def _save(self, path):
comboItem = self.combo.get_active()
months = []
module = calTypes.primaryModule()
if comboItem == 0:
s = getCurrentMonthStatus()
months = [s]
title = "%s %s" % (
locale_man.getMonthName(
calTypes.primary,
s.month,
s.year,
),
_(s.year),
)
elif comboItem == 1:
for i in range(1, 13):
months.append(getMonthStatus(ui.cell.year, i))
title = "%s %s" % (_("Calendar"), _(ui.cell.year))
elif comboItem == 2:
y0, m0 = self.ymBox0.get_value()
y1, m1 = self.ymBox1.get_value()
for ym in range(y0 * 12 + m0 - 1, y1 * 12 + m1):
y, m = divmod(ym, 12)
m += 1
months.append(getMonthStatus(y, m))
title = _("Calendar")
exportToHtml(path, months, title)
self.hide()
def save(self, widget=None):
self.get_window().set_cursor(gdk.Cursor.new(gdk.CursorType.WATCH))
while gtk.events_pending():
gtk.main_iteration_do(False)
path = self.fcw.get_filename()
if path in (None, ''):
return
print('Exporting to html file "%s"'%path)
i = self.combo.get_active()
months = []
module = calTypes.primaryModule()
if i==0:
s = getCurrentMonthStatus()
months = [s]
title = '%s %s'%(locale_man.getMonthName(calTypes.primary, s.month, s.year), _(s.year))
elif i==1:
for i in range(1, 13):
months.append(getMonthStatus(ui.cell.year, i))
title = '%s %s'%(_('Calendar'), _(ui.cell.year))
elif i==2:
y0, m0 = self.ymBox0.get_value()
y1, m1 = self.ymBox1.get_value()
for ym in range(y0*12+m0-1, y1*12+m1):
y, m = divmod(ym, 12)
m += 1
months.append(getMonthStatus(y, m))
title = _('Calendar')
exportToHtml(path, months, title)
self.get_window().set_cursor(gdk.Cursor.new(gdk.CursorType.LEFT_PTR))
self.hide()
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:
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: try: plug.updateCell(self) except: myRaiseTback() ################### # t0 = now() self.eventsData = event_lib.getDayOccurrenceData( jd, eventGroups, ) # here? FIXME """
i = sys.exc_info()
typ, value, tback = sys.exc_info()
text = 'line %s: %s: %s\n'%(tback.tb_lineno, typ.__name__, value)
if File:
text = 'File "%s", '%File + text
log.error(text)
################################################################################
####################### class and function defenitions #########################
################################################################################
popen_output = lambda cmd: Popen(cmd, stdout=subprocess.PIPE).communicate()[0]
primary_to_jd = lambda y, m, d: calTypes.primaryModule().to_jd(y, m, d)
jd_to_primary = lambda jd: calTypes.primaryModule().jd_to(jd)
def getCurrentJd():## time.time() and mktime(localtime()) both return GMT, not local
y, m, d = localtime()[:3]
return calTypes[DATE_GREG].to_jd(y, m, d)
def getWeekDateHmsFromEpoch(epoch):
jd, hour, minute, sec = getJhmsFromEpoch(epoch)
absWeekNumber, weekDay = getWeekDateFromJd(jd)
return (absWeekNumber, weekDay, hour, minute, sec)
def getMonthWeekNth(jd, mode):
year, month, day = calTypes[mode].jd_to(jd)
absWeekNumber, weekDay = getWeekDateFromJd(jd)
##
def jd_to_primary(jd): return calTypes.primaryModule().jd_to(jd)
def primary_to_jd(y, m, d): return calTypes.primaryModule().to_jd(y, m, d)
def onDraw(self, widget=None, event=None):
cr = self.get_window().cairo_create()
width = float(self.get_allocation().width)
height = float(self.get_allocation().height)
dia = min(width, height)
maxR = float(dia) / 2.0
minR = self.innerCircleRatio * maxR
x0 = (width - dia) / 2.0
y0 = (height - dia) / 2.0
cx = x0 + maxR
cy = y0 + maxR
####
#self.angleOffset
#self.bgColor
#self.wheelBgColor
#self.lineColor
#self.lineWidth
#self.textColor
####
cr.rectangle(0, 0, width, height)
fillColor(cr, self.bgColor)
####
calsN = len(calTypes.active)
deltaR = (maxR - minR) / float(calsN)
mode0 = calTypes.active[0]
jd0 = to_jd(ui.todayCell.year, 1, 1, mode0)
yearLen = calTypes.primaryModule().avgYearLen
angle0 = self.angleOffset * pi / 180.0 - pi / 2.0
avgDeltaAngle = 2 * pi / 12
####
if self.todayIndicatorEnable:
drawLineLengthAngle(
cr,
cx,
cy,
maxR, ## FIXME
angle0 + 2.0 * pi * (ui.todayCell.jd - jd0) / yearLen,
self.todayIndicatorWidth,
)
fillColor(cr, self.todayIndicatorColor)
####
drawCircle(cr, cx, cy, self.centerR)
fillColor(cr, self.centerColor)
####
drawCircleOutline(cr, cx, cy, maxR, maxR - minR)
fillColor(cr, self.wheelBgColor)
####
spinngJd = getSpringJdAfter(jd0)
springAngle = angle0 + 2.0 * pi * (spinngJd -
jd0) / yearLen ## radians
for index, color in enumerate((
self.springColor,
self.summerColor,
self.autumnColor,
self.winterColor,
)):
drawArcOutline(
cr,
cx,
cy,
maxR,
maxR - minR,
springAngle + index * pi / 2.0,
springAngle + (index + 1) * pi / 2.0,
)
fillColor(cr, color)
####
for index, mode in enumerate(calTypes.active):
dr = index * deltaR
r = maxR - dr
cx0 = x0 + dr
cy0 = y0 + dr
###
drawCircleOutline(cr, cx, cy, r, self.lineWidth)
fillColor(cr, self.lineColor)
####
year0, month0, day0 = jd_to(jd0, mode)
ym0 = year0 * 12 + (month0 - 1)
cr.set_line_width(self.lineWidth)
for ym in range(ym0, ym0 + 12):
year, month = divmod(ym, 12)
month += 1
jd = to_jd(year, month, 1, mode)
angle = angle0 + 2.0 * pi * (jd - jd0) / yearLen ## radians
#angleD = angle * 180 / pi
#print('mode=%s, year=%s, month=%s, angleD=%.1f'%(mode, year, month, angleD))
d = self.lineWidth
sepX, sepY = goAngle(
cx,
cy,
angle,
r - d * 0.2, ## FIXME
)
drawLineLengthAngle(
cr,
sepX,
sepY,
deltaR - d * 0.2, ## FIXME
angle + pi,
d,
)
fillColor(
cr,
self.yearStartLineColor if month == 1 else self.lineColor,
)
###
layoutMaxW = (r - deltaR) * 2.0 * pi / 12.0
layoutMaxH = deltaR
layout = newTextLayout(
self,
text=getMonthName(mode, month, year),
maxSize=(layoutMaxW, layoutMaxH),
maximizeScale=0.6,
truncate=False,
)
layoutW, layoutH = layout.get_pixel_size()
centerAngle = angle + avgDeltaAngle / 2.0
lx, ly = goAngle(
cx,
cy,
centerAngle,
(r - deltaR / 3.0),
)
lx, ly = goAngle(
lx,
ly,
angle - pi / 2.0,
layoutW / 2.0,
)
lx, ly = goAngle(
lx,
ly,
angle,
layoutH / 2.0,
)
cr.move_to(
lx,
ly,
)
#cr.save()
rotateAngle = centerAngle + pi / 2.0
cr.rotate(rotateAngle)
setColor(cr, self.textColor)
show_layout(cr, layout)
cr.rotate(-rotateAngle)
#cr.restore()
#####
drawCircleOutline(cr, cx, cy, minR, self.lineWidth)
fillColor(cr, self.lineColor)
def jd_to_primary(jd): return calTypes.primaryModule().jd_to(jd)
def primary_to_jd(y, m, d): return calTypes.primaryModule().to_jd(y, m, d)
def onDraw(self, widget=None, event=None):
cr = self.get_window().cairo_create()
width = float(self.get_allocation().width)
height = float(self.get_allocation().height)
dia = min(width, height)
maxR = float(dia) / 2.0
minR = self.innerCircleRatio * maxR
x0 = (width - dia) / 2.0
y0 = (height - dia) / 2.0
cx = x0 + maxR
cy = y0 + maxR
####
#self.angleOffset
#self.bgColor
#self.wheelBgColor
#self.lineColor
#self.lineWidth
#self.textColor
####
cr.rectangle(0, 0, width, height)
fillColor(cr, self.bgColor)
####
calsN = len(calTypes.active)
deltaR = (maxR - minR) / float(calsN)
mode0 = calTypes.active[0]
jd0 = to_jd(ui.todayCell.year, 1, 1, mode0)
yearLen = calTypes.primaryModule().avgYearLen
angle0 = self.angleOffset * pi / 180.0 - pi/2.0
avgDeltaAngle = 2*pi / 12
####
if self.todayIndicatorEnable:
drawLineLengthAngle(
cr,
cx,
cy,
maxR,## FIXME
angle0 + 2.0*pi*(ui.todayCell.jd - jd0)/yearLen,
self.todayIndicatorWidth,
)
fillColor(cr, self.todayIndicatorColor)
####
drawCircle(cr, cx, cy, self.centerR)
fillColor(cr, self.centerColor)
####
drawCircleOutline(cr, cx, cy, maxR, maxR-minR)
fillColor(cr, self.wheelBgColor)
####
spinngJd = getSpringJdAfter(jd0)
springAngle = angle0 + 2.0*pi*(spinngJd - jd0)/yearLen ## radians
for index, color in enumerate((
self.springColor,
self.summerColor,
self.autumnColor,
self.winterColor,
)):
drawArcOutline(
cr,
cx,
cy,
maxR,
maxR-minR,
springAngle + index * pi/2.0,
springAngle + (index+1) * pi/2.0,
)
fillColor(cr, color)
####
for index, mode in enumerate(calTypes.active):
dr = index * deltaR
r = maxR - dr
cx0 = x0 + dr
cy0 = y0 + dr
###
drawCircleOutline(cr, cx, cy, r, self.lineWidth)
fillColor(cr, self.lineColor)
####
year0, month0, day0 = jd_to(jd0, mode)
ym0 = year0*12 + (month0-1)
cr.set_line_width(self.lineWidth)
for ym in range(ym0, ym0 + 12):
year, month = divmod(ym, 12) ; month += 1
jd = to_jd(year, month, 1, mode)
angle = angle0 + 2.0*pi*(jd - jd0)/yearLen ## radians
#angleD = angle * 180 / pi
#print('mode=%s, year=%s, month=%s, angleD=%.1f'%(mode, year, month, angleD))
d = self.lineWidth
sepX, sepY = goAngle(
cx,
cy,
angle,
r - d*0.2,## FIXME
)
drawLineLengthAngle(
cr,
sepX,
sepY,
deltaR - d*0.2,## FIXME
angle + pi,
d,
)
fillColor(
cr,
self.yearStartLineColor if month==1 else self.lineColor,
)
###
layoutMaxW = (r - deltaR) * 2.0 * pi / 12.0
layoutMaxH = deltaR
layout = newTextLayout(
self,
text=getMonthName(mode, month, year),
maxSize=(layoutMaxW, layoutMaxH),
maximizeScale=0.6,
truncate=False,
)
layoutW, layoutH = layout.get_pixel_size()
centerAngle = angle + avgDeltaAngle/2.0
lx, ly = goAngle(
cx,
cy,
centerAngle,
(r - deltaR/3.0),
)
lx, ly = goAngle(
lx,
ly,
angle - pi/2.0,
layoutW / 2.0,
)
lx, ly = goAngle(
lx,
ly,
angle,
layoutH / 2.0,
)
cr.move_to(
lx,
ly,
)
#cr.save()
rotateAngle = centerAngle + pi/2.0
cr.rotate(rotateAngle)
setColor(cr, self.textColor) ; show_layout(cr, layout)
cr.rotate(-rotateAngle)
#cr.restore()
#####
drawCircleOutline(cr, cx, cy, minR, self.lineWidth)
fillColor(cr, self.lineColor)
def myRaise(File=None):
i = sys.exc_info()
typ, value, tback = sys.exc_info()
text = 'line %s: %s: %s\n' % (tback.tb_lineno, typ.__name__, value)
if File:
text = 'File "%s", ' % File + text
log.error(text)
################################################################################
####################### class and function defenitions #########################
################################################################################
popen_output = lambda cmd: Popen(cmd, stdout=subprocess.PIPE).communicate()[0]
primary_to_jd = lambda y, m, d: calTypes.primaryModule().to_jd(y, m, d)
jd_to_primary = lambda jd: calTypes.primaryModule().jd_to(jd)
def getCurrentJd(
): ## time.time() and mktime(localtime()) both return GMT, not local
y, m, d = localtime()[:3]
return calTypes[DATE_GREG].to_jd(y, m, d)
def getWeekDateHmsFromEpoch(epoch):
jd, hour, minute, sec = getJhmsFromEpoch(epoch)
absWeekNumber, weekDay = getWeekDateFromJd(jd)
return (absWeekNumber, weekDay, hour, minute, sec)