Copyright | (c) 2011-2015 diagrams-core team (see LICENSE) |
---|---|

License | BSD-style (see LICENSE) |

Maintainer | diagrams-discuss@googlegroups.com |

Safe Haskell | Safe |

Language | Haskell2010 |

A monoid transformer that allows deleting information from a concatenation of monoidal values.

# Documentation

If `m`

is a `Monoid`

, then `Deletable m`

(intuitively speaking)
adds two distinguished new elements `[`

and `]`

, such that an
occurrence of [ "deletes" everything from it to the next ]. For
example,

abc[def]gh == abcgh

This is all you really need to know to *use* `Deletable m`

values; to understand the actual implementation, read on.

To properly deal with nesting and associativity we need to be
able to assign meanings to things like `[[`

, `][`

, and so on. (We
cannot just define, say, `[[ == [`

, since then ```
([[)] == [] ==
id
```

but `[([]) == [id == [`

.) Formally, elements of ```
Deletable
m
```

are triples of the form (r, m, l) representing words ```
]^r m
[^l
```

. When combining two triples (r1, m1, l1) and (r2, m2, l2)
there are three cases:

- If l1 == r2 then the [s from the left and ]s from the right exactly cancel, and we are left with (r1, m1 <> m2, l2).
- If l1 < r2 then all of the [s cancel with some of the ]s, but m1 is still inside the remaining ]s and is deleted, yielding (r1 + r2 - l1, m2, l2)
- The remaining case is symmetric with the second.

Functor Deletable Source # | |

Foldable Deletable Source # | |

Traversable Deletable Source # | |

Data m => Data (Deletable m) Source # | |

Read m => Read (Deletable m) Source # | |

Show m => Show (Deletable m) Source # | |

Semigroup m => Semigroup (Deletable m) Source # | |

(Semigroup m, Monoid m) => Monoid (Deletable m) Source # | |

toDeletable :: m -> Deletable m Source #

Inject a value into a `Deletable`

wrapper. Satisfies the
property

unDelete . toDeletable === id