RhythmGame/singletons/FileLoader.gd

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GDScript3
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#extends Object
extends Node
const ERROR_CODES := [
'OK', 'FAILED', 'ERR_UNAVAILABLE', 'ERR_UNCONFIGURED', 'ERR_UNAUTHORIZED', 'ERR_PARAMETER_RANGE_ERROR',
'ERR_OUT_OF_MEMORY', 'ERR_FILE_NOT_FOUND', 'ERR_FILE_BAD_DRIVE', 'ERR_FILE_BAD_PATH','ERR_FILE_NO_PERMISSION',
'ERR_FILE_ALREADY_IN_USE', 'ERR_FILE_CANT_OPEN', 'ERR_FILE_CANT_WRITE', 'ERR_FILE_CANT_READ', 'ERR_FILE_UNRECOGNIZED',
'ERR_FILE_CORRUPT', 'ERR_FILE_MISSING_DEPENDENCIES', 'ERR_FILE_EOF', 'ERR_CANT_OPEN', 'ERR_CANT_CREATE', 'ERR_QUERY_FAILED',
'ERR_ALREADY_IN_USE', 'ERR_LOCKED', 'ERR_TIMEOUT', 'ERR_CANT_CONNECT', 'ERR_CANT_RESOLVE', 'ERR_CONNECTION_ERROR',
'ERR_CANT_ACQUIRE_RESOURCE', 'ERR_CANT_FORK', 'ERR_INVALID_DATA', 'ERR_INVALID_PARAMETER', 'ERR_ALREADY_EXISTS',
'ERR_DOES_NOT_EXIST', 'ERR_DATABASE_CANT_READ', 'ERR_DATABASE_CANT_WRITE', 'ERR_COMPILATION_FAILED', 'ERR_METHOD_NOT_FOUND',
'ERR_LINK_FAILED', 'ERR_SCRIPT_FAILED', 'ERR_CYCLIC_LINK', 'ERR_INVALID_DECLARATION', 'ERR_DUPLICATE_SYMBOL',
'ERR_PARSE_ERROR', 'ERR_BUSY', 'ERR_SKIP', 'ERR_HELP', 'ERR_BUG'
]
var userroot := OS.get_user_data_dir().rstrip('/')+'/' if OS.get_name() != 'Android' else '/storage/emulated/0/RhythmGame/'
var PATHS := PoolStringArray([userroot, '/media/fridge-q/Games/RTG/slow_userdir/']) # Temporary hardcoded testing
# The following would probably work. One huge caveat is that permission needs to be manually granted by the user in app settings as we can't use OS.request_permission('WRITE_EXTERNAL_STORAGE')
# '/storage/emulated/0/Android/data/au.ufeff.rhythmgame/'
# '/sdcard/Android/data/au.ufeff.rhythmgame/'
func _ready() -> void:
print('Library paths: ', PATHS)
func find_file(name: String) -> String:
# Searches through all of the paths to find the file
var file := File.new()
for root in PATHS:
var filename: String = root + name
if file.file_exists(filename):
return filename
return ''
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func directory_list(directory: String, hidden: bool, sort:=true) -> Dictionary:
# Sadly there's no filelist sugar so we make our own
var output = {folders=[], files=[], err=OK}
var dir = Directory.new()
output.err = dir.open(directory)
if output.err != OK:
print_debug('Failed to open directory: ' + directory + '(Error code '+output.err+')')
return output
output.err = dir.list_dir_begin(true, !hidden)
if output.err != OK:
print_debug('Failed to begin listing directory: ' + directory + '(Error code '+output.err+')')
return output
var item = dir.get_next()
while (item != ''):
if dir.current_is_dir():
output['folders'].append(item)
else:
output['files'].append(item)
item = dir.get_next()
dir.list_dir_end()
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if sort:
output.folders.sort()
output.files.sort()
# Maybe convert the Arrays to PoolStringArrays?
return output
func find_by_extensions(array, extensions=null) -> Dictionary:
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# Both args can be Array or PoolStringArray
# If extensions omitted, do all extensions
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var output = {}
if extensions:
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for ext in extensions:
output[ext] = []
for filename in array:
for ext in extensions:
if filename.ends_with(ext):
output[ext].append(filename)
else:
for filename in array:
var ext = filename.rsplit('.', false, 1)[1]
if ext in output:
output[ext].append(filename)
else:
output[ext] = [filename]
return output
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const default_difficulty_keys = ['Z', 'B', 'A', 'E', 'M', 'R']
func scan_library():
print('Scanning library')
var song_defs = {}
var collections = {}
var genres = {}
for root in PATHS:
var rootdir = root + 'songs'
var dir = Directory.new()
var err = dir.make_dir_recursive(rootdir)
if err != OK:
print_debug('An error occurred while trying to create the songs directory: ', err)
return err
var songslist = directory_list(rootdir, false)
if songslist.err != OK:
print('An error occurred when trying to access the songs directory: ', songslist.err)
return songslist.err
dir.open(rootdir)
for folder in songslist.folders:
var full_folder := '%s/%s' % [rootdir, folder]
if dir.file_exists(folder + '/song.json'):
# Our format
song_defs[folder] = FileLoader.load_folder(full_folder)
print('Loaded song directory: %s' % folder)
if song_defs[folder]['genre'] in genres:
genres[song_defs[folder]['genre']].append(folder)
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else:
genres[song_defs[folder]['genre']] = [folder]
if typeof(song_defs[folder]['chart_difficulties']) == TYPE_ARRAY:
var diffs = song_defs[folder]['chart_difficulties']
var chart_difficulties = {}
for i in min(len(diffs), len(default_difficulty_keys)):
chart_difficulties[default_difficulty_keys[i]] = diffs[i]
song_defs[folder]['chart_difficulties'] = chart_difficulties
elif dir.file_exists(folder + '/collection.json'):
var collection = FileLoader.load_folder(full_folder, 'collection')
collections[folder] = collection
var base_dict = {'filepath': folder+'/'} # Top level of the collection dict contains defaults for every song in it
for key in collection.keys():
if key != 'songs':
base_dict[key] = collection[key]
for song_key in collection['songs'].keys():
var song_dict = collection['songs'][song_key]
var song_def = base_dict.duplicate()
for key in song_dict.keys():
song_def[key] = song_dict[key]
Library.add_song(song_key, song_def)
# Legacy compat stuff
song_defs[song_key] = song_def
if song_defs[song_key]['genre'] in genres:
genres[song_defs[song_key]['genre']].append(song_key)
else:
genres[song_defs[song_key]['genre']] = [song_key]
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else:
var files_by_ext = find_by_extensions(directory_list(full_folder, false).files)
if 'sm' in files_by_ext:
var sm_filename = files_by_ext['sm'][0]
print(sm_filename)
var thing = SM.load_file(full_folder + '/' + sm_filename)
print(thing)
pass
else:
print('Found non-song directory: ' + folder)
for file in songslist.files:
print('Found file: ' + file)
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return {song_defs=song_defs, genres=genres}
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class SRT:
const TAP_DURATION := 0.062500
const ID_BREAK := 4
const ID_HOLD := 2
const ID_SLIDE_END := 128
const ID3_SLIDE_CHORD := 0 # Straight line
const ID3_SLIDE_ARC_CW := 1
const ID3_SLIDE_ARC_ACW := 2
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static func load_file(filename):
var file = File.new()
var err = file.open(filename, File.READ)
if err != OK:
print(err)
return err
var metadata := {}
var num_taps := 0
var num_holds := 0
var num_slides := 0
var notes := []
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var beats_per_measure := 4
var length = file.get_len()
var slide_ids = {}
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while (file.get_position() < (length-2)):
var noteline = file.get_csv_line()
var time_hit := (float(noteline[0]) + (float(noteline[1]))) * beats_per_measure
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var duration := float(noteline[2]) * beats_per_measure
var column := int(noteline[3])
var id := int(noteline[4])
var id2 := int(noteline[5])
var id3 := int(noteline[6])
match id:
ID_HOLD:
notes.push_back(Note.NoteHold.new(time_hit, column, duration))
num_holds += 1
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ID_BREAK:
notes.push_back(Note.NoteTap.new(time_hit, column, true))
num_taps += 1
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ID_SLIDE_END:
# id2 is slide ID
if id2 in slide_ids:
slide_ids[id2].column_release = column
slide_ids[id2].update_slide_variables()
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_:
if id2 == 0:
notes.push_back(Note.NoteTap.new(time_hit, column))
num_taps += 1
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else:
# id2 is slide ID, id3 is slide pattern
# In order to properly declare the slide, we need the paired endcap which may not be the next note
var slide_type = Note.SlideType.CHORD
match id3:
ID3_SLIDE_CHORD:
slide_type = Note.SlideType.CHORD
ID3_SLIDE_ARC_CW:
slide_type = Note.SlideType.ARC_CW
ID3_SLIDE_ARC_ACW:
slide_type = Note.SlideType.ARC_ACW
_:
print('Unknown slide type: ', id3)
var note = Note.NoteStar.new(time_hit, column)
num_slides += 1
note.duration = duration
notes.push_back(note)
var slide = Note.NoteSlide.new(time_hit, column, duration, -1, slide_type)
notes.push_back(slide)
slide_ids[id2] = slide
metadata['num_taps'] = num_taps
metadata['num_holds'] = num_holds
metadata['num_slides'] = num_slides
return [metadata, notes]
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class RGT:
# RhythmGameText formats
# .rgts - simplified format cutting out redundant data, should be easy to write charts in
# .rgtx - a lossless representation of MM in-memory format
# .rgtm - a collection of rgts charts, with a [title] at the start of each one
enum Format{RGTS, RGTX, RGTM}
const EXTENSIONS = {
'rgts': Format.RGTS,
'rgtx': Format.RGTX,
'rgtm': Format.RGTM,
}
const NOTE_TYPES = {
't': Note.NOTE_TAP,
'h': Note.NOTE_HOLD,
's': Note.NOTE_STAR,
'e': Note.NOTE_SLIDE,
'b': Note.NOTE_TAP, # Break
'x': Note.NOTE_STAR # Break star
}
const SLIDE_TYPES = {
'0': null, # Seems to be used for stars without slides attached
'1': Note.SlideType.CHORD,
'2': Note.SlideType.ARC_ACW,
'3': Note.SlideType.ARC_CW,
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'4': Note.SlideType.COMPLEX, # Orbit around center ACW on the way
'5': Note.SlideType.COMPLEX, # CW of above
'6': Note.SlideType.COMPLEX, # S zigzag through center
'7': Note.SlideType.COMPLEX, # Z zigzag through center
'8': Note.SlideType.COMPLEX, # V into center
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'9': Note.SlideType.COMPLEX, # Go to center then orbit off to the side ACW
'a': Note.SlideType.COMPLEX, # CW of above
'b': Note.SlideType.COMPLEX, # V into column 2 places ACW
'c': Note.SlideType.COMPLEX, # V into column 2 places CW
'd': Note.SlideType.CHORD_TRIPLE, # Triple cone. Spreads out to the adjacent receptors of the target.
'e': Note.SlideType.CHORD, # Not used in any of our charts
'f': Note.SlideType.CHORD, # Not used in any of our charts
}
const SLIDE_IN_R := sin(PI/8) # Circle radius circumscribed by chords 0-3, 1-4, 2-5 etc.
static func load_file(filename: String):
var extension = filename.rsplit('.', false, 1)[1]
if not EXTENSIONS.has(extension):
return -1
var format = EXTENSIONS[extension]
var file := File.new()
var err := file.open(filename, File.READ)
if err != OK:
print(err)
return err
var length = file.get_len()
var chart_ids = []
var lines = [[]]
# This loop will segment the lines as if the file were RGTM
while (file.get_position() < (length-1)): # Could probably replace this with file.eof_reached()
var line : String = file.get_line()
if line.begins_with('['): # Split to a new list for each chart definition
chart_ids.append(line.lstrip('[').rstrip(']'))
lines.append([])
elif !line.empty():
lines[-1].push_back(line)
file.close()
print('Parsing chart: ', filename)
match format:
Format.RGTS:
var metadata_and_notes = parse_rgts(lines[0])
return metadata_and_notes
Format.RGTX:
var metadata_and_notes = parse_rgtx(lines[0])
return metadata_and_notes
Format.RGTM:
lines.pop_front() # Anything before the first [header] is meaningless
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var charts = {}
for i in len(lines):
charts[chart_ids[i]] = parse_rgts(lines[i])
return charts
return format
static func parse_rgtx(lines: PoolStringArray):
return [] # To be implemented later
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const beats_per_measure = 4.0 # TODO: Bit of an ugly hack, need to revisit this later
static func parse_rgts(lines: PoolStringArray):
var metadata := {}
var num_taps := 0
var num_holds := 0
var num_slides := 0
var notes := []
var slide_ids := {}
var slide_stars := {} # Multiple stars might link to one star. We only care about linking for the spin speed.
var last_star := []
for i in Rules.COLS:
last_star.append(null)
for line in lines:
if len(line) < 4: # shortest legal line would be like '1:1t'
continue
var s = line.split(':')
var time := float(s[0]) * beats_per_measure
var note_hits := []
var note_nonhits := []
for i in range(1, len(s)):
var n = s[i]
var column := int(n[0])
var ntype = n[1]
n = n.substr(2)
match ntype:
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't', 'b': # tap
note_hits.append(Note.NoteTap.new(time, column, ntype=='b'))
num_taps += 1
'h': # hold
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var duration = float(n) * beats_per_measure
note_hits.append(Note.NoteHold.new(time, column, duration))
num_holds += 1
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's', 'x': # slide star
var star = Note.NoteStar.new(time, column, ntype=='z')
note_hits.append(star)
num_slides += 1
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last_star[column] = star
if len(n) > 1: # Not all stars have proper slide info
var slide_type = n[0] # hex digit
var slide_id = int(n.substr(1))
if slide_id > 0:
slide_stars[slide_id] = star
var slide = Note.NoteSlide.new(time, column)
slide_ids[slide_id] = slide
note_nonhits.append(slide)
'e': # slide end
var slide_type = n[0] # numeric digit, left as str just in case
var slide_id = int(n.substr(1))
if slide_id in slide_ids: # Classic slide end
slide_ids[slide_id].time_release = time
if slide_id in slide_stars:
slide_stars[slide_id].duration = slide_ids[slide_id].duration # Should probably recalc in case start time is different but w/e
slide_ids[slide_id].column_release = column
slide_ids[slide_id].slide_type = SLIDE_TYPES[slide_type]
slide_ids[slide_id].update_slide_variables()
if SLIDE_TYPES[slide_type] == Note.SlideType.COMPLEX:
var col_hit = slide_ids[slide_id].column
var RUV = GameTheme.RADIAL_UNIT_VECTORS
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var RCA = GameTheme.RADIAL_COL_ANGLES
slide_ids[slide_id].values.curve2d.add_point(RUV[col_hit]) # Start col
match slide_type:
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'4': # Orbit ACW around center. Size of loop is roughly inscribed in chords of 0-3, 1-4, 2-5... NB: doesn't loop if directly opposite col
Note.curve2d_make_orbit(slide_ids[slide_id].values.curve2d, RCA[col_hit], RCA[column], true)
'5': # CW of above
Note.curve2d_make_orbit(slide_ids[slide_id].values.curve2d, RCA[col_hit], RCA[column], false)
'6': # S zigzag through center
slide_ids[slide_id].values.curve2d.add_point(RUV[posmod(col_hit-2, Rules.COLS)] * SLIDE_IN_R)
slide_ids[slide_id].values.curve2d.add_point(RUV[posmod(col_hit+2, Rules.COLS)] * SLIDE_IN_R)
'7': # Z zigzag through center
slide_ids[slide_id].values.curve2d.add_point(RUV[posmod(col_hit+2, Rules.COLS)] * SLIDE_IN_R)
slide_ids[slide_id].values.curve2d.add_point(RUV[posmod(col_hit-2, Rules.COLS)] * SLIDE_IN_R)
'8': # V into center
slide_ids[slide_id].values.curve2d.add_point(Vector2.ZERO)
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'9': # Orbit off-center ACW
Note.curve2d_make_sideorbit(slide_ids[slide_id].values.curve2d, RCA[col_hit], RCA[column], true)
'a': # CW of above
Note.curve2d_make_sideorbit(slide_ids[slide_id].values.curve2d, RCA[col_hit], RCA[column], false)
'b': # V into column 2 places ACW
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slide_ids[slide_id].values.curve2d.add_point(RUV[posmod(col_hit-2, Rules.COLS)])
'c': # V into column 2 places CW
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slide_ids[slide_id].values.curve2d.add_point(RUV[posmod(col_hit+2, Rules.COLS)])
slide_ids[slide_id].values.curve2d.add_point(RUV[column]) # End col
else: # Naked slide start
if last_star[column] != null:
slide_stars[slide_id] = last_star[column]
else:
print_debug('Naked slide with no prior star in column!')
var note = Note.NoteSlide.new(time, column)
slide_ids[slide_id] = note
note_nonhits.append(note)
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'_':
print_debug('Unknown note type: ', ntype)
if len(note_hits) > 1:
for note in note_hits: # Set multihit on each one
note.double_hit = true
notes += note_hits + note_nonhits
metadata['num_taps'] = num_taps
metadata['num_holds'] = num_holds
metadata['num_slides'] = num_slides
return [metadata, notes]
class SM:
# Stepmania simfile
const NOTE_VALUES = {
'0': 'None',
'1': 'Tap',
'2': 'HoldStart',
'3': 'HoldRollEnd',
'4': 'RollStart',
'M': 'Mine',
# These three are less likely to show up anywhere, no need to implement
'K': 'Keysound',
'L': 'Lift',
'F': 'Fake',
}
const CHART_DIFFICULTIES = {
'Beginner': 0,
'Easy': 1,
'Medium': 2,
'Hard': 3,
'Challenge': 4,
'Edit': 5,
# Some will just write whatever for special difficulties, but we should at least color-code these standard ones
}
const TAG_TRANSLATIONS = {
'#TITLE': 'title',
'#SUBTITLE': 'subtitle',
'#ARTIST': 'artist',
'#TITLETRANSLIT': 'title_transliteration',
'#SUBTITLETRANSLIT': 'subtitle_transliteration',
'#ARTISTTRANSLIT': 'artist_transliteration',
'#GENRE': 'genre',
'#CREDIT': 'chart_author',
'#BANNER': 'image_banner',
'#BACKGROUND': 'image_background',
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# '#LYRICSPATH': '',
'#CDTITLE': 'image_cd_title',
'#MUSIC': 'audio_filelist',
'#OFFSET': 'audio_offsets',
'#SAMPLESTART': 'audio_preview_times',
'#SAMPLELENGTH': 'audio_preview_times',
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# '#SELECTABLE': '',
'#BPMS': 'bpm_values',
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# '#STOPS': '',
# '#BGCHANGES': '',
# '#KEYSOUNDS': '',
}
static func load_chart(lines):
var metadata = {}
var notes = []
assert(lines[0].begins_with('#NOTES:'))
metadata['chart_type'] = lines[1].strip_edges().rstrip(':')
metadata['description'] = lines[2].strip_edges().rstrip(':')
metadata['difficulty_str'] = lines[3].strip_edges().rstrip(':')
metadata['numerical_meter'] = lines[4].strip_edges().rstrip(':')
metadata['groove_radar'] = lines[5].strip_edges().rstrip(':')
# Measures are separated by lines that start with a comma
# Each line has a state for each of the pads, e.g. '0000' for none pressed
# The lines become even subdivisions of the measure, so if there's 4 lines everything represents a 1/4 beat, if there's 8 lines everything represents a 1/8 beat etc.
# For this reason it's probably best to just have a float for beat-within-measure rather than integer beats.
var measures = [[]]
for i in range(6, len(lines)):
var line = lines[i].strip_edges()
if line.begins_with(','):
measures.append([])
elif line.begins_with(';'):
break
elif len(line) > 0:
measures[-1].append(line)
var ongoing_holds = {}
var num_notes := 0
var num_jumps := 0
var num_hands := 0
var num_holds := 0
var num_rolls := 0
var num_mines := 0
for measure in range(len(measures)):
var m_lines = measures[measure]
var m_length = len(m_lines) # Divide out all lines by this
for beat in m_length:
var line : String = m_lines[beat]
# Jump check at a line-level (check for multiple 1/2/4s)
var hits : int = line.count('1') + line.count('2') + line.count('4')
# Hand/quad check more complex as need to check hold/roll state as well
# TODO: are they exclusive? Does quad override hand override jump? SM5 doesn't have quads and has hands+jumps inclusive
var total_pressed : int = hits + len(ongoing_holds)
var jump : bool = hits >= 2
var hand : bool = total_pressed >= 3
# var quad : bool = total_pressed >= 4
num_notes += hits
num_jumps += int(jump)
num_hands += int(hand)
var time = measure + beat/float(m_length)
for col in len(line):
match line[col]:
'1':
notes.append(Note.NoteTap.new(time, col))
'2': # Hold
ongoing_holds[col] = len(notes)
notes.append(Note.NoteHold.new(time, col, 0.0))
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num_holds += 1
'4': # Roll
ongoing_holds[col] = len(notes)
notes.append(Note.NoteRoll.new(time, col, 0.0))
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num_rolls += 1
'3': # End Hold/Roll
assert(ongoing_holds.has(col))
notes[ongoing_holds[col]].set_time_release(time)
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ongoing_holds.erase(col)
'M': # Mine
num_mines += 1
pass
metadata['num_notes'] = num_notes
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metadata['num_taps'] = num_notes - num_jumps
metadata['num_jumps'] = num_jumps
metadata['num_hands'] = num_hands
metadata['num_holds'] = num_holds
metadata['num_rolls'] = num_rolls
metadata['num_mines'] = num_mines
return [metadata, notes]
static func load_file(filename: String) -> Array:
# Output is [metadata, [[meta0, chart0], ..., [metaN, chartN]]]
# Technically, declarations end with a semicolon instead of a linebreak.
# This is a PITA to do correctly in GDScript and the files in our collection are well-behaved with linebreaks anyway, so we won't bother.
var file := File.new()
match file.open(filename, File.READ):
OK:
pass
var err:
print_debug('Error loading file: ', err)
return []
var length = file.get_len()
var lines = [[]] # First list will be header, then every subsequent one is a chart
while (file.get_position() < (length-1)): # Could probably replace this with file.eof_reached()
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var line : String = file.get_line()
if line.begins_with('#NOTES'): # Split to a new list for each chart definition
lines.append([])
lines[-1].append(line)
file.close()
var metadata = {}
for line in lines[0]:
var tokens = line.rstrip(';').split(':')
if TAG_TRANSLATIONS.has(tokens[0]):
metadata[TAG_TRANSLATIONS[tokens[0]]] = tokens[1]
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elif len(tokens) >= 2:
metadata[tokens[0]] = tokens[1]
var charts = []
for i in range(1, len(lines)):
charts.append(load_chart(lines[i]))
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return [metadata, charts]
class Test:
static func stress_pattern():
var notes = []
for bar in range(8):
notes.push_back(Note.NoteHold.new(bar*4, bar%8, 1))
for i in range(1, 8):
notes.push_back(Note.NoteTap.new(bar*4 + (i/2.0), (bar + i)%8))
notes.push_back(Note.NoteTap.new(bar*4 + (7/2.0), (bar + 3)%8))
for bar in range(8, 16):
notes.push_back(Note.NoteHold.new(bar*4, bar%8, 2))
for i in range(1, 8):
notes.push_back(Note.NoteTap.new(bar*4 + (i/2.0), (bar + i)%8))
notes.push_back(Note.NoteTap.new(bar*4 + ((i+0.5)/2.0), (bar + i)%8))
notes.push_back(Note.make_slide(bar*4 + ((i+1)/2.0), 1, (bar + i)%8, 0))
for bar in range(16, 24):
notes.push_back(Note.NoteHold.new(bar*4, bar%8, 2))
notes.push_back(Note.NoteHold.new(bar*4, (bar+1)%8, 1))
for i in range(2, 8):
notes.push_back(Note.NoteTap.new(bar*4 + (i/2.0), (bar + i)%8))
notes.push_back(Note.NoteHold.new(bar*4 + ((i+1)/2.0), (bar + i)%8, 0.5))
for bar in range(24, 32):
notes.push_back(Note.NoteHold.new(bar*4, bar%8, 1))
for i in range(1, 32):
notes.push_back(Note.NoteTap.new(bar*4 + (i/8.0), (bar + i)%8))
if (i%2) > 0:
notes.push_back(Note.NoteTap.new(bar*4 + (i/8.0), (bar + i + 4)%8))
for bar in range(32, 48):
notes.push_back(Note.NoteHold.new(bar*4, bar%8, 1))
for i in range(1, 32):
notes.push_back(Note.NoteTap.new(bar*4 + (i/8.0), (bar + i)%8))
notes.push_back(Note.NoteTap.new(bar*4 + (i/8.0), (bar + i + 3)%8))
return notes
func load_folder(folder, filename='song'):
var file = File.new()
var err = file.open('%s/%s.json' % [folder, filename], File.READ)
if err != OK:
print(err)
return err
var result_json = JSON.parse(file.get_as_text())
file.close()
if result_json.error != OK:
print('Error: ', result_json.error)
print('Error Line: ', result_json.error_line)
print('Error String: ', result_json.error_string)
return result_json.error
var result = result_json.result
result.directory = folder
return result
func load_filelist(filelist: Array, directory=''):
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var charts = {}
var key := 0
for name in filelist:
var extension: String = name.rsplit('.', true, 1)[-1]
name = directory.rstrip('/') + '/' + name
var filename = find_file(name)
if filename != '':
match extension:
'rgtm': # multiple charts
var res = RGT.load_file(filename)
for k in res:
charts[Library.difficulty_translations.get(k, k)] = res[k]
'rgts', 'rgtx': # single chart - The keys for this should be translated afterwards
charts[key] = RGT.load_file(filename)
key += 1
'srt': # maimai, single chart
var metadata_and_notes = SRT.load_file(filename)
Note.process_note_list(metadata_and_notes[1]) # SRT doesn't handle doubles
charts[key] = metadata_and_notes
key += 1
'sm': # Stepmania, multiple charts
var res = SM.load_file(filename)
for chart in res[1]:
var diff = chart[0].difficulty_str
charts[diff] = chart[1]
_:
pass
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return charts
func direct_load_ogg(filename: String) -> AudioStreamOGGVorbis:
# Loads the ogg file with that exact filename
var audiostream = AudioStreamOGGVorbis.new()
var oggfile = File.new()
oggfile.open(filename, File.READ)
audiostream.set_data(oggfile.get_buffer(oggfile.get_len()))
oggfile.close()
return audiostream
var fallback_audiostream = AudioStreamOGGVorbis.new()
func load_ogg(name: String) -> AudioStreamOGGVorbis:
# Searches through all of the paths to find the file
match find_file(name):
'': return fallback_audiostream
var filename: return direct_load_ogg(filename)
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var fallback_videostream = VideoStreamWebm.new()
func load_video(name: String):
match find_file(name):
'': return fallback_videostream
var filename:
return load(filename)
# var videostream = VideoStreamGDNative.new()
# videostream.set_file(filename1)
# return videostream
func direct_load_image(filename: String) -> ImageTexture:
var tex := ImageTexture.new()
var img := Image.new()
img.load(filename)
tex.create_from_image(img)
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return tex
var fallback_texture := ImageTexture.new()
func load_image(name: String) -> ImageTexture:
var filename = find_file(name)
if filename != '':
return direct_load_image(filename)
print('File not found: ', name)
return fallback_texture
func init_directory(directory: String):
var dir = Directory.new()
var err = dir.make_dir_recursive(directory)
if err != OK:
print('An error occurred while trying to create the scores directory: ', err, ERROR_CODES[err])
return err
func save_json(filename: String, data: Dictionary):
filename = userroot + filename
var dir = filename.rsplit('/', true, 1)[0]
match FileLoader.init_directory(dir):
OK:
pass
var err:
print_debug('Error making directory for JSON file: ', err, ERROR_CODES[err])
return err
var json = JSON.print(data)
var file = File.new()
match file.open(filename, File.WRITE):
OK:
file.store_string(json)
file.close()
return OK
var err:
print_debug('Error saving JSON file: ', err, ERROR_CODES[err])
return err
func load_json(filename: String):
var file = File.new()
var err
for root in PATHS:
var filename1 = root + filename
if file.file_exists(filename1):
err = file.open(filename1, File.READ)
if err != OK:
print('An error occurred while trying to open file: ', filename1, err, ERROR_CODES[err])
continue # return err
var result_json = JSON.parse(file.get_as_text())
file.close()
if result_json.error != OK:
print('Error: ', result_json.error)
print('Error Line: ', result_json.error_line)
print('Error String: ', result_json.error_string)
return result_json.error
return result_json.result
print('File not found in any libraries: ', filename)
return ERR_FILE_NOT_FOUND