* Revert "Optimize the transformRect and transformPoint methods in matrix_utils. (#36396)"
This reverts commit 9946f7cff9621bf23c22508e7b2529e4126f7f05.
* add test
* Improve showDuration and waitDuration explanation and tests
* Add condition to test to ensure that tooltip does not show before long press duration is over
* Implement TooltipThemeData and TooltipTheme
* Add text style property
* Updated tooltip default colors for light and dark theme to match Material specification
An optimization to the coverage collection speed was added in #30811. This commit further expands on it to parameterize the CoverageCollector with a custom predicate, allowing internal use cases to filter the RPC calls to the Dart VM based on scripts of interest to coverage collection.
* Implement TooltipThemeData and TooltipTheme
* Add tooltip text style property
* Update default tooltip text style and decoration to match Material specification
* Fix debugLabel incorrectly labeling "white" as "black", and vice versa by default
Primarily these methods no longer allocate any objects other than their
return values.
Additionally, the math in the methods is reduced compared to the general
case math based on known input conditions.
`flutter build aar`
This new build command works just like `flutter build apk` or `flutter build appbundle`, but for plugin and module projects.
This PR also refactors how plugins are included in app or module projects. By building the plugins as AARs, the Android Gradle plugin is able to use Jetifier to translate support libraries into AndroidX libraries for all the plugin's native code. Thus, reducing the error rate when using AndroidX in apps.
This change also allows to build modules as AARs, so developers can take these artifacts and distribute them along with the native host app without the need of the Flutter tool. This is a requirement for add to app.
`flutter build aar` generates POM artifacts (XML files) which contain metadata about the native dependencies used by the plugin. This allows Gradle to resolve dependencies at the app level. The result of this new build command is a single build/outputs/repo, the local repository that contains all the generated AARs and POM files.
In a Flutter app project, this local repo is used by the Flutter Gradle plugin to resolve the plugin dependencies. In add to app case, the developer needs to configure the local repo and the dependency manually in `build.gradle`:
repositories {
maven {
url "<path-to-flutter-module>build/host/outputs/repo"
}
}
dependencies {
implementation("<package-name>:flutter_<build-mode>:1.0@aar") {
transitive = true
}
}
`flutter build aar`
This new build command works just like `flutter build apk` or `flutter build appbundle`, but for plugin and module projects.
This PR also refactors how plugins are included in app or module projects. By building the plugins as AARs, the Android Gradle plugin is able to use Jetifier to translate support libraries into AndroidX libraries for all the plugin's native code. Thus, reducing the error rate when using AndroidX in apps.
This change also allows to build modules as AARs, so developers can take these artifacts and distribute them along with the native host app without the need of the Flutter tool. This is a requirement for add to app.
`flutter build aar` generates POM artifacts (XML files) which contain metadata about the native dependencies used by the plugin. This allows Gradle to resolve dependencies at the app level. The result of this new build command is a single build/outputs/repo, the local repository that contains all the generated AARs and POM files.
In a Flutter app project, this local repo is used by the Flutter Gradle plugin to resolve the plugin dependencies. In add to app case, the developer needs to configure the local repo and the dependency manually in `build.gradle`:
repositories {
maven {
url "<path-to-flutter-module>build/host/outputs/repo"
}
}
dependencies {
implementation("<package-name>:flutter_<build-mode>:1.0@aar") {
transitive = true
}
}
