Difference between revisions of "Sonic Physics Guide"
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:*[[SPG:Special_Abilities#Spindash_.28Sonic_2.2C_3.2C_.26_K.29|''Spindash'']] | :*[[SPG:Special_Abilities#Spindash_.28Sonic_2.2C_3.2C_.26_K.29|''Spindash'']] | ||
:*[[SPG:Special_Abilities#Shield_Abilities_.28Sonic_3_.26_K.29|''Shield Abilities'']] | :*[[SPG:Special_Abilities#Shield_Abilities_.28Sonic_3_.26_K.29|''Shield Abilities'']] | ||
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+ | '''[[SPG:Special Stages|Special Stages]]''' | ||
+ | :Special stages including the rotating mazes from Sonic 1. | ||
+ | :*[[SPG:Special Stages#Rotating Maze|''Rotating Maze'']] | ||
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:*[[SPG:Overlay_Scripts#Sonic_1_Overlay|''Sonic 1 Overlay'']] | :*[[SPG:Overlay_Scripts#Sonic_1_Overlay|''Sonic 1 Overlay'']] | ||
:*[[SPG:Overlay_Scripts#Sonic_2_Overlay|''Sonic 2 Overlay'']] | :*[[SPG:Overlay_Scripts#Sonic_2_Overlay|''Sonic 2 Overlay'']] | ||
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[[Category:Sonic Physics Guide| ]] | [[Category:Sonic Physics Guide| ]] |
Revision as of 09:41, 25 February 2023
ROM Hacks make the process of developing a functional Sonic game with unique art, enemies, and modifications much easier, since the game engine and basic mechanics are already functional. However, if the game requires a different game engine, modifying existing low-level assembly may be inappropriate, and some game designers might choose to program their own unique game engine. The physics of a game engine are rules that describe how to transform the Player's input (either in the form of buttons, keyboard, or even a mouse if the designer feels inclined) into appropriate changes in the position of the sprites in the game (such as the Sonic sprite, or alternatively, how enemy sprites will respond). These physics guides will hopefully make the process of simulating the rules used in Sonic games easier.
Since the rules themselves are independent of how they are implemented, many people choose programming languages such as Java, C, C++, Python, or a Lisp dialect to implement game physics. In addition, people can choose to use more specialized applications like Adobe Flash (Animate), GameMaker Studio 2, or a Clickteam program like Multimedia Fusion 2.
Hopefully, these guides will provide adequate information to facilitate implementation.
Physics Guides
- A prerequisite for much of the info on this guide, including common variables, how angles work, how precise values for positions and speeds work, how object sizes are displayed, and more.
- Information about specific characters and their constants, variables, their varying sizes and jump height, and also detailing how their specific moves work.
Collision
- Terrain Part 1: A detailed description of the individual building blocks of terrain and how they are processed detected.
- Terrain Part 2: How Solid Tiles and collison layers are used to construct slopes, loops, and other structures.
- Slopes Part 1: How the Player object uses its sensor arrangement to detect and react to sloped terrain.
- Object hitboxes, the Player's hitbox, and other ways objects directly interact with the player other than solidity.
- Object solidity, jump through platforms, and sloped variants of each.
Physics
- Slopes Part 2: How the Player moves with momentum over angled surfaces, and 360° movement along extreme slopes such as walls and ceilings.
- Horizontal input & general physics of the Player while they are in the air.
- Horizontal input & general physics of the Player while walking/running.
- Jump physics, jumping at angles, and how controllable jump height is achieved.
- Horizontal input & general physics of the Player while rolling.
- What happens when the Player gets hit.
- The Player's physics bouncing off enemies and other destroy-able items.
- The Player's abilities when super.
Gameplay
- The order that objects update each frame, and order of specific events like Player collision and movement.
- Mechanics and sizes for things like rings, pushable blocks, buttons, and springs. How they are constructed, function, and interact with the Player.
- Ring dispersal mechanics and physics when lost.
- General special abilities such as spindashing and elemental shields.
- Special stages including the rotating mazes from Sonic 1.
Presentation
- Camera mechanics when following the Player.
- Animations system, and specific animation timings & rules.
Special
- Lua scripts which overlay the game in an emulator for an interactive visual of collision.