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Vehicle-cpp
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hkpc
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software
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sympy
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stats
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sampling
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sample_numpy.py

sample_numpy.py 4.1 KB
文件歷史 原始文件

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  1. from functools import singledispatch
    2. 

  2. 

  3. from sympy.external import import_module
    4. 

  4. from sympy.stats.crv_types import BetaDistribution, ChiSquaredDistribution, ExponentialDistribution, GammaDistribution, \
    5. 

  5.     LogNormalDistribution, NormalDistribution, ParetoDistribution, UniformDistribution, FDistributionDistribution, GumbelDistribution, LaplaceDistribution, \
    6. 

  6.     LogisticDistribution, RayleighDistribution, TriangularDistribution
    7. 

  7. from sympy.stats.drv_types import GeometricDistribution, PoissonDistribution, ZetaDistribution
    8. 

  8. from sympy.stats.frv_types import BinomialDistribution, HypergeometricDistribution
    9. 

  9. 

  10. 

  11. numpy = import_module('numpy')
    12. 

  12. 

  13. 

  14. @singledispatch
    15. 

  15. def do_sample_numpy(dist, size, rand_state):
    16. 

  16.     return None
    17. 

  17. 

  18. 

  19. # CRV:
    20. 

  20. 

  21. @do_sample_numpy.register(BetaDistribution)
    22. 

  22. def _(dist: BetaDistribution, size, rand_state):
    23. 

  23.     return rand_state.beta(a=float(dist.alpha), b=float(dist.beta), size=size)
    24. 

  24. 

  25. 

  26. @do_sample_numpy.register(ChiSquaredDistribution)
    27. 

  27. def _(dist: ChiSquaredDistribution, size, rand_state):
    28. 

  28.     return rand_state.chisquare(df=float(dist.k), size=size)
    29. 

  29. 

  30. 

  31. @do_sample_numpy.register(ExponentialDistribution)
    32. 

  32. def _(dist: ExponentialDistribution, size, rand_state):
    33. 

  33.     return rand_state.exponential(1 / float(dist.rate), size=size)
    34. 

  34. 

  35. @do_sample_numpy.register(FDistributionDistribution)
    36. 

  36. def _(dist: FDistributionDistribution, size, rand_state):
    37. 

  37.     return rand_state.f(dfnum = float(dist.d1), dfden = float(dist.d2), size=size)
    38. 

  38. 

  39. @do_sample_numpy.register(GammaDistribution)
    40. 

  40. def _(dist: GammaDistribution, size, rand_state):
    41. 

  41.     return rand_state.gamma(shape = float(dist.k), scale = float(dist.theta), size=size)
    42. 

  42. 

  43. @do_sample_numpy.register(GumbelDistribution)
    44. 

  44. def _(dist: GumbelDistribution, size, rand_state):
    45. 

  45.     return rand_state.gumbel(loc = float(dist.mu), scale = float(dist.beta), size=size)
    46. 

  46. 

  47. @do_sample_numpy.register(LaplaceDistribution)
    48. 

  48. def _(dist: LaplaceDistribution, size, rand_state):
    49. 

  49.     return rand_state.laplace(loc = float(dist.mu), scale = float(dist.b), size=size)
    50. 

  50. 

  51. @do_sample_numpy.register(LogisticDistribution)
    52. 

  52. def _(dist: LogisticDistribution, size, rand_state):
    53. 

  53.     return rand_state.logistic(loc = float(dist.mu), scale = float(dist.s), size=size)
    54. 

  54. 

  55. @do_sample_numpy.register(LogNormalDistribution)
    56. 

  56. def _(dist: LogNormalDistribution, size, rand_state):
    57. 

  57.     return rand_state.lognormal(mean = float(dist.mean), sigma = float(dist.std), size=size)
    58. 

  58. 

  59. @do_sample_numpy.register(NormalDistribution)
    60. 

  60. def _(dist: NormalDistribution, size, rand_state):
    61. 

  61.     return rand_state.normal(loc = float(dist.mean), scale = float(dist.std), size=size)
    62. 

  62. 

  63. @do_sample_numpy.register(RayleighDistribution)
    64. 

  64. def _(dist: RayleighDistribution, size, rand_state):
    65. 

  65.     return rand_state.rayleigh(scale = float(dist.sigma), size=size)
    66. 

  66. 

  67. @do_sample_numpy.register(ParetoDistribution)
    68. 

  68. def _(dist: ParetoDistribution, size, rand_state):
    69. 

  69.     return (numpy.random.pareto(a=float(dist.alpha), size=size) + 1) * float(dist.xm)
    70. 

  70. 

  71. @do_sample_numpy.register(TriangularDistribution)
    72. 

  72. def _(dist: TriangularDistribution, size, rand_state):
    73. 

  73.     return rand_state.triangular(left = float(dist.a), mode = float(dist.b), right = float(dist.c), size=size)
    74. 

  74. 

  75. @do_sample_numpy.register(UniformDistribution)
    76. 

  76. def _(dist: UniformDistribution, size, rand_state):
    77. 

  77.     return rand_state.uniform(low=float(dist.left), high=float(dist.right), size=size)
    78. 

  78. 

  79. 

  80. # DRV:
    81. 

  81. 

  82. @do_sample_numpy.register(GeometricDistribution)
    83. 

  83. def _(dist: GeometricDistribution, size, rand_state):
    84. 

  84.     return rand_state.geometric(p=float(dist.p), size=size)
    85. 

  85. 

  86. 

  87. @do_sample_numpy.register(PoissonDistribution)
    88. 

  88. def _(dist: PoissonDistribution, size, rand_state):
    89. 

  89.     return rand_state.poisson(lam=float(dist.lamda), size=size)
    90. 

  90. 

  91. 

  92. @do_sample_numpy.register(ZetaDistribution)
    93. 

  93. def _(dist: ZetaDistribution, size, rand_state):
    94. 

  94.     return rand_state.zipf(a=float(dist.s), size=size)
    95. 

  95. 

  96. 

  97. # FRV:
    98. 

  98. 

  99. @do_sample_numpy.register(BinomialDistribution)
    100. 

  100. def _(dist: BinomialDistribution, size, rand_state):
    101. 

  101.     return rand_state.binomial(n=int(dist.n), p=float(dist.p), size=size)
    102. 

  102. 

  103. @do_sample_numpy.register(HypergeometricDistribution)
    104. 

  104. def _(dist: HypergeometricDistribution, size, rand_state):
    105. 

  105.     return rand_state.hypergeometric(ngood = int(dist.N), nbad = int(dist.m), nsample = int(dist.n), size=size)
    106.