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// Copyright 2019 Google LLC
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef TimeUtils_DEFINED
#define TimeUtils_DEFINED
#include "include/core/SkTypes.h"
#include "include/private/SkFloatingPoint.h"
#include <cmath>
namespace TimeUtils {
// Returns 0 if the timer is stopped. Behavior is undefined if the timer
// has been running longer than SK_MSecMax.
static inline SkMSec NanosToMSec(double nanos) {
const double msec = nanos * 1e-6;
SkASSERT(SK_MSecMax >= msec);
return static_cast<SkMSec>(msec);
}
static inline double NanosToSeconds(double nanos) {
return nanos * 1e-9;
}
// Return the time scaled by "speed" and (if not zero) mod by period.
static inline float Scaled(float time, float speed, float period = 0) {
double value = time * speed;
if (period) {
value = ::fmod(value, (double)(period));
}
return (float)value;
}
// Transitions from ends->mid->ends linearly over period time. The phase
// specifies a phase shift in time units.
static inline float PingPong(double time,
float period,
float phase,
float ends,
float mid) {
double value = ::fmod(time + phase, period);
double half = period / 2.0;
double diff = ::fabs(value - half);
return (float)(ends + (1.0 - diff / half) * (mid - ends));
}
static inline float SineWave(double time,
float periodInSecs,
float phaseInSecs,
float min,
float max) {
if (periodInSecs < 0.f) {
return (min + max) / 2.f;
}
double t = NanosToSeconds(time) + phaseInSecs;
t *= 2 * SK_FloatPI / periodInSecs;
float halfAmplitude = (max - min) / 2.f;
return halfAmplitude * std::sin(t) + halfAmplitude + min;
}
} // namespace TimeUtils
#endif