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

License | BSD-style (see LICENSE) |

Maintainer | diagrams-discuss@googlegroups.com |

Safe Haskell | None |

Language | Haskell2010 |

Types which have an intrinsic notion of a "local origin",
*i.e.* things which are *not* invariant under translation.

# Documentation

class HasOrigin t where Source #

Class of types which have an intrinsic notion of a "local origin", i.e. things which are not invariant under translation, and which allow the origin to be moved.

One might wonder why not just use `Transformable`

instead of
having a separate class for `HasOrigin`

; indeed, for types which
are instances of both we should have the identity

moveOriginTo (origin .^+ v) === translate (negated v)

The reason is that some things (e.g. vectors, `Trail`

s) are
transformable but are translationally invariant, i.e. have no
origin.

moveOriginTo :: Point (V t) (N t) -> t -> t Source #

Move the local origin to another point.

Note that this function is in some sense dual to `translate`

(for types which are also `Transformable`

); moving the origin
itself while leaving the object "fixed" is dual to fixing the
origin and translating the diagram.

HasOrigin t => HasOrigin [t] Source # | |

(HasOrigin t, Ord t) => HasOrigin (Set t) Source # | |

HasOrigin (TransInv t) Source # | |

(HasOrigin t, HasOrigin s, SameSpace s t) => HasOrigin (s, t) Source # | |

HasOrigin t => HasOrigin (Map k t) Source # | |

(Additive v, Num n) => HasOrigin (Point v n) Source # | |

HasOrigin t => HasOrigin (Measured n t) Source # | |

(Additive v, Num n) => HasOrigin (Transformation v n) Source # | |

(Additive v, Num n) => HasOrigin (Trace v n) Source # | |

(Metric v, Fractional n) => HasOrigin (Envelope v n) Source # | The local origin of an envelope is the point with respect to
which bounding queries are made, |

(Additive v, Num n) => HasOrigin (Query v n m) Source # | |

(OrderedField n, Metric v) => HasOrigin (SubMap b v n m) Source # | |

(Metric v, OrderedField n) => HasOrigin (Subdiagram b v n m) Source # | |

(Metric v, OrderedField n, Semigroup m) => HasOrigin (QDiagram b v n m) Source # | Every diagram has an intrinsic "local origin" which is the basis for all combining operations. |

moveOriginBy :: (V t ~ v, N t ~ n, HasOrigin t) => v n -> t -> t Source #

Move the local origin by a relative vector.

moveTo :: (InSpace v n t, HasOrigin t) => Point v n -> t -> t Source #

Translate the object by the translation that sends the origin to
the given point. Note that this is dual to `moveOriginTo`

, i.e. we
should have

moveTo (origin .^+ v) === moveOriginTo (origin .^- v)

For types which are also `Transformable`

, this is essentially the
same as `translate`

, i.e.

moveTo (origin .^+ v) === translate v