astro/basic/moon_physical_test.go

package basic

import (
	"math"
	"testing"
	"time"
)

func TestMoonPhysicalMeeusExample(t *testing.T) {
	info := MoonPhysical(2448724.5)

	assertClose(t, "OpticalLongitude", info.OpticalLongitude, -1.206, 0.01)
	assertClose(t, "OpticalLatitude", info.OpticalLatitude, 4.194, 0.01)
	assertClose(t, "PhysicalLongitude", info.PhysicalLongitude, -0.025, 0.01)
	assertClose(t, "PhysicalLatitude", info.PhysicalLatitude, 0.006, 0.01)
	assertClose(t, "LibrationLongitude", info.LibrationLongitude, -1.23, 0.02)
	assertClose(t, "LibrationLatitude", info.LibrationLatitude, 4.20, 0.02)
	assertClose(t, "PositionAngle", info.PositionAngle, 15.08, 0.02)
}

func TestMoonPhysicalNFullMatchesDefault(t *testing.T) {
	jd := 2461163.896354167

	got := MoonPhysical(jd)
	gotN := MoonPhysicalN(jd, -1)

	assertSameFloat(t, "OpticalLongitude", got.OpticalLongitude, gotN.OpticalLongitude)
	assertSameFloat(t, "OpticalLatitude", got.OpticalLatitude, gotN.OpticalLatitude)
	assertSameFloat(t, "PhysicalLongitude", got.PhysicalLongitude, gotN.PhysicalLongitude)
	assertSameFloat(t, "PhysicalLatitude", got.PhysicalLatitude, gotN.PhysicalLatitude)
	assertSameFloat(t, "LibrationLongitude", got.LibrationLongitude, gotN.LibrationLongitude)
	assertSameFloat(t, "LibrationLatitude", got.LibrationLatitude, gotN.LibrationLatitude)
	assertSameFloat(t, "PositionAngle", got.PositionAngle, gotN.PositionAngle)
}

func TestMoonPhysicalSampleSweepFiniteAndInRange(t *testing.T) {
	dates := []time.Time{
		time.Date(1900, 1, 1, 0, 0, 0, 0, time.UTC),
		time.Date(1969, 7, 20, 20, 17, 40, 0, time.UTC),
		time.Date(2000, 1, 1, 12, 0, 0, 0, time.UTC),
		time.Date(2026, 4, 28, 9, 30, 45, 0, time.UTC),
		time.Date(2099, 12, 31, 23, 59, 59, 0, time.UTC),
	}

	for _, date := range dates {
		jd := TD2UT(Date2JDE(date.UTC()), true)
		info := MoonPhysical(jd)
		prefix := date.Format(time.RFC3339)

		assertFiniteSymmetric(t, prefix+".OpticalLongitude", info.OpticalLongitude, 180)
		assertFiniteSymmetric(t, prefix+".OpticalLatitude", info.OpticalLatitude, 90)
		assertFiniteSymmetric(t, prefix+".PhysicalLongitude", info.PhysicalLongitude, 180)
		assertFiniteSymmetric(t, prefix+".PhysicalLatitude", info.PhysicalLatitude, 90)
		assertFiniteSymmetric(t, prefix+".LibrationLongitude", info.LibrationLongitude, 180)
		assertFiniteSymmetric(t, prefix+".LibrationLatitude", info.LibrationLatitude, 90)
		assertFiniteSymmetric(t, prefix+".PositionAngle", info.PositionAngle, 90)
	}
}

func assertFiniteSymmetric(t *testing.T, name string, got, limit float64) {
	t.Helper()
	if math.IsNaN(got) || math.IsInf(got, 0) {
		t.Fatalf("%s is not finite: %.18f", name, got)
	}
	if got < -limit || got > limit {
		t.Fatalf("%s out of range: %.18f not in [-%.18f, %.18f]", name, got, limit, limit)
	}
}
feat: 扩展天文计算能力 - 新增日食、月食、本地可见性、中心线、半影区域、SVG 图示与沙罗周期信息 - 新增行星冲合、留、方照、物理星历、视直径、相位、亮肢角、轨道节点等计算 - 新增木星伽利略卫星位置、现象与接触事件计算 - 新增恒星星表、星座判定、自行修正与观测辅助能力 - 新增 coord、formula、orbit、sundial、lite/sun、lite/moon 等扩展包 - 完善农历年号、月相英文别名、视差角、大气质量、折射、日晷与双星计算 - 增加 NASA、JPL Horizons、IMCCE 等回归测试数据与基线测试 - 重构基础算法文件组织，补充大量公开 API 注释和语义回归测试 - 更新中文和英文 README，补充示例、精度说明、SVG 配图 2026-05-01 22:38:44 +08:00			`package basic`

			`import (`
			`"math"`
			`"testing"`
			`"time"`
			`)`

			`func TestMoonPhysicalMeeusExample(t *testing.T) {`
			`info := MoonPhysical(2448724.5)`

			`assertClose(t, "OpticalLongitude", info.OpticalLongitude, -1.206, 0.01)`
			`assertClose(t, "OpticalLatitude", info.OpticalLatitude, 4.194, 0.01)`
			`assertClose(t, "PhysicalLongitude", info.PhysicalLongitude, -0.025, 0.01)`
			`assertClose(t, "PhysicalLatitude", info.PhysicalLatitude, 0.006, 0.01)`
			`assertClose(t, "LibrationLongitude", info.LibrationLongitude, -1.23, 0.02)`
			`assertClose(t, "LibrationLatitude", info.LibrationLatitude, 4.20, 0.02)`
			`assertClose(t, "PositionAngle", info.PositionAngle, 15.08, 0.02)`
			`}`

			`func TestMoonPhysicalNFullMatchesDefault(t *testing.T) {`
			`jd := 2461163.896354167`

			`got := MoonPhysical(jd)`
			`gotN := MoonPhysicalN(jd, -1)`

			`assertSameFloat(t, "OpticalLongitude", got.OpticalLongitude, gotN.OpticalLongitude)`
			`assertSameFloat(t, "OpticalLatitude", got.OpticalLatitude, gotN.OpticalLatitude)`
			`assertSameFloat(t, "PhysicalLongitude", got.PhysicalLongitude, gotN.PhysicalLongitude)`
			`assertSameFloat(t, "PhysicalLatitude", got.PhysicalLatitude, gotN.PhysicalLatitude)`
			`assertSameFloat(t, "LibrationLongitude", got.LibrationLongitude, gotN.LibrationLongitude)`
			`assertSameFloat(t, "LibrationLatitude", got.LibrationLatitude, gotN.LibrationLatitude)`
			`assertSameFloat(t, "PositionAngle", got.PositionAngle, gotN.PositionAngle)`
			`}`

			`func TestMoonPhysicalSampleSweepFiniteAndInRange(t *testing.T) {`
			`dates := []time.Time{`
			`time.Date(1900, 1, 1, 0, 0, 0, 0, time.UTC),`
			`time.Date(1969, 7, 20, 20, 17, 40, 0, time.UTC),`
			`time.Date(2000, 1, 1, 12, 0, 0, 0, time.UTC),`
			`time.Date(2026, 4, 28, 9, 30, 45, 0, time.UTC),`
			`time.Date(2099, 12, 31, 23, 59, 59, 0, time.UTC),`
			`}`

			`for _, date := range dates {`
			`jd := TD2UT(Date2JDE(date.UTC()), true)`
			`info := MoonPhysical(jd)`
			`prefix := date.Format(time.RFC3339)`

			`assertFiniteSymmetric(t, prefix+".OpticalLongitude", info.OpticalLongitude, 180)`
			`assertFiniteSymmetric(t, prefix+".OpticalLatitude", info.OpticalLatitude, 90)`
			`assertFiniteSymmetric(t, prefix+".PhysicalLongitude", info.PhysicalLongitude, 180)`
			`assertFiniteSymmetric(t, prefix+".PhysicalLatitude", info.PhysicalLatitude, 90)`
			`assertFiniteSymmetric(t, prefix+".LibrationLongitude", info.LibrationLongitude, 180)`
			`assertFiniteSymmetric(t, prefix+".LibrationLatitude", info.LibrationLatitude, 90)`
			`assertFiniteSymmetric(t, prefix+".PositionAngle", info.PositionAngle, 90)`
			`}`
			`}`

			`func assertFiniteSymmetric(t *testing.T, name string, got, limit float64) {`
			`t.Helper()`
			`if math.IsNaN(got) \|\| math.IsInf(got, 0) {`
			`t.Fatalf("%s is not finite: %.18f", name, got)`
			`}`
			`if got < -limit \|\| got > limit {`
			`t.Fatalf("%s out of range: %.18f not in [-%.18f, %.18f]", name, got, limit, limit)`
			`}`
			`}`