OpenMS
MathFunctions.h
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1 // Copyright (c) 2002-present, The OpenMS Team -- EKU Tuebingen, ETH Zurich, and FU Berlin
2 // SPDX-License-Identifier: BSD-3-Clause
3 //
4 // --------------------------------------------------------------------------
5 // $Maintainer: Timo Sachsenberg$
6 // $Authors: Marc Sturm $
7 // --------------------------------------------------------------------------
8 
9 #pragma once
10 
12 #include <OpenMS/CONCEPT/Macros.h>
13 #include <OpenMS/CONCEPT/Types.h>
15 
16 #include <boost/random/mersenne_twister.hpp> // for mt19937_64
17 #include <boost/random/uniform_int.hpp>
18 #include <cmath>
19 #include <utility> // for std::pair
20 
21 namespace OpenMS
22 {
30 namespace Math
31 {
32 
41  template<typename T>
42  bool extendRange(T& min, T& max, const T& value)
43  {
44  if (value < min)
45  {
46  min = value;
47  return true;
48  }
49  if (value > max)
50  {
51  max = value;
52  return true;
53  }
54  return false;
55  }
56 
62  template<typename T>
63  bool contains(T value, T min, T max)
64  {
65  return min <= value && value <= max;
66  }
67 
88  inline std::pair<double, double> zoomIn(const double left, const double right, const float factor, const float align)
89  {
90  OPENMS_PRECONDITION(factor >= 0, "Factor must be >=0")
91  OPENMS_PRECONDITION(align >= 0, "align must be >=0")
92  OPENMS_PRECONDITION(align <= 1, "align must be <=1")
93  std::pair<double, double> res;
94  auto old_width = right - left;
95  auto offset_left = (1.0f - factor) * old_width * align;
96  res.first = left + offset_left;
97  res.second = res.first + old_width * factor;
98  return res;
99  }
100 
101  using BinContainer = std::vector<RangeBase>;
117  inline BinContainer createBins(double min, double max, uint32_t number_of_bins, double extend_margin = 0)
118  {
119  OPENMS_PRECONDITION(number_of_bins >= 1, "Number of bins must be >= 1")
120  OPENMS_PRECONDITION(min < max, "Require min < max");
121  std::vector<RangeBase> res(number_of_bins);
122  const double bin_width = (max - min) / number_of_bins;
123  for (uint32_t i = 0; i < number_of_bins; ++i)
124  {
125  res[i] = RangeBase(min + i * bin_width, min + (i + 1) * bin_width);
126  res[i].extendLeftRight(extend_margin);
127  }
128  res.front().setMin(min); // undo potential margin
129  res.back().setMax(max); // undo potential margin
130 
131  return res;
132  }
133 
134 
146  inline double ceilDecimal(double x, int decPow)
147  {
148  return (ceil(x / pow(10.0, decPow))) * pow(10.0, decPow); // decimal shift right, ceiling, decimal shift left
149  }
150 
161  inline double roundDecimal(double x, int decPow)
162  {
163  if (x > 0) return (floor(0.5 + x / pow(10.0, decPow))) * pow(10.0, decPow);
164 
165  return -((floor(0.5 + fabs(x) / pow(10.0, decPow))) * pow(10.0, decPow));
166  }
167 
173  inline double intervalTransformation(double x, double left1, double right1, double left2, double right2)
174  {
175  return left2 + (x - left1) * (right2 - left2) / (right1 - left1);
176  }
177 
185  inline double linear2log(double x)
186  {
187  return log10(x + 1); //+1 to avoid negative logarithms
188  }
189 
197  inline double log2linear(double x)
198  {
199  return pow(10, x) - 1;
200  }
201 
207  inline bool isOdd(UInt x)
208  {
209  return (x & 1) != 0;
210  }
211 
217  template<typename T>
218  T round(T x)
219  {
220  if (x >= T(0)) { return T(floor(x + T(0.5))); }
221  else { return T(ceil(x - T(0.5))); }
222  }
223 
229  inline bool approximatelyEqual(double a, double b, double tol)
230  {
231  return std::fabs(a - b) <= tol;
232  }
233 
242  template<typename T>
243  T gcd(T a, T b)
244  {
245  T c;
246  while (b != 0)
247  {
248  c = a % b;
249  a = b;
250  b = c;
251  }
252  return a;
253  }
254 
267  template<typename T>
268  T gcd(T a, T b, T& u1, T& u2)
269  {
270  u1 = 1;
271  u2 = 0;
272  T u3 = a;
273 
274  T v1 = 0;
275  T v2 = 1;
276  T v3 = b;
277 
278  while (v3 != 0)
279  {
280  T q = u3 / v3;
281  T t1 = u1 - v1 * q;
282  T t2 = u2 - v2 * q;
283  T t3 = u3 - v3 * q;
284 
285  u1 = v1;
286  u2 = v2;
287  u3 = v3;
288 
289  v1 = t1;
290  v2 = t2;
291  v3 = t3;
292  }
293 
294  return u3;
295  }
296 
306  template<typename T>
307  T getPPM(T mz_obs, T mz_ref)
308  {
309  return (mz_obs - mz_ref) / mz_ref * 1e6;
310  }
311 
321  template<typename T>
322  T getPPMAbs(T mz_obs, T mz_ref)
323  {
324  return std::fabs(getPPM(mz_obs, mz_ref));
325  }
326 
336  template<typename T>
337  T ppmToMass(T ppm, T mz_ref)
338  {
339  return (ppm / T(1e6)) * mz_ref;
340  }
341 
342  /*
343  @brief Compute the absolute mass diff in [Th], given a ppm value and a reference point.
344 
345  The returned mass diff is always positive!
346 
347  @param ppm Parts-per-million error
348  @param mz_ref Reference m/z
349  @return The absolute mass diff in [Th]
350  */
351  template<typename T>
352  T ppmToMassAbs(T ppm, T mz_ref)
353  {
354  return std::fabs(ppmToMass(ppm, mz_ref));
355  }
356 
370  inline std::pair<double, double> getTolWindow(double val, double tol, bool ppm)
371  {
372  double left, right;
373 
374  if (ppm)
375  {
376  left = val - val * tol * 1e-6;
377  right = val / (1.0 - tol * 1e-6);
378  }
379  else
380  {
381  left = val - tol;
382  right = val + tol;
383  }
384 
385  return std::make_pair(left, right);
386  }
387 
391  template<typename T1>
392  typename T1::value_type quantile(const T1& x, double q)
393  {
394  if (x.empty()) throw Exception::InvalidParameter(__FILE__, __LINE__, OPENMS_PRETTY_FUNCTION, "Quantile requested from empty container.");
395  if (q < 0.0) q = 0.;
396  if (q > 1.0) q = 1.;
397 
398  const auto n = x.size();
399  const auto id = std::max(0., n * q - 1); // -1 for c++ index starting at 0
400  const auto lo = floor(id);
401  const auto hi = ceil(id);
402  const auto qs = x[lo];
403  const auto h = (id - lo);
404 
405  return (1.0 - h) * qs + h * x[hi];
406  }
407 
408  // portable random shuffle
409  class OPENMS_DLLAPI RandomShuffler
410  {
411  public:
412  explicit RandomShuffler(int seed): rng_(boost::mt19937_64(seed))
413  {
414  }
415 
416  explicit RandomShuffler(const boost::mt19937_64& mt_rng): rng_(mt_rng)
417  {
418  }
419 
420  RandomShuffler() = default;
421  ~RandomShuffler() = default;
422 
423  boost::mt19937_64 rng_;
424  template<class RandomAccessIterator>
425  void portable_random_shuffle(RandomAccessIterator first, RandomAccessIterator last)
426  {
427  for (auto i = (last - first) - 1; i > 0; --i) // OMS_CODING_TEST_EXCLUDE
428  {
429  boost::uniform_int<decltype(i)> d(0, i);
430  std::swap(first[i], first[d(rng_)]);
431  }
432  }
433 
434  void seed(uint64_t val)
435  {
436  rng_.seed(val);
437  }
438  };
439 } // namespace Math
440 } // namespace OpenMS
Exception indicating that an invalid parameter was handed over to an algorithm.
Definition: Exception.h:316
Definition: MathFunctions.h:410
RandomShuffler(int seed)
Definition: MathFunctions.h:412
boost::mt19937_64 rng_
Definition: MathFunctions.h:423
void seed(uint64_t val)
Definition: MathFunctions.h:434
RandomShuffler(const boost::mt19937_64 &mt_rng)
Definition: MathFunctions.h:416
void portable_random_shuffle(RandomAccessIterator first, RandomAccessIterator last)
Definition: MathFunctions.h:425
unsigned int UInt
Unsigned integer type.
Definition: Types.h:64
#define OPENMS_PRECONDITION(condition, message)
Precondition macro.
Definition: openms/include/OpenMS/CONCEPT/Macros.h:94
T gcd(T a, T b)
Returns the greatest common divisor (gcd) of two numbers by applying the Euclidean algorithm.
Definition: MathFunctions.h:243
double intervalTransformation(double x, double left1, double right1, double left2, double right2)
transforms point x of interval [left1,right1] into interval [left2,right2]
Definition: MathFunctions.h:173
double linear2log(double x)
Transforms a number from linear to log10 scale. Avoids negative logarithms by adding 1.
Definition: MathFunctions.h:185
T round(T x)
Rounds the value.
Definition: MathFunctions.h:218
double log2linear(double x)
Transforms a number from log10 to to linear scale. Subtracts the 1 added by linear2log(double)
Definition: MathFunctions.h:197
double ceilDecimal(double x, int decPow)
rounds x up to the next decimal power 10 ^ decPow
Definition: MathFunctions.h:146
bool approximatelyEqual(double a, double b, double tol)
Returns if a is approximately equal b , allowing a tolerance of tol.
Definition: MathFunctions.h:229
double roundDecimal(double x, int decPow)
rounds x to the next decimal power 10 ^ decPow
Definition: MathFunctions.h:161
bool isOdd(UInt x)
Returns true if the given integer is odd.
Definition: MathFunctions.h:207
const double c
Definition: Constants.h:188
const double h
Definition: Constants.h:141
BinContainer createBins(double min, double max, uint32_t number_of_bins, double extend_margin=0)
Split a range [min,max] into number_of_bins (with optional overlap) and return the ranges of each bin...
Definition: MathFunctions.h:117
bool extendRange(T &min, T &max, const T &value)
Given an interval/range and a new value, extend the range to include the new value if needed.
Definition: MathFunctions.h:42
T getPPM(T mz_obs, T mz_ref)
Compute parts-per-million of two m/z values.
Definition: MathFunctions.h:307
T1::value_type quantile(const T1 &x, double q)
Returns the value of the q th quantile (0-1) in a sorted non-empty vector x.
Definition: MathFunctions.h:392
T ppmToMass(T ppm, T mz_ref)
Compute the mass diff in [Th], given a ppm value and a reference point.
Definition: MathFunctions.h:337
std::pair< double, double > zoomIn(const double left, const double right, const float factor, const float align)
Zoom into an interval [left, right], decreasing its width by factor (which must be in [0,...
Definition: MathFunctions.h:88
bool contains(T value, T min, T max)
Is a value contained in [min, max] ?
Definition: MathFunctions.h:63
T getPPMAbs(T mz_obs, T mz_ref)
Compute absolute parts-per-million of two m/z values.
Definition: MathFunctions.h:322
T ppmToMassAbs(T ppm, T mz_ref)
Definition: MathFunctions.h:352
std::pair< double, double > getTolWindow(double val, double tol, bool ppm)
Return tolerance window around val given tolerance tol.
Definition: MathFunctions.h:370
std::vector< RangeBase > BinContainer
Definition: MathFunctions.h:101
Main OpenMS namespace.
Definition: openswathalgo/include/OpenMS/OPENSWATHALGO/DATAACCESS/ISpectrumAccess.h:19
Base class for a simple range with minimum and maximum.
Definition: RangeManager.h:37