// On-screen Display (ie. console) // for the Build Engine // by Jonathon Fowler (jf@jonof.id.au) #include "build.h" #include "osd.h" #include "compat.h" #include "baselayer.h" #include "cache1d.h" #include "pragmas.h" #include "scancodes.h" #include "crc32.h" static mutex_t m_osdprintf; symbol_t *symbols = NULL; static symbol_t *addnewsymbol(const char *name); static symbol_t *findsymbol(const char *name, symbol_t *startingat); static symbol_t *findexactsymbol(const char *name); // static int32_t _validate_osdlines(void *); static int32_t _internal_osdfunc_listsymbols(const osdfuncparm_t *); static int32_t _internal_osdfunc_help(const osdfuncparm_t *); static int32_t _internal_osdfunc_alias(const osdfuncparm_t *); // static int32_t _internal_osdfunc_dumpbuildinfo(const osdfuncparm_t *); // static int32_t _internal_osdfunc_setrendermode(const osdfuncparm_t *); static int32_t white=-1; // colour of white (used by default display routines) static void _internal_drawosdchar(int32_t, int32_t, char, int32_t, int32_t); static void _internal_drawosdstr(int32_t, int32_t, char *, int32_t, int32_t, int32_t); static void _internal_drawosdcursor(int32_t,int32_t,int32_t,int32_t); static int32_t _internal_getcolumnwidth(int32_t); static int32_t _internal_getrowheight(int32_t); static void _internal_clearbackground(int32_t,int32_t); static int32_t _internal_gettime(void); static void _internal_onshowosd(int32_t); static uint32_t osdflags = 0; // history display static char osdtext[TEXTSIZE]; static char osdfmt[TEXTSIZE]; static char osdver[32]; static int32_t osdverlen; static int32_t osdvershade; static int32_t osdverpal; static int32_t osdpos=0; // position next character will be written at static int32_t osdlines=1; // # lines of text in the buffer static int32_t osdrows=20; // # lines of the buffer that are visible static int32_t osdrowscur=-1; static int32_t osdscroll=0; static int32_t osdcols=60; // width of onscreen display in text columns static int32_t osdmaxrows=20; // maximum number of lines which can fit on the screen static int32_t osdmaxlines=TEXTSIZE/60; // maximum lines which can fit in the buffer static int32_t osdhead=0; // topmost visible line number static BFILE *osdlog=NULL; // log filehandle static int32_t osdkey=sc_Tilde; static int32_t keytime=0; static int32_t osdscrtime = 0; // command prompt editing static char osdeditbuf[OSD_EDITLENGTH+1]; // editing buffer static char osdedittmp[OSD_EDITLENGTH+1]; // editing buffer temporary workspace static int32_t osdeditlen=0; // length of characters in edit buffer static int32_t osdeditcursor=0; // position of cursor in edit buffer static int32_t osdeditwinstart=0; static int32_t osdeditwinend=60-1-3; #define editlinewidth (osdcols-1-3) // command processing static int32_t osdhistorypos=-1; // position we are at in the history buffer char osdhistorybuf[OSD_HISTORYDEPTH][OSD_EDITLENGTH+1]; // history strings int32_t osdhistorysize=0; // number of entries in history int32_t osdhistorytotal=0; // number of total history entries // execution buffer // the execution buffer works from the command history static int32_t osdexeccount=0; // number of lines from the head of the history buffer to execute // maximal log line count static int32_t logcutoff=120000; int32_t OSD_errors=0; static int32_t linecnt; static int32_t osdexecscript=0; #ifdef _WIN32 static int32_t osdtextmode=0; #else static int32_t osdtextmode=1; #endif // presentation parameters static int32_t osdpromptshade=0; static int32_t osdpromptpal=0; static int32_t osdeditshade=0; static int32_t osdeditpal=0; static int32_t osdtextshade=0; static int32_t osdtextpal=0; /* static int32_t osdcursorshade=0; static int32_t osdcursorpal=0; */ #define MAXSYMBOLS 256 static symbol_t *osdsymbptrs[MAXSYMBOLS]; static int32_t osdnumsymbols = 0; static hashtable_t h_osd = { MAXSYMBOLS<<1, NULL }; // application callbacks static void (*drawosdchar)(int32_t, int32_t, char, int32_t, int32_t) = _internal_drawosdchar; static void (*drawosdstr)(int32_t, int32_t, char *, int32_t, int32_t, int32_t) = _internal_drawosdstr; static void (*drawosdcursor)(int32_t, int32_t, int32_t, int32_t) = _internal_drawosdcursor; static int32_t (*getcolumnwidth)(int32_t) = _internal_getcolumnwidth; static int32_t (*getrowheight)(int32_t) = _internal_getrowheight; static void (*clearbackground)(int32_t,int32_t) = _internal_clearbackground; static int32_t (*gettime)(void) = _internal_gettime; static void (*onshowosd)(int32_t) = _internal_onshowosd; static void (*_drawosdchar)(int32_t, int32_t, char, int32_t, int32_t) = _internal_drawosdchar; static void (*_drawosdstr)(int32_t, int32_t, char *, int32_t, int32_t, int32_t) = _internal_drawosdstr; static void (*_drawosdcursor)(int32_t, int32_t, int32_t, int32_t) = _internal_drawosdcursor; static int32_t (*_getcolumnwidth)(int32_t) = _internal_getcolumnwidth; static int32_t (*_getrowheight)(int32_t) = _internal_getrowheight; static osdcvar_t *cvars = NULL; static uint32_t osdnumcvars = 0; static hashtable_t h_cvars = { MAXSYMBOLS<<1, NULL }; int32_t m32_osd_tryscript=0; // whether to try executing m32script on unkown command in the osd extern void M32RunScript(const char *s); int32_t OSD_RegisterCvar(const cvar_t *cvar) { const char *cp; if ((osdflags & OSD_INITIALIZED) == 0) OSD_Init(); if (!cvar->name || !cvar->name[0] || !cvar->var) { OSD_Printf("OSD_RegisterCvar(): can't register null cvar\n"); return -1; } // check for illegal characters in name for (cp = cvar->name; *cp; cp++) { if ((cp == cvar->name) && (*cp >= '0') && (*cp <= '9')) { OSD_Printf("OSD_RegisterCvar(): first character of cvar name \"%s\" must not be a numeral\n", cvar->name); return -1; } if ((*cp < '0') || (*cp > '9' && *cp < 'A') || (*cp > 'Z' && *cp < 'a' && *cp != '_') || (*cp > 'z')) { OSD_Printf("OSD_RegisterCvar(): illegal character in cvar name \"%s\"\n", cvar->name); return -1; } } cvars = (osdcvar_t *)Brealloc(cvars, (osdnumcvars + 1) * sizeof(osdcvar_t)); hash_add(&h_cvars, cvar->name, osdnumcvars, 1); switch (cvar->type & (CVAR_BOOL|CVAR_INT|CVAR_UINT|CVAR_FLOAT|CVAR_DOUBLE)) { case CVAR_BOOL: case CVAR_INT: cvars[osdnumcvars].dval.i = *(int32_t *)cvar->var; break; case CVAR_UINT: cvars[osdnumcvars].dval.uint = *(uint32_t *)cvar->var; break; case CVAR_FLOAT: cvars[osdnumcvars].dval.f = *(float *)cvar->var; break; case CVAR_DOUBLE: cvars[osdnumcvars].dval.d = *(double *)cvar->var; break; } Bmemcpy(&cvars[osdnumcvars++], cvar, sizeof(cvar_t)); return 0; } static int32_t OSD_CvarModified(const osdcvar_t *cvar) { if ((osdflags & OSD_INITIALIZED) == 0) return 0; if (!cvar->var) { OSD_Printf("OSD_CvarModified(): null cvar?!\n"); return 0; } switch (cvar->type & (CVAR_BOOL|CVAR_INT|CVAR_UINT|CVAR_FLOAT|CVAR_DOUBLE)) { case CVAR_BOOL: case CVAR_INT: return (cvar->dval.i != *(int32_t *)cvar->var); case CVAR_UINT: return (cvar->dval.uint != *(uint32_t *)cvar->var); case CVAR_FLOAT: return (cvar->dval.f != *(float *)cvar->var); case CVAR_DOUBLE: return (cvar->dval.d != *(double *)cvar->var); default: return 0; } } // color code format is as follows: // ^## sets a color, where ## is the palette number // ^S# sets a shade, range is 0-7 equiv to shades 0-14 // ^O resets formatting to defaults const char *OSD_StripColors(char *out, const char *in) { const char *ptr = out; do { if (*in == '^' && isdigit(*(in+1))) { in += 2; if (isdigit(*in)) in++; continue; } if (*in == '^' && (Btoupper(*(in+1)) == 'S') && isdigit(*(in+2))) { in += 3; continue; } if (*in == '^' && (Btoupper(*(in+1)) == 'O')) { in += 2; continue; } *(out++) = *(in++); } while (*in); *out = '\0'; return (ptr); } int32_t OSD_Exec(const char *szScript) { FILE *fp = fopenfrompath(szScript, "r"); if (fp != NULL) { char line[256], *cp; OSD_Printf("Executing \"%s\"\n", szScript); osdexecscript++; while (fgets(line, sizeof(line), fp) != NULL) { cp = strtok(line,"\r\n"); if (cp) OSD_Dispatch(cp); } osdexecscript--; fclose(fp); return 0; } return 1; } int32_t OSD_ParsingScript(void) { return osdexecscript; } int32_t OSD_OSDKey(void) { return osdkey; } char *OSD_GetTextPtr(void) { return osdtext; } char *OSD_GetFmtPtr(void) { return osdfmt; } char *OSD_GetFmt(char *ptr) { return (ptr - osdtext + osdfmt); } int32_t OSD_GetCols(void) { return osdcols; } int32_t OSD_IsMoving(void) { return (osdrowscur!=-1 && osdrowscur!=osdrows); } int32_t OSD_GetRowsCur(void) { return osdrowscur; } int32_t OSD_GetTextMode(void) { return osdtextmode; } void OSD_SetTextMode(int32_t mode) { osdtextmode = (mode != 0); if (osdtextmode) { if (drawosdchar != _internal_drawosdchar) { swaplong(&_drawosdchar,&drawosdchar); swaplong(&_drawosdstr,&drawosdstr); swaplong(&_drawosdcursor,&drawosdcursor); swaplong(&_getcolumnwidth,&getcolumnwidth); swaplong(&_getrowheight,&getrowheight); } } else if (drawosdchar == _internal_drawosdchar) { swaplong(&_drawosdchar,&drawosdchar); swaplong(&_drawosdstr,&drawosdstr); swaplong(&_drawosdcursor,&drawosdcursor); swaplong(&_getcolumnwidth,&getcolumnwidth); swaplong(&_getrowheight,&getrowheight); } if (qsetmode == 200) OSD_ResizeDisplay(xdim, ydim); } static int32_t _internal_osdfunc_exec(const osdfuncparm_t *parm) { char fn[BMAX_PATH]; if (parm->numparms != 1) return OSDCMD_SHOWHELP; Bstrcpy(fn,parm->parms[0]); if (OSD_Exec(fn)) { OSD_Printf(OSD_ERROR "exec: file \"%s\" not found.\n", fn); return OSDCMD_OK; } return OSDCMD_OK; } static int32_t _internal_osdfunc_echo(const osdfuncparm_t *parm) { int32_t i; for (i = 0; i < parm->numparms; i++) { if (i > 0) OSD_Printf(" "); OSD_Printf("%s", parm->parms[i]); } OSD_Printf("\n"); return OSDCMD_OK; } static int32_t _internal_osdfunc_fileinfo(const osdfuncparm_t *parm) { uint32_t crc, length; int32_t i,j; char buf[256]; if (parm->numparms != 1) return OSDCMD_SHOWHELP; if ((i = kopen4load((char *)parm->parms[0],0)) < 0) { OSD_Printf("fileinfo: File \"%s\" not found.\n", parm->parms[0]); return OSDCMD_OK; } length = kfilelength(i); crc32init(&crc); do { j = kread(i,buf,256); crc32block(&crc,(uint8_t *)buf,j); } while (j == 256); crc32finish(&crc); kclose(i); OSD_Printf("fileinfo: %s\n" " File size: %d\n" " CRC-32: %08X\n", parm->parms[0], length, crc); return OSDCMD_OK; } static void _internal_drawosdchar(int32_t x, int32_t y, char ch, int32_t shade, int32_t pal) { char st[2] = { 0,0 }; UNREFERENCED_PARAMETER(shade); UNREFERENCED_PARAMETER(pal); st[0] = ch; printext256(4+(x<<3),4+(y<<3), white, -1, st, 0); } static void _internal_drawosdstr(int32_t x, int32_t y, char *ch, int32_t len, int32_t shade, int32_t pal) { char st[1024]; UNREFERENCED_PARAMETER(shade); UNREFERENCED_PARAMETER(pal); if (len>1023) len=1023; Bmemcpy(st,ch,len); st[len]=0; printext256(4+(x<<3),4+(y<<3), white, -1, st, 0); } static void _internal_drawosdcursor(int32_t x, int32_t y, int32_t type, int32_t lastkeypress) { char st[2] = { '_',0 }; UNREFERENCED_PARAMETER(lastkeypress); if (type) st[0] = '#'; if (white > -1) { printext256(4+(x<<3),4+(y<<3)+2, white, -1, st, 0); return; } { int32_t i, j, k; // find the palette index closest to white k=0; for (i=0; i<256; i++) { j = ((int32_t)curpalette[i].r)+((int32_t)curpalette[i].g)+((int32_t)curpalette[i].b); if (j > k) { k = j; white = i; } } } } static int32_t _internal_getcolumnwidth(int32_t w) { return w/8 - 1; } static int32_t _internal_getrowheight(int32_t w) { return w/8; } static void _internal_clearbackground(int32_t cols, int32_t rows) { UNREFERENCED_PARAMETER(cols); UNREFERENCED_PARAMETER(rows); } static int32_t _internal_gettime(void) { return 0; } static void _internal_onshowosd(int32_t a) { UNREFERENCED_PARAMETER(a); } //////////////////////////// static int32_t _internal_osdfunc_alias(const osdfuncparm_t *parm) { symbol_t *i; if (parm->numparms < 1) { int32_t j = 0; OSD_Printf("Alias listing:\n"); for (i=symbols; i!=NULL; i=i->next) if (i->func == OSD_ALIAS) { j++; OSD_Printf(" %s \"%s\"\n", i->name, i->help); } if (j == 0) OSD_Printf("No aliases found.\n"); return OSDCMD_OK; } for (i=symbols; i!=NULL; i=i->next) { if (!Bstrcasecmp(parm->parms[0],i->name)) { if (parm->numparms < 2) { if (i->func == OSD_ALIAS) OSD_Printf("alias %s \"%s\"\n", i->name, i->help); else OSD_Printf("%s is a function, not an alias\n",i->name); return OSDCMD_OK; } if (i->func != OSD_ALIAS && i->func != OSD_UNALIASED) { OSD_Printf("Cannot override function \"%s\" with alias\n",i->name); return OSDCMD_OK; } } } OSD_RegisterFunction(Bstrdup(parm->parms[0]),Bstrdup(parm->parms[1]),OSD_ALIAS); if (!osdexecscript) OSD_Printf("%s\n",parm->raw); return OSDCMD_OK; } static int32_t _internal_osdfunc_unalias(const osdfuncparm_t *parm) { symbol_t *i; if (parm->numparms < 1) return OSDCMD_SHOWHELP; for (i=symbols; i!=NULL; i=i->next) { if (!Bstrcasecmp(parm->parms[0],i->name)) { if (parm->numparms < 2) { if (i->func == OSD_ALIAS) { OSD_Printf("Removed alias %s (\"%s\")\n", i->name, i->help); i->func = OSD_UNALIASED; } else OSD_Printf("Invalid alias %s\n",i->name); return OSDCMD_OK; } } } OSD_Printf("Invalid alias %s\n",parm->parms[0]); return OSDCMD_OK; } static int32_t _internal_osdfunc_listsymbols(const osdfuncparm_t *parm) { symbol_t *i; int32_t maxwidth = 0; UNREFERENCED_PARAMETER(parm); for (i=symbols; i!=NULL; i=i->next) if (i->func != OSD_UNALIASED) maxwidth = max((unsigned)maxwidth,Bstrlen(i->name)); if (maxwidth > 0) { int32_t x = 0, count = 0; maxwidth += 3; OSD_Printf(OSDTEXT_RED "Symbol listing:\n"); for (i=symbols; i!=NULL; i=i->next) { if (i->func == OSD_UNALIASED) continue; { int32_t j = hash_find(&h_cvars, i->name); if (j != -1 && OSD_CvarModified(&cvars[j])) { OSD_Printf(OSDTEXT_RED "*"); OSD_Printf("%-*s",maxwidth-1,i->name); } else OSD_Printf("%-*s",maxwidth,i->name); x += maxwidth; count++; } if (x > osdcols - maxwidth) { x = 0; OSD_Printf("\n"); } } if (x) OSD_Printf("\n"); OSD_Printf(OSDTEXT_RED "Found %d symbols\n",count); } return OSDCMD_OK; } static int32_t _internal_osdfunc_help(const osdfuncparm_t *parm) { symbol_t *symb; if (parm->numparms != 1) return OSDCMD_SHOWHELP; symb = findexactsymbol(parm->parms[0]); if (!symb) OSD_Printf("Error: no help for undefined symbol \"%s\"\n", parm->parms[0]); else OSD_Printf("%s\n", symb->help); return OSDCMD_OK; } static int32_t _internal_osdfunc_clear(const osdfuncparm_t *parm) { UNREFERENCED_PARAMETER(parm); Bmemset(osdtext,0,sizeof(osdtext)); Bmemset(osdfmt,osdtextpal+(osdtextshade<<5),sizeof(osdfmt)); osdlines = 1; return OSDCMD_OK; } static int32_t _internal_osdfunc_history(const osdfuncparm_t *parm) { int32_t i, j = 0; UNREFERENCED_PARAMETER(parm); OSD_Printf(OSDTEXT_RED "Command history:\n"); for (i=OSD_HISTORYDEPTH-1; i>=0; i--) if (osdhistorybuf[i][0]) OSD_Printf("%4d \"%s\"\n",osdhistorytotal-osdhistorysize+(++j),osdhistorybuf[i]); return OSDCMD_OK; } //////////////////////////// // // OSD_Cleanup() -- Cleans up the on-screen display // void OSD_Cleanup(void) { symbol_t *s; hash_free(&h_osd); hash_free(&h_cvars); for (; symbols; symbols=s) { s=symbols->next; Bfree(symbols); } if (osdlog) { Bfclose(osdlog); osdlog = NULL; } if (cvars) { Bfree(cvars); cvars = NULL; } osdflags &= ~OSD_INITIALIZED; } static int32_t osdcmd_cvar_set_osd(const osdfuncparm_t *parm) { int32_t r = osdcmd_cvar_set(parm); if (r == OSDCMD_OK) { if (!Bstrcasecmp(parm->name, "osdrows")) { if (osdrows > osdmaxrows) osdrows = osdmaxrows; if (osdrowscur!=-1)osdrowscur = osdrows; return r; } else if (!Bstrcasecmp(parm->name, "osdtextmode")) { OSD_SetTextMode(osdtextmode); return r; } } return r; } static int32_t _internal_osdfunc_toggle(const osdfuncparm_t *parm) { int32_t i; if (parm->numparms != 1) return OSDCMD_SHOWHELP; i = hash_find(&h_cvars, parm->parms[0]); if (i == -1) for (i = osdnumcvars-1; i >= 0; i--) if (!Bstrcasecmp(parm->parms[0], cvars[i].name)) break; if (i == -1 || (cvars[i].type & CVAR_BOOL) != CVAR_BOOL) { OSD_Printf("Bad cvar name or cvar not boolean\n"); return OSDCMD_OK; } *(int32_t *)cvars[i].var = 1 - *(int32_t *)cvars[i].var; return OSDCMD_OK; } // // OSD_Init() -- Initializes the on-screen display // void OSD_Init(void) { uint32_t i; cvar_t cvars_osd[] = { { "osdeditpal","osdeditpal: sets the palette of the OSD input text",(void *) &osdeditpal, CVAR_INT, 0, MAXPALOOKUPS-1 }, { "osdpromptpal","osdpromptpal: sets the palette of the OSD prompt",(void *) &osdpromptpal, CVAR_INT, 0, MAXPALOOKUPS-1 }, { "osdtextpal","osdtextpal: sets the palette of the OSD text",(void *) &osdtextpal, CVAR_INT, 0, MAXPALOOKUPS-1 }, { "osdeditshade","osdeditshade: sets the shade of the OSD input text",(void *) &osdeditshade, CVAR_INT, 0, 7 }, { "osdtextshade","osdtextshade: sets the shade of the OSD text",(void *) &osdtextshade, CVAR_INT, 0, 7 }, { "osdpromptshade","osdpromptshade: sets the shade of the OSD prompt",(void *) &osdpromptshade, CVAR_INT, INT8_MIN, INT8_MAX }, { "osdrows","osdrows: sets the number of visible lines of the OSD",(void *) &osdrows, CVAR_INT|CVAR_FUNCPTR, 0, MAXPALOOKUPS-1 }, { "osdtextmode","osdtextmode: set OSD text mode (0:graphical, 1:fast)",(void *) &osdtextmode, CVAR_BOOL|CVAR_FUNCPTR, 0, 1 }, { "logcutoff","logcutoff: sets the maximal line count of the log file",(void *) &logcutoff, CVAR_INT, 0, 262144 }, }; mutex_init(&m_osdprintf); Bmemset(osdtext, asc_Space, TEXTSIZE); Bmemset(osdfmt, osdtextpal+(osdtextshade<<5), TEXTSIZE); Bmemset(osdsymbptrs, 0, sizeof(osdsymbptrs)); osdnumsymbols = osdnumcvars = 0; osdlines = 1; osdflags |= OSD_INITIALIZED; hash_init(&h_osd); hash_init(&h_cvars); for (i=0; i: executes a script", _internal_osdfunc_exec); OSD_RegisterFunction("fileinfo","fileinfo : gets a file's information", _internal_osdfunc_fileinfo); OSD_RegisterFunction("help","help: displays help for the specified cvar or command; \"listsymbols\" to show all commands",_internal_osdfunc_help); OSD_RegisterFunction("history","history: displays the console command history",_internal_osdfunc_history); OSD_RegisterFunction("listsymbols","listsymbols: lists all registered functions, cvars and aliases",_internal_osdfunc_listsymbols); OSD_RegisterFunction("toggle","toggle: toggles the value of a boolean cvar",_internal_osdfunc_toggle); OSD_RegisterFunction("unalias","unalias: removes a command alias",_internal_osdfunc_unalias); atexit(OSD_Cleanup); } // // OSD_SetLogFile() -- Sets the text file where printed text should be echoed // void OSD_SetLogFile(char *fn) { if (osdlog) { Bfclose(osdlog); osdlog = NULL; } if (fn) osdlog = Bfopen(fn,"w"); if (osdlog) setvbuf(osdlog, (char *)NULL, _IONBF, 0); } // // OSD_SetFunctions() -- Sets some callbacks which the OSD uses to understand its world // void OSD_SetFunctions( void (*drawchar)(int32_t,int32_t,char,int32_t,int32_t), void (*drawstr)(int32_t,int32_t,char *,int32_t,int32_t,int32_t), void (*drawcursor)(int32_t,int32_t,int32_t,int32_t), int32_t (*colwidth)(int32_t), int32_t (*rowheight)(int32_t), void (*clearbg)(int32_t,int32_t), int32_t (*gtime)(void), void (*showosd)(int32_t) ) { drawosdchar = drawchar; drawosdstr = drawstr; drawosdcursor = drawcursor; getcolumnwidth = colwidth; getrowheight = rowheight; clearbackground = clearbg; gettime = gtime; onshowosd = showosd; if (!drawosdchar) drawosdchar = _internal_drawosdchar; if (!drawosdstr) drawosdstr = _internal_drawosdstr; if (!drawosdcursor) drawosdcursor = _internal_drawosdcursor; if (!getcolumnwidth) getcolumnwidth = _internal_getcolumnwidth; if (!getrowheight) getrowheight = _internal_getrowheight; if (!clearbackground) clearbackground = _internal_clearbackground; if (!gettime) gettime = _internal_gettime; if (!onshowosd) onshowosd = _internal_onshowosd; } // // OSD_SetParameters() -- Sets the parameters for presenting the text // void OSD_SetParameters( int32_t promptshade, int32_t promptpal, int32_t editshade, int32_t editpal, int32_t textshade, int32_t textpal ) { osdpromptshade = promptshade; osdpromptpal = promptpal; osdeditshade = editshade; osdeditpal = editpal; osdtextshade = textshade; osdtextpal = textpal; } // // OSD_CaptureKey() -- Sets the scancode for the key which activates the onscreen display // void OSD_CaptureKey(int32_t sc) { osdkey = sc; } // // OSD_FindDiffPoint() -- Finds the length of the longest common prefix of 2 strings, stolen from ZDoom // static int32_t OSD_FindDiffPoint(const char *str1, const char *str2) { int32_t i; for (i = 0; Btolower(str1[i]) == Btolower(str2[i]); i++) if (str1[i] == 0 || str2[i] == 0) break; return i; } static void OSD_HistoryPrev(void) { if (osdhistorypos >= osdhistorysize-1) return; osdhistorypos++; Bmemcpy(osdeditbuf, osdhistorybuf[osdhistorypos], OSD_EDITLENGTH+1); osdeditcursor = 0; while (osdeditbuf[osdeditcursor]) osdeditcursor++; osdeditlen = osdeditcursor; if (osdeditcursor=osdeditwinend) { osdeditwinstart+=(osdeditcursor-osdeditwinend); osdeditwinend+=(osdeditcursor-osdeditwinend); } } static void OSD_HistoryNext(void) { if (osdhistorypos < 0) return; if (osdhistorypos == 0) { osdeditlen=0; osdeditcursor=0; osdeditwinstart=0; osdeditwinend=editlinewidth; osdhistorypos = -1; return; } osdhistorypos--; Bmemcpy(osdeditbuf, osdhistorybuf[osdhistorypos], OSD_EDITLENGTH+1); osdeditcursor = 0; while (osdeditbuf[osdeditcursor]) osdeditcursor++; osdeditlen = osdeditcursor; if (osdeditcursor=osdeditwinend) { osdeditwinstart+=(osdeditcursor-osdeditwinend); osdeditwinend+=(osdeditcursor-osdeditwinend); } } // // OSD_HandleKey() -- Handles keyboard input when capturing input. // Returns 0 if the key was handled internally, or the scancode if it should // be passed on to the game. // int32_t OSD_HandleChar(char ch) { int32_t i,j; symbol_t *tabc = NULL; static symbol_t *lastmatch = NULL; if ((osdflags & (OSD_INITIALIZED|OSD_CAPTURE)) != (OSD_INITIALIZED|OSD_CAPTURE)) return ch; if (ch != 9) // tab lastmatch = NULL; switch (ch) { case 1: // control a. jump to beginning of line osdeditcursor=0; osdeditwinstart=0; osdeditwinend=editlinewidth; return 0; case 2: // control b, move one character left if (osdeditcursor > 0) osdeditcursor--; return 0; case 3: // control c osdeditbuf[osdeditlen] = 0; OSD_Printf("%s\n",osdeditbuf); osdeditlen=0; osdeditcursor=0; osdeditwinstart=0; osdeditwinend=editlinewidth; osdeditbuf[0] = 0; return 0; case 5: // control e, jump to end of line osdeditcursor = osdeditlen; osdeditwinend = osdeditcursor; osdeditwinstart = osdeditwinend-editlinewidth; if (osdeditwinstart<0) { osdeditwinstart=0; osdeditwinend = editlinewidth; } return 0; case 6: // control f, move one character right if (osdeditcursor < osdeditlen) osdeditcursor++; return 0; case 8: #ifdef __APPLE__ case 127: // control h, backspace #endif if (!osdeditcursor || !osdeditlen) return 0; if ((osdflags & OSD_OVERTYPE) == 0) { if (osdeditcursor < osdeditlen) Bmemmove(osdeditbuf+osdeditcursor-1, osdeditbuf+osdeditcursor, osdeditlen-osdeditcursor); osdeditlen--; } osdeditcursor--; if (osdeditcursor0; i--) if (osdeditbuf[i-1] == ' ') break; for (j=0; osdeditbuf[i] != ' ' && i < osdeditlen; j++,i++) osdedittmp[j] = osdeditbuf[i]; osdedittmp[j] = 0; if (j > 0) { tabc = findsymbol(osdedittmp, NULL); if (tabc && tabc->next && findsymbol(osdedittmp, tabc->next)) { symbol_t *symb=tabc; int32_t maxwidth = 0, x = 0, num = 0, diffpt; while (symb && symb != lastmatch) { num++; if (lastmatch) { diffpt = OSD_FindDiffPoint(symb->name,lastmatch->name); if (diffpt < commonsize) commonsize = diffpt; } maxwidth = max((unsigned)maxwidth,Bstrlen(symb->name)); lastmatch = symb; if (!lastmatch->next) break; symb=findsymbol(osdedittmp, lastmatch->next); } OSD_Printf(OSDTEXT_RED "Found %d possible completions for '%s':\n",num,osdedittmp); maxwidth += 3; symb = tabc; OSD_Printf(" "); while (symb && (symb != lastmatch)) { tabc = lastmatch = symb; OSD_Printf("%-*s",maxwidth,symb->name); if (!lastmatch->next) break; symb=findsymbol(osdedittmp, lastmatch->next); x += maxwidth; if (x > (osdcols - maxwidth)) { x = 0; OSD_Printf("\n"); if (symb && (symb != lastmatch)) OSD_Printf(" "); } } if (x) OSD_Printf("\n"); OSD_Printf(OSDTEXT_RED "Press TAB again to cycle through matches\n"); } } } else { tabc = findsymbol(osdedittmp, lastmatch->next); if (!tabc && lastmatch) tabc = findsymbol(osdedittmp, NULL); // wrap */ } if (tabc) { for (i=osdeditcursor; i>0; i--) if (osdeditbuf[i-1] == ' ') break; osdeditlen = i; for (j=0; tabc->name[j] && osdeditlen <= OSD_EDITLENGTH && (osdeditlen < commonsize); i++,j++,osdeditlen++) osdeditbuf[i] = tabc->name[j]; osdeditcursor = osdeditlen; osdeditwinend = osdeditcursor; osdeditwinstart = osdeditwinend-editlinewidth; if (osdeditwinstart<0) { osdeditwinstart=0; osdeditwinend = editlinewidth; } lastmatch = tabc; } } return 0; case 11: // control k, delete all to end of line Bmemset(osdeditbuf+osdeditcursor,0,sizeof(osdeditbuf)-osdeditcursor); return 0; case 12: // control l, clear screen Bmemset(osdtext,0,sizeof(osdtext)); Bmemset(osdfmt,osdtextpal+(osdtextshade<<5),sizeof(osdfmt)); osdlines = 1; return 0; case 13: // control m, enter if (osdeditlen>0) { osdeditbuf[osdeditlen] = 0; if (Bstrcmp(osdhistorybuf[0], osdeditbuf)) { Bmemmove(osdhistorybuf[1], osdhistorybuf[0], (OSD_HISTORYDEPTH-1)*(OSD_EDITLENGTH+1)); Bmemmove(osdhistorybuf[0], osdeditbuf, OSD_EDITLENGTH+1); if (osdhistorysize < OSD_HISTORYDEPTH) osdhistorysize++; osdhistorytotal++; if (osdexeccount == OSD_HISTORYDEPTH) OSD_Printf("Command Buffer Warning: Failed queueing command " "for execution. Buffer full.\n"); else osdexeccount++; } else { if (osdexeccount == OSD_HISTORYDEPTH) OSD_Printf("Command Buffer Warning: Failed queueing command " "for execution. Buffer full.\n"); else osdexeccount++; } osdhistorypos=-1; } osdeditlen=0; osdeditcursor=0; osdeditwinstart=0; osdeditwinend=editlinewidth; return 0; case 14: // control n, next (ie. down arrow) OSD_HistoryNext(); return 0; case 16: // control p, previous (ie. up arrow) OSD_HistoryPrev(); return 0; case 21: // control u, delete all to beginning if (osdeditcursor>0 && osdeditlen) { if (osdeditcursor0 && osdeditlen>0) { i=osdeditcursor; while (i>0 && osdeditbuf[i-1]==asc_Space) i--; while (i>0 && osdeditbuf[i-1]!=asc_Space) i--; if (osdeditcursor= asc_Space) // text char { if ((osdflags & OSD_OVERTYPE) == 0) { if (osdeditlen == OSD_EDITLENGTH) // buffer full, can't insert another char return 0; if (osdeditcursor < osdeditlen) Bmemmove(osdeditbuf+osdeditcursor+1, osdeditbuf+osdeditcursor, osdeditlen-osdeditcursor); osdeditlen++; } else if (osdeditcursor == osdeditlen) osdeditlen++; osdeditbuf[osdeditcursor++] = ch; if (osdeditcursor > osdeditwinend) osdeditwinstart++, osdeditwinend++; } return 0; } return 0; } int32_t OSD_HandleScanCode(int32_t sc, int32_t press) { if ((osdflags & OSD_INITIALIZED) == 0) return sc; if (sc == osdkey) { if (press) { osdscroll = -osdscroll; if (osdrowscur == -1) osdscroll = 1; else if (osdrowscur == osdrows) osdscroll = -1; osdrowscur += osdscroll; OSD_CaptureInput(osdscroll == 1); osdscrtime = getticks(); } return 0; } else if ((osdflags & OSD_CAPTURE) == 0) return sc; if (!press) { if (sc == sc_LeftShift || sc == sc_RightShift) osdflags &= ~OSD_SHIFT; if (sc == sc_LeftControl || sc == sc_RightControl) osdflags &= ~OSD_CTRL; return 0; } keytime = gettime(); switch (sc) { case sc_Escape: // OSD_ShowDisplay(0); osdscroll = -1; osdrowscur--; OSD_CaptureInput(0); osdscrtime = getticks(); break; case sc_PgUp: if (osdhead < osdlines-1) osdhead++; break; case sc_PgDn: if (osdhead > 0) osdhead--; break; case sc_Home: if (osdflags & OSD_CTRL) osdhead = osdlines-1; else { osdeditcursor = 0; osdeditwinstart = osdeditcursor; osdeditwinend = osdeditwinstart+editlinewidth; } break; case sc_End: if (osdflags & OSD_CTRL) osdhead = 0; else { osdeditcursor = osdeditlen; osdeditwinend = osdeditcursor; osdeditwinstart = osdeditwinend-editlinewidth; if (osdeditwinstart<0) { osdeditwinstart=0; osdeditwinend = editlinewidth; } } break; case sc_Insert: osdflags = (osdflags & ~OSD_OVERTYPE) | (-((osdflags & OSD_OVERTYPE) == 0) & OSD_OVERTYPE); break; case sc_LeftArrow: if (osdeditcursor>0) { if (osdflags & OSD_CTRL) { while (osdeditcursor>0) { if (osdeditbuf[osdeditcursor-1] != asc_Space) break; osdeditcursor--; } while (osdeditcursor>0) { if (osdeditbuf[osdeditcursor-1] == asc_Space) break; osdeditcursor--; } } else osdeditcursor--; } if (osdeditcursor=osdeditwinend) { osdeditwinstart+=(osdeditcursor-osdeditwinend); osdeditwinend+=(osdeditcursor-osdeditwinend); } break; case sc_UpArrow: OSD_HistoryPrev(); break; case sc_DownArrow: OSD_HistoryNext(); break; case sc_LeftShift: case sc_RightShift: osdflags |= OSD_SHIFT; break; case sc_LeftControl: case sc_RightControl: osdflags |= OSD_CTRL; break; case sc_CapsLock: osdflags = (osdflags & ~OSD_CAPS) | (-((osdflags & OSD_CAPS) == 0) & OSD_CAPS); break; case sc_Delete: if (osdeditcursor == osdeditlen || !osdeditlen) return 0; if (osdeditcursor <= osdeditlen-1) Bmemmove(osdeditbuf+osdeditcursor, osdeditbuf+osdeditcursor+1, osdeditlen-osdeditcursor-1); osdeditlen--; break; } return 0; } // // OSD_ResizeDisplay() -- Handles readjustment of the display when the screen resolution // changes on us. // void OSD_ResizeDisplay(int32_t w, int32_t h) { int32_t newcols; int32_t newmaxlines; char newtext[TEXTSIZE]; char newfmt[TEXTSIZE]; int32_t i,j,k; newcols = getcolumnwidth(w); newmaxlines = TEXTSIZE / newcols; j = min(newmaxlines, osdmaxlines); k = min(newcols, osdcols); Bmemset(newtext, asc_Space, TEXTSIZE); for (i=j-1; i>=0; i--) { Bmemcpy(newtext+newcols*i, osdtext+osdcols*i, k); Bmemcpy(newfmt+newcols*i, osdfmt+osdcols*i, k); } Bmemcpy(osdtext, newtext, TEXTSIZE); Bmemcpy(osdfmt, newfmt, TEXTSIZE); osdcols = newcols; osdmaxlines = newmaxlines; osdmaxrows = getrowheight(h)-2; if (osdrows > osdmaxrows) osdrows = osdmaxrows; osdpos = 0; osdhead = 0; osdeditwinstart = 0; osdeditwinend = editlinewidth; white = -1; } // // OSD_CaptureInput() // void OSD_CaptureInput(int32_t cap) { osdflags = (osdflags & ~(OSD_CAPTURE|OSD_CTRL|OSD_SHIFT)) | (-cap & OSD_CAPTURE); grabmouse(cap == 0); onshowosd(cap); if (cap) releaseallbuttons(); bflushchars(); } // // OSD_ShowDisplay() -- Shows or hides the onscreen display // void OSD_ShowDisplay(int32_t onf) { osdflags = (osdflags & ~OSD_DRAW) | (-onf & OSD_DRAW); OSD_CaptureInput(onf); } // // OSD_Draw() -- Draw the onscreen display // void OSD_Draw(void) { uint32_t topoffs; int32_t row, lines, x, len; if ((osdflags & OSD_INITIALIZED) == 0) return; if (osdrowscur == 0) OSD_ShowDisplay(osdflags & OSD_DRAW ? 0 : 1); if (osdrowscur == osdrows) osdscroll = 0; else { int32_t j; if ((osdrowscur < osdrows && osdscroll == 1) || osdrowscur < -1) { j = (getticks()-osdscrtime); while (j > -1) { osdrowscur++; j -= 200/osdrows; if (osdrowscur > osdrows-1) break; } } if ((osdrowscur > -1 && osdscroll == -1) || osdrowscur > osdrows) { j = (getticks()-osdscrtime); while (j > -1) { osdrowscur--; j -= 200/osdrows; if (osdrowscur < 1) break; } } osdscrtime = getticks(); } if ((osdflags & OSD_DRAW) == 0 || !osdrowscur) return; topoffs = osdhead * osdcols; row = osdrowscur-1; lines = min(osdlines-osdhead, osdrowscur); begindrawing(); clearbackground(osdcols,osdrowscur+1); for (; lines>0; lines--, row--) { drawosdstr(0,row,osdtext+topoffs,osdcols,osdtextshade,osdtextpal); topoffs+=osdcols; } { int32_t offset = ((osdflags & (OSD_CAPS|OSD_SHIFT)) == (OSD_CAPS|OSD_SHIFT) && osdhead > 0); int32_t shade = osdpromptshade?osdpromptshade:(sintable[(totalclock<<4)&2047]>>11); if (osdhead == osdlines-1) drawosdchar(0,osdrowscur,'~',shade,osdpromptpal); else if (osdhead > 0) drawosdchar(0,osdrowscur,'^',shade,osdpromptpal); if (osdflags & OSD_CAPS) drawosdchar(0+(osdhead > 0),osdrowscur,'C',shade,osdpromptpal); if (osdflags & OSD_SHIFT) drawosdchar(1+(osdflags & OSD_CAPS && osdhead > 0),osdrowscur,'H',shade,osdpromptpal); drawosdchar(2+offset,osdrowscur,'>',shade,osdpromptpal); len = min(osdcols-1-3-offset, osdeditlen-osdeditwinstart); for (x=len-1; x>=0; x--) drawosdchar(3+x+offset,osdrowscur,osdeditbuf[osdeditwinstart+x],osdeditshade<<1,osdeditpal); offset += 3+osdeditcursor-osdeditwinstart; drawosdcursor(offset,osdrowscur,osdflags & OSD_OVERTYPE,keytime); if (osdver[0]) drawosdstr(osdcols-osdverlen,osdrowscur - (offset >= osdcols-osdverlen), osdver,osdverlen,(sintable[(totalclock<<4)&2047]>>11),osdverpal); } enddrawing(); } // // OSD_Printf() -- Print a string to the onscreen display // and write it to the log file // static inline void OSD_LineFeed(void) { Bmemmove(osdtext+osdcols, osdtext, TEXTSIZE-osdcols); Bmemset(osdtext, asc_Space, osdcols); Bmemmove(osdfmt+osdcols, osdfmt, TEXTSIZE-osdcols); Bmemset(osdfmt, osdtextpal, osdcols); if (osdlines < osdmaxlines) osdlines++; } #define MAX_ERRORS 4096 void OSD_Printf(const char *fmt, ...) { static char tmpstr[8192]; char *chp, p=osdtextpal, s=osdtextshade; va_list va; mutex_lock(&m_osdprintf); va_start(va, fmt); Bvsnprintf(tmpstr, 8192, fmt, va); va_end(va); if (tmpstr[0]=='^' && tmpstr[1]=='1' && tmpstr[2]=='0' && ++OSD_errors > MAX_ERRORS) { if (OSD_errors == MAX_ERRORS + 1) Bstrcpy(tmpstr, OSD_ERROR "\nToo many errors. Logging errors stopped.\n"); else { OSD_errors = MAX_ERRORS + 2; mutex_unlock(&m_osdprintf); return; } } if (linecnt < logcutoff) { if (osdlog && (!logcutoff || linecnt < logcutoff)) { chp = Bstrdup(tmpstr); Bfputs(OSD_StripColors(chp, tmpstr), osdlog); Bprintf("%s", chp); Bfree(chp); } } else if (linecnt == logcutoff) { Bfputs("\nMaximal log size reached. Logging stopped.\nSet the \"logcutoff\" console variable to a higher value if you need a longer log.\n", osdlog); linecnt = logcutoff + 1; } chp = tmpstr; do { if (*chp == '\n') { osdpos=0; linecnt++; OSD_LineFeed(); continue; } if (*chp == '\r') { osdpos=0; continue; } if (*chp == '^') { if (isdigit(*(chp+1))) { char smallbuf[4]; if (!isdigit(*(++chp+1))) { smallbuf[0] = *(chp); smallbuf[1] = '\0'; p = Batol(smallbuf); continue; } smallbuf[0] = *(chp++); smallbuf[1] = *(chp); smallbuf[2] = '\0'; p = Batol(smallbuf); continue; } if (Btoupper(*(chp+1)) == 'S') { chp++; if (isdigit(*(++chp))) s = *chp; continue; } if (Btoupper(*(chp+1)) == 'O') { chp++; p = osdtextpal; s = osdtextshade; continue; } } osdtext[osdpos] = *chp; osdfmt[osdpos++] = p+(s<<5); if (osdpos == osdcols) { osdpos = 0; OSD_LineFeed(); } } while (*(++chp)); mutex_unlock(&m_osdprintf); } // // OSD_DispatchQueued() -- Executes any commands queued in the buffer // void OSD_DispatchQueued(void) { int32_t cmd; if (!osdexeccount) return; cmd=osdexeccount-1; osdexeccount=0; for (; cmd>=0; cmd--) OSD_Dispatch((const char *)osdhistorybuf[cmd]); } // // OSD_Dispatch() -- Executes a command string // static char *strtoken(char *s, char **ptrptr, int32_t *restart) { char *p, *p2, *start; *restart = 0; if (!ptrptr) return NULL; // if s != NULL, we process from the start of s, otherwise // we just continue with where ptrptr points to if (s) p = s; else p = *ptrptr; if (!p) return NULL; // eat up any leading whitespace while (*p != 0 && *p != ';' && *p == ' ') p++; // a semicolon is an end of statement delimiter like a \0 is, so we signal // the caller to 'restart' for the rest of the string pointed at by *ptrptr if (*p == ';') { *restart = 1; *ptrptr = p+1; return NULL; } // or if we hit the end of the input, signal all done by nulling *ptrptr else if (*p == 0) { *ptrptr = NULL; return NULL; } if (*p == '\"') { // quoted string start = ++p; p2 = p; while (*p != 0) { if (*p == '\"') { p++; break; } else if (*p == '\\') { switch (*(++p)) { case 'n': *p2 = '\n'; break; case 'r': *p2 = '\r'; break; default: *p2 = *p; break; } } else { *p2 = *p; } p2++, p++; } *p2 = 0; } else { start = p; while (*p != 0 && *p != ';' && *p != ' ') p++; } // if we hit the end of input, signal all done by nulling *ptrptr if (*p == 0) { *ptrptr = NULL; } // or if we came upon a semicolon, signal caller to restart with the // string at *ptrptr else if (*p == ';') { *p = 0; *ptrptr = p+1; *restart = 1; } // otherwise, clip off the token and carry on else { *(p++) = 0; *ptrptr = p; } return start; } #define MAXPARMS 512 int32_t OSD_Dispatch(const char *cmd) { char *workbuf, *wp, *wtp, *state; int32_t restart = 0; workbuf = state = Bstrdup(cmd); if (!workbuf) return -1; do { int32_t numparms = 0; symbol_t *symb; osdfuncparm_t ofp; char *parms[MAXPARMS]; Bmemset(parms, 0, sizeof(parms)); if ((wp = strtoken(state, &wtp, &restart)) == NULL) { state = wtp; continue; } if ((symb = findexactsymbol(wp)) == NULL) { if ((wp[0] != '/' || wp[1] != '/') && !m32_osd_tryscript) // cheap hack for comments in cfgs { OSD_Printf(OSDTEXT_RED "\"%s\" is not a valid command or cvar\n", wp); } else if (m32_osd_tryscript) { M32RunScript(cmd); } Bfree(workbuf); return -1; } ofp.name = wp; while (wtp && !restart) { wp = strtoken(NULL, &wtp, &restart); if (wp && numparms < MAXPARMS) parms[numparms++] = wp; } ofp.numparms = numparms; ofp.parms = (const char **)parms; ofp.raw = cmd; switch ((intptr_t)symb->func) { case(intptr_t)OSD_ALIAS: OSD_Dispatch(symb->help); case(intptr_t)OSD_UNALIASED: break; default: switch (symb->func(&ofp)) { case OSDCMD_OK: break; case OSDCMD_SHOWHELP: OSD_Printf("%s\n", symb->help); break; } break; } state = wtp; } while (wtp && restart); Bfree(workbuf); return 0; } // // OSD_RegisterFunction() -- Registers a new function // int32_t OSD_RegisterFunction(const char *name, const char *help, int32_t (*func)(const osdfuncparm_t *)) { symbol_t *symb; const char *cp; if ((osdflags & OSD_INITIALIZED) == 0) OSD_Init(); if (!name || !name[0]) { OSD_Printf("OSD_RegisterFunction(): can't register function with null name\n"); return -1; } if (!func) { OSD_Printf("OSD_RegisterFunction(): can't register null function\n"); return -1; } // check for illegal characters in name for (cp = name; *cp; cp++) { if ((cp == name) && (*cp >= '0') && (*cp <= '9')) { OSD_Printf("OSD_RegisterFunction(): first character of function name \"%s\" must not be a numeral\n", name); return -1; } if ((*cp < '0') || (*cp > '9' && *cp < 'A') || (*cp > 'Z' && *cp < 'a' && *cp != '_') || (*cp > 'z')) { OSD_Printf("OSD_RegisterFunction(): illegal character in function name \"%s\"\n", name); return -1; } } if (!help) help = "(no description for this function)"; symb = findexactsymbol(name); if (symb) // allow this now for reusing an alias name { /* if (symb->func != OSD_ALIAS && symb->func != OSD_UNALIASED) { OSD_Printf("OSD_RegisterFunction(): \"%s\" is already defined\n", name); return -1; } */ // Bfree((char *)symb->help); symb->help = help; symb->func = func; return 0; } symb = addnewsymbol(name); if (!symb) { OSD_Printf("OSD_RegisterFunction(): Failed registering function \"%s\"\n", name); return -1; } symb->name = name; symb->help = help; symb->func = func; return 0; } // // OSD_SetVersionString() // void OSD_SetVersion(const char *version, int32_t shade, int32_t pal) { Bstrcpy(osdver,version); osdverlen = Bstrlen(osdver); osdvershade = shade; osdverpal = pal; } // // addnewsymbol() -- Allocates space for a new symbol and attaches it // appropriately to the lists, sorted. // static symbol_t *addnewsymbol(const char *name) { symbol_t *newsymb, *s, *t; if (osdnumsymbols >= MAXSYMBOLS) return NULL; newsymb = (symbol_t *)Bmalloc(sizeof(symbol_t)); if (!newsymb) { return NULL; } Bmemset(newsymb, 0, sizeof(symbol_t)); // link it to the main chain if (!symbols) { symbols = newsymb; } else { if (Bstrcasecmp(name, symbols->name) <= 0) { t = symbols; symbols = newsymb; symbols->next = t; } else { s = symbols; while (s->next) { if (Bstrcasecmp(s->next->name, name) > 0) break; s=s->next; } t = s->next; s->next = newsymb; newsymb->next = t; } } hash_add(&h_osd, name, osdnumsymbols, 1); name = Bstrtolower(Bstrdup(name)); hash_add(&h_osd, name, osdnumsymbols, 1); Bfree((void *)name); osdsymbptrs[osdnumsymbols++] = newsymb; return newsymb; } // // findsymbol() -- Finds a symbol, possibly partially named // static symbol_t *findsymbol(const char *name, symbol_t *startingat) { if (!startingat) startingat = symbols; if (!startingat) return NULL; for (; startingat; startingat=startingat->next) if (startingat->func != OSD_UNALIASED && !Bstrncasecmp(name, startingat->name, Bstrlen(name))) return startingat; return NULL; } // // findexactsymbol() -- Finds a symbol, complete named // static symbol_t *findexactsymbol(const char *name) { int32_t i; char *lname = Bstrdup(name); if (!symbols) return NULL; i = hash_find(&h_osd,lname); if (i > -1) { // if ((symbol_t *)osdsymbptrs[i]->func == OSD_UNALIASED) // return NULL; Bfree(lname); return osdsymbptrs[i]; } // try it again Bstrtolower(lname); i = hash_find(&h_osd,lname); Bfree(lname); if (i > -1) return osdsymbptrs[i]; return NULL; } int32_t osdcmd_cvar_set(const osdfuncparm_t *parm) { int32_t showval = (parm->numparms == 0); int32_t i; i = hash_find(&h_cvars, parm->name); if (i < 0) for (i = osdnumcvars-1; i >= 0; i--) if (!Bstrcasecmp(parm->name, cvars[i].name)) break; if (i > -1) { if (cvars[i].type & CVAR_LOCKED) { // sound the alarm OSD_Printf("Cvar \"%s\" is read only.\n",cvars[i].name); return OSDCMD_OK; } switch (cvars[i].type&(CVAR_FLOAT|CVAR_DOUBLE|CVAR_INT|CVAR_UINT|CVAR_BOOL|CVAR_STRING)) { case CVAR_FLOAT: { float val; if (showval) { OSD_Printf("\"%s\" is \"%f\"\n%s\n",cvars[i].name,*(float *)cvars[i].var,(char *)cvars[i].desc); return OSDCMD_OK; } sscanf(parm->parms[0], "%f", &val); if (val < cvars[i].min || val > cvars[i].max) { OSD_Printf("%s value out of range\n",cvars[i].name); return OSDCMD_OK; } *(float *)cvars[i].var = val; if (!OSD_ParsingScript()) OSD_Printf("%s %f",cvars[i].name,val); } break; case CVAR_DOUBLE: { double val; if (showval) { OSD_Printf("\"%s\" is \"%f\"\n%s\n",cvars[i].name,*(double *)cvars[i].var,(char *)cvars[i].desc); return OSDCMD_OK; } sscanf(parm->parms[0], "%lf", &val); if (val < cvars[i].min || val > cvars[i].max) { OSD_Printf("%s value out of range\n",cvars[i].name); return OSDCMD_OK; } *(double *)cvars[i].var = val; if (!OSD_ParsingScript()) OSD_Printf("%s %f",cvars[i].name,val); } break; case CVAR_INT: case CVAR_UINT: case CVAR_BOOL: { int32_t val; if (showval) { OSD_Printf("\"%s\" is \"%d\"\n%s\n",cvars[i].name,*(int32_t *)cvars[i].var,(char *)cvars[i].desc); return OSDCMD_OK; } val = Batoi(parm->parms[0]); if (cvars[i].type & CVAR_BOOL) val = val != 0; if (val < cvars[i].min || val > cvars[i].max) { OSD_Printf("%s value out of range\n",cvars[i].name); return OSDCMD_OK; } *(int32_t *)cvars[i].var = val; if (!OSD_ParsingScript()) OSD_Printf("%s %d",cvars[i].name,val); } break; case CVAR_STRING: { if (showval) { OSD_Printf("\"%s\" is \"%s\"\n%s\n",cvars[i].name,(char *)cvars[i].var,(char *)cvars[i].desc); return OSDCMD_OK; } Bstrncpy((char *)cvars[i].var, parm->parms[0], cvars[i].max-1); ((char *)cvars[i].var)[cvars[i].max-1] = 0; if (!OSD_ParsingScript()) OSD_Printf("%s %s",cvars[i].name,(char *)cvars[i].var); } break; default: break; } } if (!OSD_ParsingScript()) OSD_Printf("\n"); return OSDCMD_OK; } void OSD_WriteCvars(FILE *fp) { uint32_t i; if (!fp) return; for (i=0; i