Download or view modTest.frink in plain text format
// This tests the modulus operator.
trouble = 2^31
for x = trouble - 5 to trouble + 5
for y = trouble - 5 to trouble + 5
test[x,y]
for x = -trouble - 5 to -trouble + 5
for y = trouble - 5 to trouble + 5
test[x,y]
for x = trouble - 5 to trouble + 5
for y = -trouble - 5 to -trouble + 5
test[x,y]
for x = -trouble - 5 to -trouble + 5
for y = -trouble - 5 to -trouble + 5
test[x,y]
for x = -trouble - 5 to -trouble + 5
for y = -5 to 5
{
if y != 0
test[x,y]
if x != 0
test[y,x]
}
setPrecision[24]
a = [1, 2, 10, 1000, 1000000000001, 1203923809824398, 23019832098432,
2^32, 2^31-1, 2^31, 2^31+1, 1/2, 1/3, 2/3, 1/7, 3/5, 9/1000000000009, 100000000000034/5,
23/10101111101010100101, 1023221329384084044/29, 1.2, 1/3.,
1.109230002139802138, -3209432049832409e10, 329032.213908e-8, 1.4e30,
3/1ee25 ]
for n = a
for m = a
{
test[ n, m]
test[ n,-m]
test[-n,-m]
test[-n, m]
}
test[x,y] :=
{
r = x mod y
if signum[r] != signum[y] and signum[r] != 0
println["ERROR in signum: $x mod $y == $r"]
if y > 0
{
if ! ((0 <= r) && (r <= y))
println["ERROR in range: $x mod $y == $r"]
} else
{
if ! ((0 >= r) && (r >= y))
println["ERROR in range: $x mod $y == $r"]
}
if abs[(x div y) * y + r - x] > 1e-17 max[abs[x], abs[y]]
{
println["ERROR in reverse: $x mod $y == $r, $x div $y == " + (x div y)]
println[" error is: " + ((x div y) * y + r) - x]
println[" floor[x/y] = " + floor[x/y] + ", y * floor[x/y] = " + y floor[x/y]]
println[]
}
}
Download or view modTest.frink in plain text format
This is a program written in the programming language Frink.
For more information, view the Frink
Documentation or see More Sample Frink Programs.
Alan Eliasen was born 20218 days, 0 hours, 16 minutes ago.