def __init__(self, vocabularyController, symbolList):
self.vocabularyController = vocabularyController
self._view = MessagesDistributionView(self)
self.log = logging.getLogger(__name__)
self.symbols = symbolList
# Create buffer
self.double_buffer = None
colors = ["FF0000", "00FF00", "0000FF", "FFFF00", "FF00FF", "00FFFF", "000000",
"800000", "008000", "000080", "808000", "800080", "008080", "808080",
"C00000", "00C000", "0000C0", "C0C000", "C000C0", "00C0C0", "C0C0C0",
"400000", "004000", "000040", "404000", "400040", "004040", "404040",
"200000", "002000", "000020", "202000", "200020", "002020", "202020",
"600000", "006000", "000060", "606000", "600060", "006060", "606060",
"A00000", "00A000", "0000A0", "A0A000", "A000A0", "00A0A0", "A0A0A0",
"E00000", "00E000", "0000E0", "E0E000", "E000E0", "00E0E0", "E0E0E0"]
self.colorBySymbol = dict()
for i in range(0, len(self.symbols)):
s = self.symbols[i]
self.colorBySymbol[s.getID()] = colors[i]
self.dataPointBySymbol = dict()
self.scalesBySymbol = dict()
self.axisByFieldBySymbol = dict()
self.axisBySymbol = dict()
self.heightPerSymbol = 15
currentAxisForSymbol = 5
for symbol in self.symbols:
self.axisBySymbol[symbol.getID()] = currentAxisForSymbol
currentAxisForSymbol += self.heightPerSymbol
i = 0
resX = []
resY = []
maxX = 0
maxY = 0
current_i = 0
fieldAxis = []
for field in symbol.getExtendedFields():
cellsField = field.getUniqValuesByField()
maxField = 0
for cell in cellsField:
sizeCell = len(cell) / 2
if maxField is None or maxField < sizeCell:
maxField = sizeCell
current_i += maxField
fieldAxis.append(current_i)
self.axisByFieldBySymbol[symbol.getID()] = fieldAxis
for field in symbol.getExtendedFields():
maxCell = -1
for cell in field.getUniqValuesByField():
for j in range(len(cell) / 2):
if (i + j) > maxX:
maxX = (i + j)
resX.append(i + j)
valY = int(cell[j * 2:j * 2 + 2], 16)
if valY > maxY:
maxY = valY
resY.append(valY)
if len(cell) / 2 > maxCell:
maxCell = len(cell) / 2
i += maxCell
self.dataPointBySymbol[symbol.getID()] = ([resX, resY])
scaleX = float(100) / float(maxX)
scaleY = float(100) / float(maxY)
self.scalesBySymbol[symbol.getID()] = (scaleX, scaleY)
self.low_y = currentAxisForSymbol
def __init__(self, vocabularyController, symbolList):
self.vocabularyController = vocabularyController
self._view = MessagesDistributionView(self)
self.log = logging.getLogger(__name__)
self.symbols = symbolList
# Create buffer
self.double_buffer = None
colors = [
"FF0000", "00FF00", "0000FF", "FFFF00", "FF00FF", "00FFFF",
"000000", "800000", "008000", "000080", "808000", "800080",
"008080", "808080", "C00000", "00C000", "0000C0", "C0C000",
"C000C0", "00C0C0", "C0C0C0", "400000", "004000", "000040",
"404000", "400040", "004040", "404040", "200000", "002000",
"000020", "202000", "200020", "002020", "202020", "600000",
"006000", "000060", "606000", "600060", "006060", "606060",
"A00000", "00A000", "0000A0", "A0A000", "A000A0", "00A0A0",
"A0A0A0", "E00000", "00E000", "0000E0", "E0E000", "E000E0",
"00E0E0", "E0E0E0"
]
self.colorBySymbol = dict()
for i in range(0, len(self.symbols)):
s = self.symbols[i]
self.colorBySymbol[s.getID()] = colors[i]
self.dataPointBySymbol = dict()
self.scalesBySymbol = dict()
self.axisByFieldBySymbol = dict()
self.axisBySymbol = dict()
self.heightPerSymbol = 15
currentAxisForSymbol = 5
for symbol in self.symbols:
self.axisBySymbol[symbol.getID()] = currentAxisForSymbol
currentAxisForSymbol += self.heightPerSymbol
i = 0
resX = []
resY = []
maxX = 0
maxY = 0
current_i = 0
fieldAxis = []
for field in symbol.getExtendedFields():
cellsField = field.getUniqValuesByField()
maxField = 0
for cell in cellsField:
sizeCell = len(cell) / 2
if maxField is None or maxField < sizeCell:
maxField = sizeCell
current_i += maxField
fieldAxis.append(current_i)
self.axisByFieldBySymbol[symbol.getID()] = fieldAxis
for field in symbol.getExtendedFields():
maxCell = -1
for cell in field.getUniqValuesByField():
for j in range(len(cell) / 2):
if (i + j) > maxX:
maxX = (i + j)
resX.append(i + j)
valY = int(cell[j * 2:j * 2 + 2], 16)
if valY > maxY:
maxY = valY
resY.append(valY)
if len(cell) / 2 > maxCell:
maxCell = len(cell) / 2
i += maxCell
self.dataPointBySymbol[symbol.getID()] = ([resX, resY])
scaleX = float(100) / float(maxX)
scaleY = float(100) / float(maxY)
self.scalesBySymbol[symbol.getID()] = (scaleX, scaleY)
self.low_y = currentAxisForSymbol
class MessagesDistributionController(object):
#+----------------------------------------------
#| Constructor:
#+----------------------------------------------
def __init__(self, vocabularyController, symbolList):
self.vocabularyController = vocabularyController
self._view = MessagesDistributionView(self)
self.log = logging.getLogger(__name__)
self.symbols = symbolList
# Create buffer
self.double_buffer = None
colors = ["FF0000", "00FF00", "0000FF", "FFFF00", "FF00FF", "00FFFF", "000000",
"800000", "008000", "000080", "808000", "800080", "008080", "808080",
"C00000", "00C000", "0000C0", "C0C000", "C000C0", "00C0C0", "C0C0C0",
"400000", "004000", "000040", "404000", "400040", "004040", "404040",
"200000", "002000", "000020", "202000", "200020", "002020", "202020",
"600000", "006000", "000060", "606000", "600060", "006060", "606060",
"A00000", "00A000", "0000A0", "A0A000", "A000A0", "00A0A0", "A0A0A0",
"E00000", "00E000", "0000E0", "E0E000", "E000E0", "00E0E0", "E0E0E0"]
self.colorBySymbol = dict()
for i in range(0, len(self.symbols)):
s = self.symbols[i]
self.colorBySymbol[s.getID()] = colors[i]
self.dataPointBySymbol = dict()
self.scalesBySymbol = dict()
self.axisByFieldBySymbol = dict()
self.axisBySymbol = dict()
self.heightPerSymbol = 15
currentAxisForSymbol = 5
for symbol in self.symbols:
self.axisBySymbol[symbol.getID()] = currentAxisForSymbol
currentAxisForSymbol += self.heightPerSymbol
i = 0
resX = []
resY = []
maxX = 0
maxY = 0
current_i = 0
fieldAxis = []
for field in symbol.getExtendedFields():
cellsField = field.getUniqValuesByField()
maxField = 0
for cell in cellsField:
sizeCell = len(cell) / 2
if maxField is None or maxField < sizeCell:
maxField = sizeCell
current_i += maxField
fieldAxis.append(current_i)
self.axisByFieldBySymbol[symbol.getID()] = fieldAxis
for field in symbol.getExtendedFields():
maxCell = -1
for cell in field.getUniqValuesByField():
for j in range(len(cell) / 2):
if (i + j) > maxX:
maxX = (i + j)
resX.append(i + j)
valY = int(cell[j * 2:j * 2 + 2], 16)
if valY > maxY:
maxY = valY
resY.append(valY)
if len(cell) / 2 > maxCell:
maxCell = len(cell) / 2
i += maxCell
self.dataPointBySymbol[symbol.getID()] = ([resX, resY])
scaleX = float(100) / float(maxX)
scaleY = float(100) / float(maxY)
self.scalesBySymbol[symbol.getID()] = (scaleX, scaleY)
self.low_y = currentAxisForSymbol
@property
def view(self):
return self._view
def run(self):
if self.vocabularyController.getCurrentProject() is None:
logging.info("Open a project before...")
return
self._view.show()
def closeButton_clicked_cb(self, widget):
self._view.destroy()
def on_configure(self, widget, event, data=None):
"""Configure the double buffer based on size of the widget"""
# Destroy previous buffer
if self.double_buffer is not None:
self.double_buffer.finish()
self.double_buffer = None
# Create a new buffer
self.double_buffer = cairo.ImageSurface(cairo.FORMAT_ARGB32,
widget.get_allocated_width(),
widget.get_allocated_height())
# Initialize the buffer
self.draw()
return False
def draw(self):
if self.double_buffer is None:
self.log.error("Impossible to draw relations since the buffer is invalid (set to None).")
cc = cairo.Context(self.double_buffer)
# Draw a white background
cc.set_source_rgb(1, 1, 1)
# Draw the symbols
for symbol in self.symbols:
self.draw_symbol(symbol, cc)
# Draw interface (grids and scales)
self.draw_interface(cc)
self.double_buffer.flush()
def draw_interface(self, cc):
"""Draw the interface on the initialized cairo context
@var cc: the initialized Cairo Context"""
line_width = 1.0
line_width, notused = cc.device_to_user(line_width, 0.0)
cc.select_font_face('Sans')
cc.set_font_size(15)
cc.set_source_rgb(0, 0, 0)
cc.move_to(80, 20)
cc.set_line_width(line_width)
cc.line_to(self.double_buffer.get_width() - 20, 20)
cc.line_to(self.double_buffer.get_width() - 20, self.double_buffer.get_height() - self.low_y)
cc.line_to(self.double_buffer.get_width() - 20, self.double_buffer.get_height() - self.low_y)
cc.line_to(80, self.double_buffer.get_height() - self.low_y)
cc.line_to(80, 20)
# Show different values 0 and 255
cc.set_font_size(8)
cc.move_to(60, 25)
cc.show_text("255")
cc.move_to(70, self.double_buffer.get_height() - self.low_y)
cc.show_text("0")
cc.stroke()
cc.move_to(20, (self.double_buffer.get_height() - self.low_y) / 2 + 10)
cc.show_text("Bytes values")
# Show percent (0%, 100%)
cc.move_to(75, self.double_buffer.get_height() - self.low_y + 8)
cc.show_text("0%")
cc.move_to(self.double_buffer.get_width() - 35, self.double_buffer.get_height() - self.low_y + 8)
cc.show_text("100%")
cc.move_to((self.double_buffer.get_width() - 20) / 2, self.double_buffer.get_height() - self.low_y + 8)
cc.show_text("Bytes")
def draw_symbol(self, symbol, cc):
i = 0
hexColor = self.colorBySymbol[symbol.getID()]
dec1Color = int(hexColor[0:2], 16)
dec2Color = int(hexColor[2:4], 16)
dec3Color = int(hexColor[4:6], 16)
x_mul = float(self.double_buffer.get_width() - 100) / 100
y_mul = float(self.double_buffer.get_height() - 20 - self.low_y) / 100
(x_scale, y_scale) = self.scalesBySymbol[symbol.getID()]
y_axis_symbol = self.double_buffer.get_height() - self.axisBySymbol[symbol.getID()]
symbolShortName = symbol.getName()
if len(symbolShortName) > 15:
symbolShortName = symbolShortName[:12] + "..."
cc.set_source_rgb(dec1Color, dec2Color, dec3Color)
cc.move_to(2, y_axis_symbol + 5)
cc.show_text(symbolShortName)
# Draw symbol names and fields info
fieldsAxis = self.axisByFieldBySymbol[symbol.getID()]
x = 80
cc.move_to(x, y_axis_symbol)
for axis in fieldsAxis:
cc.move_to(x, y_axis_symbol)
x = 80 + (axis * x_scale * x_mul)
cc.line_to(x, y_axis_symbol)
cc.move_to(x, y_axis_symbol - 5)
cc.line_to(x, y_axis_symbol + 5)
cc.move_to(x, y_axis_symbol)
cc.set_source_rgb(dec1Color, dec2Color, dec3Color)
cc.stroke()
(xval, yval) = self.dataPointBySymbol[symbol.getID()]
for i in range(0, len(xval)):
x = 80 + (xval[i] * x_scale * x_mul)
y = 20 + ((255 - yval[i]) * y_scale * y_mul)
cc.arc(x, y, 1, 0, 2 * math.pi)
cc.set_source_rgb(1, 1, 1)
cc.fill_preserve()
cc.set_source_rgb(dec1Color, dec2Color, dec3Color)
cc.stroke()
def on_draw(self, widget, cr):
"""Throw double buffer into widget drawable"""
if self.double_buffer is not None:
cr.set_source_surface(self.double_buffer, 0.0, 0.0)
cr.paint()
else:
print('Invalid double buffer')
return True
class MessagesDistributionController(object):
#+----------------------------------------------
#| Constructor:
#+----------------------------------------------
def __init__(self, vocabularyController, symbolList):
self.vocabularyController = vocabularyController
self._view = MessagesDistributionView(self)
self.log = logging.getLogger(__name__)
self.symbols = symbolList
# Create buffer
self.double_buffer = None
colors = [
"FF0000", "00FF00", "0000FF", "FFFF00", "FF00FF", "00FFFF",
"000000", "800000", "008000", "000080", "808000", "800080",
"008080", "808080", "C00000", "00C000", "0000C0", "C0C000",
"C000C0", "00C0C0", "C0C0C0", "400000", "004000", "000040",
"404000", "400040", "004040", "404040", "200000", "002000",
"000020", "202000", "200020", "002020", "202020", "600000",
"006000", "000060", "606000", "600060", "006060", "606060",
"A00000", "00A000", "0000A0", "A0A000", "A000A0", "00A0A0",
"A0A0A0", "E00000", "00E000", "0000E0", "E0E000", "E000E0",
"00E0E0", "E0E0E0"
]
self.colorBySymbol = dict()
for i in range(0, len(self.symbols)):
s = self.symbols[i]
self.colorBySymbol[s.getID()] = colors[i]
self.dataPointBySymbol = dict()
self.scalesBySymbol = dict()
self.axisByFieldBySymbol = dict()
self.axisBySymbol = dict()
self.heightPerSymbol = 15
currentAxisForSymbol = 5
for symbol in self.symbols:
self.axisBySymbol[symbol.getID()] = currentAxisForSymbol
currentAxisForSymbol += self.heightPerSymbol
i = 0
resX = []
resY = []
maxX = 0
maxY = 0
current_i = 0
fieldAxis = []
for field in symbol.getExtendedFields():
cellsField = field.getUniqValuesByField()
maxField = 0
for cell in cellsField:
sizeCell = len(cell) / 2
if maxField is None or maxField < sizeCell:
maxField = sizeCell
current_i += maxField
fieldAxis.append(current_i)
self.axisByFieldBySymbol[symbol.getID()] = fieldAxis
for field in symbol.getExtendedFields():
maxCell = -1
for cell in field.getUniqValuesByField():
for j in range(len(cell) / 2):
if (i + j) > maxX:
maxX = (i + j)
resX.append(i + j)
valY = int(cell[j * 2:j * 2 + 2], 16)
if valY > maxY:
maxY = valY
resY.append(valY)
if len(cell) / 2 > maxCell:
maxCell = len(cell) / 2
i += maxCell
self.dataPointBySymbol[symbol.getID()] = ([resX, resY])
scaleX = float(100) / float(maxX)
scaleY = float(100) / float(maxY)
self.scalesBySymbol[symbol.getID()] = (scaleX, scaleY)
self.low_y = currentAxisForSymbol
@property
def view(self):
return self._view
def run(self):
if self.vocabularyController.getCurrentProject() is None:
logging.info("Open a project before...")
return
self._view.show()
def closeButton_clicked_cb(self, widget):
self._view.destroy()
def on_configure(self, widget, event, data=None):
"""Configure the double buffer based on size of the widget"""
# Destroy previous buffer
if self.double_buffer is not None:
self.double_buffer.finish()
self.double_buffer = None
# Create a new buffer
self.double_buffer = cairo.ImageSurface(cairo.FORMAT_ARGB32,
widget.get_allocated_width(),
widget.get_allocated_height())
# Initialize the buffer
self.draw()
return False
def draw(self):
if self.double_buffer is None:
self.log.error(
"Impossible to draw relations since the buffer is invalid (set to None)."
)
cc = cairo.Context(self.double_buffer)
# Draw a white background
cc.set_source_rgb(1, 1, 1)
# Draw the symbols
for symbol in self.symbols:
self.draw_symbol(symbol, cc)
# Draw interface (grids and scales)
self.draw_interface(cc)
self.double_buffer.flush()
def draw_interface(self, cc):
"""Draw the interface on the initialized cairo context
@var cc: the initialized Cairo Context"""
line_width = 1.0
line_width, notused = cc.device_to_user(line_width, 0.0)
cc.select_font_face('Sans')
cc.set_font_size(15)
cc.set_source_rgb(0, 0, 0)
cc.move_to(80, 20)
cc.set_line_width(line_width)
cc.line_to(self.double_buffer.get_width() - 20, 20)
cc.line_to(self.double_buffer.get_width() - 20,
self.double_buffer.get_height() - self.low_y)
cc.line_to(self.double_buffer.get_width() - 20,
self.double_buffer.get_height() - self.low_y)
cc.line_to(80, self.double_buffer.get_height() - self.low_y)
cc.line_to(80, 20)
# Show different values 0 and 255
cc.set_font_size(8)
cc.move_to(60, 25)
cc.show_text("255")
cc.move_to(70, self.double_buffer.get_height() - self.low_y)
cc.show_text("0")
cc.stroke()
cc.move_to(20, (self.double_buffer.get_height() - self.low_y) / 2 + 10)
cc.show_text("Bytes values")
# Show percent (0%, 100%)
cc.move_to(75, self.double_buffer.get_height() - self.low_y + 8)
cc.show_text("0%")
cc.move_to(self.double_buffer.get_width() - 35,
self.double_buffer.get_height() - self.low_y + 8)
cc.show_text("100%")
cc.move_to((self.double_buffer.get_width() - 20) / 2,
self.double_buffer.get_height() - self.low_y + 8)
cc.show_text("Bytes")
def draw_symbol(self, symbol, cc):
i = 0
hexColor = self.colorBySymbol[symbol.getID()]
dec1Color = int(hexColor[0:2], 16)
dec2Color = int(hexColor[2:4], 16)
dec3Color = int(hexColor[4:6], 16)
x_mul = float(self.double_buffer.get_width() - 100) / 100
y_mul = float(self.double_buffer.get_height() - 20 - self.low_y) / 100
(x_scale, y_scale) = self.scalesBySymbol[symbol.getID()]
y_axis_symbol = self.double_buffer.get_height() - self.axisBySymbol[
symbol.getID()]
symbolShortName = symbol.getName()
if len(symbolShortName) > 15:
symbolShortName = symbolShortName[:12] + "..."
cc.set_source_rgb(dec1Color, dec2Color, dec3Color)
cc.move_to(2, y_axis_symbol + 5)
cc.show_text(symbolShortName)
# Draw symbol names and fields info
fieldsAxis = self.axisByFieldBySymbol[symbol.getID()]
x = 80
cc.move_to(x, y_axis_symbol)
for axis in fieldsAxis:
cc.move_to(x, y_axis_symbol)
x = 80 + (axis * x_scale * x_mul)
cc.line_to(x, y_axis_symbol)
cc.move_to(x, y_axis_symbol - 5)
cc.line_to(x, y_axis_symbol + 5)
cc.move_to(x, y_axis_symbol)
cc.set_source_rgb(dec1Color, dec2Color, dec3Color)
cc.stroke()
(xval, yval) = self.dataPointBySymbol[symbol.getID()]
for i in range(0, len(xval)):
x = 80 + (xval[i] * x_scale * x_mul)
y = 20 + ((255 - yval[i]) * y_scale * y_mul)
cc.arc(x, y, 1, 0, 2 * math.pi)
cc.set_source_rgb(1, 1, 1)
cc.fill_preserve()
cc.set_source_rgb(dec1Color, dec2Color, dec3Color)
cc.stroke()
def on_draw(self, widget, cr):
"""Throw double buffer into widget drawable"""
if self.double_buffer is not None:
cr.set_source_surface(self.double_buffer, 0.0, 0.0)
cr.paint()
else:
print('Invalid double buffer')
return True
