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# ~*~ coding: utf-8 ~*~
#-
# Copyright © 2016
#       mirabilos <m@mirbsd.org>
# Copyright © 2013, 2016
#       Dominik George <nik@naturalnet.de>
# Copyright © 2013
#       Eike Tim Jesinghaus <eike@naturalnet.de>
#-
# Provided that these terms and disclaimer and all copyright notices
# are retained or reproduced in an accompanying document, permission
# is granted to deal in this work without restriction, including un‐
# limited rights to use, publicly perform, distribute, sell, modify,
# merge, give away, or sublicence.
#
# This work is provided “AS IS” and WITHOUT WARRANTY of any kind, to
# the utmost extent permitted by applicable law, neither express nor
# implied; without malicious intent or gross negligence. In no event
# may a licensor, author or contributor be held liable for indirect,
# direct, other damage, loss, or other issues arising in any way out
# of dealing in the work, even if advised of the possibility of such
# damage or existence of a defect, except proven that it results out
# of said person’s immediate fault when using the work as intended.

"""Functions and data to deal with Music Macro Language parsing
and conversion into frequency and duration tuples, as well as
generic tools for dealing with MML.
"""

# Pre-calculated note frequencies
#
# The list comprehension creates a list of 84 frequencies
# from C2 (C, o0c) to B8 (h''''', o6b) mapping the MML note
# number (minus one) to its 12-EDO, A=440 Hz, frequency
_MML_NOTE2FREQ = [(440.0 * pow(2, (n - 33) / 12.)) for n in range(0, 84)]

# Note offsets
# Map pitch names to half-tone steps from the current C
_MML_NAME2STEP = {'C': 0,
                  'D': 2,
                  'E': 4,
                  'F': 5,
                  'G': 7,
                  'A': 9,
                  'B': 11}

# Note offsets, reverse
#
# Map MML note numbers (minus one) to tuple (MML octave, pitch name,
# accidental sign)
#
# For enharmonic equivalents, ♯ is used for all half-tones except B♭
# (common guess)
MML_NOTE2PITCH = [item for sublist in [[(octave, 'C', u'♮'),
                                        (octave, 'C', u'♯'),
                                        (octave, 'D', u'♮'),
                                        (octave, 'D', u'♯'),
                                        (octave, 'E', u'♮'),
                                        (octave, 'F', u'♮'),
                                        (octave, 'F', u'♯'),
                                        (octave, 'G', u'♮'),
                                        (octave, 'G', u'♯'),
                                        (octave, 'A', u'♮'),
                                        (octave, 'B', u'♭'),
                                        (octave, 'B', u'♮')]
                                       for octave in range(0, 7)]
                  for item in sublist]

def _addtoplaylist(res, freq, dur):
    """Merge note or pause onto playlist

    Helper function to merge a note or pause onto the playlist

    Important: may only be called from mml_play because it
    directly manipulates the result playlist, which only
    overridable functions are permitted to do; this isn’t one.

     res - the result playlist
     freq - the frequency (0 to pause)
     dur - the length
    """

    # simple case
    if len(res) == 0 or not isinstance(res[-1], tuple):
        res.append((freq, dur))
        return
    # merge same-frequency occurrences
    prec = res.pop()
    if prec[0] == freq:
        res.append((freq, prec[1] + dur))
        return
    # oops, no; restore preceding element and add a new one
    res.append(prec)
    res.append((freq, dur))

def _mml_barline(res):
    """ Add bar line to playlist

    Helper function to merge a synchronisation mark onto the playlist
    (may be overridden)

     res - the result playlist
    """

    if len(res) > 0 and res[-1] != 1:
        res.append(1)

def _mml_play(res, bpm, art, note, length, dots, extra):
    """ Play a note or pause

    Helper function to play an MML note after parsing sustain dots
    by adding it onto the result playlist (may be overridden)

    The “extra” information are not read by this implementation but
    must be passed by all callers! Values are:

     • tuple(mmloctave, basenote, accidentalsign)
     ‣ mmloctave is int, 0‥6
       ‣ basenote ∈ ("C", "D", "E", "F", "G", "A", "B")
       ‣ accidentalsign ∈ (u'♭', u'♮', u'♯')
     • int(-1) to play a pause (rest)
     • int mmlnote-1, 0‥83
       ‣ tuple form preferred as this involves guessing the accidental sign

     res - the result playlist
     bpm - the current tempo
     art - the current articulation
     note - the note number minus 1, or -1 for pause
     length - the time value (length) to play
     dots - amount of sustain dots
     extra - additional information for export
    """

    # calculate duration
    length /= 1.5**dots
    duration = ((60.0 / bpm) * 4) / length

    # articulate note
    if note == -1:
        # pause
        _addtoplaylist(res, 0, duration)
    elif art == 'L':
        # legato
        _addtoplaylist(res, _MML_NOTE2FREQ[note], duration)
    else:
        # normal or staccato
        if art == 'N':
            part = 7.0/8
        else:
            part = 3.0/4
        _addtoplaylist(res, _MML_NOTE2FREQ[note], duration * part)
        _addtoplaylist(res, 0, duration - duration * part)

def _getint(macro, minval, maxval, defval):
    """ Parse an MML number

    Parses an MML number (positive) with bounds checking

     macro - the MML input list
     minval - the minimum allowed value
     maxval - the maximum allowed value
     defval - the default value to use if bounds are exceeded

     Returns an int, or defval.
    """

    num = ""
    while macro and macro[0].isdigit():
        num += macro.pop(0)
    if not num:
        return defval
    i = int(num)
    if i < minval or i > maxval:
        return defval
    return i

def mml(macro, _nplay=None, _barline=None):
    """ Parse a string in the "music macro language"

    The rsulting playlist is ordinarily a list of (frequency, duration)
    tuples, but the two overridable functions are the only ones modifying
    it, so it can be anything these do.

     macro - string in the music macro language
     _nplay - a function playing a note or pause, or None (_mml_play)
     _barline - a function playing a bar line, or None (_mml_barline)

    Returns the playlist
    """

    # overridden functions
    if _nplay is None:
        _nplay = _mml_play
    if _barline is None:
        _barline = _mml_barline
    # result playlist, may be manipulated only by overridable functions
    res = []

    # state machine variables
    art = 'N'
    bpm = 120
    octave = 4
    timevalue = 4

    # normalise macro string, create input list
    macro = macro.upper()
    macro = macro.replace(" ", "")
    macro = list(macro)

    # helper function to parse sustain dots and call _nplay
    def _play(macro, res, bpm, art, note, length, extra):
        # parse sustain dots
        ndots = 0
        while macro and macro[0] == ".":
            macro.pop(0)
            ndots += 1
        _nplay(res, bpm, art, note, length, ndots, extra)

    while macro:
        char = macro.pop(0)

        if char in _MML_NAME2STEP.keys():
            # base note
            note = 12 * octave + _MML_NAME2STEP[char]
            extra = (octave, char, u'♮')

            # accidental sign
            if macro and macro[0] in ("#", "+"):
                if note < 83:
                    note += 1
                    extra = (octave, char, u'♯')
                macro.pop(0)
            elif macro and macro[0] == "-":
                if note > 0:
                    note -= 1
                    extra = (octave, char, u'♭')
                macro.pop(0)

            # length
            _length = _getint(macro, 1, 64, timevalue)

            # sustain dots, and play the note
            _play(macro, res, bpm, art, note, _length, extra)

        elif char == "L":
            timevalue = _getint(macro, 1, 64, 4)

        elif char == "M":
            if macro:
                char = macro.pop(0)
                if char in ("L", "N", "S"):
                    art = char

        elif char == "N":
            note = _getint(macro, 0, 84, -1) - 1
            if note != -2:
                _play(macro, res, bpm, art, note, timevalue, note)

        elif char == "O":
            octave = _getint(macro, 0, 6, 4)

        elif char == "P":
            _length = _getint(macro, 1, 64, timevalue)
            _play(macro, res, bpm, art, -1, _length, -1)

        elif char == "T":
            bpm = _getint(macro, 32, 255, 120)

        elif char == "<":
            if octave > 0:
                octave -= 1

        elif char == ">":
            if octave < 6:
                octave += 1

        elif char == "|":
            _barline(res)

        elif char == "X":
            while macro and macro[0] != ";":
                macro.pop(0)

    return res