// Copyright 2017 The Hugo Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package math import ( "math" "testing" qt "github.com/frankban/quicktest" ) func TestBasicNSArithmetic(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() type TestCase struct { fn func(inputs ...any) (any, error) values []any expect any } for _, test := range []TestCase{ {ns.Add, []any{4, 2}, int64(6)}, {ns.Add, []any{4, 2, 5}, int64(11)}, {ns.Add, []any{1.0, "foo"}, false}, {ns.Add, []any{0}, false}, {ns.Sub, []any{4, 2}, int64(2)}, {ns.Sub, []any{4, 2, 5}, int64(-3)}, {ns.Sub, []any{1.0, "foo"}, false}, {ns.Sub, []any{0}, false}, {ns.Mul, []any{4, 2}, int64(8)}, {ns.Mul, []any{4, 2, 5}, int64(40)}, {ns.Mul, []any{1.0, "foo"}, false}, {ns.Mul, []any{0}, false}, {ns.Div, []any{4, 2}, int64(2)}, {ns.Div, []any{4, 2, 5}, int64(0)}, {ns.Div, []any{1.0, "foo"}, false}, {ns.Div, []any{0}, false}, } { result, err := test.fn(test.values...) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestAbs(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0.0, 0.0}, {1.5, 1.5}, {-1.5, 1.5}, {-2, 2.0}, {"abc", false}, } { result, err := ns.Abs(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestCeil(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0.1, 1.0}, {0.5, 1.0}, {1.1, 2.0}, {1.5, 2.0}, {-0.1, 0.0}, {-0.5, 0.0}, {-1.1, -1.0}, {-1.5, -1.0}, {"abc", false}, } { result, err := ns.Ceil(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestFloor(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0.1, 0.0}, {0.5, 0.0}, {1.1, 1.0}, {1.5, 1.0}, {-0.1, -1.0}, {-0.5, -1.0}, {-1.1, -2.0}, {-1.5, -2.0}, {"abc", false}, } { result, err := ns.Floor(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestLog(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any expect any }{ {1, 0.0}, {3, 1.0986}, {0, math.Inf(-1)}, {1.0, 0.0}, {3.1, 1.1314}, {"abc", false}, } { result, err := ns.Log(test.a) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions if result != math.Inf(-1) { result = float64(int(result*10000)) / 10000 } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } // Separate test for Log(-1) -- returns NaN result, err := ns.Log(-1) c.Assert(err, qt.IsNil) c.Assert(result, qt.Satisfies, math.IsNaN) } func TestSqrt(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any expect any }{ {81, 9.0}, {0.25, 0.5}, {0, 0.0}, {"abc", false}, } { result, err := ns.Sqrt(test.a) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions if result != math.Inf(-1) { result = float64(int(result*10000)) / 10000 } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } // Separate test for Sqrt(-1) -- returns NaN result, err := ns.Sqrt(-1) c.Assert(err, qt.IsNil) c.Assert(result, qt.Satisfies, math.IsNaN) } func TestMod(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any b any expect any }{ {3, 2, int64(1)}, {3, 1, int64(0)}, {3, 0, false}, {0, 3, int64(0)}, {3.1, 2, int64(1)}, {3, 2.1, int64(1)}, {3.1, 2.1, int64(1)}, {int8(3), int8(2), int64(1)}, {int16(3), int16(2), int64(1)}, {int32(3), int32(2), int64(1)}, {int64(3), int64(2), int64(1)}, {"3", "2", int64(1)}, {"3.1", "2", false}, {"aaa", "0", false}, {"3", "aaa", false}, } { result, err := ns.Mod(test.a, test.b) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestModBool(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any b any expect any }{ {3, 3, true}, {3, 2, false}, {3, 1, true}, {3, 0, nil}, {0, 3, true}, {3.1, 2, false}, {3, 2.1, false}, {3.1, 2.1, false}, {int8(3), int8(3), true}, {int8(3), int8(2), false}, {int16(3), int16(3), true}, {int16(3), int16(2), false}, {int32(3), int32(3), true}, {int32(3), int32(2), false}, {int64(3), int64(3), true}, {int64(3), int64(2), false}, {"3", "3", true}, {"3", "2", false}, {"3.1", "2", nil}, {"aaa", "0", nil}, {"3", "aaa", nil}, } { result, err := ns.ModBool(test.a, test.b) if test.expect == nil { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestRound(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0.1, 0.0}, {0.5, 1.0}, {1.1, 1.0}, {1.5, 2.0}, {-0.1, 0.0}, {-0.5, -1.0}, {-1.1, -1.0}, {-1.5, -2.0}, {"abc", false}, } { result, err := ns.Round(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestPow(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any b any expect any }{ {0, 0, 1.0}, {2, 0, 1.0}, {2, 3, 8.0}, {-2, 3, -8.0}, {2, -3, 0.125}, {-2, -3, -0.125}, {0.2, 3, 0.008}, {2, 0.3, 1.2311}, {0.2, 0.3, 0.617}, {"aaa", "3", false}, {"2", "aaa", false}, } { result, err := ns.Pow(test.a, test.b) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestMax(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() type TestCase struct { values []any expect any } for _, test := range []TestCase{ // two values {[]any{-1, -1}, -1.0}, {[]any{-1, 0}, 0.0}, {[]any{-1, 1}, 1.0}, {[]any{0, -1}, 0.0}, {[]any{0, 0}, 0.0}, {[]any{0, 1}, 1.0}, {[]any{1, -1}, 1.0}, {[]any{1, 0}, 1.0}, {[]any{32}, 32.0}, {[]any{1, 1}, 1.0}, {[]any{1.2, 1.23}, 1.23}, {[]any{-1.2, -1.23}, -1.2}, {[]any{0, "a"}, false}, {[]any{"a", 0}, false}, {[]any{"a", "b"}, false}, // Issue #11030 {[]any{7, []any{3, 4}}, 7.0}, {[]any{8, []any{3, 12}, 3}, 12.0}, {[]any{[]any{3, 5, 2}}, 5.0}, {[]any{3, []int{3, 6}, 3}, 6.0}, // No values. {[]any{}, false}, // multi values {[]any{-1, -2, -3}, -1.0}, {[]any{1, 2, 3}, 3.0}, {[]any{"a", 2, 3}, false}, } { result, err := ns.Max(test.values...) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } msg := qt.Commentf("values: %v", test.values) c.Assert(err, qt.IsNil, msg) c.Assert(result, qt.Equals, test.expect, msg) } } func TestMin(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() type TestCase struct { values []any expect any } for _, test := range []TestCase{ // two values {[]any{-1, -1}, -1.0}, {[]any{-1, 0}, -1.0}, {[]any{-1, 1}, -1.0}, {[]any{0, -1}, -1.0}, {[]any{0, 0}, 0.0}, {[]any{0, 1}, 0.0}, {[]any{1, -1}, -1.0}, {[]any{1, 0}, 0.0}, {[]any{1, 1}, 1.0}, {[]any{2}, 2.0}, {[]any{1.2, 1.23}, 1.2}, {[]any{-1.2, -1.23}, -1.23}, {[]any{0, "a"}, false}, {[]any{"a", 0}, false}, {[]any{"a", "b"}, false}, // Issue #11030 {[]any{1, []any{3, 4}}, 1.0}, {[]any{8, []any{3, 2}, 3}, 2.0}, {[]any{[]any{3, 2, 2}}, 2.0}, {[]any{8, []int{3, 2}, 3}, 2.0}, // No values. {[]any{}, false}, // multi values {[]any{-1, -2, -3}, -3.0}, {[]any{1, 2, 3}, 1.0}, {[]any{"a", 2, 3}, false}, } { result, err := ns.Min(test.values...) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } c.Assert(err, qt.IsNil, qt.Commentf("values: %v", test.values)) c.Assert(result, qt.Equals, test.expect) } } func TestSum(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() mustSum := func(values ...any) any { result, err := ns.Sum(values...) c.Assert(err, qt.IsNil) return result } c.Assert(mustSum(1, 2, 3), qt.Equals, 6.0) c.Assert(mustSum(1, 2, 3.0), qt.Equals, 6.0) c.Assert(mustSum(1, 2, []any{3, 4}), qt.Equals, 10.0) c.Assert(mustSum(23), qt.Equals, 23.0) c.Assert(mustSum([]any{23}), qt.Equals, 23.0) c.Assert(mustSum([]any{}), qt.Equals, 0.0) _, err := ns.Sum() c.Assert(err, qt.Not(qt.IsNil)) } func TestProduct(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() mustProduct := func(values ...any) any { result, err := ns.Product(values...) c.Assert(err, qt.IsNil) return result } c.Assert(mustProduct(2, 2, 3), qt.Equals, 12.0) c.Assert(mustProduct(1, 2, 3.0), qt.Equals, 6.0) c.Assert(mustProduct(1, 2, []any{3, 4}), qt.Equals, 24.0) c.Assert(mustProduct(3.0), qt.Equals, 3.0) c.Assert(mustProduct([]string{}), qt.Equals, 0.0) _, err := ns.Product() c.Assert(err, qt.Not(qt.IsNil)) } // Test trigonometric functions func TestPi(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() expect := 3.1415 result := ns.Pi() // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(result, qt.Equals, expect) } func TestSin(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any expect any }{ {0, 0.0}, {1, 0.8414}, {math.Pi / 2, 1.0}, {math.Pi, 0.0}, {-1.0, -0.8414}, {"abc", false}, } { result, err := ns.Sin(test.a) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestCos(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any expect any }{ {0, 1.0}, {1, 0.5403}, {math.Pi / 2, 0.0}, {math.Pi, -1.0}, {-1.0, 0.5403}, {"abc", false}, } { result, err := ns.Cos(test.a) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestTan(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { a any expect any }{ {0, 0.0}, {1, 1.5574}, // {math.Pi / 2, math.Inf(1)}, {math.Pi, 0.0}, {-1.0, -1.5574}, {"abc", false}, } { result, err := ns.Tan(test.a) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions if result != math.Inf(1) { result = float64(int(result*10000)) / 10000 } c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } // Separate test for Tan(oo) -- returns NaN result, err := ns.Tan(math.Inf(1)) c.Assert(err, qt.IsNil) c.Assert(result, qt.Satisfies, math.IsNaN) } // Test inverse trigonometric functions func TestAsin(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0.0, 0.0}, {1.0, 1.5707}, {-1.0, -1.5707}, {0.5, 0.5235}, {"abc", false}, } { result, err := ns.Asin(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } // Separate test for Asin(2) -- returns NaN result, err := ns.Asin(2) c.Assert(err, qt.IsNil) c.Assert(result, qt.Satisfies, math.IsNaN) } func TestAcos(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {1.0, 0.0}, {0.0, 1.5707}, {-1.0, 3.1415}, {0.5, 1.0471}, {"abc", false}, } { result, err := ns.Acos(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } // Separate test for Acos(2) -- returns NaN result, err := ns.Acos(2) c.Assert(err, qt.IsNil) c.Assert(result, qt.Satisfies, math.IsNaN) } func TestAtan(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0.0, 0.0}, {1, 0.7853}, {-1.0, -0.7853}, {math.Inf(1), 1.5707}, {"abc", false}, } { result, err := ns.Atan(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestAtan2(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any y any expect any }{ {1.0, 1.0, 0.7853}, {-1.0, 1.0, -0.7853}, {1.0, -1.0, 2.3561}, {-1.0, -1.0, -2.3561}, {1, 0, 1.5707}, {-1, 0, -1.5707}, {0, 1, 0.0}, {0, -1, 3.1415}, {0.0, 0.0, 0.0}, {"abc", "def", false}, } { result, err := ns.Atan2(test.x, test.y) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } // Test angle helper functions func TestToDegrees(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0.0, 0.0}, {1, 57.2957}, {math.Pi / 2, 90.0}, {math.Pi, 180.0}, {"abc", false}, } { result, err := ns.ToDegrees(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } } func TestToRadians(t *testing.T) { t.Parallel() c := qt.New(t) ns := New() for _, test := range []struct { x any expect any }{ {0, 0.0}, {57.29577951308232, 1.0}, {90, 1.5707}, {180.0, 3.1415}, {"abc", false}, } { result, err := ns.ToRadians(test.x) if b, ok := test.expect.(bool); ok && !b { c.Assert(err, qt.Not(qt.IsNil)) continue } // we compare only 4 digits behind point if its a real float // otherwise we usually get different float values on the last positions result = float64(int(result*10000)) / 10000 c.Assert(err, qt.IsNil) c.Assert(result, qt.Equals, test.expect) } }