def test_water_age_sim():
epanet_proj = en.createproject()
en.open(ph=epanet_proj, inpFile=example_1_path, rptFile='report.rpt', outFile='output.out')
en.setqualtype(ph=epanet_proj, qualType=2, chemName='Age', chemUnits='hours', traceNode=None)
en.solveH(ph=epanet_proj)
en.openQ(ph=epanet_proj)
en.initQ(ph=epanet_proj, saveFlag=1)
num_nodes = en.getcount(ph=epanet_proj, object=en.NODECOUNT)
age_list = []
while True:
node_age_list = []
en.runQ(ph=epanet_proj)
t = en.nextQ(ph=epanet_proj)
for i in range(1, num_nodes*1):
node_qual = en.getnodevalue(ph=epanet_proj, index=i, property=en.QUALITY)
node_age_list.append(node_qual)
age_list.append(node_age_list)
if t <= 0:
break
en.closeQ(ph=epanet_proj)
en.closeH(ph=epanet_proj)
en.close(ph=epanet_proj)
assert age_list[26] == [1.0, 2.2141675704376946, 12.939125434025273, 24.44152992466322, 13.174235412569542,
24.441519659540887, 15.679376648181817, 21.97064181429266, 19.048343501261524, 1.0]
clean_dir()
def getNodeSourceQuality():
epanet_proj = en.createproject()
en.open(ph=epanet_proj,
inpFile=example_1_path,
rptFile='report.rpt',
outFile='output.out')
en.setqualtype(ph=epanet_proj,
qualType=1,
chemName='Chlorine',
chemUnits='mg/L',
traceNode=None)
num_nodes = en.getcount(ph=epanet_proj, object=en.NODECOUNT)
source_qual_list = []
en.openH(ph=epanet_proj)
en.initH(ph=epanet_proj, initFlag=0)
en.openQ(ph=epanet_proj)
en.initQ(ph=epanet_proj, saveFlag=1)
#sets source_ind as booster, need to find a way to acknowledge pre-set boosters
#en.setnodevalue(ph=epanet_proj, index=source_ind, property=en.SOURCETYPE, value=1)
for i in range(1, num_nodes + 1):
node_type = en.getnodevalue(ph=epanet_proj,
index=i,
property=en.SOURCETYPE)
if node_type == 1:
source_qual = en.getnodevalue(ph=epanet_proj,
index=source_ind,
property=en.SOURCEQUAL)
print('Node (index %d) source quality: %5.2f' % (i, source_qual))
source_qual_list.append(source_qual)
print('End of getNodeSourceQuality function.')
en.closeH(ph=epanet_proj)
en.closeQ(ph=epanet_proj)
en.close(ph=epanet_proj)
clean_dir()
def test_water_quality():
epanet_proj = en.createproject()
en.open(ph=epanet_proj, inpFile=example_1_path, rptFile='report.rpt', outFile='output.out')
en.setqualtype(ph=epanet_proj, qualType=1, chemName='Chlorine', chemUnits='mg/L', traceNode=None)
num_nodes = en.getcount(ph=epanet_proj, object=en.NODECOUNT)
num_links = en.getcount(ph=epanet_proj, object=en.LINKCOUNT)
tlist = []
node_cl_list = []
link_cl_list = []
en.openH(ph=epanet_proj)
en.initH(ph=epanet_proj, initFlag=0)
print('Printing hydraulic time step:')
while True:
en.runH(ph=epanet_proj)
t = en.nextH(ph=epanet_proj)
print(t)
tlist.append(t)
if t <= 0:
break
assert tlist == timesteps
en.openQ(ph=epanet_proj)
en.initQ(ph=epanet_proj, saveFlag=1)
print('Printing chlorine concentration in nodes:')
while True:
en.runQ(ph=epanet_proj)
t = en.nextQ(ph=epanet_proj)
for i in range(1, num_nodes+1):
node_qual = en.getnodevalue(ph=epanet_proj, index=i, property=en.QUALITY)
print('Node %d: %5.2f' % (i, node_qual))
node_cl_list.append(node_qual)
if t <= 0:
break
print('Printing chlorine concentration in links:')
while True:
en.runQ(ph=epanet_proj)
t = en.nextQ(ph=epanet_proj)
for i in range(1, num_links+1):
link_qual = en.getlinkvalue(ph=epanet_proj, index=i, property=en.QUALITY)
print('Node %d: %5.2f' % (i, link_qual))
link_cl_list.append(link_qual)
if t <= 0:
break
en.closeH(ph=epanet_proj)
en.closeQ(ph=epanet_proj)
en.close(ph=epanet_proj)
clean_dir()
def test_inith_runh_nexth():
epanet_proj = en.createproject()
en.open(ph=epanet_proj, inpFile=example_1_path, rptFile='report.rpt', outFile='output.out')
en.openH(ph=epanet_proj)
en.initH(ph=epanet_proj, initFlag=0)
tlist = []
print('Printing hydraulic time step:')
while True:
en.runH(ph=epanet_proj)
t = en.nextH(ph=epanet_proj)
print(t)
tlist.append(t)
if t <= 0:
break
en.closeH(ph=epanet_proj)
en.close(ph=epanet_proj)
assert tlist == timesteps
clean_dir()
def test_closeh():
epanet_proj = en.createproject()
en.open(ph=epanet_proj, inpFile=example_1_path, rptFile='report.rpt', outFile='output.out')
en.openH(ph=epanet_proj)
en.initH(ph=epanet_proj, initFlag=0)
res = en.closeH(ph=epanet_proj)
en.close(ph=epanet_proj)
assert not res
clean_dir()
def inject_chlorine(str_nodeID, booster_val):
epanet_proj = en.createproject()
en.open(ph=epanet_proj,
inpFile=example_1_path,
rptFile='report.rpt',
outFile='output.out')
en.setqualtype(ph=epanet_proj,
qualType=1,
chemName='Chlorine',
chemUnits='mg/L',
traceNode=None)
num_nodes = en.getcount(ph=epanet_proj, object=en.NODECOUNT)
num_links = en.getcount(ph=epanet_proj, object=en.LINKCOUNT)
tlist = []
en.openH(ph=epanet_proj)
en.initH(ph=epanet_proj, initFlag=0)
en.openQ(ph=epanet_proj)
booster_node = en.getnodeindex(ph=epanet_proj, id=str_nodeID)
print('Booster node index is %d' % (booster_node))
#sets node as Mass Booster
en.setnodevalue(ph=epanet_proj,
index=booster_node,
property=en.SOURCETYPE,
value=1)
en.setnodevalue(ph=epanet_proj,
index=booster_node,
property=en.SOURCEQUAL,
value=booster_val)
nodetype = en.getnodevalue(ph=epanet_proj,
index=booster_node,
property=en.SOURCETYPE)
obj = QualityControl(1) #seems to set nodetype to 1
#obj.set_nodetype(1) runs automatically
print(obj.get_nodetype()) #checking
en.initQ(ph=epanet_proj, saveFlag=1)
node_qual = en.getnodevalue(ph=epanet_proj,
index=booster_node,
property=en.SOURCEQUAL)
print('Booster node source quality: %5.2f' % (node_qual))
#print('End of inject chlorine function.')
en.closeH(ph=epanet_proj)
en.closeQ(ph=epanet_proj)
en.close(ph=epanet_proj)
clean_dir()
def test_hydraulic():
epanet_proj = en.createproject()
en.open(ph=epanet_proj, inpFile=example_1_path, rptFile='report.rpt', outFile='output.out')
en.openH(ph=epanet_proj)
en.initH(ph=epanet_proj, initFlag=0)
num_nodes = en.getcount(ph=epanet_proj, object=en.NODECOUNT)
num_links = en.getcount(ph=epanet_proj, object=en.LINKCOUNT)
tlist = []
head_list = []
demand_list = []
flow_list = []
length_list = []
diam_list = []
vel_list = []
print('Printing hydraulic time step:')
while True:
en.runH(ph=epanet_proj)
t = en.nextH(ph=epanet_proj)
print(t)
tlist.append(t)
if t <= 0:
break
assert tlist == timesteps
print('Printing demand in nodes:')
for node_ind in range(1, num_nodes+1):
en.runH(ph=epanet_proj)
demand = en.getnodevalue(ph=epanet_proj, index=node_ind, property=en.BASEDEMAND)
print('Node %d: %5.2f' % (node_ind, demand))
demand_list.append(demand)
print('Printing head in nodes:')
for node_ind in range(1, num_nodes+1):
en.runH(ph=epanet_proj)
head = en.getnodevalue(ph=epanet_proj, index=node_ind, property=en.HEAD)
print('Node %d: %5.2f' % (node_ind, head))
head_list.append(head)
print('Printing flowrate in links:')
for link_ind in range(1, num_links+1):
en.runH(ph=epanet_proj)
flow = en.getlinkvalue(ph=epanet_proj, index=link_ind, property=en.FLOW)
print('Link %d: %5.2f' % (link_ind, flow))
flow_list.append(flow)
print('Printing length of links:')
for link_ind in range(1, num_links+1):
en.runH(ph=epanet_proj)
length = en.getlinkvalue(ph=epanet_proj, index=link_ind, property=en.LENGTH)
print('Link %d: %5.2f' % (link_ind, length))
length_list.append(length)
print('Printing diameter of links:')
for link_ind in range(1, num_links+1):
en.runH(ph=epanet_proj)
diam = en.getlinkvalue(ph=epanet_proj, index=link_ind, property=en.DIAMETER)
print('Link %d: %5.2f' % (link_ind, diam))
diam_list.append(diam)
print('Printing velocity in links:')
for link_ind in range(1, num_links+1):
en.runH(ph=epanet_proj)
vel = en.getlinkvalue(ph=epanet_proj, index=link_ind, property=en.VELOCITY)
print('Link %d: %5.2f' % (link_ind, vel))
vel_list.append(vel)
en.closeH(ph=epanet_proj)
en.close(ph=epanet_proj)
clean_dir()
def __del__(self):
# Close solver.
en.closeH(ph=self.project)
# Close project.
en.close(ph=self.project)
def closeHydraulicAnalysis(self):
en.closeH(ph=self.epanet_proj)
ctx_stack.enter_context(LinkValueCSVWriter(fn, ph, lv))
for lv, fn in linkvalue_filename_list
]
## Simulation loop
while True:
t = en.runH(ph)
#print(f'time after runH: {t}')
#print_node_heads(ph, t, node_count)
tq = en.runQ(ph)
assert tq == t, f'time after en.runQ ({tq}) != en.runH ({t})'
for nv_wrt in nodevalue_wrts:
nv_wrt(t)
for lv_wrt in linkvalue_wrts:
lv_wrt(t)
hstep = en.nextH(ph)
qstep = en.nextQ(ph)
#print(f'hstep after nextH: {hstep}')
if hstep == 0:
break
en.closeH(ph)
#en.saveH(ph)
#en.report(ph)
en.deleteproject(ph)
