Copyright | (c) 2013 diagrams-lib team (see LICENSE) |
---|---|

License | BSD-style (see LICENSE) |

Maintainer | diagrams-discuss@googlegroups.com |

Safe Haskell | None |

Language | Haskell2010 |

Alignment combinators specialized for three dimensions. See Diagrams.Align for more general alignment combinators.

The basic idea is that alignment is achieved by moving diagrams'
local origins relative to their envelopes or traces (or some other
sort of boundary). For example, to align several diagrams along
their tops, we first move their local origins to the upper edge of
their boundary (using e.g. `map `

), and then put them
together with their local origins along a line (using e.g. `alignZMax`

`cat`

from Diagrams.Combinators).

- alignXMin :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- alignXMax :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- alignYMin :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- alignYMax :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- alignZMin :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- alignZMax :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- snugXMin :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugXMax :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugYMin :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugYMax :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugZMin :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugZMax :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- alignX :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => n -> a -> a
- snugX :: (InSpace v n a, R1 v, Fractional n, Alignable a, Traced a, HasOrigin a) => n -> a -> a
- alignY :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => n -> a -> a
- snugY :: (InSpace v n a, R2 v, Fractional n, Alignable a, Traced a, HasOrigin a) => n -> a -> a
- alignZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => n -> a -> a
- snugZ :: (V a ~ v, N a ~ n, Alignable a, Traced a, HasOrigin a, R3 v, Fractional n) => n -> a -> a
- centerX :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- centerY :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- centerZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- centerXY :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- centerXZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- centerYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- centerXYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a
- snugCenterX :: (InSpace v n a, R1 v, Fractional n, Alignable a, Traced a, HasOrigin a) => a -> a
- snugCenterY :: (InSpace v n a, R2 v, Fractional n, Alignable a, Traced a, HasOrigin a) => a -> a
- snugCenterZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugCenterXY :: (InSpace v n a, R2 v, Fractional n, Alignable a, Traced a, HasOrigin a) => a -> a
- snugCenterXZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugCenterYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a
- snugCenterXYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a

# Absolute alignment

## Align by envelope

alignXMin :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Translate the diagram along unitX so that all points have positive x-values.

alignXMax :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Translate the diagram along unitX so that all points have negative x-values.

alignYMin :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Translate the diagram along unitY so that all points have positive y-values.

alignYMax :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Translate the diagram along unitY so that all points have negative y-values.

alignZMin :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Translate the diagram along unitZ so that all points have positive z-values.

alignZMax :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Translate the diagram along unitZ so that all points have negative z-values.

## Align by trace

# Relative alignment

alignX :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => n -> a -> a #

`alignX`

and `snugX`

move the local origin horizontally as follows:

`alignX (-1)`

moves the local origin to the left edge of the boundary;`align 1`

moves the local origin to the right edge;- any other argument interpolates linearly between these. For
example,
`alignX 0`

centers,`alignX 2`

moves the origin one "radius" to the right of the right edge, and so on. `snugX`

works the same way.

snugX :: (InSpace v n a, R1 v, Fractional n, Alignable a, Traced a, HasOrigin a) => n -> a -> a #

See the documentation for `alignX`

.

alignY :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => n -> a -> a #

Like `alignX`

, but moving the local origin vertically, with an
argument of `1`

corresponding to the top edge and `(-1)`

corresponding
to the bottom edge.

snugY :: (InSpace v n a, R2 v, Fractional n, Alignable a, Traced a, HasOrigin a) => n -> a -> a #

See the documentation for `alignY`

.

alignZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => n -> a -> a #

Like `alignX`

, but moving the local origin in the Z direction, with an
argument of `1`

corresponding to the top edge and `(-1)`

corresponding
to the bottom edge.

snugZ :: (V a ~ v, N a ~ n, Alignable a, Traced a, HasOrigin a, R3 v, Fractional n) => n -> a -> a #

See the documentation for `alignZ`

.

# Centering

centerX :: (InSpace v n a, R1 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Center the local origin along the X-axis.

centerY :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Center the local origin along the Y-axis.

centerZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Center the local origin along the Z-axis.

centerXY :: (InSpace v n a, R2 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Center along both the X- and Y-axes.

centerXZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Center along both the X- and Z-axes.

centerYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Center along both the Y- and Z-axes.

centerXYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a) => a -> a #

Center an object in three dimensions.

snugCenterX :: (InSpace v n a, R1 v, Fractional n, Alignable a, Traced a, HasOrigin a) => a -> a #

snugCenterY :: (InSpace v n a, R2 v, Fractional n, Alignable a, Traced a, HasOrigin a) => a -> a #

snugCenterZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a #

snugCenterXY :: (InSpace v n a, R2 v, Fractional n, Alignable a, Traced a, HasOrigin a) => a -> a #

snugCenterXZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a #

snugCenterYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a #

snugCenterXYZ :: (InSpace v n a, R3 v, Fractional n, Alignable a, HasOrigin a, Traced a) => a -> a #