úÎ+ø     portable provisionalEdward Kmett <ekmett@gmail.com>None ?Integral with an result and an estimate of the error such that  0(result - errorEstimate, result + errorEstimate) probably bounds  the actual answer. *Convert a Result to a confidence interval @Filter a list of results using a specified absolute error bound @Filter a list of results using a specified relative error bound IIntegrate a function from 0 to infinity by using the change of variables x = t/(1-t)  This works muchH better than just clipping the interval at some arbitrary large number. ZIntegrate from -inf to inf using tanh-sinh quadrature after using the change of variables  x = tan t  # everywhere trap (\x -> exp(-x*x))  This works muchN better than just clipping the interval at arbitrary large and small numbers. kIntegration using a truncated trapezoid rule and tanh-sinh quadrature with a specified evaluation strategy HIntegration using a truncated trapezoid rule under tanh-sinh quadrature jIntegration using a truncated trapezoid rule under tanh-sinh quadrature with buffered parallel evaluation %Integration using a truncated Simpson'Gs rule under tanh-sinh quadrature with a specified evaluation strategy %Integration using a truncated Simpson'"s rule under tanh-sinh quadrature %Integration using a truncated Simpson'Ds rule under tanh-sinh quadrature with buffered parallel evaluation            integration-0.2.0.1Numeric.Integration.TanhSinhResultresult errorEstimate evaluations confidenceabsoluterelative nonNegative everywheretrap'trapparTrapsimpson'simpson parSimpsonDDm_hugew0dd0dd1dd