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[pkgsrc/trunk]: pkgsrc/math/py-numpy Upgrade py-numpy from 1.9.2 to 1.11.1



details:   https://anonhg.NetBSD.org/pkgsrc/rev/b86be2511cc5
branches:  trunk
changeset: 350195:b86be2511cc5
user:      kamil <kamil%pkgsrc.org@localhost>
date:      Sun Jul 24 15:25:22 2016 +0000

description:
Upgrade py-numpy from 1.9.2 to 1.11.1

pkgsrc changes:
 - swich to the GITHUB framework
 - add functional test target
 - update local patches

upstream changes:

NumPy 1.11.1 Release Notes

Numpy 1.11.1 supports Python 2.6 - 2.7 and 3.2 - 3.5. It fixes bugs and regressions found in Numpy 1.11.0 and includes several build related improvements. Wheels for Linux, Windows, and OSX can be 
found on pypi.
Fixes Merged

    #7506 BUG: Make sure numpy imports on python 2.6 when nose is unavailable.
    #7530 BUG: Floating exception with invalid axis in np.lexsort.
    #7535 BUG: Extend glibc complex trig functions blacklist to glibc < 2.18.
    #7551 BUG: Allow graceful recovery for no compiler.
    #7558 BUG: Constant padding expected wrong type in constant_values.
    #7578 BUG: Fix OverflowError in Python 3.x. in swig interface.
    #7590 BLD: Fix configparser.InterpolationSyntaxError.
    #7597 BUG: Make np.ma.take work on scalars.
    #7608 BUG: linalg.norm(): Don't convert object arrays to float.
    #7638 BLD: Correct C compiler customization in system_info.py.
    #7654 BUG: ma.median of 1d array should return a scalar.
    #7656 BLD: Remove hardcoded Intel compiler flag -xSSE4.2.
    #7660 BUG: Temporary fix for str(mvoid) for object field types.
    #7665 BUG: Fix incorrect printing of 1D masked arrays.
    #7670 BUG: Correct initial index estimate in histogram.
    #7671 BUG: Boolean assignment no GIL release when transfer needs API.
    #7676 BUG: Fix handling of right edge of final histogram bin.
    #7680 BUG: Fix np.clip bug NaN handling for Visual Studio 2015.
    #7724 BUG: Fix segfaults in np.random.shuffle.
    #7731 MAINT: Change mkl_info.dir_env_var from MKL to MKLROOT.
    #7737 BUG: Fix issue on OS X with Python 3.x, npymath.ini not installed.

NumPy 1.11.0 Release Notes

This release supports Python 2.6 - 2.7 and 3.2 - 3.5 and contains a number of enhancements and improvements. Note also the build system changes listed below as they may have subtle effects.

No Windows (TM) binaries are provided for this release due to a broken toolchain. One of the providers of Python packages for Windows (TM) is your best bet.
Highlights

Details of these improvements can be found below.

    The datetime64 type is now timezone naive.
    A dtype parameter has been added to randint.
    Improved detection of two arrays possibly sharing memory.
    Automatic bin size estimation for np.histogram.
    Speed optimization of A @ A.T and dot(A, A.T).
    New function np.moveaxis for reordering array axes.

Build System Changes

    Numpy now uses setuptools for its builds instead of plain distutils. This fixes usage of install_requires='numpy' in the setup.py files of projects that depend on Numpy (see gh-6551). It 
potentially affects the way that build/install methods for Numpy itself behave though. Please report any unexpected behavior on the Numpy issue tracker.
    Bento build support and related files have been removed.
    Single file build support and related files have been removed.

Future Changes

The following changes are scheduled for Numpy 1.12.0.

    Support for Python 2.6, 3.2, and 3.3 will be dropped.
    Relaxed stride checking will become the default. See the 1.8.0 release notes for a more extended discussion of what this change implies.
    The behavior of the datetime64 "not a time" (NaT) value will be changed to match that of floating point "not a number" (NaN) values: all comparisons involving NaT will return False, except for 
NaT != NaT which will return True.
    Indexing with floats will raise IndexError, e.g., a[0, 0.0].
    Indexing with non-integer array_like will raise IndexError, e.g., a['1', '2']
    Indexing with multiple ellipsis will raise IndexError, e.g., a[..., ...].
    Non-integers used as index values will raise TypeError, e.g., in reshape, take, and specifying reduce axis.

In a future release the following changes will be made.

    The rand function exposed in numpy.testing will be removed. That function is left over from early Numpy and was implemented using the Python random module. The random number generators from 
numpy.random should be used instead.
    The ndarray.view method will only allow c_contiguous arrays to be viewed using a dtype of different size causing the last dimension to change. That differs from the current behavior where arrays 
that are f_contiguous but not c_contiguous can be viewed as a dtype type of different size causing the first dimension to change.
    Slicing a MaskedArray will return views of both data and mask. Currently the mask is copy-on-write and changes to the mask in the slice do not propagate to the original mask. See the 
FutureWarnings section below for details.

Compatibility notes
datetime64 changes

In prior versions of NumPy the experimental datetime64 type always stored times in UTC. By default, creating a datetime64 object from a string or printing it would convert from or to local time:

# old behavior
>>>> np.datetime64('2000-01-01T00:00:00')
numpy.datetime64('2000-01-01T00:00:00-0800')  # note the timezone offset -08:00

A consensus of datetime64 users agreed that this behavior is undesirable and at odds with how datetime64 is usually used (e.g., by pandas). For most use cases, a timezone naive datetime type is 
preferred, similar to the datetime.datetime type in the Python standard library. Accordingly, datetime64 no longer assumes that input is in local time, nor does it print local times:

>>>> np.datetime64('2000-01-01T00:00:00')
numpy.datetime64('2000-01-01T00:00:00')

For backwards compatibility, datetime64 still parses timezone offsets, which it handles by converting to UTC. However, the resulting datetime is timezone naive:

>>> np.datetime64('2000-01-01T00:00:00-08')
DeprecationWarning: parsing timezone aware datetimes is deprecated;
this will raise an error in the future
numpy.datetime64('2000-01-01T08:00:00')

As a corollary to this change, we no longer prohibit casting between datetimes with date units and datetimes with time units. With timezone naive datetimes, the rule for casting from dates to times 
is no longer ambiguous.
linalg.norm return type changes

The return type of the linalg.norm function is now floating point without exception. Some of the norm types previously returned integers.
polynomial fit changes

The various fit functions in the numpy polynomial package no longer accept non-integers for degree specification.
np.dot now raises TypeError instead of ValueError

This behaviour mimics that of other functions such as np.inner. If the two arguments cannot be cast to a common type, it could have raised a TypeError or ValueError depending on their order. Now, 
np.dot will now always raise a TypeError.
FutureWarning to changed behavior

    In np.lib.split an empty array in the result always had dimension (0,) no matter the dimensions of the array being split. This has been changed so that the dimensions will be preserved. A 
FutureWarning for this change has been in place since Numpy 1.9 but, due to a bug, sometimes no warning was raised and the dimensions were already preserved.

% and // operators

These operators are implemented with the remainder and floor_divide functions respectively. Those functions are now based around fmod and are computed together so as to be compatible with each other 
and with the Python versions for float types. The results should be marginally more accurate or outright bug fixes compared to the previous results, but they may differ significantly in cases where 
roundoff makes a difference in the integer returned by floor_divide. Some corner cases also change, for instance, NaN is always returned for both functions when the divisor is zero, divmod(1.0, inf) 
returns (0.0, 1.0) except on MSVC 2008, and divmod(-1.0, inf) returns (-1.0, inf).
C API

Removed the check_return and inner_loop_selector members of the PyUFuncObject struct (replacing them with reserved slots to preserve struct layout). These were never used for anything, so it's 
unlikely that any third-party code is using them either, but we mention it here for completeness.
object dtype detection for old-style classes

In python 2, objects which are instances of old-style user-defined classes no longer automatically count as 'object' type in the dtype-detection handler. Instead, as in python 3, they may potentially 
count as sequences, but only if they define both a __len__ and a __getitem__ method. This fixes a segfault and inconsistency between python 2 and 3.
New Features

    np.histogram now provides plugin estimators for automatically estimating the optimal number of bins. Passing one of ['auto', 'fd', 'scott', 'rice', 'sturges'] as the argument to 'bins' results in 
the corresponding estimator being used.

    A benchmark suite using Airspeed Velocity has been added, converting the previous vbench-based one. You can run the suite locally via python runtests.py --bench. For more details, see 
benchmarks/README.rst.

    A new function np.shares_memory that can check exactly whether two arrays have memory overlap is added. np.may_share_memory also now has an option to spend more effort to reduce false positives.

    SkipTest and KnownFailureException exception classes are exposed in the numpy.testing namespace. Raise them in a test function to mark the test to be skipped or mark it as a known failure, 
respectively.

    f2py.compile has a new extension keyword parameter that allows the fortran extension to be specified for generated temp files. For instance, the files can be specifies to be *.f90. The verbose 
argument is also activated, it was previously ignored.

    A dtype parameter has been added to np.random.randint Random ndarrays of the following types can now be generated:
        np.bool,
        np.int8, np.uint8,
        np.int16, np.uint16,
        np.int32, np.uint32,
        np.int64, np.uint64,
        np.int_ ``, ``np.intp

    The specification is by precision rather than by C type. Hence, on some platforms np.int64 may be a long instead of long long even if the specified dtype is long long because the two may have the 
same precision. The resulting type depends on which C type numpy uses for the given precision. The byteorder specification is also ignored, the generated arrays are always in native byte order.

    A new np.moveaxis function allows for moving one or more array axes to a new position by explicitly providing source and destination axes. This function should be easier to use than the current 
rollaxis function as well as providing more functionality.

    The deg parameter of the various numpy.polynomial fits has been extended to accept a list of the degrees of the terms to be included in the fit, the coefficients of all other terms being 
constrained to zero. The change is backward compatible, passing a scalar deg will behave as before.

    A divmod function for float types modeled after the Python version has been added to the npy_math library.

Improvements
np.gradient now supports an axis argument

The axis parameter was added to np.gradient for consistency. It allows to specify over which axes the gradient is calculated.
np.lexsort now supports arrays with object data-type

The function now internally calls the generic npy_amergesort when the type does not implement a merge-sort kind of argsort method.
np.ma.core.MaskedArray now supports an order argument

When constructing a new MaskedArray instance, it can be configured with an order argument analogous to the one when calling np.ndarray. The addition of this argument allows for the proper processing 
of an order argument in several MaskedArray-related utility functions such as np.ma.core.array and np.ma.core.asarray.
Memory and speed improvements for masked arrays

Creating a masked array with mask=True (resp. mask=False) now uses np.ones (resp. np.zeros) to create the mask, which is faster and avoid a big memory peak. Another optimization was done to avoid a 
memory peak and useless computations when printing a masked array.
ndarray.tofile now uses fallocate on linux

The function now uses the fallocate system call to reserve sufficient disk space on file systems that support it.
Optimizations for operations of the form A.T @ A and A @ A.T

Previously, gemm BLAS operations were used for all matrix products. Now, if the matrix product is between a matrix and its transpose, it will use syrk BLAS operations for a performance boost. This 
optimization has been extended to @, numpy.dot, numpy.inner, and numpy.matmul.

Note: Requires the transposed and non-transposed matrices to share data.
np.testing.assert_warns can now be used as a context manager

This matches the behavior of assert_raises.
Speed improvement for np.random.shuffle

np.random.shuffle is now much faster for 1d ndarrays.
Changes
Pyrex support was removed from numpy.distutils

The method build_src.generate_a_pyrex_source will remain available; it has been monkeypatched by users to support Cython instead of Pyrex. It's recommended to switch to a better supported method of 
build Cython extensions though.
np.broadcast can now be called with a single argument

The resulting object in that case will simply mimic iteration over a single array. This change obsoletes distinctions like

    if len(x) == 1:
        shape = x[0].shape
    else:
        shape = np.broadcast(*x).shape

Instead, np.broadcast can be used in all cases.
np.trace now respects array subclasses

This behaviour mimics that of other functions such as np.diagonal and ensures, e.g., that for masked arrays np.trace(ma) and ma.trace() give the same result.
np.dot now raises TypeError instead of ValueError

This behaviour mimics that of other functions such as np.inner. If the two arguments cannot be cast to a common type, it could have raised a TypeError or ValueError depending on their order. Now, 
np.dot will now always raise a TypeError.
linalg.norm return type changes

The linalg.norm function now does all its computations in floating point and returns floating results. This change fixes bugs due to integer overflow and the failure of abs with signed integers of 
minimum value, e.g., int8(-128). For consistancy, floats are used even where an integer might work.
Deprecations
Views of arrays in Fortran order

The F_CONTIGUOUS flag was used to signal that views using a dtype that changed the element size would change the first index. This was always problematical for arrays that were both F_CONTIGUOUS and 
C_CONTIGUOUS because C_CONTIGUOUS took precedence. Relaxed stride checking results in more such dual contiguous arrays and breaks some existing code as a result. Note that this also affects changing 
the dtype by assigning to the dtype attribute of an array. The aim of this deprecation is to restrict views to C_CONTIGUOUS arrays at some future time. A work around that is backward compatible is to 
use a.T.view(...).T instead. A parameter may also be added to the view method to explicitly ask for Fortran order views, but that will not be backward compatible.
Invalid arguments for array ordering

It is currently possible to pass in arguments for the order parameter in methods like array.flatten or array.ravel that were not one of the following: 'C', 'F', 'A', 'K' (note that all of these 
possible values are both unicode and case insensitive). Such behavior will not be allowed in future releases.
Random number generator in the testing namespace

The Python standard library random number generator was previously exposed in the testing namespace as testing.rand. Using this generator is not recommended and it will be removed in a future 
release. Use generators from numpy.random namespace instead.
Random integer generation on a closed interval

In accordance with the Python C API, which gives preference to the half-open interval over the closed one, np.random.random_integers is being deprecated in favor of calling np.random.randint, which 
has been enhanced with the dtype parameter as described under "New Features". However, np.random.random_integers will not be removed anytime soon.
FutureWarnings
Assigning to slices/views of MaskedArray

Currently a slice of a masked array contains a view of the original data and a copy-on-write view of the mask. Consequently, any changes to the slice's mask will result in a copy of the original mask 
being made and that new mask being changed rather than the original. For example, if we make a slice of the original like so, view = original[:], then modifications to the data in one array will 
affect the data of the other but, because the mask will be copied during assignment operations, changes to the mask will remain local. A similar situation occurs when explicitly constructing a masked 
array using MaskedArray(data, mask), the returned array will contain a view of data but the mask will be a copy-on-write view of mask.

In the future, these cases will be normalized so that the data and mask arrays are treated the same way and modifications to either will propagate between views. In 1.11, numpy will issue a 
MaskedArrayFutureWarning warning whenever user code modifies the mask of a view that in the future may cause values to propagate back to the original. To silence these warnings and make your code 
robust against the upcoming changes, you have two options: if you want to keep the current behavior, call masked_view.unshare_mask() before modifying the mask. If you want to get the future behavior 
early, use masked_view._sharedmask = False. However, note that setting the _sharedmask attribute will break following explicit calls to masked_view.unshare_mask().

NumPy 1.10.4 Release Notes

This release is a bugfix source release motivated by a segfault regression. No windows binaries are provided for this release, as there appear to be bugs in the toolchain we use to generate those 
files. Hopefully that problem will be fixed for the next release. In the meantime, we suggest using one of the providers of windows binaries.
Compatibility notes

    The trace function now calls the trace method on subclasses of ndarray, except for matrix, for which the current behavior is preserved. This is to help with the units package of AstroPy and 
hopefully will not cause problems.

Issues Fixed

    gh-6922 BUG: numpy.recarray.sort segfaults on Windows.
    gh-6937 BUG: busday_offset does the wrong thing with modifiedpreceding roll.
    gh-6949 BUG: Type is lost when slicing a subclass of recarray.

Merged PRs

The following PRs have been merged into 1.10.4. When the PR is a backport, the PR number for the original PR against master is listed.

    gh-6840 TST: Update travis testing script in 1.10.x
    gh-6843 BUG: Fix use of python 3 only FileNotFoundError in test_f2py.
    gh-6884 REL: Update pavement.py and setup.py to reflect current version.
    gh-6916 BUG: Fix test_f2py so it runs correctly in runtests.py.
    gh-6924 BUG: Fix segfault gh-6922.
    gh-6942 Fix datetime roll='modifiedpreceding' bug.
    gh-6943 DOC,BUG: Fix some latex generation problems.
    gh-6950 BUG trace is not subclass aware, np.trace(ma) != ma.trace().
    gh-6952 BUG recarray slices should preserve subclass.

NumPy 1.10.3 Release Notes

N/A this release did not happen due to various screwups involving PyPi.

NumPy 1.10.2 Release Notes

This release deals with a number of bugs that turned up in 1.10.1 and adds various build and release improvements.

Numpy 1.10.1 supports Python 2.6 - 2.7 and 3.2 - 3.5.
Compatibility notes
Relaxed stride checking is no longer the default

There were back compatibility problems involving views changing the dtype of multidimensional Fortran arrays that need to be dealt with over a longer timeframe.
Fix swig bug in numpy.i

Relaxed stride checking revealed a bug in array_is_fortran(a), that was using PyArray_ISFORTRAN to check for Fortran contiguity instead of PyArray_IS_F_CONTIGUOUS. You may want to regenerate swigged 
files using the updated numpy.i
Deprecate views changing dimensions in fortran order

This deprecates assignment of a new descriptor to the dtype attribute of a non-C-contiguous array if it result in changing the shape. This effectively bars viewing a multidimensional Fortran array 
using a dtype that changes the element size along the first axis.

The reason for the deprecation is that, when relaxed strides checking is enabled, arrays that are both C and Fortran contiguous are always treated as C contiguous which breaks some code that depended 
the two being mutually exclusive for non-scalar arrays of ndim > 1. This deprecation prepares the way to always enable relaxed stride checking.
Issues Fixed

    gh-6019 Masked array repr fails for structured array with multi-dimensional column.
    gh-6462 Median of empty array produces IndexError.
    gh-6467 Performance regression for record array access.
    gh-6468 numpy.interp uses 'left' value even when x[0]==xp[0].
    gh-6475 np.allclose returns a memmap when one of its arguments is a memmap.
    gh-6491 Error in broadcasting stride_tricks array.
    gh-6495 Unrecognized command line option '-ffpe-summary' in gfortran.
    gh-6497 Failure of reduce operation on recarrays.
    gh-6498 Mention change in default casting rule in 1.10 release notes.
    gh-6530 The partition function errors out on empty input.
    gh-6532 numpy.inner return wrong inaccurate value sometimes.
    gh-6563 Intent(out) broken in recent versions of f2py.
    gh-6569 Cannot run tests after 'python setup.py build_ext -i'
    gh-6572 Error in broadcasting stride_tricks array component.
    gh-6575 BUG: Split produces empty arrays with wrong number of dimensions
    gh-6590 Fortran Array problem in numpy 1.10.
    gh-6602 Random __all__ missing choice and dirichlet.
    gh-6611 ma.dot no longer always returns a masked array in 1.10.
    gh-6618 NPY_FORTRANORDER in make_fortran() in numpy.i
    gh-6636 Memory leak in nested dtypes in numpy.recarray
    gh-6641 Subsetting recarray by fields yields a structured array.
    gh-6667 ma.make_mask handles ma.nomask input incorrectly.
    gh-6675 Optimized blas detection broken in master and 1.10.
    gh-6678 Getting unexpected error from: X.dtype = complex (or Y = X.view(complex))
    gh-6718 f2py test fail in pip installed numpy-1.10.1 in virtualenv.
    gh-6719 Error compiling Cython file: Pythonic division not allowed without gil.
    gh-6771 Numpy.rec.fromarrays losing dtype metadata between versions 1.9.2 and 1.10.1
    gh-6781 The travis-ci script in maintenance/1.10.x needs fixing.
    gh-6807 Windows testing errors for 1.10.2

Merged PRs

The following PRs have been merged into 1.10.2. When the PR is a backport, the PR number for the original PR against master is listed.

    gh-5773 MAINT: Hide testing helper tracebacks when using them with pytest.
    gh-6094 BUG: Fixed a bug with string representation of masked structured arrays.
    gh-6208 MAINT: Speedup field access by removing unneeded safety checks.
    gh-6460 BUG: Replacing the os.environ.clear by less invasive procedure.
    gh-6470 BUG: Fix AttributeError in numpy distutils.
    gh-6472 MAINT: Use Python 3.5 instead of 3.5-dev for travis 3.5 testing.
    gh-6474 REL: Update Paver script for sdist and auto-switch test warnings.
    gh-6478 BUG: Fix Intel compiler flags for OS X build.
    gh-6481 MAINT: LIBPATH with spaces is now supported Python 2.7+ and Win32.
    gh-6487 BUG: Allow nested use of parameters in definition of arrays in f2py.
    gh-6488 BUG: Extend common blocks rather than overwriting in f2py.
    gh-6499 DOC: Mention that default casting for inplace operations has changed.
    gh-6500 BUG: Recarrays viewed as subarrays don't convert to np.record type.
    gh-6501 REL: Add "make upload" command for built docs, update "make dist".
    gh-6526 BUG: Fix use of __doc__ in setup.py for -OO mode.
    gh-6527 BUG: Fix the IndexError when taking the median of an empty array.
    gh-6537 BUG: Make ma.atleast_* with scalar argument return arrays.
    gh-6538 BUG: Fix ma.masked_values does not shrink mask if requested.
    gh-6546 BUG: Fix inner product regression for non-contiguous arrays.
    gh-6553 BUG: Fix partition and argpartition error for empty input.
    gh-6556 BUG: Error in broadcast_arrays with as_strided array.
    gh-6558 MAINT: Minor update to "make upload" doc build command.
    gh-6562 BUG: Disable view safety checks in recarray.
    gh-6567 BUG: Revert some import * fixes in f2py.
    gh-6574 DOC: Release notes for Numpy 1.10.2.
    gh-6577 BUG: Fix for #6569, allowing build_ext --inplace
    gh-6579 MAINT: Fix mistake in doc upload rule.
    gh-6596 BUG: Fix swig for relaxed stride checking.
    gh-6606 DOC: Update 1.10.2 release notes.
    gh-6614 BUG: Add choice and dirichlet to numpy.random.__all__.
    gh-6621 BUG: Fix swig make_fortran function.
    gh-6628 BUG: Make allclose return python bool.
    gh-6642 BUG: Fix memleak in _convert_from_dict.
    gh-6643 ENH: make recarray.getitem return a recarray.
    gh-6653 BUG: Fix ma dot to always return masked array.
    gh-6668 BUG: ma.make_mask should always return nomask for nomask argument.
    gh-6686 BUG: Fix a bug in assert_string_equal.
    gh-6695 BUG: Fix removing tempdirs created during build.
    gh-6697 MAINT: Fix spurious semicolon in macro definition of PyArray_FROM_OT.
    gh-6698 TST: test np.rint bug for large integers.
    gh-6717 BUG: Readd fallback CBLAS detection on linux.
    gh-6721 BUG: Fix for #6719.
    gh-6726 BUG: Fix bugs exposed by relaxed stride rollback.
    gh-6757 BUG: link cblas library if cblas is detected.
    gh-6756 TST: only test f2py, not f2py2.7 etc, fixes #6718.
    gh-6747 DEP: Deprecate changing shape of non-C-contiguous array via descr.
    gh-6775 MAINT: Include from __future__ boilerplate in some files missing it.
    gh-6780 BUG: metadata is not copied to base_dtype.
    gh-6783 BUG: Fix travis ci testing for new google infrastructure.
    gh-6785 BUG: Quick and dirty fix for interp.
    gh-6813 TST,BUG: Make test_mvoid_multidim_print work for 32 bit systems.
    gh-6817 BUG: Disable 32-bit msvc9 compiler optimizations for npy_rint.
    gh-6819 TST: Fix test_mvoid_multidim_print failures on Python 2.x for Windows.

Initial support for mingwpy was reverted as it was causing problems for non-windows builds.

    gh-6536 BUG: Revert gh-5614 to fix non-windows build problems

A fix for np.lib.split was reverted because it resulted in "fixing" behavior that will be present in the Numpy 1.11 and that was already present in Numpy 1.9. See the discussion of the issue at 
gh-6575 for clarification.

    gh-6576 BUG: Revert gh-6376 to fix split behavior for empty arrays.

Relaxed stride checking was reverted. There were back compatibility problems involving views changing the dtype of multidimensional Fortran arrays that need to be dealt with over a longer timeframe.

    gh-6735 MAINT: Make no relaxed stride checking the default for 1.10.

Notes

A bug in the Numpy 1.10.1 release resulted in exceptions being raised for RuntimeWarning and DeprecationWarning in projects depending on Numpy. That has been fixed.

NumPy 1.10.1 Release Notes

This release deals with a few build problems that showed up in 1.10.0. Most users would not have seen these problems. The differences are:

    Compiling with msvc9 or msvc10 for 32 bit Windows now requires SSE2. This was the easiest fix for what looked to be some miscompiled code when SSE2 was not used. If you need to compile for 32 bit 
Windows systems without SSE2 support, mingw32 should still work.
    Make compiling with VS2008 python2.7 SDK easier
    Change Intel compiler options so that code will also be generated to support systems without SSE4.2.
    Some _config test functions needed an explicit integer return in order to avoid the openSUSE rpmlinter erring out.
    We ran into a problem with pipy not allowing reuse of filenames and a resulting proliferation of ..*.postN releases. Not only were the names getting out of hand, some packages were unable to work 
with the postN suffix.

Numpy 1.10.1 supports Python 2.6 - 2.7 and 3.2 - 3.5.

Commits:

45a3d84 DEP: Remove warning for full when dtype is set. 0c1a5df BLD: import setuptools to allow compile with VS2008 python2.7 sdk 04211c6 BUG: mask nan to 1 in ordered compare 826716f DOC: Document 
the reason msvc requires SSE2 on 32 bit platforms. 49fa187 BLD: enable SSE2 for 32-bit msvc 9 and 10 compilers dcbc4cc MAINT: remove Wreturn-type warnings from config checks d6564cb BLD: do not build 
exclusively for SSE4.2 processors 15cb66f BLD: do not build exclusively for SSE4.2 processors c38bc08 DOC: fix var. reference in percentile docstring 78497f4 DOC: Sync 1.10.0-notes.rst in 1.10.x 
branch with master.

NumPy 1.10.0 Release Notes

This release supports Python 2.6 - 2.7 and 3.2 - 3.5.
Highlights

    numpy.distutils now supports parallel compilation via the --parallel/-j argument passed to setup.py build
    numpy.distutils now supports additional customization via site.cfg to control compilation parameters, i.e. runtime libraries, extra linking/compilation flags.
    Addition of np.linalg.multi_dot: compute the dot product of two or more arrays in a single function call, while automatically selecting the fastest evaluation order.
    The new function np.stack provides a general interface for joining a sequence of arrays along a new axis, complementing np.concatenate for joining along an existing axis.
    Addition of nanprod to the set of nanfunctions.
    Support for the '@' operator in Python 3.5.

Dropped Support

    The _dotblas module has been removed. CBLAS Support is now in Multiarray.
    The testcalcs.py file has been removed.
    The polytemplate.py file has been removed.
    npy_PyFile_Dup and npy_PyFile_DupClose have been removed from npy_3kcompat.h.
    splitcmdline has been removed from numpy/distutils/exec_command.py.
    try_run and get_output have been removed from numpy/distutils/command/config.py
    The a._format attribute is no longer supported for array printing.
    Keywords skiprows and missing removed from np.genfromtxt.
    Keyword old_behavior removed from np.correlate.

Future Changes

    In array comparisons like arr1 == arr2, many corner cases involving strings or structured dtypes that used to return scalars now issue FutureWarning or DeprecationWarning, and in the future will 
be change to either perform elementwise comparisons or raise an error.
    In np.lib.split an empty array in the result always had dimension (0,) no matter the dimensions of the array being split. In Numpy 1.11 that behavior will be changed so that the dimensions will 
be preserved. A FutureWarning for this change has been in place since Numpy 1.9 but, due to a bug, sometimes no warning was raised and the dimensions were already preserved.
    The SafeEval class will be removed in Numpy 1.11.
    The alterdot and restoredot functions will be removed in Numpy 1.11.

See below for more details on these changes.
Compatibility notes
Default casting rule change

Default casting for inplace operations has changed to 'same_kind'. For instance, if n is an array of integers, and f is an array of floats, then n += f will result in a TypeError, whereas in previous 
Numpy versions the floats would be silently cast to ints. In the unlikely case that the example code is not an actual bug, it can be updated in a backward compatible way by rewriting it as np.add(n, 
f, out=n, casting='unsafe'). The old 'unsafe' default has been deprecated since Numpy 1.7.
numpy version string

The numpy version string for development builds has been changed from x.y.z.dev-githash to x.y.z.dev0+githash (note the +) in order to comply with PEP 440.
relaxed stride checking

NPY_RELAXED_STRIDE_CHECKING is now true by default.

UPDATE: In 1.10.2 the default value of NPY_RELAXED_STRIDE_CHECKING was changed to false for back compatibility reasons. More time is needed before it can be made the default. As part of the roadmap a 
deprecation of dimension changing views of f_contiguous not c_contiguous arrays was also added.
Concatenation of 1d arrays along any but axis=0 raises IndexError

Using axis != 0 has raised a DeprecationWarning since NumPy 1.7, it now raises an error.
np.ravel, np.diagonal and np.diag now preserve subtypes

There was inconsistent behavior between x.ravel() and np.ravel(x), as well as between x.diagonal() and np.diagonal(x), with the methods preserving subtypes while the functions did not. This has been 
fixed and the functions now behave like the methods, preserving subtypes except in the case of matrices. Matrices are special cased for backward compatibility and still return 1-D arrays as before. 
If you need to preserve the matrix subtype, use the methods instead of the functions.
rollaxis and swapaxes always return a view

Previously, a view was returned except when no change was made in the order of the axes, in which case the input array was returned. A view is now returned in all cases.
nonzero now returns base ndarrays

Previously, an inconsistency existed between 1-D inputs (returning a base ndarray) and higher dimensional ones (which preserved subclasses). Behavior has been unified, and the return will now be a 
base ndarray. Subclasses can still override this behavior by providing their own nonzero method.
C API

The changes to swapaxes also apply to the PyArray_SwapAxes C function, which now returns a view in all cases.

The changes to nonzero also apply to the PyArray_Nonzero C function, which now returns a base ndarray in all cases.

The dtype structure (PyArray_Descr) has a new member at the end to cache its hash value. This shouldn't affect any well-written applications.

The change to the concatenation function DeprecationWarning also affects PyArray_ConcatenateArrays,
recarray field return types

Previously the returned types for recarray fields accessed by attribute and by index were inconsistent, and fields of string type were returned as chararrays. Now, fields accessed by either attribute 
or indexing will return an ndarray for fields of non-structured type, and a recarray for fields of structured type. Notably, this affect recarrays containing strings with whitespace, as trailing 
whitespace is trimmed from chararrays but kept in ndarrays of string type. Also, the dtype.type of nested structured fields is now inherited.
recarray views

Viewing an ndarray as a recarray now automatically converts the dtype to np.record. See new record array documentation. Additionally, viewing a recarray with a non-structured dtype no longer converts 
the result's type to ndarray - the result will remain a recarray.
'out' keyword argument of ufuncs now accepts tuples of arrays

When using the 'out' keyword argument of a ufunc, a tuple of arrays, one per ufunc output, can be provided. For ufuncs with a single output a single array is also a valid 'out' keyword argument. 
Previously a single array could be provided in the 'out' keyword argument, and it would be used as the first output for ufuncs with multiple outputs, is deprecated, and will result in a 
DeprecationWarning now and an error in the future.
byte-array indices now raises an IndexError

Indexing an ndarray using a byte-string in Python 3 now raises an IndexError instead of a ValueError.
Masked arrays containing objects with arrays

For such (rare) masked arrays, getting a single masked item no longer returns a corrupted masked array, but a fully masked version of the item.
Median warns and returns nan when invalid values are encountered

Similar to mean, median and percentile now emits a Runtime warning and returns NaN in slices where a NaN is present. To compute the median or percentile while ignoring invalid values use the new 
nanmedian or nanpercentile functions.
Functions available from numpy.ma.testutils have changed

All functions from numpy.testing were once available from numpy.ma.testutils but not all of them were redefined to work with masked arrays. Most of those functions have now been removed from 
numpy.ma.testutils with a small subset retained in order to preserve backward compatibility. In the long run this should help avoid mistaken use of the wrong functions, but it may cause import 
problems for some.
New Features
Reading extra flags from site.cfg

Previously customization of compilation of dependency libraries and numpy itself was only accomblishable via code changes in the distutils package. Now numpy.distutils reads in the following extra 
flags from each group of the site.cfg:

    runtime_library_dirs/rpath, sets runtime library directories to override

        LD_LIBRARY_PATH

    extra_compile_args, add extra flags to the compilation of sources

    extra_link_args, add extra flags when linking libraries

This should, at least partially, complete user customization.
np.cbrt to compute cube root for real floats

np.cbrt wraps the C99 cube root function cbrt. Compared to np.power(x, 1./3.) it is well defined for negative real floats and a bit faster.
numpy.distutils now allows parallel compilation

By passing --parallel=n or -j n to setup.py build the compilation of extensions is now performed in n parallel processes. The parallelization is limited to files within one extension so projects 
using Cython will not profit because it builds extensions from single files.
genfromtxt has a new max_rows argument

A max_rows argument has been added to genfromtxt to limit the number of rows read in a single call. Using this functionality, it is possible to read in multiple arrays stored in a single file by 
making repeated calls to the function.
New function np.broadcast_to for invoking array broadcasting

np.broadcast_to manually broadcasts an array to a given shape according to numpy's broadcasting rules. The functionality is similar to broadcast_arrays, which in fact has been rewritten to use 
broadcast_to internally, but only a single array is necessary.
New context manager clear_and_catch_warnings for testing warnings

When Python emits a warning, it records that this warning has been emitted in the module that caused the warning, in a module attribute __warningregistry__. Once this has happened, it is not possible 
to emit the warning again, unless you clear the relevant entry in __warningregistry__. This makes is hard and fragile to test warnings, because if your test comes after another that has already 
caused the warning, you will not be able to emit the warning or test it. The context manager clear_and_catch_warnings clears warnings from the module registry on entry and resets them on exit, 
meaning that warnings can be re-raised.
cov has new fweights and aweights arguments

The fweights and aweights arguments add new functionality to covariance calculations by applying two types of weighting to observation vectors. An array of fweights indicates the number of repeats of 
each observation vector, and an array of aweights provides their relative importance or probability.
Support for the '@' operator in Python 3.5+

Python 3.5 adds support for a matrix multiplication operator '@' proposed in PEP465. Preliminary support for that has been implemented, and an equivalent function matmul has also been added for 
testing purposes and use in earlier Python versions. The function is preliminary and the order and number of its optional arguments can be expected to change.
New argument norm to fft functions

The default normalization has the direct transforms unscaled and the inverse transforms are scaled by 1/n . It is possible to obtain unitary transforms by setting the keyword argument norm to "ortho" 
(default is None) so that both direct and inverse transforms will be scaled by 1/\\sqrt{n} .
Improvements
np.digitize using binary search

np.digitize is now implemented in terms of np.searchsorted. This means that a binary search is used to bin the values, which scales much better for larger number of bins than the previous linear 
search. It also removes the requirement for the input array to be 1-dimensional.
np.poly now casts integer inputs to float

np.poly will now cast 1-dimensional input arrays of integer type to double precision floating point, to prevent integer overflow when computing the monic polynomial. It is still possible to obtain 
higher precision results by passing in an array of object type, filled e.g. with Python ints.
np.interp can now be used with periodic functions

np.interp now has a new parameter period that supplies the period of the input data xp. In such case, the input data is properly normalized to the given period and one end point is added to each 
extremity of xp in order to close the previous and the next period cycles, resulting in the correct interpolation behavior.
np.pad supports more input types for pad_width and constant_values

constant_values parameters now accepts NumPy arrays and float values. NumPy arrays are supported as input for pad_width, and an exception is raised if its values are not of integral type.
np.argmax and np.argmin now support an out argument

The out parameter was added to np.argmax and np.argmin for consistency with ndarray.argmax and ndarray.argmin. The new parameter behaves exactly as it does in those methods.
More system C99 complex functions detected and used

All of the functions in complex.h are now detected. There are new fallback implementations of the following functions.

    npy_ctan,
    npy_cacos, npy_casin, npy_catan
    npy_ccosh, npy_csinh, npy_ctanh,
    npy_cacosh, npy_casinh, npy_catanh

As a result of these improvements, there will be some small changes in returned values, especially for corner cases.
np.loadtxt support for the strings produced by the float.hex method

The strings produced by float.hex look like 0x1.921fb54442d18p+1, so this is not the hex used to represent unsigned integer types.
np.isclose properly handles minimal values of integer dtypes

In order to properly handle minimal values of integer types, np.isclose will now cast to the float dtype during comparisons. This aligns its behavior with what was provided by np.allclose.
np.allclose uses np.isclose internally.

np.allclose now uses np.isclose internally and inherits the ability to compare NaNs as equal by setting equal_nan=True. Subclasses, such as np.ma.MaskedArray, are also preserved now.
np.genfromtxt now handles large integers correctly

np.genfromtxt now correctly handles integers larger than 2**31-1 on 32-bit systems and larger than 2**63-1 on 64-bit systems (it previously crashed with an OverflowError in these cases). Integers 
larger than 2**63-1 are converted to floating-point values.
np.load, np.save have pickle backward compatibility flags

The functions np.load and np.save have additional keyword arguments for controlling backward compatibility of pickled Python objects. This enables Numpy on Python 3 to load npy files containing 
object arrays that were generated on Python 2.
MaskedArray support for more complicated base classes

Built-in assumptions that the baseclass behaved like a plain array are being removed. In particular, setting and getting elements and ranges will respect baseclass overrides of __setitem__ and 
__getitem__, and arithmetic will respect overrides of __add__, __sub__, etc.
Changes
dotblas functionality moved to multiarray

The cblas versions of dot, inner, and vdot have been integrated into the multiarray module. In particular, vdot is now a multiarray function, which it was not before.
stricter check of gufunc signature compliance

Inputs to generalized universal functions are now more strictly checked against the function's signature: all core dimensions are now required to be present in input arrays; core dimensions with the 
same label must have the exact same size; and output core dimension's must be specified, either by a same label input core dimension or by a passed-in output array.
views returned from np.einsum are writeable

Views returned by np.einsum will now be writeable whenever the input array is writeable.
np.argmin skips NaT values

np.argmin now skips NaT values in datetime64 and timedelta64 arrays, making it consistent with np.min, np.argmax and np.max.
Deprecations
Array comparisons involving strings or structured dtypes

Normally, comparison operations on arrays perform elementwise comparisons and return arrays of booleans. But in some corner cases, especially involving strings are structured dtypes, NumPy has 
historically returned a scalar instead. For example:

### Current behaviour

np.arange(2) == "foo"
# -> False

np.arange(2) < "foo"
# -> True on Python 2, error on Python 3

np.ones(2, dtype="i4,i4") == np.ones(2, dtype="i4,i4,i4")
# -> False

Continuing work started in 1.9, in 1.10 these comparisons will now raise FutureWarning or DeprecationWarning, and in the future they will be modified to behave more consistently with other comparison 
operations, e.g.:

### Future behaviour

np.arange(2) == "foo"
# -> array([False, False])

np.arange(2) < "foo"
# -> error, strings and numbers are not orderable

np.ones(2, dtype="i4,i4") == np.ones(2, dtype="i4,i4,i4")
# -> [False, False]

SafeEval

The SafeEval class in numpy/lib/utils.py is deprecated and will be removed in the next release.
alterdot, restoredot

The alterdot and restoredot functions no longer do anything, and are deprecated.
pkgload, PackageLoader

These ways of loading packages are now deprecated.
bias, ddof arguments to corrcoef

The values for the bias and ddof arguments to the corrcoef function canceled in the division implied by the correlation coefficient and so had no effect on the returned values.

We now deprecate these arguments to corrcoef and the masked array version ma.corrcoef.

Because we are deprecating the bias argument to ma.corrcoef, we also deprecate the use of the allow_masked argument as a positional argument, as its position will change with the removal of bias. 
allow_masked will in due course become a keyword-only argument.
dtype string representation changes

Since 1.6, creating a dtype object from its string representation, e.g. 'f4', would issue a deprecation warning if the size did not correspond to an existing type, and default to creating a dtype of 
the default size for the type. Starting with this release, this will now raise a TypeError.

The only exception is object dtypes, where both 'O4' and 'O8' will still issue a deprecation warning. This platform-dependent representation will raise an error in the next release.

In preparation for this upcoming change, the string representation of an object dtype, i.e. np.dtype(object).str, no longer includes the item size, i.e. will return '|O' instead of '|O4' or '|O8' as 
before.

diffstat:

 math/py-numpy/Makefile                                                  |  32 +---
 math/py-numpy/PLIST                                                     |  77 +++------
 math/py-numpy/distinfo                                                  |  22 +-
 math/py-numpy/patches/patch-aa                                          |   4 +-
 math/py-numpy/patches/patch-ab                                          |   4 +-
 math/py-numpy/patches/patch-numpy_core_include_numpy___numpyconfig.h.in |  14 +
 math/py-numpy/patches/patch-numpy_core_include_numpy_npy__endian.h      |  22 ++
 math/py-numpy/patches/patch-numpy_core_setup.py                         |  26 +-
 math/py-numpy/patches/patch-numpy_core_src_multiarray_numpyos.c         |  17 ++
 math/py-numpy/patches/patch-numpy_distutils_ccompiler.py                |  14 -
 math/py-numpy/patches/patch-numpy_distutils_fcompiler_gnu.py            |  23 ++-
 11 files changed, 135 insertions(+), 120 deletions(-)

diffs (truncated from 477 to 300 lines):

diff -r 614fecec5ff7 -r b86be2511cc5 math/py-numpy/Makefile
--- a/math/py-numpy/Makefile    Sun Jul 24 14:01:55 2016 +0000
+++ b/math/py-numpy/Makefile    Sun Jul 24 15:25:22 2016 +0000
@@ -1,9 +1,11 @@
-# $NetBSD: Makefile,v 1.28 2015/04/17 00:41:38 wen Exp $
+# $NetBSD: Makefile,v 1.29 2016/07/24 15:25:22 kamil Exp $
 
-DISTNAME=      numpy-1.9.2
+DISTNAME=      numpy-1.11.1
+GITHUB_PROJECT=        numpy
 PKGNAME=       ${PYPKGPREFIX}-${DISTNAME}
 CATEGORIES=    math python
-MASTER_SITES=  ${MASTER_SITE_SOURCEFORGE:=numpy/}
+MASTER_SITES=  ${MASTER_SITE_GITHUB:=numpy/}
+GITHUB_TAG=    v${PKGVERSION_NOREV}
 
 MAINTAINER=    pkgsrc-users%NetBSD.org@localhost
 HOMEPAGE=      http://www.numpy.org/
@@ -14,25 +16,7 @@
 PLIST_SUBST+=          PYVERSSUFFIX=${PYVERSSUFFIX}
 MAKE_ENV+=             ATLAS=None
 
-REPLACE_PYTHON+=       *.py
-REPLACE_PYTHON+=       numpy/*.py
-REPLACE_PYTHON+=       numpy/compat/*.py
-REPLACE_PYTHON+=       numpy/core/*.py
-REPLACE_PYTHON+=       numpy/core/tests/*.py
-REPLACE_PYTHON+=       numpy/distutils/*.py
-REPLACE_PYTHON+=       numpy/distutils/tests/*.py
-REPLACE_PYTHON+=       numpy/distutils/tests/f2py_ext/*.py
-REPLACE_PYTHON+=       numpy/distutils/tests/f2py_f90_ext/*.py
-REPLACE_PYTHON+=       numpy/distutils/tests/gen_ext/*.py
-REPLACE_PYTHON+=       numpy/distutils/tests/pyrex_ext/*.py
-REPLACE_PYTHON+=       numpy/distutils/tests/swig_ext/*.py
-REPLACE_PYTHON+=       numpy/f2py/*.py
-REPLACE_PYTHON+=       numpy/f2py/docs/usersguide/*.py
-REPLACE_PYTHON+=       numpy/fft/tests/*.py
-REPLACE_PYTHON+=       numpy/ma/*.py
-REPLACE_PYTHON+=       numpy/matrixlib/*.py
-REPLACE_PYTHON+=       numpy/random/mtrand/*.py
-REPLACE_PYTHON+=       numpy/testing/*.py
+REPLACE_PYTHON+=       *.py */*.py */*/*.py */*/*/*.py */*/*/*/*.py
 
 # XXX Avoid picking up other compilers when installed
 .include "../../mk/compiler.mk"
@@ -52,8 +36,8 @@
 .include "../../mk/bsd.prefs.mk"
 
 # needs devel/py-nose
-#do-test:
-#      ${PYTHONBIN} -c "import numpy; numpy.test()"
+do-test:
+       ${RUN} PYTHONPATH=${DESTDIR}${PREFIX}/${PYSITELIB} ${PYTHONBIN} -c "import numpy; numpy.test()"
 
 .include "../../lang/python/application.mk"
 .include "../../lang/python/distutils.mk"
diff -r 614fecec5ff7 -r b86be2511cc5 math/py-numpy/PLIST
--- a/math/py-numpy/PLIST       Sun Jul 24 14:01:55 2016 +0000
+++ b/math/py-numpy/PLIST       Sun Jul 24 15:25:22 2016 +0000
@@ -1,6 +1,9 @@
-@comment $NetBSD: PLIST,v 1.13 2015/04/17 00:41:38 wen Exp $
+@comment $NetBSD: PLIST,v 1.14 2016/07/24 15:25:22 kamil Exp $
 bin/f2py${PYVERSSUFFIX}
-${PYSITELIB}/${EGG_FILE}
+${PYSITELIB}/${EGG_FILE}/PKG-INFO
+${PYSITELIB}/${EGG_FILE}/SOURCES.txt
+${PYSITELIB}/${EGG_FILE}/dependency_links.txt
+${PYSITELIB}/${EGG_FILE}/top_level.txt
 ${PYSITELIB}/numpy/__config__.py
 ${PYSITELIB}/numpy/__config__.pyc
 ${PYSITELIB}/numpy/__config__.pyo
@@ -28,7 +31,6 @@
 ${PYSITELIB}/numpy/core/__init__.py
 ${PYSITELIB}/numpy/core/__init__.pyc
 ${PYSITELIB}/numpy/core/__init__.pyo
-${PYSITELIB}/numpy/core/_dotblas.so
 ${PYSITELIB}/numpy/core/_dummy.so
 ${PYSITELIB}/numpy/core/_internal.py
 ${PYSITELIB}/numpy/core/_internal.pyc
@@ -107,7 +109,6 @@
 ${PYSITELIB}/numpy/core/records.py
 ${PYSITELIB}/numpy/core/records.pyc
 ${PYSITELIB}/numpy/core/records.pyo
-${PYSITELIB}/numpy/core/scalarmath.so
 ${PYSITELIB}/numpy/core/setup.py
 ${PYSITELIB}/numpy/core/setup.pyc
 ${PYSITELIB}/numpy/core/setup.pyo
@@ -124,23 +125,24 @@
 ${PYSITELIB}/numpy/core/tests/test_abc.py
 ${PYSITELIB}/numpy/core/tests/test_api.py
 ${PYSITELIB}/numpy/core/tests/test_arrayprint.py
-${PYSITELIB}/numpy/core/tests/test_blasdot.py
 ${PYSITELIB}/numpy/core/tests/test_datetime.py
 ${PYSITELIB}/numpy/core/tests/test_defchararray.py
 ${PYSITELIB}/numpy/core/tests/test_deprecations.py
 ${PYSITELIB}/numpy/core/tests/test_dtype.py
 ${PYSITELIB}/numpy/core/tests/test_einsum.py
 ${PYSITELIB}/numpy/core/tests/test_errstate.py
+${PYSITELIB}/numpy/core/tests/test_extint128.py
 ${PYSITELIB}/numpy/core/tests/test_function_base.py
 ${PYSITELIB}/numpy/core/tests/test_getlimits.py
 ${PYSITELIB}/numpy/core/tests/test_half.py
 ${PYSITELIB}/numpy/core/tests/test_indexerrors.py
 ${PYSITELIB}/numpy/core/tests/test_indexing.py
 ${PYSITELIB}/numpy/core/tests/test_item_selection.py
+${PYSITELIB}/numpy/core/tests/test_longdouble.py
 ${PYSITELIB}/numpy/core/tests/test_machar.py
+${PYSITELIB}/numpy/core/tests/test_mem_overlap.py
 ${PYSITELIB}/numpy/core/tests/test_memmap.py
 ${PYSITELIB}/numpy/core/tests/test_multiarray.py
-${PYSITELIB}/numpy/core/tests/test_multiarray_assignment.py
 ${PYSITELIB}/numpy/core/tests/test_nditer.py
 ${PYSITELIB}/numpy/core/tests/test_numeric.py
 ${PYSITELIB}/numpy/core/tests/test_numerictypes.py
@@ -320,6 +322,12 @@
 ${PYSITELIB}/numpy/distutils/misc_util.py
 ${PYSITELIB}/numpy/distutils/misc_util.pyc
 ${PYSITELIB}/numpy/distutils/misc_util.pyo
+${PYSITELIB}/numpy/distutils/msvc9compiler.py
+${PYSITELIB}/numpy/distutils/msvc9compiler.pyc
+${PYSITELIB}/numpy/distutils/msvc9compiler.pyo
+${PYSITELIB}/numpy/distutils/msvccompiler.py
+${PYSITELIB}/numpy/distutils/msvccompiler.pyc
+${PYSITELIB}/numpy/distutils/msvccompiler.pyo
 ${PYSITELIB}/numpy/distutils/npy_pkg_config.py
 ${PYSITELIB}/numpy/distutils/npy_pkg_config.pyc
 ${PYSITELIB}/numpy/distutils/npy_pkg_config.pyo
@@ -335,38 +343,12 @@
 ${PYSITELIB}/numpy/distutils/system_info.py
 ${PYSITELIB}/numpy/distutils/system_info.pyc
 ${PYSITELIB}/numpy/distutils/system_info.pyo
-${PYSITELIB}/numpy/distutils/tests/f2py_ext/__init__.py
-${PYSITELIB}/numpy/distutils/tests/f2py_ext/setup.py
-${PYSITELIB}/numpy/distutils/tests/f2py_ext/src/fib1.f
-${PYSITELIB}/numpy/distutils/tests/f2py_ext/src/fib2.pyf
-${PYSITELIB}/numpy/distutils/tests/f2py_ext/tests/test_fib2.py
-${PYSITELIB}/numpy/distutils/tests/f2py_f90_ext/__init__.py
-${PYSITELIB}/numpy/distutils/tests/f2py_f90_ext/include/body.f90
-${PYSITELIB}/numpy/distutils/tests/f2py_f90_ext/setup.py
-${PYSITELIB}/numpy/distutils/tests/f2py_f90_ext/src/foo_free.f90
-${PYSITELIB}/numpy/distutils/tests/f2py_f90_ext/tests/test_foo.py
-${PYSITELIB}/numpy/distutils/tests/gen_ext/__init__.py
-${PYSITELIB}/numpy/distutils/tests/gen_ext/setup.py
-${PYSITELIB}/numpy/distutils/tests/gen_ext/tests/test_fib3.py
-${PYSITELIB}/numpy/distutils/tests/pyrex_ext/__init__.py
-${PYSITELIB}/numpy/distutils/tests/pyrex_ext/primes.pyx
-${PYSITELIB}/numpy/distutils/tests/pyrex_ext/setup.py
-${PYSITELIB}/numpy/distutils/tests/pyrex_ext/tests/test_primes.py
-${PYSITELIB}/numpy/distutils/tests/setup.py
-${PYSITELIB}/numpy/distutils/tests/swig_ext/__init__.py
-${PYSITELIB}/numpy/distutils/tests/swig_ext/setup.py
-${PYSITELIB}/numpy/distutils/tests/swig_ext/src/example.c
-${PYSITELIB}/numpy/distutils/tests/swig_ext/src/example.i
-${PYSITELIB}/numpy/distutils/tests/swig_ext/src/zoo.cc
-${PYSITELIB}/numpy/distutils/tests/swig_ext/src/zoo.h
-${PYSITELIB}/numpy/distutils/tests/swig_ext/src/zoo.i
-${PYSITELIB}/numpy/distutils/tests/swig_ext/tests/test_example.py
-${PYSITELIB}/numpy/distutils/tests/swig_ext/tests/test_example2.py
 ${PYSITELIB}/numpy/distutils/tests/test_exec_command.py
 ${PYSITELIB}/numpy/distutils/tests/test_fcompiler_gnu.py
 ${PYSITELIB}/numpy/distutils/tests/test_fcompiler_intel.py
 ${PYSITELIB}/numpy/distutils/tests/test_misc_util.py
 ${PYSITELIB}/numpy/distutils/tests/test_npy_pkg_config.py
+${PYSITELIB}/numpy/distutils/tests/test_system_info.py
 ${PYSITELIB}/numpy/distutils/unixccompiler.py
 ${PYSITELIB}/numpy/distutils/unixccompiler.pyc
 ${PYSITELIB}/numpy/distutils/unixccompiler.pyo
@@ -391,30 +373,15 @@
 ${PYSITELIB}/numpy/doc/glossary.py
 ${PYSITELIB}/numpy/doc/glossary.pyc
 ${PYSITELIB}/numpy/doc/glossary.pyo
-${PYSITELIB}/numpy/doc/howtofind.py
-${PYSITELIB}/numpy/doc/howtofind.pyc
-${PYSITELIB}/numpy/doc/howtofind.pyo
 ${PYSITELIB}/numpy/doc/indexing.py
 ${PYSITELIB}/numpy/doc/indexing.pyc
 ${PYSITELIB}/numpy/doc/indexing.pyo
 ${PYSITELIB}/numpy/doc/internals.py
 ${PYSITELIB}/numpy/doc/internals.pyc
 ${PYSITELIB}/numpy/doc/internals.pyo
-${PYSITELIB}/numpy/doc/io.py
-${PYSITELIB}/numpy/doc/io.pyc
-${PYSITELIB}/numpy/doc/io.pyo
-${PYSITELIB}/numpy/doc/jargon.py
-${PYSITELIB}/numpy/doc/jargon.pyc
-${PYSITELIB}/numpy/doc/jargon.pyo
-${PYSITELIB}/numpy/doc/methods_vs_functions.py
-${PYSITELIB}/numpy/doc/methods_vs_functions.pyc
-${PYSITELIB}/numpy/doc/methods_vs_functions.pyo
 ${PYSITELIB}/numpy/doc/misc.py
 ${PYSITELIB}/numpy/doc/misc.pyc
 ${PYSITELIB}/numpy/doc/misc.pyo
-${PYSITELIB}/numpy/doc/performance.py
-${PYSITELIB}/numpy/doc/performance.pyc
-${PYSITELIB}/numpy/doc/performance.pyo
 ${PYSITELIB}/numpy/doc/structured_arrays.py
 ${PYSITELIB}/numpy/doc/structured_arrays.pyc
 ${PYSITELIB}/numpy/doc/structured_arrays.pyo
@@ -430,6 +397,9 @@
 ${PYSITELIB}/numpy/f2py/__init__.py
 ${PYSITELIB}/numpy/f2py/__init__.pyc
 ${PYSITELIB}/numpy/f2py/__init__.pyo
+${PYSITELIB}/numpy/f2py/__main__.py
+${PYSITELIB}/numpy/f2py/__main__.pyc
+${PYSITELIB}/numpy/f2py/__main__.pyo
 ${PYSITELIB}/numpy/f2py/__version__.py
 ${PYSITELIB}/numpy/f2py/__version__.pyc
 ${PYSITELIB}/numpy/f2py/__version__.pyo
@@ -526,7 +496,6 @@
 ${PYSITELIB}/numpy/lib/__init__.py
 ${PYSITELIB}/numpy/lib/__init__.pyc
 ${PYSITELIB}/numpy/lib/__init__.pyo
-${PYSITELIB}/numpy/lib/_compiled_base.so
 ${PYSITELIB}/numpy/lib/_datasource.py
 ${PYSITELIB}/numpy/lib/_datasource.pyc
 ${PYSITELIB}/numpy/lib/_datasource.pyo
@@ -584,6 +553,10 @@
 ${PYSITELIB}/numpy/lib/stride_tricks.py
 ${PYSITELIB}/numpy/lib/stride_tricks.pyc
 ${PYSITELIB}/numpy/lib/stride_tricks.pyo
+${PYSITELIB}/numpy/lib/tests/data/py2-objarr.npy
+${PYSITELIB}/numpy/lib/tests/data/py2-objarr.npz
+${PYSITELIB}/numpy/lib/tests/data/py3-objarr.npy
+${PYSITELIB}/numpy/lib/tests/data/py3-objarr.npz
 ${PYSITELIB}/numpy/lib/tests/data/python3.npy
 ${PYSITELIB}/numpy/lib/tests/data/win64python2.npy
 ${PYSITELIB}/numpy/lib/tests/test__datasource.py
@@ -598,6 +571,7 @@
 ${PYSITELIB}/numpy/lib/tests/test_index_tricks.py
 ${PYSITELIB}/numpy/lib/tests/test_io.py
 ${PYSITELIB}/numpy/lib/tests/test_nanfunctions.py
+${PYSITELIB}/numpy/lib/tests/test_packbits.py
 ${PYSITELIB}/numpy/lib/tests/test_polynomial.py
 ${PYSITELIB}/numpy/lib/tests/test_recfunctions.py
 ${PYSITELIB}/numpy/lib/tests/test_regression.py
@@ -713,9 +687,6 @@
 ${PYSITELIB}/numpy/polynomial/polynomial.py
 ${PYSITELIB}/numpy/polynomial/polynomial.pyc
 ${PYSITELIB}/numpy/polynomial/polynomial.pyo
-${PYSITELIB}/numpy/polynomial/polytemplate.py
-${PYSITELIB}/numpy/polynomial/polytemplate.pyc
-${PYSITELIB}/numpy/polynomial/polytemplate.pyo
 ${PYSITELIB}/numpy/polynomial/polyutils.py
 ${PYSITELIB}/numpy/polynomial/polyutils.pyc
 ${PYSITELIB}/numpy/polynomial/polyutils.pyo
@@ -773,6 +744,8 @@
 ${PYSITELIB}/numpy/testing/utils.pyo
 ${PYSITELIB}/numpy/tests/test_ctypeslib.py
 ${PYSITELIB}/numpy/tests/test_matlib.py
+${PYSITELIB}/numpy/tests/test_numpy_version.py
+${PYSITELIB}/numpy/tests/test_scripts.py
 ${PYSITELIB}/numpy/version.py
 ${PYSITELIB}/numpy/version.pyc
 ${PYSITELIB}/numpy/version.pyo
diff -r 614fecec5ff7 -r b86be2511cc5 math/py-numpy/distinfo
--- a/math/py-numpy/distinfo    Sun Jul 24 14:01:55 2016 +0000
+++ b/math/py-numpy/distinfo    Sun Jul 24 15:25:22 2016 +0000
@@ -1,12 +1,14 @@
-$NetBSD: distinfo,v 1.15 2015/11/03 23:33:42 agc Exp $
+$NetBSD: distinfo,v 1.16 2016/07/24 15:25:22 kamil Exp $
 
-SHA1 (numpy-1.9.2.tar.gz) = 86b4414cd01c4244141c59ea476ca8fdad8e9be2
-RMD160 (numpy-1.9.2.tar.gz) = f95c73c0260c2623d0a3ab08b09c241c06b86898
-SHA512 (numpy-1.9.2.tar.gz) = 70470ebb9afef5dfd0c83ceb7a9d5f1b7a072b1a9b54b04f04f5ed50fbaedd5b4906bd500472268d478f94df9e749a88698b1ff30f2d80258e7f3fec040617d9
-Size (numpy-1.9.2.tar.gz) = 3986067 bytes
-SHA1 (patch-aa) = 6c1716e1963533721f06853127573f5c271330f9
-SHA1 (patch-ab) = 74196abcc2eab4d409e8d3c0d8fb65dc99f2920b
-SHA1 (patch-numpy_core_setup.py) = 44393bc9f0b2eecbfb428b2d98989f0dfde68736
-SHA1 (patch-numpy_distutils_ccompiler.py) = 4505895b7dc817fe58ecdd02b241085f84f1542f
+SHA1 (numpy-1.11.1.tar.gz) = ccb5bed5d868a9f97caf2a294ddbf00d77af80bd
+RMD160 (numpy-1.11.1.tar.gz) = e0ee4f4076e757308b84489c060d50dcd4c5b696
+SHA512 (numpy-1.11.1.tar.gz) = b8c3e90c59c070bb1ab0ea10110e106f6a392609cf249d4e23c1f669abb680d9ea89d002444f15d30529b553d85a30877e2c3564cac74718171f4e4009567ec0
+Size (numpy-1.11.1.tar.gz) = 4380877 bytes
+SHA1 (patch-aa) = c964fa13fb120b1b0f9d0bf5bc713507cd60b945
+SHA1 (patch-ab) = b421455fdbb666c8075d8bffbeb59533434d23e6
+SHA1 (patch-numpy_core_include_numpy___numpyconfig.h.in) = 03abdf987d56076516978658c1c2d8d9ebe3a9a1
+SHA1 (patch-numpy_core_include_numpy_npy__endian.h) = 0dcc33ecf66d71d450ec5d87717f374693ba5691
+SHA1 (patch-numpy_core_setup.py) = 1a7799e0cd8f33563074d6bf48000fbbac5e0f5a
+SHA1 (patch-numpy_core_src_multiarray_numpyos.c) = acd97c7bae3419be4cb2e706d1989abe7e02c807
 SHA1 (patch-numpy_distutils_fcompiler_g95.py) = be73b64a3e551df998b6a904d6db762bf28a98ed
-SHA1 (patch-numpy_distutils_fcompiler_gnu.py) = e1e10a711f93588246a7b3cd606b247cb1c62113
+SHA1 (patch-numpy_distutils_fcompiler_gnu.py) = 7b4b521471d0c84b06ef0fc900ba9b4613de8432
diff -r 614fecec5ff7 -r b86be2511cc5 math/py-numpy/patches/patch-aa
--- a/math/py-numpy/patches/patch-aa    Sun Jul 24 14:01:55 2016 +0000
+++ b/math/py-numpy/patches/patch-aa    Sun Jul 24 15:25:22 2016 +0000
@@ -1,4 +1,6 @@
-$NetBSD: patch-aa,v 1.4 2014/02/28 09:43:10 adam Exp $
+$NetBSD: patch-aa,v 1.5 2016/07/24 15:25:22 kamil Exp $
+
+Recognize g95
 
 --- numpy/distutils/fcompiler/__init__.py.orig 2013-04-07 05:04:05.000000000 +0000
 +++ numpy/distutils/fcompiler/__init__.py
diff -r 614fecec5ff7 -r b86be2511cc5 math/py-numpy/patches/patch-ab
--- a/math/py-numpy/patches/patch-ab    Sun Jul 24 14:01:55 2016 +0000
+++ b/math/py-numpy/patches/patch-ab    Sun Jul 24 15:25:22 2016 +0000
@@ -1,4 +1,6 @@
-$NetBSD: patch-ab,v 1.3 2015/04/17 00:41:38 wen Exp $
+$NetBSD: patch-ab,v 1.4 2016/07/24 15:25:22 kamil Exp $
+



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