this = string_null; \
MACRO_END
+// Returns the number of days since 0000-03-01 (March 1, year 0)
+// Starting counting from March, as the 1st month of the year, February becomes the 12th and last month,
+// so its variable duration does not affect, given that the 29th is the last day of the period
ERASEABLE
-string seconds_tostring(float sec)
+int days_up_to_date(int Y, int M, int D)
{
- float minutes = floor(sec / 60);
- sec -= minutes * 60;
- return sprintf("%d:%02d", minutes, sec);
+ int years = (M <= 2) ? Y - 1 : Y;
+
+ int leap_days = floor(years / 4) - floor(years / 100) + floor(years / 400);
+
+ // using these 2 formulas to save 2 arrays or switches (performance isn't important here)
+ int months = (M <= 2) ? (M + 9) : (M - 3); // 10, 11, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9
+ int leftover_days = (M <= 2) ? (M + 5) : floor(0.58 * M - 1.1); // 6, 7, 0, 1, 1, 2, 2, 3, 4, 4, 5, 5
+
+ int month_days = 30 * months + leftover_days;
+
+ return 365 * years + month_days + D + leap_days;
+}
+
+#define DAYS_UP_TO_EPOCH 719469 // days_up_to_date(1970, 1, 1);
+
+// Returns the number of seconds since the Epoch, 1970-01-01 00:00:00 +0000 (UTC).
+// This function exists only as a replacement for strftime(false, "%s") which doesn't work
+// on Windows (%s is not supported) and at least in some linux systems doesn't return the
+// correct result
+// NOTE: at the current date, the number (string) returned by both strftime(false, "%s") and
+// strftime_s() is so high that can't be converted to int (with ftos) without precision loss
+ERASEABLE
+string strftime_s()
+{
+ string date = strftime(false, "%Y-%m-%d %H:%M:%S");
+ int i, seconds = 0;
+ i =0; int Y = stof(substring(date, i, 4)); // years
+ i+=5; int M = stof(substring(date, i, 2)); // months
+ i+=3; int D = stof(substring(date, i, 2)); // days
+
+ i+=3; seconds += stof(substring(date, i, 2)) * 60 * 60; // hours
+ i+=3; seconds += stof(substring(date, i, 2)) * 60; // minutes
+ i+=3; seconds += stof(substring(date, i, 2)); // seconds
+
+ // doing so we loose precision
+ //seconds += (days_up_to_date(Y, M, D) - DAYS_UP_TO_EPOCH) * 24 * 60 * 60;
+ //return ftos(seconds);
+
+ int days_since_epoch = days_up_to_date(Y, M, D) - DAYS_UP_TO_EPOCH;
+ // use hundreds of seconds as unit to avoid precision loss
+ int hundreds_of_seconds = days_since_epoch * 24 * 6 * 6;
+ hundreds_of_seconds += floor(seconds / 100);
+
+ // tens of seconds and seconds
+ string seconds_str = ftos(seconds % 100);
+ if ((seconds % 100) < 10)
+ seconds_str = strcat("0", seconds_str);
+
+ return strcat(ftos(hundreds_of_seconds), seconds_str);
}
+/// \param[in] seconds number of seconds, can be negative too
+/// \return time as "m:ss" string (floored)
+ERASEABLE
+string seconds_tostring(float seconds)
+{
+ bool negative = false;
+ if (seconds < 0)
+ {
+ negative = true;
+ seconds = -seconds;
+ if (floor(seconds) != seconds)
+ seconds += 1; // make floor work in the other direction
+ }
+ int minutes = floor(seconds / 60);
+ seconds -= minutes * 60;
+ if (negative)
+ return sprintf("-%d:%02d", minutes, seconds);
+ return sprintf("%d:%02d", minutes, seconds);
+}
+
+/// \param[in] tm integer clocked time in tenths or hundredths, CANNOT be negative
+/// \param[in] hundredths if true append hundredths too, otherwise only tenths
+/// \param[in] compact if true leading 0s are omitted (except the seconds unit digit)
+/// \return clocked time as "m:ss.t" or "m:ss.th" string (rounded)
+ERASEABLE
+string clockedtime_tostring(int tm, bool hundredths, bool compact)
+{
+ if (tm < 0)
+ {
+ if (compact)
+ return strcat("0.0", hundredths ? "0" : "");
+ else
+ return strcat("0:00.0", hundredths ? "0" : "");
+ }
+ int acc = hundredths ? 6000 : 600;
+ tm = floor(tm + 0.5);
+ int minutes = floor(tm / acc);
+ int tm_without_minutes = tm - minutes * acc;
+ // NOTE: the start digit of s is a placeholder and won't be displayed
+ string s = ftos(acc * 10 + tm_without_minutes);
+ if (!compact || minutes > 0)
+ return strcat(ftos(minutes), ":", substring(s, 1, 2), ".", substring(s, 3, hundredths ? 2 : 1));
+
+ int ofs = 2, digits = 1;
+ if (tm_without_minutes >= 10 * (hundredths ? 100 : 10))
+ {
+ ofs = 1;
+ digits = 2;
+ }
+ return strcat(substring(s, ofs, digits), ".", substring(s, 3, hundredths ? 2 : 1));
+
+}
+
+#define mmsst(tm, compact) clockedtime_tostring(tm, false, compact)
+#define mmssth(tm, compact) clockedtime_tostring(tm, true, compact)
+
ERASEABLE
string format_time(float seconds)
{
else return sprintf(_("%02d:%02d:%02d"), hours, minutes, seconds);
}
-ERASEABLE
-string mmsss(float tenths)
-{
- tenths = floor(tenths + 0.5);
- float minutes = floor(tenths / 600);
- tenths -= minutes * 600;
- string s = ftos(1000 + tenths);
- return strcat(ftos(minutes), ":", substring(s, 1, 2), ".", substring(s, 3, 1));
-}
-
-ERASEABLE
-string mmssss(float hundredths)
-{
- hundredths = floor(hundredths + 0.5);
- float minutes = floor(hundredths / 6000);
- hundredths -= minutes * 6000;
- string s = ftos(10000 + hundredths);
- return strcat(ftos(minutes), ":", substring(s, 1, 2), ".", substring(s, 3, 2));
-}
-
int ColorTranslateMode;
ERASEABLE
case 0xE0A0: // invisible char of the utf8 quake charmap
case 0xE020: // invisible char of the utf8 quake charmap
case 0x00A0: // NO-BREAK SPACE
- //case 0x1680: // OGHAM SPACE MARK
case 0x180E: // MONGOLIAN VOWEL SEPARATOR
case 0x2000: // EN QUAD
case 0x2001: // EM QUAD
case 0x205F: // MEDIUM MATHEMATICAL SPACE
case 0x3000: // IDEOGRAPHIC SPACE
case 0xFEFF: // ZERO WIDTH NO-BREAK SPACE
+ case 0xFFA0: // Halfwidth Hangul Filler
+ case 0x3164: // Hangul Filler
if (utf8) break;
default:
return false;