def _get_line_array_construct(self):
""" Returns a construct for an array of line data.
"""
from_bus = integer.setResultsName("fbus")
to_bus = integer.setResultsName("tbus")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
f_rating = real.setResultsName("f_rating") # Hz
length = real.setResultsName("length") # km (Line only)
v_ratio = real.setResultsName("v_ratio") # kV/kV (Transformer only)
r = real.setResultsName("r") # p.u. or Ohms/km
x = real.setResultsName("x") # p.u. or Henrys/km
b = real.setResultsName("b") # p.u. or Farads/km (Line only)
tap_ratio = real.setResultsName("tap") # p.u./p.u. (Transformer only)
phase_shift = real.setResultsName(
"shift") # degrees (Transformer only)
i_limit = Optional(real).setResultsName("i_limit") # p.u.
p_limit = Optional(real).setResultsName("p_limit") # p.u.
s_limit = Optional(real).setResultsName("s_limit") # p.u.
status = Optional(boolean).setResultsName("status")
line_data = from_bus + to_bus + s_rating + v_rating + \
f_rating + length + v_ratio + r + x + b + tap_ratio + \
phase_shift + i_limit + p_limit + s_limit + status + scolon
line_data.setParseAction(self.push_line)
line_array = Literal("Line.con") + "=" + "[" + "..." + \
ZeroOrMore(line_data + Optional("]" + scolon))
return line_array
def _get_line_array_construct(self):
""" Returns a construct for an array of line data.
"""
from_bus = integer.setResultsName("fbus")
to_bus = integer.setResultsName("tbus")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
f_rating = real.setResultsName("f_rating") # Hz
length = real.setResultsName("length") # km (Line only)
v_ratio = real.setResultsName("v_ratio") # kV/kV (Transformer only)
r = real.setResultsName("r") # p.u. or Ohms/km
x = real.setResultsName("x") # p.u. or Henrys/km
b = real.setResultsName("b") # p.u. or Farads/km (Line only)
tap_ratio = real.setResultsName("tap") # p.u./p.u. (Transformer only)
phase_shift = real.setResultsName("shift") # degrees (Transformer only)
i_limit = Optional(real).setResultsName("i_limit") # p.u.
p_limit = Optional(real).setResultsName("p_limit") # p.u.
s_limit = Optional(real).setResultsName("s_limit") # p.u.
status = Optional(boolean).setResultsName("status")
line_data = from_bus + to_bus + s_rating + v_rating + \
f_rating + length + v_ratio + r + x + b + tap_ratio + \
phase_shift + i_limit + p_limit + s_limit + status + scolon
line_data.setParseAction(self.push_line)
line_array = Literal("Line.con") + "=" + "[" + "..." + \
ZeroOrMore(line_data + Optional("]" + scolon))
return line_array
def _get_slack_array_construct(self):
""" Returns a construct for an array of slack bus data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
v_magnitude = real.setResultsName("v_magnitude") # p.u.
ref_angle = real.setResultsName("ref_angle") # p.u.
q_max = Optional(real).setResultsName("q_max") # p.u.
q_min = Optional(real).setResultsName("q_min") # p.u.
v_max = Optional(real).setResultsName("v_max") # p.u.
v_min = Optional(real).setResultsName("v_min") # p.u.
p_guess = Optional(real).setResultsName("p_guess") # p.u.
# Loss participation coefficient
lp_coeff = Optional(real).setResultsName("lp_coeff")
ref_bus = Optional(boolean).setResultsName("ref_bus")
status = Optional(boolean).setResultsName("status")
slack_data = bus_no + s_rating + v_rating + v_magnitude + \
ref_angle + q_max + q_min + v_max + v_min + p_guess + \
lp_coeff + ref_bus + status + scolon
slack_data.setParseAction(self.push_slack)
slack_array = Literal("SW.con") + "=" + "[" + "..." + \
ZeroOrMore(slack_data + Optional("]" + scolon))
return slack_array
def _get_demand_array_construct(self):
""" Returns a construct for an array of power demand data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
p_direction = real.setResultsName("p_direction") # p.u.
q_direction = real.setResultsName("q_direction") # p.u.
p_bid_max = real.setResultsName("p_bid_max") # p.u.
p_bid_min = real.setResultsName("p_bid_min") # p.u.
p_optimal_bid = Optional(real).setResultsName("p_optimal_bid")
p_fixed = real.setResultsName("p_fixed") # $/hr
p_proportional = real.setResultsName("p_proportional") # $/MWh
p_quadratic = real.setResultsName("p_quadratic") # $/MW^2h
q_fixed = real.setResultsName("q_fixed") # $/hr
q_proportional = real.setResultsName("q_proportional") # $/MVArh
q_quadratic = real.setResultsName("q_quadratic") # $/MVAr^2h
commitment = boolean.setResultsName("commitment")
cost_tie_break = real.setResultsName("cost_tie_break") # $/MWh
cost_cong_up = real.setResultsName("cost_cong_up") # $/h
cost_cong_down = real.setResultsName("cost_cong_down") # $/h
status = Optional(boolean).setResultsName("status")
demand_data = bus_no + s_rating + p_direction + q_direction + \
p_bid_max + p_bid_min + p_optimal_bid + p_fixed + \
p_proportional + p_quadratic + q_fixed + q_proportional + \
q_quadratic + commitment + cost_tie_break + cost_cong_up + \
cost_cong_down + status + scolon
demand_data.setParseAction(self.push_demand)
demand_array = Literal("Demand.con") + "=" + "[" + "..." + \
ZeroOrMore(demand_data + Optional("]" + scolon))
return demand_array
def _get_demand_array_construct(self):
""" Returns a construct for an array of power demand data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
p_direction = real.setResultsName("p_direction") # p.u.
q_direction = real.setResultsName("q_direction") # p.u.
p_bid_max = real.setResultsName("p_bid_max") # p.u.
p_bid_min = real.setResultsName("p_bid_min") # p.u.
p_optimal_bid = Optional(real).setResultsName("p_optimal_bid")
p_fixed = real.setResultsName("p_fixed") # $/hr
p_proportional = real.setResultsName("p_proportional") # $/MWh
p_quadratic = real.setResultsName("p_quadratic") # $/MW^2h
q_fixed = real.setResultsName("q_fixed") # $/hr
q_proportional = real.setResultsName("q_proportional") # $/MVArh
q_quadratic = real.setResultsName("q_quadratic") # $/MVAr^2h
commitment = boolean.setResultsName("commitment")
cost_tie_break = real.setResultsName("cost_tie_break") # $/MWh
cost_cong_up = real.setResultsName("cost_cong_up") # $/h
cost_cong_down = real.setResultsName("cost_cong_down") # $/h
status = Optional(boolean).setResultsName("status")
demand_data = bus_no + s_rating + p_direction + q_direction + \
p_bid_max + p_bid_min + p_optimal_bid + p_fixed + \
p_proportional + p_quadratic + q_fixed + q_proportional + \
q_quadratic + commitment + cost_tie_break + cost_cong_up + \
cost_cong_down + status + scolon
demand_data.setParseAction(self.push_demand)
demand_array = Literal("Demand.con") + "=" + "[" + "..." + \
ZeroOrMore(demand_data + Optional("]" + scolon))
return demand_array
def _get_pv_array_construct(self):
""" Returns a construct for an array of PV generator data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
p = real.setResultsName("p") # p.u.
v = real.setResultsName("v") # p.u.
q_max = Optional(real).setResultsName("q_max") # p.u.
q_min = Optional(real).setResultsName("q_min") # p.u.
v_max = Optional(real).setResultsName("v_max") # p.u.
v_min = Optional(real).setResultsName("v_min") # p.u.
# Loss participation coefficient
lp_coeff = Optional(real).setResultsName("lp_coeff")
status = Optional(boolean).setResultsName("status")
pv_data = bus_no + s_rating + v_rating + p + v + q_max + \
q_min + v_max + v_min + lp_coeff + status + scolon
pv_data.setParseAction(self.push_pv)
pv_array = Literal("PV.con") + "=" + "[" + "..." + \
ZeroOrMore(pv_data + Optional("]" + scolon))
return pv_array
def _get_slack_array_construct(self):
""" Returns a construct for an array of slack bus data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
v_magnitude = real.setResultsName("v_magnitude") # p.u.
ref_angle = real.setResultsName("ref_angle") # p.u.
q_max = Optional(real).setResultsName("q_max") # p.u.
q_min = Optional(real).setResultsName("q_min") # p.u.
v_max = Optional(real).setResultsName("v_max") # p.u.
v_min = Optional(real).setResultsName("v_min") # p.u.
p_guess = Optional(real).setResultsName("p_guess") # p.u.
# Loss participation coefficient
lp_coeff = Optional(real).setResultsName("lp_coeff")
ref_bus = Optional(boolean).setResultsName("ref_bus")
status = Optional(boolean).setResultsName("status")
slack_data = bus_no + s_rating + v_rating + v_magnitude + \
ref_angle + q_max + q_min + v_max + v_min + p_guess + \
lp_coeff + ref_bus + status + scolon
slack_data.setParseAction(self.push_slack)
slack_array = Literal("SW.con") + "=" + "[" + "..." + \
ZeroOrMore(slack_data + Optional("]" + scolon))
return slack_array
def _get_pv_array_construct(self):
""" Returns a construct for an array of PV generator data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
p = real.setResultsName("p") # p.u.
v = real.setResultsName("v") # p.u.
q_max = Optional(real).setResultsName("q_max") # p.u.
q_min = Optional(real).setResultsName("q_min") # p.u.
v_max = Optional(real).setResultsName("v_max") # p.u.
v_min = Optional(real).setResultsName("v_min") # p.u.
# Loss participation coefficient
lp_coeff = Optional(real).setResultsName("lp_coeff")
status = Optional(boolean).setResultsName("status")
pv_data = bus_no + s_rating + v_rating + p + v + q_max + \
q_min + v_max + v_min + lp_coeff + status + scolon
pv_data.setParseAction(self.push_pv)
pv_array = Literal("PV.con") + "=" + "[" + "..." + \
ZeroOrMore(pv_data + Optional("]" + scolon))
return pv_array
def _get_load_ramping_construct(self):
""" Returns a construct for an array of load ramping data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
up_rate = real.setResultsName("up_rate") # p.u./h
down_rate = real.setResultsName("down_rate") # p.u./h
min_up_time = real.setResultsName("min_up_time") # min
min_down_time = real.setResultsName("min_down_time") # min
n_period_up = integer.setResultsName("n_period_up")
n_period_down = integer.setResultsName("n_period_down")
status = boolean.setResultsName("status")
l_ramp_data = bus_no + s_rating + up_rate + down_rate + \
min_up_time + min_down_time + n_period_up + \
n_period_down + status + scolon
l_ramp_array = Literal("Rmpl.con") + "=" + "[" + \
ZeroOrMore(l_ramp_data + Optional("]" + scolon))
return l_ramp_array
def _get_load_ramping_construct(self):
""" Returns a construct for an array of load ramping data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
up_rate = real.setResultsName("up_rate") # p.u./h
down_rate = real.setResultsName("down_rate") # p.u./h
min_up_time = real.setResultsName("min_up_time") # min
min_down_time = real.setResultsName("min_down_time") # min
n_period_up = integer.setResultsName("n_period_up")
n_period_down = integer.setResultsName("n_period_down")
status = boolean.setResultsName("status")
l_ramp_data = bus_no + s_rating + up_rate + down_rate + \
min_up_time + min_down_time + n_period_up + \
n_period_down + status + scolon
l_ramp_array = Literal("Rmpl.con") + "=" + "[" + \
ZeroOrMore(l_ramp_data + Optional("]" + scolon))
return l_ramp_array
def _get_generator_ramping_construct(self):
""" Returns a construct for an array of generator ramping data.
"""
supply_no = integer.setResultsName("supply_no")
s_rating = real.setResultsName("s_rating") # MVA
up_rate = real.setResultsName("up_rate") # p.u./h
down_rate = real.setResultsName("down_rate") # p.u./h
min_period_up = real.setResultsName("min_period_up") # h
min_period_down = real.setResultsName("min_period_down") # h
initial_period_up = integer.setResultsName("initial_period_up")
initial_period_down = integer.setResultsName("initial_period_down")
c_startup = real.setResultsName("c_startup") # $
status = boolean.setResultsName("status")
g_ramp_data = supply_no + s_rating + up_rate + down_rate + \
min_period_up + min_period_down + initial_period_up + \
initial_period_down + c_startup + status + scolon
g_ramp_array = Literal("Rmpg.con") + "=" + "[" + \
ZeroOrMore(g_ramp_data + Optional("]" + scolon))
return g_ramp_array
def _get_generator_ramping_construct(self):
""" Returns a construct for an array of generator ramping data.
"""
supply_no = integer.setResultsName("supply_no")
s_rating = real.setResultsName("s_rating") # MVA
up_rate = real.setResultsName("up_rate") # p.u./h
down_rate = real.setResultsName("down_rate") # p.u./h
min_period_up = real.setResultsName("min_period_up") # h
min_period_down = real.setResultsName("min_period_down") # h
initial_period_up = integer.setResultsName("initial_period_up")
initial_period_down = integer.setResultsName("initial_period_down")
c_startup = real.setResultsName("c_startup") # $
status = boolean.setResultsName("status")
g_ramp_data = supply_no + s_rating + up_rate + down_rate + \
min_period_up + min_period_down + initial_period_up + \
initial_period_down + c_startup + status + scolon
g_ramp_array = Literal("Rmpg.con") + "=" + "[" + \
ZeroOrMore(g_ramp_data + Optional("]" + scolon))
return g_ramp_array
def _get_bus_array_construct(self):
""" Returns a construct for an array of bus data.
"""
bus_no = integer.setResultsName("bus_no")
v_base = real.setResultsName("v_base") # kV
v_magnitude = Optional(real).setResultsName("v_magnitude")
v_angle = Optional(real).setResultsName("v_angle") # radians
area = Optional(integer).setResultsName("area") # not used yet
region = Optional(integer).setResultsName("region") # not used yet
bus_data = bus_no + v_base + v_magnitude + v_angle + \
area + region + scolon
bus_data.setParseAction(self.push_bus)
bus_array = Literal("Bus.con") + "=" + "[" + "..." + \
ZeroOrMore(bus_data + Optional("]" + scolon))
# Sort buses according to their name (bus_no)
bus_array.setParseAction(self.sort_buses)
return bus_array
def _get_bus_array_construct(self):
""" Returns a construct for an array of bus data.
"""
bus_no = integer.setResultsName("bus_no")
v_base = real.setResultsName("v_base") # kV
v_magnitude = Optional(real).setResultsName("v_magnitude")
v_angle = Optional(real).setResultsName("v_angle") # radians
area = Optional(integer).setResultsName("area") # not used yet
region = Optional(integer).setResultsName("region") # not used yet
bus_data = bus_no + v_base + v_magnitude + v_angle + \
area + region + scolon
bus_data.setParseAction(self.push_bus)
bus_array = Literal("Bus.con") + "=" + "[" + "..." + \
ZeroOrMore(bus_data + Optional("]" + scolon))
# Sort buses according to their name (bus_no)
bus_array.setParseAction(self.sort_buses)
return bus_array
def _get_pq_array_construct(self):
""" Returns a construct for an array of PQ load data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
p = real.setResultsName("p") # p.u.
q = real.setResultsName("q") # p.u.
v_max = Optional(real).setResultsName("v_max") # p.u.
v_min = Optional(real).setResultsName("v_min") # p.u.
# Allow conversion to impedance
z_conv = Optional(boolean).setResultsName("z_conv")
status = Optional(boolean).setResultsName("status")
pq_data = bus_no + s_rating + v_rating + p + q + v_max + \
v_min + z_conv + status + scolon
pq_data.setParseAction(self.push_pq)
pq_array = Literal("PQ.con") + "=" + "[" + "..." + \
ZeroOrMore(pq_data + Optional("]" + scolon))
return pq_array
def _get_pq_array_construct(self):
""" Returns a construct for an array of PQ load data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
v_rating = real.setResultsName("v_rating") # kV
p = real.setResultsName("p") # p.u.
q = real.setResultsName("q") # p.u.
v_max = Optional(real).setResultsName("v_max") # p.u.
v_min = Optional(real).setResultsName("v_min") # p.u.
# Allow conversion to impedance
z_conv = Optional(boolean).setResultsName("z_conv")
status = Optional(boolean).setResultsName("status")
pq_data = bus_no + s_rating + v_rating + p + q + v_max + \
v_min + z_conv + status + scolon
pq_data.setParseAction(self.push_pq)
pq_array = Literal("PQ.con") + "=" + "[" + "..." + \
ZeroOrMore(pq_data + Optional("]" + scolon))
return pq_array
def _get_supply_array_construct(self):
""" Returns a construct for an array of power supply data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
p_direction = real.setResultsName("p_direction") # CPF
p_bid_max = real.setResultsName("p_bid_max") # p.u.
p_bid_min = real.setResultsName("p_bid_min") # p.u.
p_bid_actual = real.setResultsName("p_bid_actual") # p.u.
p_fixed = real.setResultsName("p_fixed") # $/hr
p_proportional = real.setResultsName("p_proportional") # $/MWh
p_quadratic = real.setResultsName("p_quadratic") # $/MW^2h
q_fixed = real.setResultsName("q_fixed") # $/hr
q_proportional = real.setResultsName("q_proportional") # $/MVArh
q_quadratic = real.setResultsName("q_quadratic") # $/MVAr^2h
commitment = boolean.setResultsName("commitment")
cost_tie_break = real.setResultsName("cost_tie_break") # $/MWh
lp_factor = real.setResultsName(
"lp_factor") # Loss participation factor
q_max = real.setResultsName("q_max") # p.u.
q_min = real.setResultsName("q_min") # p.u.
cost_cong_up = real.setResultsName("cost_cong_up") # $/h
cost_cong_down = real.setResultsName("cost_cong_down") # $/h
status = Optional(boolean).setResultsName("status")
supply_data = bus_no + s_rating + p_direction + p_bid_max + \
p_bid_min + p_bid_actual + p_fixed + p_proportional + \
p_quadratic + q_fixed + q_proportional + q_quadratic + \
commitment + cost_tie_break + lp_factor + q_max + q_min + \
cost_cong_up + cost_cong_down + status + scolon
supply_data.setParseAction(self.push_supply)
supply_array = Literal("Supply.con") + "=" + "[" + "..." + \
ZeroOrMore(supply_data + Optional("]" + scolon))
return supply_array
def _get_supply_array_construct(self):
""" Returns a construct for an array of power supply data.
"""
bus_no = integer.setResultsName("bus_no")
s_rating = real.setResultsName("s_rating") # MVA
p_direction = real.setResultsName("p_direction") # CPF
p_bid_max = real.setResultsName("p_bid_max") # p.u.
p_bid_min = real.setResultsName("p_bid_min") # p.u.
p_bid_actual = real.setResultsName("p_bid_actual") # p.u.
p_fixed = real.setResultsName("p_fixed") # $/hr
p_proportional = real.setResultsName("p_proportional") # $/MWh
p_quadratic = real.setResultsName("p_quadratic") # $/MW^2h
q_fixed = real.setResultsName("q_fixed") # $/hr
q_proportional = real.setResultsName("q_proportional") # $/MVArh
q_quadratic = real.setResultsName("q_quadratic") # $/MVAr^2h
commitment = boolean.setResultsName("commitment")
cost_tie_break = real.setResultsName("cost_tie_break") # $/MWh
lp_factor = real.setResultsName("lp_factor")# Loss participation factor
q_max = real.setResultsName("q_max") # p.u.
q_min = real.setResultsName("q_min") # p.u.
cost_cong_up = real.setResultsName("cost_cong_up") # $/h
cost_cong_down = real.setResultsName("cost_cong_down") # $/h
status = Optional(boolean).setResultsName("status")
supply_data = bus_no + s_rating + p_direction + p_bid_max + \
p_bid_min + p_bid_actual + p_fixed + p_proportional + \
p_quadratic + q_fixed + q_proportional + q_quadratic + \
commitment + cost_tie_break + lp_factor + q_max + q_min + \
cost_cong_up + cost_cong_down + status + scolon
supply_data.setParseAction(self.push_supply)
supply_array = Literal("Supply.con") + "=" + "[" + "..." + \
ZeroOrMore(supply_data + Optional("]" + scolon))
return supply_array
