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Mayer
CircularGreenSimCity
Commits
f704c6b4
Commit
f704c6b4
authored
Apr 30, 2024
by
Matthias Betz
Browse files
Merge branch 'master' of transfer.hft-stuttgart.de:circulargreensimcity/circulargreensimcity
parents
f0f212e1
e6ba2d4d
Changes
5
Hide whitespace changes
Inline
Side-by-side
enrich-citygml-with-greenarea/src/main/java/de/hft/stuttgart/citygml/green/osm/TreeUtils.java
View file @
f704c6b4
...
...
@@ -13,6 +13,7 @@ import org.locationtech.jts.geom.Polygon;
import
org.xmlobjects.gml.model.basictypes.Code
;
import
org.xmlobjects.gml.model.geometry.aggregates.MultiSurface
;
import
org.xmlobjects.gml.model.geometry.aggregates.MultiSurfaceProperty
;
import
org.xmlobjects.gml.model.measures.Length
;
public
class
TreeUtils
{
...
...
@@ -96,6 +97,8 @@ public class TreeUtils {
crownRadius
,
crownHeight
);
SolitaryVegetationObject
cover
=
new
SolitaryVegetationObject
();
cover
.
setSpecies
(
new
Code
(
tree
.
getType
()));
cover
.
setCrownDiameter
(
new
Length
(
crownRadius
*
2
));
cover
.
setHeight
(
new
Length
(
trunkHeight
+
crownHeight
));
cover
.
setId
(
UUID
.
randomUUID
().
toString
());
cover
.
setLod2MultiSurface
(
new
MultiSurfaceProperty
(
generatedTree
));
cityModel
.
getCityObjectMembers
().
add
(
new
AbstractCityObjectProperty
(
cover
));
...
...
python_scripts/flow_chart/cgsc.dot
0 → 100644
View file @
f704c6b4
digraph
G
{
ratio
=
"fill"
;
size
=
"10,6!"
;
margin
=
0
;
dpi
=
180
;
rankdir
=
"LR"
;
graph
[
fontname
=
"Ubuntu"
]
;
node
[
fontname
=
"Ubuntu"
]
;
edge
[
fontname
=
"Ubuntu"
]
;
node
[
shape
=
ellipse
]
;
compound
=
true
;
citygml
[
label
=
"CityGML"
,
shape
=
box3d
]
;
trees
[
label
=
"Trees.shp"
,
shape
=
note
]
;
floors
[
label
=
"Floors.csv"
,
shape
=
note
]
;
dreso
[
label
=
"DreSo.csv"
,
shape
=
note
]
;
lib
[
label
=
"Physics.lib"
,
shape
=
component
]
;
weather
[
label
=
"Weather.csv"
,
shape
=
component
]
;
simstadt
[
label
=
"SimStadt"
,
style
=
filled
,
shape
=
cylinder
]
;
citygml
->
simstadt
;
trees
->
citygml
[
label
=
"add-trees.py"
]
;
dreso
->
citygml
[
label
=
"?"
]
;
floors
->
citygml
[
label
=
"add-floor.py"
]
;
lib
->
simstadt
[
label
=
"window_ratio.py"
]
;
weather
->
simstadt
;
shp
[
label
=
"Results.shp"
,
shape
=
note
]
;
subgraph
cluster_1
{
label
=
"Demands"
;
node
[
shape
=
note
]
;
csv1
[
label
=
"Heat.csv"
]
;
csv2
[
label
=
"Cooling.csv"
]
;
csv3
[
label
=
"Water.csv"
]
;
color
=
lightgrey
;
}
optimizer
[
label
=
"TUM optimizer.py"
,
style
=
filled
,
shape
=
cylinder
]
;
gis
[
label
=
"ArcGIS"
,
style
=
filled
,
shape
=
cylinder
]
;
csv3
->
optimizer
[
ltail
=
cluster_1
]
;
csv3
->
gis
[
ltail
=
cluster_1
]
;
simstadt
->
shp
;
simstadt
->
csv1
;
simstadt
->
csv2
;
simstadt
->
csv3
;
shp
->
gis
;
optimizer
->
lib
[
style
=
dotted
]
;
optimizer
->
floors
[
style
=
dotted
]
;
gis
->
trees
[
style
=
dotted
]
;
{
rank
=
min
;
floors
;
trees
;
dreso
}
{
rank
=
max
;
gis
;
optimizer
}
}
python_scripts/flow_chart/cgsc.dot.png
0 → 100644
View file @
f704c6b4
116 KB
python_scripts/run_simstadt_from_python/run_simstadt_workflow.py
View file @
f704c6b4
...
...
@@ -150,7 +150,7 @@ def run_simstadt(simstadt_path: Path, workflow_path:Path , name: str):
os
.
chdir
(
simstadt_path
)
try
:
logging
.
info
(
"
\n
# Launching %s:"
,
name
)
result
=
subprocess
.
run
(
' '
.
join
(
[
simstadt_script
(),
str
(
workflow_path
)]
)
,
result
=
subprocess
.
run
([
simstadt_script
(),
str
(
workflow_path
)],
text
=
True
,
capture_output
=
True
,
check
=
True
...
...
python_scripts/run_simstadt_from_python/variable_window_ratio.py
View file @
f704c6b4
...
...
@@ -12,6 +12,7 @@ logging.getLogger().setLevel(logging.WARN)
#######################################################################
# User params
SIMSTADT2_GLOB
=
'Desktop/SimStadt2_0.*/'
# Check env variable?
REPO_PATH
=
Path
.
home
()
/
'git'
/
'simstadt2'
/
'TestRepository'
PROJECT_NAME
=
'Gruenbuehl'
CITYGML
=
'Gruenbuehl_LOD2_ALKIS_1010.gml'
...
...
@@ -62,7 +63,7 @@ def parse_library(library_path: Path) -> et.ElementTree:
return
et
.
parse
(
library_path
)
def
set_custom_window_ratio
(
tree
:
et
.
ElementTree
,
window_ratio_node
:
float
,
export_path
:
Path
):
def
set_custom_window_ratio
(
window_ratio
:
float
,
tree
:
et
.
ElementTree
,
window_ratio_node
:
float
,
export_path
:
Path
):
root
=
tree
.
getroot
()
root
.
find
(
'name'
,
NAMESPACE
).
text
=
f
"Custom Physics Library with Window Ratio :
{
window_ratio
}
"
for
surface
in
SURFACES
:
...
...
@@ -90,26 +91,31 @@ def parse_results(window_ratio, heat_demand_csv):
'CoolingDemand'
:
cooling_demand_MWh
}
workflow_path
,
physics_processor_step
=
copy_workflow_from_template
(
TEMPLATE_NAME
,
PROJECT_PATH
)
custom_library_path
=
set_custom_library
(
physics_processor_step
)
lib_tree
=
parse_library
(
custom_library_path
)
def
main
():
workflow_path
,
physics_processor_step
=
copy_workflow_from_template
(
TEMPLATE_NAME
,
PROJECT_PATH
)
custom_library_path
=
set_custom_library
(
physics_processor_step
)
lib_tree
=
parse_library
(
custom_library_path
)
all_results
=
[]
for
window_ratio
in
WINDOW_RATIOS
:
# TODO: Status quo too
set_custom_window_ratio
(
lib_tree
,
window_ratio
,
custom_library_path
)
all_results
=
[]
for
window_ratio
in
WINDOW_RATIOS
:
# TODO: Status quo too
set_custom_window_ratio
(
window_ratio
,
lib_tree
,
window_ratio
,
custom_library_path
)
output_files
=
run_workflow
(
find_simstadt
(
SIMSTADT2_GLOB
),
workflow_path
,
[
CITYGML
])
output_files
=
run_workflow
(
find_simstadt
(
SIMSTADT2_GLOB
),
workflow_path
,
[
CITYGML
])
heat_demand_csv
=
next
(
file
for
file
in
output_files
if
'HEATING_AND_COOLING.csv'
in
file
.
name
)
heat_demand_csv
=
next
(
file
for
file
in
output_files
if
'HEATING_AND_COOLING.csv'
in
file
.
name
)
################### Parse heat demand ########################
################### Parse heat demand ########################
all_results
.
append
(
parse_results
(
window_ratio
,
heat_demand_csv
))
all_results
.
append
(
parse_results
(
window_ratio
,
heat_demand_csv
))
df
=
pd
.
DataFrame
(
all_results
).
set_index
(
'WindowRatio'
)
print
(
df
)
df
.
plot
()
plt
.
ylabel
(
'MWh'
)
plt
.
title
(
"Demands depending on Window Ratio"
)
plt
.
show
()
df
=
pd
.
DataFrame
(
all_results
).
set_index
(
'WindowRatio'
)
print
(
df
)
df
.
plot
()
plt
.
ylabel
(
'MWh'
)
plt
.
title
(
"Demands depending on Window Ratio"
)
plt
.
show
()
if
__name__
==
"__main__"
:
main
()
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