Hi, this is week 3 of my GSoC journey. After spending the last two weeks chasing crashes across the DM engine, this week turned into something more like detective work — digging into array indices, stale pointers, and byte alignment bugs that were quietly corrupting things under the hood.
This week, I faced freezes along with crashes. Some of these bugs only revealed themselves when stress-testing specific actions, like throwing explosives at a creature group, which would lock up the game entirely instead of just throwing an error.

Stride and Seek

Flying items rendering with garbled pixels when shrunk on screen. The cause was in blitToBitmapShrinkWithPalChange, which computed the destination row stride from destPixelWidth, the raw pixel width. But allocated bitmap rows are actually 8-byte aligned via getNormalizedByteWidth, so the real stride is wider than that. Using the raw width meant every row started at the wrong offset, bleeding into the next and corrupting pixel data.

Fix: compute destStride = getNormalizedByteWidth(destPixelWidth / 2) * 2 and use it instead of destPixelWidth when indexing destLine = &destBitmap[destY * destStride]

Before:

After:

The Defense Drift

Next was a crash in processEventEnableChampionAction, but the more dangerous part of this bug wasn’t the crash. _actionDefense is a lookup table indexed by action type, via _actionIndex, but the code was indexing it with curChampion->_actionDefense instead, the champion’s current defense value. That’s an arbitrary runtime number, not a valid index, so when it grew large enough to exceed the table size, the read went out of bounds and crashed outright. That part was at least loud and easy to notice.

The real problem showed up when the stat stayed within bounds. The lookup would quietly succeed, but against the wrong table entry, subtracting an incorrect defense bonus every time a combat action ended. There was no crash, no error, nothing to flag it. Just a small wrong number applied again and again, every fight, every action. Over enough time, that drift compounded into a champion whose defense stat had wandered far from what it should be, sometimes ending up nearly immortal, sometimes alarmingly fragile, with nothing in the logs to explain why.

Fix: a one-character typo fix, replacing _actionDefense[curChampion->_actionDefense] with _actionDefense[curChampion->_actionIndex].

The Gimme Slot Bug

Next one came from the gimme debug command. Cmd_gimme loops over every slot for a given thing type, but unused slots have their first word set to thingNone and the loop wasn’t checking for that before passing them to getIconIndex, which calls into getWeaponInfo or getObjectType. Those ended up reading garbage from empty slots, sometimes crashing.

Fix: read the raw first word of each slot, and skip it with continue if it equals thingNone.

The Duplicate Item Bug

Another gimme bug. When it allocated a new item slot by copying thing data and bumping _thingCounts, it forgot to update dummyThing’s index to point at the new slot, still handing over the original thingIndex instead of thingCount. Two references ended up pointing at the same thing slot, causing duplicate item corruption and crashes whenever one reference was modified or deleted.

Fix: one line, dummyThing.setIndex(thingCount), after the allocation.

The Object Aspect Crash

Next one was inside drawObjectsCreaturesProjectilesExplosions, the function responsible for rendering objects, creatures, and projectiles in the dungeon view. It chained getObjectInfoIndex straight into _objectInfos[...]._objectAspectIndex and then into _objectAspects209[...], all in one expression, with no validation along the way. But getObjectInfoIndex can return an out-of-range value for invalid or corrupt things, and _objectAspectIndex itself can exceed k85_ObjAspectCount, causing crashes.

Fix: guard both indices before use, skipping the object with continue if either is out of range.

An Enum That Wasn’t One

Next one was about ActiveGroup::_directions, typed as Direction, an enum. But the field doesn’t actually store a single direction, it stores packed 2-bit direction values for up to 4 creatures combined together, built via getGroupValueUpdatedWithCreatureValue. That’s a bit-packed integer, not a valid enum value, and casting a packed integer to an enum type is undefined behavior in C++.

Fix: change the field type from Direction to uint16, and remove the (Direction) casts at every assignment site, letting the packed value be stored and manipulated as a plain integer like it should’ve been.

The Freeze That Wouldn’t Crash

This one ate up most of my week, and it didn’t go down easy. The game would freeze, not crash, whenever explosives were thrown at certain creature groups. No ASan output to point at anything, since nothing was actually invalid memory. GDB’s backtrace wasn’t any more helpful either, it didn’t even surface the method actually responsible.
So it came down to reasoning it out manually. The freeze only ever happened when throwing explosives at a group with loot to drop, which meant something to do with damaging groups and handing out their possessions. That pointed toward GroupMan, so I started going through its methods one by one, comparing them against the original reversed code to spot where our implementation had drifted.
That led to dropCreatureFixedPossessions, which iterates a fixedPossessions pointer array to hand out loot. Two early-exit continue paths, one for skipping a random drop, one for when no unused thing slot was available, both forgot to advance the pointer before looping back. Without that advance, the loop kept re-reading the exact same array entry forever, spinning in place instead of crashing.

Fix: advance currFixedPossession = *fixedPossessions++ in both continue branches before skipping, so the loop always makes forward progress.

The Projectile Crash

Next one started simple, throw a sword or any projectile, and the game crashed. No obvious cause at first. Going through the methods from the GDB backtrace one by one eventually led to initializeGraphicData, where the loop over 6 projectile scale levels was writing all 6 byte-counts to the same fixed offsets, derivedBitmapIndex, derivedBitmapIndex+6, derivedBitmapIndex+12, every iteration, missing + projectileScaleIndex. Only the last iteration’s values stuck, leaving every earlier entry sized incorrectly.

Fix: add + projectileScaleIndex to all three cache offsets, so each scale level writes to its own correct slot.

New Addition

Added a nuke debugger command. Killing monsters manually just to clear a path for testing wasted time, so nuke finds the group directly in front of the party via mapCoordsAfterRelMovement and groupGetThing, then removes it instantly with groupDelete. No gameplay impact.

Tuesday

No, this is not my last post. I am just rushing because today is the last day to post for the previous week and I am not sure how long will I have a stable internet connection.

I will not be online (probably) for the next 2 days, because I am in a very remote location (mountains) so internet access might be a problem. So, this post will get straight to the point.

I made a very big blunder this week, and a lot of code was rushed. But the week ending was good. Got to learn a lot. And very interesting story to tell.

I will make a detailed post for this week after I get a stable internet connection.

See you soon.

Good news for adventure game fans: Alfred Pelrock is now supported in ScummVM!

Originally released in 1996, Alfred Pelrock is a humorous point-and-click adventure featuring cartoon-style graphics, quirky puzzles, and an irreverent sense of humor. After dreaming of an Egyptian princess imprisoned in the distant past, Alfred embarks on a time-travelling adventure to Ancient Egypt to rescue her, encountering bizarre situations and eccentric characters along the way.

While the game is packed with comedy and satire, players should be aware that it also includes mildly suggestive themes and occasional adult-oriented humor typical of its era. It is also worth noting that the game was released exclusively in Spanish and has no official translations.

As always, if you own an original copy of the game and speak Spanish, grab the latest daily development build, add the game’s required data files and enjoy. We also welcome bug reports. and feedback from players to help improve compatibility and preserve this quirky piece of adventure gaming history.

Come one, come all! Hanna-Barbera's Cartoon Carnival is now ready for public testing in ScummVM.

Originally developed and released for Philips CD-i in 1993 by Funhouse Design and then ported to Windows and Macintosh in 1995, Cartoon Carnival brings together a cast of familiar Hanna-Barbera characters in a collection of short arcade-style minigames. Scooby-Doo, Fred Flintstone, George Jetson, Top Cat and friends each get their turn in different challenges, ranging from mazes and pattern matching games to balloon catching and trivia quizzes.

Rather than a traditional adventure game, this is a colorful piece of mid-90’s multimedia entertainment, full of animation, voices and music. It is also one of those licensed titles that can easily slip through the cracks, so we are especially happy to help keep it playable on modern systems.

At this time, only the Windows and Macintosh versions are supported. The original CD-i version is not supported.

To test the game, you will need the latest daily development build and either an original copy of the Windows or Macintosh release, or its demo (which we were only able to source in Italian). Please check the wiki page for the required data files.

As usual, please report any issues to our bug tracker, including the version you tested, your platform, and any useful screenshots or save files.

Step right up, pick a game, and help us make sure this carnival runs properly!

Hey there, welcome back to the blog. The inventory is fully implemented and hence, we’re now able to drag the rung and open the fire exit, hurray.

Other than this, there’s no way to get out of this scene(except if you use the debugger console 😉 ).

Also if you notice, I have revived the original cursor of Beneath a Steel Sky here too.

Ever since I started the development on iBASS, I had turned the engine to 32 bits for both BASS and iBASS. Since the original beneath a steel sky featured an 8 bit colour depth, sev suggested to revert it back to make BASS run in 8 bpp mode which I successfully did. Now, BASS is running in 8 bpp and iBASS in 32 bpp.

There was one more crash I encountered at this phase of the game-See the cursor at the right edge of the window? That is the exit. But when I clicked on it, it hit this assert. To fix this, I guarded this call to never draw out of the boundary of _screen32.

I also performed some refining in the LINC terminal.

Major tasks that are still left to be done include implementing the text chooser. Here’s a snippet from the original Beneath a Steel Sky regarding the text chooser-

Currently, we cannot do this in iBASS. Some other tasks yet to be done include fixing the transparency issue in the inventory icon, render the cog icon for the control panel on the top left, etc. All this while we have no audio yet along with the intro and the outro.

Also, I had an important announcement to make. I’ll be away for the next few weeks due to some personal reasons. As agreed with my mentor, I will be unavailable from 13 June to 3 July. I’ll be catching once I return. Thanks, and talk to you all in a few weeks.

Thanks for reading 🙂

Tired of running a mundane bookstore and ready to dive into the gritty, neon-drenched pages of a comic book? Get your trench coat ready, because Flashpoint Productions’ 1994 dark adventure, Noctropolis is now ready for public testing!

In this interactive comic brought to life you play as Peter Grey, a lonely bookstore owner pulled into a dystopian superhero world where the sun never shines. With the legendary hero Darksheer retired, it is up to you to take on his role, solve the puzzles, and save the city from a cast of villains doing the bidding of a mysterious force.

To help us test, you will need your copy of the game data files and a recent daily development build of ScummVM.

Support has been added for both the original DOS release (including demos) and the Nightdive Studios digital re-release, which is available from GOG or Steam.

As you patrol the dangerous streets, please report any issues you find on our bug tracker.

The city needs a hero – will you answer the call? Happy crime-fighting!

Tuesday

This week I finally got SSH access to john.scummvm.net, the machine that runs the Director buildbot. I’d seen its output for weeks (those BUILDBOT: warning lines I kept triggering) but had no idea how it actually worked. Getting access and reading through the code was very satisfying because I finally met the machine that had been yelling at me for the past couple months.

The Buildbot Architecture

How a build starts

The first thing that clicked was how the build is scoped. The buildbot watches the ScummVM GitHub repo via a webhook, but it doesn’t rebuild on every commit. master.py checks whether any changed files are in engines/director or graphics/macgui. If yes, it kicks off a build. If not, it ignores the commit entirely. Simple filter, makes sense.

Triggering the tests
Once the ScummVM binary is compiled and uploaded to the master, build_factory.py calls steps.Trigger(schedulerNames=["Director Tests"]). This tells the buildbot master to fire the Director Tests scheduler, which is a Triggerable scheduler defined in master.py. That scheduler then queues up all the test builders at once; one for each entry in targets.json, so they all start running in parallel on the available workers. The build step waits (waitForFinish=True) for all of them to complete before marking the overall build as done.

Running the tests and error checking

The test runners themselves are defined in targets.py. Each one downloads the binary, rsyncs game files from /storage, and runs ScummVM against a list of movies. Screenshots are saved to /home/director-buildbot/screenshots/ on every run. Error checking is done in steps.py, which watches the output for lines matching “BUILDBOT: incorrect check for line:” – that’s the log-replay mechanism from the director-tests repo, where expected output is recorded directly into the test movie file, and on each buildbot run the live output is compared against it line by line.

Reading through this, the separation of concerns became clear: master.py handles scheduling, build_factory.py handles the build pipeline, targets.py defines what gets tested, and steps.py defines how a single test run behaves. Once I had that mental map, the rest followed quickly.

The ImageDiff tool

One thing the buildbot produces but doesn’t analyze automatically is screenshots. Sev pointed me to ImageDiff, a tool built to catch visual regressions, cases where the engine produces slightly different output without triggering any log-based errors.

It’s a Flask web app that reads from the screenshots directory and shows a frame-by-frame diff between any two builds for a given target and movie. The core logic uses PIL’s ImageChops.difference to compute a pixel-level diff. If there’s any difference, the diff image is rendered alongside the source and comparison frames so you can see exactly what changed. Results are cached to disk so repeated comparisons don’t recompute.

I temporarily deployed it on john.scummvm.net on port 5002. The two targets currently generating screenshots are director (from the director-tests-* folders) and theapartment-mac, both of which showed up with their full build history. It’s a simple tool but it fills a gap that log-replay can’t, visual changes.

Bugs

This week I did not work on any game bug fixes. I only made changes to the visual debugger and its bugs.

The gus games bugs are mostly fixed already and the remaining one bug has not been very consistently reproducible. So, this week I’ll try to find out how to replicate it.

Here is a brief on the DT changes:

Windows Panel

• Added a new Windows panel showing all currently loaded windows and all .DIR movie files in the game directory
• Clicking a movie navigates to it via func_goto

Search

• Added variable search mode to the search bar
• Improved search with new modes (Handlers, Variables, Body) and a cleaner 3-column results table with keyboard focus on open

PRs:

https://github.com/scummvm/scummvm/pull/7564

https://github.com/scummvm/scummvm/pull/7553

last week’s changes: https://github.com/scummvm/scummvm/pull/7563

What I am currently working on

• Currently I am working on some more DT changes.
• Working on the checksum function.
  • Some Director movies have a VWCF resource with a checksum that our implementation fails to verify correctly, causing a crash when navigating to those movies in the debugger.
  • Sev suggested – before diving deep – running the mismatched movies through ProjectorRays first to see if it also miscalculates, that way we know whether the bug is in our implementation or the movies themselves. The code once completely written, will be identical to the Projector Rays checksum code.

P.S. The buildbot integration will be re-worked soon by one of our devs rvanlaar, so the current architecture might not be relevant in the future

Hi everyone! Following up on Week 1, most of this week was spent resolving PVS-Studio warnings in the DM engine. Many of these warnings were responsible for crashes or pointed to code paths that could lead to unstable behavior.

By the end of the week, I was able to reduce the warning count from 103 to 13, with the remaining ones being false positives. With the static analysis issues largely addressed, I can now focus fully on gameplay-related bugs, fixing the remaining crashes, and implementing the remaining methods.

One such crash was in DisplayMan::drawDoorButton():
doorButtonOrdinal = kDMDerivedBitmapFirstDoorButton + (doorButtonOrdinal * 2) + ((doorButton != kDMDoorButtonD3R) ? 0 : doorButton - 1)
The existing logic worked for most door button values but failed when doorButton = 0, leading to an incorrect offset and eventually a crash. I corrected the expression to ((!doorButton) ? 0 : doorButton - 1), fixing the crash and restoring the intended behavior.

Another crash occurred while picking up a coin placed on a pressure plate. The game would immediately crash when processing the resulting door animation. After tracing the issue, I found that processEventDoorAnimation() unconditionally queried creature attributes before checking whether a creature group actually existed on that square. Reordering the checks fixed the heap buffer overflow and matched the behavior of the reversed source code.

I also fixed several other crashes and memory safety issues in the DM engine, including an incorrect bitmask in ProjExpl::projectileDelete() and an out-of-bounds champion access in drawPanelFoodWaterPoisoned().

Towards the end of the week, I shifted my focus back to the GUI, where I fixed a bug in the launcher that caused the collapsed state of groups to be lost when switching between views.
The fix prevents LauncherSimple::updateListing() from saving the collapsed group state during the initial build, avoiding an unnecessary overwrite of the already saved configuration and correctly preserving the collapsed groups when switching views.

I also added support for stopping fluid scrolling animations with a click, allowing the first click to stop the ongoing animation and the next click to perform the intended selection in lists, grids, and scroll containers.

Additionally, I added configuration support for fluid scrolling, allowing it to be toggled from the options menu, as the feature did not turn out to be a pleasant experience for everyone.

That wraps up this week’s progress. Next week, I’ll continue working on the remaining gameplay issues and implementing the remaining methods. Thanks for reading, and see you in the next update!

Hello again, we are into the 3rd week and I spent the last week working to finish the inventory and we are almost there. So, the inventory has four states depending upon how long the inventory item has been clicked for and where on the screen the click is recorded. In simpler terms-

• If the user click outside the inventory, the inventory is to be closed and objects wiped out until we click the inventory again.
• If we click on the item, check for how long we clicked and if it crosses a threshold, set it for drag(which we’ll later use to check for dragging). But there was a challenge while I implemented this. _mouseB is a variable that stores the mouse state and we use it to check if there was a mouse input or not. But the problem was, _mouseB is being reset in the mouseEngine() function that caused the timer to increment on each click rather than incrementing on hold. So, to fix this, I decided to query the mouse state from the EventManager directly.
• When we make a quick click on the item, it runs an examine script and throw a text description of that particular item on the middle of the screen.
• The final part is dragging the object to use it. For eg, to open the fire exit, we drag the bar to the door. I am currently working on it’s implementation.

And, if you remember from the first blog, we had converted the engine to 32-bit and we talked about the main game screen that was an 8-bit buffer and we merged them together before the screen output. The control panel has a separate screen and naturally, it was also an 8-bit screen. When the menu was built in an 8 bit buffer but passed directly to a 32 bit renderer, we got this-So naturally, just like with the main game screen, we let the menu to build its 8 bit layout but merge it before rendering.

Currently, I am working on the dragging part of the inventory items which I will brief about in the next blog.

Thanks for reading 🙂

Welcome back! This second week was all about bringing the EGA port of Kult from “it boots but it’s unplayable” to a genuinely playable experience. I tackled memory corruption, weird rendering delays, and a few bizarre hauntings.

Let me walk you through the three most interesting mysteries I cracked this week.

Story 1: Groundhog Day in the Tunnels

Early in the game, you walk through a tunnel and have a chance to encounter an Aspirant. But during my testing, he wasn’t just there sometimes—he was hostile and attacked me every single time. It felt less like a random encounter and more like a scripted mugging.

I dug into the engine’s random number generator (RNG) and found the culprit. It turned out our randomize() function was a stub, leaving the seed permanently stuck at 0. Furthermore, the prepareAspirant logic was reusing a stale random value instead of pulling a fresh one.

To fix this, I seeded the RNG with the host’s millisecond timer (mimicking the original DOS game, which read the BIOS timer) and forced a fresh byte draw in the room prep logic:

rand_seed = (byte)(g_system->getMillis());
getRand();

With the dice finally rolling correctly, the encounters became truly unpredictable again!

Story 2: The Ghost That Followed Me Through Doors

Once I got past the Aspirant, another weird bug appeared. I walked through a door into a completely new zone (“De Profundis”), where no NPCs should exist. Suddenly, the Aspirant’s face popped up on screen, along with a speech bubble asking if I wanted to trade!

This turned out to be a classic state leak. When swapping rooms, the engine correctly cleared the upcoming command queues, but it forgot two things: the command chain currently executing, and the pointer to the current NPC. If you crossed a door at the exact millisecond the Aspirant’s trade script was running, that script would survive the transition. The engine would then happily render the previous room’s NPC in the new room.

The fix was a surgical guard inside the door transition path (SCR_42_LoadZone):

the_command = 0; 
script_vars[kScrPool8_CurrentPers] = pers_list;

This instantly aborts any in-flight command chain and drops the stale actor pointer before the room swap finishes. No more ghosts!

Story 3: The Door, The Scorpion, and the Greedy Opcode

In the Scorpion room, the intended solution is to use the “Pray” command on a statue to open a door. But doing so gave me corrupted, gibberish text on the screen, the speech bubble got stuck, and the door remained firmly locked.

I suspected it was a missing item at first, but the truth was a desync in the script decoder. The EGA and CGA versions of the game have slightly different opcode lengths. When you pray, the game wants to do two things: play a sound (0x68 PlaySfx) and then set a variable to open the door (setVar).

However, in our engine, the EGA opcode 0x68 was mistakenly programmed to read an extra “pad” byte. Because of this, the sound opcode literally “ate” the door-opening command! The engine lost its place in the script, spit out garbage memory as text, skipped the bubble cleanup, and never opened the door. Removing that single rogue script_ptr++ operand width fixed all symptoms instantly.

Honorable Mentions

While digging through the engine, I also patched up a few other nasty issues:

• Exploding Sprites: A massive “Lutin” character sprite was overflowing its allocated scratch memory (scratch_mem1) and corrupting the EGA sprites_list[], causing random crashes during blit/restore operations. I bumped up the memory limits to keep the big guys safely contained.

• Death Loops: Fixed an infinite loop tied to the “YOU FAILED THE ORDEALS” timer.

What’s Next

This week felt amazing because the EGA version is finally starting to behave like a real game. Next week, I’ll continue hunting down logic bugs and refining the remaining EGA-specific rendering quirks.

Thanks for reading — see you next week!

We are into the second week and the last week went primarily working on the LINC inventory and spawning regular inventory items. As opposed to BASS, the inventory shows up at the left bottom of the game window, like this-

Currently, as you can see, there’s a transparency issue in the icon that I am trying to solve at this moment. Coming back to the inventory, the first item inside the inventory is joey’s circuit board just as it is in BASS. Same goes for the bar which is used to open the ‘FIRE EXIT’.You can see the inventory items in the images above.

Since the regular inventory’s behaviour is not yet implemented, we can’t currently go past this scene to hack into the LINC terminal. This week, I will be working on it and in the next blog, I’ll be briefing about it in a lot more detail.

Also, you might have noticed a very minute detail in the last blog where I posted the screenshot of the icons spawning. In that image, the icons were inverted. It didn’t catch my eyes until i drew the inventory and it was also rendered in an inverted position. Same goes with joey’s circuit board. I worked on it for almost a day just to find that in the original sources of ibass, it was reading the bitmap in the reverse. I did some research and found out that most bitmap files store pixel data upside down i.e. bottom-to-top, starting with the left bottom corner of the image, as opposed to how graphics APIs expect texture memory to be, i.e. top-to-bottom, starting from the top-left corner. I fixed the behaviour and now the icons are rendered like this-

Thanks for reading 🙂

Hi everyone! Now that the GSoC coding period has begun, I moved from working primarily on the GUI to investigating crashes and gameplay bugs in the DM engine while becoming more familiar with its internals.

The first issue I looked at was a progression blocker near the start of the game. After assembling my party in the Hall of Champions, I found, as Strangerke had pointed out, that the gate to the dungeon remained shut despite stepping on the floor sensors. The issue turned out to be an incorrect early return in the sensor effect logic, preventing the pressure plate from triggering the door-opening event.

Another crash occurred when highlighting a selection in the game’s save dialog. The cause was a simple parameter ordering mistake in a box constructor used to draw the selection highlight.

Another task involved implementing EventManager::highlightScreenBox(), enabling visual highlighting for UI elements such as the movement controls.

Next was a save-loading bug, where the first in-game load attempt would start a new game instead of loading the selected save. Setting the correct game mode when a valid save slot was chosen resolved the issue.

Next was a stairs transition crash when moving from level 0 to level 1. The crash is currently fixed, but Sev explained that I will need to revisit this area and make the implementation aware of endianness and struct padding to achieve a fully portable solution.

Next was a crash that occurred whenever certain creatures, such as mummies, entered the player’s field of view.

Another bug involved a teleporter that was intended to appear as a normal wall. Incorrect bitfield masks caused it to render instead as a room filled with teleporter, hiding the key that was supposed to be visible on the ground.

Before:

After:

Next was a crash in the game’s debugger, where entering an invalid gimme command such as gimme gold key instead of the expected gimme GOLD KEY would result in a crash.

Another set of fixes involved correcting several incorrectly ordered CLIP calls across the codebase, which were responsible for a number of crashes.

I also resolved several warnings reported by PVS-Studio, addressing a number of potential issues in the codebase.

Now that I’m gaining momentum, I hope to tackle many more bugs in the coming weeks while continuing to resolve PVS-Studio warnings and improve the overall stability of the DM engine. That’s all for this week. See you in the next update!

GSoC Week 1: Mouse Bugs, Rigged Minigames, and a Frozen Snake

This first week was full of detective work. Let me walk you through the three main mysteries I tackled.

Story 1: The Mouse That Lied to You

The game’s interaction system works by letting you hover over objects to highlight them, then click to interact. Early on I noticed something frustrating: hovering over an action worked perfectly — the cursor snapped to it and highlighted it — but the moment I clicked, the game would sometimes grab a different nearby object, or worse, produce a “not a good idea” failure message as if I’d clicked on empty space.

The hover and click paths were reading coordinates from different places.During a hover, the game samples cursor_x and cursor_y continuously from the
mouse movement events, so the position is always current. But on a click, the code was still using whatever position happened to be in those variables from
the last movement event, which could be slightly stale if the mouse had moved even a pixel between events. The fix was straightforward: latch the coordinates directly at the moment the button-down event fires.

case Common::EVENT_LBUTTONDOWN:
cursor_x = event.mouse.x; // capture position at click time
cursor_y = event.mouse.y;
mouseButtons |= 1;
break;

While I was deep in the input code, I also spotted that the cursor gave no visual feedback at all when hovering over interactive spots. The original game changed the cursor color on hotspots, but it was rendering pure white
regardless. A one-line fix in the EGA cursor renderer now makes the cursor turn yellow when over a hotspot and white otherwise — a small touch, but it immediately makes the game feel more alive and responsive.

Story 2: The Cups Game Was Always Rigged (And That’s Correct)

This was my favorite discovery of the week.

The game has a classic shell game — a character shuffles three cups, and you have to guess which one hides the skull. While testing it, I kept losing .The shuffle was to fast to track the cup, so it was pure luck. It felt like a bug, but something about the pattern nagged at me.

I pulled out the script disassembler and dug into the original game bytecode at offset 0xa76, where the ball’s cup position is calculated. The logic reads:

rand_value & 7 + 7

That expression generates a number in the range 7–14. But valid cup positions in the game’s data are only 7–12 (three cup positions × two states). So whenever the random number generator yields a 6 or 7 in the lower bits, the ball gets placed at position 13 or 14 — positions that don’t correspond to any cup.

My first instinct was to clamp the value. But then I stopped and checked if this was an accident or a feature. It’s not an accident — 25% of the time the ball is literally placed off the table, making it harder to win .

I will confess, though, that I temporarily hardcoded myself a 100% win rate just to bypass him and test the rest of the game, but rest assured, the final release will keep the authentic 25% scam rate entirely intact.

Story 3: The Snake That Wouldn’t Move Its Mouth

The third bug was the most technically satisfying to crack, and my mentor Sev deserves credit for pointing me toward the solution.

In the room called “The Twins”, there’s a snake you can interact with. You click OPEN on it, the game logic updates correctly (afterwards you can click SHUT , proving the internal state changed), but the snake’s sprite on screen
stays frozen in the closed position. The animation just never fires.

My first suspicion was a backbuffer issue — the game uses a software backbuffer for rendering, and maybe the wrong flush function was being called after the state change. I poked at SCR_5F vs SCR_11 for a while without getting anywhere.

Sev told me to run the script dumper on the original bytecode and compare what the EGA build was actually calling. When I dumped the scripts, the answer jumped out immediately: the sequence that handles the snake interaction ends with opcode 0x6B —RedrawRoomStatics. This opcode tells the engine to redraw all the static elements in the room and flush the backbuffer to screen.

The problem? Our opcode dispatch table only went up to 0x6A. The bounds check at the time was a hardcoded >= 107 (which is 0x6B in decimal), so the engine
hit opcode 0x6B, saw it was out of range, and silently aborted the script mid-execution. The state update had already happened, but the screen redraw command and everything after it was never reached.

The fix turned out to be surprisingly simple! The EGA version of the game used a slightly different command number to redraw the screen compared to the older CGA version. Our engine simply didn’t recognize this new command, so it just ignored it.

All I had to do was add the missing EGA command and link it to the existing CGA logic—essentially telling the engine, ‘Hey, this new command does the exact same thing as the old one.’ Finally, I updated the engine’s internal safety limits so that if it ever encounters another unknown command, it won’t just silently skip it.

What’s Next

This week showed me how much of game archaeology this work involves. Sometimes you’re fixing your own code, sometimes you’re uncovering a 36-year-old intentional design decision, and sometimes you’re hunting a silent abort in a dispatch table.

Next week I’ll be looking at more EGA-specific rendering differences and continuing to close the gap between the CGA and EGA builds of the engine.

Thanks for reading — see you next week!

Sunday

Coming back to a large codebase after a break is disorienting.

I returned this week after a 3-week gap and barely recognized the code I’d been working on. So I planned the week around small, finishable tasks. Nothing ambitious. Just things I could complete and feel good about, to rebuild momentum.

Start small

Sev assigned me my Planka board (the task tracker we use) and pointed me toward a set of Gus games: Gus Goes to Kooky Carnival, Cybertown, and a few others. I went through the tickets, broke each issue into its own card, and we had a Zoom call where he helped me set up the environment properly.

This call is worth describing because it’s a good example of what mentorship looks like here. We talked about Dumper Companion (a tool for inspecting Director movie internals), useful ScummVM debug flags, debugging workflows. The non-technical conversation ended up being just as helpful for reorientation as the technical one. If you’re new and a maintainer makes space for this kind of call, take it.

cast viewer in the visual debugger

It wasn’t loading shared cast members. I fixed that and removed some duplicate code while I was there. Small, satisfying, done. That’s the point of starting small.

Bug 1: Crashing on empty cast slots

The hard part of a fix is often defining the boundary correctly, not writing the code

In original Director, if you set a property on a cast member slot that exists but is empty, it fails silently. ScummVM was throwing an error, which crashed games that relied on that behavior.

Imagine cast slots are numbered 1 through “b”, where “b” is the last populated member. Accessing slot “a” (within bounds but empty) should fail silently. Accessing slot “c” should throw an error. The bounds are defined by the last populated cast member, not the total allocated size.

The fix seemed obvious: skip the error if the cast member isn’t found. But that would also swallow errors for genuinely out-of-bounds IDs, real bugs you’d want to catch. The problem wasn’t the error. It was defining “in-bounds” correctly.

test movies

This is also where Sev introduced me to test movies, minimal Director movies that reproduce a single buggy behavior in isolation. Instead of loading an entire game to verify a fix, you create the smallest possible movie that triggers the issue. Much faster, much cleaner.

The solution: teach ScummVM to distinguish between an empty cast slot within a valid range and a genuinely invalid cast member ID (error).

Bug 2: Sprite dragging not working

The symptom and the cause can live in completely different systems

In one of the Gus games, clicking a puzzle piece should let you drag it around the screen. In ScummVM, clicking did nothing. The piece stayed frozen.

I assumed the drag logic was broken. It wasn’t. The drag code was fine. The real issue was buried in the event pipeline, and finding it meant tracing the entire event flow from click to handler.

ground truth testing

I needed to confirm how Director 4 actually behaves, so I ran the original Director inside Basilisk II (a classic Mac emulator) to observe the real immediate sprite property. You can’t rely on documentation alone (shocker for me), some features are marked obsolete but still functional, and behavior varies between versions.

Here’s what immediate does in Director 4 (5 & 6 too):

normally, mouseDown fires on press and mouseUp fires on release. When immediate is set on a sprite, both mouseDown  and  mouseUp  fire on the press.

The drag handler works by running a repeat while the stillDown loop inside on mouseUp. If mouseUp only fires after the physical release, stillDown is already false and the loop exits instantly. Nothing moves.

The fix was in queueEvent(): when a press arrives on an immediate sprite in D4, queue both mouseDown and  mouseUp  events immediately, then suppress the physical mouseUp later to prevent double-firing.

version boundaries

sev pointed out something: does immediate behave the same in D3? Does it stop working in D5? 

Turns out immediate works in D4, D5, D6. Not tested D3 yet. Will update this after.

the director-tests repo

Instead of loading full games to test a behavior, we use the director-tests repo, a collection of minimal test movies that verify specific Director engine behaviors. You create the smallest possible movie that reproduces just the thing you care about, and it lives in the repo as a permanent regression test.

What I’m aiming for next week

• Work through more Gus bugs. 

• Look at build-bot issues. 

• Go deep on one subsystem end-to-end.

• Improve tests and stress the visual debugger.

We are into the first week and I have a lot of work to brief about which also includes the work done before the official start of gsoc.

For ibass, I started off by adding it to the detection table. Unlike og bass, ibass doesn’t have a separate file for the dinner table entries. Hence, adding it to the skyVersions[] array seemed a bit incorrect. So, I created a separate PlainGameDescriptor for ibass.

After the detection, the next milestone was to make the game start. But the problem was, the UI icons used in ibass are 32-bit images but our sky engine was 8-bit. So, what I did to solve this mismatch was turning the engine into a 32-bit one, keeping the game screen separately at 8-bit and clapped them together before the output.

I have skipped the intro for now because it has a separate video for the intro(and for the outro too). I have saved it for later.

The next natural step was to overlay the icons. To load the bitmaps, I ported the loadAnim() function from the ibass sources and wrote an icon renderer that we then call from our screen compositor. And finally, we have the icons rendered on our screen-

Next step was to trigger the respective actions for those icons. Upon a click, it incorporates something called “_actionFlash”. When we click, the “_actionFlashTime” starts decrementing if _actionFlash is set. So, it gives a flickering effect to the icon until _actionFlashTime becomes zero. It happens like this. As you can see, when _actionFlashTime is even, the icon is cleared and vice versa. In the game, it looks like this-

Thanks for reading 🙂

Hi, I am Ramyak Sharma, a third year computer engineering student. I like C++ and systems, so this summer is a great opportunity to learn from my mentor Sev and some of the best engineers in reverse engineering, and hopefully be one step closer to becoming a good engineer myself. I will be working on the Director Engine.

Today is the 24th of May, 2026. My work officially starts tomorrow. Because of my finals, I haven’t been able to catch up with everything yet, so I’ll be reading through the code and skimming through some Director books. My first task will be completing film loops and movie cast members.

See you in the next blog.

Hello everyone! My name is Mohit, and I’m a 2nd-year Engineering student. I’m excited to participate in Google Summer of Code 2026 with ScummVM and very thankful for this opportunity.

I was drawn to ScummVM because of my interest in C++ and low-level programming. Working with a large legacy codebase has already been a great learning experience during my contributions so far.

My project this summer focuses on completing the implementation for four incomplete engines in ScummVM. The main challenges involve architectural issues, missing core features, and gameplay bugs.

Excited to learn more throughout the summer while doing my best to successfully deliver the project and share my progress along the way.

Stay tuned for upcoming blogs and progress updates throughout the summer!

Hello everyone, I am Priyanshu Kumar and I will be porting the iBASS engine to ScummVM this summer as part of the Google Summer of Code. In this post, I will be covering a little background of this task and what exactly needs to be done.

By “porting”, we usually get an idea that it must be about an engine that needs to be ported and integrated to ScummVM in order to get the games based on that particular engine running through ScummVM. iBASS is not any different but still a lot different.

Sky engine is one of the oldest engines to be supported by ScummVM and the most popular game it powers is Beneath a Steel Sky. This engine was created by Revolution Software in 1994 and ported to ScummVM in 2003. Later, Revolution Software created a remastered version of the game in 2009 with enhanced UI controls for iOS which they built on top of ScummVM’s sky engine.

So, the goal of this project is to port(you may call it “backport”) the changes done for the remastered version and integrate them with ScummVM’s Sky engine to make the remastered version(iBASS) playable on ScummVM. The efforts have already been started and in the next post, I will be briefing about the progress.

Thanks for reading.