packages/flutter/lib/src/painting/fractional_offset.dart - external/github.com/flutter/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.


 import 'dart:ui' as ui show lerpDouble;

 import 'package:flutter/foundation.dart';

 import 'alignment.dart';
 import 'basic_types.dart';

 /// An offset that's expressed as a fraction of a [Size].
 ///
 /// `FractionalOffset(1.0, 0.0)` represents the top right of the [Size].
 ///
 /// `FractionalOffset(0.0, 1.0)` represents the bottom left of the [Size].
 ///
 /// `FractionalOffset(0.5, 2.0)` represents a point half way across the [Size],
 /// below the bottom of the rectangle by the height of the [Size].
 ///
 /// The [FractionalOffset] class specifies offsets in terms of a distance from
 /// the top left, regardless of the [TextDirection].
 ///
 /// ## Design discussion
 ///
 /// [FractionalOffset] and [Alignment] are two different representations of the
 /// same information: the location within a rectangle relative to the size of
 /// the rectangle. The difference between the two classes is in the coordinate
 /// system they use to represent the location.
 ///
 /// [FractionalOffset] uses a coordinate system with an origin in the top-left
 /// corner of the rectangle whereas [Alignment] uses a coordinate system with an
 /// origin in the center of the rectangle.
 ///
 /// Historically, [FractionalOffset] predates [Alignment]. When we attempted to
 /// make a version of [FractionalOffset] that adapted to the [TextDirection], we
 /// ran into difficulty because placing the origin in the top-left corner
 /// introduced a left-to-right bias that was hard to remove.
 ///
 /// By placing the origin in the center, [Alignment] and [AlignmentDirectional]
 /// are able to use the same origin, which means we can use a linear function to
 /// resolve an [AlignmentDirectional] into an [Alignment] in both
 /// [TextDirection.rtl] and [TextDirection.ltr].
 ///
 /// [Alignment] is better for most purposes than [FractionalOffset] and should
 /// be used instead of [FractionalOffset]. We continue to implement
 /// [FractionalOffset] to support code that predates [Alignment].
 ///
 /// See also:
 ///
 ///  * [Alignment], which uses a coordinate system based on the center of the
 ///    rectangle instead of the top left corner of the rectangle.
 @immutable
 class FractionalOffset extends Alignment {
   /// Creates a fractional offset.
   ///
   /// The [dx] and [dy] arguments must not be null.
   const FractionalOffset(double dx, double dy)
     : assert(dx != null),
       assert(dy != null),
       super(dx * 2.0 - 1.0, dy * 2.0 - 1.0);

   /// Creates a fractional offset from a specific offset and size.
   ///
   /// The returned [FractionalOffset] describes the position of the
   /// [Offset] in the [Size], as a fraction of the [Size].
   factory FractionalOffset.fromOffsetAndSize(Offset offset, Size size) {
     assert(size != null);
     assert(offset != null);
     return FractionalOffset(
       offset.dx / size.width,
       offset.dy / size.height,
     );
   }

   /// Creates a fractional offset from a specific offset and rectangle.
   ///
   /// The offset is assumed to be relative to the same origin as the rectangle.
   ///
   /// If the offset is relative to the top left of the rectangle, use [new
   /// FractionalOffset.fromOffsetAndSize] instead, passing `rect.size`.
   ///
   /// The returned [FractionalOffset] describes the position of the
   /// [Offset] in the [Rect], as a fraction of the [Rect].
   factory FractionalOffset.fromOffsetAndRect(Offset offset, Rect rect) {
     return FractionalOffset.fromOffsetAndSize(
       offset - rect.topLeft,
       rect.size,
     );
   }

   /// The distance fraction in the horizontal direction.
   ///
   /// A value of 0.0 corresponds to the leftmost edge. A value of 1.0
   /// corresponds to the rightmost edge. Values are not limited to that range;
   /// negative values represent positions to the left of the left edge, and
   /// values greater than 1.0 represent positions to the right of the right
   /// edge.
   double get dx => (x + 1.0) / 2.0;

   /// The distance fraction in the vertical direction.
   ///
   /// A value of 0.0 corresponds to the topmost edge. A value of 1.0 corresponds
   /// to the bottommost edge. Values are not limited to that range; negative
   /// values represent positions above the top, and values greater than 1.0
   /// represent positions below the bottom.
   double get dy => (y + 1.0) / 2.0;

   /// The top left corner.
   static const FractionalOffset topLeft = FractionalOffset(0.0, 0.0);

   /// The center point along the top edge.
   static const FractionalOffset topCenter = FractionalOffset(0.5, 0.0);

   /// The top right corner.
   static const FractionalOffset topRight = FractionalOffset(1.0, 0.0);

   /// The center point along the left edge.
   static const FractionalOffset centerLeft = FractionalOffset(0.0, 0.5);

   /// The center point, both horizontally and vertically.
   static const FractionalOffset center = FractionalOffset(0.5, 0.5);

   /// The center point along the right edge.
   static const FractionalOffset centerRight = FractionalOffset(1.0, 0.5);

   /// The bottom left corner.
   static const FractionalOffset bottomLeft = FractionalOffset(0.0, 1.0);

   /// The center point along the bottom edge.
   static const FractionalOffset bottomCenter = FractionalOffset(0.5, 1.0);

   /// The bottom right corner.
   static const FractionalOffset bottomRight = FractionalOffset(1.0, 1.0);

   @override
   Alignment operator -(Alignment other) {
     if (other is! FractionalOffset)
       return super - other;
     return FractionalOffset(dx - other.dx, dy - other.dy);
   }

   @override
   Alignment operator +(Alignment other) {
     if (other is! FractionalOffset)
       return super + other;
     return FractionalOffset(dx + other.dx, dy + other.dy);
   }

   @override
   FractionalOffset operator -() {
     return FractionalOffset(-dx, -dy);
   }

   @override
   FractionalOffset operator *(double other) {
     return FractionalOffset(dx * other, dy * other);
   }

   @override
   FractionalOffset operator /(double other) {
     return FractionalOffset(dx / other, dy / other);
   }

   @override
   FractionalOffset operator ~/(double other) {
     return FractionalOffset((dx ~/ other).toDouble(), (dy ~/ other).toDouble());
   }

   @override
   FractionalOffset operator %(double other) {
     return FractionalOffset(dx % other, dy % other);
   }

   /// Linearly interpolate between two [FractionalOffset]s.
   ///
   /// If either is null, this function interpolates from [FractionalOffset.center].
   ///
   /// {@macro dart.ui.shadow.lerp}
   static FractionalOffset? lerp(FractionalOffset? a, FractionalOffset? b, double t) {
     assert(t != null);
     if (a == null && b == null)
       return null;
     if (a == null)
       return FractionalOffset(ui.lerpDouble(0.5, b!.dx, t)!, ui.lerpDouble(0.5, b.dy, t)!);
     if (b == null)
       return FractionalOffset(ui.lerpDouble(a.dx, 0.5, t)!, ui.lerpDouble(a.dy, 0.5, t)!);
     return FractionalOffset(ui.lerpDouble(a.dx, b.dx, t)!, ui.lerpDouble(a.dy, b.dy, t)!);
   }

   @override
   String toString() {
     return 'FractionalOffset(${dx.toStringAsFixed(1)}, '
                             '${dy.toStringAsFixed(1)})';
   }
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.


	import 'dart:ui' as ui show lerpDouble;

	import 'package:flutter/foundation.dart';

	import 'alignment.dart';
	import 'basic_types.dart';

	/// An offset that's expressed as a fraction of a [Size].
	///
	/// `FractionalOffset(1.0, 0.0)` represents the top right of the [Size].
	///
	/// `FractionalOffset(0.0, 1.0)` represents the bottom left of the [Size].
	///
	/// `FractionalOffset(0.5, 2.0)` represents a point half way across the [Size],
	/// below the bottom of the rectangle by the height of the [Size].
	///
	/// The [FractionalOffset] class specifies offsets in terms of a distance from
	/// the top left, regardless of the [TextDirection].
	///
	/// ## Design discussion
	///
	/// [FractionalOffset] and [Alignment] are two different representations of the
	/// same information: the location within a rectangle relative to the size of
	/// the rectangle. The difference between the two classes is in the coordinate
	/// system they use to represent the location.
	///
	/// [FractionalOffset] uses a coordinate system with an origin in the top-left
	/// corner of the rectangle whereas [Alignment] uses a coordinate system with an
	/// origin in the center of the rectangle.
	///
	/// Historically, [FractionalOffset] predates [Alignment]. When we attempted to
	/// make a version of [FractionalOffset] that adapted to the [TextDirection], we
	/// ran into difficulty because placing the origin in the top-left corner
	/// introduced a left-to-right bias that was hard to remove.
	///
	/// By placing the origin in the center, [Alignment] and [AlignmentDirectional]
	/// are able to use the same origin, which means we can use a linear function to
	/// resolve an [AlignmentDirectional] into an [Alignment] in both
	/// [TextDirection.rtl] and [TextDirection.ltr].
	///
	/// [Alignment] is better for most purposes than [FractionalOffset] and should
	/// be used instead of [FractionalOffset]. We continue to implement
	/// [FractionalOffset] to support code that predates [Alignment].
	///
	/// See also:
	///
	/// * [Alignment], which uses a coordinate system based on the center of the
	/// rectangle instead of the top left corner of the rectangle.
	@immutable
	class FractionalOffset extends Alignment {
	/// Creates a fractional offset.
	///
	/// The [dx] and [dy] arguments must not be null.
	const FractionalOffset(double dx, double dy)
	: assert(dx != null),
	assert(dy != null),
	super(dx * 2.0 - 1.0, dy * 2.0 - 1.0);

	/// Creates a fractional offset from a specific offset and size.
	///
	/// The returned [FractionalOffset] describes the position of the
	/// [Offset] in the [Size], as a fraction of the [Size].
	factory FractionalOffset.fromOffsetAndSize(Offset offset, Size size) {
	assert(size != null);
	assert(offset != null);
	return FractionalOffset(
	offset.dx / size.width,
	offset.dy / size.height,
	);
	}

	/// Creates a fractional offset from a specific offset and rectangle.
	///
	/// The offset is assumed to be relative to the same origin as the rectangle.
	///
	/// If the offset is relative to the top left of the rectangle, use [new
	/// FractionalOffset.fromOffsetAndSize] instead, passing `rect.size`.
	///
	/// The returned [FractionalOffset] describes the position of the
	/// [Offset] in the [Rect], as a fraction of the [Rect].
	factory FractionalOffset.fromOffsetAndRect(Offset offset, Rect rect) {
	return FractionalOffset.fromOffsetAndSize(
	offset - rect.topLeft,
	rect.size,
	);
	}

	/// The distance fraction in the horizontal direction.
	///
	/// A value of 0.0 corresponds to the leftmost edge. A value of 1.0
	/// corresponds to the rightmost edge. Values are not limited to that range;
	/// negative values represent positions to the left of the left edge, and
	/// values greater than 1.0 represent positions to the right of the right
	/// edge.
	double get dx => (x + 1.0) / 2.0;

	/// The distance fraction in the vertical direction.
	///
	/// A value of 0.0 corresponds to the topmost edge. A value of 1.0 corresponds
	/// to the bottommost edge. Values are not limited to that range; negative
	/// values represent positions above the top, and values greater than 1.0
	/// represent positions below the bottom.
	double get dy => (y + 1.0) / 2.0;

	/// The top left corner.
	static const FractionalOffset topLeft = FractionalOffset(0.0, 0.0);

	/// The center point along the top edge.
	static const FractionalOffset topCenter = FractionalOffset(0.5, 0.0);

	/// The top right corner.
	static const FractionalOffset topRight = FractionalOffset(1.0, 0.0);

	/// The center point along the left edge.
	static const FractionalOffset centerLeft = FractionalOffset(0.0, 0.5);

	/// The center point, both horizontally and vertically.
	static const FractionalOffset center = FractionalOffset(0.5, 0.5);

	/// The center point along the right edge.
	static const FractionalOffset centerRight = FractionalOffset(1.0, 0.5);

	/// The bottom left corner.
	static const FractionalOffset bottomLeft = FractionalOffset(0.0, 1.0);

	/// The center point along the bottom edge.
	static const FractionalOffset bottomCenter = FractionalOffset(0.5, 1.0);

	/// The bottom right corner.
	static const FractionalOffset bottomRight = FractionalOffset(1.0, 1.0);

	@override
	Alignment operator -(Alignment other) {
	if (other is! FractionalOffset)
	return super - other;
	return FractionalOffset(dx - other.dx, dy - other.dy);
	}

	@override
	Alignment operator +(Alignment other) {
	if (other is! FractionalOffset)
	return super + other;
	return FractionalOffset(dx + other.dx, dy + other.dy);
	}

	@override
	FractionalOffset operator -() {
	return FractionalOffset(-dx, -dy);
	}

	@override
	FractionalOffset operator *(double other) {
	return FractionalOffset(dx * other, dy * other);
	}

	@override
	FractionalOffset operator /(double other) {
	return FractionalOffset(dx / other, dy / other);
	}

	@override
	FractionalOffset operator ~/(double other) {
	return FractionalOffset((dx ~/ other).toDouble(), (dy ~/ other).toDouble());
	}

	@override
	FractionalOffset operator %(double other) {
	return FractionalOffset(dx % other, dy % other);
	}

	/// Linearly interpolate between two [FractionalOffset]s.
	///
	/// If either is null, this function interpolates from [FractionalOffset.center].
	///
	/// {@macro dart.ui.shadow.lerp}
	static FractionalOffset? lerp(FractionalOffset? a, FractionalOffset? b, double t) {
	assert(t != null);
	if (a == null && b == null)
	return null;
	if (a == null)
	return FractionalOffset(ui.lerpDouble(0.5, b!.dx, t)!, ui.lerpDouble(0.5, b.dy, t)!);
	if (b == null)
	return FractionalOffset(ui.lerpDouble(a.dx, 0.5, t)!, ui.lerpDouble(a.dy, 0.5, t)!);
	return FractionalOffset(ui.lerpDouble(a.dx, b.dx, t)!, ui.lerpDouble(a.dy, b.dy, t)!);
	}

	@override
	String toString() {
	return 'FractionalOffset(${dx.toStringAsFixed(1)}, '
	'${dy.toStringAsFixed(1)})';
	}
	}