reihe -[I|i] n [-a] [-m n] primefile
reihe -[P|p] n [-a] [-m n] primefile
reihe -[R|r] n [-a] [-m n] primefile
reihe -[R|r] primefile
reihe -[RI|ri] n [-a] [-m n] primefile
reihe -[S|s] n primefile
The input to the reihe command is interpreted as a prime or basic set of elements from which a transformed set is to be derived and output. Four traditional types of set-transformations can be generated by specifying the appropriate option: -P (prime), -I (inversion), -R (retrograde), and -RI (retrograde-inversion). Either upper- or lower-case characters can be used when specifying these options.
Following each option is a numerical parameter. For prime and inversion forms, the numerical parameter indicates the pitch-class value for the first "note" of the output form. For example, -P 0 specifies the prime form beginning on pitch-class 0; -P 1 specifies the prime transposed so that it begins on pitch-class 1. For retrograde and retrograde-inversion forms, the numerical parameter specifies the last value of the output row.
Positive integers greater than 11 are permitted in the input --
but are treated as modulo-12 equivalent (unless the
-m
option specifies a different modulus).
In the case of **pc
inputs, the upper-case letters A and B
are accepted as aliases for pitch-classes 10 and 11 respectively.
Following the Fortean practice, pitch-classes 10 and 11 may
alternatively be represented in the input by the upper-case
letters T (ten) and E (eleven) -- although this latter convention
is discouraged.
In addition to the traditional set-transformations of transposition, inversion, retrograde, and retrograde-inversion, reihe also provides for rotation -- where the set elements are cyclically shifted by a specified number of positions. For example, -s 3 causes each set element to be shifted forward by 3 positions. The shift transformation can be combined with each of the other traditional transformations only by invoking the reihe command twice in succession.
Normally, reihe is used to transform numerical data (typically pitch-class values). However, the retrograde (-r) and shift (-s) operations can be performed on any data (including non-numeric data -- such as articulation marks). For non-numeric data, the retrograde option must be invoked without a numerical parameter. Attempting to transpose non-numeric data will result in an error.
The prime-form input file must contain a single spine.
For untransposed retrogrades and rotational shift transformations,
any single-spine Humdrum input will be accepted.
If the
-m
option is invoked, any input interpretation will be accepted provided
all data tokens contain numbers only.
In the case of tranposed prime, inversion, and retrograde transformations,
the input must conform to the Humdrum pitch-class (**pc
) representation.
In all cases, comments, null tokens, and tandem interpretations in the
input spine are ignored and are not echoed in the output.
In the case of **pc
inputs, barlines and rests are also ignored.
Output interpretations always echo the input interpretation.
By way of example, consider the following input file webern
:
!! Anton von Webern !! Klavierstueck, opus posthumous **pc =1 9 10 . 11 8 7 =2 1 2 3 6 5 4 =3 0 *-
Executing the command:
reihe -p 1 webern
produces the following output:
**pc
1
2
3
0
11
5
6
7
10
9
8
4
*-
Notice that the comments, barlines, rests, and null tokens have
been eliminated from the input file.
This leaves the output in a form better suited to pattern matching
using the
patt
or
pattern
commands.
Similarly, executing the command:
reihe -r 1 webern
produces:
**pc
1
5
6
7
4
3
2
8
9
0
11
10
*-
Options are specified in the command line.
-a for **pc
inputs, output alphanumeric representation (where A=10, B=11)-h displays a help screen summarizing the command syntax -I n output inversion set-form starting on pitch-class n -i n same as -I option -m n calculate according to modulo n arithmetic -P n output prime set-form starting on pitch-class n -p n same as -P option -R output retrograde of input row -R n output retrograde set-form ending on pitch-class n -r same as -R option -r n same as -R n option -RI n output retrograde-inversion set-form ending on pitch-class n -ri n same as -RI option -S [\(+-]n output set-form shifted n elements forward (+) or backward (-) -s [\(+-]n same as -S option
When the
-a
option is invoked, pitch-class inputs (**pc
) will produce
pitch-class outputs using the alias values `A' for pitch-class 10,
and `B' for pitch-class 11.
(See the **pc representation.)
By default, the
reihe
command assumes modulo 12 arithmetic for prime, inversion,
retrograde, and retrograde-inversion transformations.
In other words, transposing the numerical value `11' up three pitch-classes
results in an output value of `2.'
The
-m
option can be used to specify some other modulo value.
If this option is invoked with **pc
input,
the alias values (A=T=10; B=E=11) are disabled and only
numerical data can be processed and output.
The
-m
and
-a
options are thus mutually exclusive.
!! I. Stravinsky, 5-tone row
**pc
2
3
6
5
4
*-
The command: reihe -s -1 igor
would result in the following
output:
**pc
3
6
5
4
2
*-
The command: reihe -a -i 2 igor
would result in the following
output:
**pc
2
1
A
B
0
*-
The command: reihe -ri 0 -m 7 igor
would result in the following
output:
**pc
5
4
3
6
0
*-
**iv (2),
iv (4),
**nf (2),
nf (4),
patt (4),
pattern (4),
**pc (2),
pc (4),
**pcset (2),
pcset (4),
**pf (2),
pf (4),
recode (4),
semits (4)