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@safe pure nothrow @nogc unittest
{
import std.math.traits;
assert( isNaN(float.init));
assert( isNaN(-double.init));
assert( isNaN(real.nan));
assert( isNaN(-real.nan));
assert(!isNaN(cast(float) 53.6));
assert(!isNaN(cast(real)-53.6));
}
@safe pure nothrow @nogc unittest
{
import std.math.traits;
assert( isFinite(1.23f));
assert( isFinite(float.max));
assert( isFinite(float.min_normal));
assert(!isFinite(float.nan));
assert(!isFinite(float.infinity));
}
@safe pure nothrow @nogc unittest
{
import std.math.traits;
float f = 3;
double d = 500;
real e = 10e+48;
assert(isNormal(f));
assert(isNormal(d));
assert(isNormal(e));
f = d = e = 0;
assert(!isNormal(f));
assert(!isNormal(d));
assert(!isNormal(e));
assert(!isNormal(real.infinity));
assert(isNormal(-real.max));
assert(!isNormal(real.min_normal/4));
}
@safe pure nothrow @nogc unittest
{
import std.math.traits;
import std.meta : AliasSeq;
static foreach (T; AliasSeq!(float, double, real))
{{
T f;
for (f = 1.0; !isSubnormal(f); f /= 2)
assert(f != 0);
}}
}
@nogc @safe pure nothrow unittest
{
import std.math.traits;
assert(!isInfinity(float.init));
assert(!isInfinity(-float.init));
assert(!isInfinity(float.nan));
assert(!isInfinity(-float.nan));
assert(isInfinity(float.infinity));
assert(isInfinity(-float.infinity));
assert(isInfinity(-1.0f / 0.0f));
}
@safe @nogc pure nothrow unittest
{
import std.math.traits;
// We're forcing the CTFE to run by assigning the result of the function to an enum
enum test1 = isIdentical(1.0,1.0);
enum test2 = isIdentical(real.nan,real.nan);
enum test3 = isIdentical(real.infinity, real.infinity);
enum test4 = isIdentical(real.infinity, real.infinity);
enum test5 = isIdentical(0.0, 0.0);
assert(test1);
assert(test2);
assert(test3);
assert(test4);
assert(test5);
enum test6 = !isIdentical(0.0, -0.0);
enum test7 = !isIdentical(real.nan, -real.nan);
enum test8 = !isIdentical(real.infinity, -real.infinity);
assert(test6);
assert(test7);
assert(test8);
}
@nogc @safe pure nothrow unittest
{
import std.math.traits;
assert(!signbit(float.nan));
assert(signbit(-float.nan));
assert(!signbit(168.1234f));
assert(signbit(-168.1234f));
assert(!signbit(0.0f));
assert(signbit(-0.0f));
assert(signbit(-float.max));
assert(!signbit(float.max));
assert(!signbit(double.nan));
assert(signbit(-double.nan));
assert(!signbit(168.1234));
assert(signbit(-168.1234));
assert(!signbit(0.0));
assert(signbit(-0.0));
assert(signbit(-double.max));
assert(!signbit(double.max));
assert(!signbit(real.nan));
assert(signbit(-real.nan));
assert(!signbit(168.1234L));
assert(signbit(-168.1234L));
assert(!signbit(0.0L));
assert(signbit(-0.0L));
assert(signbit(-real.max));
assert(!signbit(real.max));
}
@safe pure nothrow @nogc unittest
{
import std.math.traits;
assert(copysign(1.0, 1.0) == 1.0);
assert(copysign(1.0, -0.0) == -1.0);
assert(copysign(1UL, -1.0) == -1.0);
assert(copysign(-1.0, -1.0) == -1.0);
assert(copysign(real.infinity, -1.0) == -real.infinity);
assert(copysign(real.nan, 1.0) is real.nan);
assert(copysign(-real.nan, 1.0) is real.nan);
assert(copysign(real.nan, -1.0) is -real.nan);
}
@safe pure nothrow @nogc unittest
{
import std.math.traits;
assert(sgn(168.1234) == 1);
assert(sgn(-168.1234) == -1);
assert(sgn(0.0) == 0);
assert(sgn(-0.0) == 0);
}
@safe unittest
{
import std.math.traits;
import std.math.exponential : pow;
assert( isPowerOf2(1.0L));
assert( isPowerOf2(2.0L));
assert( isPowerOf2(0.5L));
assert( isPowerOf2(pow(2.0L, 96)));
assert( isPowerOf2(pow(2.0L, -77)));
assert(!isPowerOf2(-2.0L));
assert(!isPowerOf2(-0.5L));
assert(!isPowerOf2(0.0L));
assert(!isPowerOf2(4.315));
assert(!isPowerOf2(1.0L / 3.0L));
assert(!isPowerOf2(real.nan));
assert(!isPowerOf2(real.infinity));
}
@safe unittest
{
import std.math.traits;
assert( isPowerOf2(1));
assert( isPowerOf2(2));
assert( isPowerOf2(1uL << 63));
assert(!isPowerOf2(-4));
assert(!isPowerOf2(0));
assert(!isPowerOf2(1337u));
}
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