Difference between revisions of "1K Intro"
| Line 23: | Line 23: | ||
* t = GetTickCount() - Optional: Get Current ticks | * t = GetTickCount() - Optional: Get Current ticks | ||
* glColor3us(t,0,0) / glColor3i(t,0,0) - Parse time via gl_Color (saves importing uniform functions) | * glColor3us(t,0,0) / glColor3i(t,0,0) - Parse time via gl_Color (saves importing uniform functions) | ||
| − | * glRects(-1,-1,1,1) - Draw a single quad with current Shader | + | * glRects(-1,-1,1,1) / glRecti(-1,-1,1,1) - Draw a single quad with current Shader |
* SwapBuffers(hDC) - Swap Buffers | * SwapBuffers(hDC) - Swap Buffers | ||
* PeekMessageA(0, 0, 0, 0, PM_REMOVE) - Optional: Unanswered messages might stack up, but in practice you should be fine in fullscreen | * PeekMessageA(0, 0, 0, 0, PM_REMOVE) - Optional: Unanswered messages might stack up, but in practice you should be fine in fullscreen | ||
Revision as of 06:03, 12 April 2024
Contents
Introduction
This category is dedicated to 1K Intros for Windows 32.
Windows 1K Intros can be setup in C or Aseembler, or a combination of both, with only the few windows calls that are used being linked in. In general writing everything in assembler should give you a little more freedom in pushing/popping your function arguments but in th past quality intros have been written in both languages.
Graphics are usualy done using OpenGL / GLSL, but there are 1K intros out there that have used D3D instead.
Setup (Windows)
- ChangeDisplaySettings(&screenSettings, CDS_FULLSCREEN) - Initialise fullscreen view
- hwnd = CreateWindow((LPCSTR)0xC018, 0, WS_POPUP | WS_VISIBLE | WS_MAXIMIZE, 0, 0, 0, 0, 0, 0, 0, 0) - Setting up a Maximised Window
- GetDC(hwnd) - Get DeviceContext handle
- ChoosePixelFormat(hDC, &pfd) - Set pixelformat describer by pfd to DeviceContext handle
- ShowCursor(NULL) - Hide mousecursor (usually required by compo rules)
Setup (OpenGL)
- glContent = wglCreateContext(hDC) - Create OpenGL context
- wglMakeCurrent(hDC, glContext) - Set OpenGL Context
- shaderProgam = glCreateShaderProgramv(GL_FRAGMENT_SHADER, 1, &shader) - Create and compile GLSL Shader
- glUseProgram(shaderProgram) - Set active shader
Update Loop
- t = GetTickCount() - Optional: Get Current ticks
- glColor3us(t,0,0) / glColor3i(t,0,0) - Parse time via gl_Color (saves importing uniform functions)
- glRects(-1,-1,1,1) / glRecti(-1,-1,1,1) - Draw a single quad with current Shader
- SwapBuffers(hDC) - Swap Buffers
- PeekMessageA(0, 0, 0, 0, PM_REMOVE) - Optional: Unanswered messages might stack up, but in practice you should be fine in fullscreen
- GetAsyncKeyState(VK_ESCAPE) - Checks for escape key (required by compo rules)
Closedown
- ExitProcess(0) - Close down application
Graphics / effect
So when it comes to writing your 1K shader/effect, there are a couple to tricks you can utilise to get a small shader footpring
- Make use of the benefits of (Legacy) Desktop GLSL by using integers for smaller notation
- Make use of the fixed resolution to convert gl_FragCoord to UV -1..1 (this will have your centerY slightly off-centered)
- Pass time via glColor (no uniforms used)
- Using global variables to save space
Minimal GLSL example code
float t=gl_Color.x*1e7;
void main(){
vec2 p=gl_FragCoord.xy/960-1;
gl_FragColor=vec4(sin(p.x+t),0,p.y,1);
}
Shader minifier
While a shader minifier can be helpful at times, it will not save you from writing sloppy code or unthoughtful approaches. For most 4k's people can get away with sub-par optimised code and let shader-minifier do the work for you, but for 1k this is just not enough.
Sound
- Win32 Single Note MIDI
- Win32 MIDI player
- Bytebeat softsynth
- Shader softsynth
Compression
Microsoft Cabinet decmpression
These functions allow for MSZIP (deflate) and MSLZ content to be loaded from the binary as payload at the cost of a a few more win32 function imports. Well this might be a good solution for 512 byte intros, the tipping point for Crinkler compression at the moment lies at the 800-850 byte mark give or take.
Crinkler
Crinkler is the most commonly used compression at the moment for many 1K and 4K intros. It has a seperate settings for 1K intro, namely /TINYIMPORT and /TINYHEADER which will better match the 1K usecase.
Crinkler reports
When using the /REPORT:intro_report.html feature, crinkler will generate a report and heatmap for your intro binary. This is helpful to see how good your (shader)code compresses and where you can maybe gain a few more bytes.
Word about the resulting executable
Please note that when using crinkler in TINYHEADER mode, the resulting windows header will most likely trigger virus scanners / microsoft defender and mark it as suspicious content, which is a side-effect in recent years. Just exclude your work directory from this scan during development. Compo machines will run without these scanners too, but it is good practice to include a (slightly larger) safe version too in the final archive.
