VictoriaMetrics/lib/logstorage/pipe_math_test.go

360 lines
6.3 KiB
Go

package logstorage
import (
"testing"
)
func TestParsePipeMathSuccess(t *testing.T) {
f := func(pipeStr string) {
t.Helper()
expectParsePipeSuccess(t, pipeStr)
}
f(`math b as a`)
f(`math -123 as a`)
f(`math 12.345KB as a`)
f(`math (-2 + 2) as a`)
f(`math x as a, z as y`)
f(`math (foo / bar + baz * abc % -45ms) as a`)
f(`math (foo / (bar + baz) * abc ^ 2) as a`)
f(`math (foo / ((bar + baz) * abc) ^ -2) as a`)
f(`math (foo + bar / baz - abc) as a`)
f(`math min(3, foo, (1 + bar) / baz) as a, max(a, b) as b, (abs(c) + 5) as d`)
f(`math round(foo) as x`)
f(`math round(foo, 0.1) as y`)
f(`math (a / b default 10) as z`)
f(`math (ln(a) + exp(b)) as x`)
}
func TestParsePipeMathFailure(t *testing.T) {
f := func(pipeStr string) {
t.Helper()
expectParsePipeFailure(t, pipeStr)
}
f(`math`)
f(`math x as`)
f(`math abs() as x`)
f(`math abs(a, b) as x`)
f(`math min() as x`)
f(`math min(a) as x`)
f(`math max() as x`)
f(`math max(a) as x`)
f(`math round() as x`)
f(`math round(a, b, c) as x`)
}
func TestPipeMath(t *testing.T) {
f := func(pipeStr string, rows, rowsExpected [][]Field) {
t.Helper()
expectPipeResults(t, pipeStr, rows, rowsExpected)
}
f(`math
'2024-05-30T01:02:03Z' + 10e9 as time,
10m5s + 10e9 as duration,
'123.45.67.89' + 1000 as ip,
time - time % time_step as time_rounded,
duration - duration % duration_step as duration_rounded,
(ip & ip_mask | 0x1234) xor 5678 as subnet
`, [][]Field{
{
{"time_step", "30m"},
{"duration_step", "30s"},
{"ip_mask", "0xffffff00"},
},
}, [][]Field{
{
{"time_step", "30m"},
{"duration_step", "30s"},
{"ip_mask", "0xffffff00"},
{"time", "1717030933000000000"},
{"duration", "615000000000"},
{"ip", "2066564929"},
{"time_rounded", "1717030800000000000"},
{"duration_rounded", "600000000000"},
{"subnet", "2066563354"},
},
})
f("eval b+1 as a, a*2 as b, b-10.5+c as c", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "3"},
{"b", "6"},
{"c", "-1.5"},
},
})
f("math a / b default c", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
{
{"a", "0"},
{"b", "0"},
{"c", "3"},
},
{
{"a", "3"},
{"b", "2"},
},
{
{"a", "3"},
{"b", "foo"},
},
}, [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
{"a / b default c", "3"},
},
{
{"a", "0"},
{"b", "0"},
{"c", "3"},
{"a / b default c", "3"},
},
{
{"a", "3"},
{"b", "2"},
{"a / b default c", "1.5"},
},
{
{"a", "3"},
{"b", "foo"},
{"a / b default c", "NaN"},
},
})
f("math round(exp(a), 0.01), round(ln(a), 0.01), ceil(exp(a)), floor(exp(a))", [][]Field{
{
{"a", "v1"},
},
{
{"a", "0"},
},
{
{"a", "1"},
},
{
{"a", "2"},
},
{
{"a", "3"},
},
}, [][]Field{
{
{"a", "v1"},
{"round(exp(a), 0.01)", "NaN"},
{"round(ln(a), 0.01)", "NaN"},
{"ceil(exp(a))", "NaN"},
{"floor(exp(a))", "NaN"},
},
{
{"a", "0"},
{"round(exp(a), 0.01)", "1"},
{"round(ln(a), 0.01)", "NaN"},
{"ceil(exp(a))", "1"},
{"floor(exp(a))", "1"},
},
{
{"a", "1"},
{"round(exp(a), 0.01)", "2.72"},
{"round(ln(a), 0.01)", "0"},
{"ceil(exp(a))", "3"},
{"floor(exp(a))", "2"},
},
{
{"a", "2"},
{"round(exp(a), 0.01)", "7.39"},
{"round(ln(a), 0.01)", "0.69"},
{"ceil(exp(a))", "8"},
{"floor(exp(a))", "7"},
},
{
{"a", "3"},
{"round(exp(a), 0.01)", "20.09"},
{"round(ln(a), 0.01)", "1.1"},
{"ceil(exp(a))", "21"},
{"floor(exp(a))", "20"},
},
})
f("math 1 as a", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "1"},
{"b", "2"},
{"c", "3"},
},
})
f("math 10 * 5 - 3 a", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "47"},
{"b", "2"},
{"c", "3"},
},
})
f("math -1.5K as a", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "-1500"},
{"b", "2"},
{"c", "3"},
},
})
f("math b as a", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "2"},
{"b", "2"},
{"c", "3"},
},
})
f("math a as a", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "NaN"},
{"b", "2"},
{"c", "3"},
},
})
f("math 2*c + b as x", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
{"x", "8"},
},
})
f("math abs(-min(a,b)) as min, round(max(40*b/30,c)) as max", [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
},
}, [][]Field{
{
{"a", "v1"},
{"b", "2"},
{"c", "3"},
{"min", "2"},
{"max", "3"},
},
})
f("math round((2*c + (b%c))/(c-b)^(b-1), -0.001) as a", [][]Field{
{
{"a", "v"},
{"b", "2"},
{"c", "3"},
},
{
{"a", "x"},
{"b", "3"},
{"c", "5"},
},
{
{"b", "3"},
{"c", "6"},
},
}, [][]Field{
{
{"a", "8"},
{"b", "2"},
{"c", "3"},
},
{
{"a", "3.25"},
{"b", "3"},
{"c", "5"},
},
{
{"a", "1.667"},
{"b", "3"},
{"c", "6"},
},
})
}
func TestPipeMathUpdateNeededFields(t *testing.T) {
f := func(s string, neededFields, unneededFields, neededFieldsExpected, unneededFieldsExpected string) {
t.Helper()
expectPipeNeededFields(t, s, neededFields, unneededFields, neededFieldsExpected, unneededFieldsExpected)
}
// all the needed fields
f("math (x + 1) as y", "*", "", "*", "y")
// all the needed fields, unneeded fields do not intersect with src and dst
f("math (x + 1) as y", "*", "f1,f2", "*", "f1,f2,y")
// all the needed fields, unneeded fields intersect with src
f("math (x + 1) as y", "*", "f1,x", "*", "f1,y")
// all the needed fields, unneeded fields intersect with dst
f("math (x + 1) as y", "*", "f1,y", "*", "f1,y")
// all the needed fields, unneeded fields intersect with src and dst
f("math (x + 1) as y", "*", "f1,x,y", "*", "f1,x,y")
// needed fields do not intersect with src and dst
f("math (x + 1) as y", "f1,f2", "", "f1,f2", "")
// needed fields intersect with src
f("math (x + 1) as y", "f1,x", "", "f1,x", "")
// needed fields intersect with dst
f("math (x + 1) as y", "f1,y", "", "f1,x", "")
// needed fields intersect with src and dst
f("math (x + 1) as y", "f1,x,y", "", "f1,x", "")
}