5 // ===============================================
6 // Time processing and counting functions/macros
7 // ===============================================
9 #define count_years_decs(time, decs) sprintf(CTX(_("CI_DEC^%s years")), ftos_decimals(time, decs))
10 #define count_years(time) \
12 _("CI_ZER^%d years"), /* zeroth */ \
13 _("CI_FIR^%d year"), /* first */ \
14 _("CI_SEC^%d years"), /* year */ \
15 _("CI_THI^%d years"), /* third */ \
16 _("CI_MUL^%d years")) /* multi */
18 #define count_weeks_decs(time, decs) sprintf(CTX(_("CI_DEC^%s weeks")), ftos_decimals(time, decs))
19 #define count_weeks(time) \
21 _("CI_ZER^%d weeks"), /* zeroth */ \
22 _("CI_FIR^%d week"), /* first */ \
23 _("CI_SEC^%d weeks"), /* week */ \
24 _("CI_THI^%d weeks"), /* third */ \
25 _("CI_MUL^%d weeks")) /* multi */
27 #define count_days_decs(time, decs) sprintf(CTX(_("CI_DEC^%s days")), ftos_decimals(time, decs))
28 #define count_days(time) \
30 _("CI_ZER^%d days"), /* zeroth */ \
31 _("CI_FIR^%d day"), /* first */ \
32 _("CI_SEC^%d days"), /* day */ \
33 _("CI_THI^%d days"), /* third */ \
34 _("CI_MUL^%d days")) /* multi */
36 #define count_hours_decs(time, decs) sprintf(CTX(_("CI_DEC^%s hours")), ftos_decimals(time, decs))
37 #define count_hours(time) \
39 _("CI_ZER^%d hours"), /* zeroth */ \
40 _("CI_FIR^%d hour"), /* first */ \
41 _("CI_SEC^%d hours"), /* hour */ \
42 _("CI_THI^%d hours"), /* third */ \
43 _("CI_MUL^%d hours")) /* multi */
46 #define count_minutes_decs(time, decs) sprintf(CTX(_("CI_DEC^%s minutes")), ftos_decimals(time, decs))
47 #define count_minutes(time) \
49 _("CI_ZER^%d minutes"), /* zeroth */ \
50 _("CI_FIR^%d minute"), /* first */ \
51 _("CI_SEC^%d minutes"), /* minute */ \
52 _("CI_THI^%d minutes"), /* third */ \
53 _("CI_MUL^%d minutes")) /* multi */
55 #define count_seconds_decs(time, decs) sprintf(CTX(_("CI_DEC^%s seconds")), ftos_decimals(time, decs))
56 #define count_seconds(time) \
58 _("CI_ZER^%d seconds"), /* zeroth */ \
59 _("CI_FIR^%d second"), /* first */ \
60 _("CI_SEC^%d seconds"), /* second */ \
61 _("CI_THI^%d seconds"), /* third */ \
62 _("CI_MUL^%d seconds")) /* multi */
65 string count_ordinal(int interval)
67 // This function is designed primarily for the English language, it's impossible
68 // to accomodate all languages unless we do a specific function for each one...
69 // and since that's not technically feasible/practical, this is all we've got folks.
71 // Basically, it just allows you to represent a number or count in different ways
72 // depending on the number... like, with count_ordinal you can provide integers
73 // and retrieve 1st, 2nd, 3rd, nth ordinal numbers in a clean and simple way.
74 if (floor((interval % 100) / 10) * 10 != 10) // examples: 12th, 111th, 213th will not execute this block
76 // otherwise, check normally for 1st,2nd,3rd insertions
77 switch (interval % 10)
79 case 1: return sprintf(_("%dst"), interval);
80 case 2: return sprintf(_("%dnd"), interval);
81 case 3: return sprintf(_("%drd"), interval);
82 default: return sprintf(_("%dth"), interval);
85 else { return sprintf(_("%dth"), interval); }
91 string count_fill(float interval, string zeroth, string first, string second, string third, string multi)
93 // This function is designed primarily for the English language, it's impossible
94 // to accomodate all languages unless we do a specific function for each one...
95 // and since that's not technically feasible/practical, this is all we've got folks.
97 // Here you can insert specific strings based on the interval number, so you could do
98 // i.e. count_seconds which outputs like this:
103 // etc... minutes, hours, days, etc.
105 switch (floor(interval))
107 case 0: return sprintf(CTX(zeroth), interval);
110 if (interval == 1) // EXACTLY value of 1
111 return sprintf(CTX(first), interval);
112 else return sprintf(CTX(multi), interval);
114 case 2: return sprintf(CTX(second), interval);
115 case 3: return sprintf(CTX(third), interval);
116 default: return sprintf(CTX(multi), interval);
122 string process_time(float outputtype, float seconds)
124 float tmp_hours = 0, tmp_minutes = 0, tmp_seconds = 0;
125 float tmp_years = 0, tmp_weeks = 0, tmp_days = 0;
127 tmp_seconds = floor(seconds);
131 tmp_minutes = floor(tmp_seconds / 60);
135 tmp_seconds -= (tmp_minutes * 60);
136 tmp_hours = floor(tmp_minutes / 60);
140 tmp_minutes -= (tmp_hours * 60);
141 tmp_days = floor(tmp_hours / 24);
145 tmp_hours -= (tmp_days * 24);
146 tmp_weeks = floor(tmp_days / 7);
150 tmp_days -= (tmp_weeks * 7);
151 tmp_years = floor(tmp_weeks / 52);
160 case 1: return sprintf("%02d:%02d:%02d", tmp_hours, tmp_minutes, tmp_seconds);
165 output = count_seconds(tmp_seconds);
170 count_minutes(tmp_minutes),
171 ((output != "") ? strcat(", ", output) : ""));
177 count_hours(tmp_hours),
178 ((output != "") ? strcat(", ", output) : ""));
184 count_days(tmp_days),
185 ((output != "") ? strcat(", ", output) : ""));
191 count_weeks(tmp_weeks),
192 ((output != "") ? strcat(", ", output) : ""));
198 count_years(tmp_years),
199 ((output != "") ? strcat(", ", output) : ""));
208 output = count_hours(tmp_hours);
210 if (tmp_weeks) tmp_days += (tmp_weeks * 7);
211 if (tmp_years) tmp_days += (tmp_years * 365);
215 count_days(tmp_days),
216 ((output != "") ? strcat(", ", output) : ""));