Source

orange / Orange / OrangeWidgets / OWColorPalette.py

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from PyQt4.QtCore import *
from PyQt4.QtGui import *
from OWWidget import *
import OWGUI
import math

defaultRGBColors = [(0, 0, 255), (255, 0, 0), (0, 255, 0), (255, 128, 0), (255, 255, 0), (255, 0, 255), (0, 255, 255), (128, 0, 255), (0, 128, 255), (255, 223, 128), (127, 111, 64), (92, 46, 0), (0, 84, 0), (192, 192, 0), (0, 127, 127), (128, 0, 0), (127, 0, 127)]
defaultColorBrewerPalette = {3: [(127, 201, 127), (190, 174, 212), (253, 192, 134)], 4: [(127, 201, 127), (190, 174, 212), (253, 192, 134), (255, 255, 153)], 5: [(127, 201, 127), (190, 174, 212), (253, 192, 134), (255, 255, 153), (56, 108, 176)], 6: [(127, 201, 127), (190, 174, 212), (253, 192, 134), (255, 255, 153), (56, 108, 176), (240, 2, 127)], 7: [(127, 201, 127), (190, 174, 212), (253, 192, 134), (255, 255, 153), (56, 108, 176), (240, 2, 127), (191, 91, 23)], 8: [(127, 201, 127), (190, 174, 212), (253, 192, 134), (255, 255, 153), (56, 108, 176), (240, 2, 127), (191, 91, 23), (102, 102, 102)]} 

colorButtonSize = 25
specialColorLabelWidth = 160
paletteInterpolationColors = 250

# On Mac OS X there are problems with QRgb and whether it is long or int and even whether
# it is positive or negative number (there is corelation between those)
# Color can be stored in 32 bit unsigned int but Python does not have unsigned int explicitly
# So Python on Mac sometimes uses long where it should use int (when the highest bit is set and
# it sees the number as positive - so it cannot be stored as positive number in 31 bits) and sometimes
# it needs unsigned number and so uses long and does not want a signed int

try:
    qRed(-1)
    wantsPositiveColor = False
except:
    wantsPositiveColor = True

def signedColor(long):
    if type(long) == int:
        return long
    
    long &= 0xFFFFFFFF
    
    if long & 0x80000000:
        return int(-((long ^ 0xFFFFFFFF) + 1))
    else:
        return int(long)

def positiveColor(color):
    if wantsPositiveColor and color < 0:
        return (-color - 1) ^ 0xFFFFFFFF
    else:
        return color

def signedPalette(palette):
    return [signedColor(color) for color in palette]


#A 10X10 single color pixmap
class ColorPixmap (QIcon):
    def __init__(self,color=QColor(Qt.white), size = 12):
        "Creates a single-color pixmap"
        p = QPixmap(size,size)
        p.fill(color)
        self.color = color
        QIcon.__init__(self, p)


# a widget that can be used to select the colors to be used
class ColorPaletteDlg(OWBaseWidget):
    def __init__(self,parent, caption = "Color Palette", callback = None, modal  = TRUE):
        OWBaseWidget.__init__(self, None, None, caption, modal = modal)
        self.setLayout(QVBoxLayout(self))
        self.layout().setMargin(4)

        self.callback = callback
        self.contPaletteNames = []
        self.exContPaletteNames = []
        self.discPaletteNames = []
        self.colorButtonNames = []
        self.colorSchemas = []
        self.selectedSchemaIndex = 0

        self.mainArea = OWGUI.widgetBox(self, spacing = 4)
        self.layout().addWidget(self.mainArea)
        self.schemaCombo = OWGUI.comboBox(self.mainArea, self, "selectedSchemaIndex", box = "Saved Profiles", callback = self.paletteSelected)

        self.hbox = OWGUI.widgetBox(self, orientation = "horizontal")
        self.okButton = OWGUI.button(self.hbox, self, "OK", self.acceptChanges)
        self.cancelButton = OWGUI.button(self.hbox, self, "Cancel", self.reject)
        self.setMinimumWidth(230)
        self.resize(350, 200)

    def acceptChanges(self):
        state = self.getCurrentState()
        oldState = self.colorSchemas[self.selectedSchemaIndex][1]
        if state == oldState:
            QDialog.accept(self)
        else:
            # if we changed the deafult schema, we must save it under a new name
            if self.colorSchemas[self.selectedSchemaIndex][0] == "Default":
                if QMessageBox.information(self, 'Question', 'The color schema has changed. Do you want to save changes?','Yes','No', '', 0,1):
                    QDialog.reject(self)
                else:
                    self.selectedSchemaIndex = self.schemaCombo.count()-1
                    self.paletteSelected()
                    QDialog.accept(self)
            # simply save the new users schema
            else:
                self.colorSchemas[self.selectedSchemaIndex] = [self.colorSchemas[self.selectedSchemaIndex][0], state]
                QDialog.accept(self)

    def createBox(self, boxName, boxCaption = None):
        box = OWGUI.widgetBox(self.mainArea, boxCaption)
        box.setAlignment(Qt.AlignLeft)
        return box

    def createColorButton(self, box, buttonName, buttonCaption, initialColor = Qt.black):
        self.__dict__["butt" + buttonName] = ColorButton(self, box, buttonCaption)
        self.__dict__["butt" + buttonName].setColor(QColor(initialColor))
        self.colorButtonNames.append(buttonName)


    def createContinuousPalette(self, paletteName, boxCaption, passThroughBlack = 0, initialColor1 = QColor(Qt.white), initialColor2 = Qt.black):
        buttBox = OWGUI.widgetBox(self.mainArea, boxCaption) 
        box = OWGUI.widgetBox(buttBox, orientation = "horizontal")
        
        self.__dict__["cont"+paletteName+"Left"]  = ColorButton(self, box, color = QColor(initialColor1))
        self.__dict__["cont"+paletteName+"View"] = PaletteView(box)
        self.__dict__["cont"+paletteName+"Right"] = ColorButton(self, box, color = QColor(initialColor2))

        self.__dict__["cont"+paletteName+"passThroughBlack"] = passThroughBlack
        self.__dict__["cont"+paletteName+"passThroughBlackCheckbox"] = OWGUI.checkBox(buttBox, self, "cont"+paletteName+"passThroughBlack", "Pass through black", callback = self.colorSchemaChange)
        self.contPaletteNames.append(paletteName)

    def createExtendedContinuousPalette(self, paletteName, boxCaption, passThroughColors = 0, initialColor1 = QColor(Qt.white), initialColor2 = Qt.black, extendedPassThroughColors = ((Qt.red, 1), (Qt.black, 1), (Qt.green, 1))):
        buttBox = OWGUI.widgetBox(self.mainArea, boxCaption) 
        box = OWGUI.widgetBox(buttBox, orientation = "horizontal")
        
        self.__dict__["exCont"+paletteName+"Left"]  = ColorButton(self, box, color = QColor(initialColor1))
        self.__dict__["exCont"+paletteName+"View"] = PaletteView(box)
        self.__dict__["exCont"+paletteName+"Right"] = ColorButton(self, box, color = QColor(initialColor2))

        self.__dict__["exCont"+paletteName+"passThroughColors"] = passThroughColors
        self.__dict__["exCont"+paletteName+"passThroughColorsCheckbox"] = OWGUI.checkBox(buttBox, self, "exCont"+paletteName+"passThroughColors", "Use pass-through colors", callback = self.colorSchemaChange)

        box = OWGUI.widgetBox(buttBox, "Pass-through colors", orientation = "horizontal")
        for i, (color, check) in enumerate(extendedPassThroughColors):
            self.__dict__["exCont"+paletteName+"passThroughColor"+str(i)] = check
            self.__dict__["exCont"+paletteName+"passThroughColor"+str(i)+"Checkbox"] = cb = OWGUI.checkBox(box, self, "exCont"+paletteName+"passThroughColor"+str(i), "", tooltip="Use color", callback = self.colorSchemaChange)
            self.__dict__["exCont"+paletteName+"color"+str(i)] = ColorButton(self, box, color = QColor(color))
            if i < len(extendedPassThroughColors) - 1:
                OWGUI.rubber(box)
        self.__dict__["exCont"+paletteName+"colorCount"] = len(extendedPassThroughColors)
        self.exContPaletteNames.append(paletteName)            
        

    # #####################################################
    # DISCRETE COLOR PALETTE
    # #####################################################
    def createDiscretePalette(self, paletteName, boxCaption, rgbColors = defaultRGBColors):
        vbox = OWGUI.widgetBox(self.mainArea, boxCaption, orientation = 'vertical')
        self.__dict__["disc"+paletteName+"View"] = PaletteView(vbox)
        self.__dict__["disc"+paletteName+"View"].rgbColors = rgbColors
        
        hbox = OWGUI.widgetBox(vbox, orientation = 'horizontal')
        self.__dict__["disc"+paletteName+"EditButt"] = OWGUI.button(hbox, self, "Edit palette", self.editPalette, tooltip = "Edit the order and colors of the palette", debuggingEnabled = 0, toggleButton = 1)
        self.__dict__["disc"+paletteName+"LoadButt"] = OWGUI.button(hbox, self, "Load palette", self.loadPalette, tooltip = "Load a predefined color palette", debuggingEnabled = 0, toggleButton = 1)
        self.discPaletteNames.append(paletteName)
        

    def editPalette(self):
        for paletteName in self.discPaletteNames:
            if self.__dict__["disc"+paletteName+"EditButt"].isChecked():
                colors = self.__dict__["disc"+paletteName+"View"].rgbColors
                if type(colors) == dict:
                    colors = colors[max(colors.keys())]
                dlg = PaletteEditor(self, colors)
                if dlg.exec_() and colors != dlg.getRgbColors():
                    self.__dict__["disc"+paletteName+"View"].setDiscPalette(dlg.getRgbColors())
                self.__dict__["disc"+paletteName+"EditButt"].setChecked(0)
                return
                
    def loadPalette(self):
        for paletteName in self.discPaletteNames:
            if self.__dict__["disc"+paletteName+"LoadButt"].isChecked():
                self.__dict__["disc"+paletteName+"LoadButt"].setChecked(0)
                dlg = ColorPalleteListing()
                if dlg.exec_() == QDialog.Accepted:
                    for butt in dlg.buttons:
                        if butt.isChecked():
                            self.__dict__["disc"+paletteName+"View"].setDiscPalette(butt.rgbColors)
                            return 


    # #####################################################

    def getCurrentSchemeIndex(self):
        return self.selectedSchemaIndex

    def getColor(self, buttonName):
        return self.__dict__["butt"+buttonName].getColor()

    def getContinuousPalette(self, paletteName):
        c1 = self.__dict__["cont"+paletteName+"Left"].getColor()
        c2 = self.__dict__["cont"+paletteName+"Right"].getColor()
        b = self.__dict__["cont"+paletteName+"passThroughBlack"]
        return ContinuousPaletteGenerator(c1, c2, b)

    def getExtendedContinuousPalette(self, paletteName):
        c1 = self.__dict__["exCont"+paletteName+"Left"].getColor()
        c2 = self.__dict__["exCont"+paletteName+"Right"].getColor()
        colors = self.__dict__["exCont"+paletteName+"passThroughColors"]
        if colors:
            colors = [self.__dict__["exCont"+paletteName+"color"+str(i)].getColor()
                      for i in range(self.__dict__["exCont"+paletteName+"colorCount"])
                      if self.__dict__["exCont"+paletteName+"passThroughColor"+str(i)]]
        return ExtendedContinuousPaletteGenerator(c1, c2, colors or [])

    def getDiscretePalette(self, paletteName):
        return ColorPaletteGenerator(rgbColors = self.__dict__["disc"+paletteName+"View"].rgbColors)

    def getColorSchemas(self):
        return self.colorSchemas

    def getCurrentState(self):
        l1 = [(name, self.qRgbFromQColor(self.__dict__["butt"+name].getColor())) for name in self.colorButtonNames]
        l2 = [(name, (self.qRgbFromQColor(self.__dict__["cont"+name+"Left"].getColor()), self.qRgbFromQColor(self.__dict__["cont"+name+"Right"].getColor()), self.__dict__["cont"+name+"passThroughBlack"])) for name in self.contPaletteNames]
        l3 = [(name, self.__dict__["disc"+name+"View"].rgbColors) for name in self.discPaletteNames]
        l4 = [(name, (self.qRgbFromQColor(self.__dict__["exCont"+name+"Left"].getColor()), self.qRgbFromQColor(self.__dict__["exCont"+name+"Right"].getColor()), self.__dict__["exCont"+name+"passThroughColors"],
                      [(self.qRgbFromQColor(self.__dict__["exCont"+name+"color"+str(i)].getColor()), self.__dict__["exCont"+name+"passThroughColor"+str(i)])
                       for i in range(self.__dict__["exCont"+name+"colorCount"])]))
                       for name in self.exContPaletteNames]
        return [l1, l2, l3, l4]


    def setColorSchemas(self, schemas = None, selectedSchemaIndex = 0):
        self.schemaCombo.clear()

        if not schemas or type(schemas) != list:
            schemas = [("Default", self.getCurrentState()) ]

        self.colorSchemas = schemas
        self.schemaCombo.addItems([s[0] for s in schemas])
        self.schemaCombo.addItem("Save current palette as...")
        self.selectedSchemaIndex = selectedSchemaIndex
        self.paletteSelected()

    def setCurrentState(self, state):
        if len(state) > 3:
            [buttons, contPalettes, discPalettes, exContPalettes] = state
        else:
            [buttons, contPalettes, discPalettes] = state
            exContPalettes = []
        for (name, but) in buttons:
            self.__dict__["butt"+name].setColor(self.rgbToQColor(but))
        for (name, (l,r,chk)) in contPalettes:
            self.__dict__["cont"+name+"Left"].setColor(self.rgbToQColor(l))
            self.__dict__["cont"+name+"Right"].setColor(self.rgbToQColor(r))
            self.__dict__["cont"+name+"passThroughBlack"] = chk
            self.__dict__["cont"+name+"passThroughBlackCheckbox"].setChecked(chk)
            self.__dict__["cont"+name+"View"].setContPalette(self.rgbToQColor(l), self.rgbToQColor(r), chk)

        for (name, rgbColors) in discPalettes:
            self.__dict__["disc"+name+"View"].setDiscPalette(rgbColors)

        for name, (l, r, chk, colors) in exContPalettes:
            self.__dict__["exCont"+name+"Left"].setColor(self.rgbToQColor(l))
            self.__dict__["exCont"+name+"Right"].setColor(self.rgbToQColor(r))

            self.__dict__["exCont"+name+"passThroughColors"] = chk
            self.__dict__["exCont"+name+"passThroughColorsCheckbox"].setChecked(chk)

            colorsList = []
            for i, (color, check) in enumerate(colors):
                self.__dict__["exCont"+name+"passThroughColor"+str(i)] = check
                self.__dict__["exCont"+name+"passThroughColor"+str(i)+"Checkbox"].setChecked(check)
                self.__dict__["exCont"+name+"color"+str(i)].setColor(self.rgbToQColor(color))
                if check and chk:
                    colorsList.append(self.rgbToQColor(color))
            self.__dict__["exCont"+name+"colorCount"] = self.__dict__.get("exCont"+name+"colorCount", len(colors))
            self.__dict__["exCont"+name+"View"].setExContPalette(self.rgbToQColor(l), self.rgbToQColor(r), colorsList)

    def paletteSelected(self):
        if not self.schemaCombo.count(): return

        # if we selected "Save current palette as..." option then add another option to the list
        if self.selectedSchemaIndex == self.schemaCombo.count()-1:
            message = "Please enter a name for the current color settings.\nPressing 'Cancel' will cancel your changes and close the dialog."
            ok = 0
            while not ok:
                text, ok = QInputDialog.getText(self, "Name Your Color Settings", message)
                if (ok):
                    newName = str(text)
                    oldNames = [str(self.schemaCombo.itemText(i)).lower() for i in range(self.schemaCombo.count()-1)]
                    if newName.lower() == "default":
                        ok = FALSE
                        message = "The 'Default' settings cannot be changed. Please enter a different name:"
                    elif newName.lower() in oldNames:
                        index = oldNames.index(newName.lower())
                        self.colorSchemas.pop(index)

                    if ok:
                        self.colorSchemas.insert(0, (newName, self.getCurrentState()))
                        self.schemaCombo.insertItem(0, newName)
                        #self.schemaCombo.setCurrentIndex(0)
                        self.selectedSchemaIndex = 0
                else:
                    ok = 1
                    state = self.getCurrentState()  # if we pressed cancel we have to select a different item than the "Save current palette as..."
                    self.selectedSchemaIndex = 0    # this will change the color buttons, so we have to restore the colors
                    self.setCurrentState(state)
        else:
            schema = self.colorSchemas[self.selectedSchemaIndex][1]
            self.setCurrentState(schema)
            if self.callback: self.callback()


    def rgbToQColor(self, rgb):
        # we could also use QColor(positiveColor(rgb), 0xFFFFFFFF) but there is probably a reason
        # why this was not used before so I am leaving it as it is
        return QColor(qRed(positiveColor(rgb)), qGreen(positiveColor(rgb)), qBlue(positiveColor(rgb))) # on Mac color cannot be negative number in this case so we convert it manually

    def qRgbFromQColor(self, qcolor):
        return qRgb(qcolor.red(), qcolor.green(), qcolor.blue())

    def createPalette(self, color1, color2, passThroughBlack, colorNumber = paletteInterpolationColors):
        if passThroughBlack:
            palette = [qRgb(color1.red() - color1.red()*i*2./colorNumber, color1.green() - color1.green()*i*2./colorNumber, color1.blue() - color1.blue()*i*2./colorNumber) for i in range(colorNumber/2)]
            palette += [qRgb(color2.red()*i*2./colorNumber, color2.green()*i*2./colorNumber, color2.blue()*i*2./colorNumber) for i in range(colorNumber - (colorNumber/2))]
        else:
            palette = [qRgb(color1.red() + (color2.red()-color1.red())*i/colorNumber, color1.green() + (color2.green()-color1.green())*i/colorNumber, color1.blue() + (color2.blue()-color1.blue())*i/colorNumber) for i in range(colorNumber)]
        return palette

    # this function is called if one of the color buttons was pressed or there was any other change of the color palette
    def colorSchemaChange(self):
        self.setCurrentState(self.getCurrentState())
        self.emit(SIGNAL("shemaChanged"))
        if self.callback: self.callback()


class ColorPalleteListing(OWBaseWidget):
    def __init__(self):
        OWBaseWidget.__init__(self, None, None, "Color Palette List", modal = 1)
        self.setLayout(QVBoxLayout(self))
        self.layout().setMargin(0)
        sa = QScrollArea()
        sa.setHorizontalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
        sa.setVerticalScrollBarPolicy(Qt.ScrollBarAlwaysOn)
        self.layout().addWidget(sa)
        
        space = QWidget(self)
        space.setLayout(QVBoxLayout())
        sa.setWidget(space)
        sa.setWidgetResizable(1)        # this is crucial in order for the scrollarea to work - otherwise the content is not visible!!!
        
        self.buttons = []
        self.setMinimumWidth(400)
        
        from ColorBrewerColorSchemes import colorSchemes
            
        box = OWGUI.widgetBox(space, "Information", addSpace = True, orientation="vertical")
        OWGUI.widgetLabel(box, '<p align="center">This dialog shows a list of predefined color palettes <br>from colorbrewer.org that can be used in Orange.<br>You can select a palette by clicking on it.</p>')
        
        box = OWGUI.widgetBox(space, "Default Palette", addSpace = True, orientation="vertical")
        butt = OWGUI.button(box, self, "", self.buttClicked, tooltip = "Default color palette", toggleButton = 1)
        butt.rgbColors = defaultRGBColors
        butt.setIcon(QIcon(createDiscPalettePixmap(butt.iconSize().width(), butt.iconSize().height(), defaultRGBColors)))
        self.buttons.append(butt)
        
        for type in ["Qualitative", "Spectral", "Diverging", "Sequential", "Pastels"]:
            colorGroup = colorSchemes.get(type.lower(), {})
            if colorGroup != {}:
                box = OWGUI.widgetBox(space, type + " Palettes", addSpace = True, orientation="vertical")
                keys = colorGroup.keys()
                keys.sort()
                for key in keys:
                    butt = OWGUI.button(box, self, "", self.buttClicked, tooltip = key, toggleButton = 1)
                    butt.rgbColors = colorGroup[key]
                    self.buttons.append(butt)
                    
        box = OWGUI.widgetBox(space, 1, orientation = "horizontal")
        #OWGUI.button(box, self, "OK", self.accept)
        OWGUI.button(box, self, "Cancel", self.reject)
        
        self.resize(300, 400)

    def showEvent(self, ev):
        self.resizeEvent(ev)

    def resizeEvent(self, ev):
        for butt in self.buttons:
            butt.setFixedHeight(40)
            butt.setFlat(1)
            #butt.setStyleSheet("QPushButton:hover { color: white; }")
            butt.setIconSize(butt.size() - QSize(20, 14))
            butt.setIcon(QIcon(createDiscPalettePixmap(butt.iconSize().width(), butt.iconSize().height(), butt.rgbColors)))
        
    def buttClicked(self):
        self.accept()
    

class PaletteEditor(OWBaseWidget):
    def __init__(self, parent, rgbColors):
        OWBaseWidget.__init__(self, None, None, "Palette Editor", modal = 1)
        self.setLayout(QVBoxLayout(self))
        self.layout().setMargin(4)
        
        hbox = OWGUI.widgetBox(self, "Information" , orientation = 'horizontal')
        OWGUI.widgetLabel(hbox, '<p align="center">You can reorder colors in the list using the<br>buttons on the right or by dragging and dropping the items.<br>To change a specific color double click the item in the list.</p>')
        
        hbox = OWGUI.widgetBox(self, 1, orientation = 'horizontal')
        self.discListbox = OWGUI.listBox(hbox, self, enableDragDrop = 1)
        
        vbox = OWGUI.widgetBox(hbox, orientation = 'vertical')
        buttonUPAttr   = OWGUI.button(vbox, self, "", callback = self.moveAttrUP, tooltip="Move selected colors up")
        buttonDOWNAttr = OWGUI.button(vbox, self, "", callback = self.moveAttrDOWN, tooltip="Move selected colors down")
        buttonUPAttr.setIcon(QIcon(os.path.join(self.widgetDir, "icons/Dlg_up3.png")))
        buttonUPAttr.setSizePolicy(QSizePolicy(QSizePolicy.Fixed , QSizePolicy.Expanding))
        buttonUPAttr.setMaximumWidth(30)
        buttonDOWNAttr.setIcon(QIcon(os.path.join(self.widgetDir, "icons/Dlg_down3.png")))
        buttonDOWNAttr.setSizePolicy(QSizePolicy(QSizePolicy.Fixed , QSizePolicy.Expanding))
        buttonDOWNAttr.setMaximumWidth(30)
        self.connect(self.discListbox, SIGNAL("itemDoubleClicked ( QListWidgetItem *)"), self.changeDiscreteColor)
        
        box = OWGUI.widgetBox(self, 1, orientation = "horizontal")
        OWGUI.button(box, self, "OK", self.accept)
        OWGUI.button(box, self, "Cancel", self.reject)
                
        self.discListbox.setIconSize(QSize(25, 25))
        for ind, (r,g,b) in enumerate(rgbColors):
            item = QListWidgetItem(ColorPixmap(QColor(r,g,b), 25), "Color %d" % (ind+1))
            item.rgbColor = (r,g,b)
            self.discListbox.addItem(item)
            
        self.resize(300, 300)
                 
                 
    def changeDiscreteColor(self, item):
        r,g,b = item.rgbColor
        color = QColorDialog.getColor(QColor(r,g,b), self)
        if color.isValid():
            item.setIcon(ColorPixmap(color, 25))
            item.rgbColor = (color.red(), color.green(), color.blue())


    # move selected attribute in "Attribute Order" list one place up
    def moveAttrUP(self):
        if len(self.discListbox.selectedIndexes()) == 0: return
        ind = self.discListbox.selectedIndexes()[0].row()
        if ind == 0: return
        iconI = self.discListbox.item(ind-1).icon()
        iconII = self.discListbox.item(ind).icon()
        self.discListbox.item(ind-1).setIcon(iconII)
        self.discListbox.item(ind).setIcon(iconI)
        self.discListbox.item(ind-1).rgbColor, self.discListbox.item(ind).rgbColor = self.discListbox.item(ind).rgbColor, self.discListbox.item(ind-1).rgbColor
        self.discListbox.setCurrentRow(ind-1)
        

    # move selected attribute in "Attribute Order" list one place down
    def moveAttrDOWN(self):
        if len(self.discListbox.selectedIndexes()) == 0: return
        ind = self.discListbox.selectedIndexes()[0].row()
        if ind == self.discListbox.count()-1: return
        iconI = self.discListbox.item(ind+1).icon()
        iconII = self.discListbox.item(ind).icon()
        self.discListbox.item(ind+1).setIcon(iconII)
        self.discListbox.item(ind).setIcon(iconI)
        self.discListbox.item(ind).rgbColor, self.discListbox.item(ind+1).rgbColor = self.discListbox.item(ind+1).rgbColor, self.discListbox.item(ind).rgbColor
        self.discListbox.setCurrentRow(ind+1)
        
    def getRgbColors(self):
        return [self.discListbox.item(i).rgbColor for i in range(self.discListbox.count())]
        

class ContinuousPaletteGenerator:
    def __init__(self, color1, color2, passThroughBlack):
        self.c1Red, self.c1Green, self.c1Blue = color1.red(), color1.green(), color1.blue()
        self.c2Red, self.c2Green, self.c2Blue = color2.red(), color2.green(), color2.blue()
        self.passThroughBlack = passThroughBlack

    def getRGB(self, val):
        if self.passThroughBlack:
            if val < 0.5:
                return (self.c1Red - self.c1Red*val*2, self.c1Green - self.c1Green*val*2, self.c1Blue - self.c1Blue*val*2)
            else:
                return (self.c2Red*(val-0.5)*2., self.c2Green*(val-0.5)*2., self.c2Blue*(val-0.5)*2.)
        else:
            return (self.c1Red + (self.c2Red-self.c1Red)*val, self.c1Green + (self.c2Green-self.c1Green)*val, self.c1Blue + (self.c2Blue-self.c1Blue)*val)

    # val must be between 0 and 1
    def __getitem__(self, val):
        return QColor(*self.getRGB(val))

class ExtendedContinuousPaletteGenerator:
    def __init__(self, color1, color2, passThroughColors):
        self.colors = [color1] + passThroughColors + [color2]
        self.gammaFunc = lambda x, gamma:((math.exp(gamma*math.log(2*x-1)) if x > 0.5 else -math.exp(gamma*math.log(-2*x+1)) if x!=0.5 else 0.0)+1)/2.0

    def getRGB(self, val, gamma=1.0):
        index = int(val * (len(self.colors) - 1))
        if index == len(self.colors) - 1:
            return (self.colors[-1].red(), self.colors[-1].green(), self.colors[-1].blue())
        else:
            red1, green1, blue1 = self.colors[index].red(), self.colors[index].green(), self.colors[index].blue()
            red2, green2, blue2 = self.colors[index + 1].red(), self.colors[index + 1].green(), self.colors[index + 1].blue()
            x = val * (len(self.colors) - 1) - index
            if gamma != 1.0:
                x = self.gammaFunc(x, gamma)
            return [(c2 - c1) * x + c1 for c1, c2 in [(red1, red2), (green1, green2), (blue1, blue2)]]
##        if self.passThroughBlack:
##            if val < 0.5:
##                return (self.c1Red - self.c1Red*val*2, self.c1Green - self.c1Green*val*2, self.c1Blue - self.c1Blue*val*2)
##            else:
##                return (self.c2Red*(val-0.5)*2., self.c2Green*(val-0.5)*2., self.c2Blue*(val-0.5)*2.)
##        else:
##            return (self.c1Red + (self.c2Red-self.c1Red)*val, self.c1Green + (self.c2Green-self.c1Green)*val, self.c1Blue + (self.c2Blue-self.c1Blue)*val)

    # val must be between 0 and 1
    def __getitem__(self, val):
        return QColor(*self.getRGB(val))


class ColorPaletteGenerator:
    maxHueVal = 260

    def __init__(self, numberOfColors = 0, rgbColors = defaultRGBColors):
        self.numberOfColors = -1
        self.rgbColors = rgbColors
        if type(rgbColors) == dict:
            self.rgbColorsDict = rgbColors
            self.setNumberOfColors(max(rgbColors.keys()))
        else:
            self.setNumberOfColors(numberOfColors)
        
    # set the number of colors in the palette
    def setNumberOfColors(self, numberOfColors):
        if numberOfColors == self.numberOfColors:
            return
        
        self.numberOfColors = numberOfColors
        
        if hasattr(self, "rgbColorsDict") and self.rgbColorsDict.has_key(max(3, numberOfColors)):
            self.rgbColors = self.rgbColorsDict[max(3, numberOfColors)][:numberOfColors]

        self.rgbQColors = [QColor(*color) for color in self.rgbColors]
        

    def __getitem__(self, index, brightness = None):
        if type(index) == tuple:
            index, brightness = index
        
        if self.numberOfColors == -1:     # is this color for continuous attribute?
            col = QColor()
            col.setHsv(index*self.maxHueVal, brightness or 255, 255)     # index must be between 0 and 1
            return col
        else:
            index = int(index)
            if index < len(self.rgbColors):
                if brightness == None:
                    return self.rgbQColors[index]
                else:
                    color = QColor(*self.rgbColors[index])
                    h,s,v,a = color.getHsv()
                    color.setHsv(h, int(brightness), v, a)
                    return color
            else:
                col = QColor()
                col.setHsv(index*self.maxHueVal, brightness or 255, 255)
                return col

    def getRGB(self, index, brightness = None):
        index = int(index)
        if self.numberOfColors == -1:     # is this color for continuous attribute?
            col = QColor()
            col.setHsv(index*self.maxHueVal, brightness or 255, 255)     # index must be between 0 and 1
            return (col.red(), col.green(), col.blue())
        else:
            if index < len(self.rgbColors):
                if brightness == None:
                    return self.rgbColors[index]
                else:
                    col = QColor(*self.rgbColors[index])
                    h,s,v,a = col.getHsv()
                    col.setHsv(h, int(brightness), v, a)
                    return (col.red(), col.green(), col.blue())
            else:
                col = QColor()
                col.setHsv(index*self.maxHueVal, brightness or 255, 255)
                return (col.red(), col.green(), col.blue())

    # get QColor instance for given index
    def getColor(self, index, brightness = None):
        return self.__getitem__(index, brightness)

# only for backward compatibility
class ColorPaletteHSV(ColorPaletteGenerator):
    pass


# black and white color palette
class ColorPaletteBW:
    def __init__(self, numberOfColors = -1, brightest = 50, darkest = 255):
        self.numberOfColors = numberOfColors
        self.brightest = brightest
        self.darkest = darkest
        self.hueValues = []

        if numberOfColors == -1: return  # used for coloring continuous variables
        else:
            self.values = [int(brightest + (darkest-brightest)*x/float(numberOfColors-1)) for x in range(numberOfColors)]

    def __getitem__(self, index):
        if self.numberOfColors == -1:                # is this color for continuous attribute?
            val = int(self.brightest + (self.darkest-self.brightest)*index)
            return QColor(val, val, val)
        else:                   
            index = int(index)                       # get color for discrete attribute
            return QColor(self.values[index], self.values[index], self.values[index])   # index must be between 0 and self.numberofColors

    # get QColor instance for given index
    def getColor(self, index):
        return self.__getitem__(index)



class ColorSchema:
    def __init__(self, name, palette, additionalColors, passThroughBlack):
        self.name = name
        self.palette = palette
        self.additionalColors = additionalColors
        self.passThroughBlack = passThroughBlack

    def getName(self):
        return self.name

    def getPalette(self):
        return self.palette

    def getAdditionalColors(self):
        return self.additionalColors

    def getPassThroughBlack(self):
        return self.passThroughBlack

class PaletteView(QGraphicsView):
    def __init__(self, parent = None):
        self.canvas = QGraphicsScene(0, 0, 1000, colorButtonSize)
        QGraphicsView.__init__(self, self.canvas, parent)
        self.ensureVisible(0,0,1,1)
        
        self.color1 = None
        self.color2 = None
        self.rgbColors = []
        self.passThroughColors = None

        #self.setFrameStyle(QFrame.NoFrame)
        self.setHorizontalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
        self.setVerticalScrollBarPolicy(Qt.ScrollBarAlwaysOff)

        self.setFixedHeight(colorButtonSize)
        self.setMinimumWidth(colorButtonSize)
        
        if parent and parent.layout() is not None:
            parent.layout().addWidget(self)
    
    def resizeEvent(self, ev):
        self.updateImage()
        
    def setDiscPalette(self, rgbColors):
        self.rgbColors = rgbColors
        self.updateImage()
    
    def setContPalette(self, color1, color2, passThroughBlack):
        self.color1 = color1
        self.color2 = color2
        self.passThroughBlack = passThroughBlack
        self.updateImage()

    def setExContPalette(self, color1, color2, passThroughColors):
        self.color1 = color1
        self.color2 = color2
        self.passThroughColors = passThroughColors
        self.updateImage()
        
    def updateImage(self):
        for item in self.scene().items():
            item.hide()
        if self.color1 == None: 
            img = createDiscPalettePixmap(self.width(), self.height(), self.rgbColors)
        elif self.passThroughColors == None:
            img = createContPalettePixmap(self.width(), self.height(), self.color1, self.color2, self.passThroughBlack)
        else:
            img = createExContPalettePixmap(self.width(), self.height(), self.color1, self.color2, self.passThroughColors)
        self.scene().addPixmap(img)
        self.scene().update()


# create a pixmap with color going from color1 to color2
def createContPalettePixmap(width, height, color1, color2, passThroughBlack):
    p = QPainter()
    img = QPixmap(width, height)
    p.begin(img)
    
    #p.eraseRect(0, 0, w, h)
    p.setPen(QPen(Qt.NoPen))
    g = QLinearGradient(0, 0, width, height)
    g.setColorAt(0, color1)
    g.setColorAt(1, color2)
    if passThroughBlack:
        g.setColorAt(0.5, Qt.black)
    p.fillRect(img.rect(), QBrush(g))
    return img
        
    
# create a pixmap with a discrete palette 
def createDiscPalettePixmap(width, height, palette):
    p = QPainter()
    img = QPixmap(width, height)
    p.begin(img)
    p.setPen(QPen(Qt.NoPen))
    if type(palette) == dict:       # if palette is the dict with different 
        palette = palette[max(palette.keys())]
    if len(palette) == 0: return img
    rectWidth = width / float(len(palette))
    for i, col in enumerate(palette):
        p.setBrush(QBrush(QColor(*col)))
        p.drawRect(QRectF(i*rectWidth, 0, (i+1)*rectWidth, height))
    return img

# create a pixmap withcolor going from color1 to color2 passing through all intermidiate colors in passThroughColors
def createExContPalettePixmap(width, height, color1, color2, passThroughColors):
    p = QPainter()
    img = QPixmap(width, height)
    p.begin(img)
    
    #p.eraseRect(0, 0, w, h)
    p.setPen(QPen(Qt.NoPen))
    g = QLinearGradient(0, 0, width, height)
    g.setColorAt(0, color1)
    g.setColorAt(1, color2)
    for i, color in enumerate(passThroughColors):
        g.setColorAt(float(i + 1) / (len(passThroughColors) + 1), color)
    p.fillRect(img.rect(), QBrush(g))
    return img
        

class ColorButton(QWidget):
    def __init__(self, master = None, parent = None, label = None, color = None):
        QWidget.__init__(self, master)

        self.parent = parent
        self.master = master

        if self.parent and self.parent.layout() is not None:
            self.parent.layout().addWidget(self)

        self.setLayout(QHBoxLayout())
        self.layout().setMargin(0)
        self.icon = QFrame(self)
        self.icon.setFixedSize(colorButtonSize, colorButtonSize)
        self.icon.setAutoFillBackground(1)
        self.icon.setFrameStyle (QFrame.StyledPanel+ QFrame.Sunken)
        self.layout().addWidget(self.icon)

        if label != None:
            self.label = OWGUI.widgetLabel(self, label)
            self.layout().addWidget(self.label)

        if color != None:
            self.setColor(color)


    def setColor(self, color):
        self.color = color
        palette = QPalette()
        palette.setBrush(QPalette.Background, color)
        self.icon.setPalette(palette)

    def getColor(self):
        return self.color

    def mousePressEvent(self, ev):
        color = QColorDialog.getColor(self.color)
        if color.isValid():
            self.setColor(color)
            if self.master and hasattr(self.master, "colorSchemaChange"):
                self.master.colorSchemaChange()

def rgbToQColor(rgb):
    # we could also use QColor(positiveColor(rgb), 0xFFFFFFFF) but there is probably a reason
    # why this was not used before so I am leaving it as it is
    return QColor(qRed(positiveColor(rgb)), qGreen(positiveColor(rgb)), qBlue(positiveColor(rgb)))

class PaletteItemDelegate(QItemDelegate):
    def __init__(self, selector, *args):
        QItemDelegate.__init__(self, *args)
        self.selector = selector
        
    def paint(self, painter, option, index):
        img = self.selector.paletteImg[index.row()]
        painter.drawPixmap(option.rect.x(), option.rect.y(), img)

    def sizeHint(self, option, index):        
        img = self.selector.paletteImg[index.row()]
        return img.size()
    
class PaletteSelectorComboBox(QComboBox):
    def __init__(self, *args):
        QComboBox.__init__(self, *args)
        self.paletteImg = []
        self.cachedPalettes = []
##        self.setItemDelegate(PaletteItemDelegate(self, self))
        size = self.sizeHint()
        size = QSize(size.width()*2/3, size.height()*2/3)
        self.setIconSize(size)

    def setPalettes(self, name, paletteDlg):
        self.clear()
        self.cachedPalettes = []
        shemas = paletteDlg.getColorSchemas()
        if name in paletteDlg.discPaletteNames:
            pass
        if name in paletteDlg.contPaletteNames:
            pass
        if name in paletteDlg.exContPaletteNames:
            palettes = []
            paletteIndex = paletteDlg.exContPaletteNames.index(name)
            for schemaName, state in shemas:
                butt, disc, cont, exCont = state
                name, (c1, c2, chk, colors) = exCont[paletteIndex]
                palettes.append((schemaName, ((rgbToQColor(c1), rgbToQColor(c2), [rgbToQColor(color) for color, check in colors if check and chk]))))
            self.setContinuousPalettes(palettes)

    def setDiscretePalettes(self, palettes):
        self.clear()
        paletteImg = []
        self.cachedPalettes = []
        for name, colors in palettes:
            self.addItem(name)
            self.paletteImg.append(createDiscPalettePixmap(200, 20, colors))
            self.cachedPalettes.append(ColorPaletteGenerator(rgbColors = colors))

    def setContinuousPalettes(self, palettes):
        self.clear()
        paletteImg = []
        self.cachedPalettes = []
        for name, (c1, c2, colors) in palettes:
            icon = QIcon(createExContPalettePixmap(self.iconSize().width(), self.iconSize().height(), c1, c2, colors))
            self.addItem(icon, name)
            

if __name__== "__main__":
    a = QApplication(sys.argv)

    c = ColorPaletteDlg(None, modal = FALSE)
    c.createContinuousPalette("continuousPalette", "Continuous Palette")
    c.createDiscretePalette("discPalette", "Discrete Palette")
    box = c.createBox("otherColors", "Colors")
    c.createColorButton(box, "Canvas", "Canvas")
    c.createColorButton(box, "Grid", "Grid")
    c.setColorSchemas()
    c.show()
    a.exec_()