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      Retro Development — sega games

      We Got Dungeons - Dev Log 3

      We Got Dungeons - Dev Log 3

       

      A look at structures and game objects for our tactical RPG on the Sega Genesis and Mega Drive.

      Read more

      We Got Dungeons - Dev Log 2

      We Got Dungeons - Dev Log 2

      Last time we announced our new upcoming game for the Sega Genesis, We Got Dungeons.

      This time we'll delve into the technical details of the game, so strap in for some tech talk!

      First off let's talk about the levels.

      We are planning on having several different tiers of levels, each of them comprised of several floors of increasing difficulty. The levels are broken down into separate discrete rooms that are filled with randomly generated encounters.

      In order to maximize the number of different rooms that we have to work with, and make each room as interesting and varied as possible, we have an elegant yet simple system in place.

      First, we create a room template that is a plain old matrix of numbers. Looks something like this:

      Now that we have these templates we can easily generate a floor map by stitching multiple rooms together.

      You can notice that in that example we have 6 as a decorative object that is 3 tiles wide. When the room is generated a random object will be picked and placed there.

      This approach gives us the ability to quickly create lots of room templates and have them appear random but at the same time have enough control to give each and every single room that handcrafted feel that many procedurally generated levels lack.

      But this is ROM memory, so how do we use this in the game. Well, we have a matrix of pointers to game objects (we will talk about those structures in a later post so stay tuned) that point to whatever is loaded in at that particular square. After that, we can finally draw those objects on the screen. Right?

      Unfortunately, there is one last catch. The internal data structures are normal matrices that represent 32x32 pixel squares on the screen. But We Got Dungeons uses an isometric perspective. This means that we have to transform the Cartesian coordinates of a square grid matrix into isometric coordinates.

      Due to the isometric perspective, the art is "squished" and the grid runs at an angle of 26.565°. That number is very specific for a reason, and this is where a little bit of maths comes in very handy.

      A slope of a line is defined as the ratio between the change of the y coordinate and the change of the x coordinate or:


      With a little bit of geometry we get the following:

      Looking at this picture it is clear that the slope is:

      Which in our case is tan(26.565). Google tells us that the tangent of 26.565 degrees is 0.49999888349. Which is close enough to 0.5 which in turn gives us a nice ratio of 2:1.

      Now we can use this simple ratio to convert the square coordinates into isometric coordinates and draw the art at the proper coordinates on the screen.

      Thus, we are able to generate good looking, unique dungeons for each and every playthrough of the game. Check out part 3 in our series to talk about the game objects and how they interact with each other!

      We Got Dungeons - A Tactical RPG for the Sega Genesis! Dev Log 1

      We Got Dungeons - A Tactical RPG for the Sega Genesis! Dev Log 1

      We got a danger. We got to battle. We got tactics. We got a choice. We got a story. We Got Dungeons.

      Imagine that Neil Gaiman wrote a novel about Buffy the Vampire Slayer investigating some weirdness in Earthbound. Now imagine that this novel was actually a tactical RPG with some rogue-like elements and a unique progression and customization system. Now imagine that this RPG came out for the Sega Genesis in the 90s.

      Still with me? Good…

      Features

      We Got Dungeons is a tactical RPG with:

      • Procedurally generated dungeons - every dungeon and every room have different layouts for enemies, traps, hazards, and treasure. No playthrough is the same!
      • Multiple storylines. Pick your lead character and experience 9 different tales about coming to terms with yourself and your world.
      • 90s theme - take on the other side with retro video games, Pogs, and VHS tapes in the mall, in the park, and beyond
      • Tactical combat - choose your party and engage with evil troll dolls and possessed grunge kids. Use strategic positioning and mastery of skills to pull through challenging encounters and battles.
      • Unique customization - The Skill Board system gives you complete control over your characters. Equip any ability, any perk, any stat increase you want -- if you got the room for it, you can use it.

      Story

      In a 90s suburbia, not everything is as fly as it seems. Beneath the veneer of normalcy lies cynicism, doubt, and dissatisfaction with life. People want something, they just don't know what that is. But forces from the beyond think they have the answer, and things get weird when they begin to enter our world through the mundane. Weird like your neighbor’s basement going down ten floors. Weird like movie rental stores that are bigger on the inside than on the outside. Weird like your favorite VHS tape trying to choke you to death.

      These forces are launching unannounced, unplanned, uninvited visits to our reality. It’s an unbidden invasion of suburbia, an unsought for contact from beyond the screen that separates us from them… and it all starts in your town…

      Characters

      So who is gonna step up to stop this invasion? Who can we depend on to turn the tide of this sinister threat? The military? Superheroes? 90s cartoon characters?

      Actually, the world’s last hope is your mother.

      Eschewing the traditional RPG/tactical RPG heroes of knights, wizards, and rogues, We Got Dungeons features ordinary people in a situation that is definitely buggin’. Luckily, the weirdness that is creeping in from the other side is amping up some of their everyday abilities. Let’s meet a couple of our unsung heroes:

      The Troublemaker

      She’s a high-school delinquent that cuts class, smokes, and runs afoul of the local neighborhood watch. Whether it’s flaunting the town’s “No Skateboarding” laws or tagging the convenience store with graffiti, you know the troublemaker is to blame.

      Her skateboard and spraypaint come in handy as useful weapons, and she has a variety of skills (like bullying and shoplifting) that make her a versatile character.

      Your Mother

      Dear old mom. Everyone has one. Always there for you, she’ll love you forever, no matter what you do. But don’t let all those bedtime stories, embarrassing baby pictures, and boo-boo kisses fool you; when push comes to shove, mom is who you want on your side to fend off the forces from beyond.

      Mom can make you feel better, easing all your troubles and woes with a hug. Or she can totally mess up your social life by grounding you. Either way, the weirdness invading our reality is sure to find out that there is no such thing as “just” a mother.

      We Got More...

      Want more dungeons? Keep reading our series of dev logs here. More classes, tons of weapons, armies of 90s enemies -- we are pushing the Sega Genesis to its limits for this one. Next time we’ll introduce some abilities that put the "Tactic" in "Tactical RPG", and a dungeon boss you may recognize from a famous basement…





      Sega Genesis/Mega Drive VDP Graphics Guide v1.2a (03/14/17)

      Sega Genesis/Mega Drive VDP Graphics Guide v1.2a (03/14/17)

      Mega Cat Studios

      OVERVIEW OF VDP CONCEPTS

      • VDP

        • "Video Display Processor"

        • Video controller chip that handles the Genesis' tile graphics, scroll planes, and sprites. Not actually a processor

      • VRAM

        • "Video RAM"

          • RAM used by the VDP

          • Holds tiles (8x8 px images)

      • Two main machine types

        • NTSC machines

          • "Sega Genesis", 60Hz machines, primarily found in the US

          • Resolutions

            • H40 mode - 320x224 px (40x28 tiles). More common resolution mode

            • H32 mode - 256x224 px (32x28 tiles). Less common resolution mode

          • Mega Cat games are NTSC releases, so use these resolutions!

        • PAL machines

          • "Sega Mega Drive", 50Hz machines, everywhere else

          • Resolution

            • H40 mode - 320x240 px (40x30 tiles). More common resolution mode

            • H 32 mode - 256x240 (32x30 tiles). Less common resolution mode

      NTSC Model 2 Sega Genesis

      PAL Model 2 Mega Drive
      (European)

      3 graphics planes

        • 2 scroll planes
          • Plane B - Background plane
            • Displays tile graphics via tilemaps
          • Plane A - Foreground plane
            • Displays tile graphics via tilemaps

            • Window subplane - Subplane for Plane A, with tile graphics that does not scroll with rest of plane
          • Each row of tiles is rendered column-by-column
          • Tiles on each plane can have priority: low or high.

      Tiles for a sprite rendered in normal format (4x4 tiles)

          • 1 sprite plane

            • Draws sprite tile graphics

            • Internally, sprites are rendered in reverse order; i.e., each column of tiles is rendered by rows

            • Sprites are positioned in a virtual 512x512 px space, with coordinate (128,128) being the top left corner of the TV display.

            • Genesis can display up to 80 hardware sprites on screen at once

            • Genesis can display ~20 sprites on the same scanline before sprite overflow issues occur and sprites are not displayed

            • For hardware sprites, sprite sizes are limited in size to (w x h) sizes, where w is width, and h is height, where each dimension is 1-4 tiles.

            • Sprites larger than hardware sprite sizes can be obtained by using multiple sprites

            • Like with planes, the tiles for sprites can have a low or high priority. Low priority sprites are displayed behind high priority tiles in other layers. (It's a little more complicated than this, but this is the basic concept in a nutshell)

      Tiles for a sprite internally rendered in sprite format (transposed, 4x4 tiles)

      Visualization of priority of plane layers

      Source: Genesis Software Manual

        • VDP CRAM ("Color RAM")

          • 4 palette lines, each with 16 color entries

          • Each color entry has a color depth of 4bpp (4 bits per pixel)

          • 1st color entry is the transparent color for tile art

          • Palette lines can be rendered to use slightly lighter or darker colors by toggling highlight or shadow modes, respectively

      BACKGROUNDS

      There are 2 tilemap planes available for use on the Sega Genesis: a background plane ("Plane B") and a foreground plane ("Plane A"). Depending on the machine type (NTSC or PAL) and the video mode used (H40 or H32 mode), a full-screen tilemap will take up either a width of 32 or 40 tiles by a height of 28 or 30 tiles. Each tile consists of an 8x8 px image, with each pixel corresponding to a color entry index (0-15). The window plane is technically a subplane for Plane A; its graphics will not be scrolled with the rest of Plane A. The planes can be used in many different ways, such as fullscreen foreground and background layers, or for a technique many Sega Genesis games are famous for,parallax scrolling. By scrolling certain rows of tiles on the planes at different rates, an illusion of depth is created. Tiles in the different planar tilemaps can have a priority setting: either low or high. This setting will determine if sprites (which also can have a low or high priority setting) are displayed below or above the tile.


      VSRAM (Video Scroll RAM)

      Layers Plane A and Plane B can have scroll plane tilemaps of sizes (w x h), where w is width in tiles, and h is height in tiles, and where each dimension can only be of a size of 32, 64, or 128 tiles. These scroll planes are "scrolled into/out" of the active display resolution (size determined by machine types and H32/H40 mode). Scroll planes of sizes 128x64/64x128 & 128x128 are invalid due. By default, the sections of VRAM at default VRAM address 0xC000 and 0xE000 are displayed as "garbage tiles", but actually each pixel of those "garbage tiles" compactly encodes the VSRAM tilemap. The user should never write real tiles to these "garbage tiles" or weird graphical bugs/crashes, slow down, or garbage tiles will appear in the scroll planes. Planes can use 1 of 3 different, scroll modes: by scanline, by tile, or block (a section of 2x2 tile). Each plane can be scrolled horizontal, vertically, or both.

      COLOR

      Mastering the Genesis’ color restrictions is probably the best thing you can do to get the most out of your graphics! Tiles can only make use of 1 of 4 palette lines at a time. Each palette line has 16 color entries. The 1st color entry is reserved for the transparent color, which is recommended to be a solid purple of color (255,0,255) (RGB). You may want to allocate 1 or 2 palettes to stay consistent throughout the game, for a particular usage. For example, palette line #1 could be used for your player character, while palette line #2 could be used for UI elements. Enemies, backgrounds, and other changing elements through the game can make good use of different palettes.

        To get the most out of the color in this piece, two palette lines were used; one for each tilemap plane layer. The first two images are each layer (Plane B and Plane A, respectively) shown separately, while the third image is the final fullscreen image using both planes combined. As each tile can only use the indexed colors from one palette line at a time, taking advantage of a dual-plane image setup like this allows many colors in tight spaces that only a single plane image wouldn’t allow enough colors for.

        Two common color palette techniques are palette cycling and raster effects. By changing the color of particular entries in individual palette lines in-game every few frames, all of the tiles utilizing that particular palette line and color index setting will update to the new color. This is used for effects such as waterfalls, pulsating lights, etc.

        Sample palette cycle effect for the flashing Beserk bars in Zombie Football League

        Raster effects are changing all or some of the palette line's colors after a certain scanline. Performing this technique is beyond the scope of this document, but basically is swapping out all or part of entire CRAM's colors after the electron beam of the TV is past a certain horizontal scanline. This is useful for techniques such as applying a different palette for objects that are underwater and is used for underwater colors in Labyrinth Zone for Sonic the Hedgehog.


        SPRITES


        The base idle position sprite for Ashley from Coffee Crisis

        Sprites for the Sega Genesis are defined as images with a size of (w x h), where w is the width in tiles, and h is the height in tiles, where each dimension can range from 1-4 tiles. Each sprite can use only one palette line at a time. Hardware sprites can have a max size of 4x4 tiles. The Sega Genesis can handle up to 80 sprites on screen, 20 sprites per scanline, though it’s worth staying under this limit to avoid slowdown. To overcome the hardware sprite limit, many games utilize multiple sprites together for one character/object to accommodate larger sizes. A classic pixel art principle is to keep your graphics at a resolution large enough to allow suitable detail and clarity, but small enough to easily animate. All Sega Genesis tile art should always be divisible by 8 pixels, to align with tile sizes! Sprites can be flipped horizontally ("hflip'd") and/or vertically ("vflip'd"), as well as have either a low or high priority flag set. This priority setting determines whether the sprite will be displayed above or below tiles in the other planes (which also have a low or high priority setting). Hardware sprites can also have a "link" value; each sprite must have its own, unique link value. Among other effects, sprites with lower link values are drawn above sprites with higher link values.

        ANIMATION


        A running armoured Minotaur football player, from Zombie Football League

        In most games, the graphics will be animated, not just static sprites. By changing frames for sprites over time, the illusion of movement can be achieved and is used to portray walking, attacking, getting hit, etc. Different games deserve different styles of animation, and there are many specific animation tutorials worth checking out online. For the Sega Genesis specifically, be mindful about the number of sprites and tiles each animation takes up, and be sure to not go overboard with the number of sprites in each animation, especially if it will cause game slowdown. Sprite animation is often a battle between keeping a low individual frame and tile count and an appealing motion; this especially applies to animation on the Sega Genesis too. Focus on creating clear, readable keyframes so that the action in your animation is apparent, and take advantage of holding certain frames for different time durations.

        A common animation technique used is commonly called "Dynamic Pattern Load Cues" (DPLC) among the Sonic the Hedgehog ROM hacking scene. This is the term coined for dynamically uploading the tiles for sprite frames into VRAM on-the-fly, rather than storing all of the tiles for all sprites frames into VRAM all at once. Many times, for detailed sprites (such as the player sprites), the number of tiles utilized for all of the sprite frames will take up too many VRAM tiles. By uploading only the tiles you need for the particular sprite frame being rendered, you conserve your limited VRAM memory to be used for other tile graphics. Unfortunately, the tiles used for DPLC will need to be uncompressed in ROM for the uploading to VRAM to be quick enough to not cause game slowdown. (Decompressing compressed art has CPU overhead and takes away too many CPU cycles.) The functions in SGDK's sprite engine (in header file ) generally utilize DPLC techniques to cut down on wasted tiles.


        RECOMMENDED DEBUGGING AND ART TOOLS
        Finding good software for creating retro graphics, quantizing pixel art into tiles, and reducing the color count to 4bpp can be difficult. Below is a list of the recommended art software to deal with retro graphics, and specialized emulators that allow the user to look at VRAM contents and planes

        Art software:

        • RetroGraphicsToolkit

        • Irfanview

          • Generic image viewer/editor, with plugins and very large support for many image file types

          • Can edit, export, and import palettes, as well as increase/decrease the color count of images, and view color count. Useful for preparing art image files for usage with SGDK's rescomp

          • FOSS software

          • Has PNG plugin in order to change color depth while preserving palette order

          • Info links

        • PCXpal

          • Useful software that can convert between several different palette formats.

          • Useful for converting to/from Megadrive .bin palettes and Irfanview's JASC palette format

          • Import formats

            • BMP,GIF,PCX images

            • GGD, GS*, MSD Genesis emulator savestates

            • Jasc, Megadrive, MS RIFF, Tile Layer Pro palette files

          • Export formats

            • Jasc, Megadrive, and Tile Layer Pro palettes

          • Info links

        Recommended specialty emulators for VDP debugging

        COMMERCIAL SEGA GENESIS GAMES TO REFERENCE


        There are plenty of awesome-looking Sega Genesis games to reference for various techniques and special effects. Such games include:

        • Streets of Rage series

        • The Sonic the Hedgehog series

          • Water palette raster effects

          • Sprite/tile priority (esp loops and dual-layer chunk system in Sonic 2 & Sonic 3/Knuckles)

          • High performance, fast, highly-polished game engine

          • Sprite DPLC

          • Great level design and art styles (esp. Sonic 3/Knuckles)

          • Palette cycling effects

          • Parallax effects

        • The Adventures of Batman and Robin

          • Tons of fancy graphical effects

        • Castlevania Bloodlines

        • Aladdin

        • Earthworm Jim series

          • Smooth animation

        • The Phantasy Star series

        • Red Zone

          • 1-bit, smooth, B&W video in the intro

          • Fake sprite and tilemap SW rotation!

          • Isometric/Top-down art style

        • Panorama Cottton (Jap), Street Racer

          • SNES Mode 7-like graphics, very complex line scrolling and graphical effects

        • Hard Drivin' and Race Drivin'

          • 3D, SW-rendered polygon graphics

        • Zero Tolerance and Beyond Zero Tolerance (unreleased)

          • DOOM-like SW raycaster

        • Toy Story

          • Palette raster effects to break the CRAM color limit for static cutscene images

          • DOOM-like raycaster for 1st-person level

          • Parallax effects for level geometry in 1st stage with Woody

        • Star Cruiser (Jap)

          • 3D, SW-rendered polygon graphics

        • Contra: Hard Corps

          • Giant Miniboss robot in the first stage is a tilemap with fake tilemap/sprite rotation

        • The massive homebrew RPG is known as Pier Solar

          • Great art

          • Worked on by a team of Genesis fans, gurus, and homebrew developers for several years

          • Massive 64Mb cartridge

        Take note of how different games take advantage of the Genesis' hardware restrictions, and how some games push the hardware to the limits. Streets of Rage and Batman excel with gritty urban locations. The Sonic games have bright, contrasting colors that make it easy to perceive Sonic’s surroundings despite the fast speed. Aladdin and Earthworm Jim have fluid, fun animations that emphasize the characters.

        REFERENCES/FOR FURTHER READING

        Thanks for reading! If you want more, you can read our NES graphics guide here, or check out our SNES graphics guide here!