GY-63_MS5611/libraries/Histogram/histogram.cpp

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//
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// FILE: Histogram.cpp
// AUTHOR: Rob Tillaart
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// VERSION: 0.3.2
// PURPOSE: Histogram library for Arduino
// DATE: 2012-11-10
//
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// HISTORY: see changelog.md
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#include "histogram.h"
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Histogram::Histogram(const uint16_t length, float *bounds)
{
_bounds = bounds;
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_length = length + 1;
_data = (int32_t *) malloc((_length) * sizeof(int32_t));
if (_data) clear();
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else _length = 0;
_count = 0;
}
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Histogram::~Histogram()
{
if (_data) free(_data);
}
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// resets all counters to value (default 0)
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void Histogram::clear(int32_t value)
{
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for (uint16_t i = 0; i < _length; i++) _data[i] = value;
_count = 0;
}
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void Histogram::setBucket(const uint16_t index, int32_t value)
{
_data[index] = value;
};
// adds a new value to the histogram - increasing
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void Histogram::add(const float value)
{
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if (_length > 0)
{
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uint16_t index = find(value);
_data[index]++;
_count++;
}
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// return index or count.
}
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// adds a new value to the histogram - decreasing
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void Histogram::sub(const float value)
{
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if (_length > 0)
{
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uint16_t index = find(value);
_data[index]--;
_count++;
}
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// return index or count.
}
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// number of buckets
uint16_t Histogram::size()
{
return _length;
};
// number of values added to all buckets
uint32_t Histogram::count()
{
return _count;
};
// returns the count of a bucket
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int32_t Histogram::bucket(const uint16_t index)
{
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if (index > _length) return 0;
return _data[index];
}
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// returns the relative frequency of a bucket
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float Histogram::frequency(const uint16_t index)
{
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if ((_count == 0) || (_length == 0)) return NAN;
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if (index > _length) return 0; // differs from PMF()
return (1.0 * _data[index]) / _count;
}
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// EXPERIMENTAL
// returns the probability of the bucket of a value
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float Histogram::PMF(const float value)
{
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if ((_count == 0) || (_length == 0)) return NAN;
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uint16_t index = find(value);
return (1.0 * _data[index]) / _count;
}
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// EXPERIMENTAL
// returns the cumulative probability of
// values <= value
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float Histogram::CDF(const float value)
{
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if ((_count == 0) || (_length == 0)) return NAN;
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// TODO: could be done in one loop?
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uint16_t index = find(value);
int32_t sum = 0;
for (uint16_t i = 0; i <= index; i++)
{
sum += _data[i];
}
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return (1.0 * sum) / _count;
}
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// EXPERIMENTAL
// returns the value of the original array for
// which the CDF is at least prob(ability).
float Histogram::VAL(const float prob)
{
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if ((_count == 0) || (_length == 0)) return NAN;
float p = prob;
if (p < 0.0) p = 0.0;
if (p > 1.0) p = 1.0;
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float probability = p * _count;
int32_t sum = 0;
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for (uint16_t i = 0; i < _length; i++)
{
sum += _data[i];
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if (sum >= probability && (i < (_length - 1)) )
{
return _bounds[i];
}
}
return INFINITY;
}
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// returns the bucket number for value
// - binary search, more memory ; faster for #buckets > 20 ?
// uint16_t Histogram::find(const float value)
// {
// if (_length <= 0) return -1;
// uint16_t low = 0, high = _length;
// uint16_t mid;
// while (high - low > 1)
// {
// mid = (low + high)/2;
// if (_bounds[mid] > value)
// {
// high = mid;
// }
// else
// {
// low = mid;
// }
// }
// if (_bounds[mid] > value) return mid;
// return _length - 1;
// }
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// returns the bucket number for value
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uint16_t Histogram::find(const float value)
{
if (_length <= 0) return -1;
for (uint16_t i = 0; i < (_length - 1); i++)
{
if (_bounds[i] >= value)
{
return i;
}
}
return _length - 1;
}
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// returns the (first) index of the bucket with minimum value.
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uint16_t Histogram::findMin()
{
if (_length <= 0) return -1;
uint16_t index = 0;
for (uint16_t i = 1; i < _length; i++)
{
if (_data[i] < _data[index]) index = i;
}
return index;
}
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// returns the (first) index of the bucket with maximum value.
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uint16_t Histogram::findMax()
{
if (_length <= 0) return -1;
uint16_t index = 0;
for (uint16_t i = 1; i < _length; i++)
{
if (_data[i] > _data[index]) index = i;
}
return index;
}
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// returns the number of buckets above a certain level.
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uint16_t Histogram::countLevel(const int32_t level)
{
if (_length <= 0) return -1;
uint16_t buckets = 0;
for (uint16_t i = 0; i < _length; i++)
{
if (_data[i] == level) buckets++;
}
return buckets;
}
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// returns the number of buckets above a certain level.
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uint16_t Histogram::countAbove(const int32_t level)
{
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if (_length <= 0) return -1;
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uint16_t buckets = 0;
for (uint16_t i = 0; i < _length; i++)
{
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if (_data[i] > level) buckets++;
}
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return buckets;
}
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// returns the number of buckets below a certain level.
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uint16_t Histogram::countBelow(const int32_t level)
{
if (_length <= 0) return -1;
uint16_t buckets = 0;
for (uint16_t i = 0; i < _length; i++)
{
if (_data[i] < level) buckets++;
}
return buckets;
}
//////////////////////////////////////////////////////////////
//
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// DERIVED CLASS
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//
Histogram16::Histogram16(const uint16_t length, float *bounds) : Histogram(length, bounds)
{
};
Histogram8::Histogram8(const uint16_t length, float *bounds) : Histogram(length, bounds)
{
};
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// -- END OF FILE --
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