hashcode2016/main.py

#!/usr/bin/env python3

import math
import sys

def print(*a):
    return

print("#hashcode2016")

X = 0 # Nb rows
Y = 0 # Nb columns
D = 0 # Nb drones
T = 0 # Deadline
M = 0 # Maximum load
P = 0 # Nb products
W = 0 # Nb warehouses
C = 0 # Nb customers

t = 0 # Turn
s = 0 # Score

Dp = [] # Positions of drones
# (x, y)
Di = [] # Items of drones
# {product number: qt}
Dd = [] # Turn avaibility of drone
# int 
Da = [] # Avaibles drones
# bool

Pw = [] # Weight of products
# int

Wp = [] # Positions of warehouses
# (x, y)
Wi = [] # Items of warehouses
# {product number: qt}

Cp = [] # Positions of customers
# (x, y)
Ci = [] # Needs of customers
# {product number: qt}

# Reading raw data
f = open(sys.argv[1], 'r')

line = f.readline()
info = line.split(' ')

GRILLE = (int(info[0]), int(info[1]))
X, Y = GRILLE
D = int(info[2])
T = int(info[3])
M = int(info[4])

line = f.readline()
P = int(line)

line = f.readline()
info = line.split(' ')
for i in range(0, P):
    Pw.append(int(info[i]))

line = f.readline()
W = int(line)

for i in range(0, W):
    line = f.readline()
    info = line.split(' ')
    Wp.append((int(info[0]), int(info[1])))
    line = f.readline()
    info = line.split(' ')
    productQ = {}
    for j in range(0, len(info)):
        productQ[j] = int(info[j])
    Wi.append(productQ)

line = f.readline()
C = int(line)

for i in range(0, C):
    line = f.readline()
    info = line.split(' ')
    Cp.append((int(info[0]), int(info[1])))
    line = f.readline()
    nbP = int(line)
    line = f.readline()
    info = line.split(' ')
    orderQ = {}
    for k in range(0, P):
        orderQ[k] = 0
    for j in range(0, nbP):
        orderQ[int(info[j])] += -1
    Ci.append(orderQ)

f.close()

# Constituting data
for d in range(D):
    Dp.append(Wp[0])
    Di.append(dict((p, 0) for p in range(P)))
    Dd.append(0)
    Da.append(True)

Out = [] # Drones commands

# Debug

assert(len(Dp) == len(Di) == len(Dd) == len(Da) == D)
assert(len(Pw) == P)
assert(len(Wp) == len(Wi) == W)
assert(len(Cp) == len(Ci) == C)

#def droneInfos(d):
#    print("- Drone", d, "carries", ", ".join([p + ": " + q + "×" + Dw[p] for 

def showGrid():
    for y in range(Y):
        for x in range(X):
            if (x, y) in Wp:
                print("W", end="")
            if (x, y) in Cp:
                print("C", end="")
            else:
                print("·", end="")
        print()

# Utilities
def distance(A, B):
    return math.ceil(math.sqrt(pow(B[0] - A[0], 2) + pow(B[1] - A[1], 2)))

def weight(d):
    return sum(Di[d][p]*Pw[p]for p in range(P))

# Actions
def load(d, w, p, q):
    # drone number, warehouse, product, qt
    assert(Da[d])
    if (Dp[d] != Wp[w]):
        Dd[d] += distance(Dp[d], Wp[w])
        Dp[d] = Wp[w]
    Wi[w][p] += -q
    Di[d][p] += +q
    assert(Wi[w][p] >= 0)
    assert(weight(d) <= M)
    assert(Dd[d] <= T)
    print("Drone", d, "loads", q, "of", p, "from warehouse", w, "→", Dd[d])
    Out.append(str(d) + ' L ' + str(w) + ' ' + str(p) + ' ' + str(q))

def unload(d, w, p, q):
    # drone number, warehouse, product, qt
    assert(Da[d])
    if (Dp[d] != Wp[w]):
        Dd[d] += distance(Dp[d], Wp[w])
        Dp[d] = Wp[w]
    Wi[w][p] += +q
    Di[d][p] += -q
    assert(Dd[d] <= T)
    print("Drone", d, "unloads", q, "of", p, "from warehouse", w, "→", Dd[d])
    Out.append(str(d) + ' U ' + str(w) + ' ' + str(p) + ' ' + str(q))

def deliver(d, c, p, q):
    # drone number, customer, product, qt
    assert(Da[d])
    if (Dp[d] != Cp[c]):
        Dd[d] += distance(Dp[d], Cp[c])
        Dp[d] = Cp[c]
    Ci[c][p] += +q
    Di[d][p] += -q
    Dd[d] += 1
    assert(Dd[d] <= T)
    print("Drone", d, "delivers", q, "of", p, "to client", c, "→", Dd[d])
    Out.append(str(d) + ' D ' + str(c) + ' ' + str(p) + ' ' + str(q))
    # Score
    if Ci[c][p] == 0:
        global s
        s += math.ceil((T-t)/T*100)
    

def wait(d, w=1):
    global Dd, Da
    assert(Da[d])
    Dd[d] += w
    Da[d] = False
    print("Drone", d, "waits", w, "turn" + ('s' if w >= 2 else ''), "→", Dd[d])
    Out.append(str(d) + ' W ' + str(w))


# Control
def newTurn():
    global t
    # Finishing turn
    for d in [d for d in range(len(Da)) if Da[d]]:
        print(d)
        wait(d)
    assert(sum(Da) == 0)
    # New turn
    t += 1
    print("--- Turn", t)
    for d in range(D):
        if Dd[d] <= t:
            Da[d] = True
    print("Drones", ", ".join([str(d) for d in range(len(Da)) if Da[d]]), "(", len(Da), ")", "are avaible")

def end():
    print("--- End!")

# IA
Dt = [[] for d in range(D)] # Drone tasks
# (client, product)

def nearestW(p, pos):
    minDist = math.inf
    selW = None
    for w in range(W):
        if Wi[w][p] > 0:
            dist = distance(Wp[w], pos)
            if dist < minDist:
                minDist = dist
                selW = w
    return selW

def listItems(d):
    items = []
    for p in range(P):
        for cp in range(abs(Di[d][p])):
            items.append(p)
    return items

N = [] # Needs
# client, product
for c in range(C):
    for p in range(P):
        for cp in range(abs(Ci[c][p])):
            N.append((c, p))

try:
    while t < T-100:
        for d in [d for d in range(D) if Da[d]]:
            for tk in Dt[d]:
                c, p = tk
                deliver(d, c, p, 1)
                Dt[d].remove(tk)
        if len([d for d in range(D) if Da[d]]) > 1:
            for n in N:
                c, p = n
                w = nearestW(p, Cp[c]) 
                if w != None:
                    minDist = math.inf;
                    selD = None
                    for d in [d for d in range(D) if Da[d] and len(listItems(d)) < 1]:
                        dist = distance(Dp[d], Wp[w])
                        if dist < minDist:
                            minDist = dist
                            print(d)
                            selD = d
                    print(244, selD)
                    if selD != None:
                        load(selD, w, p, 1)
                        N.remove(n)
                        Dt[selD].append((c, p))
                    else:
                        break
        newTurn()
except KeyboardInterrupt:
    pass

# Output
f = open(sys.argv[1] + 'o', 'w')
f.write(str(len(Out)) + '\n' + '\n'.join(Out) + '\n')
f.close()

def SortCustomer():
    CpSort = []
    for i in range(0, len(Cp)):
        CpSort.append((i, Cp[i], distance(Wp[0], Cp[i])))
    CpSort.sort(key=lambda tup: tup[2])

def WarehouseHasItems(w, items):
    for i in range(0, len(items)):
        if Wi[w][items[i][0]] < items[i][1]:
            return False
    return True

sys.stdout.write(str(s)+'\n')
-												Initial commit

											
										
										
											2016-02-11 17:43:32 +00:00
+								#!/usr/bin/env python3
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								import math
-												Read into main

											
										
										
											2016-02-11 19:35:07 +00:00
+								import sys
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								def print(*a):
 								    return
-												Initial commit

											
										
										
											2016-02-11 17:43:32 +00:00
+								print("#hashcode2016")
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
 								X = 0 # Nb rows
 								Y = 0 # Nb columns
 								D = 0 # Nb drones
 								T = 0 # Deadline
 								M = 0 # Maximum load
 								P = 0 # Nb products
 								W = 0 # Nb warehouses
 								C = 0 # Nb customers
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								t = 0 # Turn
-												Scores added

That'll be enough for tonight.

Note that we got 213338 with the following runs
1: 8T/10
2: 8T/10
3: T/2

And we would have been 311 instead of 662 with
very few modifications

											
										
										
											2016-02-11 22:35:05 +00:00
+								s = 0 # Score
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Dp = [] # Positions of drones
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# (x, y)
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Di = [] # Items of drones
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# {product number: qt}
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Dd = [] # Turn avaibility of drone
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# int
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Da = [] # Avaibles drones
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								# bool
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Pw = [] # Weight of products
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# int
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Wp = [] # Positions of warehouses
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# (x, y)
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Wi = [] # Items of warehouses
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# {product number: qt}
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Cp = [] # Positions of customers
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# (x, y)
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								Ci = [] # Needs of customers
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								# {product number: qt}
-												Read into main

											
										
										
											2016-02-11 19:35:07 +00:00
+								# Reading raw data
 								f = open(sys.argv[1], 'r')
 								line = f.readline()
 								info = line.split(' ')
 								GRILLE = (int(info[0]), int(info[1]))
 								X, Y = GRILLE
 								D = int(info[2])
 								T = int(info[3])
 								M = int(info[4])
 								line = f.readline()
 								P = int(line)
 								line = f.readline()
 								info = line.split(' ')
 								for i in range(0, P):
 								    Pw.append(int(info[i]))
 								line = f.readline()
 								W = int(line)
 								for i in range(0, W):
 								    line = f.readline()
 								    info = line.split(' ')
 								    Wp.append((int(info[0]), int(info[1])))
 								    line = f.readline()
 								    info = line.split(' ')
 								    productQ = {}
 								    for j in range(0, len(info)):
 								        productQ[j] = int(info[j])
 								    Wi.append(productQ)
 								line = f.readline()
 								C = int(line)
 								for i in range(0, C):
 								    line = f.readline()
 								    info = line.split(' ')
 								    Cp.append((int(info[0]), int(info[1])))
 								    line = f.readline()
 								    nbP = int(line)
 								    line = f.readline()
 								    info = line.split(' ')
 								    orderQ = {}
 								    for k in range(0, P):
 								        orderQ[k] = 0
 								    for j in range(0, nbP):
-												Fully functionnal I guess

											
										
										
											2016-02-11 20:24:25 +00:00
+								        orderQ[int(info[j])] += -1
-												Read into main

											
										
										
											2016-02-11 19:35:07 +00:00
+								    Ci.append(orderQ)
 								f.close()
 								# Constituting data
 								for d in range(D):
 								    Dp.append(Wp[0])
 								    Di.append(dict((p, 0) for p in range(P)))
 								    Dd.append(0)
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								    Da.append(True)
-												Read into main

											
										
										
											2016-02-11 19:35:07 +00:00
-												Almost functionnal

											
										
										
											2016-02-11 19:48:54 +00:00
+								Out = [] # Drones commands
-												Bit of debug

											
										
										
											2016-02-11 19:10:18 +00:00
+								# Debug
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								assert(len(Dp) == len(Di) == len(Dd) == len(Da) == D)
-												Bit of debug

											
										
										
											2016-02-11 19:10:18 +00:00
+								assert(len(Pw) == P)
 								assert(len(Wp) == len(Wi) == W)
 								assert(len(Cp) == len(Ci) == C)
 								#def droneInfos(d):
 								#    print("- Drone", d, "carries", ", ".join([p + ": " + q + "×" + Dw[p] for
 								def showGrid():
 								    for y in range(Y):
 								        for x in range(X):
 								            if (x, y) in Wp:
 								                print("W", end="")
 								            if (x, y) in Cp:
 								                print("C", end="")
 								            else:
 								                print("·", end="")
-												Read into main

											
										
										
											2016-02-11 19:35:07 +00:00
+								        print()
-												Bit of debug

											
										
										
											2016-02-11 19:10:18 +00:00
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								# Utilities
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
+								def distance(A, B):
-												Fully functionnal I guess

											
										
										
											2016-02-11 20:24:25 +00:00
+								    return math.ceil(math.sqrt(pow(B[0] - A[0], 2) + pow(B[1] - A[1], 2)))
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								def weight(d):
-												Fully functionnal I guess

											
										
										
											2016-02-11 20:24:25 +00:00
+								    return sum(Di[d][p]*Pw[p]for p in range(P))
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
 								# Actions
 								def load(d, w, p, q):
 								    # drone number, warehouse, product, qt
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								    assert(Da[d])
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    if (Dp[d] != Wp[w]):
 								        Dd[d] += distance(Dp[d], Wp[w])
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								        Dp[d] = Wp[w]
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    Wi[w][p] += -q
 								    Di[d][p] += +q
-												Fully functionnal I guess

											
										
										
											2016-02-11 20:24:25 +00:00
+								    assert(Wi[w][p] >= 0)
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    assert(weight(d) <= M)
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								    assert(Dd[d] <= T)
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    print("Drone", d, "loads", q, "of", p, "from warehouse", w, "→", Dd[d])
-												I said ALL

											
										
										
											2016-02-11 19:59:22 +00:00
+								    Out.append(str(d) + ' L ' + str(w) + ' ' + str(p) + ' ' + str(q))
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
 								def unload(d, w, p, q):
 								    # drone number, warehouse, product, qt
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								    assert(Da[d])
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    if (Dp[d] != Wp[w]):
 								        Dd[d] += distance(Dp[d], Wp[w])
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								        Dp[d] = Wp[w]
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    Wi[w][p] += +q
 								    Di[d][p] += -q
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								    assert(Dd[d] <= T)
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    print("Drone", d, "unloads", q, "of", p, "from warehouse", w, "→", Dd[d])
-												All indices start at 0 -_-

											
										
										
											2016-02-11 19:58:52 +00:00
+								    Out.append(str(d) + ' U ' + str(w) + ' ' + str(p) + ' ' + str(q))
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
 								def deliver(d, c, p, q):
 								    # drone number, customer, product, qt
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								    assert(Da[d])
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    if (Dp[d] != Cp[c]):
 								        Dd[d] += distance(Dp[d], Cp[c])
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								        Dp[d] = Cp[c]
-												Fully functionnal I guess

											
										
										
											2016-02-11 20:24:25 +00:00
+								    Ci[c][p] += +q
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    Di[d][p] += -q
 								    Dd[d] += 1
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								    assert(Dd[d] <= T)
-												Fully functionnal I guess

											
										
										
											2016-02-11 20:24:25 +00:00
+								    print("Drone", d, "delivers", q, "of", p, "to client", c, "→", Dd[d])
-												All indices start at 0 -_-

											
										
										
											2016-02-11 19:58:52 +00:00
+								    Out.append(str(d) + ' D ' + str(c) + ' ' + str(p) + ' ' + str(q))
-												Scores added

That'll be enough for tonight.

Note that we got 213338 with the following runs
1: 8T/10
2: 8T/10
3: T/2

And we would have been 311 instead of 662 with
very few modifications

											
										
										
											2016-02-11 22:35:05 +00:00
+								    # Score
 								    if Ci[c][p] == 0:
 								        global s
 								        s += math.ceil((T-t)/T*100)
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
 								def wait(d, w=1):
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								    global Dd, Da
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								    assert(Da[d])
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    Dd[d] += w
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								    Da[d] = False
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    print("Drone", d, "waits", w, "turn" + ('s' if w >= 2 else ''), "→", Dd[d])
-												Almost functionnal

											
										
										
											2016-02-11 19:48:54 +00:00
+								    Out.append(str(d) + ' W ' + str(w))
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
 								# Control
 								def newTurn():
-												Almost functionnal

											
										
										
											2016-02-11 19:48:54 +00:00
+								    global t
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								    # Finishing turn
 								    for d in [d for d in range(len(Da)) if Da[d]]:
 								        print(d)
 								        wait(d)
 								    assert(sum(Da) == 0)
 								    # New turn
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								    t += 1
 								    print("--- Turn", t)
 								    for d in range(D):
 								        if Dd[d] <= t:
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								            Da[d] = True
 								    print("Drones", ", ".join([str(d) for d in range(len(Da)) if Da[d]]), "(", len(Da), ")", "are avaible")
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
 								def end():
 								    print("--- End!")
-												Vars

											
										
										
											2016-02-11 18:18:29 +00:00
-												Actions and functions and stuff

											
										
										
											2016-02-11 18:56:36 +00:00
+								# IA
-												typo

											
										
										
											2016-02-11 20:45:48 +00:00
+								Dt = [[] for d in range(D)] # Drone tasks
-												List drone items

											
										
										
											2016-02-11 20:44:56 +00:00
+								# (client, product)
-												Nearest warehouse

											
										
										
											2016-02-11 20:40:06 +00:00
+								def nearestW(p, pos):
 								    minDist = math.inf
 								    selW = None
 								    for w in range(W):
 								        if Wi[w][p] > 0:
 								            dist = distance(Wp[w], pos)
 								            if dist < minDist:
 								                minDist = dist
 								                selW = w
 								    return selW
-												List drone items

											
										
										
											2016-02-11 20:44:56 +00:00
+								def listItems(d):
 								    items = []
 								    for p in range(P):
 								        for cp in range(abs(Di[d][p])):
 								            items.append(p)
 								    return items
-												Nearest warehouse

											
										
										
											2016-02-11 20:40:06 +00:00
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								N = [] # Needs
 								# client, product
 								for c in range(C):
 								    for p in range(P):
 								        for cp in range(abs(Ci[c][p])):
 								            N.append((c, p))
 								try:
-												Scores added

That'll be enough for tonight.

Note that we got 213338 with the following runs
1: 8T/10
2: 8T/10
3: T/2

And we would have been 311 instead of 662 with
very few modifications

											
										
										
											2016-02-11 22:35:05 +00:00
+								    while t < T-100:
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								        for d in [d for d in range(D) if Da[d]]:
 								            for tk in Dt[d]:
 								                c, p = tk
 								                deliver(d, c, p, 1)
 								                Dt[d].remove(tk)
 								        if len([d for d in range(D) if Da[d]]) > 1:
 								            for n in N:
 								                c, p = n
 								                w = nearestW(p, Cp[c])
 								                if w != None:
 								                    minDist = math.inf;
 								                    selD = None
 								                    for d in [d for d in range(D) if Da[d] and len(listItems(d)) < 1]:
 								                        dist = distance(Dp[d], Wp[w])
 								                        if dist < minDist:
 								                            minDist = dist
 								                            print(d)
 								                            selD = d
 								                    print(244, selD)
 								                    if selD != None:
 								                        load(selD, w, p, 1)
 								                        N.remove(n)
 								                        Dt[selD].append((c, p))
 								                    else:
 								                        break
 								        newTurn()
 								except KeyboardInterrupt:
 								    pass
-												Out write

											
										
										
											2016-02-11 19:35:35 +00:00
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								# Output
 								f = open(sys.argv[1] + 'o', 'w')
-												Now functionnal

											
										
										
											2016-02-11 20:00:42 +00:00
+								f.write(str(len(Out)) + '\n' + '\n'.join(Out) + '\n')
-												Merge stuff

											
										
										
											2016-02-11 19:38:29 +00:00
+								f.close()
-												SortCustomer() and WarehouseHasItems() functions

											
										
										
											2016-02-11 20:43:28 +00:00
 								def SortCustomer():
 								    CpSort = []
 								    for i in range(0, len(Cp)):
 								        CpSort.append((i, Cp[i], distance(Wp[0], Cp[i])))
 								    CpSort.sort(key=lambda tup: tup[2])
 								def WarehouseHasItems(w, items):
-												DEADLINE STRESS YOLO

											
										
										
											2016-02-11 21:27:01 +00:00
+								    for i in range(0, len(items)):
-												SortCustomer() and WarehouseHasItems() functions

											
										
										
											2016-02-11 20:43:28 +00:00
+								        if Wi[w][items[i][0]] < items[i][1]:
 								            return False
-												typo

											
										
										
											2016-02-11 20:45:48 +00:00
+								    return True
-												Scores added

That'll be enough for tonight.

Note that we got 213338 with the following runs
1: 8T/10
2: 8T/10
3: T/2

And we would have been 311 instead of 662 with
very few modifications

											
										
										
											2016-02-11 22:35:05 +00:00
 								sys.stdout.write(str(s)+'\n')