This makes it work pretty well. It basically just resets the state of
the limits check and starts from the first limit broken (if any), which
is behavior that makes sense to me.
Otherwise, without this, it seems to invalidate pointers and, on my
machine, start pulling strings from the language XML, which is
horrifying.
Not gonna lie, I am a bit disappointed at having to do this, because it
actually worked pretty well despite a few bugs depending on which
language you entered with. But that's only because I'm working with
the official translation files, which are in sync with each other.
With translation files that are completely arbitrary, it would be
apparent that switching languages during the cutscene test doesn't
really make sense. Like, at all. That's because the list of cutscenes is
populated entirely from language-specific XML and the cutscenes in them
are also from language-specific XML. So keeping the same position in the
menu doesn't really make sense, and keeping the same position in a
cutscene definitely doesn't make sense.
I saw that the only problem with cycling languages in a title screen
menu is that the menu options don't get updated. So I was like, we can
just recreate the menu, and then I was like "Sure, why not." So that's
what I did.
To accommodate the CTRL+F8 keybind in the language menu, it
automatically updates the menu option when you cycle it. This is because
otherwise using the keybind in the language menu wouldn't visibly update
the language, but it still actually does change your language, and that
can be seen by pressing Escape.
Also, the menucountdown needs to be preserved because otherwise
createmenu() resets it, even if it's the "same" menu (this behavior is
needed so that the menu that is shown during the countdown isn't added
as a stack frame which would make it a menu that could be returned to).
Originally, textcase was reset in scriptclass::translate_dialogue(),
which is called inside the `text` script command. However, this didn't
really work with the new on-the-fly text box translation system, and
that function is gone now, so I removed that and kind of forgot about
it.
Of course, this now causes a regression. Namely, that the text boxes
after the VVVVVV-Man sequence in the Secret Lab entrance cutscene are
not translated.
I can't reset the text case in `text`, as the scripts assume that they
can set the text case before `text`. So the next best thing is to reset
it in speak/speak_active.
This fixes a bug where some text boxes wouldn't update the displayed
button if the active input device changed from a keyboard to controller,
or vice versa. Namely, the "Press ACTION to continue" text boxes.
This removes Graphics::textboxwrap(), as it is now an unused function.
Additionally, this removes the return value of textboxclass::wrap(), as
it is also now unused.
This stores the original x-position and y-position of the text box, and
when a text box gets repositioned, it will use those unless a crewmate
position overrides it.
This is the original position of the text box, before centering or
crewmate position is considered.
This fixes a bug where a cutscene text box can be "shifted" from its
normal position via CTRL+F8 cycling if there is a translation that is
too long for the screen and thus gets pushed by adjust(). I tested this
with the text box in the Comms Relay cutscene that starts with "If YOU
can find a teleporter".
This is not applicable to function-based translations
(TEXTTRANSLATE_FUNCTION), because the responsibility of correctly
positioning the text box resides with the function.
This adds a debug keybind to cycle the current language forwards,
CTRL+F8. It also adds a debug keybind to cycle it backwards,
CTRL+SHIFT+F8.
This is only active if the translator menu is active (and so if the
regular F8 keybind is also active).
This is useful for quickly catching errors in translations and/or
inconsistencies between translations. In fact, I've already caught
several translation mistakes using this keybind which made me mildly
panic that I screwed something up in my own code, only to realize that
no, actually, it was the translation that was at fault.
For now, this is only meant to be used in-game, as text boxes get
retranslated instantly, whereas things like menu options don't. But menu
options will be retranslated on-the-fly in a later commit.
This fixes a problem where it would incorrectly format the text because
the width of the text box hadn't updated yet.
This fixes a bug where the jukebox informational terminal would
initially be created with too much padding in CJK languages, pushing the
text box offscreen, even though switching languages while the text box
is already open fixes it.
In order to be able to retranslate the game time text box in particular,
I had to create new variables to bake the saved time, since the existing
savetime variable is just an std::string. From there, the saved time can
be retranslated on-the-fly.
This adds an attribute to textboxclass to allow a text box to keep an
index that references another text box inside the graphics.textboxes
std::vector.
This is needed because the second text box of a "You have found a
shiny trinket!" or "You have found a lost crewmate!" pair of text boxes
explicitly relies on the height of the first text box. With this, I have
moved those text boxes over to the new text box translation system.
Since the update order now matters, I added a comment to
recomputetextboxes() that clarifies that the text boxes must be updated
in linear order, starting from 0.
This adds an assert to Graphics::textboxtranslate() to make sure that
callers don't accidentally provide a function when specifying a
translation type that isn't TEXTTRANSLATE_FUNCTION, because in that case
the function won't be used, and then it will make them scratch their
heads wondering why their function won't work.
And yes, I am stupid enough to blindly type TEXTTRANSLATE_CUTSCENE when
I meant to type TEXTTRANSLATE_FUNCTION. This assert has already caught
one of my mistakes. :)
These seemed annoying to do without copy-pasting, because I didn't want
to make a separate function for every single dialogue, and I didn't know
how to pass through the English text, until I realized that I can just
use the existing original.lines vector in the text box to store the
English text. After that, getting it translated on-the-fly isn't too
bad.
Just a small optimization.
For example, consider the calls in adjust(). After the first resize(),
the lines after only change the x-position and y-position of the text
box and depend on the x-position, y-position, width, and height.
However, resize() only changes the width and height if the contents of
the text box change, which after the first call, they don't. So remove
the second call to resize(), because it's completely unnecessary.
By similar reasoning, the second calls to resize() in centerx() and
centery() are unnecessary too.
This transfers the responsibility of the adjust() call to
applyposition().
This is because cutscene text boxes (TEXTTRANSLATE_CUTSCENE) will have
adjust() called, but all other text boxes won't. And I can't place the
adjust() call inside applyposition(), because adjust() also calls
applyposition(), and that leads to an infinite loop which leads to a
stack overflow, so I had to remove the applyposition() call from
adjust(), and replace the other existing call to
Graphics::textboxadjust() with Graphics::textboxapplyposition(), and
then remove Graphics::textboxadjust() function because it's no longer
used.
Several text boxes in the gamestate system are unused and are
untranslated. To prevent them from becoming empty when retranslating
text boxes, we need to save their original context by calling
graphics.textboxoriginalcontextauto() (which is just
graphics.textboxoriginalcontext() but automatically saving whatever is
already in the text box at the time).
With the new system of retranslating text boxes on-the-fly, this also
enables us to retranslate them whenever the player toggles Flip Mode.
This is relevant because the Intermission 1 instructional text boxes
refer to a floor when Flip Mode is off, but when it is on, it talks
about the ceiling.
This splits the text wrapping functionality of Graphics::textboxwrap to
a new function textboxclass::wrap, and with this new function, some more
text boxes can be moved to the new TEXTTRANSLATE_FUNCTION system.
Namely, Game Saved (specifically the game failing to save text box),
instructional text boxes in Space Station 1, and the Intermission 1
instructional text boxes.
This adds a way to save the text box state of the crew remaining, ACTION
prompt, etc. text boxes by just letting there be a function that is
called to retranslate the text box when needed.
It also adds a way to ignore translating a text box and to leave it
alone, in case there's actually no text in the text box, which is the
case with Level Complete and Game Complete.
Both ways are now in an enum, TextboxTranslate. The former is
TEXTTRANSLATE_FUNCTION and the latter is TEXTTRANSLATE_NONE. The
existing way of translating text boxes became TEXTTRANSLATE_CUTSCENE,
since it's only used for cutscene scripts.
Here's a quick guide to the three ways of creating a text box now.
- TEXTTRANSLATE_NONE: You must call
graphics.textboxoriginalcontextauto() to save the existing text to the
original context of the text box, as that will be copied back to the
text box after the text of the text box is updated due to not having a
translation.
- TEXTTRANSLATE_CUTSCENE: Translates the text from cutscenes.xml, and
overrides the spacing (padding and text centering). Shouldn't need to
be used outside of scriptclass.
- TEXTTRANSLATE_FUNCTION: You must pass in a function that takes in a
single parameter, a pointer to the textboxclass object to be modified.
General advice when retranslating text is to clear the `lines` vector
and then push_back the retranslated text. The function is also solely
responsible for spacing.
In most cases, you will also need to call
graphics.textboxapplyposition() or graphics.textboxadjust() afterwards.
(Some text boxes shouldn't use graphics.textboxadjust() as they are
within the 10-pixel inner border around the screen that
textboxclass::adjust tries to push the text box out of.)
This commit doesn't fix every text box just yet, though. But it fixes
the Level Complete, Game Complete, crew remaining, and ACTION prompt
text boxes, for a start.
This is another piece of state that needs to be kept and re-played when
switching language, because a different language could change the
dimensions of the text box, which affects how it's centered.
Also, to make sure that crewmate positions override any text centering,
the scriptclass variables textx and texty should be reset in the
position and customposition commands.
Originally I did a straight deep copy of the original lines, but this
ignores the limit of either 12 or 26 lines in a text box. So we defer to
addline() which will enforce the limit accordingly, just like it would
do with the original text box.
This allows switching languages while a text box is on screen by saving
the necessary state for a text box to be retranslated when the language
is switched.
This saves the state of the position and direction of the crewmate that
the text box position is based off of (if applicable), and the text
case of the text box, the script name of the script, and the original
(English) lines of the text box. I did not explicitly label the original
lines as English lines except in a main game context, because
technically, custom levels could have original lines in a different
language.
Unfortunately, this doesn't work for every text box in the game.
Notably, the Level Complete, Game Complete, number of crewmates
remaining, trinket collection, Intermission 1 guides, etc. text boxes
are special and require further fixes, but that will be coming in later
commits.
This is for consistency with all other functions dealing with the latest
created text box. There are several cases in custom levels where these
functions can be called even though there are no text boxes on screen.
It doesn't make sense to change the alignment of all existing text boxes
when you're not otherwise able to mutate the text. Whereas the point of
the 'all' argument in setfont is to be able to animate text boxes using
fonts.
There used to be a problem with the setfont and setrtl script commands.
Namely, if you used them in between text boxes naïvely, without any
careful thought, then the fading out text box would suddenly gain the
font of the new one. A kludge solution to this was implemented by simply
blocking the script until the existing text box faded out before
switching the font or RTL, and shipped for 2.4.0.
However, a better solution is to simply bake the font flags in to the
text box, so that way, if the level font switches, then the text box
keeps its font.
This is only for custom levels, because in the main game, the font in a
text box needs to be able to change depending on language. But it seems
like custom level translations weren't much on the roadmap, and so even
the existing hack didn't support changing the font based on translation
(even though translation of custom level cutscenes is supported). So
baking the font flags into the text box here doesn't make things any
worse.
It also makes things better, arguably, by allowing multiple text boxes
to exist on screen at once with different fonts.
Maybe in the future we'll need a flag that specifies that the font
should change depending on language if a translation in said language
exists for the text box, or something like that.
For people that want to override the fonts of every existing text box on
screen, you can specify "all" as the second parameter of setfont or
setrtl to do so.
This fixes a regression where attempting to warp to ship with a trinket
text box open in glitchrunner 2.0, and then incrementing the gamestate
afterwards, would result in a softlock. This is a speedrunning strat
that speedrunners use.
The state lock wasn't ever intended to remove any strats or anything,
just fix warping to ship under normal circumstances. So it's okay to
re-enable interrupting the state by having glitchrunner enabled.
This bug was reported by mohoc in the VVVVVV Speedrunning Discord
server.