.. _displaying-images:

=================
Displaying Images
=================

The defining aspect of a visual novel, lending its name to the form, are
the visuals. Ren'Py contains four statements that control the display of
images, and a model that determines the order in which the images are
displayed. This makes it convenient to display images in a manner that
is suitable for use in visual novels and other storytelling games.

The four statements that work with images are:

* ``image`` - defines a new image.
* ``show`` - shows an image on a layer.
* ``scene`` - clears a layer, and optionally shows an image on that layer.
* ``hide`` - removes an image from a layer.

As abrupt changes of image can be disconcerting to the user, Ren'Py
has the ``with`` statement, which allows effects to be applied
when the scene is changed.


Concepts
========

Image
-----

An image is something that can be show to the screen using the show
statement. An image consists of a name and a displayable. When the
image is shown on a layer, the displayable associated with it is
displayed on that layer.

An :dfn:`image name` consists of one or more names, separated by
spaces. The first component of the image name is called the :dfn:`image
tag`. The second and later components of the name are the :dfn:`image
attributes`.

For example, take the image name ``mary beach night happy``. The image
tag is ``mary``, while the image attributes are ``beach``, ``night``,
and ``happy``. 

A displayable is something that can be shown on the screen. The most
common thing to show is a static image, which can be specified by
giving the filename of the image, as a string. In the example above,
we might use ``"mary_beach_night_happy.png"`` as the filename.
However, an image may refer to :ref:`any displayable Ren'Py supports
<displayables>`, not just static images. Thus, the same statements
that are used to display images can also be used for animations, solid
colors, and the other types of displayables.

Layer
-----

A layer is a list of displayables that are shown on the screen. Ren'Py
supports multiple layers, including user-defined layers. The order of
the layers is fixed within a game (controlled by the
:var:`config.layers` variable), while the order of displayables within
a layer is controlled by the order in which the scene and show
statements are called, and the properties given to those statements.

The following layers are defined as part of Ren'Py:

master
     This is the default layer that is used by the scene, show, and
     hide statements. It's generally used for backgrounds and
     character sprites.

transient
     The default layer used by ui functions. This layer is cleared at
     the end of each interaction.

screens
     This layer is used by the screen system.

overlay
     The default layer used when a ui function is called from within
     an overlay function. This layer is cleared when an interaction is
     restarted.

Additional layers can be defined by updating :var:`config.layers`, and
the various other layer-related config variables. Using
:func:`renpy.layer_at_list`, one or more transforms can be applied to
a layer.

.. _image-statement:

Image Statement
===============

An image statement is used to define an image. An image statement
consists of a single logical line beginning with the keyword ``image``,
followed by an image name, an equals sign (``=``), and a
displayable. For example::

    image eileen happy = "eileen_happy.png"
    image black = "#000"
    image bg tiled = LiveTile("tile.jpg")

    image eileen happy question = VBox(
        "question.png",
        "eileen_happy.png",
        )
    
The image statement must be run at init-time, before game code
runs. When not contained inside an init block, image statements are
run at init-time, as if they were placed inside an init block of
priority 0.

See also the :ref:`ATL variant of the image statement. <atl-image-statement>` 


.. _show-statement:

Show Statement
==============

The show statement is used to display an image on a layer. A show
statement consists of a single logical line beginning with the
keyword ``show``, followed by an image name, followed by zero or
more properties.

If the show statement is given the exact name of an existing image,
that image is the one that is shown. Otherwise, Ren'Py will attempt to
find a unique image that:

* Has the same tag as the one specified in the show statement.
* Has all of the attributes given in the show statement.
* If an image with the same tag is already showing, shares the largest
  number of attributes with that image.

If a unique image cannot be found, an exception occurs.

If an image with the same image tag is already showing on the layer,
the new image replaces it. Otherwise, the image is placed above all
other images in the layer. (That is, closest to the user.) This order
may be modified by the zorder and behind properties.

The show statement does not cause an interaction to occur. For the
image to actually be displayed to the user, a statement that causes an
interaction (like the say, menu, pause, and with statements) must be
run. 

The show statement takes the following properties:

``as``
    The as property takes a name. This name is used in place of the
    image tag when the image is shown. This allows the same image
    to be on the screen twice.

``at``
    The at property takes one or more comma-separated
    simple expressions. Each expression must evaluate to a
    transform. The transforms are applied to the image in
    left-to-right order.

    If no at clause is given, Ren'Py will retain any existing
    transform that has been applied to the image. If no transform
    exists, the image will be displayed using the :var:`default`
    transform. 

``behind``
    Takes a comma-separated list of one or more names. Each name is
    taken as an image tag. The image is show behind all images with
    the given tags that are currently being shown.

``onlayer``
    Takes a name. Shows the image on the named layer.

``zorder``
    Takes an integer. The integer specifies the relative ordering of
    images within a layer, with larger numbers being closer to the
    user. This isn't generally used in Ren'Py code, but can be useful
    when porting code from other engines.

Assuming we have the following images defined::

    image mary night happy = "mary_night_happy.png"
    image mary night sad = "mary_night_sad.png"
    image moon = "moon.png"
    
Some example show statements are::

    # Basic show
    show mary night sad

    # Since 'mary night happy' is showing, the following statement is
    # equivalent to:
    # show mary night happy
    show mary happy

    # Show an image on the right side of the screen.
    show mary night happy at right

    # Show the same image twice.
    show mary night sad as mary2 at left

    # Show an image behind another.
    show moon behind mary, mary2

    # Show an image on a user-defined layer.
    show moon on user_layer

**Show Expression.**
A variant of the show statement replaces the image name with the
keyword ``expression``, followed by a simple expression. The
expression must evaluate to a displayable, and the displayable
is shown on the layer. To hide the displayable, a tag must be
given with the as statement.

For example::

    show expression "moon.png" as moon

.. _scene-statement:
    
Scene Statement
===============

The scene statement removes all displayables from a layer, and then
shows an image on that layer. It consists of the keyword ``scene``,
followed by an image name, followed by zero or more properties. The
image is shown in the same way as in the show statement, and the scene
statement takes the same properties as the show statement. 

The scene statement is often used to show an image on the background
layer. For example::

    scene bg beach

**Scene Expression.**
Like the show statement, the scene statement can take expressions
instead of image names.

**Clearing a layer.**
When the image name is omitted entirely, the scene statement clears
all displayables from a layer without showing another
displayable. 

Hide Statement
==============

The hide statement removes an image from a layer. It consists of the
keyword ``hide``, followed by an image name, followed by an optional
property. The hide statement takes the image tag from the image name,
and then hides any image on the layer with that tag.

Hide statements are rarely necessary. If a sprite represents a
character, then a hide statement is only necessary when the character
leaves the scene. When the character changes her emotion, it is
preferable to use the show statement instead, as the show statement
will automatically replace an image with the same tag.

The hide statement takes the following property:

``onlayer``
    Takes a name. Hides the image from the named layer.

For example::

    e "I'm out of here."

    hide eileen

You should never write::

    hide eileen
    show eileen happy

Instead, just write::

    show eileen happy


.. _with-statement:
    
With Statement
==============

The with statement is used to apply a transition effect when the scene
is changed, making showing and hiding images less abrupt. The with
statement consists of the keyword ``with``, followed by a simple
expression that evaluates either to a transition object or the special
value ``None``.

The transition effect is applied between the contents of the screen at
the end of the previous interaction (with transient screens and
displayables hiddden), and the current contents of the scene, after the
show and hide statements have executed.

The with statement causes an interaction to occur. The duration of
this interaction is controlled by the user, and the user can cause it
to terminate early.

For a full list of transitions that can be used, see the chapter on
:ref:`transitions <transitions>`.

An example of the with statement is::

    show bg washington
    with dissolve

    show eileen happy at left
    show lucy mad at right
    with dissolve

This causes two transitions to occur. The first with statement uses
the ``dissolve`` transition to change the screen from what was
previously shown to the washington background. (The ``dissolve``
transition is, by default, defined as a .5 second dissolve.)

The second transition occurs after the Eileen and Lucy images are
shown. It causes a dissolve from the scene consisting solely of the
background to the scene consisting of all three images - the result is
that the two new images appear to dissolve in simultaneously. 

With None
---------

In the above example, there are two dissolves. But what if we wanted
the background to appear instantly, followed by a dissolve of the two
characters? Simply omitting the first with statement would cause all
three images to dissolve in - we need a way to say that the first
should be show instantly.

The with statement changes behavior when given the special value
``None``. The ``with None`` statement causes an abbreviated
interaction to occur, without changing what the user sees. When the
next transition occurs, it will start from the scene as it appears at
the end of this abbreviated interaction.

For example, in the code::

    show bg washington
    with None

    show eileen happy at left
    show lucy mad at right
    with dissolve

Only a single transition occurs, from the washington background to the
scene consisting of all three images.
    
With Clause of Scene, Show, and Hide Statements
-----------------------------------------------

The show, scene, and hide statements can take an optional with clause,
which allows a transition to be combined with showing or hiding an
image. This clause follows the statements at the end of the same
logical line. It begins with the keyword ``with``, followed by a
simple expression.

The with clause is equivalent to preceding the line with a ``with
None`` statement, and following it by a :ref:`with statement <with-statement>` containing the
text of the with clause. For example::

    show eileen happy at left with dissolve
    show lucy mad at right with dissolve
    
is equivalent to::

    with None
    show eileen happy at left
    with dissolve

    with None
    show lucy mad at right
    with dissolve
