Ejemplo n.º 1
0
    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        if self.parent.parent().projectPath == "":
            self.path = self.parent.parent().projectFolder
        else:
            self.path = self.parent.parent().projectPath

        pathName = self.displayName
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)
Ejemplo n.º 2
0
    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        self.logger.debug(self.parent.parent())
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            # self.path = os.path.dirname(__file__)
            # self.path = os.path.join(self.path, 'default')
            self.path = self.parent.parent().projectFolder
            # now = datetime.now()
            # self.fileName = now.strftime("%Y%m%d%H%M%S")
            # self.path = os.path.join(self.path, self.fileName)
        else:
            self.path = self.parent.parent().projectPath
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)
Ejemplo n.º 3
0
    def createConfigBrowser(self, loadPath):
        self.layoutToRemove = self.findChild(QHBoxLayout, "Config_Layout")
        try:
            # treeToRemove.hide()
            self.layoutToRemove.deleteLater()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")

        runConfigData = self._getPackageResourceData("templates/run.config")
        runConfigPath = _pl.Path(loadPath) / "run.config"
        runConfigPath.write_bytes(runConfigData)

        self.HBox = QHBoxLayout()
        self.refreshButton = QPushButton(self)
        self.refreshButton.setIcon(_img.ROTATE_TO_RIGHT_PNG.icon())
        self.refreshButton.clicked.connect(self.refreshConfig)
        self.model = MyQFileSystemModel()
        self.model.setRootPath(loadPath)
        self.model.setName("Config File")
        self.model.setFilter(QDir.Files)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(loadPath))
        self.tree.setObjectName("config")
        self.tree.setFixedHeight(60)
        self.tree.setSortingEnabled(False)
        self.HBox.addWidget(self.refreshButton)
        self.HBox.addWidget(self.tree)
        self.HBox.setObjectName("Config_Layout")
        self.fileBrowserLayout.addLayout(self.HBox)
Ejemplo n.º 4
0
 def createDdckTree(self, loadPath):
     treeToRemove = self.findChild(QTreeView, "ddck")
     try:
         # treeToRemove.hide()
         treeToRemove.deleteLater()
     except AttributeError:
         self.logger.debug("Widget doesnt exist!")
     else:
         self.logger.debug("Deleted widget")
     if self.projectPath == "":
         loadPath = os.path.join(loadPath, "ddck")
     if not os.path.exists(loadPath):
         os.makedirs(loadPath)
     self.model = MyQFileSystemModel()
     self.model.setRootPath(loadPath)
     self.model.setName("ddck")
     self.tree = MyQTreeView(self.model, self)
     self.tree.setModel(self.model)
     self.tree.setRootIndex(self.model.index(loadPath))
     self.tree.setObjectName("ddck")
     self.tree.setMinimumHeight(600)
     self.tree.setSortingEnabled(True)
     self.splitter.insertWidget(0, self.tree)
Ejemplo n.º 5
0
class HPDoubleDual(BlockItem, MassFlowNetworkContributorMixin):
    def __init__(self, trnsysType, parent, **kwargs):
        super(HPDoubleDual, self).__init__(trnsysType, parent, **kwargs)


        self.inputs.append(_cspi.createSinglePipePortItem("i", 0, self))
        self.inputs.append(_cspi.createSinglePipePortItem("i", 2, self))
        self.inputs.append(_cspi.createSinglePipePortItem("i", 2, self))


        self.outputs.append(_cspi.createSinglePipePortItem("o", 0, self))
        self.outputs.append(_cspi.createSinglePipePortItem("o", 2, self))
        self.outputs.append(_cspi.createSinglePipePortItem("o", 2, self))
        self.loadedFiles = []

        # For restoring correct order of trnsysObj list
        self.childIds = []
        self.childIds.append(self.trnsysId)
        self.childIds.append(self.parent.parent().idGen.getTrnsysID())
        self.childIds.append(self.parent.parent().idGen.getTrnsysID())

        self.changeSize()
        self.addTree()

    def _getImageAccessor(self) -> _tp.Optional[_img.ImageAccessor]:
        return _img.HP_DOUBLE_DUAL_SVG

    def changeSize(self):
        w = self.w
        h = self.h

        """ Resize block function """
        delta = 20

        # Limit the block size:
        if h < 20:
            h = 20
        if w < 40:
            w = 40
        # center label:
        rect = self.label.boundingRect()
        lw, lh = rect.width(), rect.height()
        lx = (w - lw) / 2
        self.label.setPos(lx, h)

        self.origInputsPos = [[0, h - 2 * delta], [w, 2 * delta], [w, h - delta]] # inlet of [evap, cond, cond]
        self.origOutputsPos = [[0, h - delta], [w, delta], [w, h - 2 * delta]] # outlet of [evap, cond, cond]

        self.inputs[0].setPos(self.origInputsPos[0][0], self.origInputsPos[0][1]) #evaporator
        self.inputs[1].setPos(self.origInputsPos[1][0], self.origInputsPos[1][1]) # top condenser
        self.inputs[2].setPos(self.origInputsPos[2][0], self.origInputsPos[2][1]) # bottom condenser
        self.outputs[0].setPos(self.origOutputsPos[0][0], self.origOutputsPos[0][1]) #evaporator
        self.outputs[1].setPos(self.origOutputsPos[1][0], self.origOutputsPos[1][1]) # top condenser
        self.outputs[2].setPos(self.origOutputsPos[2][0], self.origOutputsPos[2][1]) # bottom condenser

        self.updateFlipStateH(self.flippedH)
        self.updateFlipStateV(self.flippedV)

        self.inputs[0].side = (self.rotationN + 2 * self.flippedH) % 4
        self.inputs[1].side = (self.rotationN + 2 - 2 * self.flippedH) % 4
        self.inputs[2].side = (self.rotationN + 2 - 2 * self.flippedH) % 4

        self.outputs[0].side = (self.rotationN + 2 * self.flippedH) % 4
        self.outputs[1].side = (self.rotationN + 2 - 2 * self.flippedH) % 4
        self.outputs[2].side = (self.rotationN + 2 - 2 * self.flippedH) % 4
        return w, h

    def encode(self):
        if self.isVisible():
            self.logger.debug("Encoding a HeatPump")

            portListInputs = []
            portListOutputs = []

            for p in self.inputs:
                portListInputs.append(p.id)
            for p in self.outputs:
                portListOutputs.append(p.id)

            dct = {}
            dct[".__BlockDict__"] = True
            dct["BlockName"] = self.name
            dct["BlockDisplayName"] = self.displayName
            dct["PortsIDIn"] = portListInputs
            dct["PortsIDOut"] = portListOutputs
            dct["HeatPumpPosition"] = (float(self.pos().x()), float(self.pos().y()))
            dct["ID"] = self.id
            dct["trnsysID"] = self.trnsysId
            dct["childIds"] = self.childIds
            dct["FlippedH"] = self.flippedH
            dct["FlippedV"] = self.flippedH
            dct["RotationN"] = self.rotationN

            dictName = "Block-"

            return dictName, dct

    def decode(self, i, resBlockList):
        self.flippedH = i["FlippedH"]
        self.flippedV = i["FlippedV"]
        self.childIds = i["childIds"]
        self.displayName = i["BlockDisplayName"]
        self.changeSize()

        for x in range(len(self.inputs)):
            self.inputs[x].id = i["PortsIDIn"][x]
            self.logger.debug("Input at heatExchanger")

        for x in range(len(self.outputs)):
            self.outputs[x].id = i["PortsIDOut"][x]
            self.logger.debug("Output at heatExchanger")

        self.setPos(float(i["HeatPumpPosition"][0]), float(i["HeatPumpPosition"][1]))
        self.trnsysId = i["trnsysID"]
        self.id = i["ID"]

        resBlockList.append(self)

    def decodePaste(self, i, offset_x, offset_y, resConnList, resBlockList, **kwargs):
        self.flippedH = i["FlippedH"]
        self.flippedV = i["FlippedV"]

        self.changeSize()

        for x in range(len(self.inputs)):
            self.inputs[x].id = i["PortsIDIn"][x]
            self.logger.debug("Input at heatExchanger")

        for x in range(len(self.outputs)):
            self.outputs[x].id = i["PortsIDOut"][x]
            self.logger.debug("Output at heatExchanger")

        self.setPos(float(i["HeatPumpPosition"][0] + offset_x), float(i["HeatPumpPosition"][1] + offset_y))
        # self.trnsysId = i["trnsysID"]
        # self.id = i["ID"]

        resBlockList.append(self)

    def exportBlackBox(self):
        equation = []
        files = glob.glob(os.path.join(self.path, "**/*.ddck"), recursive=True)
        if not (files):
            status = "noDdckFile"
            for i in range(1, 3):
                equation.append("T" + self.displayName + "X" + str(i) + "=1")
        else:
            status = "noDdckEntry"
        lines = []
        for file in files:
            infile = open(file, "r")
            lines += infile.readlines()
        for i in range(len(lines)):
            if "output" in lines[i].lower() and "to" in lines[i].lower() and "hydraulic" in lines[i].lower():
                counter = 1
                for j in range(i, len(lines) - i):
                    if lines[j][0] == "T":
                        outputT = lines[j].split("=")[0].replace(" ", "")
                        equation.append("T" + self.displayName + "X" + str(counter) + "=1 ! suggestion: " + outputT)
                        counter += 1
                    if counter == 4:
                        status = "success"
                        break
                break

        return status, equation

    def getInternalPiping(self) -> InternalPiping:
        pipes = []
        portItems = {}
        for i in range(3):
            inputPort = _mfn.PortItem(f"Input {i+1}", _mfn.PortItemType.INPUT)
            outputPort = _mfn.PortItem(f"Output {i+1}", _mfn.PortItemType.OUTPUT)

            pipe = _mfn.Pipe(f"{self.displayName}Side{i+1}", self.childIds[i], inputPort, outputPort)
            pipes.append(pipe)

            portItems[inputPort] = self.inputs[i]
            portItems[outputPort] = self.outputs[i]

        return InternalPiping(pipes, portItems)

    def getSubBlockOffset(self, c):
        for i in range(3):
            if (
                self.inputs[i] == c.toPort
                or self.inputs[i] == c.fromPort
                or self.outputs[i] == c.toPort
                or self.outputs[i] == c.fromPort
            ):
                return i

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        self.logger.debug(self.parent.parent())
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            # self.path = os.path.dirname(__file__)
            # self.path = os.path.join(self.path, 'default')
            self.path = self.parent.parent().projectFolder
            # now = datetime.now()
            # self.fileName = now.strftime("%Y%m%d%H%M%S")
            # self.path = os.path.join(self.path, self.fileName)
        else:
            self.path = self.parent.parent().projectPath
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        self.logger.debug("Block " + str(self) + " is deleting itself (" + self.displayName + ")")
        self.deleteConns()
        # self.logger.debug("self.parent.parent" + str(self.parent.parent()))
        self.parent.parent().trnsysObj.remove(self)
        self.logger.debug("deleting block " + str(self) + self.displayName)
        # self.logger.debug("self.scene is" + str(self.parent.scene()))
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(QTreeView, self.displayName + "Tree")
        shutil.rmtree(self.path)
        self.deleteLoadedFile()
        try:
            widgetToRemove.hide()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName("%sTree" % self.displayName)
        self.logger.debug(os.path.dirname(self.path))
        # destPath = str(os.path.dirname(self.path))+'\\HPTwoHx_'+self.displayName
        destPath = os.path.join(os.path.split(self.path)[0], self.displayName)
        if os.path.exists(self.path):
            os.rename(self.path, destPath)
            self.path = destPath
            self.logger.debug(self.path)
Ejemplo n.º 6
0
class IceStorageTwoHx(BlockItemFourPorts):
    def __init__(self, trnsysType, parent, **kwargs):
        super(IceStorageTwoHx, self).__init__(trnsysType, parent, **kwargs)

        self.loadedFiles = []

        self.addTree()
        self.changeSize()

    def _getImageAccessor(self) -> _tp.Optional[_img.ImageAccessor]:
        return _img.ICE_STORAGE_TWO_HX_SVG

    def changeSize(self):
        w = self.w
        h = self.h

        """ Resize block function """
        delta = 20

        # center label:
        rect = self.label.boundingRect()
        lw, lh = rect.width(), rect.height()
        lx = (w - lw) / 2
        self.label.setPos(lx, h)

        self.origInputsPos = [[0, delta], [w, delta]]
        self.origOutputsPos = [[0, h - delta], [w, h - delta]]
        self.inputs[0].setPos(self.origInputsPos[0][0], self.origInputsPos[0][1])
        self.inputs[1].setPos(self.origInputsPos[1][0], self.origInputsPos[1][1])
        self.outputs[0].setPos(self.origOutputsPos[0][0], self.origOutputsPos[0][1])
        self.outputs[1].setPos(self.origOutputsPos[1][0], self.origOutputsPos[1][1])

        self.updateFlipStateH(self.flippedH)
        self.updateFlipStateV(self.flippedV)

        self.inputs[0].side = (self.rotationN + 2 * self.flippedH) % 4
        self.inputs[1].side = (self.rotationN + 2 - 2 * self.flippedH) % 4

        self.outputs[0].side = (self.rotationN + 2 * self.flippedH) % 4
        self.outputs[1].side = (self.rotationN + 2 - 2 * self.flippedH) % 4

        return w, h

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        self.logger.debug(self.parent.parent())
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            # self.path = os.path.dirname(__file__)
            # self.path = os.path.join(self.path, 'default')
            self.path = self.parent.parent().projectFolder
            # now = datetime.now()
            # self.fileName = now.strftime("%Y%m%d%H%M%S")
            # self.path = os.path.join(self.path, self.fileName)
        else:
            self.path = self.parent.parent().projectPath
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        self.logger.debug("Block " + str(self) + " is deleting itself (" + self.displayName + ")")
        self.deleteConns()
        # self.logger.debug("self.parent.parent" + str(self.parent.parent()))
        self.parent.parent().trnsysObj.remove(self)
        self.logger.debug("deleting block " + str(self) + self.displayName)
        # self.logger.debug("self.scene is" + str(self.parent.scene()))
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(QTreeView, self.displayName + "Tree")
        shutil.rmtree(self.path)
        self.deleteLoadedFile()
        try:
            widgetToRemove.hide()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName("%sTree" % self.displayName)
        self.logger.debug(os.path.dirname(self.path))
        # destPath = str(os.path.dirname(self.path))+'\\IceStorage_'+self.displayName
        destPath = os.path.join(os.path.split(self.path)[0], self.displayName)
        if os.path.exists(self.path):
            os.rename(self.path, destPath)
            self.path = destPath
            self.logger.debug(self.path)
Ejemplo n.º 7
0
class Collector(BlockItem, MassFlowNetworkContributorMixin):
    def __init__(self, trnsysType, parent, **kwargs):
        super().__init__(trnsysType, parent, **kwargs)

        self.inputs.append(_cspi.createSinglePipePortItem("i", 2, self))
        self.outputs.append(_cspi.createSinglePipePortItem("o", 2, self))
        self.loadedFiles = []

        self.changeSize()
        self.addTree()

    def getInternalPiping(self) -> InternalPiping:
        inputPort = _mfn.PortItem("Collector Input", _mfn.PortItemType.INPUT)
        outputPort = _mfn.PortItem("Collector Output",
                                   _mfn.PortItemType.OUTPUT)
        pipe = _mfn.Pipe(self.displayName, self.trnsysId, inputPort,
                         outputPort)

        return InternalPiping([pipe], {
            inputPort: self.inputs[0],
            outputPort: self.outputs[0]
        })

    def _getImageAccessor(self) -> _tp.Optional[_img.ImageAccessor]:
        return _img.COLLECTOR_SVG

    def changeSize(self):
        w = self.w
        h = self.h

        delta = 20

        if h < 20:
            h = 20
        if w < 40:
            w = 40

        rect = self.label.boundingRect()
        lw, lh = rect.width(), rect.height()
        lx = (w - lw) / 2
        self.label.setPos(lx, h)

        self.origInputsPos = [[w, h - delta]]
        self.origOutputsPos = [[w, delta]]

        self.outputs[0].setPos(self.origOutputsPos[0][0],
                               self.origOutputsPos[0][1])
        self.inputs[0].setPos(self.origInputsPos[0][0],
                              self.origInputsPos[0][1])

        self.updateFlipStateH(self.flippedH)
        self.updateFlipStateV(self.flippedV)

        self.inputs[0].side = (self.rotationN + 2 - 2 * self.flippedH) % 4
        self.outputs[0].side = (self.rotationN + 2 - 2 * self.flippedH) % 4

        return w, h

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        if self.parent.parent().projectPath == "":
            self.path = self.parent.parent().projectFolder
        else:
            self.path = self.parent.parent().projectPath

        pathName = self.displayName
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        self.logger.debug("Block " + str(self) + " is deleting itself (" +
                          self.displayName + ")")
        self.deleteConns()
        # self.logger.debug("self.parent.parent" + str(self.parent.parent()))
        self.parent.parent().trnsysObj.remove(self)
        self.logger.debug("deleting block " + str(self) + self.displayName)
        # self.logger.debug("self.scene is" + str(self.parent.scene()))
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(
            QTreeView, self.displayName + "Tree")
        try:
            shutil.rmtree(self.path)
        except:
            pass
        self.deleteLoadedFile()
        try:
            widgetToRemove.hide()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName("%sTree" % self.displayName)
        self.logger.debug(os.path.dirname(self.path))
        # destPath = str(os.path.dirname(self.path))+'\\Collector_'+self.displayName
        destPath = os.path.join(os.path.split(self.path)[0], self.displayName)
        if os.path.exists(self.path):
            os.rename(self.path, destPath)
            self.path = destPath
            self.logger.debug(self.path)
Ejemplo n.º 8
0
class PV(BlockItem):
    def __init__(self, trnsysType, parent, **kwargs):
        super(PV, self).__init__(trnsysType, parent, **kwargs)
        factor = 0.97
        self.w = 100
        self.h = 100
        self.loadedFiles = []

        self.changeSize()
        self.addTree()

    def _getImageAccessor(self) -> _tp.Optional[_img.ImageAccessor]:
        return _img.PV_SVG

    def changeSize(self):
        w = self.w
        h = self.h

        # Limit the block size:
        if h < 20:
            h = 20
        if w < 40:
            w = 40
        # center label:
        rect = self.label.boundingRect()
        lw, lh = rect.width(), rect.height()
        lx = (w - lw) / 2
        self.label.setPos(lx, h)
        return w, h

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        self.logger.debug(self.parent.parent())
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            self.path = self.parent.parent().projectFolder
        else:
            self.path = self.parent.parent().projectPath
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        self.logger.debug("Block " + str(self) + " is deleting itself (" + self.displayName + ")")
        self.deleteConns()
        # self.logger.debug("self.parent.parent" + str(self.parent.parent()))
        self.parent.parent().trnsysObj.remove(self)
        self.logger.debug("deleting block " + str(self) + self.displayName)
        # self.logger.debug("self.scene is" + str(self.parent.scene()))
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(QTreeView, self.displayName + "Tree")
        shutil.rmtree(self.path)
        self.deleteLoadedFile()
        try:
            widgetToRemove.hide()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName("%sTree" % self.displayName)
        self.logger.debug(os.path.dirname(self.path))
        destPath = os.path.join(os.path.split(self.path)[0], self.displayName)
        if os.path.exists(self.path):
            os.rename(self.path, destPath)
            self.path = destPath
            self.logger.debug(self.path)
Ejemplo n.º 9
0
class Editor(QWidget):
    """
    This class is the central widget of the MainWindow.
    It contains the items library, diagram graphics scene and graphics view, and the inspector widget

    Function of Connections:
    Logically:
    A Connection is composed of a fromPort and a toPort, which gives the direction of the pipe.
    Ports are attached to Blocks.
    Visually:
    A diagram editor has a QGraphicsLineItem (connLineItem) which is set Visible only when a connection is being created

    Function of BlockItems:
    Items can be added to the library by adding them to the model of the library broswer view.
    Then they can be dragged and dropped into the diagram view.

    Function of trnsysExport:
    When exporting the trnsys file, exportData() is called.

    Function of save and load:
    A diagram can be saved to a json file by calling encodeDiagram and can then be loaded by calling decodeDiagram wiht
    appropiate filenames.

    Attributes
    ----------
    projectFolder : str
        Path to the folder of the project
    diagramName : str
        Name used for saving the diagram
    saveAsPath : :obj:`Path`
        Default saving location is trnsysGUI/diagrams, path only set if "save as" used
    idGen : :obj:`IdGenerator`
        Is used to distribute ids (id, trnsysId(for trnsysExport), etc)
    alignMode : bool
        Enables mode in which a dragged block is aligned to y or x value of another one
        Toggled in the MainWindow class in toggleAlignMode()

    editorMode : int
        Mode 0: Pipes are PolySun-like
        Mode 1: Pipes have only 90deg angles, visio-like
    snapGrid : bool
        Enable/Disable align grid
    snapSize : int
        Size of align grid

    horizontalLayout : :obj:`QHBoxLayout`
    Contains the diagram editor and the layout containing the library browser view and the listview
    vertL : :obj:`QVBoxLayout`
    Cointains the library browser view and the listWidget

    moveDirectPorts: bool
        Enables/Disables moving direct ports of storagetank (doesn't work with HxPorts yet)
    diagramScene : :obj:`QGraphicsScene`
        Contains the "logical" part of the diagram
    diagramView : :obj:`QGraphicsView`
        Contains the visualization of the diagramScene
    _currentlyDraggedConnectionFromPort : :obj:`PortItem`
    connectionList : :obj:`List` of :obj:`Connection`
    trnsysObj : :obj:`List` of :obj:`BlockItem` and :obj:`Connection`
    graphicalObj : :obj:`List` of :obj:`GraphicalItem`
    connLine : :obj:`QLineF`
    connLineItem = :obj:`QGraphicsLineItem`

    """
    def __init__(self, parent, projectFolder, jsonPath, loadValue, logger):
        super().__init__(parent)

        self.logger = logger

        self.logger.info("Initializing the diagram editor")

        self.projectFolder = projectFolder

        self.diagramName = os.path.split(self.projectFolder)[-1] + ".json"
        self.saveAsPath = _pl.Path()
        self.idGen = IdGenerator()

        self.testEnabled = False
        self.existReference = True

        self.controlExists = 0
        self.controlDirectory = ""

        self.alignMode = False

        self.moveDirectPorts = False

        self.editorMode = 1

        # Related to the grid blocks can snap to
        self.snapGrid = False
        self.snapSize = 20

        self.trnsysPath = _pl.Path(r"C:\Trnsys17\Exe\TRNExe.exe")

        self.horizontalLayout = QHBoxLayout(self)
        self.libraryBrowserView = QListView(self)
        self.libraryModel = LibraryModel(self)

        self.libraryBrowserView.setGridSize(QSize(65, 65))
        self.libraryBrowserView.setResizeMode(QListView.Adjust)
        self.libraryModel.setColumnCount(0)

        componentNamesWithIcon = [
            ("Connector", _img.CONNECTOR_SVG.icon()),
            ("TeePiece", _img.TEE_PIECE_SVG.icon()),
            ("DPTee", _img.DP_TEE_PIECE_SVG.icon()),
            ("SPCnr", _img.SINGLE_DOUBLE_PIPE_CONNECTOR_SVG.icon()),
            ("DPCnr", _img.DOUBLE_DOUBLE_PIPE_CONNECTOR_SVG.icon()),
            ("TVentil", _img.T_VENTIL_SVG.icon()),
            ("WTap_main", _img.W_TAP_MAIN_SVG.icon()),
            ("WTap", _img.W_TAP_SVG.icon()),
            ("Pump", _img.PUMP_SVG.icon()),
            ("Collector", _img.COLLECTOR_SVG.icon()),
            ("GroundSourceHx", _img.GROUND_SOURCE_HX_SVG.icon()),
            ("PV", _img.PV_SVG.icon()),
            ("HP", _img.HP_SVG.icon()),
            ("HPTwoHx", _img.HP_TWO_HX_SVG.icon()),
            ("HPDoubleDual", _img.HP_DOUBLE_DUAL_SVG.icon()),
            ("HPDual", _img.HP_DUAL_SVG.icon()),
            ("AirSourceHP", _img.AIR_SOURCE_HP_SVG.icon()),
            ("StorageTank", _img.STORAGE_TANK_SVG.icon()),
            ("IceStorage", _img.ICE_STORAGE_SVG.icon()),
            ("PitStorage", _img.PIT_STORAGE_SVG.icon()),
            ("IceStorageTwoHx", _img.ICE_STORAGE_TWO_HX_SVG.icon()),
            ("ExternalHx", _img.EXTERNAL_HX_SVG.icon()),
            ("Radiator", _img.RADIATOR_SVG.icon()),
            ("Boiler", _img.BOILER_SVG.icon()),
            ("Sink", _img.SINK_SVG.icon()),
            ("Source", _img.SOURCE_SVG.icon()),
            ("SourceSink", _img.SOURCE_SINK_SVG.icon()),
            ("Geotherm", _img.GEOTHERM_SVG.icon()),
            ("Water", _img.WATER_SVG.icon()),
            ("Crystalizer", _img.CRYSTALIZER_SVG.icon()),
            ("GenericBlock", _img.GENERIC_BLOCK_PNG.icon()),
            ("GraphicalItem", _img.GENERIC_ITEM_PNG.icon()),
        ]

        libItems = [
            QtGui.QStandardItem(icon, name)
            for name, icon in componentNamesWithIcon
        ]

        for i in libItems:
            self.libraryModel.appendRow(i)

        self.libraryBrowserView.setModel(self.libraryModel)
        self.libraryBrowserView.setViewMode(self.libraryBrowserView.IconMode)
        self.libraryBrowserView.setDragDropMode(
            self.libraryBrowserView.DragOnly)

        self.diagramScene = Scene(self)
        self.diagramView = View(self.diagramScene, self)

        # For list view
        self.vertL = QVBoxLayout()
        self.vertL.addWidget(self.libraryBrowserView)
        self.vertL.setStretchFactor(self.libraryBrowserView, 2)
        self.listV = QListWidget()
        self.vertL.addWidget(self.listV)
        self.vertL.setStretchFactor(self.listV, 1)

        # for file browser
        self.projectPath = ""
        self.fileList = []

        if loadValue == "new" or loadValue == "json":
            self.createProjectFolder()

        self.fileBrowserLayout = QVBoxLayout()
        self.pathLayout = QHBoxLayout()
        self.projectPathLabel = QLabel("Project Path:")
        self.PPL = QLineEdit(self.projectFolder)
        self.PPL.setDisabled(True)

        self.pathLayout.addWidget(self.projectPathLabel)
        self.pathLayout.addWidget(self.PPL)
        self.scroll = QScrollArea()
        self.scroll.setWidgetResizable(True)
        self.splitter = QSplitter(Qt.Vertical, )
        self.splitter.setChildrenCollapsible(False)
        self.scroll.setWidget(self.splitter)
        self.scroll.setFixedWidth(350)
        self.fileBrowserLayout.addLayout(self.pathLayout)
        self.fileBrowserLayout.addWidget(self.scroll)
        self.createDdckTree(self.projectFolder)

        if loadValue == "new" or loadValue == "json":
            self.createConfigBrowser(self.projectFolder)
            self.copyGenericFolder(self.projectFolder)
            self.createHydraulicDir(self.projectFolder)
            self.createWeatherAndControlDirs(self.projectFolder)

        self.horizontalLayout.addLayout(self.vertL)
        self.horizontalLayout.addWidget(self.diagramView)
        self.horizontalLayout.addLayout(self.fileBrowserLayout)
        self.horizontalLayout.setStretchFactor(self.diagramView, 5)
        self.horizontalLayout.setStretchFactor(self.libraryBrowserView, 1)

        self._currentlyDraggedConnectionFromPort = None
        self.connectionList = []
        self.trnsysObj = []
        self.graphicalObj = []
        self.fluids = _hlm.Fluids([])
        self.hydraulicLoops = _hlm.HydraulicLoops([])

        self.copyGroupList = QGraphicsItemGroup()
        self.selectionGroupList = QGraphicsItemGroup()

        self.printerUnitnr = 0

        # Different colors for connLineColor
        colorsc = "red"
        linePx = 4
        if colorsc == "red":
            connLinecolor = QColor(Qt.red)
        elif colorsc == "blueish":
            connLinecolor = QColor(3, 124, 193)  # Blue
        elif colorsc == "darkgray":
            connLinecolor = QColor(140, 140, 140)  # Gray
        else:
            connLinecolor = QColor(196, 196, 196)  # Gray

        # Only for displaying on-going creation of connection
        self.connLine = QLineF()
        self.connLineItem = QGraphicsLineItem(self.connLine)
        self.connLineItem.setPen(QtGui.QPen(connLinecolor, linePx))
        self.connLineItem.setVisible(False)
        self.diagramScene.addItem(self.connLineItem)

        # For line that shows quickly up when using the align mode
        self.alignYLine = QLineF()
        self.alignYLineItem = QGraphicsLineItem(self.alignYLine)
        self.alignYLineItem.setPen(QtGui.QPen(QColor(196, 249, 252), 2))
        self.alignYLineItem.setVisible(False)
        self.diagramScene.addItem(self.alignYLineItem)

        # For line that shows quickly up when using align mode
        self.alignXLine = QLineF()
        self.alignXLineItem = QGraphicsLineItem(self.alignXLine)
        self.alignXLineItem.setPen(QtGui.QPen(QColor(196, 249, 252), 2))
        self.alignXLineItem.setVisible(False)
        self.diagramScene.addItem(self.alignXLineItem)

        if loadValue == "load" or loadValue == "copy":
            self._decodeDiagram(os.path.join(self.projectFolder,
                                             self.diagramName),
                                loadValue=loadValue)
        elif loadValue == "json":
            self._decodeDiagram(jsonPath, loadValue=loadValue)

    # Debug function
    def dumpInformation(self):
        self.logger.debug("Diagram information:")
        self.logger.debug("Mode is " + str(self.editorMode))

        self.logger.debug("Next ID is " + str(self.idGen.getID()))
        self.logger.debug("Next cID is " + str(self.idGen.getConnID()))

        self.logger.debug("TrnsysObjects are:")
        for t in self.trnsysObj:
            self.logger.debug(str(t))
        self.logger.debug("")

        self.logger.debug("Scene items are:")
        sItems = self.diagramScene.items()
        for it in sItems:
            self.logger.info(str(it))
        self.logger.debug("")

        for c in self.connectionList:
            c.printConn()
        self.logger.debug("")

    # Connections related methods
    def startConnection(self, port):
        self._currentlyDraggedConnectionFromPort = port

    def _createConnection(self, startPort, endPort) -> None:
        if startPort is not endPort:
            if (isinstance(startPort.parent, StorageTank)
                    and isinstance(endPort.parent, StorageTank)
                    and startPort.parent != endPort.parent):
                msgSTank = QMessageBox(self)
                msgSTank.setText(
                    "Storage Tank to Storage Tank connection is not working atm!"
                )
                msgSTank.exec_()

            isValidSinglePipeConnection = isinstance(
                startPort, SinglePipePortItem) and isinstance(
                    endPort, SinglePipePortItem)
            if isValidSinglePipeConnection:
                command = CreateSinglePipeConnectionCommand(
                    startPort, endPort, self)
            elif isinstance(startPort, DoublePipePortItem) and isinstance(
                    endPort, DoublePipePortItem):
                command = CreateDoublePipeConnectionCommand(
                    startPort, endPort, self)
            else:
                raise AssertionError(
                    "Can only connect port items. Also, they have to be of the same type."
                )

            self.parent().undoStack.push(command)

    def sceneMouseMoveEvent(self, event):
        """
        This function is for dragging and connecting one port to another.
        When dragging, the fromPort will remain enlarged and black in color and when the toPort is hovered over, it will be
        enlarged and turn red.
        A port's details will also be displayed at the widget when they are hovered over.
        """
        fromPort = self._currentlyDraggedConnectionFromPort
        if not fromPort:
            return

        fromX = fromPort.scenePos().x()
        fromY = fromPort.scenePos().y()

        toX = event.scenePos().x()
        toY = event.scenePos().y()

        self.connLine.setLine(fromX, fromY, toX, toY)
        self.connLineItem.setLine(self.connLine)
        self.connLineItem.setVisible(True)

        hitPortItem = self._getHitPortItemOrNone(event)

        if not hitPortItem:
            return

        mousePosition = event.scenePos()

        portItemX = hitPortItem.scenePos().x()
        portItemY = hitPortItem.scenePos().y()

        distance = _math.sqrt((mousePosition.x() - portItemX)**2 +
                              (mousePosition.y() - portItemY)**2)
        if distance <= 3.5:
            hitPortItem.enlargePortSize()
            hitPortItem.innerCircle.setBrush(hitPortItem.ashColorR)
            self.listV.clear()
            hitPortItem.debugprint()
        else:
            hitPortItem.resetPortSize()
            hitPortItem.innerCircle.setBrush(hitPortItem.visibleColor)
            self.listV.clear()
            fromPort.debugprint()

        fromPort.enlargePortSize()
        fromPort.innerCircle.setBrush(hitPortItem.visibleColor)

    def _getHitPortItemOrNone(self,
                              event: QEvent) -> _tp.Optional[PortItemBase]:
        fromPort = self._currentlyDraggedConnectionFromPort
        mousePosition = event.scenePos()

        relevantPortItems = self._getRelevantHitPortItems(
            mousePosition, fromPort)
        if not relevantPortItems:
            return None

        numberOfHitPortsItems = len(relevantPortItems)
        if numberOfHitPortsItems > 1:
            raise NotImplementedError(
                "Can't deal with overlapping port items.")

        hitPortItem = relevantPortItems[0]

        return hitPortItem

    def sceneMouseReleaseEvent(self, event):
        if not self._currentlyDraggedConnectionFromPort:
            return
        fromPort = self._currentlyDraggedConnectionFromPort

        self._currentlyDraggedConnectionFromPort = None
        self.connLineItem.setVisible(False)

        mousePosition = event.scenePos()
        relevantPortItems = self._getRelevantHitPortItems(
            mousePosition, fromPort)

        numberOfHitPortsItems = len(relevantPortItems)

        if numberOfHitPortsItems > 1:
            raise NotImplementedError(
                "Can't deal with overlapping port items.")

        if numberOfHitPortsItems == 1:
            toPort = relevantPortItems[0]

            if toPort != fromPort:
                self._createConnection(fromPort, toPort)

    def _getRelevantHitPortItems(
            self, mousePosition: QPointF,
            fromPort: PortItemBase) -> _tp.Sequence[PortItemBase]:
        hitItems = self.diagramScene.items(mousePosition)
        relevantPortItems = [
            i for i in hitItems if isinstance(i, PortItemBase)
            and type(i) == type(fromPort) and not i.connectionList
        ]
        return relevantPortItems

    def cleanUpConnections(self):
        for c in self.connectionList:
            c.niceConn()

    def exportHydraulics(self, exportTo=_tp.Literal["ddck", "mfs"]):
        assert exportTo in ["ddck", "mfs"]

        if not self._isHydraulicConnected():
            messageBox = QMessageBox()
            messageBox.setWindowTitle("Hydraulic not connected")
            messageBox.setText(
                "You need to connect all port items before you can export the hydraulics."
            )
            messageBox.setStandardButtons(QMessageBox.Ok)
            messageBox.exec()
            return

        self.logger.info(
            "------------------------> START OF EXPORT <------------------------"
        )

        self.sortTrnsysObj()

        fullExportText = ""

        ddckFolder = os.path.join(self.projectFolder, "ddck")

        if exportTo == "mfs":
            mfsFileName = self.diagramName.split(".")[0] + "_mfs.dck"
            exportPath = os.path.join(self.projectFolder, mfsFileName)
        elif exportTo == "ddck":
            exportPath = os.path.join(ddckFolder, "hydraulic\\hydraulic.ddck")

        if self._doesFileExistAndDontOverwrite(exportPath):
            return None

        self.logger.info("Printing the TRNSYS file...")

        if exportTo == "mfs":
            header = open(os.path.join(ddckFolder, "generic\\head.ddck"), "r")
            headerLines = header.readlines()
            for line in headerLines:
                if line[:4] == "STOP":
                    fullExportText += "STOP = 1 \n"
                else:
                    fullExportText += line
            header.close()
        elif exportTo == "ddck":
            fullExportText += "*************************************\n"
            fullExportText += "** BEGIN hydraulic.ddck\n"
            fullExportText += "*************************************\n\n"
            fullExportText += "*************************************\n"
            fullExportText += "** Outputs to energy balance in kWh\n"
            fullExportText += (
                "** Following this naming standard : qSysIn_name, qSysOut_name, elSysIn_name, elSysOut_name\n"
            )
            fullExportText += "*************************************\n"
            fullExportText += "EQUATIONS 1\n"
            fullExportText += "qSysOut_PipeLoss = PipeLossTot\n"

        simulationUnit = 450
        simulationType = 935
        descConnLength = 20

        exporter = self._createExporter()

        blackBoxProblem, blackBoxText = exporter.exportBlackBox(
            exportTo=exportTo)
        if blackBoxProblem:
            return None

        fullExportText += blackBoxText
        if exportTo == "mfs":
            fullExportText += exporter.exportMassFlows()
            fullExportText += exporter.exportPumpOutlets()
            fullExportText += exporter.exportDivSetting(simulationUnit - 10)

        fullExportText += exporter.exportDoublePipeParameters(
            exportTo=exportTo)

        fullExportText += exporter.exportParametersFlowSolver(
            simulationUnit, simulationType, descConnLength)

        fullExportText += exporter.exportInputsFlowSolver()
        fullExportText += exporter.exportOutputsFlowSolver(simulationUnit)
        fullExportText += exporter.exportFluids() + "\n"
        fullExportText += exporter.exportHydraulicLoops() + "\n"
        fullExportText += exporter.exportPipeAndTeeTypesForTemp(
            simulationUnit + 1)  # DC-ERROR
        fullExportText += exporter.exportPrintPipeLosses()

        fullExportText += exporter.exportMassFlowPrinter(
            self.printerUnitnr, 15)
        fullExportText += exporter.exportTempPrinter(self.printerUnitnr + 1,
                                                     15)

        if exportTo == "mfs":
            fullExportText += "CONSTANTS 1\nTRoomStore=1\n"
            fullExportText += "ENDS"

        self.logger.info(
            "------------------------> END OF EXPORT <------------------------"
        )

        if exportTo == "mfs":
            f = open(exportPath, "w")
            f.truncate(0)
            f.write(fullExportText)
            f.close()
        elif exportTo == "ddck":
            if fullExportText[:1] == "\n":
                fullExportText = fullExportText[1:]
            hydraulicFolder = os.path.split(exportPath)[0]
            if not (os.path.isdir(hydraulicFolder)):
                os.makedirs(hydraulicFolder)
            f = open(exportPath, "w")
            f.truncate(0)
            f.write(fullExportText)
            f.close()

        try:
            lines = _du.loadDeck(exportPath,
                                 eraseBeginComment=True,
                                 eliminateComments=True)
            _du.checkEquationsAndConstants(lines, exportPath)
        except Exception as error:
            errorMessage = f"An error occurred while exporting the system hydraulics: {error}"
            _errs.showErrorMessageBox(errorMessage)
            return None

        return exportPath

    def _createExporter(self) -> Export:
        massFlowContributors = self._getMassFlowContributors()
        exporter = Export(massFlowContributors, self)
        return exporter

    def _getMassFlowContributors(
            self) -> _tp.Sequence[_mfs.MassFlowNetworkContributorMixin]:
        massFlowContributors = [
            o for o in self.trnsysObj
            if isinstance(o, _mfs.MassFlowNetworkContributorMixin)
        ]
        return massFlowContributors

    def _isHydraulicConnected(self) -> bool:
        for obj in self.trnsysObj:
            if not isinstance(obj, _mfs.MassFlowNetworkContributorMixin):
                continue

            internalPiping = obj.getInternalPiping()

            for portItem in internalPiping.modelPortItemsToGraphicalPortItem.values(
            ):
                if not portItem.connectionList:
                    return False

        return True

    def _doesFileExistAndDontOverwrite(self, folderPath):
        if not _pl.Path(folderPath).exists():
            return False

        qmb = QMessageBox(self)
        qmb.setText(
            f"Warning: {folderPath} already exists. Do you want to overwrite it or cancel?"
        )
        qmb.setStandardButtons(QMessageBox.Save | QMessageBox.Cancel)
        qmb.setDefaultButton(QMessageBox.Cancel)
        ret = qmb.exec()

        if ret == QMessageBox.Cancel:
            self.canceled = True
            self.logger.info("Canceling")
            return True

        self.canceled = False
        self.logger.info("Overwriting")
        return False

    def exportHydraulicControl(self):
        self.logger.info(
            "------------------------> START OF EXPORT <------------------------"
        )

        self.sortTrnsysObj()

        fullExportText = ""

        ddckFolder = os.path.join(self.projectFolder, "ddck")

        hydCtrlPath = os.path.join(ddckFolder,
                                   "control\\hydraulic_control.ddck")
        if _pl.Path(hydCtrlPath).exists():
            qmb = QMessageBox(self)
            qmb.setText(
                "Warning: " +
                "The file hydraulic_control.ddck already exists in the control folder. Do you want to overwrite it or cancel?"
            )
            qmb.setStandardButtons(QMessageBox.Save | QMessageBox.Cancel)
            qmb.setDefaultButton(QMessageBox.Cancel)
            ret = qmb.exec()
            if ret == QMessageBox.Save:
                self.canceled = False
                self.logger.info("Overwriting")
            else:
                self.canceled = True
                self.logger.info("Canceling")
                return

        fullExportText += "*************************************\n"
        fullExportText += "**BEGIN hydraulic_control.ddck\n"
        fullExportText += "*************************************\n"

        simulationUnit = 450

        exporter = self._createExporter()

        fullExportText += exporter.exportPumpOutlets()
        fullExportText += exporter.exportMassFlows()
        fullExportText += exporter.exportDivSetting(simulationUnit - 10)

        self.logger.info(
            "------------------------> END OF EXPORT <------------------------"
        )

        if fullExportText[:1] == "\n":
            fullExportText = fullExportText[1:]
        controlFolder = os.path.split(hydCtrlPath)[0]
        if not (os.path.isdir(controlFolder)):
            os.makedirs(controlFolder)
        f = open(str(hydCtrlPath), "w")
        f.truncate(0)
        f.write(fullExportText)
        f.close()

        return hydCtrlPath

    def sortTrnsysObj(self):
        res = self.trnsysObj.sort(key=self.sortId)
        for s in self.trnsysObj:
            self.logger.debug("s has tr id " + str(s.trnsysId) +
                              " has dname " + s.displayName)

    def sortId(self, l1):
        """
        Sort function returning a sortable key
        Parameters
        ----------
        l1 : Block/Connection

        Returns
        -------

        """
        return l1.trnsysId

    def setName(self, newName):
        self.diagramName = newName

    def delBlocks(self):
        """
        Deletes the whole diagram

        Returns
        -------

        """
        self.hydraulicLoops.clear()

        while len(self.trnsysObj) > 0:
            self.logger.info("In deleting...")
            self.trnsysObj[0].deleteBlock()

        while len(self.graphicalObj) > 0:
            self.graphicalObj[0].deleteBlock()

    # Encoding / decoding
    def encodeDiagram(self, filename):
        """
        Encodes the diagram to a json file.

        Parameters
        ----------
        filename : str

        Returns
        -------

        """
        self.logger.info("filename is at encoder " + str(filename))
        # if filename != "":
        with open(filename, "w") as jsonfile:
            json.dump(self, jsonfile, indent=4, sort_keys=True, cls=Encoder)

    def _decodeDiagram(self, filename, loadValue="load"):
        self.logger.info("Decoding " + filename)
        with open(filename, "r") as jsonfile:
            blocklist = json.load(jsonfile, cls=Decoder, editor=self)

        blockFolderNames = []

        for j in blocklist["Blocks"]:
            for k in j:
                if isinstance(k, BlockItem):
                    k.setParent(self.diagramView)
                    k.changeSize()
                    self.diagramScene.addItem(k)
                    blockFolderNames.append(k.displayName)

                if isinstance(k, StorageTank):
                    k.updateImage()

                if isinstance(k, GraphicalItem):
                    k.setParent(self.diagramView)
                    self.diagramScene.addItem(k)

                if isinstance(k, dict):
                    if "__idDct__" in k:
                        # here we don't set the ids because the copyGroup would need access to idGen
                        self.logger.debug(
                            "Found the id dict while loading, not setting the ids"
                        )

                        self.idGen.setID(k["GlobalId"])
                        self.idGen.setTrnsysID(k["trnsysID"])
                        self.idGen.setConnID(k["globalConnID"])

                    if "__nameDct__" in k:
                        self.logger.debug("Found the name dict while loading")
                        if loadValue == "load":
                            self.diagramName = k["DiagramName"]

        blockFolderNames.append("generic")
        blockFolderNames.append("hydraulic")
        blockFolderNames.append("weather")
        blockFolderNames.append("control")

        ddckFolder = os.path.join(self.projectFolder, "ddck")
        ddckFolders = os.listdir(ddckFolder)
        additionalFolders = []

        for folder in ddckFolders:
            if folder not in blockFolderNames and "StorageTank" not in folder:
                additionalFolders.append(folder)

        if len(additionalFolders) > 0:
            warnBox = QMessageBox()
            warnBox.setWindowTitle("Additional ddck-folders")

            if len(additionalFolders) == 1:
                text = "The following ddck-folder does not have a corresponding component in the diagram:"
            else:
                text = "The following ddck-folders do not have a corresponding component in the diagram:"

            for folder in additionalFolders:
                text += "\n\t" + folder

            warnBox.setText(text)
            warnBox.setStandardButtons(QMessageBox.Ok)
            warnBox.setDefaultButton(QMessageBox.Ok)
            warnBox.exec()

        for t in self.trnsysObj:
            t.assignIDsToUninitializedValuesAfterJsonFormatMigration(
                self.idGen)

            self.logger.debug("Tr obj is" + str(t) + " " + str(t.trnsysId))
            if hasattr(t, "isTempering"):
                self.logger.debug("tv has " + str(t.isTempering))

        self._decodeHydraulicLoops(blocklist)

    def _decodeHydraulicLoops(self, blocklist):
        singlePipeConnections = [
            c for c in self.connectionList
            if isinstance(c, SinglePipeConnection)
        ]
        if "hydraulicLoops" not in blocklist:
            hydraulicLoops = _hlmig.createLoops(singlePipeConnections,
                                                self.fluids.WATER)
        else:
            serializedHydraulicLoops = blocklist["hydraulicLoops"]
            hydraulicLoops = _hlm.HydraulicLoops.createFromJson(
                serializedHydraulicLoops, singlePipeConnections, self.fluids)

        self.hydraulicLoops = hydraulicLoops

    def exportSvg(self):
        """
        For exporting a svg file (text is still too large)
        Returns
        -------

        """
        generator = QSvgGenerator()
        generator.setResolution(300)
        generator.setSize(
            QSize(self.diagramScene.width(), self.diagramScene.height()))
        # generator.setViewBox(QRect(0, 0, 800, 800))
        generator.setViewBox(self.diagramScene.sceneRect())
        generator.setFileName("VectorGraphicsExport.svg")

        painter = QPainter()
        painter.begin(generator)
        painter.setRenderHint(QPainter.Antialiasing)
        self.diagramScene.render(painter)
        painter.end()

    # Saving related
    def save(self, showWarning=True):
        """
        If saveas has not been used, diagram will be saved in "/diagrams"
        If saveas has been used, diagram will be saved in self.saveAsPath
        Returns
        -------

        """
        self.diagramName = os.path.split(self.projectFolder)[-1] + ".json"
        diagramPath = os.path.join(self.projectFolder, self.diagramName)

        if os.path.isfile(diagramPath) and showWarning:
            qmb = QMessageBox(self)
            qmb.setText(
                "Warning: " +
                "This diagram name exists already. Do you want to overwrite or cancel?"
            )
            qmb.setStandardButtons(QMessageBox.Save | QMessageBox.Cancel)
            qmb.setDefaultButton(QMessageBox.Cancel)
            ret = qmb.exec()

            if ret != QMessageBox.Save:
                self.logger.info("Canceling")
                return

            self.logger.info("Overwriting")
            self.encodeDiagram(diagramPath)

        self.encodeDiagram(diagramPath)
        msgb = QMessageBox(self)
        msgb.setText("Saved diagram at " + diagramPath)
        msgb.exec()

    def saveToProject(self):
        projectPath = self.projectPath

    def renameDiagram(self, newName):
        """

        Parameters
        ----------
        newName

        Returns
        -------

        """

        if self.saveAsPath.name != "":
            # print("Path name is " + self.saveAsPath.name)
            if newName + ".json" in self.saveAsPath.glob("*"):
                QMessageBox(
                    self, "Warning",
                    "This diagram name exists already in the directory."
                    " Please rename this diagram")
            else:
                self.saveAsPath = _pl.Path(
                    self.saveAsPath.stem[0:self.saveAsPath.name.
                                         index(self.diagramName)] + newName)

        self.diagramName = newName
        self.parent().currentFile = newName
        # fromPath = self.projectFolder
        # destPath = os.path.dirname(__file__)
        # destPath = os.path.join(destPath, 'default')
        # destPath = os.path.join(destPath, newName)
        # os.rename(fromPath, destPath)

        # print("Path is now: " + str(self.saveAsPath))
        # print("Diagram name is: " + self.diagramName)

    def saveAtClose(self):
        self.logger.info("saveaspath is " + str(self.saveAsPath))

        # closeDialog = closeDlg()
        # if closeDialog.closeBool:
        filepath = _pl.Path(
            _pl.Path(__file__).resolve().parent.joinpath("recent"))
        self.encodeDiagram(str(filepath.joinpath(self.diagramName + ".json")))

    # Mode related
    def setAlignMode(self, b):
        self.alignMode = True

    def setEditorMode(self, b):
        self.editorMode = b

    def setMoveDirectPorts(self, b):
        """
        Sets the bool moveDirectPorts. When mouse released in diagramScene, moveDirectPorts is set to False again
        Parameters
        ----------
        b : bool

        Returns
        -------

        """
        self.moveDirectPorts = b

    def setSnapGrid(self, b):
        self.snapGrid = b

    def setSnapSize(self, s):
        self.snapSize = s

    def setConnLabelVis(self, isVisible: bool) -> None:
        for c in self.trnsysObj:
            if isinstance(c, ConnectionBase):
                c.setLabelVisible(isVisible)
            if isinstance(c, BlockItem):
                c.label.setVisible(isVisible)
            if isinstance(c, TVentil):
                c.posLabel.setVisible(isVisible)

    def updateConnGrads(self):
        for t in self.trnsysObj:
            if isinstance(t, ConnectionBase):
                t.updateSegGrads()

    # Dialog calls
    def showBlockDlg(self, bl):
        c = BlockDlg(bl, self)

    def showDoublePipeBlockDlg(self, bl):
        c = DoublePipeBlockDlg(bl, self)

    def showPumpDlg(self, bl):
        c = PumpDlg(bl, self)

    def showDiagramDlg(self):
        c = diagramDlg(self)

    def showGenericPortPairDlg(self, bl):
        c = GenericPortPairDlg(bl, self)

    def showHxDlg(self, hx):
        c = hxDlg(hx, self)

    def showSegmentDlg(self, seg):
        c = segmentDlg(seg, self)

    def showTVentilDlg(self, bl):
        c = TVentilDlg(bl, self)

    def showConfigStorageDlg(self, bl):
        c = ConfigureStorageDialog(bl, self)

    def getConnection(self, n):
        return self.connectionList[int(n)]

    # Unused
    def create_icon(self, map_icon):
        map_icon.fill()
        painter = QPainter(map_icon)
        painter.fillRect(10, 10, 40, 40, QColor(88, 233, 252))
        # painter.setBrush(Qt.red)
        painter.setBrush(QColor(252, 136, 98))
        painter.drawEllipse(36, 2, 15, 15)
        painter.setBrush(Qt.yellow)
        painter.drawEllipse(20, 20, 20, 20)
        painter.end()

    def setTrnsysIdBack(self):
        self.idGen.trnsysID = max(t.trnsysId for t in self.trnsysObj)

    def findStorageCorrespPorts1(self, portList):
        """
        This function gets the ports on the other side of pipes connected to a port of the StorageTank. Unused

        Parameters
        ----------
        portList : :obj:`List` of :obj:`PortItems`

        Returns
        -------

        """

        res = []
        # print("Finding c ports")
        for p in portList:
            if len(p.connectionList) > 0:  # check if not >1 needed
                # connectionList[0] is the hidden connection created when the portPair is
                i = 0
                # while type(p.connectionList[i].fromPort.parent) is StorageTank and type(p.connectionList[i].toPort.parent) is StorageTank:
                while (p.connectionList[i].fromPort.parent) == (
                        p.connectionList[i].toPort.parent):
                    i += 1
                if len(p.connectionList) >= i + 1:
                    if p.connectionList[i].fromPort is p:
                        res.append(p.connectionList[i].toPort)
                    elif p.connectionList[i].toPort is p:
                        res.append(p.connectionList[i].fromPort)
                    else:
                        self.logger.debug("Port is not fromPort nor toPort")

        # [print(p.parent.displayName) for p in res]
        return res

    def printPDF(self):
        """
        ---------------------------------------------
        Export diagram as pdf onto specified folder
        fn = user input directory
        ---------------------------------------------
        """
        fn, _ = QFileDialog.getSaveFileName(self, "Export PDF", None,
                                            "PDF files (.pdf);;All Files()")
        if fn != "":
            if QFileInfo(fn).suffix() == "":
                fn += ".pdf"
            printer = QPrinter(QPrinter.HighResolution)
            printer.setOrientation(QPrinter.Landscape)
            printer.setOutputFormat(QPrinter.PdfFormat)
            printer.setOutputFileName(fn)
            painter = QPainter(printer)
            self.diagramScene.render(painter)
            painter.end()
            self.logger.info("File exported to %s" % fn)

    def openProject(self):
        self.projectPath = str(
            QFileDialog.getExistingDirectory(self, "Select Project Path"))
        if self.projectPath != "":
            test = self.parent()

            self.parent().newDia()
            self.PPL.setText(self.projectPath)
            loadPath = os.path.join(self.projectPath, "ddck")

            self.createConfigBrowser(self.projectPath)
            self.copyGenericFolder(self.projectPath)
            self.createHydraulicDir(self.projectPath)
            self.createWeatherAndControlDirs(self.projectPath)
            self.createDdckTree(loadPath)
            # todo : open diagram
            # todo : add files into list

    def createDdckTree(self, loadPath):
        treeToRemove = self.findChild(QTreeView, "ddck")
        try:
            # treeToRemove.hide()
            treeToRemove.deleteLater()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        if self.projectPath == "":
            loadPath = os.path.join(loadPath, "ddck")
        if not os.path.exists(loadPath):
            os.makedirs(loadPath)
        self.model = MyQFileSystemModel()
        self.model.setRootPath(loadPath)
        self.model.setName("ddck")
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(loadPath))
        self.tree.setObjectName("ddck")
        self.tree.setMinimumHeight(600)
        self.tree.setSortingEnabled(True)
        self.splitter.insertWidget(0, self.tree)

    def createConfigBrowser(self, loadPath):
        self.layoutToRemove = self.findChild(QHBoxLayout, "Config_Layout")
        try:
            # treeToRemove.hide()
            self.layoutToRemove.deleteLater()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")

        runConfigData = self._getPackageResourceData("templates/run.config")
        runConfigPath = _pl.Path(loadPath) / "run.config"
        runConfigPath.write_bytes(runConfigData)

        self.HBox = QHBoxLayout()
        self.refreshButton = QPushButton(self)
        self.refreshButton.setIcon(_img.ROTATE_TO_RIGHT_PNG.icon())
        self.refreshButton.clicked.connect(self.refreshConfig)
        self.model = MyQFileSystemModel()
        self.model.setRootPath(loadPath)
        self.model.setName("Config File")
        self.model.setFilter(QDir.Files)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(loadPath))
        self.tree.setObjectName("config")
        self.tree.setFixedHeight(60)
        self.tree.setSortingEnabled(False)
        self.HBox.addWidget(self.refreshButton)
        self.HBox.addWidget(self.tree)
        self.HBox.setObjectName("Config_Layout")
        self.fileBrowserLayout.addLayout(self.HBox)

    def createProjectFolder(self):
        if not os.path.exists(self.projectFolder):
            os.makedirs(self.projectFolder)

    def refreshConfig(self):
        # configPath = os.path.dirname(__file__)
        # configPath = os.path.join(configPath, 'project')
        # configPath = os.path.join(configPath, self.date_time)
        # emptyConfig = os.path.join(configPath, 'run.config')
        if self.projectPath == "":
            localPath = self.projectFolder
        else:
            localPath = self.projectPath

        self.configToEdit = os.path.join(localPath, "run.config")
        os.remove(self.configToEdit)
        shutil.copy(self.emptyConfig, localPath)
        self.configToEdit = os.path.join(localPath, "run.config")

        localDdckPath = os.path.join(localPath, "ddck")
        with open(self.configToEdit, "r") as file:
            lines = file.readlines()
        localPathStr = "string LOCAL$ %s" % str(localDdckPath)
        # localPathStr.replace('/', '\\')
        lines[21] = localPathStr + "\n"

        with open(self.configToEdit, "w") as file:
            file.writelines(lines)

        # print(localPathStr)
        self.userInputList()

    def userInputList(self):
        self.logger.debug(self.fileList)
        dia = FileOrderingDialog(self.fileList, self)

    def copyGenericFolder(self, loadPath):
        genericFolderPath = _pl.Path(loadPath) / "ddck" / "generic"

        if not genericFolderPath.exists():
            self.logger.info("Creating %s", genericFolderPath)
            genericFolderPath.mkdir()

        headData = self._getPackageResourceData("templates/generic/head.ddck")
        self.logger.info("Copying head.ddck")
        (genericFolderPath / "head.ddck").write_bytes(headData)

        endData = self._getPackageResourceData("templates/generic/end.ddck")
        self.logger.info("Copying end.ddck")
        (genericFolderPath / "end.ddck").write_bytes(endData)

    @staticmethod
    def _getPackageResourceData(resourcePath):
        data = _pu.get_data(_tgui.__name__, resourcePath)
        assert data, f"{resourcePath} package resource not found"
        return data

    def createHydraulicDir(self, projectPath):

        self.hydraulicFolder = os.path.join(projectPath, "ddck")
        self.hydraulicFolder = os.path.join(self.hydraulicFolder, "hydraulic")

        if not os.path.exists(self.hydraulicFolder):
            self.logger.info("Creating " + self.hydraulicFolder)
            os.makedirs(self.hydraulicFolder)

    def createWeatherAndControlDirs(self, projectPath):

        ddckFolder = os.path.join(projectPath, "ddck")
        weatherFolder = os.path.join(ddckFolder, "weather")
        controlFolder = os.path.join(ddckFolder, "control")

        if not os.path.exists(weatherFolder):
            self.logger.info("Creating " + weatherFolder)
            os.makedirs(weatherFolder)

        if not os.path.exists(controlFolder):
            self.logger.info("Creating " + controlFolder)
            os.makedirs(controlFolder)

    def editHydraulicLoop(self, singlePipeConnection: SinglePipeConnection):
        assert isinstance(singlePipeConnection.fromPort, SinglePipePortItem)

        hydraulicLoop = self.hydraulicLoops.getLoopForExistingConnection(
            singlePipeConnection)
        _hledit.edit(hydraulicLoop, self.hydraulicLoops, self.fluids)
Ejemplo n.º 10
0
class WTap(BlockItem, MassFlowNetworkContributorMixin):
    def __init__(self, trnsysType, parent, **kwargs):
        super(WTap, self).__init__(trnsysType, parent, **kwargs)
        self.w = 40
        self.h = 40
        self.inputs.append(_cspi.createSinglePipePortItem("i", 0, self))
        self.loadedFiles = []

        self.changeSize()
        self.addTree()

    def _getImageAccessor(self) -> _tp.Optional[_img.ImageAccessor]:
        return _img.W_TAP_SVG

    def changeSize(self):
        w = self.w
        h = self.h
        """ Resize block function """
        delta = 20
        deltaHF = 0.45

        # Limit the block size:
        if h < 20:
            h = 20
        if w < 40:
            w = 40
        # center label:
        rect = self.label.boundingRect()
        lw, lh = rect.width(), rect.height()
        lx = (w - lw) / 2
        self.label.setPos(lx, h)

        self.origInputsPos = [[0, delta]]
        self.inputs[0].setPos(self.origInputsPos[0][0],
                              self.origInputsPos[0][1])

        self.updateFlipStateH(self.flippedH)
        self.updateFlipStateV(self.flippedV)

        self.inputs[0].side = (self.rotationN + 2 * self.flippedH) % 4

        return w, h

    def exportPumpOutlets(self):
        resStr = "T" + self.displayName + " = " + "T" + self.inputs[
            0].connectionList[0].displayName + "\n"
        equationNr = 1
        return resStr, equationNr

    def getInternalPiping(self) -> InternalPiping:
        portItem = _mfn.PortItem("WTap Input", _mfn.PortItemType.INPUT)
        sink = _mfn.Sink(self.displayName, self.trnsysId, portItem)

        return InternalPiping([sink], {portItem: self.inputs[0]})

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        self.logger.debug(self.parent.parent())
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            # self.path = os.path.dirname(__file__)
            # self.path = os.path.join(self.path, 'default')
            self.path = self.parent.parent().projectFolder
            # now = datetime.now()
            # self.fileName = now.strftime("%Y%m%d%H%M%S")
            # self.path = os.path.join(self.path, self.fileName)
        else:
            self.path = self.parent.parent().projectPath
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        self.logger.debug("Block " + str(self) + " is deleting itself (" +
                          self.displayName + ")")
        self.deleteConns()
        # self.logger.debug("self.parent.parent" + str(self.parent.parent()))
        self.parent.parent().trnsysObj.remove(self)
        self.logger.debug("deleting block " + str(self) + self.displayName)
        # self.logger.debug("self.scene is" + str(self.parent.scene()))
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(
            QTreeView, self.displayName + "Tree")
        shutil.rmtree(self.path)
        self.deleteLoadedFile()
        try:
            widgetToRemove.hide()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName("%sTree" % self.displayName)
        self.logger.debug(os.path.dirname(self.path))
        # destPath = str(os.path.dirname(self.path))+'\\WTap_'+self.displayName
        destPath = os.path.join(os.path.split(self.path)[0], self.displayName)
        if os.path.exists(self.path):
            os.rename(self.path, destPath)
            self.path = destPath
            self.logger.debug(self.path)
Ejemplo n.º 11
0
class Control(BlockItem):
    def __init__(self, trnsysType, parent, **kwargs):
        super(Control, self).__init__(trnsysType, parent, **kwargs)
        factor = 0.667  # 0.63 for png
        self.w = 100
        self.h = 100
        self.loadedFiles = []

        self.addTree()

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        print(self.parent.parent())
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            # self.path = os.path.dirname(__file__)
            # self.path = os.path.join(self.path, 'default')
            self.path = self.parent.parent().projectFolder
            # now = datetime.now()
            # self.fileName = now.strftime("%Y%m%d%H%M%S")
            # self.path = os.path.join(self.path, self.fileName)
        else:
            self.path = self.parent.parent().projectPath
        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        print("Block " + str(self) + " is deleting itself (" +
              self.displayName + ")")
        self.deleteConns()
        # print("self.parent.parent" + str(self.parent.parent()))
        self.parent.parent().trnsysObj.remove(self)
        print("deleting block " + str(self) + self.displayName)
        # print("self.scene is" + str(self.parent.scene()))
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(
            QTreeView, self.displayName + "Tree")
        shutil.rmtree(self.path)
        self.deleteLoadedFile()
        try:
            widgetToRemove.hide()
        except AttributeError:
            print("Widget doesnt exist!")
        else:
            print("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName("%sTree" % self.displayName)
        print(os.path.dirname(self.path))
        destPath = os.path.join(os.path.split(self.path)[0], self.displayName)
        if os.path.exists(self.path):
            os.rename(self.path, destPath)
            self.path = destPath
            print(self.path)
Ejemplo n.º 12
0
class GenericBlock(BlockItem, MassFlowNetworkContributorMixin):
    def __init__(self, trnsysType, parent, **kwargs):
        super(GenericBlock, self).__init__(trnsysType, parent, **kwargs)

        self.inputs.append(_cspi.createSinglePipePortItem("i", 2, self))
        self.outputs.append(_cspi.createSinglePipePortItem("o", 2, self))
        self.loadedFiles = []

        self.childIds = []
        self.childIds.append(self.trnsysId)

        self._imageAccessor = _img.GENERIC_BLOCK_PNG

        # Disallow adding port pairs later, because the trnsysIDs of the generated port pairs have to be
        # consecutive to be correctly printed out in the export
        self.isSet = True

        self.changeSize()
        self.addTree()

    def _getImageAccessor(self) -> _tp.Optional[_img.ImageAccessor]:
        return _img.GENERIC_BLOCK_PNG

    def changeSize(self):
        w = self.w
        h = self.h
        delta = 4
        """ Resize block function """

        # Limit the block size:
        if h < 20:
            h = 20
        if w < 40:
            w = 40
        # center label:
        rect = self.label.boundingRect()
        lw, lh = rect.width(), rect.height()
        lx = (w - lw) / 2
        self.label.setPos(lx, h)

        self.outputs[0].setPos(2 * delta + w, h - 2 * delta)
        self.inputs[0].setPos(2 * delta + w, 2 * delta)

        return w, h

    def getPairNb(self, side):
        res = 0
        for i in self.inputs:
            if i.side == side:
                res += 1

        self.logger.debug("there are " + str(res) + " pairs on the side " +
                          str(side))
        return res

    def addPortDlg(self):
        self.parent.parent().showGenericPortPairDlg(self)

    def addPort(self, io, relH):
        self.logger.debug(io)
        self.logger.debug(relH)

    def setImage(self):
        pixmap = self._getPixmap()
        self.setPixmap(pixmap)

    def changeImage(self):
        name = str(self.pickImage().resolve())
        if name[-3:] == "png" or name[-3:] == "svg":
            self.setImageSource(name)
            self.setImage()
        else:
            self.logger.debug("No image picked, name is " + name)

    def setImageSource(self, name):
        self._imageAccessor = _img.ImageAccessor.createForFile(_pl.Path(name))

    def pickImage(self):
        return _pl.Path(
            QFileDialog.getOpenFileName(self.parent.parent(),
                                        filter="*.png *.svg")[0])

    def contextMenuEvent(self, event):
        menu = QMenu()

        a1 = menu.addAction("Launch NotePad++")
        a1.triggered.connect(self.launchNotepadFile)

        rr = _img.ROTATE_TO_RIGHT_PNG.icon()
        a2 = menu.addAction(rr, "Rotate Block clockwise")
        a2.triggered.connect(self.rotateBlockCW)

        ll = _img.ROTATE_LEFT_PNG.icon()
        a3 = menu.addAction(ll, "Rotate Block counter-clockwise")
        a3.triggered.connect(self.rotateBlockCCW)

        a4 = menu.addAction("Reset Rotation")
        a4.triggered.connect(self.resetRotation)

        b1 = menu.addAction("Print Rotation")
        b1.triggered.connect(self.printRotation)

        c1 = menu.addAction("Delete this Block")
        c1.triggered.connect(self.deleteBlock)

        c3 = menu.addAction("Set image")
        c3.triggered.connect(self.changeImage)

        if not self.isSet:
            c4 = menu.addAction("Add port")
            c4.triggered.connect(self.addPortDlg)

        menu.exec_(event.screenPos())

    def encode(self):
        if self.isVisible():
            self.logger.debug("Encoding a Generic Block")

            portListInputs = []
            portListOutputs = []

            for p in self.inputs:
                portListInputs.append(p.id)
            for p in self.outputs:
                portListOutputs.append(p.id)

            dct = {}
            dct[".__BlockDict__"] = True
            dct["BlockName"] = self.name
            dct["BlockDisplayName"] = self.displayName
            dct["BlockPosition"] = (float(self.pos().x()),
                                    float(self.pos().y()))
            dct["ID"] = self.id
            dct["trnsysID"] = self.trnsysId
            dct["PortsIDIn"] = portListInputs
            dct["PortsIDOut"] = portListOutputs
            dct["FlippedH"] = self.flippedH
            dct["FlippedV"] = self.flippedV
            dct["RotationN"] = self.rotationN
            dct["Imagesource"] = self._imageAccessor.getResourcePath()
            dct["PortPairsNb"] = [self.getPairNb(i) for i in range(4)]

            dictName = "Block-"
            return dictName, dct

    def decode(self, i, resBlockList):
        assert len(self.inputs) == len(self.outputs)
        numberOfPortPairs = len(self.inputs)
        for portPairIndex in range(numberOfPortPairs):
            self.removePortPair(portPairIndex)

        numberOfPortPairsBySide = i["PortPairsNb"]
        for side in range(3):
            numberOfPortPairsToAdd = numberOfPortPairsBySide[side]
            for _ in range(numberOfPortPairsToAdd):
                self.addPortPair(side)

        super(GenericBlock, self).decode(i, resBlockList)
        self._imageAccessor = _img.ImageAccessor.createFromResourcePath(
            i["Imagesource"])
        self.setImage()

    def decodePaste(self, i, offset_x, offset_y, resConnList, resBlockList,
                    **kwargs):
        correcter = 0
        for j in range(4):
            if j == 2:
                correcter = -1
            for k in range(i["PortPairsNb"][j] + correcter):
                self.addPortPair(j)

        super(GenericBlock, self).decodePaste(i, offset_x, offset_y,
                                              resConnList, resBlockList)
        self._imageAccessor = _img.ImageAccessor.createFromResourcePath(
            i["Imagesource"])
        self.setImage()

    def addPortPair(self, side):
        h = self.h
        w = self.w
        delta = 4
        self.logger.debug("side is " + str(side))
        self.inputs.append(_cspi.createSinglePipePortItem("i", side, self))
        self.outputs.append(_cspi.createSinglePipePortItem("o", side, self))
        # Allocate id
        self.childIds.append(self.parent.parent().idGen.getTrnsysID())

        portNb = [0, 0, 0, 0]
        for i in self.inputs:
            if i.side == 0:
                distBetweenPorts = (self.h -
                                    4 * delta) / (2 * self.getPairNb(0) - 1)
                self.logger.debug("distance betw ports " +
                                  str(distBetweenPorts))
                i.setPos(-2 * delta, 2 * delta + distBetweenPorts * portNb[0])
                portNb[0] += 1

                self.outputs[self.inputs.index(i)].setPos(
                    -2 * delta, 2 * delta + distBetweenPorts * portNb[0])
                portNb[0] += 1
            elif i.side == 1:
                distBetweenPorts = (self.w -
                                    4 * delta) / (2 * self.getPairNb(1) - 1)
                i.setPos(2 * delta + distBetweenPorts * portNb[1], -2 * delta)
                portNb[1] += 1

                self.outputs[self.inputs.index(i)].setPos(
                    2 * delta + distBetweenPorts * portNb[1], -2 * delta)
                portNb[1] += 1

            elif i.side == 2:
                self.logger.debug("side == 2")
                distBetweenPorts = (self.h -
                                    4 * delta) / (2 * self.getPairNb(2) - 1)
                self.logger.debug("side 2 dist betw ports is " +
                                  str(distBetweenPorts))
                i.setPos(2 * delta + w,
                         2 * delta + distBetweenPorts * portNb[2])
                self.logger.debug(2 * delta + distBetweenPorts * portNb[2])
                portNb[2] += 1

                self.outputs[self.inputs.index(i)].setPos(
                    2 * delta + w, 2 * delta + distBetweenPorts * portNb[2])
                self.logger.debug(2 * delta + distBetweenPorts * portNb[2])
                portNb[2] += 1

            else:
                distBetweenPorts = (self.w -
                                    4 * delta) / (2 * self.getPairNb(3) - 1)
                self.logger.debug("distance betw ports " +
                                  str(distBetweenPorts))
                i.setPos(2 * delta + distBetweenPorts * portNb[3],
                         2 * delta + h)
                portNb[3] += 1

                self.outputs[self.inputs.index(i)].setPos(
                    2 * delta + distBetweenPorts * portNb[3], 2 * delta + h)
                portNb[3] += 1

    def removePortPairOnSide(self, side):
        for i in self.inputs:
            if i.side == side:
                self.removePortPair(self.inputs.index(i))
                return

    def removePortPair(self, n):
        self.inputs.remove(self.inputs[n])
        self.outputs.remove(self.outputs[n])

    def updateFlipStateH(self, state):
        self.flippedH = bool(state)

        pixmap = self._getPixmap()
        self.setPixmap(pixmap)

    def updateFlipStateV(self, state):
        self.flippedV = bool(state)

        pixmap = self._getPixmap()
        self.setPixmap(pixmap)

    def getInternalPiping(self) -> InternalPiping:
        assert len(self.inputs) == len(self.outputs)

        pipes = []
        portItems = {}
        for i, (graphicalInputPort, graphicalOutputPort) in enumerate(
                zip(self.inputs, self.outputs)):
            inputPort = _mfn.PortItem(f"Input {i+1}", _mfn.PortItemType.INPUT)
            outputPort = _mfn.PortItem(f"Output {i+1}",
                                       _mfn.PortItemType.OUTPUT)
            pipe = _mfn.Pipe(f"{self.displayName}X{i}", self.childIds[0],
                             inputPort, outputPort)

            pipes.append(pipe)
            portItems[inputPort] = graphicalInputPort
            portItems[outputPort] = graphicalOutputPort

        return InternalPiping(pipes, portItems)

    def getSubBlockOffset(self, c):
        for i in range(len(self.inputs)):
            if (self.inputs[i] == c.toPort or self.inputs[i] == c.fromPort
                    or self.outputs[i] == c.toPort
                    or self.outputs[i] == c.fromPort):
                return i

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        self.logger.debug(self.parent.parent())
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            self.path = self.parent.parent().projectFolder
        else:
            self.path = self.parent.parent().projectPath

        self.path = os.path.join(self.path, "ddck")
        self.path = os.path.join(self.path, pathName)
        if not os.path.exists(self.path):
            os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName("%sTree" % self.displayName)
        for i in range(1, self.model.columnCount() - 1):
            self.tree.hideColumn(i)
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        self.logger.debug("Block " + str(self) + " is deleting itself (" +
                          self.displayName + ")")
        self.deleteConns()
        self.parent.parent().trnsysObj.remove(self)
        self.logger.debug("deleting block " + str(self) + self.displayName)
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(
            QTreeView, self.displayName + "Tree")
        shutil.rmtree(self.path)
        self.deleteLoadedFile()
        try:
            widgetToRemove.hide()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName("%sTree" % self.displayName)
        self.logger.debug(os.path.dirname(self.path))
        destPath = os.path.join(os.path.split(self.path)[0], self.displayName)
        if os.path.exists(self.path):
            os.rename(self.path, destPath)
            self.path = destPath
            self.logger.debug(self.path)
Ejemplo n.º 13
0
class StorageTank(BlockItem, MassFlowNetworkContributorMixin):  # pylint: disable=too-many-instance-attributes,too-many-public-methods
    HEAT_EXCHANGER_WIDTH = 40

    def __init__(self, trnsysType, parent, **kwargs):
        super().__init__(trnsysType, parent, **kwargs)

        self.parent = parent
        self._idGenerator: _id.IdGenerator = self.parent.parent().idGen
        self.dckFilePath = ""

        self.directPortPairs: _tp.List[DirectPortPair] = []

        self.heatExchangers: _tp.List[HeatExchanger] = []

        self.blackBoxEquations = []

        self.nTes = self.parent.parent().idGen.getStoragenTes()
        self.storageType = self.parent.parent().idGen.getStorageType()

        self.changeSize()

        self.path = None
        self.addTree()

    @property
    def leftDirectPortPairsPortItems(self):
        return self._getDirectPortPairPortItems(_sd.Side.LEFT)

    @property
    def rightDirectPortPairsPortItems(self):
        return self._getDirectPortPairPortItems(_sd.Side.RIGHT)

    def _getDirectPortPairPortItems(self, side: _sd.Side):
        return [
            p for dpp in self.directPortPairs if dpp.side == side for p in [dpp.fromPort, dpp.toPort]
        ]

    def _getImageAccessor(self) -> _tp.Optional[_img.ImageAccessor]:
        return _img.STORAGE_TANK_SVG

    # Setter functions
    def setParent(self, p):
        self.logger.debug("Setting parent of Storage Tank (and its hx)")
        self.parent = p

        if self not in self.parent.parent().trnsysObj:
            self.parent.parent().trnsysObj.append(self)

        for heatExchanger in self.heatExchangers:
            heatExchanger.parent = self

    def addDirectPortPair(  # pylint: disable=too-many-arguments
        self,
        trnsysId: int,
        side: _sd.Side,
        relativeInputHeight: float,
        relativeOutputHeight: float,
        storageTankHeight: float,
        portIds: _tp.Optional[PortIds] = None,
    ):
        inputPort = self._createPort("i", relativeInputHeight, storageTankHeight, side)
        outputPort = self._createPort("o", relativeOutputHeight, storageTankHeight, side)

        randomInt = int(_rnd.uniform(20, 200))
        randomColor = QColor(randomInt, randomInt, randomInt)
        self._setPortColor(inputPort, randomColor)
        self._setPortColor(outputPort, randomColor)

        if portIds:
            inputPort.id = portIds.inputId
            outputPort.id = portIds.outputId

        directPortPair = DirectPortPair(
            trnsysId, inputPort, outputPort, relativeInputHeight, relativeOutputHeight, side
        )

        self.directPortPairs.append(directPortPair)
        self.inputs.append(directPortPair.fromPort)
        self.outputs.append(directPortPair.toPort)

    def _createPort(
        self, name: str, relativeHeight: float, storageTankHeight: float, side: _sd.Side
    ) -> SinglePipePortItem:
        sideNr = side.toSideNr()
        portItem = _cspi.createSinglePipePortItem(name, sideNr, self)
        portItem.setZValue(100)
        xPos = 0 if side == _sd.Side.LEFT else self.w
        yPos = storageTankHeight - relativeHeight * storageTankHeight
        portItem.setPos(xPos, yPos)
        portItem.side = sideNr
        return portItem

    @staticmethod
    def _setPortColor(portItem: SinglePipePortItem, color: QColor) -> None:
        portItem.innerCircle.setBrush(color)
        portItem.visibleColor = color

    def addHeatExchanger(self, name, trnsysId, side, relativeInputHeight, relativeOutputHeight):
        heatExchanger = HeatExchanger(
            trnsysId=trnsysId,
            sideNr=side.toSideNr(),
            width=self.HEAT_EXCHANGER_WIDTH,
            relativeInputHeight=relativeInputHeight,
            relativeOutputHeight=relativeOutputHeight,
            storageTankWidth=self.w,
            storageTankHeight=self.h,
            parent=self,
            name=name,
        )
        return heatExchanger

    def updateImage(self):
        super().updateImage()
        self.label.setPos(self.label.pos().x(), self.h)

    def updatePortItemPositions(self, deltaH, deltaW):
        for portItem in self.inputs + self.outputs:
            oldRelativeHeight = portItem.pos().y() / self.h
            if portItem.side == 0:
                portItem.setPos(portItem.pos().x(), oldRelativeHeight * (self.h + deltaH))
            else:
                portItem.setPos(portItem.pos().x() + deltaW, oldRelativeHeight * (self.h + deltaH))

    def updateHeatExchangersAfterTankSizeChange(self):
        for heatExchanger in self.heatExchangers:
            heatExchanger.setTankSize(self.w, self.h)

    def encode(self):
        if not self.isVisible():
            raise RuntimeError("Cannot encode an invisible storage tank.")

        heatExchangerModels = self._getHeatExchangerModelsForEncode()
        portPairModels = self._getDirectPortPairModelsForEncode()
        position = float(self.pos().x()), float(self.pos().y())

        storageTankModel = _model.StorageTank(
            self.flippedH,
            self.flippedV,
            self.name,
            self.displayName,
            self.id,
            self.trnsysId,
            self.h,
            position,
            heatExchangerModels,
            portPairModels,
        )

        dictName = "Block-"
        return dictName, storageTankModel.to_dict()

    def _getDirectPortPairModelsForEncode(self):
        portPairModels = []
        for directPort in self.directPortPairs:
            side = _sd.Side.createFromSideNr(directPort.fromPort.side)

            inputPortModel = _model.Port(directPort.fromPort.id, directPort.relativeInputHeight)

            outputPortModel = _model.Port(directPort.toPort.id, directPort.relativeOutputHeight)

            portPairModel = _model.PortPair(side, directPort.trnsysId, inputPortModel, outputPortModel)

            directPortPairModel = _model.DirectPortPair(portPairModel)

            portPairModels.append(directPortPairModel)

        return portPairModels

    def _getHeatExchangerModelsForEncode(self):
        heatExchangerModels = []
        for heatExchanger in self.heatExchangers:
            side = _sd.Side.createFromSideNr(heatExchanger.sSide)

            inputPort = _model.Port(
                heatExchanger.port1.id,
                heatExchanger.relativeInputHeight,
            )

            outputPort = _model.Port(
                heatExchanger.port2.id,
                heatExchanger.relativeOutputHeight,
            )

            portPair = _model.PortPair(side, heatExchanger.trnsysId, inputPort, outputPort)

            heatExchangerModel = _model.HeatExchanger(
                portPair, heatExchanger.displayName, heatExchanger.w, self.id, heatExchanger.id
            )

            heatExchangerModels.append(heatExchangerModel)

        return heatExchangerModels

    def decode(self, i, resBlockList):
        offsetX = 0
        offsetY = 0
        self._decodeInternal(i, offsetX, offsetY, resBlockList, shallSetNamesAndIDs=True)

    def _decodeInternal(  # pylint: disable=too-many-arguments
        self,
        i,
        offsetX,
        offsetY,
        resBlockList,
        shallSetNamesAndIDs: bool,
    ):
        self.logger.debug("Loading a Storage in Decoder")

        model = _model.StorageTank.from_dict(i)

        self.flippedH = model.isHorizontallyFlipped

        if shallSetNamesAndIDs:
            self.displayName = model.BlockDisplayName

        self.changeSize()
        self.h = model.height
        self.updateImage()

        self.setPos(model.position[0] + offsetX, model.position[1] + offsetY)

        if shallSetNamesAndIDs:
            self.trnsysId = model.trnsysId
            self.id = model.id

        for heatExchangerModel in model.heatExchangers:
            self._decodeHeatExchanger(heatExchangerModel, shallSetNamesAndIDs)

        for portPairModel in model.directPortPairs:
            self._decodeDirectPortPair(portPairModel)

        resBlockList.append(self)

    def _decodeDirectPortPair(
        self,
        portPairModel: _model.DirectPortPair,
    ) -> None:
        portPair = portPairModel.portPair

        portIds = PortIds(portPair.inputPort.id, portPair.outputPort.id)

        self.addDirectPortPair(
            portPair.trnsysId,
            portPair.side,
            portPair.inputPort.relativeHeight,
            portPair.outputPort.relativeHeight,
            storageTankHeight=self.h,
            portIds=portIds,
        )

    def _decodeHeatExchanger(self, heatExchangerModel: _model.HeatExchanger, shallSetNamesAndIDs: bool):
        portPair = heatExchangerModel.portPair

        nameSuffix = "" if shallSetNamesAndIDs else "New"
        name = heatExchangerModel.name + nameSuffix

        heatExchanger = self.addHeatExchanger(
            name, portPair.trnsysId, portPair.side, portPair.inputPort.relativeHeight, portPair.outputPort.relativeHeight
        )

        if shallSetNamesAndIDs:
            heatExchanger.setId(heatExchangerModel.id)

        heatExchanger.port1.id = portPair.inputPort.id
        heatExchanger.port2.id = portPair.outputPort.id

    def decodePaste(  # pylint: disable=too-many-arguments
        self, i, offset_x, offset_y, resConnList, resBlockList, **kwargs
    ):
        self._decodeInternal(i, offset_x, offset_y, resBlockList, shallSetNamesAndIDs=False)

    def getTemperatureVariableName(self, portItem: SinglePipePortItem) -> str:
        directPortPair = self._getDirectPortPairForPortItemOrNone(portItem)
        if directPortPair:
            return self._getTemperatureVariableNameForDirectPortPairPortItem(directPortPair, portItem)

        heatExchanger = self._getHeatExchangerForPortItem(portItem)
        if heatExchanger:
            return self._getTemperatureVariableNameForHeatExchangerPortItem(heatExchanger)

        raise ValueError("Port item doesn't belong to this storage tank.")

    def getFlowSolverParametersId(self, portItem: SinglePipePortItem) -> int:
        directPortPair = self._getDirectPortPairForPortItemOrNone(portItem)
        if directPortPair:
            return directPortPair.trnsysId

        heatExchanger = self._getHeatExchangerForPortItem(portItem)
        if heatExchanger:
            return heatExchanger.trnsysId

        raise ValueError("Port item doesn't belong to this storage tank.")

    def assignIDsToUninitializedValuesAfterJsonFormatMigration(
        self, generator: _id.IdGenerator
    ) -> None:  # type: ignore[attr-defined]
        for heatExchanger in self.heatExchangers:
            if heatExchanger.trnsysId == generator.UNINITIALIZED_ID:
                heatExchanger.trnsysId = generator.getTrnsysID()

        for directPortPair in self.directPortPairs:
            if directPortPair.trnsysId == generator.UNINITIALIZED_ID:
                directPortPair.trnsysId = generator.getTrnsysID()

    def _getHeatExchangerForPortItem(self, portItem: SinglePipePortItem) -> _tp.Optional[HeatExchanger]:
        heatExchanger = self._getSingleOrNone(hx for hx in self.heatExchangers if portItem in [hx.port1, hx.port2])

        return heatExchanger

    def _getDirectPortPairForPortItemOrNone(self, portItem: SinglePipePortItem) -> _tp.Optional[DirectPortPair]:
        directPortPair = self._getSingleOrNone(
            dpp for dpp in self.directPortPairs if portItem in [dpp.fromPort, dpp.toPort]
        )

        return directPortPair

    @staticmethod
    def _getSingleOrNone(iterable: _tp.Iterable[_T]) -> _tp.Optional[_T]:
        sequence = list(iterable)

        if not sequence:
            return None

        if len(sequence) > 1:
            raise ValueError("More than one value in iterable.")

        return sequence[0]

    def _getTemperatureVariableNameForDirectPortPairPortItem(self, directPortPair, portItem):
        isInputPort = directPortPair.fromPort == portItem
        relativeHeightInPercent = (
            directPortPair.relativeInputHeightPercent if isInputPort else directPortPair.relativeOutputHeightPercent
        )
        return f"T{self.displayName}Port{directPortPair.side.formatDdck()}{relativeHeightInPercent}"

    @staticmethod
    def _getTemperatureVariableNameForHeatExchangerPortItem(heatExchanger):
        return f"T{heatExchanger.displayName}"

    # Misc
    def contextMenuEvent(self, event):
        menu = QMenu()

        launchNotepadAction = menu.addAction("Launch NotePad++")
        launchNotepadAction.triggered.connect(self.launchNotepadFile)

        rotateRightIcon = _img.ROTATE_TO_RIGHT_PNG.icon()
        rotateRightAction = menu.addAction(rotateRightIcon, "Rotate Block clockwise")
        rotateRightAction.triggered.connect(self.rotateBlockCW)

        rotateLeftIcon = _img.ROTATE_LEFT_PNG.icon()
        rotateLeftIcon = menu.addAction(rotateLeftIcon, "Rotate Block counter-clockwise")
        rotateLeftIcon.triggered.connect(self.rotateBlockCCW)

        resetRotationAction = menu.addAction("Reset Rotation")
        resetRotationAction.triggered.connect(self.resetRotation)

        printRotationAction = menu.addAction("Print Rotation")
        printRotationAction.triggered.connect(self.printRotation)

        deleteBlockAction = menu.addAction("Delete this Block")
        deleteBlockAction.triggered.connect(self.deleteBlockCom)

        exportDdckAction = menu.addAction("Export ddck")
        exportDdckAction.triggered.connect(self.exportDck)

        menu.exec(event.screenPos())

    def mouseDoubleClickEvent(self, event):
        ConfigureStorageDialog(self, self.scene().parent())

    # Export related
    def exportBlackBox(self):
        equations = []
        ddcxPath = _os.path.join(self.path, self.displayName)
        ddcxPath = ddcxPath + ".ddcx"
        self.exportDck()
        if _os.path.isfile(ddcxPath):
            with open(ddcxPath, "r", encoding="windows-1252") as infile:
                lines = infile.readlines()
            for line in lines:
                if line[0] == "T":
                    equations.append(line.replace("\n", ""))
            return "success", equations

        self.logger.warning("No file at " + ddcxPath)
        return "noDdckFile", equations

    def getInternalPiping(self) -> InternalPiping:
        heatExchangerNodes, heatExchangerPortItems = self._createHeatExchangerNodes()

        portPairNodes, portPairsPortItems = self._createPortPairNodes()

        nodes = [*heatExchangerNodes, *portPairNodes]
        modelPortItemsToGraphicalPortItem = heatExchangerPortItems | portPairsPortItems

        return InternalPiping(nodes, modelPortItemsToGraphicalPortItem)

    def _createHeatExchangerNodes(self):
        heatExchangerPortItems = {}
        heatExchangerNodes = []
        for heatExchanger in self.heatExchangers:
            heatExchangerPortItem1 = _mfn.PortItem("Heat Exchanger Input", _mfn.PortItemType.INPUT)
            heatExchangerPortItems[heatExchangerPortItem1] = heatExchanger.port1

            heatExchangerPortItem2 = _mfn.PortItem("Heat Exchanger Output", _mfn.PortItemType.OUTPUT)
            heatExchangerPortItems[heatExchangerPortItem2] = heatExchanger.port2

            name = self._getMassFlowVariableSuffixForHeatExchanger(heatExchanger)

            node = _mfn.Pipe(name, heatExchanger.trnsysId, heatExchangerPortItem1, heatExchangerPortItem2)
            heatExchangerNodes.append(node)

        return heatExchangerNodes, heatExchangerPortItems

    def _createPortPairNodes(self):
        portPairsPortItems = {}
        portPairNodes = []
        for directPortPair in self.directPortPairs:
            portPairPortItem1 = _mfn.PortItem("Input", _mfn.PortItemType.INPUT)
            portPairsPortItems[portPairPortItem1] = directPortPair.fromPort

            portPairPortItem2 = _mfn.PortItem("Output", _mfn.PortItemType.OUTPUT)
            portPairsPortItems[portPairPortItem2] = directPortPair.toPort

            portPairName = self._getMassFlowVariableSuffixForDirectPortPair(directPortPair)

            node = _mfn.Pipe(portPairName, directPortPair.trnsysId, portPairPortItem1, portPairPortItem2)
            portPairNodes.append(node)

        return portPairNodes, portPairsPortItems

    def _getMassFlowVariableSuffixForDirectPortPair(self, directPortPair: DirectPortPair):
        return (
            f"{self.displayName}Dp{'L' if directPortPair.side.isLeft else 'R'}"
            f"{directPortPair.relativeInputHeightPercent}-{directPortPair.relativeOutputHeightPercent}"
        )

    @staticmethod
    def _getMassFlowVariableSuffixForHeatExchanger(heatExchanger):
        return heatExchanger.displayName

    def exportDck(self):  # pylint: disable=too-many-locals,too-many-statements

        if not self._checkConnExists():
            msgb = QMessageBox()
            msgb.setText("Please connect all ports before exporting!")
            msgb.exec_()
            return
        noError = self._debugConn()

        if not noError:
            qmb = QMessageBox()
            qmb.setText("Ignore connection errors and continue with export?")
            qmb.setStandardButtons(QMessageBox.Save | QMessageBox.Cancel)
            qmb.setDefaultButton(QMessageBox.Cancel)
            ret = qmb.exec()
            if ret == QMessageBox.Save:
                self.logger.debug("Overwriting")
                # continue
            else:
                self.logger.debug("Canceling")
                return

        nPorts = len(self.directPortPairs)
        nHx = len(self.heatExchangers)

        self.logger.debug("Storage Type: " + str(self.storageType))
        self.logger.debug("nTes: " + str(self.nTes))
        self.logger.debug("nPorts: " + str(nPorts))
        self.logger.debug("nHx: " + str(nHx))

        tool = Type1924_TesPlugFlow()

        inputs = {
            "nUnit": 50,
            "nType": self.storageType,
            "nTes": self.nTes,
            "nPorts": nPorts,
            "nHx": nHx,
            "nHeatSources": 1,
        }

        directPairsPorts = []
        for directPortPair in self.directPortPairs:
            incomingConnection = directPortPair.fromPort.connectionList[0]
            temperatureName = "T" + incomingConnection.displayName
            massFlowRateName = "Mfr" + incomingConnection.displayName

            outgoingConnection = directPortPair.toPort.connectionList[0]
            reverseTemperatureName = "T" + outgoingConnection.displayName

            inputPos = directPortPair.relativeInputHeight
            outputPos = directPortPair.relativeOutputHeight

            directPairsPort = {
                "T": temperatureName,
                "side": directPortPair.side.formatDdck(),
                "Mfr": massFlowRateName,
                "Trev": reverseTemperatureName,
                "zIn": inputPos,
                "zOut": outputPos,
            }
            directPairsPorts.append(directPairsPort)

        heatExchangerPorts = []
        for heatExchanger in self.heatExchangers:
            heatExchangerName = heatExchanger.displayName
            incomingConnection = heatExchanger.port1.connectionList[0]
            temperatureName = "T" + incomingConnection.displayName
            massFlowRateName = "Mfr" + incomingConnection.displayName

            outgoingConnection = heatExchanger.port2.connectionList[0]
            reverseTemperatureName = "T" + outgoingConnection.displayName

            inputPos = heatExchanger.relativeInputHeight
            outputPos = heatExchanger.relativeOutputHeight

            heatExchangerPort = {
                "Name": heatExchangerName,
                "T": temperatureName,
                "Mfr": massFlowRateName,
                "Trev": reverseTemperatureName,
                "zIn": inputPos,
                "zOut": outputPos,
                "cp": "cpwat",
                "rho": "rhowat",
            }

            heatExchangerPorts.append(heatExchangerPort)

        auxiliaryPorts = []
        for _ in range(inputs["nHeatSources"]):
            dictInputAux = {"zAux": 0.0, "qAux": 0.0}
            auxiliaryPorts.append(dictInputAux)

        exportPath = _os.path.join(self.path, self.displayName + ".ddck")
        self.logger.debug(exportPath)

        tool.setInputs(inputs, directPairsPorts, heatExchangerPorts, auxiliaryPorts)

        tool.createDDck(self.path, self.displayName, typeFile="ddck")

    def _debugConn(self):
        self.logger.debug("Debugging conn")
        errorConnList = ""
        for directPort in self.directPortPairs:
            stFromPort = directPort.fromPort
            stToPort = directPort.toPort
            toPort1 = stFromPort.connectionList[0].toPort
            fromPort2 = stToPort.connectionList[0].fromPort
            connName1 = stFromPort.connectionList[0].displayName
            connName2 = stToPort.connectionList[0].displayName

            if stFromPort != toPort1:
                errorConnList = errorConnList + connName1 + "\n"
            if stToPort != fromPort2:
                errorConnList = errorConnList + connName2 + "\n"
        if errorConnList != "":
            msgBox = QMessageBox()
            msgBox.setText(f"{errorConnList} is connected wrongly, right click StorageTank to invert connection.")
            msgBox.exec()
            noError = False
        else:
            noError = True

        return noError

    def _checkConnExists(self):
        for heatExchanger in self.heatExchangers:
            if not heatExchanger.port1.connectionList:
                return False
            if not heatExchanger.port2.connectionList:
                return False

        for ports in self.leftDirectPortPairsPortItems:
            if not ports.connectionList:
                return False

        for ports in self.rightDirectPortPairsPortItems:
            if not ports.connectionList:
                return False

        return True

    def addTree(self):
        """
        When a blockitem is added to the main window.
        A file explorer for that item is added to the right of the main window by calling this method
        """
        pathName = self.displayName
        if self.parent.parent().projectPath == "":
            self.path = self.parent.parent().projectFolder
        else:
            self.path = self.parent.parent().projectPath
        self.path = _os.path.join(self.path, "ddck")
        self.path = _os.path.join(self.path, pathName)
        if not _os.path.exists(self.path):
            _os.makedirs(self.path)

        self.model = MyQFileSystemModel()
        self.model.setRootPath(self.path)
        self.model.setName(self.displayName)
        self.tree = MyQTreeView(self.model, self)
        self.tree.setModel(self.model)
        self.tree.setRootIndex(self.model.index(self.path))
        self.tree.setObjectName(f"{self.displayName}Tree")
        self.tree.setMinimumHeight(200)
        self.tree.setSortingEnabled(True)
        self.parent.parent().splitter.addWidget(self.tree)

    def deleteBlock(self):
        """
        Overridden method to also delete folder
        """
        self.logger.debug("Block " + str(self) + " is deleting itself (" + self.displayName + ")")
        self.deleteConns()
        # self.logger.debug("self.parent.parent" + str(self.parent.parent()))
        self.parent.parent().trnsysObj.remove(self)
        self.logger.debug("deleting block " + str(self) + self.displayName)
        # self.logger.debug("self.scene is" + str(self.parent.scene()))
        self.parent.scene().removeItem(self)
        widgetToRemove = self.parent.parent().findChild(QTreeView, self.displayName + "Tree")
        _sh.rmtree(self.path)
        try:
            widgetToRemove.hide()
        except AttributeError:
            self.logger.debug("Widget doesnt exist!")
        else:
            self.logger.debug("Deleted widget")
        del self

    def setName(self, newName):
        """
        Overridden method to also change folder name
        """
        self.displayName = newName
        self.label.setPlainText(newName)
        self.model.setName(self.displayName)
        self.tree.setObjectName(f"{self.displayName}Tree")
        self.logger.debug(_os.path.dirname(self.path))
        destPath = _os.path.join(_os.path.split(self.path)[0], self.displayName)
        if _os.path.split(self.path)[-1] == "" or _os.path.split(self.path)[-1] == "ddck":
            _os.makedirs(destPath)
        else:
            if _os.path.exists(self.path):
                _os.rename(self.path, destPath)
        self.path = destPath
        self.logger.debug(self.path)