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!

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.

Hello everyone! My name is Andy and I’m a 2nd-year Computer Science student. I am incredibly excited to announce that I will be participating in Google Summer of Code 2026 with ScummVM!

I am deeply drawn to ScummVM because of its core mission of digital preservation, coupled with my deep passion for retro gaming. For this summer, my project is titled “Finishing implementation of incomplete engines”. The ultimate goal is to push three nearly-finished ScummVM engines over the finish line, ensuring they are stable and ready for official ScummVM releases.

Currently, these engines face various challenges, ranging from incomplete low-level graphics and legacy code structures to unresolved gameplay bugs.

I am looking forward to diving deep into the codebase and sharing my progress, technical challenges, and bug-hunting stories right here.

Stay tuned for more updates, and let the coding begin!

A couple of weeks ago, we silently crossed an important milestone for the ScummVM project; a milestone we are very proud of.

According to repository analysis performed by Open Hub, ScummVM’s code base now contains more than 5 Million Lines of Code, crafted by more than 900 contributors over almost 25 years.

Dear contributors, on behalf of the entire ScummVM community: Thousands of people are using your code every day, reliving their childhood memories or exploring stories they have yet to discover.

Your passion and endurance are what makes this possible. You are not only writing history, you are preserving it.

Thank you!

This year again, we had the privilege to receive many impressive proposals, and Google gave us the opportunity to mentor 4 of them for the GSoC this summer.

• Ion Andrei Cristian and Mohit Bankar will both be working on helping to finish incomplete engines from our backlog, leading to yet more games being supported and helping with our preservation efforts.

• Priyanshu Kumar will port the iBASS engine to ScummVM. This engine was written by Revolution Software in order to release Beneath a Steel Sky with enhanced controls and features on iOS, and the upgrades to the engine will be incorporated into ScummVM to benefit all platforms.

• Ramyak Sharma will be dedicating his summer to focus on the DIRECTOR engine, bringing more features and compatibility to the Macromedia Director preservation effort, and enhancing its Visual Debugger.

Please give them all a warm welcome and feel free to visit our Discord server to discuss their projects.

The community bonding period starts today, and the coding period will follow, starting on the 25th of May. You can expect regular updates on their respective blogs on Planet.

With the four GSoC students on board, the team is already in a Summer of Coding state of mind — we hope you’re joining us in the countdown!

We would also like to take the opportunity to thank everybody that applied to GSoc with us, and hope you are interested in helping us continue to build and grow the project going forwards as well.