tabr-methods: Summary of implemented S3 generic methods

tabr-methodsR Documentation

Summary of implemented S3 generic methods

Description

Several methods are implemented for the classes noteworthy, noteinfo, music and lyrics. See further below for details on limited implementations for the phrase class.

Arguments

x

object.

i

index.

value

values to assign at index.

...

additional arguments.

Details

In addition to custom print and summary methods, the following methods have been implemented for all four classes: [, ⁠[<-⁠, [[, ⁠[[<-⁠, length(), c(), rep(), rev(), head() and tail(). Logical operators are also implemented for noteworthy strings.

Methods length() and c()

The implementation of length() is equivalent to n_steps(). They access the same attribute, returning the number of timesteps in the object. This gives the same result even when the underlying string is in space-delimited format. To obtain the character string length, coerce with as.character() or any other function that would have the same effect.

The implementation of c() for these classes is strict and favors the object class in question. This is different from how c() might normally behave, coercing objects of different types such as numeric and character to character.

For these four classes, c() is strict in that it will return an error if attempting to concatenate one of these classes with any other class besides character. This includes each other. While it would be possible to coerce a music object down to a noteworthy object or a noteinfo object, this is the opposite of the aggressive coercion these classes are intended to have with c() so this is not done.

While other classes such as numeric immediately return an error, any concatenation with character strings attempts to coerce each character string present to the given class. If coercion fails for any character class object, the usual error is returned concerning invalid notes or note info present. If coercion succeeds for all character strings, the result of c() is to concatenate the timesteps of all objects passed to it. The output is a new noteworthy, noteinfo ormusic object.

Methods rep() rev() head() and tail()

The rep() function is similar to c() except that it never has to consider other classes. You could pass a vector of objects to rep(), but doing so with c() will already have resolved all objects to the single class. Again, what matters is not the underlying length or elements in the character vector the class is built upon, but the timesteps. rep() will extend x in terms of timesteps. You can also provide the each or times arguments.

rev(), head() and tail() work similarly, based on the sequence of timesteps, not the character vector length.

Remember that this accounts not only for vectors of length one that contain multiple timesteps in space-delimited time format, but also that multiple timesteps can be condensed even in space-delimited time format with the * expansion operator. For example, "a'*4 b'*2" has six timesteps in this form as well as in vector form. The object length is neither one nor two. All of these generic method implementations work in this manner.

Square brackets

Single and double bracket subsetting by index work similarly to what occurs with lists. Single bracket subsetting returns the same object, but only containing the indexed timesteps. Double bracket subsetting only operates on a single timestep and extracts the character string value.

For assignment, single and double brackets change the value at timesteps and return the same object, but again double brackets only allow indexing a single timestep. Double bracket indexing is mostly useful for combining the steps of extracting a single value and discarding the special class in one command.

Limited phrase implementations

Methods implemented for the phrase class are limited to c() and rep(). Due to the complex LilyPond syntax, applying most of the functions above directly to phrases is problematic. c() is implemented like it is for the other classes. rep() is restricted in that it can only repeat the entire phrase sequence, not the timesteps within. However, you can convert a phrase class back to noteworthy and noteinfo objects (under reasonable conditions). See notify().

One exception made for phrase objects with respect to concatenation is that an attempt to concatenate any combination of phrase and music objects, in any order, results in coercion to a new phrase. This happens even in a case where the first object in the sequence is a music object (thus calling c.music() rather than c.phrase()). It will subsequently fall back to c.phrase() in that case.

See Also

note-logic(), note-metadata()

Examples

# noteworthy class examples
x <- as_noteworthy("a, b, c ce_g d4f#4a4")
x
x[3:4]
x[-2]
x[2] <- paste0(transpose(x[2], 1), "~")
x
length(x) # equal to number of timesteps
c(x, x)
tail(rep(x, times = c(1, 2, 1, 3, 1)))

# noteinfo class examples
x <- as_noteinfo(c("4-", "t8(", "t8)", "t8x", "8^", "16"))
x
x[2:4]
x[-1]
x[5:6] <- c("16^", "8")
x
x[x == "4-"]
c(x[1], x[2]) == c(x[1:2])
head(rep(x, each = 2))

# music class examples
x <- as_music("c,~4 c,1 c'e_'g'4-.*4")
x
x[1:3]
x[-c(1:2)]
x[3:6] <- "c'e'g'8"
x
c(x[1], x[1]) == x[c(1, 1)]
rev(x)

x[[3]]
x[[3]] <- "b_t8"
x

tabr documentation built on Sept. 12, 2024, 6:18 a.m.