ona/source/coral/utf8.zig

const debug = @import("./debug.zig");

const io = @import("./io.zig");

const math = @import("./math.zig");

pub const DecimalFormat = struct {
	delimiter: []const io.Byte,
	positive_prefix: enum {none, plus, space},

	const default = DecimalFormat{
		.delimiter = "",
		.positive_prefix = .none,
	};

	pub fn parse(self: DecimalFormat, utf8: []const io.Byte, comptime Decimal: type) ?Decimal {
		if (utf8.len == 0) {
			return null;
		}

		switch (@typeInfo(Decimal)) {
			.Int => |int| {
				var has_sign = switch (utf8[0]) {
					'-', '+', ' ' => true,
					else => false,
				};

				var result = @as(Decimal, 0);

				for (@intFromBool(has_sign) .. utf8.len) |index| {
					const radix = 10;
					const code = utf8[index];

					switch (code) {
						'0', '1', '2', '3', '4', '5', '6', '7', '8', '9' => {
							const offset_code = math.checked_sub(code, '0') orelse return null;

							result = math.checked_mul(result, radix) orelse return null;
							result = math.checked_add(result, offset_code) orelse return null;
						},

						else => {
							if (self.delimiter.len == 0 or !io.equals(self.delimiter, utf8[index ..])) {
								return null;
							}
						},
					}
				}

				switch (int.signedness) {
					.signed => {
						return result * @as(Decimal, if (has_sign and utf8[0] == '-') -1 else 1);
					},

					.unsigned => {
						if (has_sign and utf8[0] == '-') {
							return null;
						}

						return result;
					},
				}
			},

			.Float => {
				var has_sign = switch (utf8[0]) {
					'-', '+', ' ' => true,
					else => false,
				};

				// "-"
				if (has_sign and utf8.len == 1) {
					return null;
				}

				const sign_offset = @intFromBool(has_sign);
				var has_decimal = utf8[sign_offset] == '.';

				// "-."
				if (has_decimal and (utf8.len == 2)) {
					return null;
				}

				var result = @as(Decimal, 0);
				var factor = @as(Decimal, if (has_sign and utf8[0] == '-') -1 else 1);

				for (utf8[sign_offset + @intFromBool(has_decimal) .. utf8.len]) |code| {
					switch (code) {
						'.' => {
							if (has_decimal) {
								return null;
							}

							has_decimal = true;
						},

						'0', '1', '2', '3', '4', '5', '6', '7', '8', '9' => {
							if (has_decimal) {
								factor /= 10.0;
							}

							result = ((result * 10.0) + @as(Decimal, @floatFromInt(code - '0')));
						},

						else => return null,
					}
				}

				return result * factor;
			},

			else => @compileError("`" ++ @typeName(Decimal) ++ "` cannot be formatted as a decimal string"),
		}
	}

	pub fn print(self: DecimalFormat, writer: io.Writer, value: anytype) PrintError!void {
		if (value == 0) {
			return print_string(writer, switch (self.positive_prefix) {
				.none => "0",
				.plus => "+0",
				.space => " 0",
			});
		}

		const ValueType = @TypeOf(value);

		switch (@typeInfo(ValueType)) {
			.Int => |int| {
				const radix = 10;
				var buffer = [_]u8{0} ** (1 + @max(int.bits, 1));
				var buffer_start = buffer.len - 1;

				{
					var decomposable_value = value;

					while (decomposable_value != 0) : (buffer_start -= 1) {
						buffer[buffer_start] = @intCast((decomposable_value % radix) + '0');
						decomposable_value = (decomposable_value / radix);
					}
				}

				if (int.signedness == .unsigned and value < 0) {
					buffer[buffer_start] = '-';
				} else {
					switch (self.positive_prefix) {
						.none => buffer_start += 1,
						.plus => buffer[buffer_start] = '+',
						.space => buffer[buffer_start] = ' ',
					}
				}

				try print_string(writer, buffer[buffer_start ..]);
			},

			else => unformattableMessage(ValueType),
		}
	}
};

pub const HexadecimalFormat = struct {
	delimiter: []const u8 = "",
	positive_prefix: enum {none, plus, space} = .none,
	casing: enum {lower, upper} = .lower,

	const default = HexadecimalFormat{
		.delimiter = "",
		.positive_prefix = .none,
		.casing = .lower,
	};

	pub fn print(self: HexadecimalFormat, writer: io.Writer, value: anytype) PrintError!void {
		// TODO: Implement.
		_ = self;
		_ = writer;
		_ = value;
	}
};

pub const PrintError = error {
	PrintFailed,
	PrintIncomplete,
};

pub fn print_string(writer: io.Writer, utf8: []const io.Byte) PrintError!void {
	if ((writer.invoke(utf8) orelse return error.PrintFailed) != utf8.len) {
		return error.PrintIncomplete;
	}
}

pub fn print_formatted(writer: io.Writer, comptime format: []const u8, arguments: anytype) PrintError!void {
	switch (@typeInfo(@TypeOf(arguments))) {
		.Struct => |arguments_struct| {
			comptime var arg_index = 0;
			comptime var head = 0;
			comptime var tail = 0;

			inline while (tail < format.len) : (tail += 1) {
				if (format[tail] == '{') {
					if (tail > format.len) {
						@compileError("expected an idenifier after opening `{`");
					}

					tail += 1;

					switch (format[tail]) {
						'{' => {
							try print_string(writer, format[head .. (tail - 1)]);

							tail += 1;
							head = tail;
						},

						'}' => {
							if (!arguments_struct.is_tuple) {
								@compileError("all format specifiers must be named when using a named struct");
							}

							try print_string(writer, arguments[arg_index]);

							arg_index += 1;
							tail += 1;
							head = tail;
						},

						else => {
							if (arguments_struct.is_tuple) {
								@compileError("format specifiers cannot be named when using a tuple struct");
							}

							try print_string(writer, format[head .. (tail - 1)]);

							head = tail;
							tail += 1;

							if (tail >= format.len) {
								@compileError("expected closing `}` or another `{` after opening `{`");
							}

							debug.assert(tail < format.len);

							inline while (format[tail] != '}') {
								tail += 1;

								debug.assert(tail < format.len);
							}

							try print_value(writer, @field(arguments, format[head .. tail]));

							tail += 1;
							head = tail;
						}
					}
				}
			}
		},

		else => @compileError("`arguments` must be a struct type"),
	}
}

noinline fn print_value(writer: io.Writer, value: anytype) PrintError!void {
	const Value = @TypeOf(value);

	return switch (@typeInfo(Value)) {
		.Int => DecimalFormat.default.print(writer, value),
		.Float => DecimalFormat.default.print(writer, value),

		.Pointer => |pointer| switch (pointer.size) {
			.Many, .C => HexadecimalFormat.default.print(writer, @intFromPtr(value)),
			.One => if (pointer.child == []const u8) print_string(writer, *value) else HexadecimalFormat.default.print(writer, @intFromPtr(value)),
			.Slice => if (pointer.child == u8) print_string(writer, value) else @compileError(unformattableMessage(Value)),
		},

		else => @compileError(unformattableMessage(Value)),
	};
}

fn unformattableMessage(comptime Value: type) []const u8 {
	return "type `" ++ @typeName(Value) ++ "` is not formattable with this formatter";
}