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%% -*- erlang-indent-level: 4;indent-tabs-mode: nil -*-
%% ex: ts=4 sw=4 et
-module(rebar_prv_do).
-behaviour(provider).
-export([init/1,
do/1,
do_tasks/2,
format_error/1]).
-include("rebar.hrl").
-define(PROVIDER, do).
-define(DEPS, []).
%% ===================================================================
%% Public API
%% ===================================================================
-spec init(rebar_state:t()) -> {ok, rebar_state:t()}.
init(State) ->
State1 = rebar_state:add_provider(State, providers:create([{name, ?PROVIDER},
{module, ?MODULE},
{bare, true},
{deps, ?DEPS},
{example, "rebar3 do <task1>, <task2>, ..."},
{short_desc, "Higher order provider for running multiple tasks in a sequence."},
{desc, "Higher order provider for running multiple tasks in a sequence."},
{opts, []}])),
{ok, State1}.
-spec do(rebar_state:t()) -> {ok, rebar_state:t()} | {error, string()}.
do(State) ->
case rebar_utils:args_to_tasks(rebar_state:command_args(State)) of
[] ->
AllProviders = rebar_state:providers(State),
Namespace = rebar_state:namespace(State),
Providers = providers:get_providers_by_namespace(Namespace, AllProviders),
providers:help(Providers),
{ok, State};
Tasks ->
do_tasks(Tasks, State)
end.
-spec do_tasks(list(Task), State) -> Res when
Task :: {string(), string()} |
{string(), atom()} |
{atom(), atom(), string()},
State :: rebar_state:t(),
Res :: {ok, rebar_state:t()} |
{error, term()}.
do_tasks([], State) ->
{ok, State};
do_tasks([{TaskStr, Args} | Tail], State) when is_list(Args) ->
Task = list_to_atom(TaskStr),
State1 = rebar_state:set(State, task, Task),
State2 = rebar_state:command_args(State1, Args),
Namespace = rebar_state:namespace(State2),
do_task(TaskStr, Args, Tail, State, Namespace);
do_tasks([{Namespace, Task} | Tail], State) ->
do_task(atom_to_list(Task), [], Tail, State, Namespace);
do_tasks([{Namespace, Task, Args} | Tail], State)
when is_atom(Namespace), is_atom(Task) ->
do_task(atom_to_list(Task), Args, Tail, State, Namespace).
do_task(TaskStr, Args, Tail, State, Namespace) ->
Task = list_to_atom(TaskStr),
State1 = rebar_state:set(State, task, Task),
State2 = rebar_state:command_args(State1, Args),
case Namespace of
default ->
%% The first task we hit might be a namespace!
case maybe_namespace(State2, Task, Args) of
{ok, FinalState} when Tail =:= [] ->
{ok, FinalState};
{ok, _} ->
do_tasks(Tail, State);
{error, Reason} ->
{error, Reason}
end;
_ ->
%% We're already in a non-default namespace, check the
%% task directly.
State3 = rebar_state:namespace(State2, Namespace),
case rebar_core:process_command(State3, Task) of
{ok, FinalState} when Tail =:= [] ->
{ok, FinalState};
{ok, _} ->
do_tasks(Tail, State);
{error, Reason} ->
{error, Reason}
end
end.
-spec format_error(any()) -> iolist().
format_error(Reason) ->
io_lib:format("~p", [Reason]).
maybe_namespace(State, Task, Args) ->
case rebar_core:process_namespace(State, Task) of
{ok, State2, Task} ->
%% The task exists after all.
rebar_core:process_command(State2, Task);
{ok, State2, do} when Args =/= [] ->
%% We are in 'do' so we can't apply it directly.
[NewTaskStr | NewArgs] = Args,
NewTask = list_to_atom(NewTaskStr),
State3 = rebar_state:command_args(State2, NewArgs),
rebar_core:process_command(State3, NewTask);
{ok, _, _} ->
%% No arguments to consider as a command. Woops.
{error, io_lib:format("Command ~p not found", [Task])};
{error, Reason} ->
{error, Reason}
end.
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