zig/lib/std/comptime_string_map.zig

183 lines
5.4 KiB
Zig

const std = @import("std.zig");
const mem = std.mem;
/// Comptime string map optimized for small sets of disparate string keys.
/// Works by separating the keys by length at comptime and only checking strings of
/// equal length at runtime.
///
/// `kvs_list` expects a list of `struct { []const u8, V }` (key-value pair) tuples.
/// You can pass `struct { []const u8 }` (only keys) tuples if `V` is `void`.
pub fn ComptimeStringMap(comptime V: type, comptime kvs_list: anytype) type {
const precomputed = comptime blk: {
@setEvalBranchQuota(1500);
const KV = struct {
key: []const u8,
value: V,
};
var sorted_kvs: [kvs_list.len]KV = undefined;
for (kvs_list, 0..) |kv, i| {
if (V != void) {
sorted_kvs[i] = .{ .key = kv.@"0", .value = kv.@"1" };
} else {
sorted_kvs[i] = .{ .key = kv.@"0", .value = {} };
}
}
const SortContext = struct {
kvs: []KV,
pub fn lessThan(ctx: @This(), a: usize, b: usize) bool {
return ctx.kvs[a].key.len < ctx.kvs[b].key.len;
}
pub fn swap(ctx: @This(), a: usize, b: usize) void {
return std.mem.swap(KV, &ctx.kvs[a], &ctx.kvs[b]);
}
};
mem.sortUnstableContext(0, sorted_kvs.len, SortContext{ .kvs = &sorted_kvs });
const min_len = sorted_kvs[0].key.len;
const max_len = sorted_kvs[sorted_kvs.len - 1].key.len;
var len_indexes: [max_len + 1]usize = undefined;
var len: usize = 0;
var i: usize = 0;
while (len <= max_len) : (len += 1) {
// find the first keyword len == len
while (len > sorted_kvs[i].key.len) {
i += 1;
}
len_indexes[len] = i;
}
break :blk .{
.min_len = min_len,
.max_len = max_len,
.sorted_kvs = sorted_kvs,
.len_indexes = len_indexes,
};
};
return struct {
/// Array of `struct { key: []const u8, value: V }` where `value` is `void{}` if `V` is `void`.
/// Sorted by `key` length.
pub const kvs = precomputed.sorted_kvs;
/// Checks if the map has a value for the key.
pub fn has(str: []const u8) bool {
return get(str) != null;
}
/// Returns the value for the key if any, else null.
pub fn get(str: []const u8) ?V {
if (str.len < precomputed.min_len or str.len > precomputed.max_len)
return null;
var i = precomputed.len_indexes[str.len];
while (true) {
const kv = precomputed.sorted_kvs[i];
if (kv.key.len != str.len)
return null;
if (mem.eql(u8, kv.key, str))
return kv.value;
i += 1;
if (i >= precomputed.sorted_kvs.len)
return null;
}
}
};
}
const TestEnum = enum {
A,
B,
C,
D,
E,
};
test "ComptimeStringMap list literal of list literals" {
const map = ComptimeStringMap(TestEnum, .{
.{ "these", .D },
.{ "have", .A },
.{ "nothing", .B },
.{ "incommon", .C },
.{ "samelen", .E },
});
try testMap(map);
}
test "ComptimeStringMap array of structs" {
const KV = struct { []const u8, TestEnum };
const map = ComptimeStringMap(TestEnum, [_]KV{
.{ "these", .D },
.{ "have", .A },
.{ "nothing", .B },
.{ "incommon", .C },
.{ "samelen", .E },
});
try testMap(map);
}
test "ComptimeStringMap slice of structs" {
const KV = struct { []const u8, TestEnum };
const slice: []const KV = &[_]KV{
.{ "these", .D },
.{ "have", .A },
.{ "nothing", .B },
.{ "incommon", .C },
.{ "samelen", .E },
};
const map = ComptimeStringMap(TestEnum, slice);
try testMap(map);
}
fn testMap(comptime map: anytype) !void {
try std.testing.expectEqual(TestEnum.A, map.get("have").?);
try std.testing.expectEqual(TestEnum.B, map.get("nothing").?);
try std.testing.expect(null == map.get("missing"));
try std.testing.expectEqual(TestEnum.D, map.get("these").?);
try std.testing.expectEqual(TestEnum.E, map.get("samelen").?);
try std.testing.expect(!map.has("missing"));
try std.testing.expect(map.has("these"));
}
test "ComptimeStringMap void value type, slice of structs" {
const KV = struct { []const u8 };
const slice: []const KV = &[_]KV{
.{"these"},
.{"have"},
.{"nothing"},
.{"incommon"},
.{"samelen"},
};
const map = ComptimeStringMap(void, slice);
try testSet(map);
}
test "ComptimeStringMap void value type, list literal of list literals" {
const map = ComptimeStringMap(void, .{
.{"these"},
.{"have"},
.{"nothing"},
.{"incommon"},
.{"samelen"},
});
try testSet(map);
}
fn testSet(comptime map: anytype) !void {
try std.testing.expectEqual({}, map.get("have").?);
try std.testing.expectEqual({}, map.get("nothing").?);
try std.testing.expect(null == map.get("missing"));
try std.testing.expectEqual({}, map.get("these").?);
try std.testing.expectEqual({}, map.get("samelen").?);
try std.testing.expect(!map.has("missing"));
try std.testing.expect(map.has("these"));
}