Exemplo n.º 1
0
    def generateMods(self):
        '''
        Generate module list.

        This also injects dummy modules to visually separate racks. These modules are only
        known to the display, and not the backend, so it's safe.
        '''

        sFit = service.Fit.getInstance()
        fit = sFit.getFit(self.activeFitID)

        slotOrder = [
            Slot.SUBSYSTEM, Slot.HIGH, Slot.MED, Slot.LOW, Slot.RIG,
            Slot.SERVICE
        ]

        if fit is not None:
            self.mods = fit.modules[:]
            self.mods.sort(
                key=lambda mod: (slotOrder.index(mod.slot), mod.position))

            # Blanks is a list of indexes that mark non-module positions (such
            # as Racks and tactical Modes. This allows us to skip over common
            # module operations such as swapping, removing, copying, etc. that
            # would otherwise cause complications
            self.blanks = [
            ]  # preliminary markers where blanks will be inserted

            if sFit.serviceFittingOptions["rackSlots"]:
                # flag to know when to add blanks, based on previous slot
                slotDivider = None if sFit.serviceFittingOptions[
                    "rackLabels"] else self.mods[0].slot

                # first loop finds where slot dividers must go before modifying self.mods
                for i, mod in enumerate(self.mods):
                    if mod.slot != slotDivider:
                        slotDivider = mod.slot
                        self.blanks.append((i, slotDivider))  # where and what

                # second loop modifies self.mods, rewrites self.blanks to represent actual index of blanks
                for i, (x, slot) in enumerate(self.blanks):
                    self.blanks[i] = x + i  # modify blanks with actual index
                    self.mods.insert(x + i, Rack.buildRack(slot))

            if fit.mode:
                # Modes are special snowflakes and need a little manual loving
                # We basically append the Mode rack and Mode to the modules
                # while also marking their positions in the Blanks list
                if sFit.serviceFittingOptions["rackSlots"]:
                    self.blanks.append(len(self.mods))
                    self.mods.append(Rack.buildRack(Slot.MODE))

                self.blanks.append(len(self.mods))
                self.mods.append(fit.mode)
        else:
            self.mods = None
Exemplo n.º 2
0
    def generateMods(self):
        '''
        Generate module list.

        This also injects dummy modules to visually separate racks. These modules are only
        known to the display, and not the backend, so it's safe.
        '''

        sFit = service.Fit.getInstance()
        fit = sFit.getFit(self.activeFitID)

        slotOrder = [Slot.SUBSYSTEM, Slot.HIGH, Slot.MED, Slot.LOW, Slot.RIG]

        if fit is not None:
            self.mods = fit.modules[:]
            self.mods.sort(key=lambda mod: (slotOrder.index(mod.slot), mod.position))

            # Blanks is a list of indexes that mark non-module positions (such
            # as Racks and tactical Modes. This allows us to skip over common
            # module operations such as swapping, removing, copying, etc. that
            # would otherwise cause complications
            self.blanks = []   # preliminary markers where blanks will be inserted

            if sFit.serviceFittingOptions["rackSlots"]:
                # flag to know when to add blanks, based on previous slot
                slotDivider = None if sFit.serviceFittingOptions["rackLabels"] else self.mods[0].slot

                # first loop finds where slot dividers must go before modifying self.mods
                for i, mod in enumerate(self.mods):
                    if mod.slot != slotDivider:
                        slotDivider = mod.slot
                        self.blanks.append((i, slotDivider)) # where and what

                # second loop modifies self.mods, rewrites self.blanks to represent actual index of blanks
                for i, (x, slot) in enumerate(self.blanks):
                    self.blanks[i] = x+i # modify blanks with actual index
                    self.mods.insert(x+i, Rack.buildRack(slot))

            if fit.mode:
                # Modes are special snowflakes and need a little manual loving
                # We basically append the Mode rack and Mode to the modules
                # while also marking their positions in the Blanks list
                if sFit.serviceFittingOptions["rackSlots"]:
                    self.blanks.append(len(self.mods))
                    self.mods.append(Rack.buildRack(Slot.MODE))

                self.blanks.append(len(self.mods))
                self.mods.append(fit.mode)
        else:
            self.mods = None
Exemplo n.º 3
0
    def generateMods(self):
        '''
        Generate module list.

        This also injects dummy modules to visually separate racks. These modules are only
        known to the display, and not the backend, so it's safe.
        '''

        cFit = service.Fit.getInstance()
        fit = cFit.getFit(self.activeFitID)

        slotOrder = [Slot.SUBSYSTEM, Slot.HIGH, Slot.MED, Slot.LOW, Slot.RIG]

        if fit is not None:
            self.mods = fit.modules[:]
            self.mods.sort(key=lambda mod: (slotOrder.index(mod.slot), mod.position))

            self.blanks = []   # preliminary markers where blanks will be inserted

            if cFit.serviceFittingOptions["rackSlots"]:
                # flag to know when to add blanks, based on previous slot
                slotDivider = None if cFit.serviceFittingOptions["rackLabels"] else self.mods[0].slot

                # first loop finds where slot dividers must go before modifying self.mods
                for i, mod in enumerate(self.mods):
                    if mod.slot != slotDivider:
                        slotDivider = mod.slot
                        self.blanks.append((i, slotDivider)) # where and what

                # second loop modifies self.mods, rewrites self.blanks to represent actual index of blanks
                for i, (x, slot) in enumerate(self.blanks):
                    self.blanks[i] = x+i # modify blanks with actual index
                    self.mods.insert(x+i, Rack.buildRack(slot))
        else:
            self.mods = None
Exemplo n.º 4
0
    def generateMods(self):
        '''
        Generate module list.

        This also injects dummy modules to visually separate racks. These modules are only
        known to the display, and not the backend, so it's safe.
        '''

        sFit = service.Fit.getInstance()
        fit = sFit.getFit(self.activeFitID)

        slotOrder = [Slot.SUBSYSTEM, Slot.HIGH, Slot.MED, Slot.LOW, Slot.RIG]

        if fit is not None:
            self.mods = fit.modules[:]
            self.mods.sort(
                key=lambda mod: (slotOrder.index(mod.slot), mod.position))

            self.blanks = [
            ]  # preliminary markers where blanks will be inserted

            if sFit.serviceFittingOptions["rackSlots"]:
                # flag to know when to add blanks, based on previous slot
                slotDivider = None if sFit.serviceFittingOptions[
                    "rackLabels"] else self.mods[0].slot

                # first loop finds where slot dividers must go before modifying self.mods
                for i, mod in enumerate(self.mods):
                    if mod.slot != slotDivider:
                        slotDivider = mod.slot
                        self.blanks.append((i, slotDivider))  # where and what

                # second loop modifies self.mods, rewrites self.blanks to represent actual index of blanks
                for i, (x, slot) in enumerate(self.blanks):
                    self.blanks[i] = x + i  # modify blanks with actual index
                    self.mods.insert(x + i, Rack.buildRack(slot))
        else:
            self.mods = None