CSES - Datatähti 2016 alku - Results
Submission details
Task:Lennot
Sender:ollpu
Submission time:2015-10-11 23:55:12 +0300
Language:Python2
Status:READY
Result:24
Feedback
groupverdictscore
#1ACCEPTED24
#20
#30
Test results
testverdicttimegroup
#1ACCEPTED0.06 s1details
#2ACCEPTED0.06 s1details
#3ACCEPTED0.06 s1details
#4ACCEPTED0.06 s1details
#5ACCEPTED0.06 s1details
#60.06 s2details
#70.06 s2details
#80.06 s2details
#90.06 s2details
#100.06 s2details
#11--3details
#12--3details
#130.90 s3details
#140.76 s3details
#15--3details
#16--3details
#17--3details

Code

#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Epätoivoinen viimeinen yritys
import sys
from sys import stdin
maxint = sys.maxint
def readline():
    return stdin.readline().strip()
line1 = readline().split()
n = int(line1[0])
m = int(line1[1])
fl_from = 0
fl_to = 1
fl_price = 2
ct_total_price_even = 0
ct_even_price_set = 1
ct_total_price_odd = 2
ct_odd_price_set = 3
ct_total_price = 4
ct_calculated = 5
ct_con_to = 6
ct_in_uncalc = 7
ct_aid = 8
def minimum(a, b):
    if a < b:
        return a
    else:
        return b
def run():
    cities = map(lambda i: [maxint, False, maxint, False, maxint, False, [], False, i], xrange(n))
    int_ = int
    for f in xrange(m):
        row = readline().split()
        flight = (int_(row[0])-1, int_(row[1])-1, int_(row[2]))
        cities[flight[fl_from]][ct_con_to].append(flight)
    start = cities[0]
    end = cities[-1]
    current = start
    uncalculated = [current]
    append_to_uncalculated = uncalculated.append
    remove_from_uncalculated = uncalculated.remove
    current[ct_total_price_even] = 0
    current[ct_even_price_set] = True
    while True:
        if current[ct_aid] == end[ct_aid]:
            print(end[ct_total_price])
            break
        even_set = current[ct_even_price_set]
        even_cur = current[ct_total_price_even]
        odd_set = current[ct_odd_price_set]
        odd_cur = current[ct_total_price_odd]
        for flight in current[ct_con_to]:
            city = cities[flight[fl_to]]
            price_changed = False
            if even_set:
                new_odd_price = even_cur + flight[fl_price]
                if new_odd_price < city[ct_total_price_odd]:
                    city[ct_total_price_odd] = new_odd_price
                    city[ct_odd_price_set] = True
                    price_changed = True
            if odd_set:
                new_even_price = odd_cur
                if new_even_price < city[ct_total_price_even]:
                    city[ct_total_price_even] = new_even_price
                    city[ct_even_price_set] = True
                    price_changed = True
            if price_changed:
                city[ct_total_price] = minimum(city[ct_total_price_even], city[ct_total_price_odd])
                # if city[ct_calculated]:
                #     city[ct_calculated] = False
                #     append_to_uncalculated(city)
                #     city[ct_in_uncalc] = True
                if not city[ct_in_uncalc]:
                    append_to_uncalculated(city)
                    city[ct_in_uncalc] = True
        remove_from_uncalculated(current)
        current[ct_calculated] = True
        smallest_price = maxint
        for city in uncalculated:
            cityprice = city[ct_total_price]
            if cityprice < smallest_price:
                smallest = city
                smallest_price = cityprice
        current = smallest
run()

Test details

Test 1

Group: 1

Verdict: ACCEPTED

input
10 20
2 1 3
7 6 4
1 6 7
1 6 1
...

correct output
8

user output
8

Test 2

Group: 1

Verdict: ACCEPTED

input
10 20
4 3 10
1 10 9
3 4 10
2 6 7
...

correct output
9

user output
9

Test 3

Group: 1

Verdict: ACCEPTED

input
10 20
5 7 4
6 1 1
7 3 8
8 4 2
...

correct output
8

user output
8

Test 4

Group: 1

Verdict: ACCEPTED

input
10 20
1 6 2
5 3 3
7 3 6
5 6 2
...

correct output
13

user output
13

Test 5

Group: 1

Verdict: ACCEPTED

input
10 20
10 8 5
2 4 7
9 4 7
9 4 1
...

correct output
4

user output
4

Test 6

Group: 2

Verdict:

input
1000 2000
91 828 365044406
17 984 445675537
251 852 100987451
907 487 58830088
...

correct output
11893353673

user output
12664596954

Test 7

Group: 2

Verdict:

input
1000 2000
722 939 530579090
404 606 268877348
133 750 760086153
506 46 582310443
...

correct output
30248963445

user output
31148144896

Test 8

Group: 2

Verdict:

input
1000 2000
340 237 43690066
217 141 453160975
744 202 639037814
605 926 404985542
...

correct output
3126797692

user output
3673014602

Test 9

Group: 2

Verdict:

input
1000 2000
88 312 190442306
480 402 411574469
29 901 397491243
636 459 323246996
...

correct output
18416073173

user output
20319427407

Test 10

Group: 2

Verdict:

input
1000 2000
333 228 718389176
796 286 323493090
743 43 751876815
128 554 175625940
...

correct output
6399349335

user output
6518176073

Test 11

Group: 3

Verdict:

input
100000 200000
28264 92686 186865663
92570 33956 925976418
87377 71249 644757113
16701 81203 922125505
...

correct output
518249578675

user output
(empty)

Test 12

Group: 3

Verdict:

input
100000 200000
95740 71482 846654568
44131 16806 670712211
3967 49254 424174139
39369 53007 830346557
...

correct output
920862321580

user output
(empty)

Test 13

Group: 3

Verdict:

input
100000 200000
79947 25489 71554257
59184 25577 328436360
82945 73554 4942918
22380 92385 874250042
...

correct output
399407698440

user output
421657546193

Test 14

Group: 3

Verdict:

input
100000 200000
31139 12960 580545990
27744 95556 747296719
46969 42578 840321561
5638 28960 513805324
...

correct output
165235287505

user output
174537715465

Test 15

Group: 3

Verdict:

input
99993 199980
1 3 1
3 2 1
1 4 1
4 2 1
...

correct output
2

user output
(empty)

Test 16

Group: 3

Verdict:

input
100000 149994
93867 98509 1755709
85029 99843 1347591
10305 35305 6447
75638 80585 1829972
...

correct output
1124960

user output
(empty)

Test 17

Group: 3

Verdict:

input
100000 200000
70413 71496 49
15963 40963 18635
81291 89420 1850028
8848 33848 17316
...

correct output
110298

user output
(empty)