120205ac5a
Fixes #339. Fixes a sign conversion warning in a function compiled by -DCXXOPTS_USE_UNICODE_HELP=1. |
||
---|---|---|
.github/workflows | ||
.tipi | ||
cmake | ||
include | ||
packaging | ||
src | ||
test | ||
.clang-format | ||
.gitignore | ||
.travis.yml | ||
BUILD.bazel | ||
CHANGELOG.md | ||
CMakeLists.txt | ||
INSTALL | ||
LICENSE | ||
README.md | ||
WORKSPACE |
Release versions
Note that master
is generally a work in progress, and you probably want to use a
tagged release version.
Version 3 breaking changes
If you have used version 2, there are a couple of breaking changes in version 3
that you should be aware of. If you are new to cxxopts
you can skip this
section.
The parser no longer modifies its arguments, so you can pass a const argc
and
argv
and expect them not to be changed.
The ParseResult
object no longer depends on the parser. So it can be returned
from a scope outside the parser and still work. Now that the inputs are not
modified, ParseResult
stores a list of the unmatched arguments. These are
retrieved like follows:
auto result = options.parse(argc, argv);
result.unmatched(); // get the unmatched arguments
Quick start
This is a lightweight C++ option parser library, supporting the standard GNU style syntax for options.
Options can be given as:
--long
--long=argument
--long argument
-a
-ab
-abc argument
where c takes an argument, but a and b do not.
Additionally, anything after --
will be parsed as a positional argument.
Basics
#include <cxxopts.hpp>
Create a cxxopts::Options
instance.
cxxopts::Options options("MyProgram", "One line description of MyProgram");
Then use add_options
.
options.add_options()
("d,debug", "Enable debugging") // a bool parameter
("i,integer", "Int param", cxxopts::value<int>())
("f,file", "File name", cxxopts::value<std::string>())
("v,verbose", "Verbose output", cxxopts::value<bool>()->default_value("false"))
;
Options are declared with a long and an optional short option. A description must be provided. The third argument is the value, if omitted it is boolean. Any type can be given as long as it can be parsed, with operator>>.
To parse the command line do:
auto result = options.parse(argc, argv);
To retrieve an option use result.count("option")
to get the number of times
it appeared, and
result["opt"].as<type>()
to get its value. If "opt" doesn't exist, or isn't of the right type, then an exception will be thrown.
Note that the result of options.parse
should only be used as long as the
options
object that created it is in scope.
Unrecognised arguments
You can allow unrecognised arguments to be skipped. This applies to both
positional arguments that are not parsed into another option, and --
arguments that do not match an argument that you specify. This is done by
calling:
options.allow_unrecognised_options();
and in the result object they are retrieved with:
result.unmatched()
Exceptions
Exceptional situations throw C++ exceptions. There are two types of
exceptions: errors defining the options, and errors when parsing a list of
arguments. All exceptions derive from cxxopts::exceptions::exception
. Errors
defining options derive from cxxopts::exceptions::specification
and errors
parsing arguments derive from cxxopts::exceptions::parsing
.
All exceptions define a what()
function to get a printable string
explaining the error.
Help groups
Options can be placed into groups for the purposes of displaying help messages.
To place options in a group, pass the group as a string to add_options
. Then,
when displaying the help, pass the groups that you would like displayed as a
vector to the help
function.
Positional Arguments
Positional arguments are those given without a preceding flag and can be used alongside non-positional arguments. There may be multiple positional arguments, and the final positional argument may be a container type to hold a list of all remaining positionals.
To set up positional arguments, first declare the options, then configure a set of those arguments as positional like:
options.add_options()
("script", "The script file to execute", cxxopts::value<std::string>())
("server", "The server to execute on", cxxopts::value<std::string>())
("filenames", "The filename(s) to process", cxxopts::value<std::vector<std::string>>());
options.parse_positional({"script", "server", "filenames"});
// Parse options the usual way
options.parse(argc, argv);
For example, parsing the following arguments:
my_script.py my_server.com file1.txt file2.txt file3.txt
will result in parsed arguments like the following table:
Field | Value |
---|---|
"script" |
"my_script.py" |
"server" |
"my_server.com" |
"filenames" |
{"file1.txt", "file2.txt", "file3.txt"} |
Default and implicit values
An option can be declared with a default or an implicit value, or both.
A default value is the value that an option takes when it is not specified on the command line. The following specifies a default value for an option:
cxxopts::value<std::string>()->default_value("value")
An implicit value is the value that an option takes when it is given on the command line without an argument. The following specifies an implicit value:
cxxopts::value<std::string>()->implicit_value("implicit")
If an option had both, then not specifying it would give the value "value"
,
writing it on the command line as --option
would give the value "implicit"
,
and writing --option=another
would give it the value "another"
.
Note that the default and implicit value is always stored as a string, regardless of the type that you want to store it in. It will be parsed as though it was given on the command line.
Default values are not counted by Options::count
.
Boolean values
Boolean options have a default implicit value of "true"
, which can be
overridden. The effect is that writing -o
by itself will set option o
to
true
. However, they can also be written with various strings using =value
.
There is no way to disambiguate positional arguments from the value following
a boolean, so we have chosen that they will be positional arguments, and
therefore, -o false
does not work.
std::vector<T>
values
Parsing of list of values in form of an std::vector<T>
is also supported, as long as T
can be parsed. To separate single values in a list the definition CXXOPTS_VECTOR_DELIMITER
is used, which is ',' by default. Ensure that you use no whitespaces between values because
those would be interpreted as the next command line option. Example for a command line option
that can be parsed as a std::vector<double>
:
--my_list=1,-2.1,3,4.5
Options specified multiple times
The same option can be specified several times, with different arguments, which will all be recorded in order of appearance. An example:
--use train --use bus --use ferry
this is supported through the use of a vector of value for the option:
options.add_options()
("use", "Usable means of transport", cxxopts::value<std::vector<std::string>>())
Custom help
The string after the program name on the first line of the help can be
completely replaced by calling options.custom_help
. Note that you might
also want to override the positional help by calling options.positional_help
.
Example
Putting all together:
int main(int argc, char** argv)
{
cxxopts::Options options("test", "A brief description");
options.add_options()
("b,bar", "Param bar", cxxopts::value<std::string>())
("d,debug", "Enable debugging", cxxopts::value<bool>()->default_value("false"))
("f,foo", "Param foo", cxxopts::value<int>()->default_value("10"))
("h,help", "Print usage")
;
auto result = options.parse(argc, argv);
if (result.count("help"))
{
std::cout << options.help() << std::endl;
exit(0);
}
bool debug = result["debug"].as<bool>();
std::string bar;
if (result.count("bar"))
bar = result["bar"].as<std::string>();
int foo = result["foo"].as<int>();
return 0;
}
Linking
This is a header only library.
Requirements
The only build requirement is a C++ compiler that supports C++11 features such as:
- regex
- constexpr
- default constructors
GCC >= 4.9 or clang >= 3.1 with libc++ are known to work.
The following compilers are known not to work:
- MSVC 2013
TODO list
- Allow unrecognised options.