import pygame
from colorsys import hls_to_rgb
from gradients import gradients
+from cursors import WarpingCursor
from math import floor
+import types
# TODO : positionner cette constance en fonction de la résolution d'affichage
# externaliser la conf.
BORDER = 5 # 5px
FIRST_HUE = 0.6
-OFF_LUMINANCE = 0.1
+OFF_LUMINANCE = 0.2
OFF_SATURATION = 1
ON_TOP_LUMINANCE = 0.6
ON_BOTTOM_LUMINANCE = 0.9
ON_SATURATION = 1
+ON_COLUMN_OVERSIZING = 1.5
+
+
+def event_handler(eventType) :
+ def doRename(m) :
+ m.__name__ = 'eventHandler%s' % eventType
+ return m
+ return doRename
+
+
+class MetaRenamer(type):
+ def __new__(mcs, name, bases, dict) :
+ for k, v in dict.items() :
+ if isinstance(v, types.FunctionType) :
+ if k != v.__name__ :
+ print 'renommage de %s en %s' % (k, v.__name__)
+ dict[v.__name__] = v
+ del dict[k]
+ return type.__new__(mcs, name, bases, dict)
+
class _PlayingScreenBase(pygame.sprite.OrderedUpdates) :
+
+ __metaclass__ = MetaRenamer
+
def __init__(self, distinctNotes=[]) :
"""
distinctNotes : notes disctinctes présentes dans la chanson
self.distinctNotes = distinctNotes
self.keyboardLength = 0
self.keyboardRects = []
+ self.cursor = None
self._initRects()
self._initColumns()
+ self._running = False
+ self.draw(pygame.display.get_surface())
+ self._initCursor()
hueStep = FIRST_HUE / (self.keyboardLength - 1)
for i, rect in enumerate(self.keyboardRects) :
hue = FIRST_HUE - hueStep * i
+ print hue
c = Column(hue, rect)
self.add(c)
-
+
+ def _initCursor(self) :
+ self.cursor = WarpingCursor()
+ #self.add(self.cursor)
+
def highlightColumn(self, index) :
for i, sprite in enumerate(self.sprites()) :
sprite.update(i==index)
self.draw(pygame.display.get_surface())
-
+
+ def run(self):
+ self._running = True
+ while self._running :
+ pygame.display.flip()
+ events = pygame.event.get()
+ for event in events:
+ self.input(event)
+ def input(self, event) :
+ handler = getattr(self, 'eventHandler%s' % event.type, lambda e:None)
+ handler(event)
+
+ @event_handler(pygame.KEYDOWN)
+ def handleKeyDown(self, event) :
+ if event.key == pygame.K_q:
+ self._running = False
+ uni = event.unicode
+
+ if uni.isdigit() and int(uni) <=8 :
+ self.highlightColumn(int(uni))
+
+ @event_handler(pygame.MOUSEMOTION)
+ def handleMouseMotion(self, event) :
+ pass
+
+
+
class SongPlayingScreen(_PlayingScreenBase) :
o = C()
o.midi=1
super(SongPlayingScreenTest, self).__init__([o])
- self.__running = True
- #pygame.display.flip()
- #raw_input('allez ?')
-
- def run(self):
- while self.__running :
- pygame.display.flip()
- events = pygame.event.get()
- for event in events:
- self.input(event)
-
- def input(self, event) :
- if event.type == pygame.KEYDOWN:
- if event.key == pygame.K_q:
- self.__running = False
- uni = event.unicode
- if uni.isdigit() and int(uni) <=8 :
- self.highlightColumn(int(uni))
-
-
- # if event.key == pygame.K_i:
- # self.backToInstrumentChoice = True
- # self.done = True
- #
- # if event.key == pygame.K_w:
- # self.nextLevel = 0
- # self.done = True
- #
- # if event.key == pygame.K_e:
- # self.nextLevel = 1
- # self.done = True
- #
- # if event.key == pygame.K_r:
- # self.nextLevel = 2
- # self.done = True
- #
- # if event.key == pygame.K_t:
- # self.nextLevel = 3
- # self.done = True
class Column(pygame.sprite.Sprite) :
rgba = hls_to_rgba_8bits(hue, OFF_LUMINANCE, OFF_SATURATION)
sur.fill(rgba)
self.stateOff = sur
+ self.rectOff = rect
topRgba = hls_to_rgba_8bits(hue, ON_TOP_LUMINANCE, ON_SATURATION)
bottomRgba = hls_to_rgba_8bits(hue, ON_BOTTOM_LUMINANCE, ON_SATURATION)
- size = rect.inflate(2*rect.width,0).size
- self.stateOn = gradients.vertical(size, topRgba, bottomRgba)
+ rectOn = rect.inflate(ON_COLUMN_OVERSIZING * rect.width, 0)
+ self.stateOn = gradients.vertical(rectOn.size, topRgba, bottomRgba)
+ self.rectOn = rectOn
self.image = self.stateOff
self.rect = rect
def update(self, state) :
if state :
self.image = self.stateOn
+ self.rect = self.rectOn
else :
self.image = self.stateOff
+ self.rect = self.rectOff
def hls_to_rgba_8bits(h, l, s) :
#convert to rgb ranging from 0 to 255
rgba = [floor(255 * i) for i in hls_to_rgb(h, l, s) + (1,)]
return tuple(rgba)
-
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