401 lines
13 KiB
Zig
401 lines
13 KiB
Zig
const math = @import("math.zig");
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const debug = @import("debug.zig");
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const assert = debug.assert;
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const mem = @import("mem.zig");
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const max_f64_digits = 65;
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const max_int_digits = 65;
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const State = enum { // TODO put inside format function and make sure the name and debug info is correct
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Start,
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OpenBrace,
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CloseBrace,
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Integer,
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IntegerWidth,
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Character,
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Buf,
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BufWidth,
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};
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/// Renders fmt string with args, calling output with slices of bytes.
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/// Return false from output function and output will not be called again.
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/// Returns false if output ever returned false, true otherwise.
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pub fn format(context: var, output: fn(@typeOf(context), []const u8)->bool,
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comptime fmt: []const u8, args: ...) -> bool
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{
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comptime var start_index = 0;
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comptime var state = State.Start;
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comptime var next_arg = 0;
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comptime var radix = 0;
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comptime var uppercase = false;
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comptime var width = 0;
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comptime var width_start = 0;
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inline for (fmt) |c, i| {
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switch (state) {
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State.Start => switch (c) {
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'{' => {
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// TODO if you make this an if statement with `and` then it breaks
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if (start_index < i) {
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if (!output(context, fmt[start_index...i]))
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return false;
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}
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state = State.OpenBrace;
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},
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'}' => {
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if (start_index < i) {
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if (!output(context, fmt[start_index...i]))
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return false;
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}
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state = State.CloseBrace;
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},
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else => {},
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},
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State.OpenBrace => switch (c) {
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'{' => {
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state = State.Start;
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start_index = i;
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},
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'}' => {
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if (!formatValue(args[next_arg], context, output))
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return false;
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next_arg += 1;
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state = State.Start;
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start_index = i + 1;
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},
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'd' => {
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radix = 10;
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uppercase = false;
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width = 0;
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state = State.Integer;
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},
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'x' => {
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radix = 16;
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uppercase = false;
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width = 0;
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state = State.Integer;
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},
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'X' => {
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radix = 16;
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uppercase = true;
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width = 0;
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state = State.Integer;
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},
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'c' => {
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state = State.Character;
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},
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's' => {
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state = State.Buf;
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},
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else => @compileError("Unknown format character: " ++ []u8{c}),
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},
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State.Buf => switch (c) {
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'}' => {
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return output(context, args[next_arg]);
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},
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'0' ... '9' => {
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width_start = i;
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state = State.BufWidth;
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},
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else => @compileError("Unexpected character in format string: " ++ []u8{c}),
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},
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State.CloseBrace => switch (c) {
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'}' => {
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state = State.Start;
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start_index = i;
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},
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else => @compileError("Single '}' encountered in format string"),
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},
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State.Integer => switch (c) {
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'}' => {
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if (!formatInt(args[next_arg], radix, uppercase, width, context, output))
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return false;
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next_arg += 1;
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state = State.Start;
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start_index = i + 1;
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},
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'0' ... '9' => {
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width_start = i;
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state = State.IntegerWidth;
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},
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else => @compileError("Unexpected character in format string: " ++ []u8{c}),
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},
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State.IntegerWidth => switch (c) {
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'}' => {
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width = comptime %%parseUnsigned(usize, fmt[width_start...i], 10);
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if (!formatInt(args[next_arg], radix, uppercase, width, context, output))
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return false;
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next_arg += 1;
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state = State.Start;
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start_index = i + 1;
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},
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'0' ... '9' => {},
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else => @compileError("Unexpected character in format string: " ++ []u8{c}),
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},
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State.BufWidth => switch (c) {
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'}' => {
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width = comptime %%parseUnsigned(usize, fmt[width_start...i], 10);
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if (!formatBuf(args[next_arg], width, context, output))
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return false;
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next_arg += 1;
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state = State.Start;
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start_index = i + 1;
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},
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'0' ... '9' => {},
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else => @compileError("Unexpected character in format string: " ++ []u8{c}),
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},
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State.Character => switch (c) {
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'}' => {
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if (!formatAsciiChar(args[next_arg], context, output))
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return false;
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next_arg += 1;
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state = State.Start;
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start_index = i + 1;
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},
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else => @compileError("Unexpected character in format string: " ++ []u8{c}),
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},
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}
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}
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comptime {
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if (args.len != next_arg) {
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@compileError("Unused arguments");
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}
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if (state != State.Start) {
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@compileError("Incomplete format string: " ++ fmt);
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}
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}
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if (start_index < fmt.len) {
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if (!output(context, fmt[start_index...]))
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return false;
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}
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return true;
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}
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pub fn formatValue(value: var, context: var, output: fn(@typeOf(context), []const u8)->bool) -> bool {
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const T = @typeOf(value);
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if (@isInteger(T)) {
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return formatInt(value, 10, false, 0, context, output);
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} else if (@isFloat(T)) {
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@compileError("TODO implement formatFloat");
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} else if (@canImplicitCast([]const u8, value)) {
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const casted_value = ([]const u8)(value);
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return output(context, casted_value);
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} else if (T == void) {
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return output(context, "void");
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} else {
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@compileError("Unable to format type '" ++ @typeName(T) ++ "'");
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}
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}
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pub fn formatAsciiChar(c: u8, context: var, output: fn(@typeOf(context), []const u8)->bool) -> bool {
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return output(context, (&c)[0...1]);
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}
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pub fn formatBuf(buf: []const u8, width: usize,
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context: var, output: fn(@typeOf(context), []const u8)->bool) -> bool
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{
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if (!output(context, buf))
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return false;
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var leftover_padding = if (width > buf.len) (width - buf.len) else return true;
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const pad_byte: u8 = ' ';
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while (leftover_padding > 0; leftover_padding -= 1) {
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if (!output(context, (&pad_byte)[0...1]))
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return false;
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}
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return true;
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}
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pub fn formatInt(value: var, base: u8, uppercase: bool, width: usize,
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context: var, output: fn(@typeOf(context), []const u8)->bool) -> bool
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{
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if (@typeOf(value).is_signed) {
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return formatIntSigned(value, base, uppercase, width, context, output);
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} else {
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return formatIntUnsigned(value, base, uppercase, width, context, output);
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}
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}
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fn formatIntSigned(value: var, base: u8, uppercase: bool, width: usize,
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context: var, output: fn(@typeOf(context), []const u8)->bool) -> bool
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{
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const uint = @IntType(false, @typeOf(value).bit_count);
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if (value < 0) {
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const minus_sign: u8 = '-';
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if (!output(context, (&minus_sign)[0...1]))
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return false;
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const new_value = uint(-(value + 1)) + 1;
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const new_width = if (width == 0) 0 else (width - 1);
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return formatIntUnsigned(new_value, base, uppercase, new_width, context, output);
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} else if (width == 0) {
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return formatIntUnsigned(uint(value), base, uppercase, width, context, output);
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} else {
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const plus_sign: u8 = '+';
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if (!output(context, (&plus_sign)[0...1]))
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return false;
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const new_value = uint(value);
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const new_width = if (width == 0) 0 else (width - 1);
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return formatIntUnsigned(new_value, base, uppercase, new_width, context, output);
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}
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}
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fn formatIntUnsigned(value: var, base: u8, uppercase: bool, width: usize,
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context: var, output: fn(@typeOf(context), []const u8)->bool) -> bool
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{
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// max_int_digits accounts for the minus sign. when printing an unsigned
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// number we don't need to do that.
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var buf: [max_int_digits - 1]u8 = undefined;
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var a = value;
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var index: usize = buf.len;
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while (true) {
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const digit = a % base;
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index -= 1;
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buf[index] = digitToChar(u8(digit), uppercase);
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a /= base;
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if (a == 0)
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break;
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}
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const digits_buf = buf[index...];
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const padding = if (width > digits_buf.len) (width - digits_buf.len) else 0;
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if (padding > index) {
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const zero_byte: u8 = '0';
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var leftover_padding = padding - index;
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while (true) {
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if (!output(context, (&zero_byte)[0...1]))
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return false;
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leftover_padding -= 1;
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if (leftover_padding == 0)
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break;
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}
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mem.set(u8, buf[0...index], '0');
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return output(context, buf);
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} else {
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const padded_buf = buf[index - padding...];
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mem.set(u8, padded_buf[0...padding], '0');
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return output(context, padded_buf);
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}
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}
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pub fn formatIntBuf(out_buf: []u8, value: var, base: u8, uppercase: bool, width: usize) -> usize {
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var context = FormatIntBuf {
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.out_buf = out_buf,
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.index = 0,
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};
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_ = formatInt(value, base, uppercase, width, &context, formatIntCallback);
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return context.index;
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}
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const FormatIntBuf = struct {
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out_buf: []u8,
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index: usize,
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};
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fn formatIntCallback(context: &FormatIntBuf, bytes: []const u8) -> bool {
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mem.copy(u8, context.out_buf[context.index...], bytes);
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context.index += bytes.len;
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return true;
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}
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pub fn parseUnsigned(comptime T: type, buf: []const u8, radix: u8) -> %T {
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var x: T = 0;
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for (buf) |c| {
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const digit = %return charToDigit(c, radix);
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x = %return math.mulOverflow(T, x, radix);
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x = %return math.addOverflow(T, x, digit);
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}
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return x;
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}
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error InvalidChar;
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fn charToDigit(c: u8, radix: u8) -> %u8 {
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const value = switch (c) {
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'0' ... '9' => c - '0',
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'A' ... 'Z' => c - 'A' + 10,
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'a' ... 'z' => c - 'a' + 10,
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else => return error.InvalidChar,
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};
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if (value >= radix)
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return error.InvalidChar;
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return value;
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}
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fn digitToChar(digit: u8, uppercase: bool) -> u8 {
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return switch (digit) {
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0 ... 9 => digit + '0',
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10 ... 35 => digit + ((if (uppercase) u8('A') else u8('a')) - 10),
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else => unreachable,
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};
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}
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const BufPrintContext = struct {
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remaining: []u8,
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};
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fn bufPrintWrite(context: &BufPrintContext, bytes: []const u8) -> bool {
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mem.copy(u8, context.remaining, bytes);
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context.remaining = context.remaining[bytes.len...];
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return true;
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}
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pub fn bufPrint(buf: []u8, comptime fmt: []const u8, args: ...) -> []u8 {
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var context = BufPrintContext { .remaining = buf, };
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_ = format(&context, bufPrintWrite, fmt, args);
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return buf[0...buf.len - context.remaining.len];
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}
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pub fn allocPrint(allocator: &mem.Allocator, comptime fmt: []const u8, args: ...) -> %[]u8 {
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var size: usize = 0;
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_ = format(&size, countSize, fmt, args);
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const buf = %return allocator.alloc(u8, size);
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return bufPrint(buf, fmt, args);
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}
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fn countSize(size: &usize, bytes: []const u8) -> bool {
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*size += bytes.len;
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return true;
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}
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test "testBufPrintInt" {
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var buffer: [max_int_digits]u8 = undefined;
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const buf = buffer[0...];
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assert(mem.eql(u8, bufPrintIntToSlice(buf, i32(-12345678), 2, false, 0), "-101111000110000101001110"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, i32(-12345678), 10, false, 0), "-12345678"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, i32(-12345678), 16, false, 0), "-bc614e"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, i32(-12345678), 16, true, 0), "-BC614E"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, u32(12345678), 10, true, 0), "12345678"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, u32(666), 10, false, 6), "000666"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, u32(0x1234), 16, false, 6), "001234"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, u32(0x1234), 16, false, 1), "1234"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, i32(42), 10, false, 3), "+42"));
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assert(mem.eql(u8, bufPrintIntToSlice(buf, i32(-42), 10, false, 3), "-42"));
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}
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fn bufPrintIntToSlice(buf: []u8, value: var, base: u8, uppercase: bool, width: usize) -> []u8 {
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return buf[0...formatIntBuf(buf, value, base, uppercase, width)];
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}
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test "testParseU64DigitTooBig" {
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_ = parseUnsigned(u64, "123a", 10) %% |err| {
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if (err == error.InvalidChar) return;
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unreachable;
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};
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unreachable;
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}
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test "testParseUnsignedComptime" {
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comptime {
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assert(%%parseUnsigned(usize, "2", 10) == 2);
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}
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}
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