def create_base_tab(self, tab):
self.base = Base()
# List of (unit, label)-pairs to build our grid from.
bases = (2, 3, 5, 8, 10, 12, 16, 20, 32, 36, 60, 64)
units = [(i, str(i)) for i in bases]
grid, self.base_edits = self.create_grid(units, 6)
colors = self.create_color_layout()
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(colors)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
for i in self.base_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.base_text_changed)
i.textEdited[str].connect(self.update_base_edits)
def create_base_tab(self, tab):
self.base = Base()
# List of (unit, label)-pairs to build our grid from.
bases = (2, 3, 5, 8, 10, 12, 16, 20, 32, 36, 60, 64)
units = [(i, str(i)) for i in bases]
grid, self.base_edits = self.create_grid(units, 6)
colors = self.create_color_layout()
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(colors)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
for i in self.base_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.base_text_changed)
i.textEdited[str].connect(self.update_base_edits)
class GUIConverter(QtGui.QWidget):
def __init__(self):
super(GUIConverter, self).__init__()
# Main Window
self.setGeometry(300, 300, 350, 300)
self.setWindowTitle("UnitConverter")
self.setWindowIcon(QtGui.QIcon("icon.png"))
QtGui.QToolTip.setFont(QtGui.QFont("SansSerif", 10))
tabs = QtGui.QTabWidget()
basetab = QtGui.QWidget()
caesartab = QtGui.QWidget()
datatab = QtGui.QWidget()
lengthtab = QtGui.QWidget()
volumetab = QtGui.QWidget()
weighttab = QtGui.QWidget()
self.create_base_tab(basetab)
self.create_caesar_tab(caesartab)
self.create_data_tab(datatab)
self.create_length_tab(lengthtab)
self.create_volume_tab(volumetab)
self.create_weight_tab(weighttab)
tabs.addTab(basetab, "Base")
tabs.addTab(datatab, "Data")
tabs.addTab(lengthtab, "Length")
tabs.addTab(volumetab, "Volume")
tabs.addTab(weighttab, "Weight")
tabs.addTab(caesartab, "Caesar")
mainlayout = QtGui.QVBoxLayout()
mainlayout.addWidget(tabs)
self.setLayout(mainlayout)
def create_grid(self, units, gridsize=4):
"Creates the grid of conversion unit QLineEdits and QLabels for a tab."
# Dictionary that holds our QLineEdit fields for later use.
edits = {i[0]: SelectAllLineEdit() for i in units}
# Create our positions grid (0,0), (0,1) etc
pos = [(i, j) for i in range(gridsize) for j in range(4)]
layout = QtGui.QGridLayout()
for i in range(len(pos)):
# Since data is half as long as pos, we use floor division to get
# the correct corresponding data index from i.
edit, label = units[i // 2][0], units[i // 2][1]
# Add a QLabel for uneven positions and QLineEdits for even ones.
if i % 2:
layout.addWidget(QtGui.QLabel(label), pos[i][0], pos[i][1])
else:
layout.addWidget(edits[edit], pos[i][0], pos[i][1])
return layout, edits
def create_base_tab(self, tab):
self.base = Base()
# List of (unit, label)-pairs to build our grid from.
bases = (2, 3, 5, 8, 10, 12, 16, 20, 32, 36, 60, 64)
units = [(i, str(i)) for i in bases]
grid, self.base_edits = self.create_grid(units, 6)
colors = self.create_color_layout()
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(colors)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
for i in self.base_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.base_text_changed)
i.textEdited[str].connect(self.update_base_edits)
def create_caesar_tab(self, tab):
"Tab that does encoding/decoding of caesar ciphers."
# Default to rot13.
self.caesar_shift = 13
self.caesar_edits = {
"input": QtGui.QTextEdit(),
"output": SelectAllTextEdit()
}
# Put those QLineEdits into a vertical splitter.
splitter = QtGui.QSplitter(QtCore.Qt.Vertical, self)
splitter.addWidget(self.caesar_edits["input"])
splitter.addWidget(self.caesar_edits["output"])
grid = QtGui.QGridLayout()
# grid.setSpacing(10)
grid.addWidget(splitter)
shift = self.create_caesarshift_layout()
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(shift)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
self.caesar_edits["input"].textChanged.connect(
self.update_caesar_edits)
self.caesar_edits["output"].setReadOnly(True)
# TODO: Make the lineedits interchangable (input/output).
def create_data_tab(self, tab):
self.data = Data()
# List of (unit, label)-pairs to build our grid from.
units = [
("bits", "bits"), ("bytes", "bytes"), ("kilobytes", "kB"),
("kibibytes", "KiB"), ("megabytes", "MB"), ("mebibytes", "MiB"),
("gigabytes", "GB"), ("gibibytes", "GiB"), ("terrabytes", "TB"),
("tebibytes", "TiB"), ("petabytes", "PB"), ("pebibytes", "PiB")
]
grid, self.data_edits = self.create_grid(units, 6)
prec = self.create_decplaces_layout("data")
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
for i in self.data_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.data_text_changed)
i.textEdited.connect(self.update_data_edits)
# i.selectionChanged.connect(i.selectAll) # FIXME: selectall :(
# focusInEvent?
def create_length_tab(self, tab):
self.length = Length()
units = [("millimeters", "mm"), ("inches", "in"),
("centimeters", "cm"), ("feet", "ft"), ("meters", "m"),
("yards", "yd"), ("kilometers", "km"), ("miles", "mi")]
grid, self.length_edits = self.create_grid(units)
prec = self.create_decplaces_layout("length")
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
for i in self.length_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.length_text_changed)
i.textEdited[str].connect(self.update_length_edits)
def create_volume_tab(self, tab):
self.volume = Volume()
units = [("milliliters", "ml"), ("ounces", "oz"),
("centiliters", "cl"), ("pints", "pt"), ("liters", "l"),
("gallons", "gal"), ("kiloliters", "kl"), ("barrels", "bbl")]
grid, self.volume_edits = self.create_grid(units)
prec = self.create_decplaces_layout("volume")
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
for i in self.volume_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.volume_text_changed)
i.textEdited[str].connect(self.update_volume_edits)
def create_weight_tab(self, tab):
self.weight = Weight()
units = [("milligrams", "mg"), ("drams", "dr"), ("grams", "g"),
("ounces", "oz"), ("kilograms", "kg"), ("pounds", "lbs"),
("tons", "t"), ("ustons", "t (US)")]
grid, self.weight_edits = self.create_grid(units)
prec = self.create_decplaces_layout("weight")
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
for i in self.weight_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.weight_text_changed)
i.textEdited[str].connect(self.update_weight_edits)
def create_caesarshift_layout(self):
"QLineEdit that allows adjusting of decimal places."
shift = SelectAllLineEdit()
shift.setFixedWidth(36)
shift.setAlignment(QtCore.Qt.AlignCenter)
shift.setText(str(self.caesar_shift))
shift.textEdited[str].connect(self.update_caesar_shift)
layout = QtGui.QHBoxLayout()
layout.addWidget(shift)
return layout
def create_decplaces_layout(self, unittype):
"QLineEdit that allows adjusting of decimal places."
prec = SelectAllLineEdit()
prec.setFixedWidth(36)
prec.setAlignment(QtCore.Qt.AlignCenter)
if unittype == "data":
prec.setText(str(self.data.decplaces))
prec.textEdited[str].connect(self.update_data_decplaces)
if unittype == "length":
prec.setText(str(self.length.decplaces))
prec.textEdited[str].connect(self.update_length_decplaces)
if unittype == "volume":
prec.setText(str(self.volume.decplaces))
prec.textEdited[str].connect(self.update_volume_decplaces)
if unittype == "weight":
prec.setText(str(self.weight.decplaces))
prec.textEdited[str].connect(self.update_weight_decplaces)
layout = QtGui.QHBoxLayout()
layout.addWidget(prec)
return layout
def create_color_layout(self):
button = QtGui.QPushButton("ColorPicker", self)
button.clicked.connect(self.show_color_picker)
self.frm = QtGui.QFrame(self)
self.frm.setGeometry(130, 22, 100, 100)
layout = QtGui.QHBoxLayout()
layout.addWidget(button)
return layout
def show_color_picker(self):
col = QtGui.QColorDialog.getColor()
#
# Prints the selected color as hex value to console.
if col.isValid():
print col.name()
def update_caesar_shift(self, text):
try:
self.caesar_shift = int(text)
self.update_caesar_edits()
except ValueError:
pass
def update_data_decplaces(self, text):
try:
self.data.decplaces = int(text)
self.update_data_edits()
except ValueError:
pass
def update_length_decplaces(self, text):
try:
self.length.decplaces = int(text)
self.update_length_edits()
except ValueError:
pass
def update_volume_decplaces(self, text):
try:
self.volume.decplaces = int(text)
self.update_volume_edits()
except ValueError:
pass
def update_weight_decplaces(self, text):
try:
self.weight.decplaces = int(text)
self.update_weight_edits()
except ValueError:
pass
def update_edits(self, unittype, edit):
"Update all QLineEdits of the unittype (e.g. data)."
for k, v in edit.items():
# Exclude the sender from being updated.
if v != self.sender():
text = getattr(unittype, k)
v.setText(text)
def update_base_edits(self):
"Update the values of all Base/Numbers QLineEdits"
for k, v in self.base_edits.items():
# Exclude the sender from being updated.
if v != self.sender():
dec = getattr(self.base, "_decimal")
text = self.base.from_decimal(dec, k)
v.setText(text)
def update_caesar_edits(self):
"Set the correct unit in conversion.py to the text we just received."
text = self.caesar_edits["input"].toPlainText()
output = self.caesar_edits["output"]
message = rot(str(text), self.caesar_shift)
output.setText(message)
def update_data_edits(self):
self.update_edits(self.data, self.data_edits)
def update_length_edits(self):
self.update_edits(self.length, self.length_edits)
def update_volume_edits(self):
self.update_edits(self.volume, self.volume_edits)
def update_weight_edits(self):
self.update_edits(self.weight, self.weight_edits)
def text_changed(self, text, unittype, edits):
"Set the correct unit in conversion.py to the text we just received."
for k, v in edits.items():
if v == self.sender():
unit = k
break
try:
setattr(unittype, unit, float(text))
except ValueError:
setattr(unittype, unit, 0)
def base_text_changed(self, text):
"When a Base/Numbers QLineEdit was changed, we pass its text along"
for k, v in self.base_edits.items():
if v == self.sender():
base = k
break
dec = self.base.to_decimal(text, base)
setattr(self.base, "_decimal", dec)
def data_text_changed(self, text):
self.text_changed(text, self.data, self.data_edits)
def length_text_changed(self, text):
self.text_changed(text, self.length, self.length_edits)
def volume_text_changed(self, text):
self.text_changed(text, self.volume, self.volume_edits)
def weight_text_changed(self, text):
self.text_changed(text, self.weight, self.weight_edits)
class GUIConverter(QtGui.QWidget):
def __init__(self):
super(GUIConverter, self).__init__()
# Main Window
self.setGeometry(300, 300, 350, 300)
self.setWindowTitle("UnitConverter")
self.setWindowIcon(QtGui.QIcon("icon.png"))
QtGui.QToolTip.setFont(QtGui.QFont("SansSerif", 10))
tabs = QtGui.QTabWidget()
basetab = QtGui.QWidget()
caesartab = QtGui.QWidget()
datatab = QtGui.QWidget()
lengthtab = QtGui.QWidget()
volumetab = QtGui.QWidget()
weighttab = QtGui.QWidget()
self.create_base_tab(basetab)
self.create_caesar_tab(caesartab)
self.create_data_tab(datatab)
self.create_length_tab(lengthtab)
self.create_volume_tab(volumetab)
self.create_weight_tab(weighttab)
tabs.addTab(basetab, "Base")
tabs.addTab(datatab, "Data")
tabs.addTab(lengthtab, "Length")
tabs.addTab(volumetab, "Volume")
tabs.addTab(weighttab, "Weight")
tabs.addTab(caesartab, "Caesar")
mainlayout = QtGui.QVBoxLayout()
mainlayout.addWidget(tabs)
self.setLayout(mainlayout)
def create_grid(self, units, gridsize=4):
"Creates the grid of conversion unit QLineEdits and QLabels for a tab."
# Dictionary that holds our QLineEdit fields for later use.
edits = {i[0]: SelectAllLineEdit() for i in units}
# Create our positions grid (0,0), (0,1) etc
pos = [(i, j) for i in range(gridsize) for j in range(4)]
layout = QtGui.QGridLayout()
for i in range(len(pos)):
# Since data is half as long as pos, we use floor division to get
# the correct corresponding data index from i.
edit, label = units[i // 2][0], units[i // 2][1]
# Add a QLabel for uneven positions and QLineEdits for even ones.
if i % 2:
layout.addWidget(QtGui.QLabel(label), pos[i][0], pos[i][1])
else:
layout.addWidget(edits[edit], pos[i][0], pos[i][1])
return layout, edits
def create_base_tab(self, tab):
self.base = Base()
# List of (unit, label)-pairs to build our grid from.
bases = (2, 3, 5, 8, 10, 12, 16, 20, 32, 36, 60, 64)
units = [(i, str(i)) for i in bases]
grid, self.base_edits = self.create_grid(units, 6)
colors = self.create_color_layout()
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(colors)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
for i in self.base_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.base_text_changed)
i.textEdited[str].connect(self.update_base_edits)
def create_caesar_tab(self, tab):
"Tab that does encoding/decoding of caesar ciphers."
# Default to rot13.
self.caesar_shift = 13
self.caesar_edits = {"input": QtGui.QTextEdit(),
"output": SelectAllTextEdit()}
# Put those QLineEdits into a vertical splitter.
splitter = QtGui.QSplitter(QtCore.Qt.Vertical, self)
splitter.addWidget(self.caesar_edits["input"])
splitter.addWidget(self.caesar_edits["output"])
grid = QtGui.QGridLayout()
# grid.setSpacing(10)
grid.addWidget(splitter)
shift = self.create_caesarshift_layout()
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(shift)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
self.caesar_edits["input"].textChanged.connect(self.update_caesar_edits)
self.caesar_edits["output"].setReadOnly(True)
# TODO: Make the lineedits interchangable (input/output).
def create_data_tab(self, tab):
self.data = Data()
# List of (unit, label)-pairs to build our grid from.
units = [("bits", "bits"), ("bytes", "bytes"), ("kilobytes", "kB"),
("kibibytes", "KiB"), ("megabytes", "MB"), ("mebibytes", "MiB"),
("gigabytes", "GB"), ("gibibytes", "GiB"), ("terrabytes", "TB"),
("tebibytes", "TiB"), ("petabytes", "PB"), ("pebibytes", "PiB")]
grid, self.data_edits = self.create_grid(units, 6)
prec = self.create_decplaces_layout("data")
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
# Set the text alignment for the LineEdits and connect edits to actions.
for i in self.data_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.data_text_changed)
i.textEdited.connect(self.update_data_edits)
# i.selectionChanged.connect(i.selectAll) # FIXME: selectall :(
# focusInEvent?
def create_length_tab(self, tab):
self.length = Length()
units = [("millimeters", "mm"), ("inches", "in"),
("centimeters", "cm"), ("feet", "ft"),
("meters", "m"), ("yards", "yd"),
("kilometers", "km"), ("miles", "mi")]
grid, self.length_edits = self.create_grid(units)
prec = self.create_decplaces_layout("length")
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
for i in self.length_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.length_text_changed)
i.textEdited[str].connect(self.update_length_edits)
def create_volume_tab(self, tab):
self.volume = Volume()
units = [("milliliters", "ml"), ("ounces", "oz"),
("centiliters", "cl"), ("pints", "pt"),
("liters", "l"), ("gallons", "gal"),
("kiloliters", "kl"), ("barrels", "bbl")]
grid, self.volume_edits = self.create_grid(units)
prec = self.create_decplaces_layout("volume")
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
for i in self.volume_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.volume_text_changed)
i.textEdited[str].connect(self.update_volume_edits)
def create_weight_tab(self, tab):
self.weight = Weight()
units = [("milligrams", "mg"), ("drams", "dr"),
("grams", "g"), ("ounces", "oz"),
("kilograms", "kg"), ("pounds", "lbs"),
("tons", "t"), ("ustons", "t (US)")]
grid, self.weight_edits = self.create_grid(units)
prec = self.create_decplaces_layout("weight")
# Patch it all together in a vertical layout.
layout = QtGui.QVBoxLayout(tab)
layout.addLayout(prec)
layout.addLayout(grid)
for i in self.weight_edits.values():
i.setAlignment(QtCore.Qt.AlignRight)
i.textEdited[str].connect(self.weight_text_changed)
i.textEdited[str].connect(self.update_weight_edits)
def create_caesarshift_layout(self):
"QLineEdit that allows adjusting of decimal places."
shift = SelectAllLineEdit()
shift.setFixedWidth(36)
shift.setAlignment(QtCore.Qt.AlignCenter)
shift.setText(str(self.caesar_shift))
shift.textEdited[str].connect(self.update_caesar_shift)
layout = QtGui.QHBoxLayout()
layout.addWidget(shift)
return layout
def create_decplaces_layout(self, unittype):
"QLineEdit that allows adjusting of decimal places."
prec = SelectAllLineEdit()
prec.setFixedWidth(36)
prec.setAlignment(QtCore.Qt.AlignCenter)
if unittype == "data":
prec.setText(str(self.data.decplaces))
prec.textEdited[str].connect(self.update_data_decplaces)
if unittype == "length":
prec.setText(str(self.length.decplaces))
prec.textEdited[str].connect(self.update_length_decplaces)
if unittype == "volume":
prec.setText(str(self.volume.decplaces))
prec.textEdited[str].connect(self.update_volume_decplaces)
if unittype == "weight":
prec.setText(str(self.weight.decplaces))
prec.textEdited[str].connect(self.update_weight_decplaces)
layout = QtGui.QHBoxLayout()
layout.addWidget(prec)
return layout
def create_color_layout(self):
button = QtGui.QPushButton("ColorPicker", self)
button.clicked.connect(self.show_color_picker)
self.frm = QtGui.QFrame(self)
self.frm.setGeometry(130, 22, 100, 100)
layout = QtGui.QHBoxLayout()
layout.addWidget(button)
return layout
def show_color_picker(self):
col = QtGui.QColorDialog.getColor()
#
# Prints the selected color as hex value to console.
if col.isValid():
print col.name()
def update_caesar_shift(self, text):
try:
self.caesar_shift = int(text)
self.update_caesar_edits()
except ValueError:
pass
def update_data_decplaces(self, text):
try:
self.data.decplaces = int(text)
self.update_data_edits()
except ValueError:
pass
def update_length_decplaces(self, text):
try:
self.length.decplaces = int(text)
self.update_length_edits()
except ValueError:
pass
def update_volume_decplaces(self, text):
try:
self.volume.decplaces = int(text)
self.update_volume_edits()
except ValueError:
pass
def update_weight_decplaces(self, text):
try:
self.weight.decplaces = int(text)
self.update_weight_edits()
except ValueError:
pass
def update_edits(self, unittype, edit):
"Update all QLineEdits of the unittype (e.g. data)."
for k, v in edit.items():
# Exclude the sender from being updated.
if v != self.sender():
text = getattr(unittype, k)
v.setText(text)
def update_base_edits(self):
"Update the values of all Base/Numbers QLineEdits"
for k, v in self.base_edits.items():
# Exclude the sender from being updated.
if v != self.sender():
dec = getattr(self.base, "_decimal")
text = self.base.from_decimal(dec, k)
v.setText(text)
def update_caesar_edits(self):
"Set the correct unit in conversion.py to the text we just received."
text = self.caesar_edits["input"].toPlainText()
output = self.caesar_edits["output"]
message = rot(str(text), self.caesar_shift)
output.setText(message)
def update_data_edits(self):
self.update_edits(self.data, self.data_edits)
def update_length_edits(self):
self.update_edits(self.length, self.length_edits)
def update_volume_edits(self):
self.update_edits(self.volume, self.volume_edits)
def update_weight_edits(self):
self.update_edits(self.weight, self.weight_edits)
def text_changed(self, text, unittype, edits):
"Set the correct unit in conversion.py to the text we just received."
for k, v in edits.items():
if v == self.sender():
unit = k
break
try:
setattr(unittype, unit, float(text))
except ValueError:
setattr(unittype, unit, 0)
def base_text_changed(self, text):
"When a Base/Numbers QLineEdit was changed, we pass its text along"
for k, v in self.base_edits.items():
if v == self.sender():
base = k
break
dec = self.base.to_decimal(text, base)
setattr(self.base, "_decimal", dec)
def data_text_changed(self, text):
self.text_changed(text, self.data, self.data_edits)
def length_text_changed(self, text):
self.text_changed(text, self.length, self.length_edits)
def volume_text_changed(self, text):
self.text_changed(text, self.volume, self.volume_edits)
def weight_text_changed(self, text):
self.text_changed(text, self.weight, self.weight_edits)
