packages/flutter/lib/src/painting/geometry.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:math' as math;

 import 'basic_types.dart';

 /// Position a child box within a container box, either above or below a target
 /// point.
 ///
 /// The container's size is described by `size`.
 ///
 /// The target point is specified by `target`, as an offset from the top left of
 /// the container.
 ///
 /// The child box's size is given by `childSize`.
 ///
 /// The return value is the suggested distance from the top left of the
 /// container box to the top left of the child box.
 ///
 /// The suggested position will be above the target point if `preferBelow` is
 /// false, and below the target point if it is true, unless it wouldn't fit on
 /// the preferred side but would fit on the other side.
 ///
 /// The suggested position will place the nearest side of the child to the
 /// target point `verticalOffset` from the target point (even if it cannot fit
 /// given that constraint).
 ///
 /// The suggested position will be at least `margin` away from the edge of the
 /// container. If possible, the child will be positioned so that its center is
 /// aligned with the target point. If the child cannot fit horizontally within
 /// the container given the margin, then the child will be centered in the
 /// container.
 ///
 /// Used by [Tooltip] to position a tooltip relative to its parent.
 ///
 /// The arguments must not be null.
 Offset positionDependentBox({
   required Size size,
   required Size childSize,
   required Offset target,
   required bool preferBelow,
   double verticalOffset = 0.0,
   double margin = 10.0,
 }) {
   assert(size != null);
   assert(childSize != null);
   assert(target != null);
   assert(verticalOffset != null);
   assert(preferBelow != null);
   assert(margin != null);
   // VERTICAL DIRECTION
   final bool fitsBelow = target.dy + verticalOffset + childSize.height <= size.height - margin;
   final bool fitsAbove = target.dy - verticalOffset - childSize.height >= margin;
   final bool tooltipBelow = preferBelow ? fitsBelow || !fitsAbove : !(fitsAbove || !fitsBelow);
   double y;
   if (tooltipBelow)
     y = math.min(target.dy + verticalOffset, size.height - margin);
   else
     y = math.max(target.dy - verticalOffset - childSize.height, margin);
   // HORIZONTAL DIRECTION
   double x;
   if (size.width - margin * 2.0 < childSize.width) {
     x = (size.width - childSize.width) / 2.0;
   } else {
     final double normalizedTargetX = target.dx.clamp(margin, size.width - margin);
     final double edge = margin + childSize.width / 2.0;
     if (normalizedTargetX < edge) {
       x = margin;
     } else if (normalizedTargetX > size.width - edge) {
       x = size.width - margin - childSize.width;
     } else {
       x = normalizedTargetX - childSize.width / 2.0;
     }
   }
   return Offset(x, y);
 }
	// 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:math' as math;

	import 'basic_types.dart';

	/// Position a child box within a container box, either above or below a target
	/// point.
	///
	/// The container's size is described by `size`.
	///
	/// The target point is specified by `target`, as an offset from the top left of
	/// the container.
	///
	/// The child box's size is given by `childSize`.
	///
	/// The return value is the suggested distance from the top left of the
	/// container box to the top left of the child box.
	///
	/// The suggested position will be above the target point if `preferBelow` is
	/// false, and below the target point if it is true, unless it wouldn't fit on
	/// the preferred side but would fit on the other side.
	///
	/// The suggested position will place the nearest side of the child to the
	/// target point `verticalOffset` from the target point (even if it cannot fit
	/// given that constraint).
	///
	/// The suggested position will be at least `margin` away from the edge of the
	/// container. If possible, the child will be positioned so that its center is
	/// aligned with the target point. If the child cannot fit horizontally within
	/// the container given the margin, then the child will be centered in the
	/// container.
	///
	/// Used by [Tooltip] to position a tooltip relative to its parent.
	///
	/// The arguments must not be null.
	Offset positionDependentBox({
	required Size size,
	required Size childSize,
	required Offset target,
	required bool preferBelow,
	double verticalOffset = 0.0,
	double margin = 10.0,
	}) {
	assert(size != null);
	assert(childSize != null);
	assert(target != null);
	assert(verticalOffset != null);
	assert(preferBelow != null);
	assert(margin != null);
	// VERTICAL DIRECTION
	final bool fitsBelow = target.dy + verticalOffset + childSize.height <= size.height - margin;
	final bool fitsAbove = target.dy - verticalOffset - childSize.height >= margin;
	final bool tooltipBelow = preferBelow ? fitsBelow \|\| !fitsAbove : !(fitsAbove \|\| !fitsBelow);
	double y;
	if (tooltipBelow)
	y = math.min(target.dy + verticalOffset, size.height - margin);
	else
	y = math.max(target.dy - verticalOffset - childSize.height, margin);
	// HORIZONTAL DIRECTION
	double x;
	if (size.width - margin * 2.0 < childSize.width) {
	x = (size.width - childSize.width) / 2.0;
	} else {
	final double normalizedTargetX = target.dx.clamp(margin, size.width - margin);
	final double edge = margin + childSize.width / 2.0;
	if (normalizedTargetX < edge) {
	x = margin;
	} else if (normalizedTargetX > size.width - edge) {
	x = size.width - margin - childSize.width;
	} else {
	x = normalizedTargetX - childSize.width / 2.0;
	}
	}
	return Offset(x, y);
	}