def test_conduit_section(self):
"""Test CONDUIT section using Project class, data from Example 7"""
from_text = Project()
source_text = "[CONDUITS]\n" \
" ;; Inlet Outlet Manning Inlet Outlet Init. Max.\n" \
" ;;Name Node Node Length N Offset Offset Flow Flow\n" \
" ;;-------------- ---------------- ---------------- ---------- ---------- ---------- ---------- ---------- ----------\n" \
" C2a J2a J2 157.48 0.016 4 4 0 0\n" \
" C2 J2 J11 526.0 0.016 4 6 0 0\n" \
" C3 J3 J4 109.0 0.016 0 6 0 0\n" \
" C4 J4 J5 133.0 0.05 6 4 0 0\n" \
" C5 J5 J6 207.0 0.05 4 0 0 0\n" \
" C6 J7 J6 140.0 0.05 8 0 0 0\n" \
" C7 J6 J8 95.0 0.016 0 0 0 0\n" \
" C8 J8 J9 166.0 0.05 0 0 0 0\n" \
" C9 J9 J10 320.0 0.05 0 6 0 0\n" \
" C10 J10 J11 145.0 0.05 6 6 0 0\n" \
" C11 J11 O1 89.0 0.016 0 0 0 0\n" \
" C_Aux1 Aux1 J1 377.31 0.016 0 4 0 0\n" \
" C_Aux2 Aux2 J2a 239.41 0.016 0 4 0 0\n" \
" C_Aux1to2 J1 Aux2 286.06 0.016 4 0 0 0\n" \
" C_Aux3 Aux3 J3 444.75 0.05 6 0 0 0\n" \
" P1 J1 J5 185.39 0.016 0 0 0 0\n" \
" P2 J2a J2 157.48 0.016 0 0 0 0\n" \
" P3 J2 J11 529.22 0.016 0 0 0 0\n" \
" P4 Aux3 J4 567.19 0.016 0 0 0 0\n" \
" P5 J5 J4 125.98 0.016 0 0 0 0\n" \
" P6 J4 J7 360.39 0.016 0 0 0 0\n" \
" P7 J7 J10 507.76 0.016 0 0 0 0\n" \
" P8 J10 J11 144.50 0.016 0 0 0 0"
from_text.set_text(source_text)
project_section = from_text.conduits
assert Section.match_omit(project_section.get_text(), source_text,
" \t-;\n")
def test_curves(self):
"""Test Curves section"""
self.my_curve = curves.Curve()
self.my_curve = curves.Curve()
self.my_curve.curve_id = "XXX"
self.my_curve.description = "test curve"
self.my_curve.curve_type = curves.CurveType.HEADLOSS
self.my_curve.curve_xy = ((1500, 250), (1400, 200))
assert self.my_curve.curve_id == "XXX"
assert self.my_curve.description == "test curve"
assert self.my_curve.get_text().split() == [';HEADLOSS:', 'test', 'curve',
'XXX', '1500', '250', 'XXX', '1400', '200'], "incorrect pattern block"
# Create new project with new text
test_text = ("[CURVES]",
";ID\tX-Value\tY-Value",
";--\t-------\t-------",
";PUMP: Pump Curve for Pump 9",
" 1\t1500\t250\t")
from_text = Project()
from_text.set_text('\n'.join(test_text))
project_curves = from_text.curves
assert Section.match_omit(project_curves.get_text(), '\n'.join(test_text), " -;\t\n")
assert len(project_curves.value) == 1
this_curve = project_curves.value[0]
assert this_curve.curve_id == '1'
assert this_curve.description == "Pump Curve for Pump 9"
assert this_curve.curve_type == curves.CurveType.PUMP
assert this_curve.curve_xy == [("1500", "250")]
def test_conduit_section(self):
"""Test CONDUIT section using Project class, data from Example 7"""
from_text = Project()
source_text = "[CONDUITS]\n" \
" ;; Inlet Outlet Manning Inlet Outlet Init. Max.\n" \
" ;;Name Node Node Length N Offset Offset Flow Flow\n" \
" ;;-------------- ---------------- ---------------- ---------- ---------- ---------- ---------- ---------- ----------\n" \
" C2a J2a J2 157.48 0.016 4 4 0 0\n" \
" C2 J2 J11 526.0 0.016 4 6 0 0\n" \
" C3 J3 J4 109.0 0.016 0 6 0 0\n" \
" C4 J4 J5 133.0 0.05 6 4 0 0\n" \
" C5 J5 J6 207.0 0.05 4 0 0 0\n" \
" C6 J7 J6 140.0 0.05 8 0 0 0\n" \
" C7 J6 J8 95.0 0.016 0 0 0 0\n" \
" C8 J8 J9 166.0 0.05 0 0 0 0\n" \
" C9 J9 J10 320.0 0.05 0 6 0 0\n" \
" C10 J10 J11 145.0 0.05 6 6 0 0\n" \
" C11 J11 O1 89.0 0.016 0 0 0 0\n" \
" C_Aux1 Aux1 J1 377.31 0.016 0 4 0 0\n" \
" C_Aux2 Aux2 J2a 239.41 0.016 0 4 0 0\n" \
" C_Aux1to2 J1 Aux2 286.06 0.016 4 0 0 0\n" \
" C_Aux3 Aux3 J3 444.75 0.05 6 0 0 0\n" \
" P1 J1 J5 185.39 0.016 0 0 0 0\n" \
" P2 J2a J2 157.48 0.016 0 0 0 0\n" \
" P3 J2 J11 529.22 0.016 0 0 0 0\n" \
" P4 Aux3 J4 567.19 0.016 0 0 0 0\n" \
" P5 J5 J4 125.98 0.016 0 0 0 0\n" \
" P6 J4 J7 360.39 0.016 0 0 0 0\n" \
" P7 J7 J10 507.76 0.016 0 0 0 0\n" \
" P8 J10 J11 144.50 0.016 0 0 0 0"
from_text.set_text(source_text)
project_section = from_text.conduits
assert Section.match_omit(project_section.get_text(), source_text, " \t-;\n")
def test_curves(self):
"""Test Curves section"""
self.my_curve = curves.Curve()
self.my_curve = curves.Curve()
self.my_curve.curve_id = "XXX"
self.my_curve.description = "test curve"
self.my_curve.curve_type = curves.CurveType.HEADLOSS
self.my_curve.curve_xy = ((1500, 250), (1400, 200))
assert self.my_curve.curve_id == "XXX"
assert self.my_curve.description == "test curve"
assert self.my_curve.get_text().split() == [
';HEADLOSS:', 'test', 'curve', 'XXX', '1500', '250', 'XXX', '1400',
'200'
], "incorrect pattern block"
# Create new project with new text
test_text = ("[CURVES]", ";ID\tX-Value\tY-Value",
";--\t-------\t-------", ";PUMP: Pump Curve for Pump 9",
" 1\t1500\t250\t")
from_text = Project()
from_text.set_text('\n'.join(test_text))
project_curves = from_text.curves
assert Section.match_omit(project_curves.get_text(),
'\n'.join(test_text), " -;\t\n")
assert len(project_curves.value) == 1
this_curve = project_curves.value[0]
assert this_curve.curve_id == '1'
assert this_curve.description == "Pump Curve for Pump 9"
assert this_curve.curve_type == curves.CurveType.PUMP
assert this_curve.curve_xy == [("1500", "250")]
def runTest(self):
"""Test set_text and get_text"""
from_text = Project()
source_text = '\n'.join(self.TEST_TEXT)
from_text.set_text(source_text)
project_sources = from_text.sources
assert Section.match_omit(project_sources.get_text(), source_text,
" \t-;\n")
assert project_sources.value[0].id == "JUNCTION-9090"
assert project_sources.value[0].source_type == SourceType.CONCEN
assert project_sources.value[0].baseline_strength == "8330"
assert project_sources.value[0].pattern_id == "Pattern-A"
assert project_sources.value[1].id == "JUNCTION-9091"
assert project_sources.value[1].source_type == SourceType.MASS
assert project_sources.value[1].baseline_strength == "8331"
assert project_sources.value[1].pattern_id == "Pattern-B"
assert project_sources.value[2].id == "JUNCTION-9092"
assert project_sources.value[2].source_type == SourceType.FLOWPACED
assert project_sources.value[2].baseline_strength == "8332"
assert project_sources.value[2].pattern_id == "Pattern-C"
assert project_sources.value[3].id == "JUNCTION-9093"
assert project_sources.value[3].source_type == SourceType.SETPOINT
assert project_sources.value[3].baseline_strength == "8333"
assert project_sources.value[3].pattern_id == "Pattern-D"
assert project_sources.value[4].id == "JUNCTION-9094"
assert project_sources.value[4].source_type == SourceType.CONCEN
assert project_sources.value[4].baseline_strength == "8334"
assert project_sources.value[4].pattern_id == ""
def runTest(self):
"""Test set_text and get_text"""
from_text = Project()
source_text = '\n'.join(self.TEST_TEXT)
from_text.set_text(source_text)
project_sources = from_text.sources
assert Section.match_omit(project_sources.get_text(), source_text, " \t-;\n")
assert project_sources.value[0].id == "JUNCTION-9090"
assert project_sources.value[0].source_type == SourceType.CONCEN
assert project_sources.value[0].baseline_strength == "8330"
assert project_sources.value[0].pattern_id == "Pattern-A"
assert project_sources.value[1].id == "JUNCTION-9091"
assert project_sources.value[1].source_type == SourceType.MASS
assert project_sources.value[1].baseline_strength == "8331"
assert project_sources.value[1].pattern_id == "Pattern-B"
assert project_sources.value[2].id == "JUNCTION-9092"
assert project_sources.value[2].source_type == SourceType.FLOWPACED
assert project_sources.value[2].baseline_strength == "8332"
assert project_sources.value[2].pattern_id == "Pattern-C"
assert project_sources.value[3].id == "JUNCTION-9093"
assert project_sources.value[3].source_type == SourceType.SETPOINT
assert project_sources.value[3].baseline_strength == "8333"
assert project_sources.value[3].pattern_id == "Pattern-D"
assert project_sources.value[4].id == "JUNCTION-9094"
assert project_sources.value[4].source_type == SourceType.CONCEN
assert project_sources.value[4].baseline_strength == "8334"
assert project_sources.value[4].pattern_id == ""
def test_junctions(self):
"""Test JUNCTIONS section through Project class"""
test_text = r"""
[JUNCTIONS]
;; Invert Max. Init. Surcharge Ponded
;;Name Elev. Depth Depth Depth Area
;;-------------- ---------- ---------- ---------- ---------- ----------
J1 4973 0 0 0 0
J2 4969 0 0 0 0
J3 4973 0 0 0 0
J4 4971 0 0 0 0
J5 4969.8 0 0 0 0
J6 4969 0 0 0 0
J7 4971.5 0 0 0 0
J8 4966.5 0 0 0 0
J9 4964.8 0 0 0 0
J10 4963.8 0 0 0 0
J11 4963 0 0 0 0
J12 4973.8 0 0 0 0
J13 4970.7 0 0 0 0
J14 4972.9 0 0 0 0
J15 4974.5 0 0 0 0
J16 4973.5 0 0 0 0
J17 4973.5 0 0 0 0
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.junctions
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_dividers(self):
"""Test DIVIDERS section from Example-1b"""
from_text = Project()
source_text = "[DIVIDERS]\n" \
";;Name Elevation Diverted Link Type Parameters\n" \
";;-------------- ---------- ---------------- ---------- ----------\n" \
"10 0 * CUTOFF 0 0 0"
from_text.set_text(source_text)
project_section = from_text.dividers
assert Section.match_omit(project_section.get_text(), source_text, " \t-;\n")
def test_dividers(self):
"""Test DIVIDERS section from Example-1b"""
from_text = Project()
source_text = "[DIVIDERS]\n" \
";;Name Elevation Diverted Link Type Parameters\n" \
";;-------------- ---------- ---------------- ---------- ----------\n" \
"10 0 * CUTOFF 0 0 0"
from_text.set_text(source_text)
project_section = from_text.dividers
assert Section.match_omit(project_section.get_text(), source_text,
" \t-;\n")
def test_outfall_section(self):
"""Test OUTFALLS section"""
test_text = r"""
[OUTFALLS]
;;Name Elevation Type Stage Data Gated Route To
;;-------------- ---------- ---------- ---------------- -------- ----------------
18 975 FREE NO
18 975 FREE NO xxx
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.outfalls
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_rdii_section(self):
test_text = r"""
[RDII]
;;Node UHgroup SewerArea
;;----------------------------------------------------------------------
80408 FLOW 80408
81009 FLOW 81009
82309 FLOW 82309
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.rdii
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_outfall_section(self):
"""Test OUTFALLS section"""
test_text = r"""
[OUTFALLS]
;;Name Elevation Type Stage Data Gated Route To
;;-------------- ---------- ---------- ---------------- -------- ----------------
18 975 FREE NO
18 975 FREE NO xxx
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.outfalls
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
def test_treatment_section(self):
"""Test TREATMENT section"""
test_text = r"""
[TREATMENT]
;; Results: R or C
;; R-Fraction removal
;; C-efflument concentration
;;Node Pollutant Result = Func
;;----------------------------------------------------------------------
Node23 BOD C = BOD * exp(-0.05*HRT)
Node24 Lead R = 0.2 * R_TSS
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.treatment
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_dwf_section_example8(self):
"""Test DWF section from example 8"""
from_text = Project()
source_text = r"""[DWF]
;; Average Time
;;Node Parameter Value Patterns
;;-------------- ---------------- ---------- ----------
J1 FLOW 0.008
J2a FLOW 0.01
J12 FLOW 0.0125
J13 FLOW 0.0123
Aux3 FLOW 0.004 """
# --Test set_text
from_text.set_text(source_text)
project_section = from_text.dwf
assert Section.match_omit(project_section.get_text(), source_text, " \t-;\n")
def test_washoff_section(self):
"""Test WASHOFF section"""
test_text = r"""
[WASHOFF]
;; Clean. BMP
;;LandUse Pollutant Function Coeff1 Coeff2 Effic. Effic.
;;------------------------------------------------------------------------------
Residential TSS EXP 0.1 1 0 0
Residential Lead EMC 0 0 0 0
Undeveloped TSS EXP 0.1 0.7 0 0
Undeveloped Lead EMC 0 0 0 0
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.washoff
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_washoff_section(self):
"""Test WASHOFF section"""
test_text = r"""
[WASHOFF]
;; Clean. BMP
;;LandUse Pollutant Function Coeff1 Coeff2 Effic. Effic.
;;------------------------------------------------------------------------------
Residential TSS EXP 0.1 1 0 0
Residential Lead EMC 0 0 0 0
Undeveloped TSS EXP 0.1 0.7 0 0
Undeveloped Lead EMC 0 0 0 0
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.washoff
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
def test_landuses(self):
"""Test LANDUSES section"""
test_text = r"""
[LANDUSES]
;; Cleaning Fraction Last
;;Name Interval Available Cleaned
;;-------------- ---------- ---------- ----------
Residential_1 0 0 0
Residential_2 0 0 0
Commercial 0 0 0
LID 0 0 0
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.landuses
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_dwf_section_example8(self):
"""Test DWF section from example 8"""
from_text = Project()
source_text = r"""[DWF]
;; Average Time
;;Node Parameter Value Patterns
;;-------------- ---------------- ---------- ----------
J1 FLOW 0.008
J2a FLOW 0.01
J12 FLOW 0.0125
J13 FLOW 0.0123
Aux3 FLOW 0.004 """
# --Test set_text
from_text.set_text(source_text)
project_section = from_text.dwf
assert Section.match_omit(project_section.get_text(), source_text,
" \t-;\n")
def test_treatment_section(self):
"""Test TREATMENT section"""
test_text = r"""
[TREATMENT]
;; Results: R or C
;; R-Fraction removal
;; C-efflument concentration
;;Node Pollutant Result = Func
;;----------------------------------------------------------------------
Node23 BOD C = BOD * exp(-0.05*HRT)
Node24 Lead R = 0.2 * R_TSS
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.treatment
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
def test_lid_usage_section(self):
"""Test LIDUSAGE section through Project class
Test failed as current LID usage only contains one line of LID usage
Also code compained when I have special character in the comment lines"""
test_text = r"""
[LID_USAGE]
;34 rain barrels of 12 sq ft each are placed in
;subcatchment S1. They are initially empty and treat 17
;The outflow from the barrels is returned to the
;subcatchments pervious area.
S1 RB14 34 12 0 0 17 1
S2 Swale 1 10000 50 0 0 0 swale.rpt
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.lid_usage
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_aquifers(self):
"""Test AQUIFERS section using the Project class"""
from_text = Project()
source_text = '\n'.join(self.TEST_TEXT)
from_text.set_text(source_text)
project_section = from_text.aquifers
assert Section.match_omit(project_section.get_text(), source_text, " \t-;\n")
val = project_section.value[0]
assert val.name == "1"
assert val.porosity == "0.5"
assert val.wilting_point == "0.15"
assert val.field_capacity == "0.30"
assert val.conductivity == "0.1"
assert val.conductivity_slope == "12"
assert val.tension_slope == "15.0"
assert val.upper_evaporation_fraction == "0.35"
assert val.lower_evaporation_depth == "14.0"
assert val.lower_groundwater_loss_rate == "0.002"
assert val.bottom_elevation == "0.0"
assert val.water_table_elevation == "3.5"
assert val.unsaturated_zone_moisture == "0.40"
assert val.upper_evaporation_pattern == ""
val = project_section.value[1]
assert val.name == "1"
assert val.porosity == "2"
assert val.wilting_point == "3"
assert val.field_capacity == "4"
assert val.conductivity == "5"
assert val.conductivity_slope == "6"
assert val.tension_slope == "7"
assert val.upper_evaporation_fraction == "8"
assert val.lower_evaporation_depth == "9"
assert val.lower_groundwater_loss_rate == "10"
assert val.bottom_elevation == "11"
assert val.water_table_elevation == "12"
assert val.unsaturated_zone_moisture == "13"
assert val.upper_evaporation_pattern == "14"
assert Aquifer.metadata.label_of("name") == "Aquifer Name"
assert Aquifer.metadata.hint_of("name") == "User-assigned aquifer name."
def test_interface_files(self):
"""Test FILES options using the Section class"""
self.my_options = Files()
name = self.my_options.SECTION_NAME
assert name == "[FILES]"
actual_text = self.my_options.get_text()
# Expect blank section when there are no contents for the section
assert actual_text == ''
self.my_options.save_outflows = "save_outflows.txt"
expected_text = self.my_options.SECTION_NAME + '\n' + self.my_options.comment
expected_text += "\nSAVE OUTFLOWS \tsave_outflows.txt"
actual_text = self.my_options.get_text()
assert Section.match_omit(actual_text, expected_text, " \t-")
def test_lid_usage_section(self):
"""Test LIDUSAGE section through Project class
Test failed as current LID usage only contains one line of LID usage
Also code compained when I have special character in the comment lines"""
test_text = r"""
[LID_USAGE]
;34 rain barrels of 12 sq ft each are placed in
;subcatchment S1. They are initially empty and treat 17
;The outflow from the barrels is returned to the
;subcatchments pervious area.
S1 RB14 34 12 0 0 17 1
S2 Swale 1 10000 50 0 0 0 swale.rpt
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.lid_usage
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
def runTest(self):
"""Test files options"""
self.my_options = files.Files()
name = self.my_options.SECTION_NAME
assert name == "[FILES]"
actual_text = self.my_options.get_text()
# Expect blank section when there are no contents for the section
assert actual_text == ''
self.my_options.save_outflows = "save_outflows.txt"
expected_text = self.my_options.SECTION_NAME + '\n' + self.my_options.comment
expected_text += "\nSAVE OUTFLOWS \tsave_outflows.txt"
actual_text = self.my_options.get_text()
assert Section.match_omit(actual_text, expected_text, " \t-")
def test_landuses(self):
"""Test LANDUSES section"""
test_text = r"""
[LANDUSES]
;; Cleaning Fraction Last
;;Name Interval Available Cleaned
;;-------------- ---------- ---------- ----------
Residential_1 0 0 0
Residential_2 0 0 0
Commercial 0 0 0
LID 0 0 0
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.landuses
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
def test_dwf_section_example3(self):
"""Test DWF section from example 3"""
from_text = Project()
source_text = r"""
[DWF]
;; Average Time
;;Node Parameter Value Patterns
;;-----------------------------------------------------
KRO3001 FLOW 1 "" "" "DWF" "" "" "" ""
KRO6015 FLOW 1 "" "" "DWF" "" "" "" ""
KRO6016 FLOW 1 "" "" "DWF" "" "" "" ""
KRO6017 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1002 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1003 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1004 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1005 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1006 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1007 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1008 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1009 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1010 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1012 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1013 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1015 FLOW 1 "" "" "DWF" "" "" "" ""
KRO2001 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4004 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4008 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4009 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4010 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4011 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4012 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4013 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4014 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4015 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4017 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4018 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4019 FLOW 1 "" "" "DWF" "" "" "" ""
SU1 FLOW 1 "" "" "DWF" "" "" "" ""
"""
from_text.set_text(source_text)
project_section = from_text.dwf
assert Section.match_omit(project_section.get_text(), source_text,
" \t-;\n")
def test_dwf_section_example3(self):
"""Test DWF section from example 3"""
from_text = Project()
source_text = r"""
[DWF]
;; Average Time
;;Node Parameter Value Patterns
;;-----------------------------------------------------
KRO3001 FLOW 1 "" "" "DWF" "" "" "" ""
KRO6015 FLOW 1 "" "" "DWF" "" "" "" ""
KRO6016 FLOW 1 "" "" "DWF" "" "" "" ""
KRO6017 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1002 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1003 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1004 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1005 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1006 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1007 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1008 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1009 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1010 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1012 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1013 FLOW 1 "" "" "DWF" "" "" "" ""
KRO1015 FLOW 1 "" "" "DWF" "" "" "" ""
KRO2001 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4004 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4008 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4009 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4010 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4011 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4012 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4013 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4014 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4015 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4017 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4018 FLOW 1 "" "" "DWF" "" "" "" ""
KRO4019 FLOW 1 "" "" "DWF" "" "" "" ""
SU1 FLOW 1 "" "" "DWF" "" "" "" ""
"""
from_text.set_text(source_text)
project_section = from_text.dwf
assert Section.match_omit(project_section.get_text(), source_text, " \t-;\n")
def test_snowpacks_section(self):
"""Test SNOWPACKS section"""
test_text = r"""
[SNOWPACKS]
;;Name Surface Parameters
;;-------------- ---------- ----------
sno PLOWABLE 0.001 0.001 32.0 0.10 0.00 0.00 0.0
sno IMPERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
sno PERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
sno REMOVAL 1.0 0.0 0.0 0.0 0.0 0.0
s PLOWABLE 0.001 0.001 32.0 0.10 0.00 0.00 0.0
s IMPERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
s PERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
s REMOVAL 1.0 0.0 0.0 0.0 0.0 0.0 w
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.snowpacks
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_subcatchments(self):
"""Test SUBCATCHMENTS section from Example 1"""
test_text = """[SUBCATCHMENTS]
;; Total Pcnt. Pcnt. Curb Snow
;;Name Raingage Outlet Area Imperv Width Slope Length Pack
;;----------------------------------------------------------------------------------------------------
1 RG1 9 10 50 500 0.01 0
2 RG1 10 10 50 500 0.01 0
3 RG1 13 5 50 500 0.01 0
4 RG1 22 5 50 500 0.01 0
5 RG1 15 15 50 500 0.01 0
6 RG1 23 12 10 500 0.01 0
7 RG1 19 4 10 500 0.01 0
8 RG1 18 10 10 500 0.01 0
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.subcatchments
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
def test_snowpacks_section(self):
"""Test SNOWPACKS section"""
test_text = r"""
[SNOWPACKS]
;;Name Surface Parameters
;;-------------- ---------- ----------
sno PLOWABLE 0.001 0.001 32.0 0.10 0.00 0.00 0.0
sno IMPERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
sno PERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
sno REMOVAL 1.0 0.0 0.0 0.0 0.0 0.0
s PLOWABLE 0.001 0.001 32.0 0.10 0.00 0.00 0.0
s IMPERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
s PERVIOUS 0.001 0.001 32.0 0.10 0.00 0.00 0.00
s REMOVAL 1.0 0.0 0.0 0.0 0.0 0.0 w
"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.snowpacks
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
def test_project_section(self):
"""Test EVAPORATION use project section"""
test_text = ("[EVAPORATION]", ";;Type \tParameters",
";;----------\t----------", "CONSTANT \t0.2",
"DRY_ONLY \tNO")
from_text = Project()
test_text = '\n'.join(test_text)
from_text.set_text(test_text)
project_section = from_text.evaporation
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
assert project_section.format == EvaporationFormat.CONSTANT
assert project_section.constant == "0.2"
assert project_section.monthly == ()
assert project_section.timeseries == ''
assert project_section.monthly_pan_coefficients == ()
assert project_section.recovery_pattern == ''
assert project_section.dry_only is False
actual_text = project_section.get_text()
msg = '\nSet:' + test_text + '\nGet:' + actual_text
self.assertTrue(project_section.matches(test_text), msg)
def test_project_section(self):
"""Test EVAPORATION use project section"""
test_text = ("[EVAPORATION]",
";;Type \tParameters",
";;----------\t----------",
"CONSTANT \t0.2",
"DRY_ONLY \tNO")
from_text = Project()
test_text = '\n'.join(test_text)
from_text.set_text(test_text)
project_section = from_text.evaporation
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
assert project_section.format == EvaporationFormat.CONSTANT
assert project_section.constant == "0.2"
assert project_section.monthly == ()
assert project_section.timeseries == ''
assert project_section.monthly_pan_coefficients == ()
assert project_section.recovery_pattern == ''
assert project_section.dry_only is False
actual_text = project_section.get_text()
msg = '\nSet:' + test_text + '\nGet:' + actual_text
self.assertTrue(project_section.matches(test_text), msg)
def runTest(self):
"""Test set_text and get_text of demand options"""
from_text = Project()
source_text = '\n'.join(self.TEST_TEXT)
from_text.set_text(source_text)
project_demands = from_text.demands
assert Section.match_omit(project_demands.get_text(), source_text, " \t-;\n")
assert project_demands.value[0].junction_id == "JUNCTION-0"
assert project_demands.value[0].base_demand == "0.0"
assert project_demands.value[0].demand_pattern == "PATTERN-1"
assert project_demands.value[0].category == ''
assert project_demands.value[1].junction_id == "JUNCTION-1"
assert project_demands.value[1].base_demand == "0.1"
assert project_demands.value[1].demand_pattern == "PATTERN-2"
assert project_demands.value[1].category == ''
assert project_demands.value[2].junction_id == "JUNCTION-12"
assert project_demands.value[2].base_demand == "0.2"
assert project_demands.value[2].demand_pattern == "PATTERN-12"
assert project_demands.value[2].category == "Category-12"
def runTest(self):
"""Test set_text and get_text of demand options"""
from_text = Project()
source_text = '\n'.join(self.TEST_TEXT)
from_text.set_text(source_text)
project_demands = from_text.demands
assert Section.match_omit(project_demands.get_text(), source_text,
" \t-;\n")
assert project_demands.value[0].junction_id == "JUNCTION-0"
assert project_demands.value[0].base_demand == "0.0"
assert project_demands.value[0].demand_pattern == "PATTERN-1"
assert project_demands.value[0].category == ''
assert project_demands.value[1].junction_id == "JUNCTION-1"
assert project_demands.value[1].base_demand == "0.1"
assert project_demands.value[1].demand_pattern == "PATTERN-2"
assert project_demands.value[1].category == ''
assert project_demands.value[2].junction_id == "JUNCTION-12"
assert project_demands.value[2].base_demand == "0.2"
assert project_demands.value[2].demand_pattern == "PATTERN-12"
assert project_demands.value[2].category == "Category-12"
def test_hydrographs(self):
"""Test HYDROGRAPHS section"""
TEST_TEXT = (
"[HYDROGRAPHS]",
";;Hydrograph\tMonth\tResponse\tR\tT\tK\tDmax\tDrecov\tDinit",
"UH101 RG1", "UH101 ALL SHORT 0.033 1.0 2.0",
"UH101 ALL MEDIUM 0.300 3.0 2.0\t1\t2\t3",
"UH101 ALL LONG 0.033 10.0 2.0", "UH101 JUL SHORT 0.033 0.5 2.0",
"UH101 JUL MEDIUM 0.011 2.0 2.0")
from_text = Project()
source_text = '\n'.join(TEST_TEXT)
from_text.set_text(source_text)
project_hydrographs = from_text.hydrographs
assert Section.match_omit(project_hydrographs.get_text(), source_text,
" \t-;\n")
assert len(project_hydrographs.value) == 1
val = project_hydrographs.value[0]
assert val.group_name == "UH101"
assert val.rain_gage_id == "RG1"
assert len(val.value) == 5
hydrograph_item = val.value[0]
assert hydrograph_item.hydrograph_month == "ALL"
assert hydrograph_item.term == "SHORT"
assert hydrograph_item.response_ratio == "0.033"
assert hydrograph_item.time_to_peak == "1.0"
assert hydrograph_item.recession_limb_ratio == "2.0"
assert hydrograph_item.initial_abstraction_depth == ''
assert hydrograph_item.initial_abstraction_rate == ''
assert hydrograph_item.initial_abstraction_amount == ''
hydrograph_item = val.value[1]
assert hydrograph_item.hydrograph_month == "ALL"
assert hydrograph_item.term == "MEDIUM"
assert hydrograph_item.response_ratio == "0.300"
assert hydrograph_item.time_to_peak == "3.0"
assert hydrograph_item.recession_limb_ratio == "2.0"
assert hydrograph_item.initial_abstraction_depth == '1'
assert hydrograph_item.initial_abstraction_rate == '2'
assert hydrograph_item.initial_abstraction_amount == '3'
hydrograph_item = val.value[2]
assert hydrograph_item.hydrograph_month == "ALL"
assert hydrograph_item.term == "LONG"
assert hydrograph_item.response_ratio == "0.033"
assert hydrograph_item.time_to_peak == "10.0"
assert hydrograph_item.recession_limb_ratio == "2.0"
assert hydrograph_item.initial_abstraction_depth == ''
assert hydrograph_item.initial_abstraction_rate == ''
assert hydrograph_item.initial_abstraction_amount == ''
hydrograph_item = val.value[4]
assert hydrograph_item.hydrograph_month == "JUL"
assert hydrograph_item.term == "MEDIUM"
assert hydrograph_item.response_ratio == "0.011"
assert hydrograph_item.time_to_peak == "2.0"
assert hydrograph_item.recession_limb_ratio == "2.0"
assert hydrograph_item.initial_abstraction_depth == ''
assert hydrograph_item.initial_abstraction_rate == ''
assert hydrograph_item.initial_abstraction_amount == ''
def test_pattern_section(self):
"""test PATTERNS section"""
test_text = r"""
[PATTERNS]
;;Name Type Multipliers
;;-------------- ---------- -----------
;xx
x MONTHLY 1.0 1.0 1.0 1.0 1.0 1.0
x 1.0 1.0 1.0 1.0 1.0 1.0"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.patterns
assert Section.match_omit(project_section.get_text(), test_text,
" \t-;\n")
test_text = r"""[PATTERNS]
;;Name Type Multipliers
;;----------------------------------------------------------------------
DWF HOURLY .0151 .01373 .01812 .01098 .01098 .01922
DWF .02773 .03789 .03515 .03982 .02059 .02471
DWF .03021 .03789 .03350 .03158 .03954 .02114
DWF .02801 .03680 .02911 .02334 .02499 .02718"""
test_text = """
[PATTERNS]
;ID Multipliers
;Demand Pattern
1 1.0 1.2 1.4 1.6 1.4 1.2
1 1.0 0.8 0.6 0.4 0.6 0.8
"""
test_text = """[PATTERNS]
;ID Multipliers
;Demand Pattern
1 1.26 1.04 .97 .97 .89 1.19
1 1.28 .67 .67 1.34 2.46 .97
1 .92 .68 1.43 .61 .31 .78
1 .37 .67 1.26 1.56 1.19 1.26
1 .6 1.1 1.03 .73 .88 1.06
1 .99 1.72 1.12 1.34 1.12 .97
1 1.04 1.15 .91 .61 .68 .46
1 .51 .74 1.12 1.34 1.26 .97
1 .82 1.37 1.03 .81 .88 .81
1 .81
;Pump Station Outflow Pattern
2 .96 .96 .96 .96 .96 .96
2 .62 0 0 0 0 0
2 .8 1 1 1 1 .15
2 0 0 0 0 0 0
2 .55 .92 .92 .92 .92 .9
2 .9 .45 0 0 0 0
2 0 .7 1 1 1 1
2 .2 0 0 0 0 0
2 0 .74 .92 .92 .92 .92
2 .92
;Pump Station Fluoride Pattern
3 .98 1.02 1.05 .99 .64 .46
3 .35 .35 .35 .35 .35 .35
3 .17 .17 .13 .13 .13 .15
3 .15 .15 .15 .15 .15 .15
3 .15 .12 .1 .08 .11 .09
3 .09 .08 .08 .08 .08 .08
3 .08 .09 .07 .07 .09 .09
3 .09 .09 .09 .09 .09 .09
3 .09 .08 .35 .72 .82 .92
3 1
"""
# Test Net 3
test_text = """[PATTERNS]
def test_pattern_section(self):
"""test PATTERNS section"""
test_text = r"""
[PATTERNS]
;;Name Type Multipliers
;;-------------- ---------- -----------
;xx
x MONTHLY 1.0 1.0 1.0 1.0 1.0 1.0
x 1.0 1.0 1.0 1.0 1.0 1.0"""
from_text = Project()
from_text.set_text(test_text)
project_section = from_text.patterns
assert Section.match_omit(project_section.get_text(), test_text, " \t-;\n")
test_text=r"""[PATTERNS]
;;Name Type Multipliers
;;----------------------------------------------------------------------
DWF HOURLY .0151 .01373 .01812 .01098 .01098 .01922
DWF .02773 .03789 .03515 .03982 .02059 .02471
DWF .03021 .03789 .03350 .03158 .03954 .02114
DWF .02801 .03680 .02911 .02334 .02499 .02718"""
test_text = """
[PATTERNS]
;ID Multipliers
;Demand Pattern
1 1.0 1.2 1.4 1.6 1.4 1.2
1 1.0 0.8 0.6 0.4 0.6 0.8
"""
test_text = """[PATTERNS]
;ID Multipliers
;Demand Pattern
1 1.26 1.04 .97 .97 .89 1.19
1 1.28 .67 .67 1.34 2.46 .97
1 .92 .68 1.43 .61 .31 .78
1 .37 .67 1.26 1.56 1.19 1.26
1 .6 1.1 1.03 .73 .88 1.06
1 .99 1.72 1.12 1.34 1.12 .97
1 1.04 1.15 .91 .61 .68 .46
1 .51 .74 1.12 1.34 1.26 .97
1 .82 1.37 1.03 .81 .88 .81
1 .81
;Pump Station Outflow Pattern
2 .96 .96 .96 .96 .96 .96
2 .62 0 0 0 0 0
2 .8 1 1 1 1 .15
2 0 0 0 0 0 0
2 .55 .92 .92 .92 .92 .9
2 .9 .45 0 0 0 0
2 0 .7 1 1 1 1
2 .2 0 0 0 0 0
2 0 .74 .92 .92 .92 .92
2 .92
;Pump Station Fluoride Pattern
3 .98 1.02 1.05 .99 .64 .46
3 .35 .35 .35 .35 .35 .35
3 .17 .17 .13 .13 .13 .15
3 .15 .15 .15 .15 .15 .15
3 .15 .12 .1 .08 .11 .09
3 .09 .08 .08 .08 .08 .08
3 .08 .09 .07 .07 .09 .09
3 .09 .09 .09 .09 .09 .09
3 .09 .08 .35 .72 .82 .92
3 1
"""
# Test Net 3
test_text = """[PATTERNS]
