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nexedi
dream
Commits
22151603
Commit
22151603
authored
Sep 22, 2014
by
Georgios Dagkakis
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prints in console deactivated
parent
481a9db5
Changes
3
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3 changed files
with
3 additions
and
46 deletions
+3
-46
dream/simulation/Allocation.py
dream/simulation/Allocation.py
+3
-42
dream/simulation/AllocationRoutine.py
dream/simulation/AllocationRoutine.py
+0
-1
dream/simulation/GUI/DemandPlanning.py
dream/simulation/GUI/DemandPlanning.py
+0
-3
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dream/simulation/Allocation.py
View file @
22151603
...
...
@@ -40,11 +40,6 @@ class Allocation():
for
x
in
G
.
RouteDict
[
MA
.
MAid
][
'route'
]:
requiredCapacity
[
x
]
=
G
.
RouteDict
[
MA
.
MAid
][
'route'
][
x
]
*
MA
.
qty
print
'-'
*
100
print
'MA'
,
MA
.
MAid
,
'week'
,
self
.
week
print
'Quantity to allocate='
,
MA
.
qty
print
'required'
,
requiredCapacity
print
'available'
,
G
.
CurrentCapacityDict
# read the remaining capacity for thegiven week and subtract the required from it
remainingCapacity
=
{}
for
bottleneck
in
G
.
CurrentCapacityDict
:
...
...
@@ -52,10 +47,6 @@ class Allocation():
# if we dropped below zero then the capacity is not sufficient
if
remainingCapacity
[
bottleneck
]
<
0
:
sufficient
=
False
#remainingCapacity = numpy.array(G.currentCapacity[self.week]) - numpy.array(requiredCapacity)
#remainingCapacity = remainingCapacity.tolist()
print
'remaining'
,
remainingCapacity
print
sufficient
# check if there is sufficient capacity to process the order
if
sufficient
:
...
...
@@ -64,8 +55,6 @@ class Allocation():
if
MA
.
qty
>=
G
.
minPackingSize
:
for
bottleneck
in
G
.
CurrentCapacityDict
:
G
.
CurrentCapacityDict
[
bottleneck
][
self
.
week
]
=
remainingCapacity
[
bottleneck
]
print
'allocation performed fully! remaining:'
print
G
.
CurrentCapacityDict
# if the capacity available is not sufficient, the max allocable qty is derived
else
:
...
...
@@ -78,26 +67,16 @@ class Allocation():
excessUnits
=
remainingCapacity
[
bottleneck
]
/
G
.
RouteDict
[
MA
.
MAid
][
'route'
][
bottleneck
]
if
math
.
ceil
(
math
.
fabs
(
excessUnits
))
>
excess
:
excess
=
math
.
ceil
(
math
.
fabs
(
excessUnits
))
print
'excess'
,
excess
# for i in range(len(remainingCapacity)):
# if requiredCapacity[i]>0 and remainingCapacity[i]<0:
# excessUnits[i] = remainingCapacity[i]/G.route[MA.MAid][i]
# excess = math.ceil(math.fabs(min(excessUnits)))
# update remaining capacity
assert
(
excess
<=
MA
.
qty
or
MA
.
qty
<
G
.
minPackingSize
)
allocableQty
=
MA
.
qty
-
excess
print
'MA quantity'
,
MA
.
qty
print
'allocableQty'
,
allocableQty
if
allocableQty
>=
G
.
minPackingSize
:
#rCap = numpy.array(G.currentCapacity[self.week]) - numpy.multiply(allocableQty,G.route[MA.MAid])
for
bottleneck
in
G
.
CurrentCapacityDict
:
G
.
CurrentCapacityDict
[
bottleneck
][
self
.
week
]
-=
allocableQty
*
G
.
RouteDict
[
MA
.
MAid
][
'route'
][
bottleneck
]
print
'allocation performed partially! remaining:'
print
G
.
CurrentCapacityDict
# update attributes/variables affected by allocation
if
allocableQty
>=
G
.
minPackingSize
:
...
...
@@ -115,13 +94,8 @@ class Allocation():
G
.
PPOSLateness
[
G
.
replication
]
+=
max
([
0
,
self
.
week
-
MA
.
originalWeek
])
*
allocableQty
G
.
PPOSEarliness
[
G
.
replication
]
+=
max
([
0
,
MA
.
originalWeek
-
self
.
week
])
*
allocableQty
print
'-'
*
100
def
alternativeRoutes
(
self
,
MA
):
sufficient
=
False
#flag that shows if we have sufficient capacity
print
'='
*
100
print
'MA'
,
MA
.
MAid
,
'week'
,
self
.
week
print
'Quantity to allocate='
,
MA
.
qty
# identify MAs with the same SP as the MA investigated
alternativeMADict
=
{}
#FIXME: the PPOS attribute can be used instead for the current MA
# loop through the MAinfo
...
...
@@ -135,8 +109,6 @@ class Allocation():
if
PPOS
==
MA
.
PPOSid
and
SP
==
MA
.
SPid
:
alternativeMADict
[
alernativeMA
]
=
G
.
RouteDict
[
alernativeMA
]
print
'alternativeRoutes'
,
alternativeMADict
print
'available'
,
G
.
CurrentCapacityDict
# calculate max number of units for each alternative MA
maxUnits
=
{}
for
alternativeMA
in
alternativeMADict
:
...
...
@@ -148,8 +120,6 @@ class Allocation():
sufficient
=
True
maxUnits
[
alternativeMA
]
=
math
.
floor
(
min
(
MAunits
))
print
'print units that can be allocated in alternative routes:'
,
maxUnits
# choose MA with max number of units
if
maxUnits
and
sufficient
:
maxU
=
0
...
...
@@ -164,18 +134,11 @@ class Allocation():
# choose MA randomly among those with max number of units
chosenMAId
=
random
.
choice
(
maxID
)
print
'chose to allocate in MA with id ='
,
chosenMAId
allocableQty
=
min
([
maxU
,
MA
.
qty
])
print
'in this route we can allocate '
,
allocableQty
if
allocableQty
>=
G
.
minPackingSize
:
for
bottleneck
in
G
.
CurrentCapacityDict
:
G
.
CurrentCapacityDict
[
bottleneck
][
self
.
week
]
-=
allocableQty
*
G
.
RouteDict
[
chosenMAId
][
'route'
][
bottleneck
]
print
'allocation performed in the alternative route! remaining:'
print
G
.
CurrentCapacityDict
# update attributes/variables affected by allocation
MA
.
qty
-=
allocableQty
MA
.
minQty
=
max
([
0
,
MA
.
minQty
-
allocableQty
])
...
...
@@ -191,6 +154,4 @@ class Allocation():
G
.
PPOSLateness
[
G
.
replication
]
+=
max
([
0
,
self
.
week
-
MA
.
originalWeek
])
*
allocableQty
G
.
PPOSEarliness
[
G
.
replication
]
+=
max
([
0
,
MA
.
originalWeek
-
self
.
week
])
*
allocableQty
print
'='
*
100
\ No newline at end of file
dream/simulation/AllocationRoutine.py
View file @
22151603
...
...
@@ -140,7 +140,6 @@ class AllocationRoutine():
if
len
(
self
.
internalBuffer
):
if
self
.
itemType
==
1
:
G
.
ExcessFutureBuffer
[
G
.
replication
]
=
self
.
internalBuffer
print
'end allocation routine - excessBuffer'
,
[
i
.
orderID
for
i
in
G
.
ExcessFutureBuffer
[
G
.
replication
]],
[
i
.
qty
for
i
in
G
.
ExcessFutureBuffer
[
G
.
replication
]]
else
:
G
.
ExcessPPOSBuffer
[
G
.
replication
]
=
self
.
internalBuffer
...
...
dream/simulation/GUI/DemandPlanning.py
View file @
22151603
...
...
@@ -151,8 +151,6 @@ def writeOutput():
minExcessPPOS
=
sum
([
i
.
qty
for
i
in
G
.
ExcessPPOSminBuffer
[
k
]])
sheet1
.
write
(
2
,
3
,
excessPPOS
)
sheet1
.
write
(
2
,
4
,
minExcessPPOS
)
print
'excess future'
,
[
i
.
orderID
for
i
in
G
.
ExcessFutureBuffer
[
k
]],
[
i
.
qty
for
i
in
G
.
ExcessFutureBuffer
[
k
]]
print
'excess ppos'
,
[
i
.
orderID
for
i
in
G
.
ExcessPPOSBuffer
[
k
]],
[
i
.
qty
for
i
in
G
.
ExcessPPOSBuffer
[
k
]]
excessFuture
=
sum
([
i
.
qty
for
i
in
G
.
ExcessFutureBuffer
[
k
]])
minExcessFuture
=
sum
([
i
.
qty
for
i
in
G
.
ExcessFutureMinBuffer
[
k
]])
sheet1
.
write
(
1
,
6
,
'% Unconstrained Excess'
)
...
...
@@ -199,7 +197,6 @@ def writeOutput():
sheet1
.
write
(
4
,
6
,
excessFuture
*
100.0
/
totQty
)
sheet1
.
write
(
4
,
7
,
minExcessFuture
*
100.0
/
totQty
)
print
'allocation'
,
alloc
counterCols
=
[
5
for
i
in
range
(
len
(
profile
))]
# TODO the below crashes, got to check
for
i
in
range
(
len
(
alloc
)):
...
...
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