def activate_runtime():
RuntimeModel.set_change_handler_regex('PORTIO', 'portio\.[^.]*\.enable\..*' , onPortRoutePropertyChange)
RuntimeModel.set_change_handler_regex('PORTIO', 'portio\.[^.]*\.location\..*', onPortRoutePropertyChange)
RuntimeModel.set_change_handler_regex('P[A-Z][0-9][0-5]?', PORT_PINS.ports_settings_custompinname.S, onPortPinPropertyChange)
RuntimeModel.set_change_handler_regex('P[A-Z][0-9][0-5]?', PORT_PINS.ports_settings_halpinname.S, onPortPinPropertyChange)
RuntimeModel.set_change_handler_regex('P[A-Z][0-9][0-5]?', PORT_PINS.ports_settings_reserve.S, onPortPinPropertyChange)
def validateAllModuleRouteEnablesAndModes(portio):
'''
Check that the routes used by modules are enabled on the portio
:type portio: Studio._private.StudioClasses.com_silabs_ide_halconf_core_client_accessors_IPortIOAccessor
'''
if SNIPPET_PROFILE:
start = time.time()
# ensure that this is always in a known mapping group
RuntimeModel.new_problem_group(None, portio, 'validateAllModuleRouteEnablesAndModes')
for signal in portio.signals:
signalNameComponents = signal.name.split('|')
if len(signalNameComponents) == 3:
module = signalNameComponents[0]
route = signalNameComponents[1]
signalType = signalNameComponents[2]
if signalType == 'EN':
# If the validation enable signal is True, validate the route enable property
if signal.get() == True:
validateModuleRouteEnable(portio, module, route)
if SNIPPET_PROFILE:
stop = time.time()
print("validateAllModuleRouteEnablesAndModes() completed in {:.3f} ms".format((stop - start) * 1000))
def validateModuleRouteEnable(portio, module_name, route_name):
selector_route = findRoute(portio, module_name, route_name)
if not selector_route:
return
# Add an error if the route is not enabled
if selector_route[1].enablePropertyReference.enumIndex == 0:
RuntimeModel.new_warning(selector_route[1].enablePropertyReference,
'{0}_{1} pin is in use and must be enabled'.format(module_name, route_name))
def __setOverrideLabel(self, label):
'''
Sets the given label as custom label on the pin.
:param label: Label to assign to the pin
:return: void
'''
RuntimeModel.set_property_value(self.pin.ref(
PORT_PINS.ports_settings_custompinname.S),
label,
module=self.pin)
def onLoad(state):
# Prevent changed properties from enabling parent peripheral
try:
hal.registerDeviceOverride(hal.OVERRIDE_PERIPHERAL_AUTO_ENABLE, True)
except:
# Fall back to misspelled version of the function argument
try:
hal.registerDeviceOverride(hal.OVERRIDE_PERIPHRAL_AUTO_ENABLE,
True)
except:
pass
available_modules = Metadata.get_available_modules_for_family()
if PROFILE:
start = time.time()
familyobj = dep.Family(state.device.name)
modules = []
module_instance = ACMP_behavior.ACMP('ACMP0')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('ACMP0', module_instance)
modules.append(module_instance)
module_instance = ACMP_behavior.ACMP('ACMP1')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('ACMP1', module_instance)
modules.append(module_instance)
module_instance = ADC_behavior.ADC('ADC0')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('ADC0', module_instance)
modules.append(module_instance)
module_instance = ANTDIV_behavior.ANTDIV('ANTDIV')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('ANTDIV', module_instance)
modules.append(module_instance)
module_instance = BATTERYMON_behavior.BATTERYMON('BATTERYMON')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('BATTERYMON', module_instance)
modules.append(module_instance)
module_instance = BTL_BUTTON_behavior.BTL_BUTTON('BTL_BUTTON')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('BTL_BUTTON', module_instance)
modules.append(module_instance)
module_instance = BULBPWM_behavior.BULBPWM('BULBPWM')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('BULBPWM', module_instance)
modules.append(module_instance)
module_instance = BULBPWM_COLOR_behavior.BULBPWM_COLOR('BULBPWM_COLOR')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('BULBPWM_COLOR', module_instance)
modules.append(module_instance)
module_instance = BUTTON_behavior.BUTTON('BUTTON')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('BUTTON', module_instance)
modules.append(module_instance)
module_instance = CMU_behavior.CMU('CMU')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('CMU', module_instance)
modules.append(module_instance)
module_instance = COEX_behavior.COEX('COEX')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('COEX', module_instance)
modules.append(module_instance)
module_instance = CS5463_behavior.CS5463('CS5463')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('CS5463', module_instance)
modules.append(module_instance)
module_instance = DCDC_behavior.DCDC('DCDC')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('DCDC', module_instance)
modules.append(module_instance)
module_instance = EMU_behavior.EMU('EMU')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('EMU', module_instance)
modules.append(module_instance)
module_instance = EXTFLASH_behavior.EXTFLASH('EXTFLASH')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('EXTFLASH', module_instance)
modules.append(module_instance)
module_instance = EZRADIOPRO_behavior.EZRADIOPRO('EZRADIOPRO')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('EZRADIOPRO', module_instance)
modules.append(module_instance)
module_instance = FEM_behavior.FEM('FEM')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('FEM', module_instance)
modules.append(module_instance)
module_instance = GPIO_behavior.GPIO('GPIO')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('GPIO', module_instance)
modules.append(module_instance)
module_instance = I2C_behavior.I2C('I2C0')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('I2C0', module_instance)
modules.append(module_instance)
module_instance = I2CSENSOR_behavior.I2CSENSOR('I2CSENSOR')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('I2CSENSOR', module_instance)
modules.append(module_instance)
module_instance = IDAC_behavior.IDAC('IDAC0')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('IDAC0', module_instance)
modules.append(module_instance)
module_instance = IOEXP_behavior.IOEXP('IOEXP')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('IOEXP', module_instance)
modules.append(module_instance)
module_instance = LED_behavior.LED('LED')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('LED', module_instance)
modules.append(module_instance)
module_instance = LEUART_behavior.LEUART('LEUART0')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('LEUART0', module_instance)
modules.append(module_instance)
module_instance = MODEM_behavior.MODEM('MODEM')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('MODEM', module_instance)
modules.append(module_instance)
module_instance = PA_behavior.PA('PA')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('PA', module_instance)
modules.append(module_instance)
module_instance = PRS_behavior.PRS('PRS')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('PRS', module_instance)
modules.append(module_instance)
module_instance = PTI_behavior.PTI('PTI')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('PTI', module_instance)
modules.append(module_instance)
module_instance = PYD1698_behavior.PYD1698('PYD1698')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('PYD1698', module_instance)
modules.append(module_instance)
module_instance = SERIAL_behavior.SERIAL('SERIAL')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('SERIAL', module_instance)
modules.append(module_instance)
module_instance = SPIDISPLAY_behavior.SPIDISPLAY('SPIDISPLAY')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('SPIDISPLAY', module_instance)
modules.append(module_instance)
module_instance = SPINCP_behavior.SPINCP('SPINCP')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('SPINCP', module_instance)
modules.append(module_instance)
module_instance = TIMER_behavior.TIMER('TIMER0')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('TIMER0', module_instance)
modules.append(module_instance)
module_instance = TIMER_behavior.TIMER('TIMER1')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('TIMER1', module_instance)
modules.append(module_instance)
module_instance = UARTNCP_behavior.UARTNCP('UARTNCP')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('UARTNCP', module_instance)
modules.append(module_instance)
module_instance = USART_behavior.USART('USART0')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('USART0', module_instance)
modules.append(module_instance)
module_instance = USART_behavior.USART('USART1')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('USART1', module_instance)
modules.append(module_instance)
module_instance = VCOM_behavior.VCOM('VCOM')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('VCOM', module_instance)
modules.append(module_instance)
module_instance = VUART_behavior.VUART('VUART')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('VUART', module_instance)
modules.append(module_instance)
module_instance = WDOG_behavior.WDOG('WDOG')
module_instance.load_halconfig_model(available_modules, familyobj)
state.set_module_object('WDOG', module_instance)
modules.append(module_instance)
if PROFILE:
stop = time.time()
print(" construction of all modules completed in {:.3f} ms".format(
(stop - start) * 1000))
start = time.time()
# Do the hook installing after all modules have initialized
PIN_Snippets.activate_runtime()
PORTIO_Snippets.activate_runtime()
for module_instance in modules:
module_instance.activate_runtime(state)
force_enable_module = RuntimeModel.get_property_value(
module_instance.get_property('forceenable'),
RuntimeModel.get_studio_module_by_name(module_instance.name,
state.mode), False)
if force_enable_module == '1':
RuntimeModel.set_module_checked(
RuntimeModel.get_studio_module_by_name(module_instance.name,
state.mode),
True,
state,
readonly=True)
PORTIO_Snippets.onLoad(state)
if PROFILE:
stop = time.time()
print(" activate_runtime() for all modules completed in {:.3f} ms".
format((stop - start) * 1000))
def validateRouting(portio, state):
'''
:type portio: Studio._private.StudioClasses.com_silabs_ide_halconf_core_client_accessors_IPortIOAccessor
'''
if SNIPPET_PROFILE:
start = time.time()
# ensure that this is always in a known mapping group
RuntimeModel.new_problem_group(None, portio, state, 'validateRouting')
"""
A map that stores the pin assignment(s) for each physical pin:
{ pin ID : PinRoutes }
"""
pinAssignments = collections.OrderedDict()
"""
Generate a PinLabelsRoutes structures for each pin.
Add the pin accessor and create an empty label list to track the assigned pin labels
"""
for portbank in portio.portBanks:
for pin in portbank.pins:
pinAssignments[pin.id] = PinRoutes(pin, [])
for route in activePinRoutes(portio):
pinAssignments[route.getPinId()].pin = route.getPin()
pinAssignments[route.getPinId()].routes.append(route)
signalSettings = []
# for module in portio.mode.getPeripherals():
# if 'APORT' in module.name:
# for attribute in dir(APORT_EFR.SIGNALS):
# if 'STAT' in attribute:
# print(attribute + " : " + str(module.signal(getattr(APORT_EFR.SIGNALS, attribute)).get()))
for pinRoute in pinAssignments.values():
label = pinRoute.getLabel()
color = pinRoute.getColor()
# This is the place to override pin labels for APORT
labels = label.split(' / ')
newlabels = []
for partiallabel in labels:
newlabel = partiallabel
# if 'APORT' in partiallabel:
# # get reference to aport through mode
# modules = portio.mode.getPeripherals()
#
# for module in modules:
# if 'APORT' in module.name:
# chan = partiallabel.replace('APORT_', '').replace("P", "X").replace("N", "Y")
# newlabel = str(module.signal(getattr(APORT_EFR.SIGNALS, chan + "_STAT")).get())
# print(chan + " : " + newlabel)
#
# newlabels.append(newlabel)
# else:
newlabels.append(newlabel)
label = ' / '.join(newlabels)
# Set pin signal assignment
signalSettings.append((pinRoute.getPin().assignmentSignal, [label, color]))
for (prop, msg) in pinRoute.errors():
RuntimeModel.new_warning(prop, msg, state)
# Filtering out non-aport pinRoutes
aportPinAssignments = {}
for pinID in pinAssignments.keys():
if pinAssignments[pinID].isAportConnected():
aportPinAssignments[pinID] = pinAssignments[pinID]
for route in pinAssignments[pinID].getRoutes():
if not route.getAportName():
aportPinAssignments[pinID].getRoutes().remove(route)
# Generating warnings and infos
for (prop, msg) in aportWarnings(aportPinAssignments):
RuntimeModel.new_warning(prop, msg, state)
for (prop, msg) in aportInfos(aportPinAssignments):
RuntimeModel.new_info(prop, msg, state)
# Only apply a signal setting if it isn't the same as the previous value
for (signal, setting) in signalSettings:
if not inLastSignalSettings(portio.mode.name, (signal, setting)):
RuntimeModel.set_signal_value(signal, setting, state)
# Keep track of settings for next time
LastSignalSettings[portio.mode.name] = signalSettings
# Validate that all module routes in use are enabled on the portio
# validateAllModuleRouteEnablesAndModes(portio)
if SNIPPET_PROFILE:
stop = time.time()
print("validateRouting() completed in {:.3f} ms".format((stop - start) * 1000))