3 #include "effectinfo.qh"
4 #define EFFECTINFO_PARSER(on, MY) \
6 ,{ demand(n == 1 && "type"); MY(type) = strzone(argv(1)); \
7 }, sprintf(" %s", (MY(type)) \
9 on(airfriction, MY(airfriction) \
10 ,{ demand(n == 1 && "airfriction"); MY(airfriction) = stof(argv(1)); \
11 }, sprintf(" %s", ftos(MY(airfriction)) \
13 on(alpha, MY(alpha_min) || MY(alpha_max) || MY(alpha_fade) \
14 ,{ demand(n == 3 && "alpha"); MY(alpha_min) = stof(argv(1)); MY(alpha_max) = stof(argv(2)); MY(alpha_fade) = stof(argv(3)); \
15 }, sprintf(" %s %s %s", ftos(MY(alpha_min)), ftos(MY(alpha_max)), ftos(MY(alpha_fade)) \
18 ,{ demand(n == 1 && "blend"); MY(blend) = strzone(argv(1)); \
19 }, sprintf(" %s", (MY(blend)) \
21 on(bounce, MY(bounce) \
22 ,{ demand(n == 1 && "bounce"); MY(bounce) = stof(argv(1)); \
23 }, sprintf(" %s", ftos(MY(bounce)) \
25 on(color, MY(color_min) || MY(color_max) \
26 ,{ demand(n == 2 && "color"); MY(color_min) = strzone(argv(1)); MY(color_max) = strzone(argv(2)); \
27 }, sprintf(" %s %s", (MY(color_min)), (MY(color_max)) \
29 on(countabsolute, MY(countabsolute) \
30 ,{ demand(n == 1 && "countabsolute"); MY(countabsolute) = stof(argv(1)); \
31 }, sprintf(" %s", ftos(MY(countabsolute)) \
34 ,{ demand(n == 1 && "count"); MY(count) = stof(argv(1)); \
35 }, sprintf(" %s", ftos(MY(count)) \
37 on(gravity, MY(gravity) \
38 ,{ demand(n == 1 && "gravity"); MY(gravity) = stof(argv(1)); \
39 }, sprintf(" %s", ftos(MY(gravity)) \
41 on(lightcolor, MY(lightcolor) \
42 ,{ demand(n == 3 && "lightcolor"); MY(lightcolor) = vec3(stof(argv(1)), stof(argv(2)), stof(argv(3))); \
43 }, sprintf(" %v", (MY(lightcolor)) \
45 on(lightradiusfade, MY(lightradiusfade) \
46 ,{ demand(n == 1 && "lightradiusfade"); MY(lightradiusfade) = stof(argv(1)); \
47 }, sprintf(" %s", ftos(MY(lightradiusfade)) \
49 on(lightradius, MY(lightradius) \
50 ,{ demand(n == 1 && "lightradius"); MY(lightradius) = stof(argv(1)); \
51 }, sprintf(" %s", ftos(MY(lightradius)) \
53 on(lighttime, MY(lighttime) \
54 ,{ demand(n == 1 && "lighttime"); MY(lighttime) = stof(argv(1)); \
55 }, sprintf(" %s", ftos(MY(lighttime)) \
57 on(liquidfriction, MY(liquidfriction) \
58 ,{ demand(n == 1 && "liquidfriction"); MY(liquidfriction) = stof(argv(1)); \
59 }, sprintf(" %s", ftos(MY(liquidfriction)) \
61 on(notunderwater, MY(notunderwater) \
62 ,{ demand(n == 0 && "notunderwater"); MY(notunderwater) = true; \
65 on(orientation, MY(orientation) \
66 ,{ demand(n == 1 && "orientation"); MY(orientation) = strzone(argv(1)); \
67 }, sprintf(" %s", (MY(orientation)) \
69 on(originjitter, MY(originjitter) \
70 ,{ demand(n == 3 && "originjitter"); MY(originjitter) = vec3(stof(argv(1)), stof(argv(2)), stof(argv(3))); \
71 }, sprintf(" %v", (MY(originjitter)) \
73 on(originoffset, MY(originoffset) \
74 ,{ demand(n == 3 && "originoffset"); MY(originoffset) = vec3(stof(argv(1)), stof(argv(2)), stof(argv(3))); \
75 }, sprintf(" %v", (MY(originoffset)) \
77 on(relativeoriginoffset, MY(relativeoriginoffset) \
78 ,{ demand(n == 3 && "relativeoriginoffset"); MY(relativeoriginoffset) = vec3(stof(argv(1)), stof(argv(2)), stof(argv(3))); \
79 }, sprintf(" %v", (MY(relativeoriginoffset)) \
81 on(relativevelocityoffset, MY(relativevelocityoffset) \
82 ,{ demand(n == 3 && "relativevelocityoffset"); MY(relativevelocityoffset) = vec3(stof(argv(1)), stof(argv(2)), stof(argv(3))); \
83 }, sprintf(" %v", (MY(relativevelocityoffset)) \
85 on(rotate, MY(startangle_min) || MY(startangle_max) || MY(spin_min) || MY(spin_max) \
86 ,{ demand(n == 4 && "rotate"); MY(startangle_min) = stof(argv(1)); MY(startangle_max) = stof(argv(2)); MY(spin_min) = stof(argv(3)); MY(spin_max) = stof(argv(4)); \
87 }, sprintf(" %s %s %s %s", ftos(MY(startangle_min)), ftos(MY(startangle_max)), ftos(MY(spin_min)), ftos(MY(spin_max)) \
89 on(sizeincrease, MY(sizeincrease) \
90 ,{ demand(n == 1 && "sizeincrease"); MY(sizeincrease) = stof(argv(1)); \
91 }, sprintf(" %s", ftos(MY(sizeincrease)) \
93 on(size, MY(size_min) || MY(size_max) \
94 ,{ demand(n == 2 && "size"); MY(size_min) = stof(argv(1)); MY(size_max) = stof(argv(2)); \
95 }, sprintf(" %s %s", ftos(MY(size_min)), ftos(MY(size_max)) \
97 on(staincolor, MY(staincolor_min) || MY(staincolor_max) \
98 ,{ demand(n == 2 && "staincolor"); MY(staincolor_min) = strzone(argv(1)); MY(staincolor_max) = strzone(argv(2)); \
99 }, sprintf(" %s %s", (MY(staincolor_min)), (MY(staincolor_max)) \
101 on(stainsize, MY(stainsize_min) || MY(stainsize_max) \
102 ,{ demand(n == 2 && "stainsize"); MY(stainsize_min) = stof(argv(1)); MY(stainsize_max) = stof(argv(2)); \
103 }, sprintf(" %s %s", ftos(MY(stainsize_min)), ftos(MY(stainsize_max)) \
105 on(staintex, MY(staintex_min) || MY(staintex_max) \
106 ,{ demand(n == 2 && "staintex"); MY(staintex_min) = stof(argv(1)); MY(staintex_max) = stof(argv(2)); \
107 }, sprintf(" %s %s", ftos(MY(staintex_min)), ftos(MY(staintex_max)) \
109 on(stretchfactor, MY(stretchfactor) \
110 ,{ demand(n == 1 && "stretchfactor"); MY(stretchfactor) = stof(argv(1)); \
111 }, sprintf(" %s", ftos(MY(stretchfactor)) \
113 on(tex, MY(tex_min) || MY(tex_max) \
114 ,{ demand(n == 2 && "tex"); MY(tex_min) = stof(argv(1)); MY(tex_max) = stof(argv(2)); \
115 }, sprintf(" %s %s", ftos(MY(tex_min)), ftos(MY(tex_max)) \
117 on(time, MY(time_min) || MY(time_max) \
118 ,{ demand(n == 2 && "time"); MY(time_min) = stof(argv(1)); MY(time_max) = stof(argv(2)); \
119 }, sprintf(" %s %s", ftos(MY(time_min)), ftos(MY(time_max)) \
121 on(trailspacing, MY(trailspacing) \
122 ,{ demand(n == 1 && "trailspacing"); MY(trailspacing) = stof(argv(1)); \
123 }, sprintf(" %s", ftos(MY(trailspacing)) \
125 on(underwater, MY(underwater) \
126 ,{ demand(n == 0 && "underwater"); MY(underwater) = true; \
129 on(velocityjitter, MY(velocityjitter) \
130 ,{ demand(n == 3 && "velocityjitter"); MY(velocityjitter) = vec3(stof(argv(1)), stof(argv(2)), stof(argv(3))); \
131 }, sprintf(" %v", (MY(velocityjitter)) \
133 on(velocitymultiplier, MY(velocitymultiplier) \
134 ,{ demand(n == 1 && "velocitymultiplier"); MY(velocitymultiplier) = stof(argv(1)); \
135 }, sprintf(" %s", ftos(MY(velocitymultiplier)) \
137 on(velocityoffset, MY(velocityoffset) \
138 ,{ demand(n == 3 && "velocityoffset"); MY(velocityoffset) = vec3(stof(argv(1)), stof(argv(2)), stof(argv(3))); \
139 }, sprintf(" %v", (MY(velocityoffset)) \
143 CLASS(EffectInfo, Object)
144 ATTRIB(EffectInfo, effectinfo_name, string);
145 CONSTRUCTOR(EffectInfo, string s) {
146 CONSTRUCT(EffectInfo);
147 this.effectinfo_name = s;
151 MY(airfriction, float, 0) \
152 MY(alpha_min, float, 0) \
153 MY(alpha_max, float, 0) \
154 MY(alpha_fade, float, 0) \
155 MY(blend, string, string_null) \
156 MY(bounce, float, 0) \
157 MY(color_min, string, string_null) \
158 MY(color_max, string, string_null) \
159 MY(countabsolute, float, 0) \
160 MY(count, float, 0) \
161 MY(gravity, float, 0) \
162 MY(lightcolor, vector, '0 0 0') \
163 MY(lightradiusfade, float, 0) \
164 MY(lightradius, float, 0) \
165 MY(lighttime, float, 0) \
166 MY(liquidfriction, float, 0) \
167 MY(notunderwater, bool, false) \
168 MY(orientation, string, string_null) \
169 MY(originjitter, vector, '0 0 0') \
170 MY(originoffset, vector, '0 0 0') \
171 MY(relativeoriginoffset, vector, '0 0 0') \
172 MY(relativevelocityoffset, vector, '0 0 0') \
173 MY(startangle_min, float, 0) \
174 MY(startangle_max, float, 0) \
175 MY(spin_min, float, 0) \
176 MY(spin_max, float, 0) \
177 MY(sizeincrease, float, 0) \
178 MY(size_min, float, 0) \
179 MY(size_max, float, 0) \
180 MY(staincolor_min, string, string_null) \
181 MY(staincolor_max, string, string_null) \
182 MY(stainsize_min, float, 0) \
183 MY(stainsize_max, float, 0) \
184 MY(staintex_min, float, 0) \
185 MY(staintex_max, float, 0) \
186 MY(stretchfactor, float, 0) \
187 MY(tex_min, float, 0) \
188 MY(tex_max, float, 0) \
189 MY(time_min, float, 0) \
190 MY(time_max, float, 0) \
191 MY(trailspacing, float, 0) \
192 MY(type, string, string_null) \
193 MY(underwater, bool, false) \
194 MY(velocityjitter, vector, '0 0 0') \
195 MY(velocitymultiplier, float, 0) \
196 MY(velocityoffset, vector, '0 0 0') \
199 #define MY(f, type, val) ATTRIB(EffectInfo, effectinfo_##f, type, val);
203 METHOD(EffectInfo, describe, string(EffectInfo this))
205 TC(EffectInfo, this);
206 string s = sprintf("SUB(%s) {\n", this.effectinfo_name);
207 #define str_bool(it) (it ? "true" : "false")
208 #define str_float(it) ftos(it)
209 #define str_vector(it) vtos(it)
210 #define str_string(it) strcat("\"", it, "\"")
211 #define p(f, type, default) if (this.effectinfo_##f) { s = strcat(s, "\t", "MY("#f") = ", str_##type(this.effectinfo_##f), ";\n"); }
214 return strcat(s, "}\n");
217 METHOD(EffectInfo, dump, string(EffectInfo this))
219 TC(EffectInfo, this);
220 string s = sprintf("effect %s\n", this.effectinfo_name);
221 #define MY(f) this.effectinfo_##f
222 #define p(k, isset, parse, unparse) if (isset) { s = strcat(s, "\t", #k, unparse, "\n"); }
223 EFFECTINFO_PARSER(p, MY)
232 CLASS(EffectInfoGroup, Object)
233 ATTRIBARRAY(EffectInfoGroup, children, EffectInfo, 16);
234 ATTRIB(EffectInfoGroup, children_count, int, 0);
235 ENDCLASS(EffectInfoGroup)
237 void effectinfo_read()
239 int fh = fopen("effectinfo.txt", FILE_READ);
240 EffectInfo info = NULL;
241 for (string line; (line = fgets(fh)); ) {
242 int n = tokenize_console(line);
243 if (n == 0) continue;
248 info = NEW(EffectInfo, strzone(argv(1)));
251 demand(info != NULL);
253 #define MY(f) info.effectinfo_##f
254 #define p(k, isset, parse, unparse) case #k: parse break;
255 EFFECTINFO_PARSER(p, MY)
259 LOG_WARNF("Unknown property '%s'", k);
266 void effectinfo_dump(int fh, bool alsoprint)
268 #define WRITE(str) write_String_To_File(fh, str, alsoprint)
270 "// ********************************************** //\n"
271 "// ** WARNING - DO NOT MANUALLY EDIT THIS FILE ** //\n"
273 "// ** This file is automatically generated by ** //\n"
274 "// ** code with the command 'dumpeffectinfo'. ** //\n"
276 "// ** If you modify an effect, please ** //\n"
277 "// ** regenerate this file with that command. ** //\n"
279 "// ********************************************** //\n"
282 for (EffectInfo it = NULL; (it = findfloat(it, instanceOfEffectInfo, true)); ) {
283 if (it.classname == "vtbl") continue;
284 string s = it.dump(it);
290 #define DEFAULT_FILENAME "effectinfo_dump.txt"
291 // NOTE: dumpeffectinfo, dumpnotifs, dumpturrets and dumpweapons use similar code
292 GENERIC_COMMAND(dumpeffectinfo, "Dump all effectinfo into " DEFAULT_FILENAME, false)
295 case CMD_REQUEST_COMMAND: {
296 string filename = argv(1);
297 bool alsoprint = false;
298 if (filename == "") {
299 filename = DEFAULT_FILENAME;
301 } else if (filename == "-") {
302 filename = DEFAULT_FILENAME;
305 int fh = fopen(filename, FILE_WRITE);
307 effectinfo_dump(fh, alsoprint);
308 LOG_INFOF("Dumping effectinfo... File located at ^2data/data/%s^7.", filename);
309 LOG_INFOF("Reload with ^2cl_particles_reloadeffects data/%s^7.", filename);
312 LOG_WARNF("Could not open file '%s'!", filename);
317 case CMD_REQUEST_USAGE: {
318 LOG_HELP("Usage:^3 ", GetProgramCommandPrefix(), " dumpeffectinfo [<filename>]");
319 LOG_HELPF(" Where <filename> is the file to write (default is %s),", DEFAULT_FILENAME);
320 LOG_HELP(" if supplied with '-' output to console as well as default,");
321 LOG_HELP(" if left blank, it will only write to default.");
326 #undef DEFAULT_FILENAME
329 REGISTRY(EffectInfos, BITS(9))
330 REGISTER_REGISTRY(EffectInfos)
332 REGISTRY_DEFINE_GET(EffectInfos, NULL)
333 #define EFFECTINFO(name) \
334 ACCUMULATE void effectinfo_##name(EffectInfoGroup parent, EffectInfo this) { } \
335 REGISTER(EffectInfos, EFFECTINFO, name, m_id, NEW(EffectInfoGroup)) { \
336 effectinfo_##name(this, NULL); \
339 #define MY(f) this.effectinfo_##f
340 #define DEF(name) EFFECTINFO(name)
342 ACCUMULATE void effectinfo_##name(EffectInfoGroup parent, EffectInfo this) { parent = EFFECTINFO_##name; parent.children[parent.children_count++] = this = NEW(EffectInfo, #name); } \
343 ACCUMULATE void effectinfo_##name(EffectInfoGroup parent, EffectInfo this)
344 #include "effectinfo.inc"