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authorZackaryWelch <welch.zackary@gmail.com>2017-06-19 16:26:47 -0400
committerZackaryWelch <welch.zackary@gmail.com>2017-06-19 16:27:13 -0400
commit0f40a66e52537f31a45a00d73202e1ceb496ca73 (patch)
treea03030f38d18b563b20b5e5819f0877c4e7b4dac /src-qt5/desktop-utils/lumina-textedit/tests/test.go
parentMerge branch 'master' of github.com:trueos/lumina (diff)
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Added Go rules and corrected number highlighting syntax
Diffstat (limited to 'src-qt5/desktop-utils/lumina-textedit/tests/test.go')
-rw-r--r--src-qt5/desktop-utils/lumina-textedit/tests/test.go185
1 files changed, 185 insertions, 0 deletions
diff --git a/src-qt5/desktop-utils/lumina-textedit/tests/test.go b/src-qt5/desktop-utils/lumina-textedit/tests/test.go
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+++ b/src-qt5/desktop-utils/lumina-textedit/tests/test.go
@@ -0,0 +1,185 @@
+// Source: https://github.com/golang/geo
+/*
+Copyright 2014 Google Inc. All rights reserved.
+
+Licensed under the Apache License, Version 2.0 (the "License");
+you may not use this file except in compliance with the License.
+You may obtain a copy of the License at
+
+ http://www.apache.org/licenses/LICENSE-2.0
+
+Unless required by applicable law or agreed to in writing, software
+distributed under the License is distributed on an "AS IS" BASIS,
+WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+See the License for the specific language governing permissions and
+limitations under the License.
+*/
+
+package r3
+
+import (
+ "fmt"
+ "math"
+
+ "github.com/golang/geo/s1"
+)
+
+// Vector represents a point in ℝ³.
+type Vector struct {
+ X, Y, Z float64
+}
+
+// ApproxEqual reports whether v and ov are equal within a small epsilon.
+func (v Vector) ApproxEqual(ov Vector) bool {
+ const epsilon = 1e-16
+ return math.Abs(v.X-ov.X) < epsilon && math.Abs(v.Y-ov.Y) < epsilon && math.Abs(v.Z-ov.Z) < epsilon
+}
+
+func (v Vector) String() string { return fmt.Sprintf("(%0.24f, %0.24f, %0.24f)", v.X, v.Y, v.Z) }
+
+// Norm returns the vector's norm.
+func (v Vector) Norm() float64 { return math.Sqrt(v.Dot(v)) }
+
+// Norm2 returns the square of the norm.
+func (v Vector) Norm2() float64 { return v.Dot(v) }
+
+// Normalize returns a unit vector in the same direction as v.
+func (v Vector) Normalize() Vector {
+ if v == (Vector{0, 0, 0}) {
+ return v
+ }
+ return v.Mul(1 / v.Norm())
+}
+
+// IsUnit returns whether this vector is of approximately unit length.
+func (v Vector) IsUnit() bool {
+ const epsilon = 5e-14
+ return math.Abs(v.Norm2()-1) <= epsilon
+}
+
+// Abs returns the vector with nonnegative components.
+func (v Vector) Abs() Vector { return Vector{math.Abs(v.X), math.Abs(v.Y), math.Abs(v.Z)} }
+
+// Add returns the standard vector sum of v and ov.
+func (v Vector) Add(ov Vector) Vector { return Vector{v.X + ov.X, v.Y + ov.Y, v.Z + ov.Z} }
+
+// Sub returns the standard vector difference of v and ov.
+func (v Vector) Sub(ov Vector) Vector { return Vector{v.X - ov.X, v.Y - ov.Y, v.Z - ov.Z} }
+
+// Mul returns the standard scalar product of v and m.
+func (v Vector) Mul(m float64) Vector { return Vector{m * v.X, m * v.Y, m * v.Z} }
+
+// Dot returns the standard dot product of v and ov.
+func (v Vector) Dot(ov Vector) float64 { return v.X*ov.X + v.Y*ov.Y + v.Z*ov.Z }
+
+// Cross returns the standard cross product of v and ov.
+func (v Vector) Cross(ov Vector) Vector {
+ return Vector{
+ v.Y*ov.Z - v.Z*ov.Y,
+ v.Z*ov.X - v.X*ov.Z,
+ v.X*ov.Y - v.Y*ov.X,
+ }
+}
+
+// Distance returns the Euclidean distance between v and ov.
+func (v Vector) Distance(ov Vector) float64 { return v.Sub(ov).Norm() }
+
+// Angle returns the angle between v and ov.
+func (v Vector) Angle(ov Vector) s1.Angle {
+ return s1.Angle(math.Atan2(v.Cross(ov).Norm(), v.Dot(ov))) * s1.Radian
+}
+
+// Axis enumerates the 3 axes of ℝ³.
+type Axis int
+
+// The three axes of ℝ³.
+const (
+ XAxis Axis = iota
+ YAxis
+ ZAxis
+)
+
+// Ortho returns a unit vector that is orthogonal to v.
+// Ortho(-v) = -Ortho(v) for all v.
+func (v Vector) Ortho() Vector {
+ ov := Vector{0.012, 0.0053, 0.00457}
+ switch v.LargestComponent() {
+ case XAxis:
+ ov.Z = 1
+ case YAxis:
+ ov.X = 1
+ default:
+ ov.Y = 1
+ }
+ return v.Cross(ov).Normalize()
+}
+
+// LargestComponent returns the axis that represents the largest component in this vector.
+func (v Vector) LargestComponent() Axis {
+ t := v.Abs()
+
+ if t.X > t.Y {
+ if t.X > t.Z {
+ return XAxis
+ }
+ return ZAxis
+ }
+ if t.Y > t.Z {
+ return YAxis
+ }
+ return ZAxis
+}
+
+// SmallestComponent returns the axis that represents the smallest component in this vector.
+func (v Vector) SmallestComponent() Axis {
+ t := v.Abs()
+
+ if t.X < t.Y {
+ if t.X < t.Z {
+ return XAxis
+ }
+ return ZAxis
+ }
+ if t.Y < t.Z {
+ return YAxis
+ }
+ return ZAxis
+}
+
+// Cmp compares v and ov lexicographically and returns:
+//
+// -1 if v < ov
+// 0 if v == ov
+// +1 if v > ov
+//
+// This method is based on C++'s std::lexicographical_compare. Two entities
+// are compared element by element with the given operator. The first mismatch
+// defines which is less (or greater) than the other. If both have equivalent
+// values they are lexicographically equal.
+func (v Vector) Cmp(ov Vector) int {
+ if v.X < ov.X {
+ return -1
+ }
+ if v.X > ov.X {
+ return 1
+ }
+
+ // First elements were the same, try the next.
+ if v.Y < ov.Y {
+ return -1
+ }
+ if v.Y > ov.Y {
+ return 1
+ }
+
+ // Second elements were the same return the final compare.
+ if v.Z < ov.Z {
+ return -1
+ }
+ if v.Z > ov.Z {
+ return 1
+ }
+
+ // Both are equal
+ return 0
+}
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