mirror of
https://github.com/ziglang/zig.git
synced 2024-11-16 09:03:12 +00:00
63ee6e6625
To match the renaming of `@bswap` to `@byteSwap` in
1fdb24827f
.
253 lines
11 KiB
Zig
253 lines
11 KiB
Zig
const std = @import("std.zig");
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const builtin = @import("builtin");
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pub const Transition = struct {
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ts: i64,
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timetype: *Timetype,
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};
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pub const Timetype = struct {
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offset: i32,
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flags: u8,
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name_data: [6:0]u8,
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pub fn name(self: Timetype) [:0]const u8 {
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return std.mem.sliceTo(self.name_data[0..], 0);
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}
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pub fn isDst(self: Timetype) bool {
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return (self.flags & 0x01) > 0;
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}
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pub fn standardTimeIndicator(self: Timetype) bool {
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return (self.flags & 0x02) > 0;
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}
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pub fn utIndicator(self: Timetype) bool {
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return (self.flags & 0x04) > 0;
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}
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};
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pub const Leapsecond = struct {
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occurrence: i48,
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correction: i16,
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};
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pub const Tz = struct {
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allocator: std.mem.Allocator,
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transitions: []const Transition,
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timetypes: []const Timetype,
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leapseconds: []const Leapsecond,
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footer: ?[]const u8,
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const Header = extern struct {
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magic: [4]u8,
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version: u8,
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reserved: [15]u8,
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counts: extern struct {
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isutcnt: u32,
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isstdcnt: u32,
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leapcnt: u32,
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timecnt: u32,
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typecnt: u32,
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charcnt: u32,
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},
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};
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pub fn parse(allocator: std.mem.Allocator, reader: anytype) !Tz {
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var legacy_header = try reader.readStruct(Header);
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if (!std.mem.eql(u8, &legacy_header.magic, "TZif")) return error.BadHeader;
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if (legacy_header.version != 0 and legacy_header.version != '2' and legacy_header.version != '3') return error.BadVersion;
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if (builtin.target.cpu.arch.endian() != std.builtin.Endian.Big) {
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std.mem.byteSwapAllFields(@TypeOf(legacy_header.counts), &legacy_header.counts);
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}
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if (legacy_header.version == 0) {
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return parseBlock(allocator, reader, legacy_header, true);
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} else {
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// If the format is modern, just skip over the legacy data
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const skipv = legacy_header.counts.timecnt * 5 + legacy_header.counts.typecnt * 6 + legacy_header.counts.charcnt + legacy_header.counts.leapcnt * 8 + legacy_header.counts.isstdcnt + legacy_header.counts.isutcnt;
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try reader.skipBytes(skipv, .{});
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var header = try reader.readStruct(Header);
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if (!std.mem.eql(u8, &header.magic, "TZif")) return error.BadHeader;
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if (header.version != '2' and header.version != '3') return error.BadVersion;
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if (builtin.target.cpu.arch.endian() != std.builtin.Endian.Big) {
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std.mem.byteSwapAllFields(@TypeOf(header.counts), &header.counts);
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}
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return parseBlock(allocator, reader, header, false);
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}
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}
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fn parseBlock(allocator: std.mem.Allocator, reader: anytype, header: Header, legacy: bool) !Tz {
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if (header.counts.isstdcnt != 0 and header.counts.isstdcnt != header.counts.typecnt) return error.Malformed; // rfc8536: isstdcnt [...] MUST either be zero or equal to "typecnt"
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if (header.counts.isutcnt != 0 and header.counts.isutcnt != header.counts.typecnt) return error.Malformed; // rfc8536: isutcnt [...] MUST either be zero or equal to "typecnt"
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if (header.counts.typecnt == 0) return error.Malformed; // rfc8536: typecnt [...] MUST NOT be zero
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if (header.counts.charcnt == 0) return error.Malformed; // rfc8536: charcnt [...] MUST NOT be zero
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if (header.counts.charcnt > 256 + 6) return error.Malformed; // Not explicitly banned by rfc8536 but nonsensical
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var leapseconds = try allocator.alloc(Leapsecond, header.counts.leapcnt);
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errdefer allocator.free(leapseconds);
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var transitions = try allocator.alloc(Transition, header.counts.timecnt);
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errdefer allocator.free(transitions);
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var timetypes = try allocator.alloc(Timetype, header.counts.typecnt);
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errdefer allocator.free(timetypes);
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// Parse transition types
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var i: usize = 0;
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while (i < header.counts.timecnt) : (i += 1) {
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transitions[i].ts = if (legacy) try reader.readIntBig(i32) else try reader.readIntBig(i64);
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}
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i = 0;
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while (i < header.counts.timecnt) : (i += 1) {
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const tt = try reader.readByte();
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if (tt >= timetypes.len) return error.Malformed; // rfc8536: Each type index MUST be in the range [0, "typecnt" - 1]
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transitions[i].timetype = &timetypes[tt];
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}
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// Parse time types
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i = 0;
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while (i < header.counts.typecnt) : (i += 1) {
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const offset = try reader.readIntBig(i32);
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if (offset < -2147483648) return error.Malformed; // rfc8536: utoff [...] MUST NOT be -2**31
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const dst = try reader.readByte();
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if (dst != 0 and dst != 1) return error.Malformed; // rfc8536: (is)dst [...] The value MUST be 0 or 1.
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const idx = try reader.readByte();
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if (idx > header.counts.charcnt - 1) return error.Malformed; // rfc8536: (desig)idx [...] Each index MUST be in the range [0, "charcnt" - 1]
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timetypes[i] = .{
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.offset = offset,
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.flags = dst,
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.name_data = undefined,
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};
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// Temporarily cache idx in name_data to be processed after we've read the designator names below
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timetypes[i].name_data[0] = idx;
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}
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var designators_data: [256 + 6]u8 = undefined;
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try reader.readNoEof(designators_data[0..header.counts.charcnt]);
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const designators = designators_data[0..header.counts.charcnt];
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if (designators[designators.len - 1] != 0) return error.Malformed; // rfc8536: charcnt [...] includes the trailing NUL (0x00) octet
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// Iterate through the timetypes again, setting the designator names
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for (timetypes) |*tt| {
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const name = std.mem.sliceTo(designators[tt.name_data[0]..], 0);
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// We are mandating the "SHOULD" 6-character limit so we can pack the struct better, and to conform to POSIX.
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if (name.len > 6) return error.Malformed; // rfc8536: Time zone designations SHOULD consist of at least three (3) and no more than six (6) ASCII characters.
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std.mem.copy(u8, tt.name_data[0..], name);
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tt.name_data[name.len] = 0;
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}
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// Parse leap seconds
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i = 0;
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while (i < header.counts.leapcnt) : (i += 1) {
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const occur: i64 = if (legacy) try reader.readIntBig(i32) else try reader.readIntBig(i64);
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if (occur < 0) return error.Malformed; // rfc8536: occur [...] MUST be nonnegative
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if (i > 0 and leapseconds[i - 1].occurrence + 2419199 > occur) return error.Malformed; // rfc8536: occur [...] each later value MUST be at least 2419199 greater than the previous value
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if (occur > std.math.maxInt(i48)) return error.Malformed; // Unreasonably far into the future
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const corr = try reader.readIntBig(i32);
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if (i == 0 and corr != -1 and corr != 1) return error.Malformed; // rfc8536: The correction value in the first leap-second record, if present, MUST be either one (1) or minus one (-1)
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if (i > 0 and leapseconds[i - 1].correction != corr + 1 and leapseconds[i - 1].correction != corr - 1) return error.Malformed; // rfc8536: The correction values in adjacent leap-second records MUST differ by exactly one (1)
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if (corr > std.math.maxInt(i16)) return error.Malformed; // Unreasonably large correction
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leapseconds[i] = .{
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.occurrence = @intCast(i48, occur),
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.correction = @intCast(i16, corr),
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};
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}
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// Parse standard/wall indicators
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i = 0;
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while (i < header.counts.isstdcnt) : (i += 1) {
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const stdtime = try reader.readByte();
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if (stdtime == 1) {
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timetypes[i].flags |= 0x02;
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}
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}
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// Parse UT/local indicators
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i = 0;
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while (i < header.counts.isutcnt) : (i += 1) {
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const ut = try reader.readByte();
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if (ut == 1) {
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timetypes[i].flags |= 0x04;
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if (!timetypes[i].standardTimeIndicator()) return error.Malformed; // rfc8536: standard/wall value MUST be one (1) if the UT/local value is one (1)
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}
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}
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// Footer
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var footer: ?[]u8 = null;
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if (!legacy) {
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if ((try reader.readByte()) != '\n') return error.Malformed; // An rfc8536 footer must start with a newline
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var footerdata_buf: [128]u8 = undefined;
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const footer_mem = reader.readUntilDelimiter(&footerdata_buf, '\n') catch |err| switch (err) {
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error.StreamTooLong => return error.OverlargeFooter, // Read more than 128 bytes, much larger than any reasonable POSIX TZ string
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else => return err,
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};
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if (footer_mem.len != 0) {
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footer = try allocator.dupe(u8, footer_mem);
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}
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}
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errdefer if (footer) |ft| allocator.free(ft);
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return Tz{
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.allocator = allocator,
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.transitions = transitions,
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.timetypes = timetypes,
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.leapseconds = leapseconds,
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.footer = footer,
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};
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}
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pub fn deinit(self: *Tz) void {
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if (self.footer) |footer| {
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self.allocator.free(footer);
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}
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self.allocator.free(self.leapseconds);
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self.allocator.free(self.transitions);
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self.allocator.free(self.timetypes);
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}
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};
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test "slim" {
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const data = @embedFile("tz/asia_tokyo.tzif");
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var in_stream = std.io.fixedBufferStream(data);
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var tz = try std.Tz.parse(std.testing.allocator, in_stream.reader());
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defer tz.deinit();
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try std.testing.expectEqual(tz.transitions.len, 9);
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try std.testing.expect(std.mem.eql(u8, tz.transitions[3].timetype.name(), "JDT"));
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try std.testing.expectEqual(tz.transitions[5].ts, -620298000); // 1950-05-06 15:00:00 UTC
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try std.testing.expectEqual(tz.leapseconds[13].occurrence, 567993613); // 1988-01-01 00:00:00 UTC (+23s in TAI, and +13 in the data since it doesn't store the initial 10 second offset)
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}
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test "fat" {
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const data = @embedFile("tz/antarctica_davis.tzif");
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var in_stream = std.io.fixedBufferStream(data);
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var tz = try std.Tz.parse(std.testing.allocator, in_stream.reader());
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defer tz.deinit();
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try std.testing.expectEqual(tz.transitions.len, 8);
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try std.testing.expect(std.mem.eql(u8, tz.transitions[3].timetype.name(), "+05"));
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try std.testing.expectEqual(tz.transitions[4].ts, 1268251224); // 2010-03-10 20:00:00 UTC
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}
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test "legacy" {
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// Taken from Slackware 8.0, from 2001
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const data = @embedFile("tz/europe_vatican.tzif");
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var in_stream = std.io.fixedBufferStream(data);
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var tz = try std.Tz.parse(std.testing.allocator, in_stream.reader());
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defer tz.deinit();
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try std.testing.expectEqual(tz.transitions.len, 170);
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try std.testing.expect(std.mem.eql(u8, tz.transitions[69].timetype.name(), "CET"));
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try std.testing.expectEqual(tz.transitions[123].ts, 1414285200); // 2014-10-26 01:00:00 UTC
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}
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