From a0da1e58de01951a3af459788b4470f174b4af04 Mon Sep 17 00:00:00 2001 From: Antony Lewis Date: Wed, 7 Aug 2024 15:29:27 +0100 Subject: [PATCH 1/4] faster chi2 --- soliket/gaussian/gaussian_data.py | 71 +++++++++++++++---------------- 1 file changed, 35 insertions(+), 36 deletions(-) diff --git a/soliket/gaussian/gaussian_data.py b/soliket/gaussian/gaussian_data.py index 3e7a89d7..5ef2a922 100644 --- a/soliket/gaussian/gaussian_data.py +++ b/soliket/gaussian/gaussian_data.py @@ -1,53 +1,50 @@ +from typing import Optional, Sequence import numpy as np - -from scipy.linalg import LinAlgError, cholesky - -try: - import holoviews as hv -except ImportError: - pass - - -def multivariate_normal_logpdf(theory, data, cov, inv_cov, log_det): - const = np.log(2 * np.pi) * (-len(data) / 2) + log_det * (-1 / 2) - delta = data - theory - #print(const,delta,np.dot(delta, inv_cov.dot(delta))) - return -0.5 * np.dot(delta, inv_cov.dot(delta)) + const +from cobaya.likelihoods.base_classes.DataSetLikelihood import _fast_chi_square class GaussianData: - """Named multivariate gaussian data """ + Named multivariate gaussian data + """ + name: str # name identifier for the data + x: Sequence # labels for each data point + y: np.ndarray # data point values + cov: np.ndarray # covariance matrix + inv_cov: np.ndarray # inverse covariance matrix + ncovsims: Optional[int] # number of simulations used to estimate covariance + + _fast_chi_squared = _fast_chi_square() - def __init__(self, name, x, y, cov, ncovsims=None): + def __init__(self, name, x: Sequence, y: Sequence[float], cov: np.ndarray, ncovsims: Optional[int] = None): self.name = str(name) self.ncovsims = ncovsims if not (len(x) == len(y) and cov.shape == (len(x), len(x))): - raise ValueError(f"Incompatible shapes! x={x.shape}, y={y.shape}, \ + raise ValueError(f"Incompatible shapes! x={len(x)}, y={len(y)}, \ cov={cov.shape}") self.x = x - self.y = y + self.y = np.ascontiguousarray(y) self.cov = cov - try: - self.cholesky = cholesky(cov) - except LinAlgError: - raise ValueError("Covariance is not SPD!") - if ncovsims is None: - self.inv_cov = np.linalg.inv(self.cov) - else: + self.eigenevalues = np.linalg.eigvalsh(cov) + if self.eigenevalues.min() <= 0: + raise ValueError("Covariance is not positive definite!") + + self.inv_cov = np.linalg.inv(self.cov) + if ncovsims is not None: hartlap_factor = (self.ncovsims - len(x) - 2) / (self.ncovsims - 1) - self.inv_cov = hartlap_factor * np.linalg.inv(self.cov) - self.log_det = np.linalg.slogdet(self.cov)[1] + self.inv_cov *= hartlap_factor + log_det = np.log(self.eigenevalues).sum() + self.norm_const = -(np.log(2 * np.pi) * len(x) + log_det) / 2 def __len__(self): return len(self.x) def loglike(self, theory): - return multivariate_normal_logpdf(theory, self.y, self.cov, self.inv_cov, - self.log_det) + delta = self.y - theory + return -0.5 * self._fast_chi_squared(self.inv_cov, delta) + self.norm_const class MultiGaussianData(GaussianData): @@ -108,22 +105,22 @@ def loglike(self, theory): def name(self): return self.data.name - @property - def cov(self): - return self.data.cov - @property def inv_cov(self): return self.data.inv_cov @property - def log_det(self): - return self.data.log_det + def cov(self): + return self.data.cov + + @property + def norm_const(self): + return self.data.norm_const @property def labels(self): return [x for y in [[name] * len(d) for - name, d in zip(self.names, self.data_list)] for x in y] + name, d in zip(self.names, self.data_list)] for x in y] def _index_range(self, name): if name not in self.names: @@ -157,6 +154,8 @@ def _assemble_data(self): self._data = GaussianData(" + ".join(self.names), x, y, cov) def plot_cov(self, **kwargs): + import holoviews as hv + data = [ (f"{li}: {self.data.x[i]}", f"{lj}: {self.data.x[j]}", self.cov[i, j]) for i, li in zip(range(len(self.data)), self.labels) From 7e217c99dc7c8ca7bce649a9e4578c76ee684d5a Mon Sep 17 00:00:00 2001 From: Antony Lewis Date: Mon, 5 Aug 2024 17:22:44 +0100 Subject: [PATCH 2/4] misc updates for numpy 2, lint etc --- soliket/bias/bias.py | 10 ++---- soliket/cash/cash.py | 6 ++-- soliket/ccl/ccl.py | 2 +- soliket/clusters/clusters.py | 31 +++++++++---------- soliket/clusters/sz_utils.py | 15 ++++----- .../cross_correlation/cross_correlation.py | 10 ++++-- soliket/gaussian/gaussian.py | 4 +-- soliket/lensing/lensing.py | 7 ++--- soliket/xcorr/limber.py | 26 +++++++++------- 9 files changed, 56 insertions(+), 55 deletions(-) diff --git a/soliket/bias/bias.py b/soliket/bias/bias.py index d113b7b6..a605fb9f 100644 --- a/soliket/bias/bias.py +++ b/soliket/bias/bias.py @@ -26,8 +26,6 @@ function (have a look at the linear bias model for ideas). """ -from typing import Optional - import numpy as np from cobaya.theory import Theory @@ -72,10 +70,8 @@ def must_provide(self, **requirements): return needs def _get_Pk_mm(self): - for pair in self._var_pairs: - self.k, self.z, Pk_mm = \ - self.provider.get_Pk_grid(var_pair=pair, nonlinear=self.nonlinear) - + self.k, self.z, Pk_mm = \ + self.provider.get_Pk_grid(var_pair=list(self._var_pairs)[0], nonlinear=self.nonlinear) return Pk_mm def get_Pk_gg_grid(self) -> dict: @@ -93,7 +89,7 @@ class Linear_bias(Bias): """ def calculate(self, state: dict, want_derived: bool = True, - **params_values_dict) -> Optional[bool]: + **params_values_dict): Pk_mm = self._get_Pk_mm() state["Pk_gg_grid"] = params_values_dict["b_lin"] ** 2. * Pk_mm diff --git a/soliket/cash/cash.py b/soliket/cash/cash.py index 9d2e1efb..f4e134eb 100644 --- a/soliket/cash/cash.py +++ b/soliket/cash/cash.py @@ -1,11 +1,11 @@ from typing import Optional - import numpy as np from cobaya.likelihood import Likelihood - from .cash_data import CashCData +# Likelihood for independent Poisson-distributed data (here called Cash-C, see https://arxiv.org/abs/1912.05444) + class CashCLikelihood(Likelihood): name: str = "Cash-C" datapath = Optional[str] @@ -17,7 +17,7 @@ def initialize(self): def _get_data(self): data = np.loadtxt(self.datapath, unpack=False) - N = data[:, -1] # assume data stored like column_stack([z, q, N]) + N = data[:, -1] # assume data stored like column_stack([z, q, N]) x = data[:, :-1] return x, N diff --git a/soliket/ccl/ccl.py b/soliket/ccl/ccl.py index 2a5f3440..ec34bbeb 100644 --- a/soliket/ccl/ccl.py +++ b/soliket/ccl/ccl.py @@ -156,7 +156,7 @@ def get_can_support_params(self) -> Sequence[str]: return [] def calculate(self, state: dict, want_derived: bool = True, - **params_values_dict) -> bool: + **params_values_dict): # calculate the general CCL cosmo object which likelihoods can then use to get # what they need (likelihoods should cache results appropriately) # get our requirements from self.provider diff --git a/soliket/clusters/clusters.py b/soliket/clusters/clusters.py index d57dce14..ae7a5390 100644 --- a/soliket/clusters/clusters.py +++ b/soliket/clusters/clusters.py @@ -18,7 +18,6 @@ p """ import os - import numpy as np import pandas as pd from scipy.interpolate import interp1d @@ -27,7 +26,7 @@ from soliket.poisson import PoissonLikelihood from .survey import SurveyData -from .sz_utils import szutils +from .sz_utils import szutils, trapezoid from cobaya import LoggedError C_KM_S = 2.99792e5 @@ -87,15 +86,15 @@ def get_requirements(self): # "CCL": {"methods": {"sz_model": self._get_sz_model}, "kmax": 10}, } - def _get_sz_model(self, cosmo): - model = SZModel() - model.hmf = self.ccl.halos.MassFuncTinker08(cosmo, mass_def=self.mdef) - model.hmb = self.ccl.halos.HaloBiasTinker10( - cosmo, mass_def=self.mdef, mass_def_strict=False - ) - model.hmc = self.ccl.halos.HMCalculator(cosmo, model.hmf, model.hmb, self.mdef) - # model.szk = SZTracer(cosmo) - return model + # def _get_sz_model(self, cosmo): + # model = SZModel() + # model.hmf = self.ccl.halos.MassFuncTinker08(cosmo, mass_def=self.mdef) + # model.hmb = self.ccl.halos.HaloBiasTinker10( + # cosmo, mass_def=self.mdef, mass_def_strict=False + # ) + # model.hmc = self.ccl.halos.HMCalculator(cosmo, model.hmf, model.hmb, self.mdef) + # # model.szk = SZTracer(cosmo) + # return model def _get_catalog(self): self.survey = SurveyData( @@ -202,7 +201,7 @@ def Prob_per_cluster(z, tsz_signal, tsz_signal_err): dn_dzdm = 10 ** np.squeeze(dn_dzdm_interp((np.log10(HMF.M), c_z))) * h ** 4.0 - ans = np.trapz(dn_dzdm * Pfunc_ind, dx=np.diff(HMF.M, axis=0), axis=0) + ans = trapezoid(dn_dzdm * Pfunc_ind, dx=np.diff(HMF.M, axis=0), axis=0) return ans return Prob_per_cluster @@ -241,11 +240,11 @@ def _get_n_expected(self, **kwargs): for Yt, frac in zip(self.survey.Ythresh, self.survey.frac_of_survey): Pfunc = self.szutils.PfuncY(Yt, HMF.M, z_arr, param_vals, Ez_fn, DA_fn) - N_z = np.trapz( + N_z = trapezoid( dn_dzdm * Pfunc, dx=np.diff(HMF.M[:, None] / h, axis=0), axis=0 ) Ntot += ( - np.trapz(N_z * dVdz, x=z_arr) + trapezoid(N_z * dVdz, x=z_arr) * 4.0 * np.pi * self.survey.fskytotal @@ -269,9 +268,9 @@ def _test_n_tot(self, **kwargs): dn_dzdm = HMF.dn_dM(HMF.M, 500.0) * h ** 4.0 # getting rid of hs # Test Mass function against Nemo. Pfunc = 1.0 - N_z = np.trapz(dn_dzdm * Pfunc, dx=np.diff(HMF.M[:, None] / h, axis=0), axis=0) + N_z = trapezoid(dn_dzdm * Pfunc, dx=np.diff(HMF.M[:, None] / h, axis=0), axis=0) Ntot = ( - np.trapz(N_z * dVdz, x=z_arr) + trapezoid(N_z * dVdz, x=z_arr) * 4.0 * np.pi * (600.0 / (4 * np.pi * (180 / np.pi) ** 2)) diff --git a/soliket/clusters/sz_utils.py b/soliket/clusters/sz_utils.py index a84f3035..800ba181 100644 --- a/soliket/clusters/sz_utils.py +++ b/soliket/clusters/sz_utils.py @@ -8,6 +8,10 @@ """ import numpy as np +try: + from numpy import trapezoid +except ImportError: + from numpy import trapz as trapezoid from scipy import interpolate # from nemo import signals @@ -16,8 +20,6 @@ k_Boltzmann) # from astropy.cosmology import FlatLambdaCDM - - # from .clusters import C_KM_S as C_in_kms rho_crit0H100 = (3. / (8. * np.pi) * (100. * 1.e5) ** 2.) \ @@ -112,7 +114,7 @@ def P_of_gt_SN(self, LgY, MM, zz, Ynoise, param_vals, Ez_fn, Da_fn): P_Y = np.nan_to_num(self.P_Yo_vec(LgYa2, MM, zz, param_vals, Ez_fn, Da_fn)) - ans = np.trapz(P_Y * sig_thresh, x=LgY, axis=2) * np.log(10) + ans = trapezoid(P_Y * sig_thresh, x=LgY, axis=2) * np.log(10) return ans def PfuncY(self, YNoise, M, z_arr, param_vals, Ez_fn, Da_fn): @@ -126,13 +128,12 @@ def PfuncY(self, YNoise, M, z_arr, param_vals, Ez_fn, Da_fn): def P_of_Y_per(self, LgY, MM, zz, Y_c, Y_err, param_vals): P_Y_sig = np.outer(np.ones(len(MM)), self.Y_prob(Y_c, LgY, Y_err)) - LgYa = np.outer(np.ones(len(MM)), LgY) LgYa = np.outer(np.ones([MM.shape[0], MM.shape[1]]), LgY) LgYa2 = np.reshape(LgYa, (MM.shape[0], MM.shape[1], len(LgY))) P_Y = np.nan_to_num(self.P_Yo(LgYa2, MM, zz, param_vals)) - ans = np.trapz(P_Y * P_Y_sig, LgY, np.diff(LgY), axis=1) * np.log(10) + ans = trapezoid(P_Y * P_Y_sig, LgY, np.diff(LgY), axis=1) * np.log(10) return ans @@ -148,7 +149,7 @@ def Pfunc_per(self, MM, zz, Y_c, Y_err, param_vals, Ez_fn, Da_fn): P_Y_sig = self.Y_prob(Y_c, LgY, Y_err) P_Y = np.nan_to_num(self.P_Yo(LgYa, MM, zz, param_vals, Ez_fn, Da_fn)) - ans = np.trapz(P_Y * P_Y_sig, LgY, np.diff(LgY), axis=1) + ans = trapezoid(P_Y * P_Y_sig, LgY, np.diff(LgY), axis=1) return ans @@ -171,7 +172,7 @@ def Pfunc_per_parallel(self, Marr, zarr, Y_c, Y_err, param_vals, Ez_fn, Da_fn): P_Y_sig = self.Y_prob(Y_c, self.LgY, Y_err) P_Y = np.nan_to_num(self.P_Yo(self.LgY, Marr, zarr, param_vals, Ez_fn, Da_fn)) - ans = np.trapz(P_Y * P_Y_sig, x=self.LgY, axis=2) + ans = trapezoid(P_Y * P_Y_sig, x=self.LgY, axis=2) return ans diff --git a/soliket/cross_correlation/cross_correlation.py b/soliket/cross_correlation/cross_correlation.py index 79f3316c..b6cbccba 100644 --- a/soliket/cross_correlation/cross_correlation.py +++ b/soliket/cross_correlation/cross_correlation.py @@ -6,6 +6,10 @@ """ import numpy as np +try: + from numpy import trapezoid +except ImportError: + from numpy import trapz as trapezoid import sacc from cobaya.log import LoggedError @@ -58,7 +62,7 @@ def _get_nz(self, z, tracer, tracer_name, **params_values): bias = params_values['{}_deltaz'.format(tracer_name)] nz_biased = tracer.get_dndz(z - bias) - # nz_biased /= np.trapz(nz_biased, z) + # nz_biased /= np.trapezoid(nz_biased, z) return nz_biased @@ -198,7 +202,7 @@ def _get_theory(self, **params_values): elif self.ia_mode == 'nla': A_IA = params_values['A_IA'] eta_IA = params_values['eta_IA'] - z0_IA = np.trapz(z_tracer1 * nz_tracer1) + z0_IA = trapezoid(z_tracer1 * nz_tracer1) ia_z = (z_tracer1, A_IA * ((1 + z_tracer1) / (1 + z0_IA)) ** eta_IA) elif self.ia_mode == 'nla-perbin': @@ -238,7 +242,7 @@ def _get_theory(self, **params_values): elif self.ia_mode == 'nla': A_IA = params_values['A_IA'] eta_IA = params_values['eta_IA'] - z0_IA = np.trapz(z_tracer2 * nz_tracer2) + z0_IA = trapezoid(z_tracer2 * nz_tracer2) ia_z = (z_tracer2, A_IA * ((1 + z_tracer2) / (1 + z0_IA)) ** eta_IA) elif self.ia_mode == 'nla-perbin': diff --git a/soliket/gaussian/gaussian.py b/soliket/gaussian/gaussian.py index fa463102..012f2ce1 100644 --- a/soliket/gaussian/gaussian.py +++ b/soliket/gaussian/gaussian.py @@ -73,12 +73,12 @@ def initialize(self): self.log.info('Initialized.') - def initialize_with_provider(self, provider): # pragma: no cover + def initialize_with_provider(self, provider): # pragma: no cover for like in self.likelihoods: like.initialize_with_provider(provider) # super().initialize_with_provider(provider) - def get_helper_theories(self): # pragma: no cover + def get_helper_theories(self): # pragma: no cover helpers = {} for like in self.likelihoods: helpers.update(like.get_helper_theories()) diff --git a/soliket/lensing/lensing.py b/soliket/lensing/lensing.py index 5ba9768b..e17eeac3 100644 --- a/soliket/lensing/lensing.py +++ b/soliket/lensing/lensing.py @@ -22,9 +22,6 @@ from soliket.ps import BinnedPSLikelihood -# from cobaya.install import NotInstalledError - - class LensingLikelihood(BinnedPSLikelihood, InstallableLikelihood): r""" The full ``LensingLikelihood`` makes use of a *fiducial* lensing power spectrum which @@ -157,7 +154,7 @@ def get_requirements(self): :return: Dictionary ``Cl`` of lmax for each spectrum type. """ - if self.pp_ccl == False: + if self.pp_ccl is False: return { "Cl": { "pp": self.theory_lmax, @@ -217,7 +214,7 @@ def _get_theory(self, **params_values): """ cl = self.provider.get_Cl(ell_factor=False) - if self.pp_ccl == False: + if self.pp_ccl is False: Cl_theo = cl["pp"][0: self.lmax] ls = self.ls Clkk_theo = (ls * (ls + 1)) ** 2 * Cl_theo * 0.25 diff --git a/soliket/xcorr/limber.py b/soliket/xcorr/limber.py index c3b18195..da8f3fef 100644 --- a/soliket/xcorr/limber.py +++ b/soliket/xcorr/limber.py @@ -7,6 +7,10 @@ import numpy as np +try: + from numpy import trapezoid +except ImportError: + from numpy import trapz as trapezoid from soliket.constants import C_HMPC oneover_chmpc = 1. / C_HMPC @@ -16,7 +20,7 @@ def mag_bias_kernel(provider, dndz, s1, zatchi, chi_arr, chiprime_arr, zprime_ar """Calculates magnification bias kernel.""" dndzprime = np.interp(zprime_arr, dndz[:, 0], dndz[:, 1], left=0, right=0) - norm = np.trapz(dndz[:, 1], x=dndz[:, 0]) + norm = trapezoid(dndz[:, 1], x=dndz[:, 0]) dndzprime = dndzprime / norm # TODO check this norm is right g_integrand = (chiprime_arr - chi_arr[np.newaxis, :]) / chiprime_arr \ @@ -25,7 +29,7 @@ def mag_bias_kernel(provider, dndz, s1, zatchi, chi_arr, chiprime_arr, zprime_ar + 1 - provider.get_param('omegam')) \ * dndzprime - g = chi_arr * np.trapz(g_integrand, x=chiprime_arr, axis=0) + g = chi_arr * trapezoid(g_integrand, x=chiprime_arr, axis=0) W_mu = (5. * s1 - 2.) * 1.5 * provider.get_param('omegam') \ * (provider.get_param('H0') / 100) ** 2 * oneover_chmpc ** 2 \ @@ -52,12 +56,12 @@ def do_limber(ell_arr, provider, dndz1, dndz2, s1, s2, pk, b1_HF, b2_HF, W_g1 = np.interp(zatchi(chi_arr), dndz1[:, 0], dndz1[:, 1] \ * provider.get_Hubble(dndz1[:, 0], units='1/Mpc'), left=0, right=0) if not normed: - W_g1 /= np.trapz(W_g1, x=chi_arr) + W_g1 /= trapezoid(W_g1, x=chi_arr) W_g2 = np.interp(zatchi(chi_arr), dndz2[:, 0], dndz2[:, 1] \ * provider.get_Hubble(dndz2[:, 0], units='1/Mpc'), left=0, right=0) if not normed: - W_g2 /= np.trapz(W_g2, x=chi_arr) + W_g2 /= trapezoid(W_g2, x=chi_arr) W_kappa = oneover_chmpc ** 2. * 1.5 * provider.get_param('omegam') \ * (provider.get_param('H0') / 100) ** 2. * (1. + zatchi(chi_arr)) \ @@ -66,7 +70,7 @@ def do_limber(ell_arr, provider, dndz1, dndz2, s1, s2, pk, b1_HF, b2_HF, # Get effective redshift # if use_zeff: # kern = W_g1 * W_g2 / chi_arr**2 - # zeff = np.trapz(kern * z_arr,x=chi_arr) / np.trapz(kern, x=chi_arr) + # zeff = trapezoid(kern * z_arr,x=chi_arr) / trapezoid(kern, x=chi_arr) # else: # zeff = -1.0 @@ -108,13 +112,13 @@ def do_limber(ell_arr, provider, dndz1, dndz2, s1, s2, pk, b1_HF, b2_HF, W_mu1kappa = W_kappa[i_chi] * W_mu1[i_chi] / (chi ** 2) * p_mm c_ell_mu1kappa[:, :, i_chi] = W_mu1kappa.T - c_ell_g1g1 = np.trapz(c_ell_g1g1, x=chi_arr, axis=-1) - c_ell_g1kappa = np.trapz(c_ell_g1kappa, x=chi_arr, axis=-1) - c_ell_kappakappa = np.trapz(c_ell_kappakappa, x=chi_arr, axis=-1) + c_ell_g1g1 = trapezoid(c_ell_g1g1, x=chi_arr, axis=-1) + c_ell_g1kappa = trapezoid(c_ell_g1kappa, x=chi_arr, axis=-1) + c_ell_kappakappa = trapezoid(c_ell_kappakappa, x=chi_arr, axis=-1) - c_ell_g1mu1 = np.trapz(c_ell_g1mu1, x=chi_arr, axis=-1) - c_ell_mu1mu1 = np.trapz(c_ell_mu1mu1, x=chi_arr, axis=-1) - c_ell_mu1kappa = np.trapz(c_ell_mu1kappa, x=chi_arr, axis=-1) + c_ell_g1mu1 = trapezoid(c_ell_g1mu1, x=chi_arr, axis=-1) + c_ell_mu1mu1 = trapezoid(c_ell_mu1mu1, x=chi_arr, axis=-1) + c_ell_mu1kappa = trapezoid(c_ell_mu1kappa, x=chi_arr, axis=-1) clobs_gg = c_ell_g1g1 + 2. * c_ell_g1mu1 + c_ell_mu1mu1 clobs_kappag = c_ell_g1kappa + c_ell_mu1kappa From 2a4afcd35850686a43af88cba65a2bbd3c0315be Mon Sep 17 00:00:00 2001 From: Antony Lewis Date: Thu, 8 Aug 2024 14:16:25 +0100 Subject: [PATCH 3/4] minor --- soliket/gaussian/gaussian_data.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/soliket/gaussian/gaussian_data.py b/soliket/gaussian/gaussian_data.py index 5ef2a922..dfc87d67 100644 --- a/soliket/gaussian/gaussian_data.py +++ b/soliket/gaussian/gaussian_data.py @@ -1,6 +1,6 @@ from typing import Optional, Sequence import numpy as np -from cobaya.likelihoods.base_classes.DataSetLikelihood import _fast_chi_square +from cobaya.likelihoods.base_classes import _fast_chi_square class GaussianData: From ee2f216a8db936a344a3fa1b36b073b4e696575e Mon Sep 17 00:00:00 2001 From: Antony Lewis Date: Thu, 8 Aug 2024 14:39:54 +0100 Subject: [PATCH 4/4] linewraps --- soliket/bias/bias.py | 3 ++- soliket/cash/cash.py | 3 ++- soliket/gaussian/gaussian_data.py | 3 ++- 3 files changed, 6 insertions(+), 3 deletions(-) diff --git a/soliket/bias/bias.py b/soliket/bias/bias.py index a605fb9f..94a14258 100644 --- a/soliket/bias/bias.py +++ b/soliket/bias/bias.py @@ -71,7 +71,8 @@ def must_provide(self, **requirements): def _get_Pk_mm(self): self.k, self.z, Pk_mm = \ - self.provider.get_Pk_grid(var_pair=list(self._var_pairs)[0], nonlinear=self.nonlinear) + self.provider.get_Pk_grid(var_pair=list(self._var_pairs)[0], + nonlinear=self.nonlinear) return Pk_mm def get_Pk_gg_grid(self) -> dict: diff --git a/soliket/cash/cash.py b/soliket/cash/cash.py index f4e134eb..3f071a93 100644 --- a/soliket/cash/cash.py +++ b/soliket/cash/cash.py @@ -4,7 +4,8 @@ from .cash_data import CashCData -# Likelihood for independent Poisson-distributed data (here called Cash-C, see https://arxiv.org/abs/1912.05444) +# Likelihood for independent Poisson-distributed data +# (here called Cash-C, see https://arxiv.org/abs/1912.05444) class CashCLikelihood(Likelihood): name: str = "Cash-C" diff --git a/soliket/gaussian/gaussian_data.py b/soliket/gaussian/gaussian_data.py index dfc87d67..aa98b99b 100644 --- a/soliket/gaussian/gaussian_data.py +++ b/soliket/gaussian/gaussian_data.py @@ -16,7 +16,8 @@ class GaussianData: _fast_chi_squared = _fast_chi_square() - def __init__(self, name, x: Sequence, y: Sequence[float], cov: np.ndarray, ncovsims: Optional[int] = None): + def __init__(self, name, x: Sequence, y: Sequence[float], cov: np.ndarray, + ncovsims: Optional[int] = None): self.name = str(name) self.ncovsims = ncovsims