SDLx::Controller - Handles the loops for events, movement and rendering
Extension, Controller
use SDLx::Controller; # create our controller object my $app = SDLx::Controller->new; # we could also do: my $app = SDLx::App->new; # because App is also a controller # register some callbacks $app->add_event_handler( \&on_event ); $app->add_move_handler( \&on_move ); $app->add_show_handler( \&on_show ); # run our game loop $app->run;
The core of an SDL application/game is the main loop, where you handle events and display your elements on the screen until something signals the end of the program. This usually goes in the form of:
while (1) { ... }
The problem most developers face, besides the repetitive work, is to ensure the screen update is independent of the frame rate. Otherwise, your game will run at different speeds on different machines and this is never good (old MS-DOS games, anyone?).
One way to circumvent this is by capping the frame rate so it's the same no matter what, but this is not the right way to do it as it penalizes better hardware.
This module provides an industry-proven standard for frame independent movement. It calls the movement handlers based on time (hi-res seconds) rather than frame rate. You can add/remove handlers and control your main loop with ease.
SDLx::Controller->new( dt => 0.5, min_t => 0, event => $event_object, );
The dt parameter specifies the length, in seconds, of a full movement step, and defaults to 0.1. The dt can be anything and the game can still look the same. It is only when you change the dt without changing all the things in the movement step that are being multiplied by the first move argument that it will make a difference. If you lower the dt, everything will move faster than it did with it set higher, and vice-versa. This is useful to add slo-mo and fast-forward features to the game, all you would have to do is change the dt.
dt
min_t specifies the minimum time, in seconds, that has to accumulate before any move or show handlers are called, and defaults to 1 / 60. Having the min_t at 1 / 60 ensures that the controller can update the screen at a maximum of 60 times per second. A "V-Sync" such as this is necessary to prevent video "tear", which occurs when the app is updating faster than the monitor can display. Setting it to 0, as seen above, will let the app run as fast as it possibly can.
min_t
delay specifies a loop delay in millisecs to place on the controller loop. NOTE: Picking a good delay based on the needs can help reduce CPU load and pressure.
delay
event is a SDL::Event object that events going to the event callbacks are polled in to. It defaults to SDL::Event->new().
event
SDL::Event->new()
All parameters are optional.
Returns the new object.
After creating and setting up your handlers (see below), call this method to activate the main loop. The main loop will run until stop is called.
stop
All hooked functions will be called during the main loop, in this order:
Please refer to each handler below for information on received arguments. Note that the second argument every callback receives is the SDLx::Controller object.
SDLx::Controller
Returns from the run loop.
run
Attempts to pause the application with a call to SDL::Events::wait_event. See SDL::Events.
SDL::Events::wait_event
Takes 1 argument which is a callback. The application waits for the next event with wait_event. When one is received, it is passed to the callback as the first argument, along with the SDLx::Controller object as the second argument. If the callback then returns a true value, pause will return. If the callback returns a false value, pause will repeat the process.
wait_event
pause
This can be used to easily implement a pause when the app loses focus:
sub window { my ($e, $app) = @_; if($e->type == SDL_QUIT) { $app->stop; # quit handling is here so that the app # can be stopped while paused } elsif($e->type == SDL_ACTIVEEVENT) { if($e->active_state & SDL_APPINPUTFOCUS) { if($e->active_gain) { return 1; } else { $app->pause(\&window); # recursive, but only once since the window # can't lose focus again without gaining it first } } } return 0; }
Note: if you implement your own pause function, remember to update current_time to the current time when the application unpauses. This should be done with Time::HiRes::time. Otherwise, time will accumulate while the application is paused, and many movement steps will be called all at once when it unpauses.
current_time
Time::HiRes::time
Note 2: a pause will be potentially dangerous to the run cycle (even if you implement your own) unless called by an event callback.
Returns 1 if the app is paused, undef otherwise. This is only useful when used within code that will be run by pause:
sub pause { # press P to toggle pause my ($e, $app) = @_; if($e->type == SDL_QUIT) { $app->stop; # quit handling is here so that the app # can be stopped while paused } elsif($e->type == SDL_KEYDOWN) { if($e->key_sym == SDLK_p) { # We're paused, so end pause return 1 if $app->paused; # We're not paused, so pause $app->pause(\&pause); } } return 0; }
Register a callback to handle events. You can add as many subs as you need. Whenever a SDL::Event occurs, all registered callbacks will be triggered in order. Returns the order queue number of the added callback.
The first argument passed to registered callbacks is the SDL::Event object. The second is the SDLx::Controller object.
sub stop { my ($event, $app) = @_; if($event->type == SDL_QUIT) { $app->stop; } } $app->add_event_handler(\&stop);
Register a callback to update your objects. You can add as many subs as you need. Returns the order queue number of the added callback.
All registered callbacks will be triggered in order for as many dt as have happened between calls, and once more for any remaining time less than dt. The first argument passed to the callbacks is the portion of the step, which will be 1 for a full step, and less than 1 for a partial step. Movement values should be multiplied by this value. The full steps correspond to the amount of dt passed between calls, and the partial step corresponds to the call with the remaining time less than dt. The argument can be 0 if no time has passed since the last cycle. If you need to protect against this, set a min_t, or put a return unless $_[0] at the start of every move handler.
return unless $_[0]
The second argument passed to the callbacks is the SDLx::Controller object. The third is the total amount of time passed since the call of run.
You should use these handlers to update your in-game objects, check collisions, etc. so you can check and/or update it as necessary.
sub move_ball { my ($step, $app, $t) = @_; $ball->move_x( $ball->x_vel * $step ); $ball->move_y( $ball->y_vel * $step ); }
Register a callback to render objects. You can add as many subs as you need. Returns the order queue number of the added callback. All registered callbacks will be triggered in order, once per run of the run loop.
The first argument passed is the time, in seconds, since the previous call. The second is the SDLx::Controller object.
sub show_ball { my ($delta, $app) = @_; $app->draw_rect( [ $ball->x, $ball->y, $ball->size, $ball->size ], $ball->colour ); }
Removes the handler with the given index from the respective calling queue.
You can also pass a coderef. The first coderef in the handler list that this matches will be removed.
Returns the removed handler.
Removes all handlers from the respective calling queue.
Quick access to removing all handlers at once.
If an argument is passed, modifies the corresponding value to the argument. dt and min_t will keep their old value until the beginning of the next run cycle.
Returns the corresponding value.
See "AUTHORS" in SDL.
The idea and base for this module comes from Lazy Foo's Frame Independent Movement tutorial, and Glenn Fiedler's Fix Your Timestep article on timing.
To install SDL, copy and paste the appropriate command in to your terminal.
cpanm
cpanm SDL
CPAN shell
perl -MCPAN -e shell install SDL
For more information on module installation, please visit the detailed CPAN module installation guide.