Ejemplo n.º 1
0
Archivo: Player.py Proyecto: htvu/fofix
 def keyName(value):
     if value in CONTROL1:
         name = "Controller 1"
         control = CONTROL1
         n = 0
     elif value in CONTROL2:
         name = "Controller 2"
         control = CONTROL2
         n = 1
     elif value in CONTROL3:
         name = "Controller 3"
         control = CONTROL3
         n = 2
     else:
         name = "Controller 4"
         control = CONTROL4
         n = 3
     for j in range(20):
         if value == control[j]:
             if self.type[n] == 2:
                 return name + " " + drumkey4names[j]
             elif self.type[n] == 3:
                 return name + " " + drumkey5names[j]
             else:
                 return name + " " + guitarkeynames[j]
     else:
         log.notice("Key value not found.")
         return "Error"
Ejemplo n.º 2
0
 def keyName(value):
     if value in CONTROL1:
         name = "Controller 1"
         control = CONTROL1
         n = 0
     elif value in CONTROL2:
         name = "Controller 2"
         control = CONTROL2
         n = 1
     elif value in CONTROL3:
         name = "Controller 3"
         control = CONTROL3
         n = 2
     else:
         name = "Controller 4"
         control = CONTROL4
         n = 3
     for j in range(20):
         if value == control[j]:
             if self.type[n] == 2:
                 return name + " " + drumkey4names[j]
             elif self.type[n] == 3:
                 return name + " " + drumkey5names[j]
             else:
                 return name + " " + guitarkeynames[j]
     else:
         log.notice("Key value not found.")
         return "Error"
Ejemplo n.º 3
0
    def load(self, target = None, name = None, function = lambda: None, synch = False, onLoad = None, onCancel = None):
        """
        Load a file into memory, as either a foreground or background operation.
        'function' is the user code that actually loads the file. 'synch' controls
        how 'function' is called: if synch==True, then function is called immediately,
        and whatever it returns is returned by this function. If sync==False, then a
        Loader is created to call 'function' on another thread, and the Loader is
        returned by this function.

        After loading is complete, the loaded object will be assigned to (target).(name)
        if both are defined.

        :param target: None, or object to receive loaded file.
        :param name: None, or name of attribute of 'target' to receive loaded file.
        :param function: function to call to perform the loading
        :param synch: True to do the loading now, False to return now and load the file in a background thread.
        :param onLoad: function to call when loading is completed.
        :param onCancel: function to call when loading is canceled.

        :return: If synch == True, returns the object returned by 'function';
                else returns an instance of fofix.core.Loader.
        """

        if self.logLoadings == 1:
            log.notice("Loading %s.%s %s" % (target.__class__.__name__, name, synch and "synchronously" or "asynchronously"))

        l = Loader(target, name, function, self.resultQueue, self.loaderSemaphore, onLoad = onLoad, onCancel = onCancel)
        if synch:
            l.load()
            return l.finish()
        else:
            self.loaders.append(l)
            l.start()
            return l
Ejemplo n.º 4
0
 def finishGame(self):
     if not self.world:
         log.notice("GameEngine.finishGame called before World created.")
         return
     self.world.finishGame()
     self.world = None
     self.gameStarted = False
     self.view.pushLayer(self.mainMenu)
Ejemplo n.º 5
0
    def __init__(self, guitarScene, configFileName, coOp = False):

        self.scene            = guitarScene
        self.engine           = guitarScene.engine
        self.layers = {}          #collection of all the layers in the rockmeter
        self.layersForRender = {} #collection of layers that are rendered separate from any group
        self.layerGroups = {}     #collection of layer groups
        self.sharedLayerGroups = {}
        self.sharedLayers = {}    #these layers are for coOp use only
        self.sharedLayersForRender = {}
        self.sharedGroups = {}

        self.coOp = coOp
        self.config = LinedConfigParser()
        self.config.read(configFileName)

        self.themename = self.engine.data.themeLabel

        try:
            themepath = os.path.join(Version.dataPath(), "themes", self.themename)
            fp, pathname, description = imp.find_module("CustomRMLayers",[themepath])
            self.customRMLayers = imp.load_module("CustomRMLayers", fp, pathname, description)
        except ImportError:
            self.customRMLayers = None
            log.notice("Custom Rockmeter layers are not available")

        # Build the layers
        for i in range(Rockmeter._layerLimit):
            types = [
                     "Image",
                     "Text",
                     "Circle",
                     "Custom"
                    ]

            for t in types:
                self.section = "layer%d:%s" % (i, t)
                if not self.config.has_section(self.section):
                    continue
                else:
                    if t == types[1]:
                        self.createFont(self.section, i)
                    elif t == types[2]:
                        self.createCircle(self.section, i)
                    elif t == types[3]:
                        self.createCustom(self.section, i)
                    else:
                        self.createImage(self.section, i)
                    break

        for i in range(Rockmeter._groupLimit):
            self.section = "Group%d" % i
            if not self.config.has_section(self.section):
                continue
            else:
                self.createGroup(self.section, i)

        self.reset()
Ejemplo n.º 6
0
    def __init__(self, guitarScene, configFileName, coOp=False):

        self.scene = guitarScene
        self.engine = guitarScene.engine
        self.layers = {}  #collection of all the layers in the rockmeter
        self.layersForRender = {
        }  #collection of layers that are rendered separate from any group
        self.layerGroups = {}  #collection of layer groups
        self.sharedLayerGroups = {}
        self.sharedLayers = {}  #these layers are for coOp use only
        self.sharedLayersForRender = {}
        self.sharedGroups = {}

        self.coOp = coOp
        self.config = LinedConfigParser()
        self.config.read(configFileName)

        self.themename = self.engine.data.themeLabel

        try:
            themepath = os.path.join(Version.dataPath(), "themes",
                                     self.themename)
            fp, pathname, description = imp.find_module(
                "CustomRMLayers", [themepath])
            self.customRMLayers = imp.load_module("CustomRMLayers", fp,
                                                  pathname, description)
        except ImportError:
            self.customRMLayers = None
            log.notice("Custom Rockmeter layers are not available")

        # Build the layers
        for i in range(Rockmeter._layerLimit):
            types = ["Image", "Text", "Circle", "Custom"]

            for t in types:
                self.section = "layer%d:%s" % (i, t)
                if not self.config.has_section(self.section):
                    continue
                else:
                    if t == types[1]:
                        self.createFont(self.section, i)
                    elif t == types[2]:
                        self.createCircle(self.section, i)
                    elif t == types[3]:
                        self.createCustom(self.section, i)
                    else:
                        self.createImage(self.section, i)
                    break

        for i in range(Rockmeter._groupLimit):
            self.section = "Group%d" % i
            if not self.config.has_section(self.section):
                continue
            else:
                self.createGroup(self.section, i)

        self.reset()
Ejemplo n.º 7
0
def showMessage(engine, text):
    """
    Show a message to the user.

    @param engine:  Game engine
    @param text:    Message text
    """
    log.notice("%s" % text)
    d = MessageScreen(engine, text)
    _runDialog(engine, d)
Ejemplo n.º 8
0
 def load(self, target = None, name = None, function = lambda: None, synch = False, onLoad = None):
     log.notice("Loading %s.%s %s" % (target.__class__.__name__, name, synch and "synchronously" or "asynchronously"))
     l = Loader(target, name, function, self.resultQueue, self.loaderSemaphore, onLoad = onLoad)
     if synch:
         l.load()
         return l.finish()
     else:
         self.loaders.append(l)
         l.start()
         return l
Ejemplo n.º 9
0
    def load(self, target = None, name = None, function = lambda: None, synch = False, onLoad = None, onCancel = None):

        if self.logLoadings == 1:
            log.notice("Loading %s.%s %s" % (target.__class__.__name__, name, synch and "synchronously" or "asynchronously"))

        l = Loader(target, name, function, self.resultQueue, self.loaderSemaphore, onLoad = onLoad, onCancel = onCancel)
        if synch:
            l.load()
            return l.finish()
        else:
            self.loaders.append(l)
            l.start()
            return l
Ejemplo n.º 10
0
    def finish(self):
        if self.canceled:
            return

        log.notice("Loaded %s.%s in %.3f seconds" % (self.target.__class__.__name__, self.name, self.time))

        if self.exception:
            raise self.exception[0], self.exception[1], self.exception[2]
        if self.target and self.name:
            setattr(self.target, self.name, self.result)
        if self.onLoad:
            self.onLoad(self.result)
        return self.result
Ejemplo n.º 11
0
    def fileName(self, *name, **args):

        #myfingershurt: the following should be global, and only done at startup.  Not every damn time a file is loaded.
        songPath = self.songPath

        if not args.get("writable", False):
            for dataPath in self.dataPaths + songPath:
                readOnlyPath = os.path.join(dataPath, *name)
                # If the requested file is in the read-write path and not in the
                # read-only path, use the existing read-write one.
                if os.path.isfile(readOnlyPath):
                    return readOnlyPath
                elif os.path.isdir(readOnlyPath):
                    return readOnlyPath
                readWritePath = os.path.join(getWritableResourcePath(), *name)
                if os.path.isfile(readWritePath):
                    return readWritePath
            return readOnlyPath
        else:
            for dataPath in [self.dataPaths[-1]] + songPath:
                readOnlyPath = os.path.join(dataPath, *name)
                if not (os.path.isfile(readOnlyPath) or os.path.isdir(readOnlyPath)):
                    continue
                try:
                    # First see if we can write to the original file
                    if os.access(readOnlyPath, os.W_OK):
                        return readOnlyPath
                    # If the original file does not exist, see if we can write to its directory
                    if not os.path.isfile(readOnlyPath) and os.access(os.path.dirname(readOnlyPath), os.W_OK):
                        pass
                except:
                    raise
                # If the resource exists in the read-only path, make a copy to the
                # read-write path.
                readWritePath = os.path.join(getWritableResourcePath(), *name)
                if not os.path.isfile(readWritePath) and os.path.isfile(readOnlyPath):
                    log.notice("Copying '%s' to writable data directory." % "/".join(name))
                    try:
                        os.makedirs(os.path.dirname(readWritePath))
                    except:
                        pass
                    shutil.copy(readOnlyPath, readWritePath)
                    self.makeWritable(readWritePath)
                # Create directories if needed
                if not os.path.isdir(readWritePath) and os.path.isdir(readOnlyPath):
                    log.notice("Creating writable directory '%s'." % "/".join(name))
                    os.makedirs(readWritePath)
                    self.makeWritable(readWritePath)
                return readWritePath
            return readOnlyPath
Ejemplo n.º 12
0
    def fileName(self, *name, **args):

        #myfingershurt: the following should be global, and only done at startup.  Not every damn time a file is loaded.
        songPath = self.songPath

        if not args.get("writable", False):
            for dataPath in self.dataPaths + songPath:
                readOnlyPath = os.path.join(dataPath, *name)
                # If the requested file is in the read-write path and not in the
                # read-only path, use the existing read-write one.
                if os.path.isfile(readOnlyPath):
                    return readOnlyPath
                elif os.path.isdir(readOnlyPath):
                    return readOnlyPath
                readWritePath = os.path.join(getWritableResourcePath(), *name)
                if os.path.isfile(readWritePath):
                    return readWritePath
            return readOnlyPath
        else:
            for dataPath in [self.dataPaths[-1]] + songPath:
                readOnlyPath = os.path.join(dataPath, *name)
                if not (os.path.isfile(readOnlyPath) or os.path.isdir(readOnlyPath)):
                    continue
                try:
                    # First see if we can write to the original file
                    if os.access(readOnlyPath, os.W_OK):
                        return readOnlyPath
                    # If the original file does not exist, see if we can write to its directory
                    if not os.path.isfile(readOnlyPath) and os.access(os.path.dirname(readOnlyPath), os.W_OK):
                        pass
                except:
                    raise
                # If the resource exists in the read-only path, make a copy to the
                # read-write path.
                readWritePath = os.path.join(getWritableResourcePath(), *name)
                if not os.path.isfile(readWritePath) and os.path.isfile(readOnlyPath):
                    log.notice("Copying '%s' to writable data directory." % "/".join(name))
                    try:
                        os.makedirs(os.path.dirname(readWritePath))
                    except:
                        pass
                    shutil.copy(readOnlyPath, readWritePath)
                    self.makeWritable(readWritePath)
                # Create directories if needed
                if not os.path.isdir(readWritePath) and os.path.isdir(readOnlyPath):
                    log.notice("Creating writable directory '%s'." % "/".join(name))
                    os.makedirs(readWritePath)
                    self.makeWritable(readWritePath)
                return readWritePath
            return readOnlyPath
Ejemplo n.º 13
0
    def finish(self):
        if self.canceled:
            if self.onCancel:
                self.onCancel()
            return

        if self.logLoadings == 1:
            log.notice("Loaded %s.%s in %.3f seconds" % (self.target.__class__.__name__, self.name, self.time))

        if self.exception:
            raise self.exception[0], self.exception[1], self.exception[2]
        if self.target and self.name:
            setattr(self.target, self.name, self.result)
        if self.onLoad:
            self.onLoad(self.result)
        return self.result
Ejemplo n.º 14
0
    def getImgDrawing(self, fileName, openImage=True):
        imgDrawing = None
        for dataPath in self.resource.dataPaths:
            fileName1 = os.path.join(dataPath, fileName)
            if self.logLoadings == 1:
                if openImage:
                    log.notice("Trying to load image: %s" % fileName1)
                else:
                    log.notice("Checking image: %s" % fileName1)
            # check if fileName1 exists (has extension)
            if os.path.exists(fileName1):
                if openImage:
                    try:
                        imgDrawing = ImgDrawing(self.svg, fileName1)
                        return imgDrawing
                    except IOError:
                        log.warn("Unable to load image file: %s" % fileName1)
                    except OverflowError:
                        log.warn("Unable to read image file: %s" % fileName1)
                else:
                    return True
            else:
                # find extension
                fileName1 = os.path.splitext(fileName1)[0]

                # glob parses [] but those are legal chars on Windows, so we must escape them.
                # it must be done like this so replacements are not mangled
                # by other replacements.
                replacements = {"[": "[[]", "]": "[]]"}
                fileName1 = "".join(
                    [replacements.get(c, c) for c in fileName1])

                files = glob.glob('%s.*' % fileName1)
                if openImage:
                    for f in files:
                        try:
                            imgDrawing = ImgDrawing(self.svg, f)
                            return imgDrawing
                        except IOError:
                            log.warn("Unable to load image file: %s" % f)
                elif len(files) > 0:
                    return True

        # image not found
        if self.logImageNotFound:
            log.warn("Image not found: %s" % fileName)
        return False
Ejemplo n.º 15
0
 def run(self, ticks):
     while self.mic.get_read_available() > 1024:
         try:
             chunk = self.mic.read(1024)
         except IOError as e:
             if e.args[1] == pyaudio.paInputOverflowed:
                 log.notice('Microphone: ignoring input buffer overflow')
                 chunk = '\x00' * 4096
             else:
                 raise
         if self.passthroughStream is not None:
             self.passthroughQueue.append(chunk)
         self.analyzer.input(np.frombuffer(chunk, dtype=np.float32))
         self.analyzer.process()
         pk = self.analyzer.getPeak()
         if self.detectTaps:
             if pk > self.tapThreshold and pk > self.lastPeak + 5.0:
                 self.tapStatus = True
         self.lastPeak = pk
Ejemplo n.º 16
0
    def run(self):

        # Perhapse this could be implemented in a better way...
        # Play the intro video if it is present, we have the capability, and
        # we are not in one-shot mode.
        if not self.engine.cmdPlay:
            themename = Config.get("coffee", "themename")
            vidSource = os.path.join(Version.dataPath(), 'themes', themename,
                                     'menu', 'intro.ogv')
            if os.path.isfile(vidSource):
                try:
                    vidPlayer = VideoLayer(self.engine,
                                           vidSource,
                                           cancellable=True)
                except (IOError, VideoPlayerError):
                    log.error("Error loading intro video:")
                else:
                    vidPlayer.play()
                    self.engine.view.pushLayer(vidPlayer)
                    self.videoLayer = True
                    self.engine.ticksAtStart = pygame.time.get_ticks()
                    while not vidPlayer.finished:
                        self.engine.run()
                    self.engine.view.popLayer(vidPlayer)
                    self.engine.view.pushLayer(MainMenu(self.engine))
        if not self.videoLayer:
            self.engine.setStartupLayer(MainMenu(self.engine))

        # Run the main game loop.
        try:
            self.engine.ticksAtStart = pygame.time.get_ticks()
            while self.engine.run():
                pass
        except KeyboardInterrupt:
            log.notice("Left mainloop due to KeyboardInterrupt.")
            # don't reraise

        # Restart the program if the engine is asking that we do so.
        if self.engine.restartRequested:
            self.restart()

        # evilynux - MainMenu class already calls this - useless?
        self.engine.quit()
Ejemplo n.º 17
0
    def fileName(self, *name, **args):
        if not args.get("writable", False):
            for dataPath in self.dataPaths:
                readOnlyPath = os.path.join(dataPath, *name)
                # If the requested file is in the read-write path and not in the
                # read-only path, use the existing read-write one.
                if os.path.isfile(readOnlyPath):
                    return readOnlyPath
                readWritePath = os.path.join(getWritableResourcePath(), *name)
                if os.path.isfile(readWritePath):
                    return readWritePath
            return readOnlyPath
        else:
            readOnlyPath = os.path.join(self.dataPaths[-1], *name)
            try:
                # First see if we can write to the original file
                if os.access(readOnlyPath, os.W_OK):
                    return readOnlyPath
                # If the original file does not exist, see if we can write to its directory
                if not os.path.isfile(readOnlyPath) and os.access(os.path.dirname(readOnlyPath), os.W_OK):
                    return readOnlyPath
            except:
                raise

            # If the resource exists in the read-only path, make a copy to the
            # read-write path.
            readWritePath = os.path.join(getWritableResourcePath(), *name)
            if not os.path.isfile(readWritePath) and os.path.isfile(readOnlyPath):
                log.notice("Copying '%s' to writable data directory." % "/".join(name))
                try:
                    os.makedirs(os.path.dirname(readWritePath))
                except:
                    pass
                shutil.copy(readOnlyPath, readWritePath)
                self.makeWritable(readWritePath)
            # Create directories if needed
            if not os.path.isdir(readWritePath) and os.path.isdir(readOnlyPath):
                log.notice("Creating writable directory '%s'." % "/".join(name))
                os.makedirs(readWritePath)
                self.makeWritable(readWritePath)
            return readWritePath
Ejemplo n.º 18
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    def run(self):

        # Perhapse this could be implemented in a better way...
        # Play the intro video if it is present, we have the capability, and
        # we are not in one-shot mode.
        if not self.engine.cmdPlay:
            themename = Config.get("coffee", "themename")
            vidSource = os.path.join(Version.dataPath(), 'themes', themename, 'menu', 'intro.ogv')
            if os.path.isfile(vidSource):
                try:
                    vidPlayer = VideoLayer(self.engine, vidSource, cancellable=True)
                except (IOError, VideoPlayerError):
                    log.error("Error loading intro video:")
                else:
                    vidPlayer.play()
                    self.engine.view.pushLayer(vidPlayer)
                    self.videoLayer = True
                    self.engine.ticksAtStart = pygame.time.get_ticks()
                    while not vidPlayer.finished:
                        self.engine.run()
                    self.engine.view.popLayer(vidPlayer)
                    self.engine.view.pushLayer(MainMenu(self.engine))
        if not self.videoLayer:
            self.engine.setStartupLayer(MainMenu(self.engine))

        # Run the main game loop.
        try:
            self.engine.ticksAtStart = pygame.time.get_ticks()
            while self.engine.run():
                pass
        except KeyboardInterrupt:
            log.notice("Left mainloop due to KeyboardInterrupt.")
            # don't reraise

        # Restart the program if the engine is asking that we do so.
        if self.engine.restartRequested:
            self.restart()

        # evilynux - MainMenu class already calls this - useless?
        self.engine.quit()
Ejemplo n.º 19
0
 def getImgDrawing(self, fileName, openImage=True):
     imgDrawing = None
     for dataPath in self.resource.dataPaths:
         fileName1 = os.path.join(dataPath, fileName)
         if self.logLoadings == 1:
             if openImage:
                 log.notice("Trying to load image: %s" % fileName1)
             else:
                 log.notice("Checking image: %s" % fileName1)
         #check if fileName1 exists (has extension)
         if os.path.exists(fileName1):
             if openImage:
                 try:
                     imgDrawing = ImgDrawing(self.svg, fileName1)
                     return imgDrawing
                 except IOError:
                     log.warn("Unable to load image file: %s" % fileName1)
                 except OverflowError:
                     log.warn("Unable to read image file: %s" % fileName1)
             else:
                 return True
         else:
             #find extension
             fileName1 = os.path.splitext(fileName1)[0]
             files = glob.glob('%s.*' % fileName1)
             if openImage:
                 for i in range(len(files)):
                     try:
                         imgDrawing = ImgDrawing(self.svg, files[i])
                         return imgDrawing
                     except IOError:
                         log.warn("Unable to load image file: %s" %
                                  files[i])
             elif len(files) > 0:
                 return True
     #image not found
     if self.logImageNotFound:
         log.debug("Image not found: %s" % fileName)
     return False
Ejemplo n.º 20
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 def getImgDrawing(self, fileName, openImage=True):
     imgDrawing = None
     for dataPath in self.resource.dataPaths:
         fileName1 = os.path.join(dataPath, fileName)
         if self.logLoadings == 1:
             if openImage:
                 log.notice("Trying to load image: %s" % fileName1)
             else:
                 log.notice("Checking image: %s" % fileName1)
         #check if fileName1 exists (has extension)
         if os.path.exists(fileName1):
             if openImage:
                 try:
                     imgDrawing = ImgDrawing(self.svg, fileName1)
                     return imgDrawing
                 except IOError:
                     log.warn("Unable to load image file: %s" % fileName1)
                 except OverflowError:
                     log.warn("Unable to read image file: %s" % fileName1)
             else:
                 return True
         else:
             #find extension
             fileName1 = os.path.splitext(fileName1)[0]
             files = glob.glob('%s.*' % fileName1)
             if openImage:
                 for i in range(len(files)):
                     try:
                         imgDrawing = ImgDrawing(self.svg, files[i])
                         return imgDrawing
                     except IOError:
                         log.warn("Unable to load image file: %s" % files[i])
             elif len(files) > 0:
                 return True
     #image not found
     if self.logImageNotFound:
         log.debug("Image not found: %s" % fileName)
     return False
Ejemplo n.º 21
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    def _initTheme(self, themename, themepath):
        """
        Select the source of graphics for the game.
        Note that currently this can only be called GameEngine on startup.

        :param themename: what to call this theme
        :type themename: str
        :param themepath: absolute path to theme folder
        :type themepath: str
        """

        log.notice('Setting theme %s from "%s"' % (themename, themepath))

        self.theme = None
        try:
            # Look for "CustomTheme.py" inside theme dir
            fp, pathname, description = imp.find_module(
                "CustomTheme", [themepath])
            try:
                # Found it! Load it.
                theme = imp.load_module("CustomTheme", fp, pathname,
                                        description)
                self.theme = theme.CustomTheme(themepath, themename)
                log.notice('Theme activated using custom class "%s"' %
                           pathname)
            except ImportError as e:
                # Unable to load module; log it, but continue with default Theme.
                log.error('Failed to load CustomTheme.py from "%s"' % pathname)
            finally:
                fp.close()
        except ImportError:
            # CustomTheme.py file is optional, but notify developer anyway.
            log.notice("No CustomTheme.py found in theme")
            pass

        if self.theme is None:
            self.theme = Theme(themepath, themename)
            log.notice("Theme activated using built-in Theme class")
        self.task.addTask(self.theme)
Ejemplo n.º 22
0
    def load(self, libraryName, songName, practiceMode = False):
        if self.scene.coOpType:
            rm = os.path.join("themes", self.themename, "rockmeter_coop.ini")
        elif self.scene.battle:
            rm = os.path.join("themes", self.themename, "rockmeter_profaceoff.ini")
        elif self.scene.gamePlayers > 1:
            rm = os.path.join("themes", self.themename, "rockmeter_faceoff.ini")
        else:
            rm = os.path.join("themes", self.themename, "rockmeter.ini")

        if os.path.exists(os.path.join("..", "data", rm)):
            rockmeter = self.engine.resource.fileName(rm)
        else:
            rockmeter = self.engine.resource.fileName(os.path.join("themes", self.themename, "rockmeter.ini"))

        self.rockmeter = Rockmeter.Rockmeter(self.scene, rockmeter, self.scene.coOpType)

        # evilynux - Fixes a self.background not defined crash
        self.background = None
        #MFH - new background stage logic:
        if self.mode == 2:   #blank / no stage
            self.songStage = 0
            self.rotationMode = 0
        elif practiceMode:   #check for existing practice stage; always disable stage rotation here
            self.songStage = 0
            self.rotationMode = 0
            self.mode = 1
            #separated practice stages for the instruments by k.i.d
            if self.scene.instruments[0].isDrum:
                background = "practicedrum"
            elif self.scene.instruments[0].isBassGuitar:
                background = "practicebass"
            else:
                background = "practice"
            if not self.engine.loadImgDrawing(self, "background", os.path.join("themes",self.themename,"backgrounds",background)):
                #MFH - must first fall back on the old practice.png before forcing blank stage mode!
                if not self.engine.loadImgDrawing(self, "background", os.path.join("themes",self.themename,"backgrounds","practice")):
                    log.warn("No practice stage, falling back on a forced Blank stage mode") # evilynux
                    self.mode = 2    #if no practice stage, just fall back on a forced Blank stage mode

        elif self.songStage == 1:    #check for song-specific background
            test = True
            if not self.engine.loadImgDrawing(self, "background", os.path.join(libraryName, songName, "background")):
                log.notice("No song-specific stage found") # evilynux
                test = False
            if test:  #does a song-specific background exist?
                self.rotationMode = 0
                self.mode = 1
            else:
                self.songStage = 0

        #MFH - now, after the above logic, we can run the normal stage mode logic
        #      only worrying about checking for Blank, song-specific and
        #      practice stage modes
        if self.mode != 2 and self.mode != 3 and self.songStage == 0 and not practiceMode: #still need to load stage(s)
            #myfingershurt: assign this first
            if self.mode == 1:   #just use Default.png
                if not self.engine.loadImgDrawing(self, "background", os.path.join(self.path, "default")):
                    log.warn("No default stage; falling back on a forced Blank stage mode") # evilynux
                    self.mode = 2    #if no practice stage, just fall back on a forced Blank stage mode

            ##This checks how many Stage-background we have to select from
            if self.mode == 0 and self.rotationMode == 0:  #MFH: just display a random stage
                files = []
                fileIndex = 0
                allfiles = os.listdir(self.pathfull)
                for name in allfiles:
                    if os.path.splitext(name)[0].lower() != "practice" and os.path.splitext(name)[0].lower() != "practicedrum" and os.path.splitext(name)[0].lower() != "practicebass" and name != ".svn":
                        log.debug("Valid background found, index (" + str(fileIndex) + "): " + name)
                        files.append(name)
                        fileIndex += 1
                    else:
                        log.debug("Practice background filtered: " + name)

                # evilynux - improved error handling, fallback to blank background if no background are found
                if fileIndex == 0:
                    log.warn("No valid stage found!")
                    self.mode = 2;
                else:
                    i = random.randint(0,len(files)-1)
                    filename = files[i]
            ##End check number of Stage-backgrounds
                    if not self.engine.loadImgDrawing(self, "background", os.path.join(self.path, filename)):
                        self.mode = 2;

            elif self.rotationMode > 0 and self.mode != 2:
                files = []
                fileIndex = 0

                if self.animatedFolder == "Random": #Select one of the subfolders under stages\ to animate randomly
                    numAniStageFolders = len(self.engine.stageFolders)
                    if numAniStageFolders > 0:
                        self.animatedFolder = random.choice(self.engine.stageFolders)
                    else:
                        self.animatedFolder = "Normal"

                elif self.animatedFolder == "None":
                    self.mode = 2

                if self.animatedFolder != "Normal" and self.mode != 2: #just use the base Stages folder for rotation
                    self.path = os.path.join("themes",self.themename,"backgrounds",self.animatedFolder)
                    self.pathfull = self.engine.getPath(self.path)
                    self.animation = True

                allfiles = os.listdir(self.pathfull)
                for name in allfiles:

                    if os.path.splitext(name)[1].lower() == ".png" or os.path.splitext(name)[1].lower() == ".jpg" or os.path.splitext(name)[1].lower() == ".jpeg":
                        if os.path.splitext(name)[0].lower() != "practice" and os.path.splitext(name)[0].lower() != "practicedrum" and os.path.splitext(name)[0].lower() != "practicebass":
                            log.debug("Valid background found, index (" + str(fileIndex) + "): " + name)
                            files.append(name)
                            fileIndex += 1
                        else:
                            log.debug("Practice background filtered: " + name)
                    files.sort()

            if self.rotationMode > 0 and self.mode != 2:   #alarian: blank stage option is not selected
            #myfingershurt: just populate the image array in order, they are pulled in whatever order requested:
                for j in range(len(files)):
                    self.engine.loadImgDrawing(self, "backgroundA", os.path.join(self.path, files[j]))
                    self.imgArr.append(getattr(self, "backgroundA", os.path.join(self.path, files[j])))

        if self.rotationMode > 0 and len(self.imgArr) == 0:
            self.rotationMode = 0
Ejemplo n.º 23
0
 def restart(self):
     log.notice("Restarting.")
     self.engine.audio.close()
     self.restartRequested = True
Ejemplo n.º 24
0
    def __init__(self):

        self.logClassInits = Config.get("game", "log_class_inits")
        if self.logClassInits == 1:
            log.debug("Input class init (Input.py)...")

        Task.__init__(self)
        self.mouse = pygame.mouse
        self.mouseListeners = []
        self.keyListeners = []
        self.systemListeners = []
        self.priorityKeyListeners = []
        self.controls = Controls()
        self.activeGameControls = []
        self.p2Nav = self.controls.p2Nav
        self.type1 = self.controls.type[0]
        self.keyCheckerMode = Config.get("game", "key_checker_mode")
        self.disableKeyRepeat()

        self.gameGuitars = 0
        self.gameDrums = 0
        self.gameMics = 0
        self.gameBots = 0

        # Initialize joysticks
        pygame.joystick.init()
        self.joystickNames = {}
        self.joystickAxes = {}
        self.joystickHats = {}

        self.joysticks = [
            pygame.joystick.Joystick(id)
            for id in range(pygame.joystick.get_count())
        ]
        for j in self.joysticks:
            j.init()
            self.joystickNames[j.get_id()] = j.get_name()
            self.joystickAxes[j.get_id()] = [0] * j.get_numaxes()
            self.joystickHats[j.get_id()] = [(0, 0)] * j.get_numhats()
        log.debug("%d joysticks found." % len(self.joysticks))

        # Enable music events
        Music.setEndEvent(MusicFinished)
        #Music.setEndEvent()   #MFH - no event required?

        # Custom key names
        self.getSystemKeyName = pygame.key.name
        pygame.key.name = self.getKeyName

        self.midi = []
        if haveMidi:
            pygame.midi.init()
            for i in range(pygame.midi.get_count()):
                interface, name, is_input, is_output, is_opened = pygame.midi.get_device_info(
                    i)
                log.debug("Found MIDI device: %s on %s" % (name, interface))
                if not is_input:
                    log.debug("MIDI device is not an input device.")
                    continue
                try:
                    self.midi.append(pygame.midi.Input(i))
                    log.debug("Device opened as device number %d." %
                              len(self.midi))
                except pygame.midi.MidiException:
                    log.error("Error opening device for input.")
            if len(self.midi) == 0:
                log.debug("No MIDI input ports found.")
        else:
            log.notice(
                "MIDI input support is not available; install at least pygame 1.9 to get it."
            )
Ejemplo n.º 25
0
 def restart(self):
     log.notice("Restarting.")
     self.engine.audio.close()
     self.restartRequested = True
Ejemplo n.º 26
0
            songName = arg

    while True:
        config = Config.load(Version.appName() + ".ini", setAsDefault = True)
        engine = GameEngine(config)
        menu   = MainMenu(engine, songName = songName)
        engine.setStartupLayer(menu)

        try:
            while engine.run():
                pass
        except KeyboardInterrupt:
            pass

        if engine.restartRequested:
            log.notice("Restarting.")

            try:
            # Determine whether were running from an exe or not
                if hasattr(sys, "frozen"):
                    if os.name == "nt":
                        os.execl("FretsOnFire.exe", "FretsOnFire.exe", *sys.argv[1:])
                    elif sys.platform == "darwin":
                        # This exit code tells the launcher script to restart the game
                        sys.exit(100)
                    else:
                        os.execl("./FretsOnFire", "./FretsOnFire", *sys.argv[1:])
                else:
                    if os.name == "nt":
                        bin = "c:/python25/python"
                    else:
Ejemplo n.º 27
0
    def load(self, libraryName, songName, practiceMode = False):
        if self.scene.coOpType:
            rm = os.path.join("themes", self.themename, "rockmeter_coop.ini")
        elif self.scene.battle:
            rm = os.path.join("themes", self.themename, "rockmeter_profaceoff.ini")
        elif self.scene.gamePlayers > 1:
            rm = os.path.join("themes", self.themename, "rockmeter_faceoff.ini")
        else:
            rm = os.path.join("themes", self.themename, "rockmeter.ini")

        if os.path.exists(os.path.join("..", "data", rm)):
            rockmeter = self.engine.resource.fileName(rm)
        else:
            rockmeter = self.engine.resource.fileName(os.path.join("themes", self.themename, "rockmeter.ini"))

        self.rockmeter = Rockmeter.Rockmeter(self.scene, rockmeter, self.scene.coOpType)

        # evilynux - Fixes a self.background not defined crash
        self.background = None
        #MFH - new background stage logic:
        if self.mode == 2:   #blank / no stage
            self.songStage = 0
            self.rotationMode = 0
        elif practiceMode:   #check for existing practice stage; always disable stage rotation here
            self.songStage = 0
            self.rotationMode = 0
            self.mode = 1
            #separated practice stages for the instruments by k.i.d
            if self.scene.instruments[0].isDrum:
                background = "practicedrum"
            elif self.scene.instruments[0].isBassGuitar:
                background = "practicebass"
            else:
                background = "practice"
            if not self.engine.loadImgDrawing(self, "background", os.path.join("themes",self.themename,"backgrounds",background)):
                #MFH - must first fall back on the old practice.png before forcing blank stage mode!
                if not self.engine.loadImgDrawing(self, "background", os.path.join("themes",self.themename,"backgrounds","practice")):
                    log.warn("No practice stage, falling back on a forced Blank stage mode") # evilynux
                    self.mode = 2    #if no practice stage, just fall back on a forced Blank stage mode

        elif self.songStage == 1:    #check for song-specific background
            test = True
            if not self.engine.loadImgDrawing(self, "background", os.path.join(libraryName, songName, "background")):
                log.notice("No song-specific stage found") # evilynux
                test = False
            if test:  #does a song-specific background exist?
                self.rotationMode = 0
                self.mode = 1
            else:
                self.songStage = 0

        #MFH - now, after the above logic, we can run the normal stage mode logic
        #      only worrying about checking for Blank, song-specific and
        #      practice stage modes
        if self.mode != 2 and self.mode != 3 and self.songStage == 0 and not practiceMode: #still need to load stage(s)
            #myfingershurt: assign this first
            if self.mode == 1:   #just use Default.png
                if not self.engine.loadImgDrawing(self, "background", os.path.join(self.path, "default")):
                    log.warn("No default stage; falling back on a forced Blank stage mode") # evilynux
                    self.mode = 2    #if no practice stage, just fall back on a forced Blank stage mode

            ##This checks how many Stage-background we have to select from
            if self.mode == 0 and self.rotationMode == 0:  #MFH: just display a random stage
                files = []
                fileIndex = 0
                allfiles = os.listdir(self.pathfull)
                for name in allfiles:
                    if os.path.splitext(name)[0].lower() != "practice" and os.path.splitext(name)[0].lower() != "practicedrum" and os.path.splitext(name)[0].lower() != "practicebass" and name != ".git":
                        log.debug("Valid background found, index (" + str(fileIndex) + "): " + name)
                        files.append(name)
                        fileIndex += 1
                    else:
                        log.debug("Practice background filtered: " + name)

                # evilynux - improved error handling, fallback to blank background if no background are found
                if fileIndex == 0:
                    log.warn("No valid stage found!")
                    self.mode = 2;
                else:
                    i = random.randint(0,len(files)-1)
                    filename = files[i]
            ##End check number of Stage-backgrounds
                    if not self.engine.loadImgDrawing(self, "background", os.path.join(self.path, filename)):
                        self.mode = 2;

            elif self.rotationMode > 0 and self.mode != 2:
                files = []
                fileIndex = 0

                if self.animatedFolder == "Random": #Select one of the subfolders under stages\ to animate randomly
                    numAniStageFolders = len(self.engine.stageFolders)
                    if numAniStageFolders > 0:
                        self.animatedFolder = random.choice(self.engine.stageFolders)
                    else:
                        self.animatedFolder = "Normal"

                elif self.animatedFolder == "None":
                    self.mode = 2

                if self.animatedFolder != "Normal" and self.mode != 2: #just use the base Stages folder for rotation
                    self.path = os.path.join("themes",self.themename,"backgrounds",self.animatedFolder)
                    self.pathfull = self.engine.getPath(self.path)
                    self.animation = True

                allfiles = os.listdir(self.pathfull)
                for name in allfiles:

                    if os.path.splitext(name)[1].lower() == ".png" or os.path.splitext(name)[1].lower() == ".jpg" or os.path.splitext(name)[1].lower() == ".jpeg":
                        if os.path.splitext(name)[0].lower() != "practice" and os.path.splitext(name)[0].lower() != "practicedrum" and os.path.splitext(name)[0].lower() != "practicebass":
                            log.debug("Valid background found, index (" + str(fileIndex) + "): " + name)
                            files.append(name)
                            fileIndex += 1
                        else:
                            log.debug("Practice background filtered: " + name)
                    files.sort()

            if self.rotationMode > 0 and self.mode != 2:   #alarian: blank stage option is not selected
            #myfingershurt: just populate the image array in order, they are pulled in whatever order requested:
                for j in range(len(files)):
                    self.engine.loadImgDrawing(self, "backgroundA", os.path.join(self.path, files[j]))
                    self.imgArr.append(getattr(self, "backgroundA", os.path.join(self.path, files[j])))

        if self.rotationMode > 0 and len(self.imgArr) == 0:
            self.rotationMode = 0
Ejemplo n.º 28
0
    def __init__(self):

        self.logClassInits = Config.get("game", "log_class_inits")
        if self.logClassInits == 1:
            log.debug("Input class init (Input.py)...")

        Task.__init__(self)
        self.mouse                = pygame.mouse
        self.mouseListeners       = []
        self.keyListeners         = []
        self.systemListeners      = []
        self.priorityKeyListeners = []
        self.controls             = Controls()
        self.activeGameControls   = []
        self.p2Nav                = self.controls.p2Nav
        self.type1                = self.controls.type[0]
        self.keyCheckerMode       = Config.get("game","key_checker_mode")
        self.disableKeyRepeat()

        self.gameGuitars = 0
        self.gameDrums   = 0
        self.gameMics    = 0
        self.gameBots    = 0

        # Initialize joysticks
        pygame.joystick.init()
        self.joystickNames = {}
        self.joystickAxes  = {}
        self.joystickHats  = {}

        self.joysticks = [pygame.joystick.Joystick(id) for id in range(pygame.joystick.get_count())]
        for j in self.joysticks:
            j.init()
            self.joystickNames[j.get_id()] = j.get_name()
            self.joystickAxes[j.get_id()]  = [0] * j.get_numaxes()
            self.joystickHats[j.get_id()]  = [(0, 0)] * j.get_numhats()
        log.debug("%d joysticks found." % len(self.joysticks))

        # Enable music events
        Music.setEndEvent(MusicFinished)
        #Music.setEndEvent()   #MFH - no event required?

        # Custom key names
        self.getSystemKeyName = pygame.key.name
        pygame.key.name       = self.getKeyName

        self.midi = []
        if haveMidi:
            pygame.midi.init()
            for i in range(pygame.midi.get_count()):
                interface, name, is_input, is_output, is_opened = pygame.midi.get_device_info(i)
                log.debug("Found MIDI device: %s on %s" % (name, interface))
                if not is_input:
                    log.debug("MIDI device is not an input device.")
                    continue
                try:
                    self.midi.append(pygame.midi.Input(i))
                    log.debug("Device opened as device number %d." % len(self.midi))
                except pygame.midi.MidiException:
                    log.error("Error opening device for input.")
            if len(self.midi) == 0:
                log.debug("No MIDI input ports found.")
        else:
            log.notice("MIDI input support is not available; install at least pygame 1.9 to get it.")