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#include "format.h"
#include "output.h"

#include <util/generic/ymath.h>
#include <util/string/cast.h>

namespace NFormatPrivate { 
    static inline i64 Round(double value) { 
        double res1 = floor(value); 
        double res2 = ceil(value); 
        return (value - res1 < res2 - value) ? (i64)res1 : (i64)res2;
    } 
 
    static inline IOutputStream& PrintDoubleShortly(IOutputStream& os, const double& d) {
        // General case: request 3 significant digits
        // Side-effect: allows exponential representation
        EFloatToStringMode mode = PREC_NDIGITS;
        int ndigits = 3;

        if (IsValidFloat(d) && Abs(d) < 1e12) {
            // For reasonably-sized finite values, it's better to avoid
            // exponential representation.
            // Use compact fixed representation and determine
            // precision based on magnitude.
            mode = PREC_POINT_DIGITS_STRIP_ZEROES;
            if (i64(Abs(d) * 100) < 1000) {
                ndigits = 2;
            } else if (i64(Abs(d) * 10) < 1000) {
                ndigits = 1;
            } else {
                ndigits = 0;
            }
        }

        return os << Prec(d, mode, ndigits);
    } 
}
 
template <>
void Out<NFormatPrivate::THumanReadableSize>(IOutputStream& stream, const NFormatPrivate::THumanReadableSize& value) {
    ui64 base = value.Format == SF_BYTES ? 1024 : 1000;
    ui64 base2 = base * base;
    ui64 base3 = base * base2;
    ui64 base4 = base * base3;
 
    double v = value.Value; 
    if (v < 0) { 
        stream << "-"; 
        v = -v; 
    } 
 
    if (v < base) { 
        NFormatPrivate::PrintDoubleShortly(stream, v); 
    } else if (v < base2) {
        NFormatPrivate::PrintDoubleShortly(stream, v / (double)base) << 'K'; 
    } else if (v < base3) {
        NFormatPrivate::PrintDoubleShortly(stream, v / (double)base2) << 'M'; 
    } else if (v < base4) {
        NFormatPrivate::PrintDoubleShortly(stream, v / (double)base3) << 'G'; 
    } else { 
        NFormatPrivate::PrintDoubleShortly(stream, v / (double)base4) << 'T'; 
    } 
 
    if (value.Format == SF_BYTES) {
        if (v < base) { 
            stream << "B";
        } else {
            stream << "iB";
        }
    }
} 
 
template <>
void Out<NFormatPrivate::THumanReadableDuration>(IOutputStream& os, const NFormatPrivate::THumanReadableDuration& hr) {
    TTempBuf buf; 
    TMemoryOutput ss(buf.Data(), buf.Size()); 
 
    do { 
        ui64 microSeconds = hr.Value.MicroSeconds(); 
        if (microSeconds < 1000) { 
            ss << microSeconds << "us"; 
            break; 
        } 
        if (microSeconds < 1000 * 1000) { 
            NFormatPrivate::PrintDoubleShortly(ss, (double)microSeconds / 1000.0) << "ms";
            break; 
        } 
 
        double seconds = (double)(hr.Value.MilliSeconds()) / 1000.0;
        if (seconds < 60) { 
            NFormatPrivate::PrintDoubleShortly(ss, seconds) << 's'; 
            break; 
        } 
 
        ui64 s = NFormatPrivate::Round(seconds * 1000 + 0.5) / 1000; 
 
        ui64 m = s / 60; 
        s = s % 60; 
 
        ui64 h = m / 60; 
        m = m % 60; 
 
        ui64 d = h / 24; 
        h = h % 24; 
 
        ui64 times[] = {d, h, m, s}; 
        char names[] = {'d', 'h', 'm', 's'}; 
        bool first = true; 
 
        for (size_t i = 0; i < Y_ARRAY_SIZE(times); ++i) {
            if (times[i] > 0) { 
                if (!first) {
                    ss << ' '; 
                }
                ss << times[i] << names[i]; 
                first = false; 
            } 
        } 
    } while (false); 
 
    size_t written = buf.Size() - ss.Avail(); 
    os.Write(buf.Data(), written); 
} 
 
void Time(IOutputStream& l) {
    l << millisec();
}

void TimeHumanReadable(IOutputStream& l) {
    char timeStr[30];
    const time_t t = time(nullptr);

    l << ctime_r(&t, timeStr);
}