product-profunctors
capability
product-profunctors | capability | |
---|---|---|
4 | 1 | |
18 | 213 | |
- | 0.5% | |
5.7 | 2.7 | |
about 2 months ago | 4 months ago | |
Haskell | Haskell | |
GNU General Public License v3.0 or later | BSD 3-clause "New" or "Revised" License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
product-profunctors
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Out of memory when building product-profunctors
If you're really interested in solving it then you could download the git repo, run cabal build, see if you get the same error, and if so progressively remove parts of the package (by commenting them out in the source files) until you get something to compile. That way you may be able to pinpoint the exact problem.
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Rust extension traits, greppability and IDEs
I use it in test suites, where the tests are simply to check that something compiles, not its behaviour, for example https://github.com/tomjaguarpaw/product-profunctors/blob/faf...
I had also thought that there was a reason one could need that pattern to import instances even in the absence of orphans, but on reflection I think I was mistaken.
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[ANN] Jordan: Abstract, inspectable JSON Serialization and Parsing
Here is link number 1 - Previous text "PR"
capability
What are some alternatives?
configs - My configuration files
mtl - The Monad Transformer Library
autodocodec - self(auto)- documenting encoders and decoders
assert-failure - syntactic sugar that improves the usability of 'assert' and 'error' in Haskell
foldl - Composable, streaming, and efficient left folds
hpc-coveralls - coveralls.io support for haskell code coverage with hpc
transient - A full stack, reactive architecture for general purpose programming. Algebraic and monadically composable primitives for concurrency, parallelism, event handling, transactions, multithreading, Web, and distributed computing with complete de-inversion of control (No callbacks, no blocking, pure state)
operational - Implement monads by specifying instructions and their desired operational semantics.
distributed-closure - Serializable closures for distributed programming.
ifcxt - constraint level if statements
machines - Networks of composable stream transducers