random/internal/chi_square.cc

*9356374aSAndroid Build Coastguard Worker// Copyright 2017 The Abseil Authors.
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Worker// Licensed under the Apache License, Version 2.0 (the "License");
*9356374aSAndroid Build Coastguard Worker// you may not use this file except in compliance with the License.
*9356374aSAndroid Build Coastguard Worker// You may obtain a copy of the License at
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Worker//      https://www.apache.org/licenses/LICENSE-2.0
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Worker// Unless required by applicable law or agreed to in writing, software
*9356374aSAndroid Build Coastguard Worker// distributed under the License is distributed on an "AS IS" BASIS,
*9356374aSAndroid Build Coastguard Worker// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
*9356374aSAndroid Build Coastguard Worker// See the License for the specific language governing permissions and
*9356374aSAndroid Build Coastguard Worker// limitations under the License.
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker#include "absl/random/internal/chi_square.h"
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker#include <cmath>
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker#include "absl/random/internal/distribution_test_util.h"
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Workernamespace absl {
*9356374aSAndroid Build Coastguard WorkerABSL_NAMESPACE_BEGIN
*9356374aSAndroid Build Coastguard Workernamespace random_internal {
*9356374aSAndroid Build Coastguard Workernamespace {
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker#if defined(__EMSCRIPTEN__)
*9356374aSAndroid Build Coastguard Worker// Workaround __EMSCRIPTEN__ error: llvm_fma_f64 not found.
*9356374aSAndroid Build Coastguard Workerinline double fma(double x, double y, double z) {
*9356374aSAndroid Build Coastguard Worker  return (x * y) + z;
*9356374aSAndroid Build Coastguard Worker}
*9356374aSAndroid Build Coastguard Worker#endif
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker// Use Horner's method to evaluate a polynomial.
*9356374aSAndroid Build Coastguard Workertemplate <typename T, unsigned N>
*9356374aSAndroid Build Coastguard Workerinline T EvaluatePolynomial(T x, const T (&poly)[N]) {
*9356374aSAndroid Build Coastguard Worker#if !defined(__EMSCRIPTEN__)
*9356374aSAndroid Build Coastguard Worker  using std::fma;
*9356374aSAndroid Build Coastguard Worker#endif
*9356374aSAndroid Build Coastguard Worker  T p = poly[N - 1];
*9356374aSAndroid Build Coastguard Worker  for (unsigned i = 2; i <= N; i++) {
*9356374aSAndroid Build Coastguard Worker    p = fma(p, x, poly[N - i]);
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker  return p;
*9356374aSAndroid Build Coastguard Worker}
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Workerstatic constexpr int kLargeDOF = 150;
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker// Returns the probability of a normal z-value.
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Worker// Adapted from the POZ function in:
*9356374aSAndroid Build Coastguard Worker//     Ibbetson D, Algorithm 209
*9356374aSAndroid Build Coastguard Worker//     Collected Algorithms of the CACM 1963 p. 616
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Workerdouble POZ(double z) {
*9356374aSAndroid Build Coastguard Worker  static constexpr double kP1[] = {
*9356374aSAndroid Build Coastguard Worker      0.797884560593,  -0.531923007300, 0.319152932694,
*9356374aSAndroid Build Coastguard Worker      -0.151968751364, 0.059054035642,  -0.019198292004,
*9356374aSAndroid Build Coastguard Worker      0.005198775019,  -0.001075204047, 0.000124818987,
*9356374aSAndroid Build Coastguard Worker  };
*9356374aSAndroid Build Coastguard Worker  static constexpr double kP2[] = {
*9356374aSAndroid Build Coastguard Worker      0.999936657524,  0.000535310849,  -0.002141268741, 0.005353579108,
*9356374aSAndroid Build Coastguard Worker      -0.009279453341, 0.011630447319,  -0.010557625006, 0.006549791214,
*9356374aSAndroid Build Coastguard Worker      -0.002034254874, -0.000794620820, 0.001390604284,  -0.000676904986,
*9356374aSAndroid Build Coastguard Worker      -0.000019538132, 0.000152529290,  -0.000045255659,
*9356374aSAndroid Build Coastguard Worker  };
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  const double kZMax = 6.0;  // Maximum meaningful z-value.
*9356374aSAndroid Build Coastguard Worker  if (z == 0.0) {
*9356374aSAndroid Build Coastguard Worker    return 0.5;
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker  double x;
*9356374aSAndroid Build Coastguard Worker  double y = 0.5 * std::fabs(z);
*9356374aSAndroid Build Coastguard Worker  if (y >= (kZMax * 0.5)) {
*9356374aSAndroid Build Coastguard Worker    x = 1.0;
*9356374aSAndroid Build Coastguard Worker  } else if (y < 1.0) {
*9356374aSAndroid Build Coastguard Worker    double w = y * y;
*9356374aSAndroid Build Coastguard Worker    x = EvaluatePolynomial(w, kP1) * y * 2.0;
*9356374aSAndroid Build Coastguard Worker  } else {
*9356374aSAndroid Build Coastguard Worker    y -= 2.0;
*9356374aSAndroid Build Coastguard Worker    x = EvaluatePolynomial(y, kP2);
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker  return z > 0.0 ? ((x + 1.0) * 0.5) : ((1.0 - x) * 0.5);
*9356374aSAndroid Build Coastguard Worker}
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker// Approximates the survival function of the normal distribution.
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Worker// Algorithm 26.2.18, from:
*9356374aSAndroid Build Coastguard Worker// [Abramowitz and Stegun, Handbook of Mathematical Functions,p.932]
*9356374aSAndroid Build Coastguard Worker// http://people.math.sfu.ca/~cbm/aands/abramowitz_and_stegun.pdf
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Workerdouble normal_survival(double z) {
*9356374aSAndroid Build Coastguard Worker  // Maybe replace with the alternate formulation.
*9356374aSAndroid Build Coastguard Worker  // 0.5 * erfc((x - mean)/(sqrt(2) * sigma))
*9356374aSAndroid Build Coastguard Worker  static constexpr double kR[] = {
*9356374aSAndroid Build Coastguard Worker      1.0, 0.196854, 0.115194, 0.000344, 0.019527,
*9356374aSAndroid Build Coastguard Worker  };
*9356374aSAndroid Build Coastguard Worker  double r = EvaluatePolynomial(z, kR);
*9356374aSAndroid Build Coastguard Worker  r *= r;
*9356374aSAndroid Build Coastguard Worker  return 0.5 / (r * r);
*9356374aSAndroid Build Coastguard Worker}
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker}  // namespace
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker// Calculates the critical chi-square value given degrees-of-freedom and a
*9356374aSAndroid Build Coastguard Worker// p-value, usually using bisection. Also known by the name CRITCHI.
*9356374aSAndroid Build Coastguard Workerdouble ChiSquareValue(int dof, double p) {
*9356374aSAndroid Build Coastguard Worker  static constexpr double kChiEpsilon =
*9356374aSAndroid Build Coastguard Worker      0.000001;  // Accuracy of the approximation.
*9356374aSAndroid Build Coastguard Worker  static constexpr double kChiMax =
*9356374aSAndroid Build Coastguard Worker      99999.0;  // Maximum chi-squared value.
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  const double p_value = 1.0 - p;
*9356374aSAndroid Build Coastguard Worker  if (dof < 1 || p_value > 1.0) {
*9356374aSAndroid Build Coastguard Worker    return 0.0;
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  if (dof > kLargeDOF) {
*9356374aSAndroid Build Coastguard Worker    // For large degrees of freedom, use the normal approximation by
*9356374aSAndroid Build Coastguard Worker    //     Wilson, E. B. and Hilferty, M. M. (1931)
*9356374aSAndroid Build Coastguard Worker    //                     chi^2 - mean
*9356374aSAndroid Build Coastguard Worker    //                Z = --------------
*9356374aSAndroid Build Coastguard Worker    //                        stddev
*9356374aSAndroid Build Coastguard Worker    const double z = InverseNormalSurvival(p_value);
*9356374aSAndroid Build Coastguard Worker    const double mean = 1 - 2.0 / (9 * dof);
*9356374aSAndroid Build Coastguard Worker    const double variance = 2.0 / (9 * dof);
*9356374aSAndroid Build Coastguard Worker    // Cannot use this method if the variance is 0.
*9356374aSAndroid Build Coastguard Worker    if (variance != 0) {
*9356374aSAndroid Build Coastguard Worker      double term = z * std::sqrt(variance) + mean;
*9356374aSAndroid Build Coastguard Worker      return dof * (term * term * term);
*9356374aSAndroid Build Coastguard Worker    }
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  if (p_value <= 0.0) return kChiMax;
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  // Otherwise search for the p value by bisection
*9356374aSAndroid Build Coastguard Worker  double min_chisq = 0.0;
*9356374aSAndroid Build Coastguard Worker  double max_chisq = kChiMax;
*9356374aSAndroid Build Coastguard Worker  double current = dof / std::sqrt(p_value);
*9356374aSAndroid Build Coastguard Worker  while ((max_chisq - min_chisq) > kChiEpsilon) {
*9356374aSAndroid Build Coastguard Worker    if (ChiSquarePValue(current, dof) < p_value) {
*9356374aSAndroid Build Coastguard Worker      max_chisq = current;
*9356374aSAndroid Build Coastguard Worker    } else {
*9356374aSAndroid Build Coastguard Worker      min_chisq = current;
*9356374aSAndroid Build Coastguard Worker    }
*9356374aSAndroid Build Coastguard Worker    current = (max_chisq + min_chisq) * 0.5;
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker  return current;
*9356374aSAndroid Build Coastguard Worker}
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker// Calculates the p-value (probability) of a given chi-square value
*9356374aSAndroid Build Coastguard Worker// and degrees of freedom.
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Worker// Adapted from the POCHISQ function from:
*9356374aSAndroid Build Coastguard Worker//     Hill, I. D. and Pike, M. C.  Algorithm 299
*9356374aSAndroid Build Coastguard Worker//     Collected Algorithms of the CACM 1963 p. 243
*9356374aSAndroid Build Coastguard Worker//
*9356374aSAndroid Build Coastguard Workerdouble ChiSquarePValue(double chi_square, int dof) {
*9356374aSAndroid Build Coastguard Worker  static constexpr double kLogSqrtPi =
*9356374aSAndroid Build Coastguard Worker      0.5723649429247000870717135;  // Log[Sqrt[Pi]]
*9356374aSAndroid Build Coastguard Worker  static constexpr double kInverseSqrtPi =
*9356374aSAndroid Build Coastguard Worker      0.5641895835477562869480795;  // 1/(Sqrt[Pi])
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  // For large degrees of freedom, use the normal approximation by
*9356374aSAndroid Build Coastguard Worker  //     Wilson, E. B. and Hilferty, M. M. (1931)
*9356374aSAndroid Build Coastguard Worker  // Via Wikipedia:
*9356374aSAndroid Build Coastguard Worker  //   By the Central Limit Theorem, because the chi-square distribution is the
*9356374aSAndroid Build Coastguard Worker  //   sum of k independent random variables with finite mean and variance, it
*9356374aSAndroid Build Coastguard Worker  //   converges to a normal distribution for large k.
*9356374aSAndroid Build Coastguard Worker  if (dof > kLargeDOF) {
*9356374aSAndroid Build Coastguard Worker    // Re-scale everything.
*9356374aSAndroid Build Coastguard Worker    const double chi_square_scaled = std::pow(chi_square / dof, 1.0 / 3);
*9356374aSAndroid Build Coastguard Worker    const double mean = 1 - 2.0 / (9 * dof);
*9356374aSAndroid Build Coastguard Worker    const double variance = 2.0 / (9 * dof);
*9356374aSAndroid Build Coastguard Worker    // If variance is 0, this method cannot be used.
*9356374aSAndroid Build Coastguard Worker    if (variance != 0) {
*9356374aSAndroid Build Coastguard Worker      const double z = (chi_square_scaled - mean) / std::sqrt(variance);
*9356374aSAndroid Build Coastguard Worker      if (z > 0) {
*9356374aSAndroid Build Coastguard Worker        return normal_survival(z);
*9356374aSAndroid Build Coastguard Worker      } else if (z < 0) {
*9356374aSAndroid Build Coastguard Worker        return 1.0 - normal_survival(-z);
*9356374aSAndroid Build Coastguard Worker      } else {
*9356374aSAndroid Build Coastguard Worker        return 0.5;
*9356374aSAndroid Build Coastguard Worker      }
*9356374aSAndroid Build Coastguard Worker    }
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  // The chi square function is >= 0 for any degrees of freedom.
*9356374aSAndroid Build Coastguard Worker  // In other words, probability that the chi square function >= 0 is 1.
*9356374aSAndroid Build Coastguard Worker  if (chi_square <= 0.0) return 1.0;
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  // If the degrees of freedom is zero, the chi square function is always 0 by
*9356374aSAndroid Build Coastguard Worker  // definition. In other words, the probability that the chi square function
*9356374aSAndroid Build Coastguard Worker  // is > 0 is zero (chi square values <= 0 have been filtered above).
*9356374aSAndroid Build Coastguard Worker  if (dof < 1) return 0;
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  auto capped_exp = [](double x) { return x < -20 ? 0.0 : std::exp(x); };
*9356374aSAndroid Build Coastguard Worker  static constexpr double kBigX = 20;
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  double a = 0.5 * chi_square;
*9356374aSAndroid Build Coastguard Worker  const bool even = !(dof & 1);  // True if dof is an even number.
*9356374aSAndroid Build Coastguard Worker  const double y = capped_exp(-a);
*9356374aSAndroid Build Coastguard Worker  double s = even ? y : (2.0 * POZ(-std::sqrt(chi_square)));
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  if (dof <= 2) {
*9356374aSAndroid Build Coastguard Worker    return s;
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  chi_square = 0.5 * (dof - 1.0);
*9356374aSAndroid Build Coastguard Worker  double z = (even ? 1.0 : 0.5);
*9356374aSAndroid Build Coastguard Worker  if (a > kBigX) {
*9356374aSAndroid Build Coastguard Worker    double e = (even ? 0.0 : kLogSqrtPi);
*9356374aSAndroid Build Coastguard Worker    double c = std::log(a);
*9356374aSAndroid Build Coastguard Worker    while (z <= chi_square) {
*9356374aSAndroid Build Coastguard Worker      e = std::log(z) + e;
*9356374aSAndroid Build Coastguard Worker      s += capped_exp(c * z - a - e);
*9356374aSAndroid Build Coastguard Worker      z += 1.0;
*9356374aSAndroid Build Coastguard Worker    }
*9356374aSAndroid Build Coastguard Worker    return s;
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker  double e = (even ? 1.0 : (kInverseSqrtPi / std::sqrt(a)));
*9356374aSAndroid Build Coastguard Worker  double c = 0.0;
*9356374aSAndroid Build Coastguard Worker  while (z <= chi_square) {
*9356374aSAndroid Build Coastguard Worker    e = e * (a / z);
*9356374aSAndroid Build Coastguard Worker    c = c + e;
*9356374aSAndroid Build Coastguard Worker    z += 1.0;
*9356374aSAndroid Build Coastguard Worker  }
*9356374aSAndroid Build Coastguard Worker  return c * y + s;
*9356374aSAndroid Build Coastguard Worker}
*9356374aSAndroid Build Coastguard Worker
*9356374aSAndroid Build Coastguard Worker}  // namespace random_internal
*9356374aSAndroid Build Coastguard WorkerABSL_NAMESPACE_END
*9356374aSAndroid Build Coastguard Worker}  // namespace absl