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5.3.1 Visibility and color of objects
In the educational use of music we might wish to print a score with certain elements omitted as an exercise for the student, who is required to supply them. As a simple example, let us suppose the exercise is to supply the missing bar lines in a piece of music. But the bar lines are normally inserted automatically. How do we prevent them printing?
Before we tackle this, let us remember that object properties are grouped in what are called interfaces – see Properties found in interfaces. This is simply to group together those properties that may be used together to tweak a graphical object – if one of them is allowed for an object, so are the others. Some objects then use the properties in some interfaces, others use them from other interfaces. The interfaces which contain the properties used by a particular grob are listed in the IR at the bottom of the page describing that grob, and those properties may be viewed by looking at those interfaces.
We explained how to find information about grobs in Properties of layout objects. Using the same approach, we go to the IR to find the
layout object which prints bar lines. Going via Backend and
All layout objects we find there is a layout object called
BarLine
. Its properties include two that control its
visibility: break-visibility
and stencil
. Barline also
supports a number of interfaces, including the grob-interface
,
where we find the transparent
and the color
properties.
All of these can affect the visibility of bar lines (and, of course,
by extension, many other layout objects too.) Let’s consider each of
these in turn.
The stencil property | ||
The break-visibility property | ||
The transparent property | ||
The color property |
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The stencil
property
This property controls the appearance of the bar lines by specifying
the symbol (glyph) which should be printed. In common
with many other properties, it can be set to print nothing by
setting its value to #f
. Let’s try it, as before, omitting
the implied Context, Voice
:
\relative { \time 12/16 \override BarLine.stencil = ##f c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
The bar lines are still printed. What is wrong? Go back to the IR
and look again at the page giving the properties of BarLine. At the
top of the page it says “Barline objects are created by:
Bar_engraver”. Go to the Bar_engraver
page. At the bottom it
gives a list of Contexts in which the bar engraver operates. All of
them are of the type Staff
, so the reason the \override
command failed to work as expected is because Barline
is not in
the default Voice
context. If the context is specified
incorrectly, the command simply does not work. No error message is
produced, and nothing is logged in the log file. Let’s try correcting
it by adding the correct context:
\relative { \time 12/16 \override Staff.BarLine.stencil = ##f c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
Now the bar lines have vanished. Setting the stencil
property to #f
is such a frequent operation that there is a
shorthand for it called \omit
:
\relative { \time 12/16 \omit Staff.BarLine c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
Note, though, that setting the stencil
property to #f
will cause errors when the dimensions of the object are required for
correct processing. For example, errors will be generated if the
stencil
property of the NoteHead
object is set to
#f
. If this is the case, you can instead use the
point-stencil
function, which sets the stencil to an object
with zero size:
\relative { c''4 c \once \override NoteHead.stencil = #point-stencil c4 c }
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The break-visibility
property
We see from the BarLine
properties in the IR that the
break-visibility
property requires a vector of three booleans.
These control respectively whether bar lines are printed at the end of
a line, in the middle of lines, and at the beginning of lines. For
our example we want all bar lines to be suppressed, so the value we
need is #(#f #f #f)
(also available
under the name all-invisible
). Let’s try that, remembering to include
the Staff
context. Note also that in writing this value we
have ##
before the opening parenthesis. One #
is required
as part of vector constant syntax, and the first #
is
required, as always, to precede the value itself in the
\override
command.
\relative { \time 12/16 \override Staff.BarLine.break-visibility = ##(#f #f #f) c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
And we see this too removes all the bar lines.
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[ < The break-visibility property ] | [ 上 : Visibility and color of objects ] | [ The color property > ] |
The transparent
property
We see from the properties specified in the grob-interface
page
in the IR that the transparent
property is a boolean. This
should be set to #t
to make the grob transparent. In this next
example let us make the time signature invisible rather than the bar
lines. To do this we need to find the grob name for the time
signature. Back to the ‘All layout objects’ page in the IR to find
the properties of the TimeSignature
layout object. This is
produced by the Time_signature_engraver
which you can check
also lives in the Staff
context and also supports the
grob-interface
. So the command to make the time signature
transparent is:
\relative { \time 12/16 \override Staff.TimeSignature.transparent = ##t c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
Again, setting the transparent
property is a rather
frequent operation, so we have a shorthand for it called
\hide
:
\relative { \time 12/16 \hide Staff.TimeSignature c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
In either case, the time signature is gone, but this command
leaves a gap where
the time signature should be. Maybe this is what is wanted for
an exercise for the student to fill it in, but in other
circumstances a gap might be undesirable. To remove it, the
stencil for the time signature should be set to #f
instead:
\relative { \time 12/16 \omit Staff.TimeSignature c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
and the difference is obvious: setting the stencil to #f
(possibly via \omit
)
removes the object entirely; making the object transparent
(which can be done using \hide
)
leaves it where it is, but makes it invisible.
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The color
property
Finally let us try making the bar lines invisible by coloring them white. (There is a difficulty with this in that the white bar line may or may not blank out the staff lines where they cross. You may see in some of the examples below that this happens unpredictably. The details of why this is so and how to control it are covered in Painting objects white. But at the moment we are learning about color, so please just accept this limitation for now.)
The grob-interface
specifies that the
color property value is a list, but there is no
explanation of what that list should be. The list it
requires is actually a list of values in internal units,
but, to avoid having to know what these are, several ways
are provided to specify colors. The first way is to use one
of the predefined ‘CSS’ colors listed in
List of colors. To set the bar lines to white
we write:
\relative { \time 12/16 \override Staff.BarLine.color = "white" c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
and again, we see the bar lines are not visible. Note that white is not preceded by an apostrophe – it is not a symbol, but a character string, mapped to a predefined list of internal values. In that regard, LilyPond’s syntax mimics the CSS language commonly used in webpages; in addition to predefined names, we can specify a hexadecimal color code:
\relative { \time 12/16 \override Staff.BarLine.color = "#FFFFFF" c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
We could even define that color as a variable, and then use that variable as a property definition. Since it is both a LilyPond variable and a Scheme object, it can be prefixed with a backslash or with a hash character without any difference:
whiteVar = "#FFFFFF" \relative { \time 12/16 \override Staff.BarLine.color = \whiteVar c''4 b8 c d16 c d8 | \override Staff.BarLine.color = #whiteVar g,8 a16 b8 c d4 e16 | e8 }
Another way of adding colors to your score is by using a function.
There are two useful functions in this regard; one is the
x11-color
function, which we’ll get to use shortly.
The other one, the rgb-color
function, closely
demonstrates LilyPond’s internal logic: it takes
three arguments giving the intensities of the red, green and
blue colors. These take values in the range 0 to 1. So to
set the color to red the value should be (rgb-color 1 0 0)
and to white it should be (rgb-color 1 1 1)
:
\relative { \time 12/16 \override Staff.BarLine.color = #(rgb-color 1 1 1) c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
Note that in this case the whole function call has to be
enclosed in parentheses. The same can be said of the
x11-color
function which we just skipped over.
x11-color
, again, maps predefined color names
to internal values – but offers many more choices
than CSS names, as you can see in
List of colors).
For example, the X11 set of colors includes an extensive
grey scale, whose names range from black, 'grey0
,
to white, 'grey100
, in steps of 1. Let’s illustrate
this by setting all the layout objects in our example to
various shades of grey:
\relative { \time 12/16 \override Staff.StaffSymbol.color = #(x11-color 'grey30) \override Staff.TimeSignature.color = #(x11-color 'grey60) \override Staff.Clef.color = #(x11-color 'grey60) \override Voice.NoteHead.color = #(x11-color 'grey85) \override Voice.Stem.color = #(x11-color 'grey85) \override Staff.BarLine.color = #(x11-color 'grey10) c''4 b8 c d16 c d8 | g,8 a16 b8 c d4 e16 | e8 }
Note the contexts associated with each of the layout objects. It is important to get these right, or the commands will not work! Remember, the context is the one in which the appropriate engraver is placed. The default context for engravers can be found by starting from the layout object, going from there to the engraver which produces it, and on the engraver page in the IR it tells you in which context the engraver will normally be found.
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