mirror of
https://github.com/titanscouting/tra-analysis.git
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259 lines
7.0 KiB
Python
259 lines
7.0 KiB
Python
# Titan Robotics Team 2022: Data Analysis Module
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# Written by Arthur Lu & Jacob Levine
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# Notes:
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# this should be imported as a python module using 'import analysis'
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# this should be included in the local directory or environment variable
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# this module has not been optimized for multhreaded computing
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# current benchmark of optimization: 1.33 times faster
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# setup:
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__version__ = "1.1.0.006"
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# changelog should be viewed using print(analysis.__changelog__)
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__changelog__ = """changelog:
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1.1.0.006:
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- removed useless try statements
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1.1.0.005:
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- removed impossible outcomes
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1.1.0.004:
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- added performance metrics (r^2, mse, rms)
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1.1.0.003:
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- resolved nopython mode for mean, median, stdev, variance
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1.1.0.002:
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- snapped (removed) majority of uneeded imports
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- forced object mode (bad) on all jit
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- TODO: stop numba complaining about not being able to compile in nopython mode
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1.1.0.001:
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- removed from sklearn import * to resolve uneeded wildcard imports
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1.1.0.000:
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- removed c_entities,nc_entities,obstacles,objectives from __all__
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- applied numba.jit to all functions
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- depreciated and removed stdev_z_split
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- cleaned up histo_analysis to include numpy and numba.jit optimizations
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- depreciated and removed all regression functions in favor of future pytorch optimizer
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- depreciated and removed all nonessential functions (basic_analysis, benchmark, strip_data)
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- optimized z_normalize using sklearn.preprocessing.normalize
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- TODO: implement kernel/function based pytorch regression optimizer
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1.0.9.000:
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- refactored
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- numpyed everything
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- removed stats in favor of numpy functions
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1.0.8.005:
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- minor fixes
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1.0.8.004:
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- removed a few unused dependencies
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1.0.8.003:
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- added p_value function
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1.0.8.002:
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- updated __all__ correctly to contain changes made in v 1.0.8.000 and v 1.0.8.001
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1.0.8.001:
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- refactors
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- bugfixes
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1.0.8.000:
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- depreciated histo_analysis_old
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- depreciated debug
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- altered basic_analysis to take array data instead of filepath
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- refactor
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- optimization
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1.0.7.002:
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- bug fixes
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1.0.7.001:
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- bug fixes
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1.0.7.000:
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- added tanh_regression (logistical regression)
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- bug fixes
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1.0.6.005:
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- added z_normalize function to normalize dataset
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- bug fixes
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1.0.6.004:
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- bug fixes
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1.0.6.003:
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- bug fixes
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1.0.6.002:
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- bug fixes
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1.0.6.001:
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- corrected __all__ to contain all of the functions
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1.0.6.000:
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- added calc_overfit, which calculates two measures of overfit, error and performance
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- added calculating overfit to optimize_regression
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1.0.5.000:
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- added optimize_regression function, which is a sample function to find the optimal regressions
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- optimize_regression function filters out some overfit funtions (functions with r^2 = 1)
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- planned addition: overfit detection in the optimize_regression function
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1.0.4.002:
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- added __changelog__
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- updated debug function with log and exponential regressions
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1.0.4.001:
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- added log regressions
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- added exponential regressions
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- added log_regression and exp_regression to __all__
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1.0.3.008:
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- added debug function to further consolidate functions
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1.0.3.007:
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- added builtin benchmark function
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- added builtin random (linear) data generation function
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- added device initialization (_init_device)
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1.0.3.006:
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- reorganized the imports list to be in alphabetical order
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- added search and regurgitate functions to c_entities, nc_entities, obstacles, objectives
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1.0.3.005:
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- major bug fixes
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- updated historical analysis
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- depreciated old historical analysis
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1.0.3.004:
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- added __version__, __author__, __all__
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- added polynomial regression
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- added root mean squared function
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- added r squared function
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1.0.3.003:
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- bug fixes
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- added c_entities
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1.0.3.002:
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- bug fixes
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- added nc_entities, obstacles, objectives
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- consolidated statistics.py to analysis.py
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1.0.3.001:
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- compiled 1d, column, and row basic stats into basic stats function
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1.0.3.000:
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- added historical analysis function
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1.0.2.xxx:
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- added z score test
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1.0.1.xxx:
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- major bug fixes
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1.0.0.xxx:
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- added loading csv
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- added 1d, column, row basic stats
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"""
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__author__ = (
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"Arthur Lu <arthurlu@ttic.edu>",
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"Jacob Levine <jlevine@ttic.edu>",
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)
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__all__ = [
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'_init_device',
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'load_csv',
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'basic_stats',
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'z_score',
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'z_normalize',
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'histo_analysis',
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'r_squared',
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'mse',
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'rms',
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# all statistics functions left out due to integration in other functions
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]
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# now back to your regularly scheduled programming:
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# imports (now in alphabetical order! v 1.0.3.006):
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import csv
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import numba
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from numba import jit
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import numpy as np
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import math
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from sklearn import metrics
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from sklearn import preprocessing
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import torch
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class error(ValueError):
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pass
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def _init_device(setting, arg): # initiates computation device for ANNs
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if setting == "cuda":
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return torch.device(setting + ":" + str(arg) if torch.cuda.is_available() else "cpu")
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elif setting == "cpu":
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return torch.device("cpu")
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else:
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raise error("specified device does not exist")
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@jit(forceobj=True)
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def load_csv(filepath):
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with open(filepath, newline='') as csvfile:
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file_array = np.array(list(csv.reader(csvfile)))
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csvfile.close()
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return file_array
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# expects 1d array
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@jit(forceobj=True)
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def basic_stats(data):
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data_t = np.array(data).astype(float)
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_mean = mean(data_t)
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_median = median(data_t)
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_stdev = stdev(data_t)
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_variance = variance(data_t)
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return _mean, _median, _stdev, _variance
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# returns z score with inputs of point, mean and standard deviation of spread
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@jit(forceobj=True)
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def z_score(point, mean, stdev):
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score = (point - mean) / stdev
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return score
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# expects 2d array, normalizes across all axes
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@jit(forceobj=True)
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def z_normalize(array, *args):
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array = np.array(array)
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for arg in args:
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array = preprocessing.normalize(array, axis = arg)
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return array
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@jit(forceobj=True)
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# expects 2d array of [x,y]
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def histo_analysis(hist_data):
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hist_data = np.array(hist_data)
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derivative = np.array(len(hist_data) - 1, dtype = float)
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t = np.diff(hist_data)
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derivative = t[1] / t[0]
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np.sort(derivative)
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return basic_stats(derivative)[0], basic_stats(derivative)[3]
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#regressions
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@jit(forceobj=True)
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def r_squared(predictions, targets): # assumes equal size inputs
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return metrics.r2_score(np.array(targets), np.array(predictions))
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@jit(forceobj=True)
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def mse(predictions, targets):
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return metrics.mean_squared_error(np.array(targets), np.array(predictions))
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@jit(forceobj=True)
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def rms(predictions, targets):
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return math.sqrt(metrics.mean_squared_error(np.array(targets), np.array(predictions)))
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@jit(nopython=True)
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def mean(data):
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return np.mean(data)
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@jit(nopython=True)
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def median(data):
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return np.median(data)
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@jit(nopython=True)
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def stdev(data):
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return np.std(data)
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@jit(nopython=True)
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def variance(data):
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return np.var(data) |