mpfi 1.5.4+ds-3 source package in Ubuntu

Changelog

mpfi (1.5.4+ds-3) unstable; urgency=medium

  * Debianization:
    - d/watch, correct;
    - d/control:
      - Standards-Version, bump to version 4.7.0 (no change);

 -- Jerome Benoit <email address hidden>  Sat, 18 May 2024 11:20:38 +0000

Upload details

Uploaded by:
Debian Science Maintainers
Uploaded to:
Sid
Original maintainer:
Debian Science Maintainers
Architectures:
any all
Section:
math
Urgency:
Medium Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Oracular release universe math

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File Size SHA-256 Checksum
mpfi_1.5.4+ds-3.dsc 2.9 KiB 52cfd7622015ab1feae4bf88f72539fdcc051e5079f698b6c084514a360b3acd
mpfi_1.5.4+ds.orig.tar.xz 113.0 KiB 4026d2d0562c23cdf6b9cf8857839c0689c44b62e8ce4062de9c1f3d04aa3587
mpfi_1.5.4+ds-3.debian.tar.xz 10.4 KiB dcddca2d5382cd42a24141c16cd8b7fb2305ea2dc7692ad6a034902a26f01869

Available diffs

No changes file available.

Binary packages built by this source

libmpfi-dev: multiple precision floating-point interval computation library -- libdev

 This package provides a C library of functions for interval arithmetic
 computations with arbitrary precision.
 .
 The basic principle of interval arithmetic consists in enclosing every number
 by an interval containing it and being representable by machine numbers: for
 instance it can be stored as its lower and upper endpoints and these bounds
 are machine numbers, or as a centre and a radius which are machine numbers.
 .
 The arithmetic operations are extended for interval operands in such a way
 that the exact result of the operation belongs to the computed interval.
 .
 The purpose of an arbitrary precision interval arithmetic is on the one hand
 to get guaranteed results, thanks to interval computation, and on the other
 hand to obtain accurate results, thanks to multiple precision arithmetic. The
 MPFI library is built upon MPFR in order to benefit from the correct roundings
 provided by MPFR. Further advantages of using MPFR are its portability and
 compliance with the IEEE 754 standard for floating-point arithmetic.
 .
 This package provides the static library and symbolic links needed for
 development.

libmpfi-dev-common: multiple precision floating-point interval computation library -- headers

 This package provides a C library of functions for interval arithmetic
 computations with arbitrary precision.
 .
 The basic principle of interval arithmetic consists in enclosing every number
 by an interval containing it and being representable by machine numbers: for
 instance it can be stored as its lower and upper endpoints and these bounds
 are machine numbers, or as a centre and a radius which are machine numbers.
 .
 The arithmetic operations are extended for interval operands in such a way
 that the exact result of the operation belongs to the computed interval.
 .
 The purpose of an arbitrary precision interval arithmetic is on the one hand
 to get guaranteed results, thanks to interval computation, and on the other
 hand to obtain accurate results, thanks to multiple precision arithmetic. The
 MPFI library is built upon MPFR in order to benefit from the correct roundings
 provided by MPFR. Further advantages of using MPFR are its portability and
 compliance with the IEEE 754 standard for floating-point arithmetic.
 .
 This package provides the headers needed by developers.

libmpfi-doc: multiple precision floating-point interval computation library -- doc

 This package provides a C library of functions for interval arithmetic
 computations with arbitrary precision.
 .
 The basic principle of interval arithmetic consists in enclosing every number
 by an interval containing it and being representable by machine numbers: for
 instance it can be stored as its lower and upper endpoints and these bounds
 are machine numbers, or as a centre and a radius which are machine numbers.
 .
 The arithmetic operations are extended for interval operands in such a way
 that the exact result of the operation belongs to the computed interval.
 .
 The purpose of an arbitrary precision interval arithmetic is on the one hand
 to get guaranteed results, thanks to interval computation, and on the other
 hand to obtain accurate results, thanks to multiple precision arithmetic. The
 MPFI library is built upon MPFR in order to benefit from the correct roundings
 provided by MPFR. Further advantages of using MPFR are its portability and
 compliance with the IEEE 754 standard for floating-point arithmetic.
 .
 This package provides the user manual.

libmpfi0: multiple precision floating-point interval computation library -- lib

 This package provides a C library of functions for interval arithmetic
 computations with arbitrary precision.
 .
 The basic principle of interval arithmetic consists in enclosing every number
 by an interval containing it and being representable by machine numbers: for
 instance it can be stored as its lower and upper endpoints and these bounds
 are machine numbers, or as a centre and a radius which are machine numbers.
 .
 The arithmetic operations are extended for interval operands in such a way
 that the exact result of the operation belongs to the computed interval.
 .
 The purpose of an arbitrary precision interval arithmetic is on the one hand
 to get guaranteed results, thanks to interval computation, and on the other
 hand to obtain accurate results, thanks to multiple precision arithmetic. The
 MPFI library is built upon MPFR in order to benefit from the correct roundings
 provided by MPFR. Further advantages of using MPFR are its portability and
 compliance with the IEEE 754 standard for floating-point arithmetic.
 .
 This package provides the dynamic library.

libmpfi0-dbgsym: debug symbols for libmpfi0