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📝 Posted:
🚚 Summary of:
P0207, P0208, P0209, P0210, P0211
Commits:
454c105...c26ef4b, c26ef4b...239a3ec, 239a3ec...5030867, 5030867...149fbca, 149fbca...d398a94
💰 Funded by:
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Whew, TH01's boss code just had to end with another beast of a boss, taking way longer than it should have and leaving uncomfortably little time for the rest of the game. Let's get right into the overview of YuugenMagan, the most sequential and scripted battle in this game:


At a pixel-perfect 81×61 pixels, the Orb hitboxes are laid out rather generously this time, reaching quite a bit outside the 64×48 eye sprites:

TH01 YuugenMagan's hitboxes.

And that's about the only positive thing I can say about a position calculation in this fight. Phase 0 already starts with the lasers being off by 1 pixel from the center of the iris. Sure, 28 may be a nicer number to add than 29, but the result won't be byte-aligned either way? This is followed by the eastern laser's hitbox somehow being 24 pixels larger than the others, stretching a rather unexpected 70 pixels compared to the 46 of every other laser.
On a more hilarious note, the eye closing keyframe contains the following (pseudo-)code, comprising the only real accidentally "unused" danmaku subpattern in TH01:

// Did you mean ">= RANK_HARD"?
if(rank == RANK_HARD) {
	eye_north.fire_aimed_wide_5_spread();
	eye_southeast.fire_aimed_wide_5_spread();
	eye_southwest.fire_aimed_wide_5_spread();

	// Because this condition can never be true otherwise.
	// As a result, no pellets will be spawned on Lunatic mode.
	// (There is another Lunatic-exclusive subpattern later, though.)
	if(rank == RANK_LUNATIC) {
		eye_west.fire_aimed_wide_5_spread();
		eye_east.fire_aimed_wide_5_spread();
	}
}

Featuring the weirdly extended hitbox for the eastern laser, as well as an initial Reimu position that points out the disparity between byte-aligned rendering and the internal coordinates one final time.

After a few utility functions that look more like a quickly abandoned refactoring attempt, we quickly get to the main attraction: YuugenMagan combines the entire boss script and most of the pattern code into a single 2,634-instruction function, totaling 9,677 bytes inside REIIDEN.EXE. For comparison, ReC98's version of this code consists of at least 49 functions, excluding those I had to add to work around ZUN's little inconsistencies, or the ones I added for stylistic reasons.
In fact, this function is so large that Turbo C++ 4.0J refuses to generate assembly output for it via the -S command-line option, aborting with a Compiler table limit exceeded in function error. Contrary to what the Borland C++ 4.0 User Guide suggests, this instance of the error is not at all related to the number of function bodies or any metric of algorithmic complexity, but is simply a result of the compiler's internal text representation for a single function overflowing a 64 KiB memory segment. Merely shortening the names of enough identifiers within the function can help to get that representation down below 64 KiB. If you encounter this error during regular software development, you might interpret it as the compiler's roundabout way of telling you that it inlined way more function calls than you probably wanted to have inlined. Because you definitely won't explicitly spell out such a long function in newly-written code, right? :tannedcirno:
At least it wasn't the worst copy-pasting job in this game; that trophy still goes to 📝 Elis. And while the tracking code for adjusting an eye's sprite according to the player's relative position is one of the main causes behind all the bloat, it's also 100% consistent, and might have been an inlined class method in ZUN's original code as well.

The clear highlight in this fight though? Almost no coordinate is precisely calculated where you'd expect it to be. In particular, all bullet spawn positions completely ignore the direction the eyes are facing to:

Pellets unexpectedly spawned at the exact
	bottom center of an eye
Combining the bottom of the pupil with the exact horizontal center of the sprite as a whole might sound like a good idea, but looks especially wrong if the eye is facing right.
Missile spawn positions in the TH01
	YuugenMagan fight
Here it's the other way round: OK for a right-facing eye, really wrong for a left-facing one.
Spawn position of the 3-pixel laser in the
	TH01 YuugenMagan fight
Dude, the eye is even supposed to track the laser in this one!
The final center position of the regular
	pentagram in the TH01 YuugenMagan fight
Hint: That's not the center of the playfield. At least the pellets spawned from the corners are sort of correct, but with the corner calculates precomputed, you could only get them wrong on purpose.

Due to their effect on gameplay, these inaccuracies can't even be called "bugs", and made me devise a new "quirk" category instead. More on that in the TH01 100% blog post, though.


While we did see an accidentally unused bullet pattern earlier, I can now say with certainty that there are no truly unused danmaku patterns in TH01, i.e., pattern code that exists but is never called. However, the code for YuugenMagan's phase 5 reveals another small piece of danmaku design intention that never shows up within the parameters of the original game.
By default, pellets are clipped when they fly past the top of the playfield, which we can clearly observe for the first few pellets of this pattern. Interestingly though, the second subpattern actually configures its pellets to fall straight down from the top of the playfield instead. You never see this happening in-game because ZUN limited that subpattern to a downwards angle range of 0x73 or 162°, resulting in none of its pellets ever getting close to the top of the playfield. If we extend that range to a full 360° though, we can see how ZUN might have originally planned the pattern to end:

YuugenMagan's phase 5 patterns on every difficulty, with the second subpattern extended to reveal the different pellet behavior that remained in the final game code. In the original game, the eyes would stop spawning bullets on the marked frame.

If we also disregard everything else about YuugenMagan that fits the upcoming definition of quirk, we're left with 6 "fixable" bugs, all of which are a symptom of general blitting and unblitting laziness. Funnily enough, they can all be demonstrated within a short 9-second part of the fight, from the end of phase 9 up until the pentagram starts spinning in phase 13:

  1. General flickering whenever any sprite overlaps an eye. This is caused by only reblitting each eye every 3 frames, and is an issue all throughout the fight. You might have already spotted it in the videos above.
  2. Each of the two lasers is unblitted and blitted individually instead of each operation being done for both lasers together. Remember how 📝 ZUN unblits 32 horizontal pixels for every row of a line regardless of its width? That's why the top part of the left, right-moving laser is never visible, because it's blitted before the other laser is unblitted.
  3. ZUN forgot to unblit the lasers when phase 9 ends. This footage was recorded by pressing ↵ Return in test mode (game t or game d), and it's probably impossible to achieve this during actual gameplay without TAS techniques. You would have to deal the required 6 points of damage within 491 frames, with the eye being invincible during 240 of them. Simply shooting up an Orb with a horizontal velocity of 0 would also only work a single time, as boss entities always repel the Orb with a horizontal velocity of ±4.
  4. The shrinking pentagram is unblitted after the eyes were blitted, adding another guaranteed frame of flicker on top of the ones in 1). Like in 2), the blockiness of the holes is another result of unblitting 32 pixels per row at a time.
  5. Another missing unblitting call in a phase transition, as the pentagram switches from its not quite correctly interpolated shrunk form to a regular star polygon with a radius of 64 pixels. Indirectly caused by the massively bloated coordinate calculation for the shrink animation being done separately for the unblitting and blitting calls. Instead of, y'know, just doing it once and storing the result in variables that can later be reused.
  6. The pentagram is not reblitted at all during the first 100 frames of phase 13. During that rather long time, it's easily possible to remove it from VRAM completely by covering its area with player shots. Or HARRY UP pellets.

Definitely an appropriate end for this game's entity blitting code. :onricdennat: I'm really looking forward to writing a proper sprite system for the Anniversary Edition…

And just in case you were wondering about the hitboxes of these pentagrams as they slam themselves into Reimu:

62 pixels on the X axis, centered around each corner point of the star, 16 pixels below, and extending infinitely far up. The latter part becomes especially devious because the game always collision-detects all 5 corners, regardless of whether they've already clipped through the bottom of the playfield. The simultaneously occurring shape distortions are simply a result of the line drawing function's rather poor re-interpolation of any line that runs past the 640×400 VRAM boundaries; 📝 I described that in detail back when I debugged the shootout laser crash. Ironically, using fixed-size hitboxes for a variable-sized pentagram means that the larger one is easier to dodge.


The final puzzle in TH01's boss code comes 📝 once again in the form of weird hardware palette changes. The kanji on the background image goes through various colors throughout the fight, which ZUN implemented by gradually incrementing and decrementing either a single one or none of the color's three 4-bit components at the beginning of each even-numbered phase. The resulting color sequence, however, doesn't quite seem to follow these simple rules:

Adding some debug output sheds light on what's going on there:

Since each iteration of phase 12 adds 63 to the red component, integer overflow will cause the color to infinitely alternate between dark-blue and red colors on every 2.03 iterations of the pentagram phase loop. The 65th iteration will therefore be the first one with a dark-blue color for a third iteration in a row – just in case you manage to stall the fight for that long.

Yup, ZUN had so much trust in the color clamping done by his hardware palette functions that he did not clamp the increment operation on the stage_palette itself. :zunpet: Therefore, the 邪 colors and even the timing of their changes from Phase 6 onwards are "defined" by wildly incrementing color components beyond their intended domain, so much that even the underlying signed 8-bit integer ends up overflowing. Given that the decrement operation on the stage_palette is clamped though, this might be another one of those accidents that ZUN deliberately left in the game, 📝 similar to the conclusion I reached with infinite bumper loops.
But guess what, that's also the last time we're going to encounter this type of palette component domain quirk! Later games use master.lib's 8-bit palette system, which keeps the comfort of using a single byte per component, but shifts the actual hardware color into the top 4 bits, leaving the bottom 4 bits for added precision during fades.

OK, but now we're done with TH01's bosses! 🎉That was the 8th PC-98 Touhou boss in total, leaving 23 to go.


With all the necessary research into these quirks going well into a fifth push, I spent the remaining time in that one with transferring most of the data between YuugenMagan and the upcoming rest of REIIDEN.EXE into C land. This included the one piece of technical debt in TH01 we've been carrying around since March 2015, as well as the final piece of the ending sequence in FUUIN.EXE. Decompiling that executable's main() function in a meaningful way requires pretty much all remaining data from REIIDEN.EXE to also be moved into C land, just in case you were wondering why we're stuck at 99.46% there.
On a more disappointing note, the static initialization code for the 📝 5 boss entity slots ultimately revealed why YuugenMagan's code is as bloated and redundant as it is: The 5 slots really are 5 distinct variables rather than a single 5-element array. That's why ZUN explicitly spells out all 5 eyes every time, because the array he could have just looped over simply didn't exist. 😕 And while these slot variables are stored in a contiguous area of memory that I could just have taken the address of and then indexed it as if it were an array, I didn't want to annoy future port authors with what would technically be out-of-bounds array accesses for purely stylistic reasons. At least it wasn't that big of a deal to rewrite all boss code to use these distinct variables, although I certainly had to get a bit creative with Elis.

Next up: Finding out how many points we got in totle, and hoping that ZUN didn't hide more unexpected complexities in the remaining 45 functions of this game. If you have to spare, there are two ways in which that amount of money would help right now:

📝 Posted:
🚚 Summary of:
P0205, P0206
Commits:
3259190...327730f, 327730f...454c105
💰 Funded by:
[Anonymous], Yanga
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Oh look, it's another rather short and straightforward boss with a rather small number of bugs and quirks. Yup, contrary to the character's popularity, Mima's premiere is really not all that special in terms of code, and continues the trend established with 📝 Kikuri and 📝 SinGyoku. I've already covered 📝 the initial sprite-related bugs last November, so this post focuses on the main code of the fight itself. The overview:


And there aren't even any weird hitboxes this time. What is maybe special about Mima, however, is how there's something to cover about all of her patterns. Since this is TH01, it's won't surprise anyone that the rotating square patterns are one giant copy-pasta of unblitting, updating, and rendering code. At least ZUN placed the core polar→Cartesian transformation in a separate function for creating regular polygons with an arbitrary number of sides, which might hint toward some more varied shapes having been planned at one point?
5 of the 6 patterns even follow the exact same steps during square update frames:

  1. Calculate square corner coordinates
  2. Unblit the square
  3. Update the square angle and radius
  4. Use the square corner coordinates for spawning pellets or missiles
  5. Recalculate square corner coordinates
  6. Render the square

Notice something? Bullets are spawned before the corner coordinates are updated. That's why their initial positions seem to be a bit off – they are spawned exactly in the corners of the square, it's just that it's the square from 8 frames ago. :tannedcirno:

Mima's first pattern on Normal difficulty.

Once ZUN reached the final laser pattern though, he must have noticed that there's something wrong there… or maybe he just wanted to fire those lasers independently from the square unblit/update/render timer for a change. Spending an additional 16 bytes of the data segment for conveniently remembering the square corner coordinates across frames was definitely a decent investment.

Mima's laser pattern on Lunatic difficulty, now with correct laser spawn positions. If this pattern reminds you of the game crashing immediately when defeating Mima, 📝 check out the Elis blog post for the details behind this bug, and grab the bugfix patch from there.

When Mima isn't shooting bullets from the corners of a square or hopping across the playfield, she's raising flame pillars from the bottom of the playfield within very specifically calculated random ranges… which are then rendered at byte-aligned VRAM positions, while collision detection still uses their actual pixel position. Since I don't want to sound like a broken record all too much, I'll just direct you to 📝 Kikuri, where we've seen the exact same issue with the teardrop ripple sprites. The conclusions are identical as well.

Mima's flame pillar pattern. This video was recorded on a particularly unlucky seed that resulted in great disparities between a pillar's internal X coordinate and its byte-aligned on-screen appearance, leading to lots of right-shifted hitboxes.
Also note how the change from the meteor animation to the three-arm 🚫 casting sprite doesn't unblit the meteor, and leaves that job to any sprite that happens to fly over those pixels.

However, I'd say that the saddest part about this pattern is how choppy it is, with the circle/pillar entities updating and rendering at a meager 7 FPS. Why go that low on purpose when you can just make the game render ✨ smoothly ✨ instead?

So smooth it's almost uncanny.

The reason quickly becomes obvious: With TH01's lack of optimization, going for the full 56.4 FPS would have significantly slowed down the game on its intended 33 MHz CPUs, requiring more than cheap surface-level ASM optimization for a stable frame rate. That might very well have been ZUN's reason for only ever rendering one circle per frame to VRAM, and designing the pattern with these time offsets in mind. It's always been typical for PC-98 developers to target the lowest-spec models that could possibly still run a game, and implementing dynamic frame rates into such an engine-less game is nothing I would wish on anybody. And it's not like TH01 is particularly unique in its choppiness anyway; low frame rates are actually a rather typical part of the PC-98 game aesthetic.


The final piece of weirdness in this fight can be found in phase 1's hop pattern, and specifically its palette manipulation. Just from looking at the pattern code itself, each of the 4 hops is supposed to darken the hardware palette by subtracting #444 from every color. At the last hop, every color should have therefore been reduced to a pitch-black #000, leaving the player completely blind to the movement of the chasing pellets for 30 frames and making the pattern quite ghostly indeed. However, that's not what we see in the actual game:

Nothing in the pattern's code would cause the hardware palette to get brighter before the end of the pattern, and yet…
The expected version doesn't look all too unfair, even on Lunatic… well, at least at the default rank pellet speed shown in this video. At maximum pellet speed, it is in fact rather brutal.

Looking at the frame counter, it appears that something outside the pattern resets the palette every 40 frames. The only known constant with a value of 40 would be the invincibility frames after hitting a boss with the Orb, but we're not hitting Mima here… :thonk:
But as it turns out, that's exactly where the palette reset comes from: The hop animation darkens the hardware palette directly, while the 📝 infamous 12-parameter boss collision handler function unconditionally resets the hardware palette to the "default boss palette" every 40 frames, regardless of whether the boss was hit or not. I'd classify this as a bug: That function has no business doing periodic hardware palette resets outside the invincibility flash effect, and it completely defies common sense that it does.

That explains one unexpected palette change, but could this function possibly also explain the other infamous one, namely, the temporary green discoloration in the Konngara fight? That glitch comes down to how the game actually uses two global "default" palettes: a default boss palette for undoing the invincibility flash effect, and a default stage palette for returning the colors back to normal at the end of the bomb animation or when leaving the Pause menu. And sure enough, the stage palette is the one with the green color, while the boss palette contains the intended colors used throughout the fight. Sending the latter palette to the graphics chip every 40 frames is what corrects the discoloration, which would otherwise be permanent.

The green color comes from BOSS7_D1.GRP, the scrolling background of the entrance animation. That's what turns this into a clear bug: The stage palette is only set a single time in the entire fight, at the beginning of the entrance animation, to the palette of this image. Apart from consistency reasons, it doesn't even make sense to set the stage palette there, as you can't enter the Pause menu or bomb during a blocking animation function.
And just 3 lines of code later, ZUN loads BOSS8_A1.GRP, the main background image of the fight. Moving the stage palette assignment there would have easily prevented the discoloration.

But yeah, as you can tell, palette manipulation is complete jank in this game. Why differentiate between a stage and a boss palette to begin with? The blocking Pause menu function could have easily copied the original palette to a local variable before darkening it, and then restored it after closing the menu. It's not so easy for bombs as the intended palette could change between the start and end of the animation, but the code could have still been simplified a lot if there was just one global "default palette" variable instead of two. Heck, even the other bosses who manipulate their palettes correctly only do so because they manually synchronize the two after every change. The proper defense against bugs that result from wild mutation of global state is to get rid of global state, and not to put up safety nets hidden in the middle of existing effect code.

The easiest way of reproducing the green discoloration bug in the TH01 Konngara fight, timed to show the maximum amount of time the discoloration can possibly last.

In any case, that's Mima done! 7th PC-98 Touhou boss fully decompiled, 24 bosses remaining, and 59 functions left in all of TH01.


In other thrilling news, my call for secondary funding priorities in new TH01 contributions has given us three different priorities so far. This raises an interesting question though: Which of these contributions should I now put towards TH01 immediately, and which ones should I leave in the backlog for the time being? Since I've never liked deciding on priorities, let's turn this into a popularity contest instead: The contributions with the least popular secondary priorities will go towards TH01 first, giving the most popular priorities a higher chance to still be left over after TH01 is done. As of this delivery, we'd have the following popularity order:

  1. TH05 (1.67 pushes), from T0182
  2. Seihou (1 push), from T0184
  3. TH03 (0.67 pushes), from T0146

Which means that T0146 will be consumed for TH01 next, followed by T0184 and then T0182. I only assign transactions immediately before a delivery though, so you all still have the chance to change up these priorities before the next one.

Next up: The final boss of TH01 decompilation, YuugenMagan… if the current or newly incoming TH01 funds happen to be enough to cover the entire fight. If they don't turn out to be, I will have to pass the time with some Seihou work instead, missing the TH01 anniversary deadline as a result. Edit (2022-07-18): Thanks to Yanga for securing the funding for YuugenMagan after all! That fight will feature slightly more than half of all remaining code in TH01's REIIDEN.EXE and the single biggest function in all of PC-98 Touhou, let's go!

📝 Posted:
🚚 Summary of:
P0165, P0166, P0167
Commits:
7a0e5d8...f2bca01, f2bca01...e697907, e697907...c2de6ab
💰 Funded by:
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OK, TH01 missile bullets. Can we maybe have a well-behaved entity type, without any weirdness? Just once?

Ehh, kinda. Apart from another 150 bytes wasted on unused structure members, this code is indeed more on the low end in terms of overall jank. It does become very obvious why dodging these missiles in the YuugenMagan, Mima, and Elis fights feels so awful though: An unfair 46×46 pixel hitbox around Reimu's center pixel, combined with the comeback of 📝 interlaced rendering, this time in every stage. ZUN probably did this because missiles are the only 16×16 sprite in TH01 that is blitted to unaligned X positions, which effectively ends up touching a 32×16 area of VRAM per sprite.
But even if we assume VRAM writes to be the bottleneck here, it would have been totally possible to render every missile in every frame at roughly the same amount of CPU time that the original game uses for interlaced rendering:

That's an optimization that would have significantly benefitted the game, in contrast to all of the fake ones introduced in later games. Then again, this optimization is actually something that the later games do, and it might have in fact been necessary to achieve their higher bullet counts without significant slowdown.

Unfortunately, it was only worth decompiling half of the missile code right now, thanks to gratuitous FPU usage in the other half, where 📝 double variables are compared to float literals. That one will have to wait 📝 until after SinGyoku.


After some effectively unused Mima sprite effect code that is so broken that it's impossible to make sense out of it, we get to the final feature I wanted to cover for all bosses in parallel before returning to Sariel: The separate sprite background storage for moving or animated boss sprites in the Mima, Elis, and Sariel fights. But, uh… why is this necessary to begin with? Doesn't TH01 already reserve the other VRAM page for backgrounds?
Well, these sprites are quite big, and ZUN didn't want to blit them from main memory on every frame. After all, TH01 and TH02 had a minimum required clock speed of 33 MHz, half of the speed required for the later three games. So, he simply blitted these boss sprites to both VRAM pages, leading the usual unblitting calls to only remove the other sprites on top of the boss. However, these bosses themselves want to move across the screen… and this makes it necessary to save the stage background behind them in some other way.

Enter .PTN, and its functions to capture a 16×16 or 32×32 square from VRAM into a sprite slot. No problem with that approach in theory, as the size of all these bigger sprites is a multiple of 32×32; splitting a larger sprite into these smaller 32×32 chunks makes the code look just a little bit clumsy (and, of course, slower).
But somewhere during the development of Mima's fight, ZUN apparently forgot that those sprite backgrounds existed. And once Mima's 🚫 casting sprite is blitted on top of her regular sprite, using just regular sprite transparency, she ends up with her infamous third arm:

TH01 Mima's third arm

Ironically, there's an unused code path in Mima's unblit function where ZUN assumes a height of 48 pixels for Mima's animation sprites rather than the actual 64. This leads to even clumsier .PTN function calls for the bottom 128×16 pixels… Failing to unblit the bottom 16 pixels would have also yielded that third arm, although it wouldn't have looked as natural. Still wouldn't say that it was intentional; maybe this casting sprite was just added pretty late in the game's development?


So, mission accomplished, Sariel unblocked… at 2¼ pushes. :thonk: That's quite some time left for some smaller stage initialization code, which bundles a bunch of random function calls in places where they logically really don't belong. The stage opening animation then adds a bunch of VRAM inter-page copies that are not only redundant but can't even be understood without knowing the hidden internal state of the last VRAM page accessed by previous ZUN code…
In better news though: Turbo C++ 4.0 really doesn't seem to have any complexity limit on inlining arithmetic expressions, as long as they only operate on compile-time constants. That's how we get macro-free, compile-time Shift-JIS to JIS X 0208 conversion of the individual code points in the 東方★靈異伝 string, in a compiler from 1994. As long as you don't store any intermediate results in variables, that is… :tannedcirno:

But wait, there's more! With still ¼ of a push left, I also went for the boss defeat animation, which includes the route selection after the SinGyoku fight.
As in all other instances, the 2× scaled font is accomplished by first rendering the text at regular 1× resolution to the other, invisible VRAM page, and then scaled from there to the visible one. However, the route selection is unique in that its scaled text is both drawn transparently on top of the stage background (not onto a black one), and can also change colors depending on the selection. It would have been no problem to unblit and reblit the text by rendering the 1× version to a position on the invisible VRAM page that isn't covered by the 2× version on the visible one, but ZUN (needlessly) clears the invisible page before rendering any text. :zunpet: Instead, he assigned a separate VRAM color for both the 魔界 and 地獄 options, and only changed the palette value for these colors to white or gray, depending on the correct selection. This is another one of the 📝 rare cases where TH01 demonstrates good use of PC-98 hardware, as the 魔界へ and 地獄へ strings don't need to be reblitted during the selection process, only the Orb "cursor" does.

Then, why does this still not count as good-code? When changing palette colors, you kinda need to be aware of everything else that can possibly be on screen, which colors are used there, and which aren't and can therefore be used for such an effect without affecting other sprites. In this case, well… hover over the image below, and notice how Reimu's hair and the bomb sprites in the HUD light up when Makai is selected:

Demonstration of palette changes in TH01's route selection

This push did end on a high note though, with the generic, non-SinGyoku version of the defeat animation being an easily parametrizable copy. And that's how you decompile another 2.58% of TH01 in just slightly over three pushes.


Now, we're not only ready to decompile Sariel, but also Kikuri, Elis, and SinGyoku without needing any more detours into non-boss code. Thanks to the current TH01 funding subscriptions, I can plan to cover most, if not all, of Sariel in a single push series, but the currently 3 pending pushes probably won't suffice for Sariel's 8.10% of all remaining code in TH01. We've got quite a lot of not specifically TH01-related funds in the backlog to pass the time though.

Due to recent developments, it actually makes quite a lot of sense to take a break from TH01: spaztron64 has managed what every Touhou download site so far has failed to do: Bundling all 5 game onto a single .HDI together with pre-configured PC-98 emulators and a nice boot menu, and hosting the resulting package on a proper website. While this first release is already quite good (and much better than my attempt from 2014), there is still a bit of room for improvement to be gained from specific ReC98 research. Next up, therefore:

📝 Posted:
🚚 Summary of:
P0080
Commits:
cd48aa3...0252da2
💰 Funded by:
Splashman, Ember2528
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Last part of TH01's main graphics function segment, and we've got even more code that alternates between being boring and being slightly weird. But at least, "boring" also meant "consistent" for once. And so progress continued to be as fast as expected from the last TH01 pushes, yielding 3.3% in TH01 RE%, and 1% in overall RE%, within a single day. There even was enough time to decompile another full code segment, which bundles all the hardware initialization and cleanup calls into single functions to be run when starting and exiting the game. Which might be interesting for at least one person, I guess :tannedcirno:

But seriously, trying to access page 2 on a system with only page 0 and 1? Had to get out my real PC-98 to double-check that I wasn't missing anything here, since every emulator only looks at the bottom bit of the page number. But real hardware seems to do the same, and there really is nothing special to it semantically, being equivalent to page 0. 🤷

Next up in TH01, we'll have some file format code!

📝 Posted:
🚚 Summary of:
P0066
Commits:
042b780...e55a48b
💰 Funded by:
Yanga, Splashman
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So, the thing that made me so excited about TH01 were all those bulky C reimplementations of master.lib functions. Identical copies in all three executables, trivial to figure out and decompile, removing tons of instructions, and providing a foundation for large parts of the game later. The first set of functions near the end of that shared code segment deals with color palette handling, and master.lib's resident palette structure in particular. (No relation to the game's resident structure.) Which directly starts us out with pretty much all the decompilation difficulties imaginable:

And as it turns out, the game doesn't even use the resident palette feature. Which adds yet another set of functions to the, uh, learning experience that ZUN must have chosen this game to be. I wouldn't be surprised if we manage to uncover actual scrapped beta game content later on, among all the unused code that's bound to still be in there.

At least decompilation should get easier for the next few TH01 pushes now… right?