Library
Module
Module type
Parameter
Class
Class type
Paths.
Consult their semantics.
The |>
operator is used to build paths from the empty path. For this reason path combinators always take the path to use as the last argument.
The type for path caps. Semantics.
The type for segment jointures. Semantics.
The type for dashes. Semantics.
type outline = {
width : float;
Outline width.
*)cap : cap;
Shape at the end points of open subpaths and dashes.
*)join : join;
Shape at segment jointures.
*)miter_angle : float;
Limit angle for miter joins (in [0;pi]).
*)dashes : dashes option;
Outline dashes.
*)}
The type for path outline area specifications. Semantics.
val o : outline
o
holds a default set of values. width
is 1.
, cap
is `Butt
, join
is `Miter
, miter_angle
is 11.5
degrees in radians and dashes
is None
.
val pp_outline : Format.formatter -> outline -> unit
pp_outline ppf o
prints a textual representation of o
on ppf
.
val pp_area : Format.formatter -> area -> unit
pp_area ppf a
prints a textual representation of a
on ppf
type t = path
The type for paths.
val empty : path
empty
is the empty path.
If a path segment is directly added to a path p
which is empty
or whose last subpath is closed, a new subpath is automatically started with sub
P2.o p
.
In the functions below the default value of the optional argument rel
is false
. If true
, the points given to the function are expressed relative to the last point of the path or Gg.P2.o
if the path is empty
.
sub pt p
is p
with a new subpath starting at pt
. If p
's last subpath had no segment it is automatically close
d.
line pt p
is p
with a straight line from p
's last point to pt
.
qcurve c pt p
is p
with a quadratic bézier curve from p
's last point to pt
with control point c
.
ccurve c c' pt p
is p
with a cubic bézier curve from p
's last point to pt
with control points c
and c'
.
val earc :
?rel:bool ->
?large:bool ->
?cw:bool ->
?angle:float ->
Gg.size2 ->
Gg.p2 ->
path ->
path
earc large cw a r pt p
is p
with an elliptical arc from p
's last point to pt
. The ellipse is defined by the horizontal and vertical radii r
which are rotated by a
with respect to the current coordinate system. If the parameters do not define a valid ellipse (points coincident or too far apart, zero radius) the arc collapses to a line.
In general the parameters define four possible arcs, thus large
indicates if more than pi radians of the arc is to be traversed and cw
if the arc is to be traversed in the clockwise direction (both default to false
). In the following image, in red, the elliptical arc from the left point to the right one. The top row is ~large:false
and the left column is ~cw:false
:
close p
is p
with a straight line from p
's last point to p
's current subpath starting point, this ends the subpath.
The following convenience functions start and close a new subpath to the given path.
circle c r p
is p
with a circle subpath of center c
and radius r
.
ellipse c r p
is p
with an axis-aligned (unless angle
is specified) ellipse subpath of center c
and radii r
.
rect r p
is p
with an axis-aligned rectangle subpath r
. If r
is empty, p
is returned.
rrect r cr p
is p
with an axis-aligned rectangle subpath r
with round corners of radii cr
. If r
is empty, p
is returned.
smooth_qcurve pt p
is qcurve c pt p
with control point c
defined as the reflexion of the control point of the previous quadratic curve relative to the last point of p
. If the previous segment of p
is not a quadratic curve, c
is the last point of p
or the origin if the path is empty.
smooth_ccurve c' pt p
is ccurve c c' pt p
with control point c
defined as the reflexion of the second control point of the previous cubic curve relative to the last point of p
. If the previous segment of p
is not a cubic curve, c
is the last point of p
or the origin if the path is empty.
last_pt p
is the last point of p
's last subpath. Raises Invalid_argument
if p
is empty
.
append p' p
appends p'
to p
. If p
's last subpath had no segment it is closed.
Warning. To accomodate |>
the argument order is the opposite of List.append
.
tr m p
is the affine transform in homogenous 2D space of the path p
by m
.
Bug. Elliptical arcs transformation is currently broken if m
doesn't scale uniformely or shears.
type fold = [
| `Sub of Gg.p2
New subpath starting at point, the point
*)| `Line of Gg.p2
Line to point, the point
*)| `Qcurve of Gg.p2 * Gg.p2
Quadratic curve to point, a control point and the point
*)| `Ccurve of Gg.p2 * Gg.p2 * Gg.p2
Cubic curve to point, two control points and the point
*)| `Earc of bool * bool * float * Gg.size2 * Gg.p2
Elliptic arc to point, large
, cw
, angle
, raddii
and the point
| `Close
Line to point of the last `Sub
, ends the subpath.
]
The type for path folds.
fold ~rev f acc p
, applies f
to each subpath and subpath segments with an accumulator. Subpaths are traversed in the order they were specified, always start with a `Sub
, but may not be `Close
d. If rev
is true
(defaults to false
) the segments and subpaths are traversed in reverse order.
val is_empty : path -> bool
is_empty p
is true
iff p
is empty
.
equal_f eq p p'
is like equal
but uses eq
to test floating point values.
compare p p'
is Stdlib.compare
p p'
.
compare_f cmp p p'
is like compare
but uses cmp
to compare floating point values.
val pp : Format.formatter -> path -> unit
pp ppf p
prints a textual representation of p
on ppf
.
val pp_f :
(Format.formatter -> float -> unit) ->
Format.formatter ->
path ->
unit
pp_f pp_float ppf p
prints p
like pp
but uses pp_float
to print floating point values.
val to_string : path -> string