1 string wordwrap_buffer;
3 void wordwrap_buffer_put(string s)
5 wordwrap_buffer = strcat(wordwrap_buffer, s);
8 string wordwrap(string s, float l)
12 wordwrap_cb(s, l, wordwrap_buffer_put);
20 void wordwrap_buffer_sprint(string s)
22 wordwrap_buffer = strcat(wordwrap_buffer, s);
25 sprint(self, wordwrap_buffer);
30 void wordwrap_sprint(string s, float l)
33 wordwrap_cb(s, l, wordwrap_buffer_sprint);
34 if(wordwrap_buffer != "")
35 sprint(self, strcat(wordwrap_buffer, "\n"));
42 string unescape(string in)
47 // but it doesn't seem to be necessary in my tests at least
52 for(i = 0; i < len; ++i)
54 s = substring(in, i, 1);
57 s = substring(in, i+1, 1);
59 str = strcat(str, "\n");
61 str = strcat(str, "\\");
63 str = strcat(str, substring(in, i, 2));
73 void wordwrap_cb(string s, float l, void(string) callback)
76 local float lleft, i, j, wlen;
80 for (i = 0;i < strlen(s);++i)
82 if (substring(s, i, 2) == "\\n")
88 else if (substring(s, i, 1) == "\n")
93 else if (substring(s, i, 1) == " ")
103 for (j = i+1;j < strlen(s);++j)
104 // ^^ this skips over the first character of a word, which
105 // is ALWAYS part of the word
106 // this is safe since if i+1 == strlen(s), i will become
107 // strlen(s)-1 at the end of this block and the function
108 // will terminate. A space can't be the first character we
109 // read here, and neither can a \n be the start, since these
110 // two cases have been handled above.
112 c = substring(s, j, 1);
119 // we need to keep this tempstring alive even if substring is
120 // called repeatedly, so call strcat even though we're not
130 callback(substring(s, i, wlen));
131 lleft = lleft - wlen;
138 float dist_point_line(vector p, vector l0, vector ldir)
140 ldir = normalize(ldir);
142 // remove the component in line direction
143 p = p - (p * ldir) * ldir;
145 // vlen of the remaining vector
149 void depthfirst(entity start, .entity up, .entity downleft, .entity right, void(entity, entity) funcPre, void(entity, entity) funcPost, entity pass)
178 float median(float a, float b, float c)
181 return bound(a, b, c);
182 return bound(c, b, a);
185 // converts a number to a string with the indicated number of decimals
186 // works for up to 10 decimals!
187 string ftos_decimals(float number, float decimals)
193 // if negative, cut off the sign first
195 return strcat("-", ftos_decimals(-number, decimals));
196 // it now is always positive!
199 number = floor(number * pow(10, decimals) + 0.5);
202 result = ftos(number);
203 len = strlen(result);
204 // does it have a decimal point (should not happen)? If there is one, it is always at len-7)
205 // if ftos had messed it up, which should never happen: "34278.000000"
207 if(substring(result, len - 7, 1) == ".")
209 dprint("ftos(integer) has comma? Can't be. Affected result: ", result, "\n");
210 result = substring(result, 0, len - 7);
215 return result; // don't insert a point for zero decimals
216 // is it too short? If yes, insert leading zeroes
219 result = strcat(substring("0000000000", 0, decimals - len + 1), result);
222 // and now... INSERT THE POINT!
223 tmp = substring(result, len - decimals, decimals);
224 result = strcat(substring(result, 0, len - decimals), ".", tmp);
229 vector colormapPaletteColor(float c, float isPants)
233 case 0: return '0.800000 0.800000 0.800000';
234 case 1: return '0.600000 0.400000 0.000000';
235 case 2: return '0.000000 1.000000 0.501961';
236 case 3: return '0.000000 1.000000 0.000000';
237 case 4: return '1.000000 0.000000 0.000000';
238 case 5: return '0.000000 0.501961 1.000000';
239 case 6: return '0.000000 1.000000 1.000000';
240 case 7: return '0.501961 1.000000 0.000000';
241 case 8: return '0.501961 0.000000 1.000000';
242 case 9: return '1.000000 0.000000 1.000000';
243 case 10: return '1.000000 0.000000 0.501961';
244 case 11: return '0.600000 0.600000 0.600000';
245 case 12: return '1.000000 1.000000 0.000000';
246 case 13: return '0.000000 0.000000 1.000000';
247 case 14: return '1.000000 0.501961 0.000000';
251 '1 0 0' * (0.502 + 0.498 * sin(time / 2.7182818285 + 0.0000000000))
252 + '0 1 0' * (0.502 + 0.498 * sin(time / 2.7182818285 + 2.0943951024))
253 + '0 0 1' * (0.502 + 0.498 * sin(time / 2.7182818285 + 4.1887902048));
256 '1 0 0' * (0.502 + 0.498 * sin(time / 3.1415926536 + 5.2359877560))
257 + '0 1 0' * (0.502 + 0.498 * sin(time / 3.1415926536 + 3.1415926536))
258 + '0 0 1' * (0.502 + 0.498 * sin(time / 3.1415926536 + 1.0471975512));
259 default: return '0.000 0.000 0.000';
263 // unzone the string, and return it as tempstring. Safe to be called on string_null
264 string fstrunzone(string s)
274 // Databases (hash tables)
275 #define DB_BUCKETS 8192
276 void db_save(float db, string pFilename)
279 fh = fopen(pFilename, FILE_WRITE);
282 print(strcat("^1Can't write DB to ", pFilename));
286 fputs(fh, strcat(ftos(DB_BUCKETS), "\n"));
287 for(i = 0; i < n; ++i)
288 fputs(fh, strcat(bufstr_get(db, i), "\n"));
297 float db_load(string pFilename)
299 float db, fh, i, j, n;
304 fh = fopen(pFilename, FILE_READ);
307 if(stof(fgets(fh)) == DB_BUCKETS)
310 while((l = fgets(fh)))
313 bufstr_set(db, i, l);
319 // different count of buckets?
320 // need to reorganize the database then (SLOW)
321 while((l = fgets(fh)))
323 n = tokenizebyseparator(l, "\\");
324 for(j = 2; j < n; j += 2)
325 db_put(db, argv(j-1), uri_unescape(argv(j)));
332 void db_dump(float db, string pFilename)
334 float fh, i, j, n, m;
335 fh = fopen(pFilename, FILE_WRITE);
337 error(strcat("Can't dump DB to ", pFilename));
340 for(i = 0; i < n; ++i)
342 m = tokenizebyseparator(bufstr_get(db, i), "\\");
343 for(j = 2; j < m; j += 2)
344 fputs(fh, strcat("\\", argv(j-1), "\\", argv(j), "\n"));
349 void db_close(float db)
354 string db_get(float db, string pKey)
357 h = mod(crc16(FALSE, pKey), DB_BUCKETS);
358 return uri_unescape(infoget(bufstr_get(db, h), pKey));
361 void db_put(float db, string pKey, string pValue)
364 h = mod(crc16(FALSE, pKey), DB_BUCKETS);
365 bufstr_set(db, h, infoadd(bufstr_get(db, h), pKey, uri_escape(pValue)));
372 db = db_load("foo.db");
373 print("LOADED. FILL...\n");
374 for(i = 0; i < DB_BUCKETS; ++i)
375 db_put(db, ftos(random()), "X");
376 print("FILLED. SAVE...\n");
377 db_save(db, "foo.db");
378 print("SAVED. CLOSE...\n");
383 // Multiline text file buffers
384 float buf_load(string pFilename)
391 fh = fopen(pFilename, FILE_READ);
395 while((l = fgets(fh)))
397 bufstr_set(buf, i, l);
404 void buf_save(float buf, string pFilename)
407 fh = fopen(pFilename, FILE_WRITE);
409 error(strcat("Can't write buf to ", pFilename));
410 n = buf_getsize(buf);
411 for(i = 0; i < n; ++i)
412 fputs(fh, strcat(bufstr_get(buf, i), "\n"));
416 string GametypeNameFromType(float g)
418 if (g == GAME_DEATHMATCH) return "dm";
419 else if (g == GAME_TEAM_DEATHMATCH) return "tdm";
420 else if (g == GAME_DOMINATION) return "dom";
421 else if (g == GAME_CTF) return "ctf";
422 else if (g == GAME_RUNEMATCH) return "rune";
423 else if (g == GAME_LMS) return "lms";
424 else if (g == GAME_ARENA) return "arena";
425 else if (g == GAME_KEYHUNT) return "kh";
426 else if (g == GAME_ONSLAUGHT) return "ons";
427 else if (g == GAME_ASSAULT) return "as";
428 else if (g == GAME_RACE) return "race";
429 else if (g == GAME_NEXBALL) return "nexball";
433 string mmsss(float tenths)
437 tenths = floor(tenths + 0.5);
438 minutes = floor(tenths / 600);
439 tenths -= minutes * 600;
440 s = ftos(1000 + tenths);
441 return strcat(ftos(minutes), ":", substring(s, 1, 2), ".", substring(s, 3, 1));
444 string ScoreString(float pFlags, float pValue)
449 pValue = floor(pValue + 0.5); // round
451 if((pValue == 0) && (pFlags & (SFL_HIDE_ZERO | SFL_RANK | SFL_TIME)))
453 else if(pFlags & SFL_RANK)
455 valstr = ftos(pValue);
457 if((l >= 2) && (substring(valstr, l - 2, 1) == "1"))
458 valstr = strcat(valstr, "th");
459 else if(substring(valstr, l - 1, 1) == "1")
460 valstr = strcat(valstr, "st");
461 else if(substring(valstr, l - 1, 1) == "2")
462 valstr = strcat(valstr, "nd");
463 else if(substring(valstr, l - 1, 1) == "3")
464 valstr = strcat(valstr, "rd");
466 valstr = strcat(valstr, "th");
468 else if(pFlags & SFL_TIME)
469 valstr = mmsss(pValue);
471 valstr = ftos(pValue);
476 vector cross(vector a, vector b)
479 '1 0 0' * (a_y * b_z - a_z * b_y)
480 + '0 1 0' * (a_z * b_x - a_x * b_z)
481 + '0 0 1' * (a_x * b_y - a_y * b_x);
484 // compressed vector format:
485 // like MD3, just even shorter
486 // 4 bit pitch (16 angles), 0 is -90, 8 is 0, 16 would be 90
487 // 5 bit yaw (32 angles), 0=0, 8=90, 16=180, 24=270
488 // 7 bit length (logarithmic encoding), 1/8 .. about 7844
489 // length = 2^(length_encoded/8) / 8
490 // if pitch is 90, yaw does nothing and therefore indicates the sign (yaw is then either 11111 or 11110); 11111 is pointing DOWN
491 // thus, valid values are from 0000.11110.0000000 to 1111.11111.1111111
492 // the special value 0 indicates the zero vector
494 float lengthLogTable[128];
496 float invertLengthLog(float x)
498 float l, r, m, lerr, rerr;
500 if(x >= lengthLogTable[127])
502 if(x <= lengthLogTable[0])
510 m = floor((l + r) / 2);
511 if(lengthLogTable[m] < x)
517 // now: r is >=, l is <
518 lerr = (x - lengthLogTable[l]);
519 rerr = (lengthLogTable[r] - x);
525 vector decompressShortVector(float data)
528 float pitch, yaw, len;
531 pitch = (data & 0xF000) / 0x1000;
532 yaw = (data & 0x0F80) / 0x80;
533 len = (data & 0x007F);
535 //print("\ndecompress: pitch ", ftos(pitch)); print("yaw ", ftos(yaw)); print("len ", ftos(len), "\n");
548 yaw = .19634954084936207740 * yaw;
549 pitch = .19634954084936207740 * pitch - 1.57079632679489661922;
550 out_x = cos(yaw) * cos(pitch);
551 out_y = sin(yaw) * cos(pitch);
555 //print("decompressed: ", vtos(out), "\n");
557 return out * lengthLogTable[len];
560 float compressShortVector(vector vec)
563 float pitch, yaw, len;
566 //print("compress: ", vtos(vec), "\n");
567 ang = vectoangles(vec);
571 if(ang_x < -90 && ang_x > +90)
572 error("BOGUS vectoangles");
573 //print("angles: ", vtos(ang), "\n");
575 pitch = floor(0.5 + (ang_x + 90) * 16 / 180) & 15; // -90..90 to 0..14
584 yaw = floor(0.5 + ang_y * 32 / 360) & 31; // 0..360 to 0..32
585 len = invertLengthLog(vlen(vec));
587 //print("compressed: pitch ", ftos(pitch)); print("yaw ", ftos(yaw)); print("len ", ftos(len), "\n");
589 return (pitch * 0x1000) + (yaw * 0x80) + len;
592 void compressShortVector_init()
597 for(i = 0; i < 128; ++i)
599 lengthLogTable[i] = l;
603 if(cvar("developer"))
605 print("Verifying vector compression table...\n");
606 for(i = 0x0F00; i < 0xFFFF; ++i)
607 if(i != compressShortVector(decompressShortVector(i)))
609 print("BROKEN vector compression: ", ftos(i));
610 print(" -> ", vtos(decompressShortVector(i)));
611 print(" -> ", ftos(compressShortVector(decompressShortVector(i))));
620 float CheckWireframeBox(entity forent, vector v0, vector dvx, vector dvy, vector dvz)
622 traceline(v0, v0 + dvx, TRUE, forent); if(trace_fraction < 1) return 0;
623 traceline(v0, v0 + dvy, TRUE, forent); if(trace_fraction < 1) return 0;
624 traceline(v0, v0 + dvz, TRUE, forent); if(trace_fraction < 1) return 0;
625 traceline(v0 + dvx, v0 + dvx + dvy, TRUE, forent); if(trace_fraction < 1) return 0;
626 traceline(v0 + dvx, v0 + dvx + dvz, TRUE, forent); if(trace_fraction < 1) return 0;
627 traceline(v0 + dvy, v0 + dvy + dvx, TRUE, forent); if(trace_fraction < 1) return 0;
628 traceline(v0 + dvy, v0 + dvy + dvz, TRUE, forent); if(trace_fraction < 1) return 0;
629 traceline(v0 + dvz, v0 + dvz + dvx, TRUE, forent); if(trace_fraction < 1) return 0;
630 traceline(v0 + dvz, v0 + dvz + dvy, TRUE, forent); if(trace_fraction < 1) return 0;
631 traceline(v0 + dvx + dvy, v0 + dvx + dvy + dvz, TRUE, forent); if(trace_fraction < 1) return 0;
632 traceline(v0 + dvx + dvz, v0 + dvx + dvy + dvz, TRUE, forent); if(trace_fraction < 1) return 0;
633 traceline(v0 + dvy + dvz, v0 + dvx + dvy + dvz, TRUE, forent); if(trace_fraction < 1) return 0;
637 void fixedmakevectors(vector a)
639 // a makevectors that actually inverts vectoangles
645 string fixPriorityList(string order, float from, float to, float subtract, float complete)
650 n = tokenize_console(order);
651 for(i = 0; i < n; ++i)
656 if(w >= from && w <= to)
657 neworder = strcat(neworder, ftos(w), " ");
661 if(w >= from && w <= to)
662 neworder = strcat(neworder, ftos(w), " ");
669 n = tokenize_console(neworder);
670 for(w = to; w >= from; --w)
672 for(i = 0; i < n; ++i)
673 if(stof(argv(i)) == w)
675 if(i == n) // not found
676 neworder = strcat(neworder, ftos(w), " ");
680 return substring(neworder, 0, strlen(neworder) - 1);
683 string swapInPriorityList(string order, float i, float j)
688 n = tokenize_console(order);
690 if(i >= 0 && i < n && j >= 0 && j < n && i != j)
693 for(w = 0; w < n; ++w)
696 s = strcat(s, argv(j), " ");
698 s = strcat(s, argv(i), " ");
700 s = strcat(s, argv(w), " ");
702 return substring(s, 0, strlen(s) - 1);
708 float cvar_value_issafe(string s)
710 if(strstrofs(s, "\"", 0) >= 0)
712 if(strstrofs(s, "\\", 0) >= 0)
714 if(strstrofs(s, ";", 0) >= 0)
716 if(strstrofs(s, "$", 0) >= 0)
718 if(strstrofs(s, "\r", 0) >= 0)
720 if(strstrofs(s, "\n", 0) >= 0)
726 void get_mi_min_max(float mode)
731 strunzone(mi_shortname);
732 mi_shortname = mapname;
733 if(!strcasecmp(substring(mi_shortname, 0, 5), "maps/"))
734 mi_shortname = substring(mi_shortname, 5, strlen(mi_shortname) - 5);
735 if(!strcasecmp(substring(mi_shortname, strlen(mi_shortname) - 4, 4), ".bsp"))
736 mi_shortname = substring(mi_shortname, 0, strlen(mi_shortname) - 4);
737 mi_shortname = strzone(mi_shortname);
749 MapInfo_Get_ByName(mi_shortname, 0, 0);
750 if(MapInfo_Map_mins_x < MapInfo_Map_maxs_x)
752 mi_min = MapInfo_Map_mins;
753 mi_max = MapInfo_Map_maxs;
761 tracebox('1 0 0' * mi_x,
762 '0 1 0' * mi_y + '0 0 1' * mi_z,
763 '0 1 0' * ma_y + '0 0 1' * ma_z,
767 if(!trace_startsolid)
768 mi_min_x = trace_endpos_x;
770 tracebox('0 1 0' * mi_y,
771 '1 0 0' * mi_x + '0 0 1' * mi_z,
772 '1 0 0' * ma_x + '0 0 1' * ma_z,
776 if(!trace_startsolid)
777 mi_min_y = trace_endpos_y;
779 tracebox('0 0 1' * mi_z,
780 '1 0 0' * mi_x + '0 1 0' * mi_y,
781 '1 0 0' * ma_x + '0 1 0' * ma_y,
785 if(!trace_startsolid)
786 mi_min_z = trace_endpos_z;
788 tracebox('1 0 0' * ma_x,
789 '0 1 0' * mi_y + '0 0 1' * mi_z,
790 '0 1 0' * ma_y + '0 0 1' * ma_z,
794 if(!trace_startsolid)
795 mi_max_x = trace_endpos_x;
797 tracebox('0 1 0' * ma_y,
798 '1 0 0' * mi_x + '0 0 1' * mi_z,
799 '1 0 0' * ma_x + '0 0 1' * ma_z,
803 if(!trace_startsolid)
804 mi_max_y = trace_endpos_y;
806 tracebox('0 0 1' * ma_z,
807 '1 0 0' * mi_x + '0 1 0' * mi_y,
808 '1 0 0' * ma_x + '0 1 0' * ma_y,
812 if(!trace_startsolid)
813 mi_max_z = trace_endpos_z;
818 void get_mi_min_max_texcoords(float mode)
822 get_mi_min_max(mode);
827 // extend mi_picmax to get a square aspect ratio
828 // center the map in that area
829 extend = mi_picmax - mi_picmin;
830 if(extend_y > extend_x)
832 mi_picmin_x -= (extend_y - extend_x) * 0.5;
833 mi_picmax_x += (extend_y - extend_x) * 0.5;
837 mi_picmin_y -= (extend_x - extend_y) * 0.5;
838 mi_picmax_y += (extend_x - extend_y) * 0.5;
841 // add another some percent
842 extend = (mi_picmax - mi_picmin) * (1 / 64.0);
846 // calculate the texcoords
847 mi_pictexcoord0 = mi_pictexcoord1 = mi_pictexcoord2 = mi_pictexcoord3 = '0 0 0';
848 // first the two corners of the origin
849 mi_pictexcoord0_x = (mi_min_x - mi_picmin_x) / (mi_picmax_x - mi_picmin_x);
850 mi_pictexcoord0_y = (mi_min_y - mi_picmin_y) / (mi_picmax_y - mi_picmin_y);
851 mi_pictexcoord2_x = (mi_max_x - mi_picmin_x) / (mi_picmax_x - mi_picmin_x);
852 mi_pictexcoord2_y = (mi_max_y - mi_picmin_y) / (mi_picmax_y - mi_picmin_y);
853 // then the other corners
854 mi_pictexcoord1_x = mi_pictexcoord0_x;
855 mi_pictexcoord1_y = mi_pictexcoord2_y;
856 mi_pictexcoord3_x = mi_pictexcoord2_x;
857 mi_pictexcoord3_y = mi_pictexcoord0_y;
862 void cvar_settemp(string pKey, string pValue)
864 error("cvar_settemp called from CSQC - use cvar_clientsettemp instead!");
866 void cvar_settemp_restore()
868 error("cvar_settemp_restore called from CSQC - use cvar_clientsettemp instead!");
871 void cvar_settemp(string pKey, string pValue)
873 cvar_set("settemp_list", strcat("1 ", pKey, " ", cvar_string("settemp_var"), " ", cvar_string("settemp_list")));
875 registercvar(cvar_string("settemp_var"), "", 0);
877 registercvar(cvar_string("settemp_var"), "");
879 cvar_set(cvar_string("settemp_var"), cvar_string(pKey));
880 cvar_set("settemp_var", strcat(cvar_string("settemp_var"), "x"));
881 cvar_set(pKey, pValue);
884 void cvar_settemp_restore()
886 // undo what cvar_settemp did
889 n = tokenize_console(cvar_string("settemp_list"));
890 for(i = 0; i < n - 3; i += 3)
894 cvar_set(s1, s2); // fteqcc sucks
896 cvar_set("settemp_list", "0");
900 float almost_equals(float a, float b)
903 eps = (max(a, -a) + max(b, -b)) * 0.001;
904 if(a - b < eps && b - a < eps)
909 float almost_in_bounds(float a, float b, float c)
912 eps = (max(a, -a) + max(c, -c)) * 0.001;
913 return b == median(a - eps, b, c + eps);
916 float power2of(float e)
920 float log2of(float x)
922 // NOTE: generated code
995 float rgb_mi_ma_to_hue(vector rgb, float mi, float ma)
1002 return (rgb_y - rgb_z) / (ma - mi);
1004 return (rgb_y - rgb_z) / (ma - mi) + 6;
1006 else if(ma == rgb_y)
1007 return (rgb_z - rgb_x) / (ma - mi) + 2;
1008 else // if(ma == rgb_z)
1009 return (rgb_x - rgb_y) / (ma - mi) + 4;
1012 vector hue_mi_ma_to_rgb(float hue, float mi, float ma)
1016 hue -= 6 * floor(hue / 6);
1018 //else if(ma == rgb_x)
1019 // hue = 60 * (rgb_y - rgb_z) / (ma - mi);
1023 rgb_y = hue * (ma - mi) + mi;
1026 //else if(ma == rgb_y)
1027 // hue = 60 * (rgb_z - rgb_x) / (ma - mi) + 120;
1030 rgb_x = (2 - hue) * (ma - mi) + mi;
1038 rgb_z = (hue - 2) * (ma - mi) + mi;
1040 //else // if(ma == rgb_z)
1041 // hue = 60 * (rgb_x - rgb_y) / (ma - mi) + 240;
1045 rgb_y = (4 - hue) * (ma - mi) + mi;
1050 rgb_x = (hue - 4) * (ma - mi) + mi;
1054 //else if(ma == rgb_x)
1055 // hue = 60 * (rgb_y - rgb_z) / (ma - mi);
1056 else // if(hue <= 6)
1060 rgb_z = (6 - hue) * (ma - mi) + mi;
1066 vector rgb_to_hsv(vector rgb)
1071 mi = min3(rgb_x, rgb_y, rgb_z);
1072 ma = max3(rgb_x, rgb_y, rgb_z);
1074 hsv_x = rgb_mi_ma_to_hue(rgb, mi, ma);
1085 vector hsv_to_rgb(vector hsv)
1087 return hue_mi_ma_to_rgb(hsv_x, hsv_z * (1 - hsv_y), hsv_z);
1090 vector rgb_to_hsl(vector rgb)
1095 mi = min3(rgb_x, rgb_y, rgb_z);
1096 ma = max3(rgb_x, rgb_y, rgb_z);
1098 hsl_x = rgb_mi_ma_to_hue(rgb, mi, ma);
1100 hsl_z = 0.5 * (mi + ma);
1103 else if(hsl_z <= 0.5)
1104 hsl_y = (ma - mi) / (2*hsl_z);
1105 else // if(hsl_z > 0.5)
1106 hsl_y = (ma - mi) / (2 - 2*hsl_z);
1111 vector hsl_to_rgb(vector hsl)
1113 float mi, ma, maminusmi;
1116 maminusmi = hsl_y * 2 * hsl_z;
1118 maminusmi = hsl_y * (2 - 2 * hsl_z);
1120 // hsl_z = 0.5 * mi + 0.5 * ma
1121 // maminusmi = - mi + ma
1122 mi = hsl_z - 0.5 * maminusmi;
1123 ma = hsl_z + 0.5 * maminusmi;
1125 return hue_mi_ma_to_rgb(hsl_x, mi, ma);
1128 string rgb_to_hexcolor(vector rgb)
1133 DEC_TO_HEXDIGIT(floor(rgb_x * 15 + 0.5)),
1134 DEC_TO_HEXDIGIT(floor(rgb_y * 15 + 0.5)),
1135 DEC_TO_HEXDIGIT(floor(rgb_z * 15 + 0.5))
1139 // requires that m2>m1 in all coordinates, and that m4>m3
1140 float boxesoverlap(vector m1, vector m2, vector m3, vector m4) {return m2_x >= m3_x && m1_x <= m4_x && m2_y >= m3_y && m1_y <= m4_y && m2_z >= m3_z && m1_z <= m4_z;};
1142 // requires the same, but is a stronger condition
1143 float boxinsidebox(vector smins, vector smaxs, vector bmins, vector bmaxs) {return smins_x >= bmins_x && smaxs_x <= bmaxs_x && smins_y >= bmins_y && smaxs_y <= bmaxs_y && smins_z >= bmins_z && smaxs_z <= bmaxs_z;};
1146 // angles transforms
1147 // angles in fixedmakevectors/fixedvectoangles space
1148 vector AnglesTransform_Apply(vector transform, vector v)
1150 fixedmakevectors(transform);
1151 return v_forward * v_x
1156 vector AnglesTransform_Multiply(vector t1, vector t2)
1158 vector m_forward, m_up;
1159 fixedmakevectors(t2); m_forward = v_forward; m_up = v_up;
1160 m_forward = AnglesTransform_Apply(t1, m_forward); m_up = AnglesTransform_Apply(t1, m_up);
1161 return fixedvectoangles2(m_forward, m_up);
1164 vector AnglesTransform_Invert(vector transform)
1166 vector i_forward, i_up;
1167 fixedmakevectors(transform);
1168 // we want angles that turn v_forward into '1 0 0', v_right into '0 1 0' and v_up into '0 0 1'
1169 // but these are orthogonal unit vectors!
1170 // so to invert, we can simply fixedvectoangles the TRANSPOSED matrix
1171 // TODO is this always -transform?
1172 i_forward_x = v_forward_x;
1173 i_forward_y = -v_right_x;
1174 i_forward_z = v_up_x;
1175 i_up_x = v_forward_z;
1176 i_up_y = -v_right_z;
1178 return fixedvectoangles2(i_forward, i_up);
1181 vector AnglesTransform_TurnDirection(vector transform)
1183 // turn 180 degrees around v_up
1184 // changes in-direction to out-direction
1185 fixedmakevectors(transform);
1186 return fixedvectoangles2(-1 * v_forward, 1 * v_up);
1189 vector AnglesTransform_Divide(vector to_transform, vector from_transform)
1191 return AnglesTransform_Multiply(to_transform, AnglesTransform_Invert(from_transform));
1195 float textLengthUpToWidth(string theText, float maxWidth, textLengthUpToWidth_widthFunction_t w)
1197 float ICanHasKallerz;
1199 // detect color codes support in the width function
1200 ICanHasKallerz = (w("^7") == 0);
1203 // The following function is SLOW.
1204 // For your safety and for the protection of those around you...
1205 // DO NOT CALL THIS AT HOME.
1206 // No really, don't.
1207 if(w(theText) <= maxWidth)
1208 return strlen(theText); // yeah!
1210 // binary search for right place to cut string
1212 float left, right, middle; // this always works
1214 right = strlen(theText); // this always fails
1217 middle = floor((left + right) / 2);
1218 if(w(substring(theText, 0, middle)) <= maxWidth)
1223 while(left < right - 1);
1227 // NOTE: when color codes are involved, this binary search is,
1228 // mathematically, BROKEN. However, it is obviously guaranteed to
1229 // terminate, as the range still halves each time - but nevertheless, it is
1230 // guaranteed that it finds ONE valid cutoff place (where "left" is in
1231 // range, and "right" is outside).
1233 // terencehill: the following code detects truncated ^xrgb tags (e.g. ^x or ^x4)
1234 // and decrease left on the basis of the chars detected of the truncated tag
1235 // Even if the ^xrgb tag is not complete/correct, left is decreased
1236 // (sometimes too much but with a correct result)
1237 // it fixes also ^[0-9]
1238 while(left >= 1 && substring(theText, left-1, 1) == "^")
1241 if (left >= 2 && substring(theText, left-2, 2) == "^x") // ^x/
1243 else if (left >= 3 && substring(theText, left-3, 2) == "^x")
1245 ch = str2chr(theText, left-1);
1246 if( (ch >= '0' && ch <= '9') || (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F') ) // ^xr/
1249 else if (left >= 4 && substring(theText, left-4, 2) == "^x")
1251 ch = str2chr(theText, left-2);
1252 if ( (ch >= '0' && ch <= '9') || (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F') )
1254 ch = str2chr(theText, left-1);
1255 if ( (ch >= '0' && ch <= '9') || (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F') ) // ^xrg/
1264 string getWrappedLine(float w, textLengthUpToWidth_widthFunction_t tw)
1270 s = getWrappedLine_remaining;
1272 cantake = textLengthUpToWidth(s, w, tw);
1273 if(cantake > 0 && cantake < strlen(s))
1276 while(take > 0 && substring(s, take, 1) != " ")
1280 getWrappedLine_remaining = substring(s, cantake, strlen(s) - cantake);
1281 if(getWrappedLine_remaining == "")
1282 getWrappedLine_remaining = string_null;
1283 return substring(s, 0, cantake);
1287 getWrappedLine_remaining = substring(s, take + 1, strlen(s) - take);
1288 if(getWrappedLine_remaining == "")
1289 getWrappedLine_remaining = string_null;
1290 return substring(s, 0, take);
1295 getWrappedLine_remaining = string_null;
1300 string textShortenToWidth(string theText, float maxWidth, textLengthUpToWidth_widthFunction_t tw)
1302 if(tw(theText) <= maxWidth)
1305 return strcat(substring(theText, 0, textLengthUpToWidth(theText, maxWidth - tw("..."), tw)), "...");
1308 float isGametypeInFilter(float gt, float tp, string pattern)
1310 string subpattern, subpattern2;
1311 subpattern = strcat(",", GametypeNameFromType(gt), ",");
1313 subpattern2 = ",teams,";
1315 subpattern2 = ",noteams,";
1317 if(substring(pattern, 0, 1) == "-")
1319 pattern = substring(pattern, 1, strlen(pattern) - 1);
1320 if(strstrofs(strcat(",", pattern, ","), subpattern, 0) >= 0)
1322 if(strstrofs(strcat(",", pattern, ","), subpattern2, 0) >= 0)
1327 if(substring(pattern, 0, 1) == "+")
1328 pattern = substring(pattern, 1, strlen(pattern) - 1);
1329 if(strstrofs(strcat(",", pattern, ","), subpattern, 0) < 0)
1330 if(strstrofs(strcat(",", pattern, ","), subpattern2, 0) < 0)
1336 void shuffle(float n, shuffle_swapfunc_t swap)
1339 for(i = 1; i < n; ++i)
1341 // swap i-th item at a random position from 0 to i
1342 // proof for even distribution:
1345 // item n+1 gets at any position with chance 1/(n+1)
1346 // all others will get their 1/n chance reduced by factor n/(n+1)
1347 // to be on place n+1, their chance will be 1/(n+1)
1348 // 1/n * n/(n+1) = 1/(n+1)
1350 j = floor(random() * (i + 1));
1356 string substring_range(string s, float b, float e)
1358 return substring(s, b, e - b);
1361 string swapwords(string str, float i, float j)
1364 string s1, s2, s3, s4, s5;
1365 float si, ei, sj, ej, s0, en;
1366 n = tokenizebyseparator(str, " "); // must match g_maplist processing in ShuffleMaplist and "shuffle"
1367 si = argv_start_index(i);
1368 sj = argv_start_index(j);
1369 ei = argv_end_index(i);
1370 ej = argv_end_index(j);
1371 s0 = argv_start_index(0);
1372 en = argv_end_index(n-1);
1373 s1 = substring_range(str, s0, si);
1374 s2 = substring_range(str, si, ei);
1375 s3 = substring_range(str, ei, sj);
1376 s4 = substring_range(str, sj, ej);
1377 s5 = substring_range(str, ej, en);
1378 return strcat(s1, s4, s3, s2, s5);
1381 string _shufflewords_str;
1382 void _shufflewords_swapfunc(float i, float j)
1384 _shufflewords_str = swapwords(_shufflewords_str, i, j);
1386 string shufflewords(string str)
1389 _shufflewords_str = str;
1390 n = tokenizebyseparator(str, " ");
1391 shuffle(n, _shufflewords_swapfunc);
1392 str = _shufflewords_str;
1393 _shufflewords_str = string_null;
1397 vector solve_quadratic(float a, float b, float c) // ax^2 + bx + c = 0
1413 // actually, every number solves the equation!
1424 if(a > 0) // put the smaller solution first
1426 v_x = ((-b)-D) / (2*a);
1427 v_y = ((-b)+D) / (2*a);
1431 v_x = (-b+D) / (2*a);
1432 v_y = (-b-D) / (2*a);
1438 // complex solutions!
1452 float _unacceptable_compiler_bug_1_a(float b, float c) { return b == c; }
1453 float _unacceptable_compiler_bug_1_b() { return 1; }
1454 float _unacceptable_compiler_bug_1_c(float d) { return 2 * d; }
1455 float _unacceptable_compiler_bug_1_d() { return 1; }
1457 void check_unacceptable_compiler_bugs()
1459 if(cvar("_allow_unacceptable_compiler_bugs"))
1461 tokenize_console("foo bar");
1462 if(strcat(argv(0), substring("foo bar", 4, 7 - argv_start_index(1))) == "barbar")
1463 error("fteqcc bug introduced with revision 3178 detected. Please upgrade fteqcc to a later revision, downgrade fteqcc to revision 3177, or pester Spike until he fixes it. You can set _allow_unacceptable_compiler_bugs 1 to skip this check, but expect stuff to be horribly broken then.");