cxlat((unsigned int) s[i]); if (c != -1) s[count++] = (char) c; } s[count] = '\0'; return (count); } # ifdef TEST int main(void) { /*char text[] = "abcdef;aGDZXC"; */ char text[] = "abcdef;a:ibgdezhuiklmnjoprstyfxcv"; kstate_init_all(GREEK_ELOT928); printf("text: %s\n", text); greek_xlat(text, strlen(text)); printf("xlat'ed text: %s\n", text); kstate_end_all(); return 0; } # endif #endif /* GREEK_SUPPORT */