A simple way to cache values that result from rather expensive operations.
It is useful to cache values that:
- Are computed from other values in a consistent way;
- Can be changed given known and unknown conditions;
- Should not be computed on every access (like a getter);
A cached_value
is better used over imperative APIs, such as Flutter's render objects. See Motivation for more.
Add to pubspec.yaml:
dart pub add cached_value
A cache can start as a simple manually controlled cache and then be enhanced with automatic functionalities such as dependencies and time-to-live (TTL).
int factorial(int n) {
if (n < 0) throw ('Negative numbers are not allowed.');
return n <= 1 ? 1 : n * factorial(n - 1);
}
int originalValue = 1;
final factorialCache = CachedValue(() => factorial(originalValue));
print(factorialCache.value); // 1
originalValue = 6;
print(factorialCache.value); // 1
print(factorialCache.isValid) // true, invalid only when invalidate is called
// mark as invalid
factorialCache.invalidate();
print(factorialCache.isValid); // false
print(factorialCache.value); // 720
print(factorialCache.isValid); // true
Accessing value
when the cache is invalid refreshes the cache. It can be refreshed manually via
the refresh
method:
// ...
originalValue = 12;
factorialCache.refresh();
print(factorialCache.value); // 12
A dependent cache is marked as invalid if its dependency value has changed.
int factorial(int n) {
if (n < 0) throw ('Negative numbers are not allowed.');
return n <= 1 ? 1 : n * factorial(n - 1);
}
int originalValue = 1;
final factorialCache = CachedValue(
() => factorial(originalValue),
).withDependency(() => originalValue);
print(factorialCache.value); // 1
print(factorialCache.isValid); // true
// update value
originalValue = 6;
print(factorialCache.isValid); // false
print(factorialCache.value); // 720
print(factorialCache.isValid); // true
final someCache = CachedValue(
// ...
).withDependency(
() => someExpensiveOperation(originalValue), // ❌ Avoid this:
);
A cache can be automatically marked as invalid some time after a refresh.
int factorial(int n) {
if (n < 0) throw ('Negative numbers are not allowed.');
return n <= 1 ? 1 : n * factorial(n - 1);
}
int originalValue = 1;
final factorialCache = CachedValue(
() => factorial(originalValue),
).withTimeToLive(
lifetime: Duration(seconds: 3),
);
originalValue = 6;
print(factorialCache.value); // 1
await Future.delayed(Duration(seconds: 3));
print(factorialCache.value); // 720
There is more detailed docs on the API documentation.
Some imperative APIs such as the canvas paint on Flutter render objects of Flame's components may benefit from values that can be stored and reused between more than a single frame (or paint).
In some very specific cases, I found very convenient to store some objects across frames, like
Paint
and TextPainter
instances.
Example on a render object:
class BlurredRenderObject extends RenderObject {
// ...
double _blurSigma = 0.0;
double get blurSigma => _blurSigma;
set blurSigma(double value) {
_blurSigma = blurSigma;
markNeedsPaint();
}
// ...
@override
void paint(PaintingContext context, Offset offset) {
final canvas = context.canvas;
final paint = Paint()..maskFilter = MaskFilter.blur(
BlurStyle.normal, blurSigma
);
canvas.drawRect(Rect.fromLTWH(0, 0, 100, 100), paint);
}
}
Can be changed to:
class BlurredRenderObject extends RenderObject {
// ...
double _blurSigma = 0.0;
double get blurSigma => _blurSigma;
set blurSigma(double value) {
_blurSigma = blurSigma;
markNeedsPaint();
}
// Add cache:
late final paintCache = CachedValue(
() => Paint()..maskFilter = MaskFilter.blur(BlurStyle.normal, blurSigma),
).withDependency(() => blurSigma);
// ...
@override
void paint(PaintingContext context, Offset offset) {
final canvas = context.canvas;
// use cache:
final paint = paintCache.value;
canvas.drawRect(Rect.fromLTWH(0, 0, 100, 100), paint);
}
}