state_value = (state_value << 1)
# Integrator #4 - bits 24 though 32
for i in range(0, 8):
state_name = "I3_T" + str(i)
# threshold_state = models.DeviceState(name=state_name, value=state_value, mask=state_value, device_type = im_device_type)
# if (i < 2):
# im_int4_states.append(threshold_state)
# session.add(threshold_state)
state_value = (state_value << 1)
session.commit()
#Add digital devices
screen = models.DigitalDevice(name="YAG01B",
position=753,
description="YAG01B Screen",
device_type=profmon_device_type,
card=link_node_card,
area="GUNB")
gun_temp = models.DigitalDevice(name="Gun Temperature",
device_type=temp_device_type,
card=link_node_card,
position=100,
description="Gun Temperature Summary Input",
area="GUNB",
measured_device_type_id=gun_device_type.id)
wg_temp = models.DigitalDevice(
name="Waveguide Temperature",
device_type=temp_device_type,
card=link_node_card,
position=100,
description="Waveguide A3/A4 Temperature Summary Input",
# 2 sets of 2**channelsPerDevice
faultDeviceStates = []
for i in range(0, 2**(2**channelsPerDevice)):
faultDeviceState = models.DeviceState(name="FaultState " + str(i),
device_type=faultDigitalDeviceType,
value=i)
faultDeviceStates.append(faultDeviceState)
session.add(faultDeviceState)
# Add digital devices
devices = []
for i in range(0, numCards):
for j in range(0, devicesPerCard):
device = models.DigitalDevice(name="Device " + str(i) + ":" + str(j),
z_position=i * devicesPerCard + j,
description="Device #" + str(j) +
" for card #" + str(i),
device_type=digitalDeviceType,
application=global_app)
devices.append(device)
session.add(device)
# Assign inputs to devices
for i in range(0, len(devices)):
for j in range(0, channelsPerDevice):
deviceInput = models.DeviceInput(
channel=channels[i * channelsPerDevice + j],
bit_position=j,
digital_device=devices[i])
session.add(deviceInput)
# Configure faults - each fault is the result of the inputs from neighboring devices
value=0x1A6,
device_type=sxrss_device_type)
sxrss_state_sase = models.DeviceState(name="SXRSS SASE",
value=0xAA,
mask=0xFF,
device_type=sxrss_device_type)
session.add_all([
device_out, device_in, device_moving, device_broken, power_on, power_off,
sxrss_default_state, sxrss_state_ss, sxrss_state_harmonic, sxrss_state_sase
])
# add devices
m1_device = models.DigitalDevice(name="M1",
position=30,
description="M1 Insertion Device",
device_type=insertion_device_type,
card=link_node_card,
area="UND1")
slit_device = models.DigitalDevice(name="SL",
position=60,
description="Slit Insertion Device",
device_type=insertion_device_type,
card=link_node_card,
area="UND1")
m2_device = models.DigitalDevice(name="M2",
position=70,
description="M2 Insertion Device",
device_type=insertion_device_type,
card=link_node_card,
area="UND1")
m3_device = models.DigitalDevice(name="M3",
state_name = "T_T" + str(i)
bpm_threshold_state = models.DeviceState(name=state_name,
value=state_value,
mask=state_value,
device_type=bpm_device_type)
if (i < 4):
bpm_t_states.append(bpm_threshold_state)
session.add(bpm_threshold_state)
state_value = (state_value << 1)
session.commit()
#Add digital devices
screen = models.DigitalDevice(name="YAG01",
position=855,
description="YAG Screen",
device_type=profmon_device_type,
card=link_node_card,
area="GUNB")
gun_temp = models.DigitalDevice(name="Gun Temperature",
device_type=temp_device_type,
card=link_node_card,
position=100,
description="Gun Temperature Summary Input",
area="GUNB")
wg_temp = models.DigitalDevice(
name="Waveguide Temperature",
device_type=temp_device_type,
card=link_node_card,
position=150,
description="Waveguide Temperature Summary Input",
area="GUNB")
otr_screen_in.value = 2
otr_screen_moving = models.DeviceState(name="Moving")
otr_screen_moving.device_type = insertion_device_type
otr_screen_moving.value = 0
otr_screen_broken = models.DeviceState(name="Broken")
otr_screen_broken.device_type = insertion_device_type
otr_screen_broken.value = 3
session.add_all(
[otr_screen_out, otr_screen_in, otr_screen_moving, otr_screen_broken])
#Add a device - an OTR screen.
otr_screen = models.DigitalDevice(name="OTR",
z_position=101,
description="OTR screen")
otr_screen.device_type = insertion_device_type
otr_screen.application = global_app
session.add(otr_screen)
#Give the device some inputs. It has in and out limit switches.
#Connect these limit switches to channels 0 and 1 of our link node card.
otr_out_lim_sw = models.DeviceInput()
otr_out_lim_sw.channel = digital_chans[0]
otr_out_lim_sw.bit_position = 0
otr_out_lim_sw.digital_device = otr_screen
session.add(otr_out_lim_sw)
otr_in_lim_sw = models.DeviceInput()
otr_in_lim_sw.channel = digital_chans[1]
otr_in_lim_sw.bit_position = 1