A parser combinator library for the Zig
programming language. Time to make your own parser mech!
const mecha = @import("mecha");
const std = @import("std");
const Rgb = struct {
r: u8,
g: u8,
b: u8,
};
fn toByte(v: u4) u8 {
return @as(u8, v) * 0x10 + v;
}
const hex1 = mecha.int(u4, .{
.parse_sign = false,
.base = 16,
.max_digits = 1,
}).map(toByte);
const hex2 = mecha.int(u8, .{
.parse_sign = false,
.base = 16,
.max_digits = 2,
});
const rgb1 = mecha.manyN(hex1, 3, .{}).map(mecha.toStruct(Rgb));
const rgb2 = mecha.manyN(hex2, 3, .{}).map(mecha.toStruct(Rgb));
const rgb = mecha.combine(.{
mecha.ascii.char('#').discard(),
mecha.oneOf(.{ rgb2, rgb1 }),
});
test "rgb" {
const testing = std.testing;
const allocator = testing.allocator;
const a = (try rgb.parse(allocator, "#aabbcc")).ok.value;
try testing.expectEqual(@as(u8, 0xaa), a.r);
try testing.expectEqual(@as(u8, 0xbb), a.g);
try testing.expectEqual(@as(u8, 0xcc), a.b);
const b = (try rgb.parse(allocator, "#abc")).ok.value;
try testing.expectEqual(@as(u8, 0xaa), b.r);
try testing.expectEqual(@as(u8, 0xbb), b.g);
try testing.expectEqual(@as(u8, 0xcc), b.b);
const c = (try rgb.parse(allocator, "#000000")).ok.value;
try testing.expectEqual(@as(u8, 0), c.r);
try testing.expectEqual(@as(u8, 0), c.g);
try testing.expectEqual(@as(u8, 0), c.b);
const d = (try rgb.parse(allocator, "#000")).ok.value;
try testing.expectEqual(@as(u8, 0), d.r);
try testing.expectEqual(@as(u8, 0), d.g);
try testing.expectEqual(@as(u8, 0), d.b);
}