mirror of
https://github.com/wader/fq.git
synced 2024-11-25 05:55:43 +03:00
b08ef00dd1
Replaces []Format with a Group type. A bit more type safe. Breaking change for RegisterFormat, now takes a first argument that is a "single" format group. Lots of naming cleanup. This is also preparation for decode group argument which will enable doing intresting probing, ex a format decoder could know it's decode as part of probe group (html could be probed possibly), or have "arg probe" group for decoder who inspect args to know if they should probe (-d /path/to/schema etc) to enable nice CLI-ergonomics.
193 lines
4.8 KiB
Go
193 lines
4.8 KiB
Go
package tzif
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import (
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"embed"
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"time"
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"github.com/wader/fq/format"
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"github.com/wader/fq/pkg/decode"
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"github.com/wader/fq/pkg/interp"
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"github.com/wader/fq/pkg/scalar"
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)
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//go:embed tzif.md
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var tzifFS embed.FS
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func init() {
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interp.RegisterFormat(
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format.Tzif,
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&decode.Format{
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Description: "Time Zone Information Format",
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DecodeFn: decodeTZIF,
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Groups: []*decode.Group{format.Probe},
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})
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interp.RegisterFS(tzifFS)
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}
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func decodeTZIF(d *decode.D) any {
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d.Endian = decode.BigEndian
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v1h := decodeTZifHeader(d, "v1header")
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decodeTZifDataBlock(d, v1h, 1, "v1datablock")
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if v1h.ver >= 2 {
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v2h := decodeTZifHeader(d, "v2plusheader")
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decodeTZifDataBlock(d, v2h, 2, "v2plusdatablock")
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decodeTZifFooter(d)
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}
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return nil
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}
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type tzifHeader struct {
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magic uint32
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ver uint8
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isutcnt uint32
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isstdcnt uint32
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leapcnt uint32
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timecnt uint32
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typecnt uint32
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charcnt uint32
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}
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var versionToSymMapper = scalar.UintMapSymStr{
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0x00: "1",
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0x32: "2",
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0x33: "3",
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}
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func decodeTZifHeader(d *decode.D, name string) tzifHeader {
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var h tzifHeader
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d.FieldStruct(name, func(d *decode.D) {
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h.magic = uint32(d.FieldU32("magic", scalar.UintHex, d.UintAssert(0x545a6966)))
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h.ver = uint8(d.FieldU8("ver", d.UintAssert(0x00, 0x32, 0x33), scalar.UintHex, versionToSymMapper))
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d.FieldRawLen("reserved", 15*8)
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h.isutcnt = uint32(d.FieldU32("isutcnt"))
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h.isstdcnt = uint32(d.FieldU32("isstdcnt"))
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h.leapcnt = uint32(d.FieldU32("leapcnt"))
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h.timecnt = uint32(d.FieldU32("timecnt"))
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h.typecnt = uint32(d.FieldU32("typecnt"))
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h.charcnt = uint32(d.FieldU32("charcnt"))
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})
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if h.isutcnt != 0 && h.isutcnt != h.typecnt {
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d.Fatalf("invalid isutcnt")
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}
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if h.isstdcnt != 0 && h.isstdcnt != h.typecnt {
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d.Fatalf("invalid isstdcnt")
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}
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if h.typecnt == 0 {
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d.Fatalf("invalid typecnt")
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}
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if h.charcnt == 0 {
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d.Fatalf("invalid charcnt")
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}
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return h
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}
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var unixTimeToStr = scalar.SintFn(func(s scalar.Sint) (scalar.Sint, error) {
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s.Sym = time.Unix(s.Actual, 0).UTC().Format(time.RFC3339)
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return s, nil
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})
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func decodeTZifDataBlock(d *decode.D, h tzifHeader, decodeAsVer int, name string) {
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timeSize := 8 * 8
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if decodeAsVer == 1 {
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timeSize = 4 * 8
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}
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d.FieldStruct(name, func(d *decode.D) {
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d.FieldArray("transition_times", func(d *decode.D) {
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for i := uint32(0); i < h.timecnt; i++ {
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t := d.FieldS("transition_time", timeSize, unixTimeToStr)
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if t < -576460752303423488 {
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d.Fatalf("transition time value should be at least -2^59 (-576460752303423488), but: %d (%0#16x)", t, t)
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}
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}
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})
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d.FieldArray("transition_types", func(d *decode.D) {
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for i := uint32(0); i < h.timecnt; i++ {
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t := uint8(d.FieldU8("transition_type"))
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if uint32(t) >= h.typecnt {
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d.Fatalf("transition type must be in the range [0, %d]", h.typecnt-1)
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}
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}
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})
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d.FieldArray("local_time_type_records", func(d *decode.D) {
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for i := uint32(0); i < h.typecnt; i++ {
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d.FieldStruct("local_time_type", func(d *decode.D) {
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d.FieldS32("utoff", d.SintAssertRange(-89999, 93599))
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d.FieldU8("dst", d.UintAssert(0, 1))
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d.FieldU8("idx", d.UintAssertRange(0, uint64(h.charcnt)-1))
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})
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}
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})
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d.FieldArray("time_zone_designations", func(d *decode.D) {
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i := int(h.charcnt)
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for {
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s := d.FieldUTF8Null("time_zone_designation")
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i -= len(s) + 1
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if i <= 0 {
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break
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}
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}
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})
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d.FieldArray("leap_second_records", func(d *decode.D) {
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prevOccur := int64(0)
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prevCorr := int64(0)
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for i := uint32(0); i < h.leapcnt; i++ {
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d.FieldStruct("leap_second_record", func(d *decode.D) {
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occur := d.FieldS("occur", timeSize, unixTimeToStr)
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corr := d.FieldS32("corr")
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if i == 0 && occur < 0 {
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d.Fatalf("the first value of occur must be nonnegative")
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}
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if i > 0 && occur-prevOccur < 2419199 {
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d.Fatalf("occur must be at least 2419199 greater than the previous value")
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}
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if i == 0 && corr != 1 && corr != -1 {
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d.Fatalf("the first value of corr must be either 1 or -1")
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}
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diff := corr - prevCorr
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if i > 0 && diff != 1 && diff != -1 {
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d.Fatalf("corr must differ by exactly 1 from the previous value: diff = %d, current corr = %d, previous corr = %d", diff, corr, prevCorr)
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}
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prevOccur = occur
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prevCorr = corr
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})
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}
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})
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d.FieldArray("standard_wall_indicators", func(d *decode.D) {
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for i := uint32(0); i < h.isstdcnt; i++ {
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d.FieldU8("standard_wall_indicator", d.UintAssert(0, 1))
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}
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})
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d.FieldArray("ut_local_indicators", func(d *decode.D) {
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for i := uint32(0); i < h.isutcnt; i++ {
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d.FieldU8("ut_local_indicator", d.UintAssert(0, 1))
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}
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})
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})
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}
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func decodeTZifFooter(d *decode.D) {
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d.FieldStruct("footer", func(d *decode.D) {
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d.FieldU8("nl1", d.UintAssert(0x0a))
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n := d.PeekFindByte(0x0a, d.BitsLeft()/8)
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d.FieldScalarUTF8("tz_string", int(n))
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d.FieldU8("nl2", d.UintAssert(0x0a))
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})
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}
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