(math/nlopt) Updated 2.4.2 to 2.6.2
# NLopt Release Notes
## NLopt 2.6.2
15 April 2020
* Fixed forced stop exception with dimension elimination ([#317])
* Fixed `get_initial_step` wrapping ([#319])
* Various build fixes ([#314], [#308], [#303], [#278])
## NLopt 2.6.1
13 April 2019
* Fix `nlopt_version` result for 2.6.x and update soname.
## NLopt 2.6
12 April 2019
* New `nlopt_set_upper_bound` and `nlopt_set_lower_bound` functions in the low-level C API to set one bound at a time ([#257]).
* There is no longer a separate `libnlopt_cxx` library: C++ algorithms (STOGO and AGS) are compiled and included by default ([#198]).
* Various build fixes ([#197], [#216], [#245], [#250], [#230], [#261], etc.), other fixes ([#242], [#258]).
## NLopt 2.5
26 July 2018
* New AGS global solver ([#194]), thanks to Vladislav Sovrasov.
* New `nlopt_get_numevals` function providing a built-in evaluation counter ([#160]).
* New `nlopt_get_errmsg` function for more descriptive error messages.
* Build system is converted to `cmake` ([#49]), thanks to Julien Schueller
* Plugins updated for recent Octave and Guile versions.
* Various other build fixes and minor bug fixes.
2021-09-18 07:06:06 +02:00
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# $NetBSD: Makefile,v 1.2 2021/09/18 05:06:06 mef Exp $
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Import nlopt-2.4.2 as math/nlopt.
NLopt is a free/open-source library for nonlinear optimization,
providing a common interface for a number of different free optimization
outines available online as well as original implementations of various
other algorithms.
Its features include:
- Callable from C, C++, Fortran, Matlab or GNU Octave, Python,
GNU Guile, Julia, GNU R, Lua, and OCaml.
- A common interface for many different algorithms -- try a different
algorithm just by changing one parameter.
- Support for large-scale optimization (some algorithms scalable to
millions of parameters and thousands of constraints).
- Both global and local optimization algorithms.
- Algorithms using function values only (derivative-free) and also
algorithms exploiting user-supplied gradients.
- Algorithms for unconstrained optimization, bound-constrained
optimization, and general nonlinear inequality/equality constraints.
Reviewed by: wiz@
2015-11-28 08:33:38 +01:00
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(math/nlopt) Updated 2.4.2 to 2.6.2
# NLopt Release Notes
## NLopt 2.6.2
15 April 2020
* Fixed forced stop exception with dimension elimination ([#317])
* Fixed `get_initial_step` wrapping ([#319])
* Various build fixes ([#314], [#308], [#303], [#278])
## NLopt 2.6.1
13 April 2019
* Fix `nlopt_version` result for 2.6.x and update soname.
## NLopt 2.6
12 April 2019
* New `nlopt_set_upper_bound` and `nlopt_set_lower_bound` functions in the low-level C API to set one bound at a time ([#257]).
* There is no longer a separate `libnlopt_cxx` library: C++ algorithms (STOGO and AGS) are compiled and included by default ([#198]).
* Various build fixes ([#197], [#216], [#245], [#250], [#230], [#261], etc.), other fixes ([#242], [#258]).
## NLopt 2.5
26 July 2018
* New AGS global solver ([#194]), thanks to Vladislav Sovrasov.
* New `nlopt_get_numevals` function providing a built-in evaluation counter ([#160]).
* New `nlopt_get_errmsg` function for more descriptive error messages.
* Build system is converted to `cmake` ([#49]), thanks to Julien Schueller
* Plugins updated for recent Octave and Guile versions.
* Various other build fixes and minor bug fixes.
2021-09-18 07:06:06 +02:00
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VERSION= 2.6.2
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DISTNAME= nlopt-${VERSION}
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Import nlopt-2.4.2 as math/nlopt.
NLopt is a free/open-source library for nonlinear optimization,
providing a common interface for a number of different free optimization
outines available online as well as original implementations of various
other algorithms.
Its features include:
- Callable from C, C++, Fortran, Matlab or GNU Octave, Python,
GNU Guile, Julia, GNU R, Lua, and OCaml.
- A common interface for many different algorithms -- try a different
algorithm just by changing one parameter.
- Support for large-scale optimization (some algorithms scalable to
millions of parameters and thousands of constraints).
- Both global and local optimization algorithms.
- Algorithms using function values only (derivative-free) and also
algorithms exploiting user-supplied gradients.
- Algorithms for unconstrained optimization, bound-constrained
optimization, and general nonlinear inequality/equality constraints.
Reviewed by: wiz@
2015-11-28 08:33:38 +01:00
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CATEGORIES= math
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(math/nlopt) Updated 2.4.2 to 2.6.2
# NLopt Release Notes
## NLopt 2.6.2
15 April 2020
* Fixed forced stop exception with dimension elimination ([#317])
* Fixed `get_initial_step` wrapping ([#319])
* Various build fixes ([#314], [#308], [#303], [#278])
## NLopt 2.6.1
13 April 2019
* Fix `nlopt_version` result for 2.6.x and update soname.
## NLopt 2.6
12 April 2019
* New `nlopt_set_upper_bound` and `nlopt_set_lower_bound` functions in the low-level C API to set one bound at a time ([#257]).
* There is no longer a separate `libnlopt_cxx` library: C++ algorithms (STOGO and AGS) are compiled and included by default ([#198]).
* Various build fixes ([#197], [#216], [#245], [#250], [#230], [#261], etc.), other fixes ([#242], [#258]).
## NLopt 2.5
26 July 2018
* New AGS global solver ([#194]), thanks to Vladislav Sovrasov.
* New `nlopt_get_numevals` function providing a built-in evaluation counter ([#160]).
* New `nlopt_get_errmsg` function for more descriptive error messages.
* Build system is converted to `cmake` ([#49]), thanks to Julien Schueller
* Plugins updated for recent Octave and Guile versions.
* Various other build fixes and minor bug fixes.
2021-09-18 07:06:06 +02:00
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MASTER_SITES= ${MASTER_SITE_GITHUB:=stevengj/}
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GITHUB_TAG= v${VERSION}
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Import nlopt-2.4.2 as math/nlopt.
NLopt is a free/open-source library for nonlinear optimization,
providing a common interface for a number of different free optimization
outines available online as well as original implementations of various
other algorithms.
Its features include:
- Callable from C, C++, Fortran, Matlab or GNU Octave, Python,
GNU Guile, Julia, GNU R, Lua, and OCaml.
- A common interface for many different algorithms -- try a different
algorithm just by changing one parameter.
- Support for large-scale optimization (some algorithms scalable to
millions of parameters and thousands of constraints).
- Both global and local optimization algorithms.
- Algorithms using function values only (derivative-free) and also
algorithms exploiting user-supplied gradients.
- Algorithms for unconstrained optimization, bound-constrained
optimization, and general nonlinear inequality/equality constraints.
Reviewed by: wiz@
2015-11-28 08:33:38 +01:00
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MAINTAINER= pkgsrc-users@NetBSD.org
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HOMEPAGE= http://ab-initio.mit.edu/nlopt/
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COMMENT= Nonlinear optimization library
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LICENSE= gnu-lgpl-v2.1 OR mit
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(math/nlopt) Updated 2.4.2 to 2.6.2
# NLopt Release Notes
## NLopt 2.6.2
15 April 2020
* Fixed forced stop exception with dimension elimination ([#317])
* Fixed `get_initial_step` wrapping ([#319])
* Various build fixes ([#314], [#308], [#303], [#278])
## NLopt 2.6.1
13 April 2019
* Fix `nlopt_version` result for 2.6.x and update soname.
## NLopt 2.6
12 April 2019
* New `nlopt_set_upper_bound` and `nlopt_set_lower_bound` functions in the low-level C API to set one bound at a time ([#257]).
* There is no longer a separate `libnlopt_cxx` library: C++ algorithms (STOGO and AGS) are compiled and included by default ([#198]).
* Various build fixes ([#197], [#216], [#245], [#250], [#230], [#261], etc.), other fixes ([#242], [#258]).
## NLopt 2.5
26 July 2018
* New AGS global solver ([#194]), thanks to Vladislav Sovrasov.
* New `nlopt_get_numevals` function providing a built-in evaluation counter ([#160]).
* New `nlopt_get_errmsg` function for more descriptive error messages.
* Build system is converted to `cmake` ([#49]), thanks to Julien Schueller
* Plugins updated for recent Octave and Guile versions.
* Various other build fixes and minor bug fixes.
2021-09-18 07:06:06 +02:00
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USE_CMAKE= yes
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Import nlopt-2.4.2 as math/nlopt.
NLopt is a free/open-source library for nonlinear optimization,
providing a common interface for a number of different free optimization
outines available online as well as original implementations of various
other algorithms.
Its features include:
- Callable from C, C++, Fortran, Matlab or GNU Octave, Python,
GNU Guile, Julia, GNU R, Lua, and OCaml.
- A common interface for many different algorithms -- try a different
algorithm just by changing one parameter.
- Support for large-scale optimization (some algorithms scalable to
millions of parameters and thousands of constraints).
- Both global and local optimization algorithms.
- Algorithms using function values only (derivative-free) and also
algorithms exploiting user-supplied gradients.
- Algorithms for unconstrained optimization, bound-constrained
optimization, and general nonlinear inequality/equality constraints.
Reviewed by: wiz@
2015-11-28 08:33:38 +01:00
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USE_LIBTOOL= yes
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USE_TOOLS+= pkg-config
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USE_LANGUAGES= c c++
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.include "../../devel/gmp/buildlink3.mk"
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.include "../../mk/bsd.pkg.mk"
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