# zig-clap A simple and easy to use command line argument parser library for Zig. Looking for a version that works with `zig master`? The `zig-master` branch has you covered. It is maintained by people who live at head (not me) and is merged into master on every `zig` release. ## Features * Short arguments `-a` * Chaining `-abc` where `a` and `b` does not take values. * Long arguments `--long` * Supports both passing values using spacing and `=` (`-a 100`, `-a=100`) * Short args also support passing values with no spacing or `=` (`-a100`) * This all works with chaining (`-ba 100`, `-ba=100`, `-ba100`) * Print help message from parameter specification. * Parse help message to parameter specification. ## Examples ### `clap.parse` The simplest way to use this library is to just call the `clap.parse` function. ```zig const std = @import("std"); const clap = @import("clap"); const debug = std.debug; pub fn main() !void { // First we specify what parameters our program can take. // We can use `parseParam` to parse a string to a `Param(Help)` const params = comptime [_]clap.Param(clap.Help){ clap.parseParam("-h, --help Display this help and exit. ") catch unreachable, clap.parseParam("-n, --number An option parameter, which takes a value.") catch unreachable, clap.Param(clap.Help){ .takes_value = true, }, }; var args = try clap.parse(clap.Help, ¶ms, std.heap.page_allocator); defer args.deinit(); if (args.flag("--help")) debug.warn("--help\n", .{}); if (args.option("--number")) |n| debug.warn("--number = {}\n", .{ n }); for (args.positionals()) |pos| debug.warn("{}\n", .{ pos }); } ``` The data structure returned has lookup speed on par with array access (`arr[i]`) and validates that the strings you pass to `option` and `flag` are actually parameters that the program can take: ```zig const std = @import("std"); const clap = @import("clap"); pub fn main() !void { // First we specify what parameters our program can take. // We can use `parseParam` to parse a string to a `Param(Help)` const params = comptime [_]clap.Param(clap.Help){ clap.parseParam("-h, --help Display this help and exit.") catch unreachable, }; var args = try clap.parse(clap.Help, ¶ms, std.heap.direct_allocator); defer args.deinit(); _ = args.flag("--helps"); } ``` ``` zig-clap/clap/comptime.zig:109:17: error: --helps is not a parameter. @compileError(name ++ " is not a parameter."); ^ zig-clap/clap/comptime.zig:77:45: note: called from here const param = comptime findParam(name); ^ zig-clap/clap.zig:238:31: note: called from here return a.clap.flag(name); ^ zig-clap/example/simple-error.zig:16:18: note: called from here _ = args.flag("--helps"); ``` ### `ComptimeClap` The `ComptimeClap` is the parser used by `clap.parse`. It allows the user to use a custom argument iterator. ```zig const std = @import("std"); const clap = @import("clap"); const debug = std.debug; pub fn main() !void { const allocator = std.heap.page_allocator; // First we specify what parameters our program can take. // We can use `parseParam` to parse a string to a `Param(Help)` const params = comptime [_]clap.Param(clap.Help){ clap.parseParam("-h, --help Display this help and exit. ") catch unreachable, clap.parseParam("-n, --number An option parameter, which takes a value.") catch unreachable, clap.Param(clap.Help){ .takes_value = true, }, }; // We then initialize an argument iterator. We will use the OsIterator as it nicely // wraps iterating over arguments the most efficient way on each os. var iter = try clap.args.OsIterator.init(allocator); defer iter.deinit(); // Parse the arguments var args = try clap.ComptimeClap(clap.Help, ¶ms).parse(allocator, clap.args.OsIterator, &iter); defer args.deinit(); if (args.flag("--help")) debug.warn("--help\n", .{}); if (args.option("--number")) |n| debug.warn("--number = {}\n", .{ n }); for (args.positionals()) |pos| debug.warn("{}\n", .{ pos }); } ``` ### `StreamingClap` The `StreamingClap` is the base of all the other parsers. It's a streaming parser that uses an `args.Iterator` to provide it with arguments lazily. ```zig const std = @import("std"); const clap = @import("clap"); const debug = std.debug; pub fn main() !void { const allocator = std.heap.page_allocator; // First we specify what parameters our program can take. const params = [_]clap.Param(u8){ clap.Param(u8){ .id = 'h', .names = clap.Names{ .short = 'h', .long = "help" }, }, clap.Param(u8){ .id = 'n', .names = clap.Names{ .short = 'n', .long = "number" }, .takes_value = true, }, clap.Param(u8){ .id = 'f', .takes_value = true, }, }; // We then initialize an argument iterator. We will use the OsIterator as it nicely // wraps iterating over arguments the most efficient way on each os. var iter = try clap.args.OsIterator.init(allocator); defer iter.deinit(); // Initialize our streaming parser. var parser = clap.StreamingClap(u8, clap.args.OsIterator){ .params = ¶ms, .iter = &iter, }; // Because we use a streaming parser, we have to consume each argument parsed individually. while (try parser.next()) |arg| { // arg.param will point to the parameter which matched the argument. switch (arg.param.id) { 'h' => debug.warn("Help!\n", .{}), 'n' => debug.warn("--number = {}\n", .{ arg.value.? }), // arg.value == null, if arg.param.takes_value == false. // Otherwise, arg.value is the value passed with the argument, such as "-a=10" // or "-a 10". 'f' => debug.warn("{}\n", .{ arg.value.? }), else => unreachable, } } } ``` Currently, this parse is the only parser that allow an array of `Param` that is generated at runtime. ### `help` The `help`, `helpEx` and `helpFull` are functions for printing a simple list of all parameters the program can take. ```zig const std = @import("std"); const clap = @import("clap"); pub fn main() !void { const stderr_file = std.io.getStdErr(); var stderr_out_stream = stderr_file.outStream(); // clap.help is a function that can print a simple help message, given a // slice of Param(Help). There is also a helpEx, which can print a // help message for any Param, but it is more verbose to call. try clap.help( stderr_out_stream, comptime &[_]clap.Param(clap.Help){ clap.parseParam("-h, --help Display this help and exit. ") catch unreachable, clap.parseParam("-v, --version Output version information and exit.") catch unreachable, }, ); } ``` ``` -h, --help Display this help and exit. -v, --version Output version information and exit. ``` The `help` functions are the simplest to call. It only takes an `OutStream` and a slice of `Param(Help)`. The `helpEx` is the generic version of `help`. It can print a help message for any `Param` give that the caller provides functions for getting the help and value strings. The `helpFull` is even more generic, allowing the functions that get the help and value strings to return errors and take a context as a parameter. ### `usage` The `usage`, `usageEx` and `usageFull` are functions for printing a small abbreviated version of the help message. ```zig const std = @import("std"); const clap = @import("clap"); pub fn main() !void { const stderr = std.io.getStdErr().outStream(); // clap.usage is a function that can print a simple usage message, given a // slice of Param(Help). There is also a usageEx, which can print a // usage message for any Param, but it is more verbose to call. try clap.usage( stderr, comptime &[_]clap.Param(clap.Help){ clap.parseParam("-h, --help Display this help and exit. ") catch unreachable, clap.parseParam("-v, --version Output version information and exit.") catch unreachable, clap.parseParam(" --value Output version information and exit.") catch unreachable, }, ); } ``` ``` [-hv] [--value ] ```