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Cabal revisions of linearmap-category-0.3.5.0

Hackage metadata revisions edit the .cabal file after upload; each diff below is one revision.

revision 1
--- Initial linearmap-family.cabal generated by cabal init.  For further --- documentation, see http://haskell.org/cabal/users-guide/--name:                linearmap-category-version:             0.3.5.0-synopsis:            Native, complete, matrix-free linear algebra.-description:         The term /numerical linear algebra/ is often used almost-                     synonymous with /matrix modifications/. However, what's interesting-                     for most applications are really just /points in some vector space/-                     and linear mappings between them, not matrices (which represent-                     points or mappings, but inherently depend on a particular choice-                     of basis / coordinate system).-                     .-                     This library implements the crucial LA operations like solving-                     linear equations and eigenvalue problems, without requiring-                     that the vectors are represented in some particular basis. Apart-                     from conceptual elegance (only operations that are actually-                     geometrically sensible will typecheck – this is far stronger than-                     just confirming that the dimensions match, as some other libraries-                     do), this also opens up good optimisation possibilities: the-                     vectors can be unboxed, use dedicated sparse compression, possibly-                     carry out the computations on accelerated hardware (GPU etc.).-                     The spaces can even be infinite-dimensional (e.g. function spaces).-                     .-                     The linear algebra algorithms in this package only require the-                     vectors to support fundamental operations like addition, scalar-                     products, double-dual-space coercion and tensor products; none of-                     this requires a basis representation.-homepage:            https://github.com/leftaroundabout/linearmap-family-license:             GPL-3-license-file:        LICENSE-author:              Justus Sagemüller-maintainer:          (@) sagemueller $ geo.uni-koeln.de--- copyright:           -category:            Math-build-type:          Simple--- extra-source-files:  -cabal-version:       >=1.10--library-  exposed-modules:     Math.LinearMap.Category-                       Math.VectorSpace.ZeroDimensional-                       Math.LinearMap.Category.Derivatives-  other-modules:       Math.LinearMap.Category.Class-                       Math.LinearMap.Asserted-                       Math.LinearMap.Category.TensorQuot-                       Math.LinearMap.Category.Instances-                       Math.VectorSpace.Docile-  other-extensions:    FlexibleInstances, UndecidableInstances, FunctionalDependencies, TypeOperators, TypeFamilies-  build-depends:       base >=4.8 && <5,-                       vector-space >=0.11 && <0.13,-                       constrained-categories >=0.3 && <0.4,-                       containers, vector,-                       tagged,-                       free-vector-spaces >= 0.1.4 && < 0.2,-                       linear, lens, transformers,-                       manifolds-core >= 0.4.4 && < 0.6,-                       semigroups,-                       ieee754 >= 0.7 && < 0.9,-                       call-stack-  -- hs-source-dirs:      -  default-language:    Haskell2010+-- Initial linearmap-family.cabal generated by cabal init.  For further 
+-- documentation, see http://haskell.org/cabal/users-guide/
+
+name:                linearmap-category
+version:             0.3.5.0
+x-revision: 1
+synopsis:            Native, complete, matrix-free linear algebra.
+description:         The term /numerical linear algebra/ is often used almost
+                     synonymous with /matrix modifications/. However, what's interesting
+                     for most applications are really just /points in some vector space/
+                     and linear mappings between them, not matrices (which represent
+                     points or mappings, but inherently depend on a particular choice
+                     of basis / coordinate system).
+                     .
+                     This library implements the crucial LA operations like solving
+                     linear equations and eigenvalue problems, without requiring
+                     that the vectors are represented in some particular basis. Apart
+                     from conceptual elegance (only operations that are actually
+                     geometrically sensible will typecheck – this is far stronger than
+                     just confirming that the dimensions match, as some other libraries
+                     do), this also opens up good optimisation possibilities: the
+                     vectors can be unboxed, use dedicated sparse compression, possibly
+                     carry out the computations on accelerated hardware (GPU etc.).
+                     The spaces can even be infinite-dimensional (e.g. function spaces).
+                     .
+                     The linear algebra algorithms in this package only require the
+                     vectors to support fundamental operations like addition, scalar
+                     products, double-dual-space coercion and tensor products; none of
+                     this requires a basis representation.
+homepage:            https://github.com/leftaroundabout/linearmap-family
+license:             GPL-3
+license-file:        LICENSE
+author:              Justus Sagemüller
+maintainer:          (@) sagemueller $ geo.uni-koeln.de
+-- copyright:           
+category:            Math
+build-type:          Simple
+-- extra-source-files:  
+cabal-version:       >=1.10
+
+library
+  exposed-modules:     Math.LinearMap.Category
+                       Math.VectorSpace.ZeroDimensional
+                       Math.LinearMap.Category.Derivatives
+  other-modules:       Math.LinearMap.Category.Class
+                       Math.LinearMap.Asserted
+                       Math.LinearMap.Category.TensorQuot
+                       Math.LinearMap.Category.Instances
+                       Math.VectorSpace.Docile
+  other-extensions:    FlexibleInstances, UndecidableInstances, FunctionalDependencies, TypeOperators, TypeFamilies
+  build-depends:       base >=4.8 && <5,
+                       vector-space >=0.11 && <0.16,
+                       constrained-categories >=0.3 && <0.4,
+                       containers, vector,
+                       tagged,
+                       free-vector-spaces >= 0.1.4 && < 0.2,
+                       linear, lens, transformers,
+                       manifolds-core >= 0.4.4 && < 0.6,
+                       semigroups,
+                       ieee754 >= 0.7 && < 0.9,
+                       call-stack
+  -- hs-source-dirs:      
+  default-language:    Haskell2010
revision 2
 
 name:                linearmap-category
 version:             0.3.5.0
-x-revision: 1
+x-revision: 2
 synopsis:            Native, complete, matrix-free linear algebra.
 description:         The term /numerical linear algebra/ is often used almost
                      synonymous with /matrix modifications/. However, what's interesting
   other-extensions:    FlexibleInstances, UndecidableInstances, FunctionalDependencies, TypeOperators, TypeFamilies
   build-depends:       base >=4.8 && <5,
                        vector-space >=0.11 && <0.16,
-                       constrained-categories >=0.3 && <0.4,
+                       constrained-categories >=0.3 && <0.5,
                        containers, vector,
                        tagged,
                        free-vector-spaces >= 0.1.4 && < 0.2,
revision 3
 
 name:                linearmap-category
 version:             0.3.5.0
-x-revision: 2
+x-revision: 3
 synopsis:            Native, complete, matrix-free linear algebra.
 description:         The term /numerical linear algebra/ is often used almost
                      synonymous with /matrix modifications/. However, what's interesting
 license:             GPL-3
 license-file:        LICENSE
 author:              Justus Sagemüller
-maintainer:          (@) sagemueller $ geo.uni-koeln.de
+maintainer:          (@) jsag $ hvl.no
 -- copyright:           
 category:            Math
 build-type:          Simple
revision 4
 
 name:                linearmap-category
 version:             0.3.5.0
-x-revision: 3
+x-revision: 4
 synopsis:            Native, complete, matrix-free linear algebra.
 description:         The term /numerical linear algebra/ is often used almost
                      synonymous with /matrix modifications/. However, what's interesting
                        Math.VectorSpace.Docile
   other-extensions:    FlexibleInstances, UndecidableInstances, FunctionalDependencies, TypeOperators, TypeFamilies
   build-depends:       base >=4.8 && <5,
-                       vector-space >=0.11 && <0.16,
+                       vector-space >=0.11 && <0.18,
                        constrained-categories >=0.3 && <0.5,
                        containers, vector,
                        tagged,