lodim 0.1.1 
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lurey.devFixed-point pixel accurate 2D geometry with minimal approximations.
lodim #
Fast and pixel accurate fixed-point 2D geometry with minimal approximations.
Optimal for the following use cases:
- 2D game development that uses tile-based or grid-based rendering.
- Graphic rendering of pixel art or other fixed-point rasterized graphics.
- Fixed-point geometry for performance or consistency reasons.
Features #
Use lodim to quickly work with 2D geometry in a fixed-point space:
- Fixed-point: All values and results are always integers.
- Fast: AOT and JIT benchmarked on the Dart VM.
- Pixel accurate: Minimal1 ambiguity or hidden rounding errors.
- Ergonomics: Familiar API to
dart:ui(and similar) for ease of use. - Cross-platform: Works on all Dart platforms, including Flutter and web.
Usage #
Just add a dependency in your pubspec.yaml or run the following command:
dart pub add lodim
If you've used another 2D geometry library, such as dart:ui from
Flutter, you will find lodim to be very similar. Work with similar types such
as Pos (i.e. Offset) and Rect:
// Creates a (x, y) position.
final pos = Pos(10, 20);
// Creates a rectangle.
final rect = Rect.fromLTWH(0, 0, 100, 100);
Take advantage of tested and benchmarked common operations:
// Rotate a position by 135 degrees counter-clockwise.
final rotated = pos.rotate45(-3);
// Get the intersection of two rectangles.
final intersection = rect.intersect(a, b);
Use built-in algorithms for common tasks, or define your own:
// Determine the distance between two positions.
final distance = pos1.distanceTo(pos2);
// Use another algorithm to determine the distance or define your own.
final manhattan = pos1.distanceTo(pos2, using: manhattan);
// Draw a line from one position to another.
final line = pos1.lineTo(pos2);
// Use your own algorithm to draw a line.
final custom = pos1.lineTo(pos2, using: someOtherAlgorithm);
Benchmarks #
To run the benchmarks, run:
dart run benchmark/benchmark.dart
# Or, to use AOT:
dart compile exe benchmark/benchmark.dart
./benchmark/benchmark.exe
# Or, to profile using devtools:
dart run --pause-isolates-on-start --observe benchmark/benchmark.dart
In local benchmarks on a M2 Macbook Pro, compared to [baseline]2 code.
JIT:
| Benchmark | lodim |
Baseline | Delta |
|---|---|---|---|
| 10k allocations positions | 479.8 us | 362.9 us | -25% |
| 10k euclidian distance | 138.3 us | 153.5 us | +11% |
| 10k rotations in 45° steps | 6875.8 us | 13658.7 us | +98% |
| 10k lines drawn | 1340049.5 | - | - |
AOT:
| Benchmark | lodim |
Baseline | Delta |
|---|---|---|---|
| 10k allocations positions | 342.7 us | 463.9 us | +35% |
| 10k euclidian distance | 139.7 us | 132.7 us | -5% |
| 10k rotations in 45° steps | 5858.2 us | 11708.0 us | +100% |
| 10k lines drawn | 1333651.0 us | - | - |
tl;dr: lodim is faster than baseline code, using both JIT and AOT.
Specializing based on fixed-point geometry allows for optimizations that are
not possible with general-purpose code, such as jump-table based rotations.
Contributing #
To run the tests, run:
dart test
To check code coverage locally, run:
dart tool/coverage.dart
To preview dartdoc output locally, run:
dart tool/dartdoc.dart
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Fixed-point pixel accurate 2D geometry with minimal approximations.
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