Of course, Sariel's potentially bloated and copy-pasted code is blocked by
even more definitely bloated and copy-pasted code. It's TH01, what did you
expect?
But even then, TH01's item code is on a new level of software architecture
ridiculousness. First, ZUN uses distinct arrays for both types of items,
with their own caps of 4 for bomb items, and 10 for point items. Since that
obviously makes any type-related switch statement redundant,
he also used distinct functions for both types, with copy-pasted
boilerplate code. The main per-item update and render function is
shared though… and takes every single accessed member of the item
structure as its own reference parameter. Like, why, you have a
structure, right there?! That's one way to really practice the C++ language
concept of passing arbitrary structure fields by mutable reference…
To complete the unwarranted grand generic design of this function, it calls
back into per-type collision detection, drop, and collect functions with
another three reference parameters. Yeah, why use C++ virtual methods when
you can also implement the effectively same polymorphism functionality by
hand? Oh, and the coordinate clamping code in one of these callbacks could
only possibly have come from nested min() and
max() preprocessor macros. And that's how you extend such
dead-simple functionality to 1¼ pushes…
Amidst all this jank, we've at least got a sensible item↔player hitbox this
time, with 24 pixels around Reimu's center point to the left and right, and
extending from 24 pixels above Reimu down to the bottom of the playfield.
It absolutely didn't look like that from the initial naive decompilation
though. Changing entity coordinates from left/top to center was one of the
better lessons from TH01 that ZUN implemented in later games, it really
makes collision detection code much more intuitive to grasp.
The card flip code is where we find out some slightly more interesting
aspects about item drops in this game, and how they're controlled by a
hidden cycle variable:
At the beginning of every 5-stage scene, this variable is set to a
random value in the [0..59] range
Point items are dropped at every multiple of 10
Every card flip adds 1 to its value after this mod 10
check
At a value of 140, the point item is replaced with a bomb item, but only
if no damaging bomb is active. In any case, its value is then reset to
1.
Then again, score players largely ignore point items anyway, as card
combos simply have a much bigger effect on the score. With this, I should
have RE'd all information necessary to construct a tool-assisted score run,
though? Edit: Turns out that 1) point items are becoming
increasingly important in score runs, and 2) Pearl already did a TAS some
months ago. Thanks to
spaztron64 for the info!
The Orb↔card hitbox also makes perfect sense, with 24 pixels around
the center point of a card in every direction.
The rest of the code confirms the
card
flip score formula documented on Touhou Wiki, as well as the way cards
are flipped by bombs: During every of the 90 "damaging" frames of the
140-frame bomb animation, there is a 75% chance to flip the card at the
[bomb_frame % total_card_count_in_stage] array index. Since
stages can only have up to 50 cards
📝 thanks to a bug, even a 75% chance is high
enough to typically flip most cards during a bomb. Each of these flips
still only removes a single card HP, just like after a regular collision
with the Orb.
Also, why are the card score popups rendered before the cards
themselves? That's two needless frames of flicker during that 25-frame
animation. Not all too noticeable, but still.
And that's over 50% of REIIDEN.EXE decompiled as well! Next
up: More HUD update and rendering code… with a direct dependency on
rank pellet speed modifications?
Only one newly ordered push since I've reopened the store? Great, that's
all the justification I needed for the extended maintenance delay that was
part of these two pushes 😛
Having to write comments to explain whether coordinates are relative to
the top-left corner of the screen or the top-left corner of the playfield
has finally become old. So, I introduced
distinct
types for all the coordinate systems we typically encounter, applying
them to all code decompiled so far. Note how the planar nature of PC-98
VRAM meant that X and Y coordinates also had to be different from each
other. On the X side, there's mainly the distinction between the
[0; 640] screen space and the corresponding [0; 80] VRAM byte
space. On the Y side, we also have the [0; 400] screen space, but
the visible area of VRAM might be limited to [0; 200] when running in
the PC-98's line-doubled 640×200 mode. A VRAM Y coordinate also always
implies an added offset for vertical scrolling.
During all of the code reconstruction, these types can only have a
documenting purpose. Turning them into anything more than just
typedefs to int, in order to define conversion
operators between them, simply won't recompile into identical binaries.
Modding and porting projects, however, now have a nice foundation for
doing just that, and can entirely lift coordinate system transformations
into the type system, without having to proofread all the meaningless
int declarations themselves.
So, what was left in terms of memory references? EX-Alice's fire waves
were our final unknown entity that can collide with the player. Decently
implemented, with little to say about them.
That left the bomb animation structures as the one big remaining PI
blocker. They started out nice and simple in TH04, with a small 6-byte
star animation structure used for both Reimu and Marisa. TH05, however,
gave each character her own animation… and what the hell is going
on with Reimu's blue stars there? Nope, not going to figure this out on
ASM level.
A decompilation first required some more bomb-related variables to be
named though. Since this was part of a generic RE push, it made sense to
do this in all 5 games… which then led to nice PI gains in anything
but TH05. Most notably, we now got the
"pulling all items to player" flag in TH04 and TH05, which is
actually separate from bombing. The obvious cheat mod is left as an
exercise to the reader.
So, TH05 bomb animations. Just like the
📝 custom entity types of this game, all 4
characters share the same memory, with the superficially same 10-byte
structure.
But let's just look at the very first field. Seen from a low level, it's a
simple struct { int x, y; } pos, storing the current position
of the character-specific bomb animation entity. But all 4 characters use
this field differently:
For Reimu's blue stars, it's the top-left position of each star, in the
12.4 fixed-point format. But unlike the vast majority of these values in
TH04 and TH05, it's relative to the top-left corner of the
screen, not the playfield. Much better represented as
struct { Subpixel screen_x, screen_y; } topleft.
For Marisa's lasers, it's the center of each circle, as a regular 12.4
fixed-point coordinate, relative to the top-left corner of the playfield.
Much better represented as
struct { Subpixel x, y; } center.
For Mima's shrinking circles, it's the center of each circle in regular
pixel coordinates. Much better represented as
struct { screen_x_t x; screen_y_t y; } center.
For Yuuka's spinning heart, it's the top-left corner in regular pixel
coordinates. Much better represented as
struct { screen_x_t x; screen_y_t y; } topleft.
And yes, singular. The game is actually smart enough to only store a single
heart, and then create the rest of the circle on the fly. (If it were even
smarter, it wouldn't even use this structure member, but oh well.)
Therefore, I decompiled it as 4 separate structures once again, bundled
into an union of arrays.
As for Reimu… yup, that's some pointer arithmetic straight out of
Jigoku* for setting and updating the positions of the falling star
trails. While that certainly required several
comments to wrap my head around the current array positions, the one "bug"
in all this arithmetic luckily has no effect on the game.
There is a small glitch with the growing circles, though. They are
spawned at the end of the loop, with their position taken from the star
pointer… but after that pointer has already been incremented. On
the last loop iteration, this leads to an out-of-bounds structure access,
with the position taken from some unknown EX-Alice data, which is 0 during
most of the game. If you look at the animation, you can easily spot these
bugged circles, consistently growing from the top-left corner (0, 0)
of the playfield:
After all that, there was barely enough remaining time to filter out and
label the final few memory references. But now, TH05's
MAIN.EXE is technically position-independent! 🎉
-Tom- is going to work on a pretty extensive demo of this
unprecedented level of efficient Touhou game modding. For a more impactful
effect of both the 100% PI mark and that demo, I'll be delaying the push
covering the remaining false positives in that binary until that demo is
done. I've accumulated a pretty huge backlog of minor maintenance issues
by now…
Next up though: The first part of the long-awaited build system
improvements. I've finally come up with a way of sanely accelerating the
32-bit build part on most setups you could possibly want to build ReC98
on, without making the building experience worse for the other few setups.