abcmatch
searches an ABC file containing (potentially) many tunes for specific
sequences of notes. For example, if you know a few bars of a tune, you
can use this program to find the tune having this sequence and perhaps
identify the tune.
At a minimum, abcmatch requires two files. A template file called
match.abc which contains the bars that you are searching for and
a large file consisting of a hundred or more ABC tunes.
The program automatically loads up the match.abc file and
then scans every tune in the large file.
Though the program can be run stand-alone, it is really meant to be
run with a GUI such as runabc.tcl (which is not yet part of
Debian). Most of its output is rather cryptic.
THE MATCHING PROCESS
The template file must be a well-formed ABC file containing the
basic X:, M:, L:, and K: headers as well as
the bars to be matched. (Normally, this file is created by
runabc.tcl.) It is important to finish each bar in the match file with
a vertical line.
abcmatch
uses the key signature to figure out the relative position of the
notes in the scale, and to determine all the assumed sharps and
flats. Therefore the program can find matching bars in a tune that has
been transposed to another key, as long as the key difference is not
too large. Matches are output in a list format looking like
29 30 4
30 31 4
Each line indicates a particular match found by the program. The first
number on each line gives the relative position of the tune in the
data-file, while the next number gives the X: number of
that tune. The last number is the bar number of the matching tune. Bar
numbers are counted sequentially from the start of the tune, and all
V: and P: indications are ignored. That is, the bar number
returned by abcmatch may not match bar numbers printed by one of
the PostScript-producing ABC processors such as abcm2ps or
abcmidi-yaps.
For the purposes of matching, abcmatch ignores all guitar
chords, lyrics, note decorations (e.g., staccato markings), grace
notes, etc. In chords such as [G2c2], only the highest note is
considered. Any warnings or error messages from the ABC parser are
suppressed unless the -c option is given.
OPTIONS
-a
Report any matching bars. By default, if the template file contains a
sequence of several bars, the program will try to find places in the
data file where the whole sequence matches. With this option, it
returns all places in the data file where any of the bars in the
template file match.
-br d
`Brief mode' is designed to identify groups of tunes sharing common
bars. In this mode, the program determines the number of all bars in each
tune from the data file which are also present in the template
file. If the number of common bars is greater than or equal to the
value of the d parameter, the program reports the tune and the
number of common bars. Currently there is no user control of the
matching criterion; the rhythm must match exactly, and the notes are
transposed to suit the key signature.
-c
Display error and warning messages from the ABC parser (which are
suppressed by default).
-con
Do a pitch contour match. In this case, the program uses the key
signature only to indicate accidentals. The pitch contour is computed
from the pitch difference (interval) between adjacent notes. That is,
C2 DE, c2 de, and G2 AB all have the same pitch
contour.
-ign
Ignore simple bars.
-length_hist
This does no matching at all but returns a histogram of the
distribution of note lengths in the data file. The output looks like
length histogram
12 100
24 20
36 6
48 2
72 4
where a quarter note is 24 units, an eight note 12 units, a dotted
half note 72 units etc.
-pitch_hist
This does no matching at all but returns a histogram of the
distribution of pitches in the data file. The output looks like
pitch histogram
64 2
66 9
67 11
where the first number on each line is a MIDI note number and the
second is a count of the number of times that note occurred.
-qnt
Do a quantized pitch contour match. This works as described above for
the -con option, but will also quantize the intervals as
follows: Unison and semitone intervals are assigned value 0, major
2nds to major 3rds value 1, and a perfect 4th or greater value
2. Negative numbers are used for descending intervals.
-r n
Resolution for matching. If the n parameter is zero, a perfect
match must be found, meaning that the lengths of each note in a bar
must match exactly in order to be reported. The larger the value of
n, the looser the match will be. Note lengths are converted into
temporal units where a quarter note is normally assigned a value of 24
(therefore an eighth note has a value of 12, a sixteenth a value of 6,
a half note a value of 48 etc.) If you specify a temporal resolution
of 12, then the pitch values of the notes only need to match at the
time units that are multiples of an eight note. This means that the
program would match the two bars C2 D2 and C C D D, as
well as C2 D2 and C/D/C/D/D2. By selecting a suitable
value for n, you can search for matches only at the beginning of
a measure or at the beginning of each beat.
-v
Run verbosely.
-ver
Display the program's version number.
LIMITATIONS
The program has some limitations. For example, the data file must
contain bar lines, and tied notes cannot be longer than the equivalent
of 8 quarter notes. A resolution (-r option) that is too small
may cause some buffers to be exceeded. When there are differences of
key signatures of more than 5 semitones, the program may transpose the
notes in the wrong direction. Also, tunes with more than one key
signature or time signature may not be processed correctly.