mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
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178 lines
5.6 KiB
Go
178 lines
5.6 KiB
Go
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// Copyright 2014 Google Inc. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package r1
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import (
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"fmt"
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"math"
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)
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// Interval represents a closed interval on ℝ.
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// Zero-length intervals (where Lo == Hi) represent single points.
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// If Lo > Hi then the interval is empty.
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type Interval struct {
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Lo, Hi float64
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}
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// EmptyInterval returns an empty interval.
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func EmptyInterval() Interval { return Interval{1, 0} }
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// IntervalFromPoint returns an interval representing a single point.
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func IntervalFromPoint(p float64) Interval { return Interval{p, p} }
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// IsEmpty reports whether the interval is empty.
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func (i Interval) IsEmpty() bool { return i.Lo > i.Hi }
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// Equal returns true iff the interval contains the same points as oi.
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func (i Interval) Equal(oi Interval) bool {
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return i == oi || i.IsEmpty() && oi.IsEmpty()
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}
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// Center returns the midpoint of the interval.
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// It is undefined for empty intervals.
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func (i Interval) Center() float64 { return 0.5 * (i.Lo + i.Hi) }
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// Length returns the length of the interval.
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// The length of an empty interval is negative.
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func (i Interval) Length() float64 { return i.Hi - i.Lo }
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// Contains returns true iff the interval contains p.
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func (i Interval) Contains(p float64) bool { return i.Lo <= p && p <= i.Hi }
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// ContainsInterval returns true iff the interval contains oi.
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func (i Interval) ContainsInterval(oi Interval) bool {
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if oi.IsEmpty() {
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return true
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}
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return i.Lo <= oi.Lo && oi.Hi <= i.Hi
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}
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// InteriorContains returns true iff the interval strictly contains p.
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func (i Interval) InteriorContains(p float64) bool {
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return i.Lo < p && p < i.Hi
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}
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// InteriorContainsInterval returns true iff the interval strictly contains oi.
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func (i Interval) InteriorContainsInterval(oi Interval) bool {
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if oi.IsEmpty() {
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return true
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}
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return i.Lo < oi.Lo && oi.Hi < i.Hi
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}
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// Intersects returns true iff the interval contains any points in common with oi.
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func (i Interval) Intersects(oi Interval) bool {
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if i.Lo <= oi.Lo {
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return oi.Lo <= i.Hi && oi.Lo <= oi.Hi // oi.Lo ∈ i and oi is not empty
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}
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return i.Lo <= oi.Hi && i.Lo <= i.Hi // i.Lo ∈ oi and i is not empty
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}
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// InteriorIntersects returns true iff the interior of the interval contains any points in common with oi, including the latter's boundary.
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func (i Interval) InteriorIntersects(oi Interval) bool {
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return oi.Lo < i.Hi && i.Lo < oi.Hi && i.Lo < i.Hi && oi.Lo <= oi.Hi
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}
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// Intersection returns the interval containing all points common to i and j.
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func (i Interval) Intersection(j Interval) Interval {
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// Empty intervals do not need to be special-cased.
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return Interval{
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Lo: math.Max(i.Lo, j.Lo),
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Hi: math.Min(i.Hi, j.Hi),
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}
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}
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// AddPoint returns the interval expanded so that it contains the given point.
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func (i Interval) AddPoint(p float64) Interval {
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if i.IsEmpty() {
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return Interval{p, p}
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}
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if p < i.Lo {
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return Interval{p, i.Hi}
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}
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if p > i.Hi {
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return Interval{i.Lo, p}
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}
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return i
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}
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// ClampPoint returns the closest point in the interval to the given point "p".
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// The interval must be non-empty.
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func (i Interval) ClampPoint(p float64) float64 {
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return math.Max(i.Lo, math.Min(i.Hi, p))
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}
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// Expanded returns an interval that has been expanded on each side by margin.
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// If margin is negative, then the function shrinks the interval on
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// each side by margin instead. The resulting interval may be empty. Any
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// expansion of an empty interval remains empty.
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func (i Interval) Expanded(margin float64) Interval {
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if i.IsEmpty() {
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return i
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}
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return Interval{i.Lo - margin, i.Hi + margin}
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}
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// Union returns the smallest interval that contains this interval and the given interval.
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func (i Interval) Union(other Interval) Interval {
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if i.IsEmpty() {
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return other
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}
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if other.IsEmpty() {
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return i
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}
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return Interval{math.Min(i.Lo, other.Lo), math.Max(i.Hi, other.Hi)}
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}
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func (i Interval) String() string { return fmt.Sprintf("[%.7f, %.7f]", i.Lo, i.Hi) }
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const (
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// epsilon is a small number that represents a reasonable level of noise between two
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// values that can be considered to be equal.
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epsilon = 1e-15
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// dblEpsilon is a smaller number for values that require more precision.
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// This is the C++ DBL_EPSILON equivalent.
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dblEpsilon = 2.220446049250313e-16
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)
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// ApproxEqual reports whether the interval can be transformed into the
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// given interval by moving each endpoint a small distance.
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// The empty interval is considered to be positioned arbitrarily on the
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// real line, so any interval with a small enough length will match
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// the empty interval.
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func (i Interval) ApproxEqual(other Interval) bool {
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if i.IsEmpty() {
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return other.Length() <= 2*epsilon
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}
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if other.IsEmpty() {
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return i.Length() <= 2*epsilon
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}
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return math.Abs(other.Lo-i.Lo) <= epsilon &&
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math.Abs(other.Hi-i.Hi) <= epsilon
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}
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// DirectedHausdorffDistance returns the Hausdorff distance to the given interval. For two
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// intervals x and y, this distance is defined as
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// h(x, y) = max_{p in x} min_{q in y} d(p, q).
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func (i Interval) DirectedHausdorffDistance(other Interval) float64 {
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if i.IsEmpty() {
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return 0
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}
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if other.IsEmpty() {
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return math.Inf(1)
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}
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return math.Max(0, math.Max(i.Hi-other.Hi, other.Lo-i.Lo))
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}
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