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# -*- coding: utf-8 -*-
earth models using precision trigonometric, vector-based, exact, elliptic and approximate methods for geodetic (lat-/longitude) and geocentric (U{ECEF<https://WikiPedia.org/wiki/ECEF>} cartesian) coordinates.
Transcoded from U{JavaScript originals<https://GitHub.com/ChrisVeness/geodesy>} by I{Chris Veness (C) 2005-2019} and several U{C++ classes<https://GeographicLib.SourceForge.io/html/annotated.html>} by I{Charles F.F. Karney (C) 2008-2021} and published under the same U{MIT License <https://OpenSource.org/licenses/MIT>}**.
There are four modules for ellipsoidal earth models, C{ellipsoidalExact}, C{-Karney}, C{-Vincenty} and C{-Nvector} and two for spherical ones, C{sphericalTrigonometry} and C{-Nvector}. Each module provides a geodetic B{C{LatLon}} and a geocentric B{C{Cartesian}} class with methods and functions to compute distance, surface area, perimeter, initial and final bearing, intermediate and nearest points, circle intersections, path intersections, trilateration (by intersection, by overlap and on 3d), conversions and unrolling, among other things. For more information and further details see the U{documentation<https://mrJean1.GitHub.io/PyGeodesy>}, the descriptions of U{Latitude/Longitude<https://www.Movable-Type.co.UK/scripts/latlong.html>}, U{Vincenty<https://www.Movable-Type.co.UK/scripts/latlong-vincenty.html>} and U{Vector-based<https://www.Movable-Type.co.UK/scripts/latlong-vectors.html>} geodesy, the original U{JavaScript source<https://GitHub.com/ChrisVeness/geodesy>} or U{docs<https://www.Movable-Type.co.UK/scripts/geodesy/docs>} and I{Karney}'s Python U{geographiclib<https://PyPI.org/project/geographiclib>} and U{C++ GeographicLib <https://GeographicLib.SourceForge.io/html/index.html>}.
Also included are modules for conversions to and from U{Cassini-Soldner <https://GeographicLib.SourceForge.io/html/classGeographicLib_1_1CassiniSoldner.html>}, U{ECEF<https://WikiPedia.org/wiki/ECEF>} (Earth-Centered, Earth-Fixed cartesian), U{UPS<https://WikiPedia.org/wiki/Universal_polar_stereographic_coordinate_system>} (Universal Polar Stereographic), U{UTM <https://www.Movable-Type.co.UK/scripts/latlong-utm-mgrs.html>} (U{Exact <https://GeographicLib.SourceForge.io/html/classGeographicLib_1_1TransverseMercatorExact.html>} and Universal Transverse Mercator) and U{Web Mercator<https://WikiPedia.org/wiki/Web_Mercator>} (Pseudo-Mercator) coordinates, U{MGRS<https://www.Movable-Type.co.UK/scripts/latlong-utm-mgrs.html>} (NATO Military Grid Reference System) and U{OSGR <https://www.Movable-Type.co.UK/scripts/latlong-os-gridref.html>} (British Ordinance Survery Grid Reference) grid references, U{TRF<http://ITRF.ENSG.IGN.FR>} (Terrestrial Reference Frames) and modules to encode and decode U{EPSG<https://www.EPSG-Registry.org>}, U{Geohashes <https://www.Movable-Type.co.UK/scripts/geohash.html>}, U{Georefs (WGRS) <https://WikiPedia.org/wiki/World_Geographic_Reference_System>} and U{Garefs (GARS) <https://WikiPedia.org/wiki/Global_Area_Reference_System>}.
Other modules provide U{Albers equal-area<https://GeographicLib.SourceForge.io/ html/classGeographicLib_1_1AlbersEqualArea.html>} projections, U{azimuthal equidistant <https://GeographicLib.SourceForge.io/html/classGeographicLib_1_1AzimuthalEquidistant.html>} and other I{azimuthal} projections and Lambert I{conformal conic} projections and positions (from U{John P. Snyder, "Map Projections -- A Working Manual", 1987 <https://Pubs.USGS.gov/pp/1395/report.pdf>}), functions to clip a path or polygon of C{LatLon} points using the U{Cohen-Sutherland<https://WikiPedia.org/wiki/ Cohen-Sutherland_algorithm>}, the U{Liang-Barsky<https://www.CS.Helsinki.FI/ group/goa/viewing/leikkaus/intro.html>} and the U{Sutherland-Hodgman <https://WikiPedia.org/wiki/Sutherland-Hodgman_algorithm>} methods, functions to U{simplify<https://Bost.Ocks.org/mike/simplify>} or linearize a path of C{LatLon} points (or a U{NumPy array <https://docs.SciPy.org/doc/numpy/ reference/generated/numpy.array.html>}), including implementations of the U{Ramer-Douglas-Peucker<https://WikiPedia.org/wiki/Ramer-Douglas-Peucker_algorithm>} the U{Visvalingam-Whyatt<https://hydra.Hull.ac.UK/resources/hull:8338>} and the U{Reumann-Witkam<https://psimpl.SourceForge.net/reumann-witkam.html>} algorithms and modified versions of the former. Other classes U{interpolate <https://docs.SciPy.org/doc/scipy/reference/interpolate.html>} the C{height} of C{LatLon} points and C{Geoid} models or compute various U{Fréchet <https://WikiPedia.org/wiki/Frechet_distance>} or U{Hausdorff <https://WikiPedia.org/wiki/Hausdorff_distance>} distances.
Installation ============
To install PyGeodesy, type C{pip install PyGeodesy} or C{easy_install PyGeodesy} in a terminal or command window.
Alternatively, download C{PyGeodesy-yy.m.d.zip} from U{PyPI<https://PyPI.org/project/PyGeodesy>} or U{GitHub<https://GitHub.com/mrJean1/PyGeodesy>}, C{unzip} the downloaded file, C{cd} to directory C{Pygeodesy-yy.m.d} and type C{python[3] setup.py install}.
To run all PyGeodesy tests, type C{python[3] setup.py test} or type C{python[3] test/run.py} or type C{python[3] test/unitTestSuite.py} before or after installation.
Dependencies ============
Installation of I{Karney}'s Python package U{geographiclib<https://PyPI.org/project/geographiclib>} is optional, but required to use modules L{ellipsoidalKarney} and L{css}, L{azimuthal} classes L{EquidistantKarney} and L{GnomonicKarney} and the L{HeightIDWkarney} interpolator.
Both U{numpy<https://PyPI.org/project/numpy>} and U{scipy<https://PyPI.org/project/scipy>} must be installed for most C{Geoid...} and C{Height...} interpolators, except the C{HeightIDW...} ones. Function L{trilaterate3d2} and method L{Vector3d.trilaterate3d2} require U{numpy<https://PyPI.org/project/numpy>}.
Modules L{ellipsoidalGeodSolve} and L{geodsolve} and L{azimuthal} classes L{EquidistantGeodSolve} and L{GnomonicGeodSolve} depend on I{Karney}'s C++ utility U{GeodSolve <https://GeographicLib.SourceForge.io/html/utilities.html>} to be executable.
Documentation =============
In addition to the C{pygeodesy} package, the U{PyGeodesy<https://PyPI.org/project/PyGeodesy>} U{distribution files<https://GitHub.com/mrJean1/PyGeodesy/tree/master/dist>} contain the tests, the test results (on macOS only) and the complete U{documentation<https://mrJean1.GitHub.io/PyGeodesy>} (generated by U{Epydoc<https://PyPI.org/project/epydoc>} using command line: C{epydoc --html --no-private --no-source --name=PyGeodesy --url=... -v pygeodesy}).
Tests =====
The tests have been run with Python 3.9.6 (with U{geographiclib<https://PyPI.org/project/geographiclib>} 1.52), Python 3.8.10 (withU{geographiclib<https://PyPI.org/project/geographiclib>} 1.52, U{GeodSolve <https://GeographicLib.SourceForge.io/html/utilities.html>} 1.51, U{numpy<https://PyPI.org/project/numpy>} 1.19.2 and U{scipy<https://PyPI.org/project/scipy>} 1.5.2) and macOS' Python 2.7.16 (with U{GeodSolve <https://GeographicLib.SourceForge.io/html/utilities.html>} 1.51 and U{numpy<https://PyPI.org/project/numpy>} 1.16.6), all on macOS 11.4 (10.16) Big Sur and in 64-bit (and Intel) only. The tests are run with and without C{lazy import} for Python 3 and with command line option C{-W always} and environment variable C{PYGEODESY_WARNINGS=on} for all Python versions. The results of only those tests are included in the distribution files.
Test coverage has been measured with U{coverage<https://PyPI.org/project/coverage>} 4.5.4 using Python 3.9.6 (with U{geographiclib<https://PyPI.org/project/geographiclib>} 1.52), Python 3.8.10 (with U{geographiclib<https://PyPI.org/project/geographiclib>} 1.52, U{numpy<https://PyPI.org/project/numpy>} 1.19.2 and U{scipy<https://PyPI.org/project/scipy>} 1.5.2) and macOS' Python 2.7.16 (with U{numpy <https://PyPI.org/project/numpy>} 1.16.6). The complete coverage report in HTML and a PDF summary are included in the distribution files.
The tests also ran with Python 3.8.0, 3.7.1, 3.6.7, 2.7.15 and U{PyPy<https://PyPy.org>} 7.1.1 (Python 3.6.1 and 2.7.13) (and U{geographiclib<https://PyPI.org/project/geographiclib>} 1.52) on U{Ubuntu 16.04 <https://Travis-CI.com/mrJean1/PyGeodesy>} and with Python 3.9.1 (and U{geographiclib <https://PyPI.org/project/geographiclib>} 1.52) on U{Debian 9 <https://Cirrus-CI.com/github/mrJean1/PyGeodesy/master>}, all in 64-bit only and with Python 3.8.0, 3.7.5 and 2.7.17 (all with U{geographiclib<https://PyPI.org/project/geographiclib>} 1.52) on U{Windows Server 2012R2<https://CI.AppVeyor.com/project/mrJean1/pygeodesy>} in both 64- and 32-bit.
A single-File and single-Directory application with C{pygeodesy} has been bundled using U{PyInstaller <https://www.PyInstaller.org>} 3.4 and 64-bit Python 3.7.3 on macOS 10.13.6 High Sierra.
Previously, the tests were run with Python 3.9.0-5, 3.8.0-6, 3.7.2-6, 3.7.0, 3.6.2-5, 3.5.3, 2.7.13-17, 2.7.10 and 2.6.9 (and U{numpy<https://PyPI.org/project/numpy>} 1.19.0, 1.16.5, 1.16.2, 1.15.2, 1.14.0, 1.13.1, 1.8.0rc1 or 1.6.2 and U{scipy<https://PyPI.org/project/scipy>} 1.5.0), U{PyPy<https://PyPy.org>} 7.3.0 (Python 2.7.13 and 3.6.9), U{PyPy<https://PyPy.org>} 6.0.0 (Python 2.7.13 and 3.5.3) and U{Intel-Python<https://software.Intel.com/en-us/distribution-for-python>} 3.5.3 (and U{numpy <https://PyPI.org/project/numpy>} 1.11.3) on macOS 11.0-3.1 Big Sur, 10.15.3, 10.15.5-7 Catalina, macOS 10.14 Mojave, macOS 10.13.6 High Sierra, macOS 10.12 Sierra, MacOS X 10.11 El Capitan and/or MacOS X 10.10 Yosemite, with U{Pythonista3.2<https://OMZ-Software.com/pythonista>} (with geographiclib 1.50 or 1.49 and numpy 1.8.0) on iOS 14.4.2, 11.4.1, 12.0-3 on iPad4, iPhone6 and/or iPhone10, with U{Pythonista 3.1<https://OMZ-Software.com/pythonista>} on iOS 10.3.3, 11.0.3, 11.1.2 and 11.3 on iPad4, all in 64-bit only and with 32-bit Python 2.7.14 on Windows 10 Pro and with 32-bit Python 2.6.6 on Windows XP SP3.
Notes =====
All Python source code has been statically U{checked <https://GitHub.com/ActiveState/code/tree/master/recipes/Python/546532_PyChecker_postprocessor>} with U{PyChecker<https://PyPI.org/project/pychecker>}, U{PyFlakes<https://PyPI.org/project/pyflakes>}, U{PyCodeStyle<https://PyPI.org/project/pycodestyle>} (formerly Pep8) and U{McCabe <https://PyPI.org/project/mccabe>} using Python 2.7.18 and with U{Flake8<https://PyPI.org/project/flake8>} using Python 3.9.6, both in 64-bit on macOS 11.4 (10.16) Big Sur (Intel).
Classes with a name ending in C{Karney} and several more are transcoded from I{Karney}'s U{C++ classes <https://GeographicLib.SourceForge.io/html/annotated.html>} or require I{Karney}'s Python package U{geographiclib<https://PyPI.org/project/geographiclib>} to be installed. A complete list is in module U{karney<https://mrJean1.GitHub.io/PyGeodesy/docs/pygeodesy.karney-module.html>}.
Some function and method names differ from the JavaScript version. In such cases documentation tag B{JS name:} shows the original JavaScript name.
Env vars ========
The following environment variables are observed by C{PyGeodesy}:
- C{PYGEODESY_EXCEPTION_CHAINING} - see module L{pygeodesy.errors}. - C{PYGEODESY_GEODSOLVE} - see module L{pygeodesy.geodsolve}. - C{PYGEODESY_LAZY_IMPORT} - see module L{pygeodesy.lazily} and variable L{isLazy}.
- C{PYGEODESY_BOOL_STD_REPR} - see method L{pygeodesy.Bool}C{.__repr__}. - C{PYGEODESY_FLOAT_STD_REPR} - see method L{pygeodesy.Float}C{.__repr__}. - C{PYGEODESY_INT_STD_REPR} - see method L{pygeodesy.Int}C{.__repr__}. - C{PYGEODESY_METER_STD_REPR} - see method L{pygeodesy.Meter}C{.__repr__}. - C{PYGEODESY_STR_STD_REPR} - see method L{pygeodesy.Str}C{.__repr__}.
plus during development:
- C{PYGEODESY_FOR_DOCS} - for extended documentation by C{epydoc}. - C{PYGEODESY_WARNINGS} - see module L{pygeodesy.props} and function L{DeprecationWarnings}. - C{PYTHONDEVMODE} - see modules L{pygeodesy.errors} and L{pygeodesy.props}.
License =======
**) U{Copyright (C) 2016-2021 -- mrJean1 at Gmail -- All Rights Reserved. <https://OpenSource.org/licenses/MIT>}
C{Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:}
C{The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.}
C{THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.}
@newfield example: Example, Examples @newfield JSname: JS name, JS names
@var EPS: System's M{epsilon} ≈ 2.220446049e-16 (C{float}). @var EPS2: M{EPS * 2} ≈ 4.440892098501e-16 (C{float}). @var EPS_2: M{EPS / 2} ≈ 1.110223024625e-16 (C{float}). @var EPS1: M{1 - EPS} ≈ 0.9999999999999998 (C{float}). @var EPS1_2: M{1 - EPS_2} ≈ 0.9999999999999999 (C{float}). @var EPS0: M{EPS**2} ≈ 4.9e-32 for near-zero comparison
@var F_D: Format degrees as unsigned "deg°" plus suffix C{N, S, W} or C{E} (C{str}). @var F_DM: Format degrees as unsigned "deg°min′" plus suffix (C{str}). @var F_DMS: Format degrees as unsigned "deg°min′sec″" plus suffix (C{str}). @var F_DEG: Format degrees as unsigned "[D]DD" plus suffix without symbol (C{str}). @var F_MIN: Format degrees as unsigned "[D]DDMM" plus suffix without symbols (C{str}). @var F_SEC: Format degrees as unsigned "[D]DDMMSS" plus suffix without symbols (C{str}). @var F__E: Format degrees as unsigned "%E" plus suffix without symbol (C{str}). @var F__F: Format degrees as unsigned "%F" plus suffix without symbol (C{str}). @var F__G: Format degrees as unsigned "%G" plus suffix without symbol (C{str}). @var F_RAD: Convert degrees to radians and format as unsigned "RR" plus suffix (C{str}).
@var F_D_: Format degrees as signed "-/deg°" without suffix (C{str}). @var F_DM_: Format degrees as signed "-/deg°min′" without suffix (C{str}). @var F_DMS_: Format degrees as signed "-/deg°min′sec″" without suffix (C{str}). @var F_DEG_: Format degrees as signed "-/[D]DD" without suffix and symbol (C{str}). @var F_MIN_: Format degrees as signed "-/[D]DDMM" without suffix and symbols (C{str}). @var F_SEC_: Format degrees as signed "-/[D]DDMMSS" without suffix and symbols (C{str}). @var F__E_: Format degrees as signed "-%E" without suffix and symbol (C{str}). @var F__F_: Format degrees as signed "-%F" without suffix and symbol (C{str}). @var F__G_: Format degrees as signed "-%G" without suffix and symbol (C{str}). @var F_RAD_: Convert degrees to radians and format as signed "-/RR" without suffix (C{str}).
@var F_D__: Format degrees as signed "-/+deg°" without suffix (C{str}). @var F_DM__: Format degrees as signed "-/+deg°min′" without suffix (C{str}). @var F_DMS__: Format degrees as signed "-/+deg°min′sec″" without suffix (C{str}). @var F_DEG__: Format degrees as signed "-/+[D]DD" without suffix and symbol (C{str}). @var F_MIN__: Format degrees as signed "-/+[D]DDMM" without suffix and symbols (C{str}). @var F_SEC__: Format degrees as signed "-/+[D]DDMMSS" without suffix and symbols (C{str}). @var F__E__: Format degrees as signed "-/+%E" without suffix and symbol (C{str}). @var F__F__: Format degrees as signed "-/+%F" without suffix and symbol (C{str}). @var F__G__: Format degrees as signed "-/+%G" without suffix and symbol (C{str}). @var F_RAD__: Convert degrees to radians and format as signed "-/+RR" without suffix (C{str}).
@var DIG: System's M{float decimal digits} = 15 (C{int}). @var INF: Infinity (C{float}), see function L{isinf}, L{isfinite}. @var MANT_DIG: System's M{float mantissa bits} = 53 (C{int}). @var MANTIS: DEPRECATED, use C{MANT_DIG}. @var MAX: System's M{float max} ≈ 1.798e+308 (C{float}). @var MIN: System's M{float min} ≈ 2.225e-308 (C{float}). @var NAN: Not-A-Number (C{float}), see function L{isnan}. @var NEG0: Negative 0.0 (C{float}), see function L{isneg0}. @var NN: Empty (C{str}), U{I{Nomen Nescio}<https://Wiktionary.org/wiki/N.N.>}.
@var PI: Constant M{math.pi} (C{float}). @var PI2: Two PI, M{PI * 2}, aka I{Tau} (C{float}). @var PI3: Three PI, M{PI * 3} (C{float}). @var PI3_2: One and a half PI, M{PI * 3 / 2} (C{float}). @var PI4: Four PI, M{PI * 4} (C{float}). @var PI_2: Half PI, M{PI / 2} (C{float}). @var PI_4: Quarter PI, M{PI / 4} (C{float}).
@var R_M: Mean (spherical) earth radius (C{meter}). @var R_MA: Equatorial earth radius (C{meter}), WGS84, EPSG:3785. @var R_MB: Polar earth radius (C{meter}), WGS84, EPSG:3785. @var R_KM: Mean (spherical) earth radius (C{km}, kilometer). @var R_NM: Mean (spherical) earth radius (C{NM}, nautical miles). @var R_SM: Mean (spherical) earth radius (C{SM}, statute miles). @var R_FM: Former FAI-Sphere earth radius (C{meter}). @var R_GM: Average earth radius, distance to geoid surface (C{meter}) @var R_VM: Aviation/Navigation earth radius (C{meter}).
@var S_DEG: Degrees symbol "°" (C{str}). @var S_MIN: Minutes symbol "′" (C{str}). @var S_SEC: Seconds symbol "″" (C{str}). @var S_RAD: Radians symbol "" (C{str}). @var S_SEP: Separator between deg°, min′ and sec″ "" (C{str}).
@var Conics: Registered conics (C{enum-like}). @var Datums: Registered datums (C{enum-like}). @var Ellipsoids: Registered ellipsoids (C{enum-like}). @var RefFrames: Registered reference frames (C{enum-like}). @var Transforms: Registered transforms (C{enum-like}).
@var isLazy: Lazy import setting (C{int} 0, 1, 2 or 3+) from C{env} variable C{PYGEODESY_LAZY_IMPORT}, or C{None} if C{lazy import} is not supported or not enabled, or C{False} if initializing C{lazy import} failed.
@var pygeodesy_abspath: Fully qualified C{pygeodesy} directory name (C{str}).
@var version: Normalized C{PyGeodesy} version (C{str}). '''
# <https://PyInstaller.ReadTheDocs.io/en/stable/runtime-information.html>
_lazy_import2 = None else: # setting __path__ should ... except ImportError: # ... if it doesn't, extend # sys.path to include this very directory such # that all public and private sub-modules can # be imported (and checked by PyChecker, etc.) sys.path.insert(0, pygeodesy_abspath) # XXX __path__[0]
# lazily requires Python 3.7+, see lazily.__doc__
# import all public modules and export as such
# lift all public classes, constants, functions, etc. but ONLY # from the following modules ... (see also David Beazley's # talk <https://DaBeaz.com/modulepackage/index.html>) ... BUT # NOT modules ellipsoidal*, epsg, gars, geohash, spherical*, # vector and wgrs ... in order keep those as modules ONLY # from pygeodesy.ellipsoidalExact import * # PYCHOK __(_)__ # from pygeodesy.ellipsoidalGeodSolve import * # PYCHOK __(_)__ # from pygeodesy.ellipsoidalKarney import * # PYCHOK __(_)__ Neighbors8Dict, Resolutions2Tuple # PYCHOK lazily # from pygeodesy.sphericalNvector import * # PYCHOK __(_)__ # from pygeodesy.sphericalTrigonometry import * # PYCHOK __(_)__
_DOT_, _module_, _s_ # PYCHOK expected # collect all public module and attribute names and check # that modules are imported from this package, 'pygeodesy' # (but the latter only when not bundled with PyInstaller or # Py2Exe, since the file-layout is different. Courtesy of # GilderGeek<https://GitHub.com/mrJean1/PyGeodesy/issues/31>) # XXX ps = () if _isfrozen else set([_pygeodesy_] + __name__.split(_DOT_)) t = _DOT_(_pygeodesy_, mod) raise ImportError('missing %s%s: %s' % (_module_, _NN, t)) # check that all other public attributes do exist s = _Fmt.SQUARE(_s_, len(t)) if len(t) > 1 else _NN t = _COMMASPACE_.join(_DOT_(_pygeodesy_, mod, a) for a in t) raise ImportError('missing %s%s: %s' % (_attribute_, s, t)) # XXX if ps: # check that mod is a _pygeodesy_ module # XXX m = globalocals[mod] # assert(m.__name__ == mod) # XXX f = getattr(m, '__file__', _NN) # XXX d = dirname(abspath(f)) if f else pygeodesy_abspath # XXX p = getattr(m, '__package__', _NN) or _pygeodesy_ # XXX if p not in ps or d != pygeodesy_abspath: # XXX raise ImportError('foreign module: %s from %r' % (_DOT_(p, mod), f or p))
# see setup.py for similar logic
# XXX del ellipsoidalBase, ellipsoidalBaseDI, sphericalBase, utmupsBase # PYCHOK expected
# **) MIT License # # Copyright (C) 2016-2021 -- mrJean1 at Gmail -- All Rights Reserved. # # Permission is hereby granted, free of charge, to any person obtaining a # copy of this software and associated documentation files (the "Software"), # to deal in the Software without restriction, including without limitation # the rights to use, copy, modify, merge, publish, distribute, sublicense, # and/or sell copies of the Software, and to permit persons to whom the # Software is furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS # OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL # THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR # OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, # ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR # OTHER DEALINGS IN THE SOFTWARE. |