lix/src/libutil/args.hh
John Ericson 4607ac7aed Fix handling of experimental features mid-parse
If we conditionally "declare" the argument, as we did before, based upon
weather the feature is enabled, commands like

    nix --experimental-features=foo ... --thing-gated-on-foo

won't work, because the experimental feature isn't enabled until *after*
we start parsing.

Instead, allow arguments to also be associated with experimental
features (just as we did for builtins and settings), and then the
command line parser will filter out the experimental ones.

Since the effects of arguments (handler functions) are performed right
away, we get the required behavior: earlier arguments can enable later
arguments enabled!

There is just one catch: we want to keep non-positional
flags...non-positional. So if

    nix --experimental-features=foo ... --thing-gated-on-foo

works, then

    nix --thing-gated-on-foo --experimental-features=foo ...

should also work.

This is not my favorite long-term solution, but for now this is
implemented by delaying the requirement of needed experimental features
until *after* all the arguments have been parsed.
2023-03-20 11:35:34 -04:00

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#pragma once
#include <iostream>
#include <map>
#include <memory>
#include <nlohmann/json_fwd.hpp>
#include "util.hh"
namespace nix {
enum HashType : char;
class MultiCommand;
class Args
{
public:
/* Parse the command line, throwing a UsageError if something goes
wrong. */
void parseCmdline(const Strings & cmdline);
/* Return a short one-line description of the command. */
virtual std::string description() { return ""; }
virtual bool forceImpureByDefault() { return false; }
/* Return documentation about this command, in Markdown format. */
virtual std::string doc() { return ""; }
protected:
static const size_t ArityAny = std::numeric_limits<size_t>::max();
struct Handler
{
std::function<void(std::vector<std::string>)> fun;
size_t arity;
Handler() {}
Handler(std::function<void(std::vector<std::string>)> && fun)
: fun(std::move(fun))
, arity(ArityAny)
{ }
Handler(std::function<void()> && handler)
: fun([handler{std::move(handler)}](std::vector<std::string>) { handler(); })
, arity(0)
{ }
Handler(std::function<void(std::string)> && handler)
: fun([handler{std::move(handler)}](std::vector<std::string> ss) {
handler(std::move(ss[0]));
})
, arity(1)
{ }
Handler(std::function<void(std::string, std::string)> && handler)
: fun([handler{std::move(handler)}](std::vector<std::string> ss) {
handler(std::move(ss[0]), std::move(ss[1]));
})
, arity(2)
{ }
Handler(std::vector<std::string> * dest)
: fun([=](std::vector<std::string> ss) { *dest = ss; })
, arity(ArityAny)
{ }
Handler(std::string * dest)
: fun([=](std::vector<std::string> ss) { *dest = ss[0]; })
, arity(1)
{ }
Handler(std::optional<std::string> * dest)
: fun([=](std::vector<std::string> ss) { *dest = ss[0]; })
, arity(1)
{ }
template<class T>
Handler(T * dest, const T & val)
: fun([=](std::vector<std::string> ss) { *dest = val; })
, arity(0)
{ }
template<class I>
Handler(I * dest)
: fun([=](std::vector<std::string> ss) {
*dest = string2IntWithUnitPrefix<I>(ss[0]);
})
, arity(1)
{ }
template<class I>
Handler(std::optional<I> * dest)
: fun([=](std::vector<std::string> ss) {
*dest = string2IntWithUnitPrefix<I>(ss[0]);
})
, arity(1)
{ }
};
/* Options. */
struct Flag
{
typedef std::shared_ptr<Flag> ptr;
std::string longName;
std::set<std::string> aliases;
char shortName = 0;
std::string description;
std::string category;
Strings labels;
Handler handler;
std::function<void(size_t, std::string_view)> completer;
std::optional<ExperimentalFeature> experimentalFeature;
static Flag mkHashTypeFlag(std::string && longName, HashType * ht);
static Flag mkHashTypeOptFlag(std::string && longName, std::optional<HashType> * oht);
};
std::map<std::string, Flag::ptr> longFlags;
std::map<char, Flag::ptr> shortFlags;
virtual bool processFlag(Strings::iterator & pos, Strings::iterator end);
/* Positional arguments. */
struct ExpectedArg
{
std::string label;
bool optional = false;
Handler handler;
std::function<void(size_t, std::string_view)> completer;
};
std::list<ExpectedArg> expectedArgs;
virtual bool processArgs(const Strings & args, bool finish);
virtual Strings::iterator rewriteArgs(Strings & args, Strings::iterator pos)
{ return pos; }
std::set<std::string> hiddenCategories;
/* Called after all command line flags before the first non-flag
argument (if any) have been processed. */
virtual void initialFlagsProcessed() {}
/* Called after the command line has been processed if we need to generate
completions. Useful for commands that need to know the whole command line
in order to know what completions to generate. */
virtual void completionHook() { }
public:
void addFlag(Flag && flag);
void removeFlag(const std::string & longName);
void expectArgs(ExpectedArg && arg)
{
expectedArgs.emplace_back(std::move(arg));
}
/* Expect a string argument. */
void expectArg(const std::string & label, std::string * dest, bool optional = false)
{
expectArgs({
.label = label,
.optional = optional,
.handler = {dest}
});
}
/* Expect 0 or more arguments. */
void expectArgs(const std::string & label, std::vector<std::string> * dest)
{
expectArgs({
.label = label,
.handler = {dest}
});
}
virtual nlohmann::json toJSON();
friend class MultiCommand;
MultiCommand * parent = nullptr;
private:
/**
* Experimental features needed when parsing args. These are checked
* after flag parsing is completed in order to support enabling
* experimental features coming after the flag that needs the
* experimental feature.
*/
std::set<ExperimentalFeature> flagExperimentalFeatures;
};
/* A command is an argument parser that can be executed by calling its
run() method. */
struct Command : virtual public Args
{
friend class MultiCommand;
virtual ~Command() { }
virtual void run() = 0;
typedef int Category;
static constexpr Category catDefault = 0;
virtual Category category() { return catDefault; }
};
typedef std::map<std::string, std::function<ref<Command>()>> Commands;
/* An argument parser that supports multiple subcommands,
i.e. <command> <subcommand>. */
class MultiCommand : virtual public Args
{
public:
Commands commands;
std::map<Command::Category, std::string> categories;
// Selected command, if any.
std::optional<std::pair<std::string, ref<Command>>> command;
MultiCommand(const Commands & commands);
bool processFlag(Strings::iterator & pos, Strings::iterator end) override;
bool processArgs(const Strings & args, bool finish) override;
void completionHook() override;
nlohmann::json toJSON() override;
};
Strings argvToStrings(int argc, char * * argv);
struct Completion {
std::string completion;
std::string description;
bool operator<(const Completion & other) const;
};
class Completions : public std::set<Completion> {
public:
void add(std::string completion, std::string description = "");
};
extern std::shared_ptr<Completions> completions;
enum CompletionType {
ctNormal,
ctFilenames,
ctAttrs
};
extern CompletionType completionType;
void completePath(size_t, std::string_view prefix);
void completeDir(size_t, std::string_view prefix);
}