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

License | BSD-style (see LICENSE) |

Maintainer | diagrams-discuss@googlegroups.com |

Safe Haskell | None |

Language | Haskell2010 |

Diagrams may have *attributes* which affect the way they are
rendered. This module defines some common attributes; particular
backends may also define more backend-specific attributes.

Every attribute type must have a *semigroup* structure, that is, an
associative binary operation for combining two attributes into one.
Unless otherwise noted, all the attributes defined here use the
`Last`

structure, that is, combining two attributes simply keeps
the second one and throws away the first. This means that child
attributes always override parent attributes.

- ultraThin :: OrderedField n => Measure n
- veryThin :: OrderedField n => Measure n
- thin :: OrderedField n => Measure n
- medium :: OrderedField n => Measure n
- thick :: OrderedField n => Measure n
- veryThick :: OrderedField n => Measure n
- ultraThick :: OrderedField n => Measure n
- none :: OrderedField n => Measure n
- tiny :: OrderedField n => Measure n
- verySmall :: OrderedField n => Measure n
- small :: OrderedField n => Measure n
- normal :: OrderedField n => Measure n
- large :: OrderedField n => Measure n
- veryLarge :: OrderedField n => Measure n
- huge :: OrderedField n => Measure n
- data LineWidth n
- getLineWidth :: LineWidth n -> n
- _LineWidth :: Iso' (LineWidth n) n
- _LineWidthM :: Iso' (LineWidthM n) (Measure n)
- lineWidth :: (N a ~ n, HasStyle a, Typeable n) => Measure n -> a -> a
- lineWidthM :: (N a ~ n, HasStyle a, Typeable n) => LineWidthM n -> a -> a
- _lineWidth :: (Typeable n, OrderedField n) => Lens' (Style v n) (Measure n)
- _lw :: (Typeable n, OrderedField n) => Lens' (Style v n) (Measure n)
- _lineWidthU :: Typeable n => Lens' (Style v n) (Maybe n)
- lw :: (N a ~ n, HasStyle a, Typeable n) => Measure n -> a -> a
- lwN :: (N a ~ n, HasStyle a, Typeable n, Num n) => n -> a -> a
- lwO :: (N a ~ n, HasStyle a, Typeable n) => n -> a -> a
- lwL :: (N a ~ n, HasStyle a, Typeable n, Num n) => n -> a -> a
- lwG :: (N a ~ n, HasStyle a, Typeable n, Num n) => n -> a -> a
- data Dashing n = Dashing [n] n
- getDashing :: Dashing n -> Dashing n
- dashing :: (N a ~ n, HasStyle a, Typeable n) => [Measure n] -> Measure n -> a -> a
- dashingN :: (N a ~ n, HasStyle a, Typeable n, Num n) => [n] -> n -> a -> a
- dashingO :: (N a ~ n, HasStyle a, Typeable n) => [n] -> n -> a -> a
- dashingL :: (N a ~ n, HasStyle a, Typeable n, Num n) => [n] -> n -> a -> a
- dashingG :: (N a ~ n, HasStyle a, Typeable n, Num n) => [n] -> n -> a -> a
- _dashing :: Typeable n => Lens' (Style v n) (Maybe (Measured n (Dashing n)))
- _dashingU :: Typeable n => Lens' (Style v n) (Maybe (Dashing n))
- class Color c where
- data SomeColor = Color c => SomeColor c
- _SomeColor :: Iso' SomeColor (AlphaColour Double)
- someToAlpha :: SomeColor -> AlphaColour Double
- data Opacity
- _Opacity :: Iso' Opacity Double
- getOpacity :: Opacity -> Double
- opacity :: HasStyle a => Double -> a -> a
- _opacity :: Lens' (Style v n) Double
- data FillOpacity
- _FillOpacity :: Iso' FillOpacity Double
- getFillOpacity :: FillOpacity -> Double
- fillOpacity :: HasStyle a => Double -> a -> a
- _fillOpacity :: Lens' (Style v n) Double
- data StrokeOpacity
- _StrokeOpacity :: Iso' StrokeOpacity Double
- getStrokeOpacity :: StrokeOpacity -> Double
- strokeOpacity :: HasStyle a => Double -> a -> a
- _strokeOpacity :: Lens' (Style v n) Double
- colorToSRGBA :: Color c => c -> (Double, Double, Double, Double)
- colorToRGBA :: Color c => c -> (Double, Double, Double, Double)
- data LineCap
- getLineCap :: LineCap -> LineCap
- lineCap :: HasStyle a => LineCap -> a -> a
- _lineCap :: Lens' (Style v n) LineCap
- data LineJoin
- getLineJoin :: LineJoin -> LineJoin
- lineJoin :: HasStyle a => LineJoin -> a -> a
- _lineJoin :: Lens' (Style v n) LineJoin
- newtype LineMiterLimit = LineMiterLimit (Last Double)
- _LineMiterLimit :: Iso' LineMiterLimit Double
- getLineMiterLimit :: LineMiterLimit -> Double
- lineMiterLimit :: HasStyle a => Double -> a -> a
- lineMiterLimitA :: HasStyle a => LineMiterLimit -> a -> a
- _lineMiterLimit :: Lens' (Style v n) Double
- _Recommend :: Prism' (Recommend a) a
- _Commit :: Prism' (Recommend a) a
- _recommend :: Lens (Recommend a) (Recommend b) a b
- isCommitted :: Lens' (Recommend a) Bool
- committed :: Iso (Recommend a) (Recommend b) a b

## Standard measures

ultraThin :: OrderedField n => Measure n Source #

veryThin :: OrderedField n => Measure n Source #

thin :: OrderedField n => Measure n Source #

medium :: OrderedField n => Measure n Source #

thick :: OrderedField n => Measure n Source #

veryThick :: OrderedField n => Measure n Source #

ultraThick :: OrderedField n => Measure n Source #

none :: OrderedField n => Measure n Source #

tiny :: OrderedField n => Measure n Source #

verySmall :: OrderedField n => Measure n Source #

small :: OrderedField n => Measure n Source #

normal :: OrderedField n => Measure n Source #

large :: OrderedField n => Measure n Source #

veryLarge :: OrderedField n => Measure n Source #

huge :: OrderedField n => Measure n Source #

## Line width

Line widths specified on child nodes always override line widths specified at parent nodes.

getLineWidth :: LineWidth n -> n Source #

_LineWidth :: Iso' (LineWidth n) n Source #

_LineWidthM :: Iso' (LineWidthM n) (Measure n) Source #

lineWidth :: (N a ~ n, HasStyle a, Typeable n) => Measure n -> a -> a Source #

Set the line (stroke) width.

lineWidthM :: (N a ~ n, HasStyle a, Typeable n) => LineWidthM n -> a -> a Source #

Apply a `LineWidth`

attribute.

_lineWidth :: (Typeable n, OrderedField n) => Lens' (Style v n) (Measure n) Source #

Lens onto a measured line width in a style.

_lw :: (Typeable n, OrderedField n) => Lens' (Style v n) (Measure n) Source #

Lens onto a measured line width in a style.

_lineWidthU :: Typeable n => Lens' (Style v n) (Maybe n) Source #

Lens onto the unmeasured linewith attribute. This is useful for backends to use on styles once they have been unmeasured. Using on a diagram style could lead to unexpected results.

lwN :: (N a ~ n, HasStyle a, Typeable n, Num n) => n -> a -> a Source #

A convenient synonym for 'lineWidth (normalized w)'.

lwO :: (N a ~ n, HasStyle a, Typeable n) => n -> a -> a Source #

A convenient synonym for 'lineWidth (output w)'.

lwL :: (N a ~ n, HasStyle a, Typeable n, Num n) => n -> a -> a Source #

A convenient sysnonym for 'lineWidth (local w)'.

lwG :: (N a ~ n, HasStyle a, Typeable n, Num n) => n -> a -> a Source #

A convenient synonym for 'lineWidth (global w)'.

## Dashing

Create lines that are dashing... er, dashed.

Dashing [n] n |

getDashing :: Dashing n -> Dashing n Source #

:: (N a ~ n, HasStyle a, Typeable n) | |

=> [Measure n] | A list specifying alternate lengths of on and off portions of the stroke. The empty list indicates no dashing. |

-> Measure n | An offset into the dash pattern at which the stroke should start. |

-> a | |

-> a |

Set the line dashing style.

dashingN :: (N a ~ n, HasStyle a, Typeable n, Num n) => [n] -> n -> a -> a Source #

A convenient synonym for 'dashing (normalized w)'.

dashingO :: (N a ~ n, HasStyle a, Typeable n) => [n] -> n -> a -> a Source #

A convenient synonym for 'dashing (output w)'.

dashingL :: (N a ~ n, HasStyle a, Typeable n, Num n) => [n] -> n -> a -> a Source #

A convenient sysnonym for 'dashing (local w)'.

dashingG :: (N a ~ n, HasStyle a, Typeable n, Num n) => [n] -> n -> a -> a Source #

A convenient synonym for 'dashing (global w)'.

_dashing :: Typeable n => Lens' (Style v n) (Maybe (Measured n (Dashing n))) Source #

Lens onto a measured dashing attribute in a style.

_dashingU :: Typeable n => Lens' (Style v n) (Maybe (Dashing n)) Source #

Lens onto the unmeasured `Dashing`

attribute. This is useful for
backends to use on styles once they have been unmeasured. Using on
a diagram style could lead to unexpected results.

# Color

Diagrams outsources all things color-related to Russell O'Connor's very nice colour package (http://hackage.haskell.org/package/colour). For starters, it provides a large collection of standard color names. However, it also provides a rich set of combinators for combining and manipulating colors; see its documentation for more information.

The `Color`

type class encompasses color representations which
can be used by the Diagrams library. Instances are provided for
both the `Colour`

and `AlphaColour`

types
from the Data.Colour library.

toAlphaColour :: c -> AlphaColour Double Source #

Convert a color to its standard representation, AlphaColour.

fromAlphaColour :: AlphaColour Double -> c Source #

Convert from an AlphaColour Double. Note that this direction
may lose some information. For example, the instance for
`Colour`

drops the alpha channel.

An existential wrapper for instances of the `Color`

class.

_SomeColor :: Iso' SomeColor (AlphaColour Double) Source #

Isomorphism between `SomeColor`

and `AlphaColour`

`Double`

.

someToAlpha :: SomeColor -> AlphaColour Double Source #

## Opacity

Although the individual colors in a diagram can have
transparency, the opacity/transparency of a diagram as a whole
can be specified with the `Opacity`

attribute. The opacity is a
value between 1 (completely opaque, the default) and 0
(completely transparent). Opacity is multiplicative, that is,

. In other
words, for example, `opacity`

o1 . `opacity`

o2 === `opacity`

(o1 * o2)`opacity 0.8`

means "decrease this diagram's
opacity to 80% of its previous opacity".

getOpacity :: Opacity -> Double Source #

opacity :: HasStyle a => Double -> a -> a Source #

Multiply the opacity (see `Opacity`

) by the given value. For
example, `opacity 0.8`

means "decrease this diagram's opacity to
80% of its previous opacity".

data FillOpacity Source #

getFillOpacity :: FillOpacity -> Double Source #

fillOpacity :: HasStyle a => Double -> a -> a Source #

Multiply the fill opacity (see `FillOpacity`

) by the given value. For
example, `fillOpacity 0.8`

means "decrease this diagram's fill opacity to
80% of its previous value".

data StrokeOpacity Source #

strokeOpacity :: HasStyle a => Double -> a -> a Source #

Multiply the stroke opacity (see `StrokeOpacity`

) by the given value. For
example, `strokeOpacity 0.8`

means "decrease this diagram's
stroke opacity to 80% of its previous value".

## Converting colors

colorToRGBA :: Color c => c -> (Double, Double, Double, Double) Source #

Deprecated: Renamed to colorToSRGBA.

Convert to sRGBA.

# Line stuff

## Cap style

What sort of shape should be placed at the endpoints of lines?

LineCapButt | Lines end precisely at their endpoints. |

LineCapRound | Lines are capped with semicircles centered on endpoints. |

LineCapSquare | Lines are capped with a squares centered on endpoints. |

getLineCap :: LineCap -> LineCap Source #

## Join style

How should the join points between line segments be drawn?

LineJoinMiter | Use a "miter" shape (whatever that is). |

LineJoinRound | Use rounded join points. |

LineJoinBevel | Use a "bevel" shape (whatever that is). Are these... carpentry terms? |

getLineJoin :: LineJoin -> LineJoin Source #

## Miter limit

newtype LineMiterLimit Source #

Miter limit attribute affecting the `LineJoinMiter`

joins.
For some backends this value may have additional effects.

lineMiterLimit :: HasStyle a => Double -> a -> a Source #

Set the miter limit for joins with `LineJoinMiter`

.

lineMiterLimitA :: HasStyle a => LineMiterLimit -> a -> a Source #

Apply a `LineMiterLimit`

attribute.

# Recommend optics

committed :: Iso (Recommend a) (Recommend b) a b Source #

`Commit`

a value for any `Recommend`

. This is *not* a valid `Iso`

because the resulting `Recommend b`

is always a `Commit`

. This is
useful because it means any `Recommend`

styles set with a lens will
not be accidentally overridden. If you want a valid lens onto a
recommend value use `_recommend`

.

Other lenses that use this are labeled with a warning.