ssreflect 1.15.0-1 source package in Ubuntu

Changelog

ssreflect (1.15.0-1) unstable; urgency=medium

  * New upstream release.
  * Rewrite the autopkgtest.

 -- Julien Puydt <email address hidden>  Tue, 05 Jul 2022 08:55:31 +0200

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

See full publishing history Publishing

Series Pocket Published Component Section
Kinetic release universe math

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ssreflect_1.15.0-1.dsc 2.5 KiB 4e26b6b227755cc43bc78ec334376a8d0db70c21c1a79ac1d5431597700c7126
ssreflect_1.15.0.orig.tar.gz 1.3 MiB 33105615c937ae1661e12e9bc00e0dbad143c317a6ab78b1a15e1d28339d2d95
ssreflect_1.15.0-1.debian.tar.xz 12.1 KiB c0bd3c3092d8e7ab6b10d888e051cb519d70d76e3b030b07dc5945a65260ff68

Available diffs

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Binary packages built by this source

libcoq-mathcomp: Mathematical Components library for Coq (all)

 The Mathematical Components Library is an extensive and coherent
 repository of formalized mathematical theories. It is based on the
 Coq proof assistant, powered with the Coq/SSReflect language.
 .
 These formal theories cover a wide spectrum of topics, ranging from
 the formal theory of general-purpose data structures like lists,
 prime numbers or finite graphs, to advanced topics in algebra.
 .
 The formalization technique adopted in the library, called "small
 scale reflection", leverages the higher-order nature of Coq's
 underlying logic to provide effective automation for many small,
 clerical proof steps. This is often accomplished by restating
 ("reflecting") problems in a more concrete form, hence the name. For
 example, arithmetic comparison is not an abstract predicate, but
 rather a function computing a Boolean.
 .
 This package installs the full Mathematical Components library.

libcoq-mathcomp-algebra: Mathematical Components library for Coq (algebra)

 The Mathematical Components Library is an extensive and coherent
 repository of formalized mathematical theories. It is based on the
 Coq proof assistant, powered with the Coq/SSReflect language.
 .
 These formal theories cover a wide spectrum of topics, ranging from
 the formal theory of general-purpose data structures like lists,
 prime numbers or finite graphs, to advanced topics in algebra.
 .
 The formalization technique adopted in the library, called "small
 scale reflection", leverages the higher-order nature of Coq's
 underlying logic to provide effective automation for many small,
 clerical proof steps. This is often accomplished by restating
 ("reflecting") problems in a more concrete form, hence the name. For
 example, arithmetic comparison is not an abstract predicate, but
 rather a function computing a Boolean.
 .
 This package installs the algebra part of the library (ring, fields,
 ordered fields, real fields, modules, algebras, integers, rationals,
 polynomials, matrices, vector spaces...).

libcoq-mathcomp-character: Mathematical Components library for Coq (character)

 The Mathematical Components Library is an extensive and coherent
 repository of formalized mathematical theories. It is based on the
 Coq proof assistant, powered with the Coq/SSReflect language.
 .
 These formal theories cover a wide spectrum of topics, ranging from
 the formal theory of general-purpose data structures like lists,
 prime numbers or finite graphs, to advanced topics in algebra.
 .
 The formalization technique adopted in the library, called "small
 scale reflection", leverages the higher-order nature of Coq's
 underlying logic to provide effective automation for many small,
 clerical proof steps. This is often accomplished by restating
 ("reflecting") problems in a more concrete form, hence the name. For
 example, arithmetic comparison is not an abstract predicate, but
 rather a function computing a Boolean.
 .
 This package installs the character theory part of the library
 (group representations, characters and class functions).

libcoq-mathcomp-field: Mathematical Components library for Coq (field)

 The Mathematical Components Library is an extensive and coherent
 repository of formalized mathematical theories. It is based on the
 Coq proof assistant, powered with the Coq/SSReflect language.
 .
 These formal theories cover a wide spectrum of topics, ranging from
 the formal theory of general-purpose data structures like lists,
 prime numbers or finite graphs, to advanced topics in algebra.
 .
 The formalization technique adopted in the library, called "small
 scale reflection", leverages the higher-order nature of Coq's
 underlying logic to provide effective automation for many small,
 clerical proof steps. This is often accomplished by restating
 ("reflecting") problems in a more concrete form, hence the name. For
 example, arithmetic comparison is not an abstract predicate, but
 rather a function computing a Boolean.
 .
 This package installs the field theory part of the library
 (field extensions, Galois theory, algebraic numbers, cyclotomic
 polynomials).

libcoq-mathcomp-fingroup: Mathematical Components library for Coq (finite groups)

 The Mathematical Components Library is an extensive and coherent
 repository of formalized mathematical theories. It is based on the
 Coq proof assistant, powered with the Coq/SSReflect language.
 .
 These formal theories cover a wide spectrum of topics, ranging from
 the formal theory of general-purpose data structures like lists,
 prime numbers or finite graphs, to advanced topics in algebra.
 .
 The formalization technique adopted in the library, called "small
 scale reflection", leverages the higher-order nature of Coq's
 underlying logic to provide effective automation for many small,
 clerical proof steps. This is often accomplished by restating
 ("reflecting") problems in a more concrete form, hence the name. For
 example, arithmetic comparison is not an abstract predicate, but
 rather a function computing a Boolean.
 .
 This package installs the finite groups theory part of the library
 (finite groups, group quotients, group morphisms, group presentation,
 group action...).

libcoq-mathcomp-solvable: Mathematical Components library for Coq (finite groups II)

 The Mathematical Components Library is an extensive and coherent
 repository of formalized mathematical theories. It is based on the
 Coq proof assistant, powered with the Coq/SSReflect language.
 .
 These formal theories cover a wide spectrum of topics, ranging from
 the formal theory of general-purpose data structures like lists,
 prime numbers or finite graphs, to advanced topics in algebra.
 .
 The formalization technique adopted in the library, called "small
 scale reflection", leverages the higher-order nature of Coq's
 underlying logic to provide effective automation for many small,
 clerical proof steps. This is often accomplished by restating
 ("reflecting") problems in a more concrete form, hence the name. For
 example, arithmetic comparison is not an abstract predicate, but
 rather a function computing a Boolean.
 .
 This package installs the second finite groups theory part of the
 library (abelian groups, center, commutator, Jordan-Holder series,
 Sylow theorems...).

libcoq-mathcomp-ssreflect: Mathematical Components library for Coq (small scale reflection)

 The Mathematical Components Library is an extensive and coherent
 repository of formalized mathematical theories. It is based on the
 Coq proof assistant, powered with the Coq/SSReflect language.
 .
 These formal theories cover a wide spectrum of topics, ranging from
 the formal theory of general-purpose data structures like lists,
 prime numbers or finite graphs, to advanced topics in algebra.
 .
 The formalization technique adopted in the library, called "small
 scale reflection", leverages the higher-order nature of Coq's
 underlying logic to provide effective automation for many small,
 clerical proof steps. This is often accomplished by restating
 ("reflecting") problems in a more concrete form, hence the name. For
 example, arithmetic comparison is not an abstract predicate, but
 rather a function computing a Boolean.
 .
 This package installs the small scale reflection language extension
 and the minimal set of libraries to take advantage of it (sequences,
 booleans and boolean predicates, natural numbers and types with decidable
 equality, finite types, finite sets, finite functions, finite graphs,
 basic arithmetics and prime numbers, big operators...).