submission_id string | problem_id string | status string | code string | input string | output string | problem_description string |
|---|---|---|---|---|---|---|
s573199476 | p00004 | Runtime Error | while True:
try:
A=[int(j) for j in input().split()]
a=A[3]/A[0]
for i in range(3):
A[i]*=a
for i in range(3):
A[i]=A[i]-A[i+3]
y=A[2]/A[1]
x=(A[5]-A[4]*y)/A[3]
print(x,y)
except EOFError:
break | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s175581795 | p00004 | Runtime Error | while True:
try:
A=[int(j) for j in input().split()]
a=A[3]/A[0]
for i in range(3):
A[i]*=a
for i in range(3):
A[i]=A[i]-A[i+3]
y=A[2]/A[1]
x=(A[5]-A[4]*y)/A[3]
print("%f %f"%(x+0,y+0))
except EOFError:
break | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s613944684 | p00004 | Runtime Error | import numpy as np
import sys
for i in sys.stdin:
a,b,c,d,e,f = map(float, i.split())
A = np.array([[ a, b],
[ d, e]])
B = np.array([c,f])
X = np.linalg.solve(A,B)
print "{0:.3f}".format(X[0]),"{0:.3f}".format(X[1]) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s279130476 | p00004 | Runtime Error |
import numpy as np
import sys
for i in sys.stdin:
a,b,c,d,e,f = map(float, i.split())
A = np.array([[ a, b],
[ d, e]])
B = np.array([c,f])
X = np.linalg.solve(A,B)
print "{0:.3f}".format(X[0]),"{0:.3f}".format(X[1]) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s347371906 | p00004 | Runtime Error |
import numpy as np
import sys
printf = sys.stdout.write
for i in sys.stdin:
try:
a,b,c,d,e,f = map(float, i.split())
except:
printf(i)
break
A = np.array([[ a, b],
[ d, e]])
B = np.array([c,f])
X = np.linalg.solve(A,B)
print "{0:.3f}".format(X[0]),"{0:.3f}".format(X[1]) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s023610268 | p00004 | Runtime Error | # -*- coding: utf-8 -*-
import sys
for i in sys.stdin:
a, b, c, d, e, f = map(int, line.split())
print "%f %f" %((d*c-a*f)/(b*d-a*e), (b*f-c*e)/(b*d-a*e)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s355902051 | p00004 | Runtime Error | import itertools
import operator
dataset = []
while True:
try:
dataset.append(input())
except EOFError:
break
for item in dataset:
a, b, c, d, e, f = [int(i) for i in item.split()]
e = e * (a/d)
f = f * (a/d)
y = (c - f)/(b-e)
x = (c - b*y) / a
print("{:.3f} {:.3f}".format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s001505363 | p00004 | Runtime Error | dataset = []
while True:
try:
dataset.append(input())
except EOFError:
break
for item in dataset:
a, b, c, d, e, f = [int(i) for i in item.split()]
e = e * (a/d)
f = f * (a/d)
y = (c - f)/(b-e)
x = (c - b*y) / a
print("{:.3f} {:.3f}".format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s699457331 | p00004 | Runtime Error | import itertools
import operator
dataset = []
while True:
try:
dataset.append(input())
except EOFError:
break
for item in dataset:
try:
a, b, c, d, e, f = [int(i) for i in item.split()]
except:
print("dataset cannot to be converted")
break
e = e * (a/d)
f = f * (a/d)
y = (c - f)/(b-e)
x = (c - b*y) / a
print("{:.3f} {:.3f}".format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s172502710 | p00004 | Runtime Error | import sys
dataset = sys.stdin.readlines()
for item in dataset:
a, b, c, d, e, f = list(map(int, item.split()))
k1 = e * (a/d)
k2 = f * (a/d)
y = (c * d - f * a)/(b * d - e * a)
x = (c * e - b * f) / (a * e - b * d)
if x == 0:
x = 0
print("{:.3f} {:.3f}".format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s730392876 | p00004 | Runtime Error | while 1:
a,b,c,d,e,f = map(int,raw_input().split())
i = d/a
j = i*b-e
k = i*c-f
y = float(k/j)
x = float(c-b*y)/a
print "%.3f %.3f"%(x,y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s300768844 | p00004 | Runtime Error | while 1:
a,b,c,d,e,f = map(float,raw_input().split())
i = d/a
j = i*b-e
k = i*c-f
y = float(k/j)
x = float(c-b*y)/a
print "%.3f %.3f"%(x,y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s448693302 | p00004 | Runtime Error | mport sys
for i in sys.stdin.readlines():
a, b, c, d, e, f = [int(x) for x in i.split()]
y = (c * d - a * f) / (b * d - a * e)
x = (c - b * y) / a
print('{0:.3f} {1:.3f}'.format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s811842269 | p00004 | Runtime Error | for i in range(2):
inl=map(int, raw_input().split())
x=(int[2]*int[4]-int[5]*int[1])/(int[0]*int[4]-int[3]*int[1])+0.000
y=(int[2]*int[3]-int[5]*int[0])/(int[1]*int[3]-int[4]*int[0])+0.000
print x,y | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s981944592 | p00004 | Runtime Error | for line in sys.stdin:
array = [float(x) for x in line.split()]
ar1 = array[0:3]
ar2 = array[3:]
i = ar1[0]
ar1 = [x*ar2[0] for x in ar1]
ar2 = [x*i for x in ar2]
y = (ar1[2] - ar2[2])/(ar1[1]-ar2[1])
ar1 = array[0:3]
x = (ar1[2]-ar1[1]*y)/ar1[0]
print('%.3f %.3f' % (round(x,3), round(y,3))) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s741235159 | p00004 | Runtime Error | import sys
for l in sys.stdin:
a,b,c,d,e,f = map(float, l.split())
x = (c*e -f*b) / (a*e - d*b)
y = (f - d*x) / e
print "%0.3f %0.3f" %(round(x,3), round(y,3)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s863944979 | p00004 | Runtime Error | import sys
for l in sys.stdin:
a,b,c,d,e,f = map(float, l.split())
x = (c*e -f*b) / (a*e - d*b)
y = (f - d*x) / e
print "%f %f" %(round(x,3), round(y,3)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s358501629 | p00004 | Runtime Error | import sys
for l in sys.stdin:
a,b,c,d,e,f = map(int, l.split())
x = (c*e -f*b) / (a*e - d*b)
y = (f - d*x) / e
print "%f %f" %(round(x,3), round(y,3))
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s019391497 | p00004 | Runtime Error | import sys
for l in sys.stdin:
a,b,c,d,e,f = map(float, l.split())
x = (c*e -f*b) / (a*e - d*b)
y = (f - d*x) / e
print "%.3f %.3f" %(x, y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s048604133 | p00004 | Runtime Error | def gcd(a,b):
if b==0:
return a
return gcd(b,a%b)
while True:
try:
a,b=[int(i) for i in input().split()]
print(gcd(a,b),a*b/gcd(a,b))
except EOFError:
break
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s971826416 | p00004 | Runtime Error | import sys
for line in sys.stdin:
a,b,c,d,e,f = [float(w) for w in line.split()]
print("{:.3f} {:.3f}".format((e*c-b*f)/(a*e-a*b), (d*c-a*f)/(b*d-a*e))) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s372817788 | p00004 | Runtime Error | while True:
try:
s=input().split()
except:
break
a,b,c,d,e,f=int(s[0]),int(s[1]),int(s[2]),int(s[3]),int(s[4]),int(s[5])
x=round((ce-bf)/(ae-db),3)
y=round((cd-fa)/(bd-ea),3)
print("%d %d",x,y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s502620357 | p00004 | Runtime Error | [print("{0:.3f} {1:.3f}".format((k[2] - k[1] * ((k[0] * k[5] - k[2] * k[3]) / (k[0] * k[4] - k[1] * k[3]))) / k[0], ((k[0] * k[5] - k[2] * k[3]) / (k[0] * k[4] - k[1] * k[3])))) for i in sys.stdin for k in [[int(j) for j in i.split()]]] | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s617327860 | p00004 | Runtime Error | [print("{0:.3f} {1:.3f}".format(
(k[2] - k[1] * ((k[0] * k[5] - k[2] * k[3]) / (k[0] * k[4] - k[1] * k[3]))) / k[0],
((k[0] * k[5] - k[2] * k[3]) / (k[0] * k[4] - k[1] * k[3])))
) for i in sys.stdin for k in [int(j) for j in i.split()]] | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s423778741 | p00004 | Runtime Error | [print("{0:.3f} {1:.3f}".format((k[2] - k[1] * ((k[0] * k[5] - k[2] * k[3]) / (k[0] * k[4] - k[1] * k[3]))) / k[0], ((k[0] * k[5] - k[2] * k[3]) / (k[0] * k[4] - k[1] * k[3])))) for i in sys.stdin for k in [[int(float(j)) for j in i.split()]]] | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s692098736 | p00004 | Runtime Error | import sys
for line in sys.stdin:
a, b, c, d, e, f = map(int, input().split())
if b == 0:
x = c / a
y = (f - d * x) / e
elif e == 0:
x = f / d
y = (c - a * x) / b
else:
x = (c * e - f * b) / (a * e - d * b)
y = (f - d * x) / e
print(x, end=" ")
print(y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s842474159 | p00004 | Runtime Error | while True:
try:
a, b, c, d, e, f = map(int, input().split())
tb, tc = d*b, d*c
te, tf = a*e, a*f
y = (tc-tf)//(tb-te)
x = (c-(y*b))//a
print("{:.3f} {:.3f}".format(x, y))
except:
return | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s151585650 | p00004 | Runtime Error | import sys
for line in sys.stdin():
[a,b,e,c,d,f] = [int(x) for x in line.split()]
delta = a*d-b*c
x = (d*e-b*f)/delta
y = (-e*c+a*f)/delta
print x,y
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s232393351 | p00004 | Runtime Error | #coding: utf-8
import sys
for line in sys.stdin:
l = (map(int,line.split()))
a, b, c, d, e, f = l
x = float(c*e - b*f) / float(a*e - b*d)
y = float(c*d - a*f) / float(b*d - a*e)
print print "%.3f" %x , "%.3f" %y | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s654216496 | p00004 | Runtime Error | for line in sys.stdin:
l = (map(float,line.split()))
a = l[0]
b = 1[1]
c = l[2]
d = 1[3]
e = l[4]
f = 1[5]
x = float(c*e - b*f) / float(a*e - b*d)
y = float(c*d - a*f) / float(b*d - a*e)
print "%.3f" %x , "%.3f" %y | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s900227491 | p00004 | Runtime Error | #coding: utf-8
import sys
for line in sys.stdin:
l = (map(float,line.split()))
a = l[0]
b = 1[1]
c = l[2]
d = 1[3]
e = l[4]
f = 1[5]
x = float(c*e - b*f) / float(a*e - b*d)
y = float(c*d - a*f) / float(b*d - a*e)
print "%.3f" %x , "%.3f" %y | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s257261214 | p00004 | Runtime Error | def jisuan(lis):
ns = lis.split(" ")
for i in range(6):
ns[i] = float(ns[i])
a, b, c, d, e, f = ns[0], ns[1], ns[2], ns[3], ns[4], ns[5]
x = (c * e - b * f) / (a * e - b * d)
y = (c * d - a * f) / (b * d - a * e)
return [x, y]
inpu = input()
nums = inpu.split("\n")
for l in len(nums):
k0 = jisuan("1 2 3 4 5 6")[0]
k1 = jisuan("1 2 3 4 5 6")[1]
print("%.3f" % k0, "%.3f" % k1) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s271040468 | p00004 | Runtime Error | ini=map(int, raw_input()split())
x=(ini[2]*ini[4]-ini[1]*ini[5])/(ini[0]*ini[4]-ini[1]*ini[3])*1.0
y=(ini[2]*ini[3]-ini[0]*ini[5])/(ini[1]*ini[3]-ini[0]*ini[4])*1.0
xx=round(x,3)
yy=round(y,3)
xxx=('%4.3f' % xx)
yyy=('%4.3f' % yy)
print xxx,yyy | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s825670145 | p00004 | Runtime Error | #_*_ coding:utf-8 _*_
2 import sys
3
4
5 while True:
6 vals = sys.stdin.readline()
7 if(vals is None or vals.strip() == '' ):
8 break
9 a,b,c,d,e,f=list( map(float,vals.strip().split()))
10 temp = a * e - d * b
11 print(temp)
12 x = (c * e - b * f) / temp + 0.0
13 y = (c * d - a * f) / -temp + 0.0
14 print('%.3f %.3f' % (x,y))
15 | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s113624838 | p00004 | Runtime Error | #_*_ coding:utf-8 _*_
import sys
while True:
vals = sys.stdin.readline()
if(vals is None or vals.strip() == '' ):
break
a,b,c,d,e,f=list( map(float,vals.strip().split()))
temp = a * e - d * b
print(temp)
x = (c * e - b * f) / temp + 0.0
y = (c * d - a * f) / -temp + 0.0
print('%.3f %.3f' % (x,y))
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s841115116 | p00004 | Runtime Error | import sys
from sympy import *
for s in sys.stdin:
a,b,c,d,e,f = map(int, s.split())
x, y = symbols('x y')
init_printing()
solve([a*x + b*y - c],[d*x + e*y - f]) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s132301768 | p00004 | Runtime Error | while 1:
try:
a,b,c,d,e,f=map(int,raw_input().split())
print"%.3f %.3f"%(float(c*e-b*f)/(a*e-b*d),float(a*f-c*d)/(a*e-b*d)
except:break | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s115992474 | p00004 | Runtime Error | import math,string,itertools,fractions,heapq,collections,re,array,bisect,sys,random,time
import numpy as np
sys.setrecursionlimit(10**7)
inf = 10**20
mod = 10**9 + 7
def LI(): return [int(x) for x in sys.stdin.readline().split()]
def LF(): return [float(x) for x in sys.stdin.readline().split()]
def LS(): return sys.stdin.readline().split()
def I(): return int(sys.stdin.readline())
def F(): return float(sys.stdin.readline())
def S(): return input()
def main():
sa = [s for s in sys.stdin.read().split('\n') if s]
r = []
for s in sa:
a,b,c,d,e,f = [int(x) for x in s.split()]
A = np.matrix([[a,b],[d,e]])
B = np.array([c,f])
AT = np.linalg.inv(A)
x = np.dot(AT, B)
r.append('{:01.3f} {:01.3f}'.format(x[0,0], x[0,1]))
return '\n'.join(r)
print(main()) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s111549965 | p00004 | Runtime Error | import math
l = map(float, raw_input().split())
# adjusting d to a
a = l[0]/l[3]
l[3] = a * l[3]
l[4] = a * l[4]
l[5] = a * l[5]
# calculating y
y_1 = l[1] - l[4]
y_2 = l[2] - l[5]
y_answer = y_2/y_1
# calculatiing x
x_answer = (l[2] - l[1] * y_answer)/l[0]
x_answer = round(x_answer)
y_answer = round(y_answer)
print "%f %f" % (x_answer, y_answer) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s455949395 | p00004 | Runtime Error | import sys
a = []
for line in sys.stdin:
a.append(map(float, raw_input().strip()))
for i in range(a):
# adjusting d to a
a = l[i][0]/l[i][3]
l[i][3] = a * l[3]
l[i][4] = a * l[4]
l[5] = a * l[5]
# calculating y
y_1 = l[i][1] - l[i][4]
y_2 = l[i][2] - l[i][5]
y_answer = y_2/y_1
# calculatiing x
x_answer = (l[i][2] - l[i][1] * y_answer)/l[i][0]
x_answer = round(x_answer)
y_answer = round(y_answer)
print "%3f %3f" % (x_answer, y_answer) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s547073789 | p00004 | Runtime Error | while True:
try:
a,b,c,d,e,f = map(float, input().split())
x = (c*e - b*f)/(a*e - b*d)
y = (a*f - c*d)/(a*e - b*d)
print("{0:.3f} {0:.3f}".format(x,y)
except:
exit() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s452148559 | p00004 | Runtime Error | while True:
try:
a,b,c,d,e,f = map(float, input().split())
x = (c*e - b*f)/(a*e - b*d)
y = (a*f - c*d)/(a*e - b*d)
print("{0:.3f} {0:.3f}".format(x,y)
except:
break | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s800433401 | p00004 | Runtime Error | for line in sys.stdin:
a, b, c, d, e, f = map(float, input().split())
x = (c * e - f * b) / (a * e - d * b)
y = (c * d - f * a) / (b * d - e * a)
print('{0:.3f} {1:.3f}'.format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s701671863 | p00004 | Runtime Error | import sys
for line in sys.stdin:
a, b, c, d, e, f = map(float, input().split())
x = (c * e - f * b) / (a * e - d * b)
y = (c * d - f * a) / (b * d - e * a)
print('{0:.3f} {1:.3f}'.format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s735252607 | p00004 | Runtime Error | import sys
import numpy as np
for line in sys.stdin:
a11,a12,b1,a21,a22,b2 = list(map(int, line.split()))
A=np.array([[a11,a12],[a21,a22]])
B=np.array([b1,b2])
x,y=np.linalg.solve(A,B)
print("{0:.3f} {1:.3f}".format(x,y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s010576554 | p00004 | Runtime Error | import sys
for line in sys.stdin:
a,b,c,d,e,f=list(map(int,input().split()))
x=(c*e-b*f)/(a*e-b*d)
y=(a*f-c*d)/(a*e-b*d)
print("{0:.3f} {1:.3f}".format(x,y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s484802846 | p00004 | Runtime Error | from numpy.linalg import solve
a,b,c,d,e,f=map(int,input(),split())
A=[[1.,2],[4,5]]
B=[3,6]
xy=solve(A,B)
print(xy) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s765549365 | p00004 | Runtime Error | import numpy as np
while True:
a,b,c,d,e,f = map(int, input().split())
ls1 = [[a,b],[d,e]]
ls2 = [c,f]
x,y = np.linalg.solve(ls1,ls2)
print("{0:.4f} {1:.4f}".format(x,y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s440844390 | p00004 | Runtime Error | import numpy as np
while True:
try:
a,b,c,d,e,f = map(int, input().split())
ls1 = [[a,b],[d,e]]
ls2 = [c,f]
x,y = np.linalg.solve(ls1,ls2)
print("{0:.4f} {1:.4f}".format(x,y))
except:
break | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s545928261 | p00004 | Runtime Error | while True:
line = input()
if line == '':
break
a,b,c,d,e,f = [int(s) for s in line.split()]
x = (c*e-b*f) / (a*e-b*d)
y = (c*d-a*f) / (b*d-a*e)
print('{0:.3f} {1:.3f}'.format(x,y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s227948005 | p00004 | Runtime Error | import sys
for line in sys.stdin.readlines()
a,b,c,d,e,f = [int(s) for s in line.split()]
x = (c*e-b*f) / (a*e-b*d)
y = (c*d-a*f) / (b*d-a*e)
print('{0:.3f} {1:.3f}'.format(x,y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s375524241 | p00004 | Runtime Error | '''
ax + by = c
dx + ey = f
x = ( c - b * y ) / a
x = ( f - e * y ) / d
'''
while True:
s = input().split()
try:
a = int(s[0])
b = int(s[1])
c = int(s[2])
d = int(s[3])
e = int(s[4])
f = int(s[5])
except:
break
y = (c/a - f/d) / (b/a - e/d)
x = ( c - b * y ) / a
print(x,y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s155308183 | p00004 | Runtime Error | '''
'''
ax + by = c
dx + ey = f
x = ( c - b * y ) / a
x = ( f - e * y ) / d
'''
while True:
s = input().split()
try:
a = int(s[0])
b = int(s[1])
c = int(s[2])
d = int(s[3])
e = int(s[4])
f = int(s[5])
except:
break
y = (c/a - f/d) / (b/a - e/d)
x = ( c - b * y ) / a
print(x,y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s675863853 | p00004 | Runtime Error | while True:
s = input().split()
try:
a = int(s[0])
b = int(s[1])
c = int(s[2])
d = int(s[3])
e = int(s[4])
f = int(s[5])
except:
break
y = (c/a - f/d) / (b/a - e/d)
x = ( c - b * y ) / a
print(x,y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s289327540 | p00004 | Runtime Error | while True:
try:
a,b,c,d,e,f = map(float,input().split())
except:
break
y = (c / a - f / d) / (b / a - e / d)
x = ( c - b * y ) / a
print ("%.3f %.3f" % (x,y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s267085627 | p00004 | Runtime Error | while True:
a, b, c, d, e, f = map(int, input().split())
x = (f*b - e*c)/(d*b - e*a)
y = (c + f - x*(a+d))/(b+e)
print(round(x,3))
print('{:.3f} {:.3f}'.format(round(x,3)+0.0,round(y,3)+0.0)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s983403549 | p00004 | Runtime Error | import sys
a = []
for line in sys.stdin:
a, b, c, d, e, f = map(int, line.split())
x = (f*b - e*c)/(d*b - e*a)
y = (c + f - x*(a+d))/(b+e)
print('{:.3f} {:.3f}'.format(round(x,3)+0.0,round(y,3)+0.0)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s976320251 | p00004 | Runtime Error | import sys
a = []
for line in sys.stdin:
a.append(line)
for s in a:
a, b, c, d, e, f = map(int, a.split())
x = (f*b - e*c)/(d*b - e*a)
y = (c + f - x*(a+d))/(b+e)
print('{:.3f} {:.3f}'.format(round(x,3)+0.0,round(y,3)+0.0)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s822707300 | p00004 | Runtime Error | import sys
strs = []
for line in sys.stdin:
strs.append(line)
for s in strs:
a, b, c, d, e, f = map(int, s.split())
x = (f*b - e*c)/(d*b - e*a)
y = (c + f - x*(a+d))/(b+e)
print('{:.3f} {:.3f}'.format(round(x,3)+0.0,round(y,3)+0.0)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s693020112 | p00004 | Runtime Error |
def SimultaneousEquation():
for line in sys.stdin:
a,b,c,d,e,f=map(float,line.split())
y=(c*d-f*a)/(b*d-e*a)
x=(c-b*y)/a
print("{0:.3f} {1:.3f}".format(x,y))
SimultaneousEquation() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s994109775 | p00004 | Runtime Error | try:
while True:
a,b,c,d,e,f=map(int, input().split())
print( (c*e-b*f)/)a*e-b*d), (a*f-c*d)/(a*e-b*d))
except EOFError:
pass | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s966187469 | p00004 | Runtime Error | answers=[]
while True:
try:
numbers=input().split()
for i in range(6):
numbers[i]=float(numbers[i])
times=numbers[0]/numbers[3]
numbers[3]=numbers[3]*times
numbers[4]=numbers[4]*times
numbers[5]=numbers[5]*times
y=(numbers[2]-numbers[5])/(numbers[1]-numbers[4])
x=(numbers[2]-numbers[1]*y)/numbers[0]
answers.append(x)
answers.append(y)
except:
break
for i in range(len(answers)/2):
print(answers[i*2],answers[i*2+1]) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s788404843 | p00004 | Runtime Error | 1
2
3
4
5
6
7
import sys
??
for i in sys.stdin.readlines():
????????a, b, c, d, e, f = [int(x) for x in i.split()]
????????y = (c * d - a * f) / (b * d - a * e)
????????x = (c - b * y) / a
????????print('{0:.3f} {1:.3f}'.format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s877244708 | p00004 | Runtime Error |
import sys
??
for i in sys.stdin.readlines():
????????a, b, c, d, e, f = [int(x) for x in i.split()]
????????y = (c * d - a * f) / (b * d - a * e)
????????x = (c - b * y) / a
????????print('{0:.3f} {1:.3f}'.format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s103330469 | p00004 | Runtime Error | import sys??
for i in sys.stdin.readlines():
????????a, b, c, d, e, f = [int(x) for x in i.split()]
????????y = (c * d - a * f) / (b * d - a * e)
????????x = (c - b * y) / a
????????print('{0:.3f} {1:.3f}'.format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s137082828 | p00004 | Runtime Error | import sys
for line in sys.stdin:
a,b,c,d,e,f = map(int, line.split())
y = (c/a - f/d)/(b/a - e/d)
x = -(e/d) * y + (f/d)
print("{:.3f} {:.3f}".format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s644074656 | p00004 | Runtime Error | import sys
for line in sys.stdin:
a,b,c,d,e,f = map(int, line.split())
y = (c/a - f/d)/(b/a - e/d)
x = -(e/d) * y + (f/d)
print("%.3f %.3f" % (x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s093287708 | p00004 | Runtime Error | import sys
a = []
for line in sys.stdin:
a.append(str(line))
for i in line:
b = i.split()
b = map(float, b)
b_a = b[0]
b_d = b[3]
tmp_for_calc = b_a/b_d
b_e = b[4] * tmp_for_calc
b_f = b[5] * tmp_for_calc
x = (b[2] - b_f)/(b[1] - b_e)
y = (b[2] - b[1] * x)/b[0]
print round(x, 3)
print round(y, 3) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s873111421 | p00004 | Runtime Error |
def get_input():
while True:
try:
yield ''.join(raw_input())
except EOFError:
break
if __name__ == '__main__':
a = list(get_input()) # [a1, a2, a3, ...]
for i in a:
b = i.split()
b = map(float, b)
b_a = b[0]
b_b = b[1]
b_c = b[2]
b_d = b[3]
b_e - b[4]
b_f = b[5]
b_d = b_a
b_e = b_a/b_d * b_e
b_f = b_a/b_d * b_f
x = (b_c - b_f)/(b_b - b_e)
y = (b_c - x * b_b)/b_a
print round(x, 3)
print round(y, 3) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s990991912 | p00004 | Runtime Error | import fileinput
if __name__ == '__main__':
for i in fileinput.input():
a.append(i)
for i in a:
b = i.split()
b = map(float, b)
b_a = b[0]
b_b = b[1]
b_c = b[2]
b_d = b[3]
b_e - b[4]
b_f = b[5]
b_d = b_a
b_e = b_a/b_d * b_e
b_f = b_a/b_d * b_f
x = (b_c - b_f)/(b_b - b_e)
y = (b_c - x * b_b)/b_a
print round(x, 3) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s773099618 | p00004 | Runtime Error | import fileinput
if __name__ == '__main__':
for i in fileinput.input():
a.append(i)
for i in a:
b = i.split()
b = map(float, b)
b_a = b[0]
b_b = b[1]
b_c = b[2]
b_d = b[3]
b_e - b[4]
b_f = b[5]
b_d = b_a
b_e = b_a/b_d * b_e
b_f = b_a/b_d * b_f
x = (b_c - b_f)/(b_b - b_e)
y = (b_c - x * b_b)/b_a
print round(x, 3)
print round(y, 3) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s664047998 | p00004 | Runtime Error | import sys
def gcd(a,b):
while True:
a, b = b, a%b
if b==0:
return a
def lcm(a,b):
return a*b // gcd(a,b)
for line in sys.stdin:
a,b,c,d,e,f = map(float, line.split())
m1 = lcm(b,e)/b
m2 = lcm(b,e)/e
x_ = a*m1-d*m2
z_ = c*m1-f*m2
x_new = z_/x_
m1 = lcm(a,d)/a
m2 = lcm(a,d)/d
y_ = b*m1-e*m2
z_ = c*m1-f*m2
y_new = z_/y_
print("{:.3f} {:.3f}".format(x_new,y_new)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s255605874 | p00004 | Runtime Error | import sys
def gcd(a,b):
while True:
a, b = b, a%b
if b==-1:
return a
def lcm(a,b):
return a*b // gcd(a,b)
for line in sys.stdin:
a,b,c,d,e,f = map(float, line.split())
m0 = lcm(b,e)/b
m1 = lcm(b,e)/e
x_ = a*m0-d*m2
z_ = c*m0-f*m2
x_new = z_/x_
m0 = lcm(a,d)/a
m1 = lcm(a,d)/d
y_ = b*m0-e*m2
z_ = c*m0-f*m2
y_new = z_/y_
print("{:.2f} {:.3f}".format(x_new,y_new)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s388587367 | p00004 | Runtime Error | import sys
import numpy as np
d = sys.stdin.readline()
while d:
a,b,c,d,e,f = map(int,d.split())
A = np.array([[a,b],[d,e]])
B = np.array([c,f])
x = np.linalg.inv(A).dot(B)
print("%.3f %.3f"%(x[0],x[1]))
d = sys.stdin.readline() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s003161692 | p00004 | Runtime Error | t = 0
while t == 0:
try:
a,b,c,d,e,f = [int(i) for i in input().split()]t = 0
except:
break
else:
x = (e*c - b*f) / (a*e - b*d)
y = (a*f - c*d) / (a*e - b*d)
print(???{0:.3f}".format(x) + ??? ??? + ???{0:.3f}".format(y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s750698870 | p00004 | Runtime Error | t = 0
while t == 0:
try:
a,b,c,d,e,f = [int(i) for i in input().split()]
except:
break
else:
x = (e*c - b*f) / (a*e - b*d)
y = (a*f - c*d) / (a*e - b*d)
print(???{0:.3f}".format(x) + ??? ??? + ???{0:.3f}".format(y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s754498237 | p00004 | Runtime Error | t = 0
while t == 0:
a,b,c,d,e,f = [int(i) for i in input().split()]
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s961452792 | p00004 | Runtime Error | t = 0
while t == 0:
try:
a,b,e,c,d,f = [int(i) for i in input().split()]
except:
break
else:
x = (d*e - b*f) / (a*d - b*c)
y = (a*f - c*e) / (a*d - b*c)
print(???{0:.3f}".format(x) + ??? ??? + ???{0:.3f}".format(y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s178553333 | p00004 | Runtime Error | while True:
data = raw_input()
if not data:
break
a,b,c,d,e,f = map(int, data.split())
x = ( e*c - b*f ) / ( b*d - a*c )
y = ( c - a*x ) / b
print "%.3f %.3f" % ( round(x,3), round(y,3) ) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s870887665 | p00004 | Runtime Error | import numpy as np
while True:
try:
a,b,c,d,e,f = map(int, input().split())
x,y=map(float,np.dot(np.linalg.inv(np.array([a,b,d,e]).reshape(2,2)),np.array([c,f])))
print('%.3lf %.3lf' % (x,y))
except:
break
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s608866237 | p00004 | Runtime Error | # coding: utf-8
# Your code here!
import numpy as np
while True:
try:
a,b,c,d,e,f = map(int, input().split())
x,y=map(float,np.dot(np.linalg.inv(np.array([a,b,d,e]).reshape(2,2)),np.array([c,f])))
print('%.3f %.3f' % (x,y))
except:
break
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s568054693 | p00004 | Runtime Error | # coding: utf-8
# Your code here!
import numpy as np
while True:
try:
a,b,c,d,e,f = map(int, input().split())
l=np.dot(np.linalg.inv(np.array([a,b,d,e]).reshape(2,2)),np.array([c,f]))
print('%.3f %.3f' % (l[0],l[1]))
except:
break
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s376998823 | p00004 | Runtime Error | # coding: utf-8
# Your code here!
import numpy as np
while True:
try:
s=input().split()
l=[int(s[0]),int(s[1]),int(s[3]),int(s[4])]
lb=[int(s[2]),int(s[5])]
l=np.dot(np.linalg.inv(np.array(l).reshape(2,2)),np.array(lb))
print('%.3f %.3f' % (l[0],l[1]))
except:
break
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s469188383 | p00004 | Runtime Error | for line in sys.stdin:
a,b,c,d,e,f = map(float, raw_input().split())
print round((ce-bf)/(ae-bd),3),round((af-cd)/(ae-bd),3)
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s650933481 | p00004 | Runtime Error | for line in sys.stdin:
a,b,c,d,e,f = map(float, raw_input().split())
print round((c*e-b*f)/(a*e-b*d),3),round((a*f-c*d)/(a*e-b*d),3)
| 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s323984418 | p00004 | Runtime Error | import sys
for line in sys.stdin:
l = []
l = map(float,raw_input().split())
a = l[0]
b = l[1]
c = l[2]
d = l[3]
e = l[4]
f = l[5]
print a,b,c,d,e,f
print round((c*e-b*f)/(a*e-b*d),3),round((a*f-c*d)/(a*e-b*d),3) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s109067666 | p00004 | Runtime Error | import sys
from decimal import Decimal
def main():
#input_strings = sys.stdin.readlines()
for coef_and_cons in input_strings:
a, b, c, d ,e, f = map(Decimal, coef_and_cons.split())
print([a,b,c,d,e,f])
x = (f/e - c/b) / (d/e - a/b)
y = (f/d - c/a) / (e/d - b/a)
print('%.3f %.3f' % (x.quantize(Decimal('0.001'), rounding='ROUND_HALF_DOWN'),
y.quantize(Decimal('0.001'), rounding='ROUND_HALF_DOWN') )
)
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s870837210 | p00004 | Runtime Error | import sys
from decimal import Decimal
def main():
#input_strings = sys.stdin.readlines()
for coef_and_cons in input_strings:
a, b, c, d ,e, f = map(Decimal, coef_and_cons.split())
x = (f/e - c/b) / (d/e - a/b)
y = (f/d - c/a) / (e/d - b/a)
print('%.3f %.3f' % (x.quantize(Decimal('0.001'), rounding='ROUND_HALF_DOWN'),
y.quantize(Decimal('0.001'), rounding='ROUND_HALF_DOWN') )
)
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s445216761 | p00004 | Runtime Error | import sys
from decimal import Decimal
def main():
input_strings = sys.stdin.readlines()
for coef_and_cons in input_strings:
a, b, c, d ,e, f = map(Decimal, coef_and_cons.split())
x = (f/e - c/b) / (d/e - a/b)
y = (f/d - c/a) / (e/d - b/a)
print('%.3f %.3f' % (x.quantize(Decimal('0.001'), rounding='ROUND_HALF_DOWN'),
y.quantize(Decimal('0.001'), rounding='ROUND_HALF_DOWN') )
)
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s769160067 | p00004 | Runtime Error | import sys
from decimal import Decimal
from fractions import Fraction
def main():
#input_strings = sys.stdin.readlines()
for matrix_string in input_strings:
matrix = list(map(Fraction, list(matrix_string.split())))
if matrix[0] == 0:
matrix = matrix[3:] + matrix[:3]
matrix = list(map(lambda x: x / matrix[0], matrix[:3])) + matrix[3:]
matrix = matrix[:3] + list(map(lambda x: x[1] - matrix[3] * x[0], zip(matrix[:3], matrix[3:])))
matrix = matrix[:3] + list(map(lambda x: x / matrix[4], matrix[3:]))
matrix = list(map(lambda x: x[0] - matrix[1] * x[1], zip(matrix[:3], matrix[3:]))) + matrix[3:]
matrix = list(map(float, matrix))
matrix = list(map(Decimal, matrix))
matrix = list(map(lambda x: x.quantize(Decimal('.001'), rounding='ROUND_HALF_UP'), matrix))
print('%.3f %.3f' % (matrix[2], matrix[5]))
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s138423789 | p00004 | Runtime Error | import sys
from decimal import Decimal
from fractions import Fraction
def main():
#input_strings = sys.stdin.readlines()
for matrix_string in input_strings:
matrix = list(map(Fraction, list(matrix_string.split())))
if matrix[0] == 0:
matrix = matrix[3:] + matrix[:3]
matrix = list(map(lambda x: x / matrix[0], matrix[:3])) + matrix[3:]
matrix = matrix[:3] + list(map(lambda x: x[1] - matrix[3] * x[0], zip(matrix[:3], matrix[3:])))
matrix = matrix[:3] + list(map(lambda x: x / matrix[4], matrix[3:]))
matrix = list(map(lambda x: x[0] - matrix[1] * x[1], zip(matrix[:3], matrix[3:]))) + matrix[3:]
matrix = list(map(float, matrix))
matrix = list(map(Decimal, matrix))
matrix = list(map(lambda x: x.quantize(Decimal('.001'), rounding='ROUND_HALF_UP'), matrix))
matrix = list(map(lambda x: x + 0, matrix))
print('%.3f %.3f' % (matrix[2], matrix[5]))
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s121500953 | p00004 | Runtime Error | # -*-coding:utf-8
import numpy as np
def main():
tokens = list(map(float, input().split(' ')))
A = np.array([[tokens[0],tokens[1]] ,[tokens[3],tokens[4]]])
B = np.array([tokens[2],tokens[5]])
X = np.linalg.solve(A, B)
print( '%.3f %0.3f' % (X[0], X[1]) )
if __name__ == '__main__':
for i in range(2):
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s257238584 | p00004 | Runtime Error | # -*-coding:utf-8
import numpy as np
def main():
tokens = list(map(float, input().split(' ')))
A = np.array([[tokens[0],tokens[1]] ,[tokens[3],tokens[4]]])
B = np.array([tokens[2],tokens[5]])
X = np.linalg.solve(A, B)
for i in range(2):
if X[i] == -0.000:
X[i] = abs(X[i])
print( '%.3f %0.3f' % (X[0], X[1]) )
return 0
if __name__ == '__main__':
for i in range(2):
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s649388524 | p00004 | Runtime Error | # -*-coding:utf-8
import numpy as np
def main():
tokens = raw_input().split(' ')
for i in range(6):
tokens[i] = int(tokens[i])
A = np.array([[tokens[0],tokens[1]] ,[tokens[3],tokens[4]]])
B = np.array([tokens[2],tokens[5]])
X = np.linalg.solve(A, B)
for i in range(2):
if X[i] == -0.000:
X[i] = abs(X[i])
print( '%.3f %0.3f' % (X[0], X[1]) )
return 0
if __name__ == '__main__':
for i in range(2):
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s297739259 | p00004 | Runtime Error | # -*-coding:utf-8
import numpy as np
def main():
line = input()
tokens = list(map(float, line.strip().split()))
A = np.array([[tokens[0],tokens[1]] ,[tokens[3],tokens[4]]])
B = np.array([tokens[2],tokens[5]])
X = np.linalg.solve(A, B)
for i in range(2):
if X[i] == -0.000:
X[i] = abs(X[i])
print( '%.3f %0.3f' % (X[0], X[1]) )
return 0
if __name__ == '__main__':
for i in range(2):
main() | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s867770652 | p00004 | Runtime Error | import fileinput
import sys
for i in fileinput.input():
a.append(i)
for i in a:
b = i.split()
b = map(float, b)
b_a = b[0]
b_b = b[1]
b_c = b[2]
b_d = b[3]
b_e - b[4]
b_f = b[5]
b_d = b_a
b_e = b_a/b_d * b_e
b_f = b_a/b_d * b_f
x = (b_c - b_f)/(b_b - b_e)
y = (b_c - x * b_b)/b_a
print round(x, 3)
print round(y, 3)
sys.exit(None) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s209040242 | p00004 | Runtime Error | def solver(a, b, c, d, e, f):
answer = []
m = a / d
d = d * m
e = e * m
f = f * m
y = (c - f)/(b - e)
x = (c - b * y)/a
answer.append(x)
answer.append(y)
return answer
while 1:
try:
p_1, p_2, p_3, p_4, p_5, p_6 = map(float, raw_input().split())
ans = []
ans = solver(p_1, p_2, p_3, p_4, p_5, p_6)
print "%.3f %.3f" % (ans[0], ans[1])
except: | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s178849916 | p00004 | Runtime Error | import argparse
parser = argparse.ArgumentParser(description='Process some integers.')
parser.add_argument('n', nargs='+', type=int, action='store')
args = parser.parse_args()
a = args.n[0]
b = args.n[1]
c = args.n[2]
d = args.n[3]
e = args.n[4]
f = args.n[5]
x = abs((c * e) - (f * b)) / abs((b * d) - (a * e))
y = abs((c * d) - (f * e)) / abs((b * d) - (a * e))
print('{} {}'.format(x, y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s482693779 | p00004 | Runtime Error | if __name__ == "__main__":
for line in fileinput.input():
a = float(line.split(" ")[0])
b = float(line.split(" ")[1])
c = float(line.split(" ")[2])
d = float(line.split(" ")[3])
e = float(line.split(" ")[4])
f = float(line.split(" ")[5])
x = (e*c-b*f)/(a*e-b*d)
y = (-d*c+a*f)/(a*e-b*d)
print(x,y) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
s104158854 | p00004 | Runtime Error | # coding: utf-8
while True:
data = map(int, raw_input().split())
a = data[0]
b = data[1]
c = data[2]
d = data[3]
e = data[4]
f = data[5]
x = (c*e-b*f)*1.0 / (a*e-b*d)
if x == -0.000:
x = 0.000
if b != 0:
y = (c-a*x)/b
else:
y = (f-d*x)/e
if y == -0.000:
y = 0.000
print("{:.3f} {:.3f}".format(x,y)) | 1 2 3 4 5 6
2 -1 -2 -1 -1 -5
| -1.000 2.000
1.000 4.000
|
<H1>Simultaneous Equation</H1>
<p>
Write a program which solve a simultaneous equation:<br>
<br>
<var> ax + by = c</var><br>
<var> dx + ey = f</var><br>
<br>
The program should print <var>x</var> and <var>y</var> for given <var>a</var>, <var>b</var>, <var>c</var>, <var>d</var>, <var>e</var> and <var>f</var> (-1,000 ≤ <var>a, b, c, d, e, f</var> ≤ 1,000). You can suppose that given equation has a unique solution.
</p>
<H2>Input</H2>
<p>
The input consists of several data sets, 1 line for each data set. In a data set, there will be <var>a, b, c, d, e, f</var> separated by a single space. The input terminates with EOF.
</p>
<H2>Output</H2>
<p>
For each data set, print <var>x</var> and <var>y</var> separated by a single space. Print the solution to three places of decimals. Round off the solution to three decimal places.
</p>
<H2>Sample Input 1</H2>
<pre>
1 2 3 4 5 6
2 -1 -2 -1 -1 -5
</pre>
<H2>Output for the Sample Input 1</H2>
<pre>
-1.000 2.000
1.000 4.000
</pre>
<H2>Sample Input 2</H2>
<pre>
2 -1 -3 1 -1 -3
2 -1 -3 -9 9 27
</pre>
<H2>Output for the Sample Input 2</H2>
<pre>
0.000 3.000
0.000 3.000
</pre>
|
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