def __init__(self, jd): self.eventsData = [] #self.eventsDataIsSet = False ## not used self.pluginsText = '' ### self.jd = jd date = core.jd_to_primary(jd) self.year, self.month, self.day = date self.weekDay = core.jwday(jd) self.weekNum = core.getWeekNumber(self.year, self.month, self.day) #self.weekNumNeg = self.weekNum + 1 - core.getYearWeeksCount(self.year) self.weekNumNeg = self.weekNum - int( calTypes.primaryModule().avgYearLen / 7) self.holiday = (self.weekDay in core.holidayWeekDays) ################### self.dates = [ date if mode == calTypes.primary else jd_to(jd, mode) for mode in range(len(calTypes)) ] ''' self.dates = dict([ ( mode, date if mode==calTypes.primary else jd_to(jd, mode) ) for mode in calTypes.active ]) ''' ################### for k in core.plugIndex: plug = core.allPlugList[k] if plug.enable: try: plug.update_cell(self) except: myRaiseTback() ################### #t0 = now() self.eventsData = event_lib.getDayOccurrenceData( jd, eventGroups) ## here? FIXME
def __init__(self, jd): self.eventsData = [] #self.eventsDataIsSet = False ## not used self.pluginsText = '' ### self.jd = jd date = core.jd_to_primary(jd) self.year, self.month, self.day = date self.weekDay = core.jwday(jd) self.weekNum = core.getWeekNumber(self.year, self.month, self.day) #self.weekNumNeg = self.weekNum + 1 - core.getYearWeeksCount(self.year) self.weekNumNeg = self.weekNum - int(calTypes.primaryModule().avgYearLen / 7) self.holiday = (self.weekDay in core.holidayWeekDays) ################### self.dates = [ date if mode==calTypes.primary else jd_to(jd, mode) for mode in range(len(calTypes)) ] ''' self.dates = dict([ ( mode, date if mode==calTypes.primary else jd_to(jd, mode) ) for mode in calTypes.active ]) ''' ################### for k in core.plugIndex: plug = core.allPlugList[k] if plug.enable: try: plug.update_cell(self) except: myRaiseTback() ################### #t0 = now() self.eventsData = event_lib.getDayOccurrenceData(jd, eventGroups)## here? FIXME
def calcTimeLineData(timeStart, timeWidth, pixelPerSec, borderTm): timeEnd = timeStart + timeWidth jd0 = getJdFromEpoch(timeStart) jd1 = getJdFromEpoch(timeEnd) widthDays = float(timeWidth) / dayLen dayPixel = dayLen * pixelPerSec ## px #print('dayPixel = %s px'%dayPixel) getEPos = lambda epoch: (epoch-timeStart)*pixelPerSec getJPos = lambda jd: (getEpochFromJd(jd)-timeStart)*pixelPerSec ######################## Holidays holidays = [] if changeHolidayBg and changeHolidayBgMinDays < widthDays < changeHolidayBgMaxDays: for jd in getHolidaysJdList(jd0, jd1+1): holidays.append(getJPos(jd)) ######################## Ticks ticks = [] tickEpochList = [] minStep = minorStepMin / pixelPerSec ## second ################# year0, month0, day0 = jd_to_primary(jd0) year1, month1, day1 = jd_to_primary(jd1) ############ Year minStepYear = minStep // minYearLenSec ## years ## int or iceil? yearPixel = minYearLenSec * pixelPerSec ## pixels for (year, size) in getYearRangeTickValues(year0, year1+1, minStepYear): tmEpoch = getEpochFromDate(year, 1, 1, calTypes.primary) if tmEpoch in tickEpochList: continue unitSize = size * yearPixel label = formatYear(year) if unitSize >= majorStepMin else '' ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, )) tickEpochList.append(tmEpoch) ############ Month monthPixel = avgMonthLen * pixelPerSec ## px minMonthUnit = float(minStep) / avgMonthLen ## month if minMonthUnit <= 3: for ym in range(year0*12+month0-1, year1*12+month1-1+1):## +1 FIXME if ym%3==0: monthUnit = 3 else: monthUnit = 1 if monthUnit < minMonthUnit: continue y, m = divmod(ym, 12) ; m+=1 tmEpoch = getEpochFromDate(y, m, 1, calTypes.primary) if tmEpoch in tickEpochList: continue unitSize = monthPixel * monthUnit ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, getMonthName(calTypes.primary, m) if unitSize >= majorStepMin else '', )) tickEpochList.append(tmEpoch) ################ if showWeekStart and showWeekStartMinDays < widthDays < showWeekStartMaxDays: wd0 = jwday(jd0) jdw0 = jd0 + (core.firstWeekDay - wd0) % 7 unitSize = dayPixel * 7 if unitSize < majorStepMin: label = '' else: label = core.weekDayNameAb[core.firstWeekDay] for jd in range(jdw0, jd1+1, 7): tmEpoch = getEpochFromJd(jd) ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, color=weekStartTickColor, )) #tickEpochList.append(tmEpoch) ############ Day of Month hasMonthName = timeWidth < 5 * dayLen minDayUnit = float(minStep) / dayLen ## days if minDayUnit <= 15: for jd in range(jd0, jd1+1): tmEpoch = getEpochFromJd(jd) if tmEpoch in tickEpochList: continue year, month, day = jd_to_primary(jd) if day==16: dayUnit = 15 elif day in (6, 11, 21, 26): dayUnit = 5 else: dayUnit = 1 if dayUnit < minDayUnit: continue unitSize = dayPixel*dayUnit if unitSize < majorStepMin: label = '' elif hasMonthName: label = _(day) + ' ' + getMonthName(calTypes.primary, month) else: label = _(day) ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, )) tickEpochList.append(tmEpoch) ############ Hour, Minute, Second for stepUnit, stepValue in unitSteps: stepSec = stepUnit*stepValue if stepSec < minStep: break unitSize = stepSec*pixelPerSec firstEpoch = iceil(timeStart/stepSec)*stepSec for tmEpoch in range(firstEpoch, iceil(timeEnd), stepSec): if tmEpoch in tickEpochList: continue if unitSize < majorStepMin: label = '' else: jd, h, m, s = getJhmsFromEpoch(tmEpoch) if s==0: label = '%s:%s'%( _(h), _(m, fillZero=2), ) else:# elif timeWidth < 60 or stepSec < 30: label = LRM + '%s"'%_(s, fillZero=2) #else: # label = '%s:%s:%s'%( # _(h), # _(m, fillZero=2), # _(s, fillZero=2), # ) ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, )) tickEpochList.append(tmEpoch) ######################## Event Boxes data = { 'holidays': holidays, 'ticks': ticks, 'boxes': [], } ### data['boxes'] = calcEventBoxes( timeStart, timeEnd, pixelPerSec, borderTm, ) ### return data
def __init__(self, showDesc=False): gtk.Window.__init__(self) self.initVars() ud.windowList.appendItem(self) ### self.set_title(_('Search Events')) self.connect('delete-event', self.closed) self.connect('key-press-event', self.keyPress) ### self.vbox = gtk.VBox() self.add(self.vbox) ###### frame = TextFrame() frame.set_label(_('Text')) frame.set_border_width(5) pack(self.vbox, frame) self.textInput = frame ## hbox = gtk.HBox() self.textCSensCheck = gtk.CheckButton(_('Case Sensitive')) self.textCSensCheck.set_active(False) ## FIXME pack(hbox, self.textCSensCheck) pack(self.vbox, hbox) ###### jd = core.getCurrentJd() year, month, day = jd_to_primary(jd) ###### hbox = gtk.HBox() frame = gtk.Frame(_('Time')) frame.set_border_width(5) vboxIn = gtk.VBox() sgroup = gtk.SizeGroup(gtk.SIZE_GROUP_HORIZONTAL) #### hboxIn = gtk.HBox() ## self.timeFromCheck = gtk.CheckButton(_('From')) sgroup.add_widget(self.timeFromCheck) pack(hboxIn, self.timeFromCheck) pack(hboxIn, gtk.Label(' ')) ## self.timeFromInput = DateTimeButton() self.timeFromInput.set_value(((year, 1, 1), (0, 0, 0))) pack(hboxIn, self.timeFromInput) ## pack(vboxIn, hboxIn) #### hboxIn = gtk.HBox() ## self.timeToCheck = gtk.CheckButton(_('To')) sgroup.add_widget(self.timeToCheck) pack(hboxIn, self.timeToCheck) pack(hboxIn, gtk.Label(' ')) ## self.timeToInput = DateTimeButton() self.timeToInput.set_value(((year+1, 1, 1), (0, 0, 0))) pack(hboxIn, self.timeToInput) ## pack(vboxIn, hboxIn) ## self.timeFromCheck.connect('clicked', self.updateTimeFromSensitive) self.timeToCheck.connect('clicked', self.updateTimeToSensitive) self.updateTimeFromSensitive() self.updateTimeToSensitive() #### vboxIn.set_border_width(5) frame.add(vboxIn) pack(hbox, frame) pack(hbox, gtk.Label(''), 1, 1) pack(self.vbox, hbox) ###### hbox = gtk.HBox() hbox.set_border_width(5) self.modifiedFromCheck = gtk.CheckButton(_('Modified From')) pack(hbox, self.modifiedFromCheck) pack(hbox, gtk.Label(' ')) self.modifiedFromInput = DateTimeButton() self.modifiedFromInput.set_value(((year, 1, 1), (0, 0, 0))) pack(hbox, self.modifiedFromInput) ## self.modifiedFromCheck.connect('clicked', self.updateModifiedFromSensitive) self.updateModifiedFromSensitive() pack(self.vbox, hbox) ###### hbox = gtk.HBox() hbox.set_border_width(5) self.typeCheck = gtk.CheckButton(_('Event Type')) pack(hbox, self.typeCheck) pack(hbox, gtk.Label(' ')) ## combo = gtk.combo_box_new_text() for cls in event_lib.classes.event: combo.append_text(cls.desc) combo.set_active(0) pack(hbox, combo) self.typeCombo = combo ## self.typeCheck.connect('clicked', self.updateTypeSensitive) self.updateTypeSensitive() pack(self.vbox, hbox) ###### hbox = gtk.HBox() hbox.set_border_width(5) self.groupCheck = gtk.CheckButton(_('Group')) pack(hbox, self.groupCheck) pack(hbox, gtk.Label(' ')) self.groupCombo = SingleGroupComboBox() pack(hbox, self.groupCombo) ## self.groupCheck.connect('clicked', self.updateGroupSensitive) self.updateGroupSensitive() pack(self.vbox, hbox) ###### bbox = gtk.HButtonBox() bbox.set_layout(gtk.BUTTONBOX_START) bbox.set_border_width(5) searchButton = gtk.Button() searchButton.set_label(_('_Search')) searchButton.set_image(gtk.image_new_from_stock(gtk.STOCK_FIND, gtk.ICON_SIZE_BUTTON)) searchButton.connect('clicked', self.searchClicked) bbox.add(searchButton) pack(self.vbox, bbox) ###### treev = gtk.TreeView() trees = gtk.TreeStore(int, int, str, gdk.Pixbuf, str, str) ## gid, eid, group_name, icon, summary, description treev.set_model(trees) treev.connect('row-activated', self.rowActivated) treev.set_headers_clickable(True) ### self.colGroup = gtk.TreeViewColumn(_('Group'), gtk.CellRendererText(), text=2) self.colGroup.set_resizable(True) self.colGroup.set_sort_column_id(2) treev.append_column(self.colGroup) ### self.colIcon = gtk.TreeViewColumn() cell = gtk.CellRendererPixbuf() pack(self.colIcon, cell) self.colIcon.add_attribute(cell, 'pixbuf', 3) #self.colIcon.set_sort_column_id(3)## FIXME treev.append_column(self.colIcon) ### self.colSummary = gtk.TreeViewColumn(_('Summary'), gtk.CellRendererText(), text=4) self.colSummary.set_resizable(True) self.colSummary.set_sort_column_id(4) treev.append_column(self.colSummary) ### self.colDesc = gtk.TreeViewColumn(_('Description'), gtk.CellRendererText(), text=5) self.colDesc.set_sort_column_id(5) self.colDesc.set_visible(showDesc) treev.append_column(self.colDesc) ### trees.set_sort_func(2, self.sort_func_group) ###### swin = gtk.ScrolledWindow() swin.set_policy(gtk.POLICY_AUTOMATIC, gtk.POLICY_AUTOMATIC) swin.add(treev) #### vbox = gtk.VBox(spacing=5) vbox.set_border_width(5) ### topHbox = gtk.HBox() self.resultLabel = gtk.Label('') pack(topHbox, self.resultLabel) pack(topHbox, gtk.Label(''), 1, 1) pack(vbox, topHbox) #### columnBox = gtk.HBox(spacing=5) pack(columnBox, gtk.Label(_('Columns')+': ')) ## check = gtk.CheckButton(_('Group')) check.set_active(True) check.connect('clicked', lambda w: self.colGroup.set_visible(w.get_active())) pack(columnBox, check) ## check = gtk.CheckButton(_('Icon')) check.set_active(True) check.connect('clicked', lambda w: self.colIcon.set_visible(w.get_active())) pack(columnBox, check) ## check = gtk.CheckButton(_('Summary')) check.set_active(True) check.connect('clicked', lambda w: self.colSummary.set_visible(w.get_active())) pack(columnBox, check) ## check = gtk.CheckButton(_('Description')) check.set_active(showDesc) check.connect('clicked', lambda w: self.colDesc.set_visible(w.get_active())) pack(columnBox, check) ## pack(vbox, columnBox) #### pack(vbox, swin, 1, 1) ## frame = gtk.Frame(_('Search Results')) frame.set_border_width(10) frame.add(vbox) ## pack(self.vbox, frame, 1, 1) ### bbox2 = gtk.HButtonBox() bbox2.set_layout(gtk.BUTTONBOX_END) bbox2.set_border_width(10) closeButton = gtk.Button() closeButton.set_label(_('_Close')) closeButton.set_image(gtk.image_new_from_stock(gtk.STOCK_CLOSE, gtk.ICON_SIZE_BUTTON)) closeButton.connect('clicked', self.closed) bbox2.add(closeButton) pack(self.vbox, bbox2) ###### self.treev = treev self.trees = trees self.vbox.show_all()
def __init__(self, showDesc=False): gtk.Window.__init__(self) self.initVars() ud.windowList.appendItem(self) ### self.set_title(_('Search Events')) self.connect('delete-event', self.closed) self.connect('key-press-event', self.keyPress) ### self.vbox = gtk.VBox() self.add(self.vbox) ###### frame = TextFrame() frame.set_label(_('Text')) frame.set_border_width(5) pack(self.vbox, frame) self.textInput = frame ## hbox = gtk.HBox() self.textCSensCheck = gtk.CheckButton(_('Case Sensitive')) self.textCSensCheck.set_active(False) ## FIXME pack(hbox, self.textCSensCheck) pack(self.vbox, hbox) ###### jd = core.getCurrentJd() year, month, day = jd_to_primary(jd) ###### hbox = gtk.HBox() frame = gtk.Frame(_('Time')) frame.set_border_width(5) vboxIn = gtk.VBox() sgroup = gtk.SizeGroup(gtk.SIZE_GROUP_HORIZONTAL) #### hboxIn = gtk.HBox() ## self.timeFromCheck = gtk.CheckButton(_('From')) sgroup.add_widget(self.timeFromCheck) pack(hboxIn, self.timeFromCheck) pack(hboxIn, gtk.Label(' ')) ## self.timeFromInput = DateTimeButton() self.timeFromInput.set_value(((year, 1, 1), (0, 0, 0))) pack(hboxIn, self.timeFromInput) ## pack(vboxIn, hboxIn) #### hboxIn = gtk.HBox() ## self.timeToCheck = gtk.CheckButton(_('To')) sgroup.add_widget(self.timeToCheck) pack(hboxIn, self.timeToCheck) pack(hboxIn, gtk.Label(' ')) ## self.timeToInput = DateTimeButton() self.timeToInput.set_value(((year+1, 1, 1), (0, 0, 0))) pack(hboxIn, self.timeToInput) ## pack(vboxIn, hboxIn) ## self.timeFromCheck.connect('clicked', self.updateTimeFromSensitive) self.timeToCheck.connect('clicked', self.updateTimeToSensitive) self.updateTimeFromSensitive() self.updateTimeToSensitive() #### vboxIn.set_border_width(5) frame.add(vboxIn) pack(hbox, frame) pack(hbox, gtk.Label(''), 1, 1) pack(self.vbox, hbox) ###### hbox = gtk.HBox() hbox.set_border_width(5) self.modifiedFromCheck = gtk.CheckButton(_('Modified From')) pack(hbox, self.modifiedFromCheck) pack(hbox, gtk.Label(' ')) self.modifiedFromInput = DateTimeButton() self.modifiedFromInput.set_value(((year, 1, 1), (0, 0, 0))) pack(hbox, self.modifiedFromInput) ## self.modifiedFromCheck.connect('clicked', self.updateModifiedFromSensitive) self.updateModifiedFromSensitive() pack(self.vbox, hbox) ###### hbox = gtk.HBox() hbox.set_border_width(5) self.typeCheck = gtk.CheckButton(_('Event Type')) pack(hbox, self.typeCheck) pack(hbox, gtk.Label(' ')) ## combo = gtk.combo_box_new_text() for cls in event_lib.classes.event: combo.append_text(cls.desc) combo.set_active(0) pack(hbox, combo) self.typeCombo = combo ## self.typeCheck.connect('clicked', self.updateTypeSensitive) self.updateTypeSensitive() pack(self.vbox, hbox) ###### hbox = gtk.HBox() hbox.set_border_width(5) self.groupCheck = gtk.CheckButton(_('Group')) pack(hbox, self.groupCheck) pack(hbox, gtk.Label(' ')) self.groupCombo = SingleGroupComboBox() pack(hbox, self.groupCombo) ## self.groupCheck.connect('clicked', self.updateGroupSensitive) self.updateGroupSensitive() pack(self.vbox, hbox) ###### bbox = gtk.HButtonBox() bbox.set_layout(gtk.BUTTONBOX_START) bbox.set_border_width(5) searchButton = gtk.Button() searchButton.set_label(_('_Search')) searchButton.set_image(gtk.image_new_from_stock(gtk.STOCK_FIND, gtk.ICON_SIZE_BUTTON)) searchButton.connect('clicked', self.searchClicked) bbox.add(searchButton) pack(self.vbox, bbox) ###### treev = gtk.TreeView() trees = gtk.TreeStore(int, int, str, gdk.Pixbuf, str, str) ## gid, eid, group_name, icon, summary, description treev.set_model(trees) treev.connect('button-press-event', self.treevButtonPress) treev.connect('row-activated', self.rowActivated) treev.connect('key-press-event', self.treevKeyPress) treev.set_headers_clickable(True) ### self.colGroup = gtk.TreeViewColumn(_('Group'), gtk.CellRendererText(), text=2) self.colGroup.set_resizable(True) self.colGroup.set_sort_column_id(2) treev.append_column(self.colGroup) ### self.colIcon = gtk.TreeViewColumn() cell = gtk.CellRendererPixbuf() pack(self.colIcon, cell) self.colIcon.add_attribute(cell, 'pixbuf', 3) #self.colIcon.set_sort_column_id(3)## FIXME treev.append_column(self.colIcon) ### self.colSummary = gtk.TreeViewColumn(_('Summary'), gtk.CellRendererText(), text=4) self.colSummary.set_resizable(True) self.colSummary.set_sort_column_id(4) treev.append_column(self.colSummary) ### self.colDesc = gtk.TreeViewColumn(_('Description'), gtk.CellRendererText(), text=5) self.colDesc.set_sort_column_id(5) self.colDesc.set_visible(showDesc) treev.append_column(self.colDesc) ### trees.set_sort_func(2, self.sort_func_group) ###### swin = gtk.ScrolledWindow() swin.set_policy(gtk.POLICY_AUTOMATIC, gtk.POLICY_AUTOMATIC) swin.add(treev) #### vbox = gtk.VBox(spacing=5) vbox.set_border_width(5) ### topHbox = gtk.HBox() self.resultLabel = gtk.Label('') pack(topHbox, self.resultLabel) pack(topHbox, gtk.Label(''), 1, 1) pack(vbox, topHbox) #### columnBox = gtk.HBox(spacing=5) pack(columnBox, gtk.Label(_('Columns')+': ')) ## check = gtk.CheckButton(_('Group')) check.set_active(True) check.connect('clicked', lambda w: self.colGroup.set_visible(w.get_active())) pack(columnBox, check) ## check = gtk.CheckButton(_('Icon')) check.set_active(True) check.connect('clicked', lambda w: self.colIcon.set_visible(w.get_active())) pack(columnBox, check) ## check = gtk.CheckButton(_('Summary')) check.set_active(True) check.connect('clicked', lambda w: self.colSummary.set_visible(w.get_active())) pack(columnBox, check) ## check = gtk.CheckButton(_('Description')) check.set_active(showDesc) check.connect('clicked', lambda w: self.colDesc.set_visible(w.get_active())) pack(columnBox, check) ## pack(vbox, columnBox) #### pack(vbox, swin, 1, 1) ## frame = gtk.Frame(_('Search Results')) frame.set_border_width(10) frame.add(vbox) ## pack(self.vbox, frame, 1, 1) ### bbox2 = gtk.HButtonBox() bbox2.set_layout(gtk.BUTTONBOX_END) bbox2.set_border_width(10) closeButton = gtk.Button() closeButton.set_label(_('_Close')) closeButton.set_image(gtk.image_new_from_stock(gtk.STOCK_CLOSE, gtk.ICON_SIZE_BUTTON)) closeButton.connect('clicked', self.closed) bbox2.add(closeButton) pack(self.vbox, bbox2) ###### self.treev = treev self.trees = trees self.vbox.show_all()
def calcTimeLineData(timeStart, timeWidth, pixelPerSec, borderTm): timeEnd = timeStart + timeWidth jd0 = getJdFromEpoch(timeStart) jd1 = getJdFromEpoch(timeEnd) widthDays = float(timeWidth) / dayLen dayPixel = dayLen * pixelPerSec ## px #print('dayPixel = %s px'%dayPixel) getEPos = lambda epoch: (epoch - timeStart) * pixelPerSec getJPos = lambda jd: (getEpochFromJd(jd) - timeStart) * pixelPerSec ######################## Holidays holidays = [] if changeHolidayBg and changeHolidayBgMinDays < widthDays < changeHolidayBgMaxDays: for jd in getHolidaysJdList(jd0, jd1 + 1): holidays.append(getJPos(jd)) ######################## Ticks ticks = [] tickEpochList = [] minStep = minorStepMin / pixelPerSec ## second ################# year0, month0, day0 = jd_to_primary(jd0) year1, month1, day1 = jd_to_primary(jd1) ############ Year minStepYear = minStep // minYearLenSec ## years ## int or iceil? yearPixel = minYearLenSec * pixelPerSec ## pixels for (year, size) in getYearRangeTickValues(year0, year1 + 1, minStepYear): tmEpoch = getEpochFromDate(year, 1, 1, calTypes.primary) if tmEpoch in tickEpochList: continue unitSize = size * yearPixel label = formatYear(year) if unitSize >= majorStepMin else '' ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, )) tickEpochList.append(tmEpoch) ############ Month monthPixel = avgMonthLen * pixelPerSec ## px minMonthUnit = float(minStep) / avgMonthLen ## month if minMonthUnit <= 3: for ym in range(year0 * 12 + month0 - 1, year1 * 12 + month1 - 1 + 1): ## +1 FIXME if ym % 3 == 0: monthUnit = 3 else: monthUnit = 1 if monthUnit < minMonthUnit: continue y, m = divmod(ym, 12) m += 1 tmEpoch = getEpochFromDate(y, m, 1, calTypes.primary) if tmEpoch in tickEpochList: continue unitSize = monthPixel * monthUnit ticks.append( Tick( tmEpoch, getEPos(tmEpoch), unitSize, getMonthName(calTypes.primary, m) if unitSize >= majorStepMin else '', )) tickEpochList.append(tmEpoch) ################ if showWeekStart and showWeekStartMinDays < widthDays < showWeekStartMaxDays: wd0 = jwday(jd0) jdw0 = jd0 + (core.firstWeekDay - wd0) % 7 unitSize = dayPixel * 7 if unitSize < majorStepMin: label = '' else: label = core.weekDayNameAb[core.firstWeekDay] for jd in range(jdw0, jd1 + 1, 7): tmEpoch = getEpochFromJd(jd) ticks.append( Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, color=weekStartTickColor, )) #tickEpochList.append(tmEpoch) ############ Day of Month hasMonthName = timeWidth < 5 * dayLen minDayUnit = float(minStep) / dayLen ## days if minDayUnit <= 15: for jd in range(jd0, jd1 + 1): tmEpoch = getEpochFromJd(jd) if tmEpoch in tickEpochList: continue year, month, day = jd_to_primary(jd) if day == 16: dayUnit = 15 elif day in (6, 11, 21, 26): dayUnit = 5 else: dayUnit = 1 if dayUnit < minDayUnit: continue unitSize = dayPixel * dayUnit if unitSize < majorStepMin: label = '' elif hasMonthName: label = _(day) + ' ' + getMonthName(calTypes.primary, month) else: label = _(day) ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, )) tickEpochList.append(tmEpoch) ############ Hour, Minute, Second for stepUnit, stepValue in unitSteps: stepSec = stepUnit * stepValue if stepSec < minStep: break unitSize = stepSec * pixelPerSec utcOffset = int(getUtcOffsetCurrent()) firstEpoch = iceil( (timeStart + utcOffset) / stepSec) * stepSec - utcOffset for tmEpoch in range(firstEpoch, iceil(timeEnd), stepSec): if tmEpoch in tickEpochList: continue if unitSize < majorStepMin: label = '' else: jd, h, m, s = getJhmsFromEpoch(tmEpoch) if s == 0: label = '%s:%s' % ( _(h), _(m, fillZero=2), ) else: # elif timeWidth < 60 or stepSec < 30: label = LRM + '%s"' % _(s, fillZero=2) #else: # label = '%s:%s:%s'%( # _(h), # _(m, fillZero=2), # _(s, fillZero=2), # ) ticks.append(Tick( tmEpoch, getEPos(tmEpoch), unitSize, label, )) tickEpochList.append(tmEpoch) ######################## Event Boxes data = { 'holidays': holidays, 'ticks': ticks, 'boxes': [], } ### data['boxes'] = calcEventBoxes( timeStart, timeEnd, pixelPerSec, borderTm, ) ### return data