This commit is contained in:
Will Charczuk 2017-05-16 13:31:36 -07:00
parent 51f3cca5d7
commit 5936b89e89
6 changed files with 266 additions and 139 deletions

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@ -32,11 +32,17 @@ func drawChart(res http.ResponseWriter, req *http.Request) {
tbc := tb.Corners().Rotate(45)
chart.Draw.BoxCorners(r, tbc, chart.Style{
chart.Draw.Box2d(r, tbc, chart.Style{
StrokeColor: drawing.ColorRed,
StrokeWidth: 2,
})
tbc2 := tbc.Shift(tbc.Height(), 0)
chart.Draw.Box2d(r, tbc2, chart.Style{
StrokeColor: drawing.ColorGreen,
StrokeWidth: 2,
})
tbcb := tbc.Box()
chart.Draw.Box(r, tbcb, chart.Style{
StrokeColor: drawing.ColorBlue,

109
box.go
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@ -2,7 +2,6 @@ package chart
import (
"fmt"
"math"
util "github.com/wcharczuk/go-chart/util"
)
@ -166,12 +165,12 @@ func (b Box) Shift(x, y int) Box {
}
// Corners returns the box as a set of corners.
func (b Box) Corners() BoxCorners {
return BoxCorners{
TopLeft: Point{b.Left, b.Top},
TopRight: Point{b.Right, b.Top},
BottomRight: Point{b.Right, b.Bottom},
BottomLeft: Point{b.Left, b.Bottom},
func (b Box) Corners() Box2d {
return Box2d{
TopLeft: Point{float64(b.Left), float64(b.Top)},
TopRight: Point{float64(b.Right), float64(b.Top)},
BottomRight: Point{float64(b.Right), float64(b.Bottom)},
BottomLeft: Point{float64(b.Left), float64(b.Bottom)},
}
}
@ -255,99 +254,3 @@ func (b Box) OuterConstrain(bounds, other Box) Box {
}
return newBox
}
// BoxCorners is a box with independent corners.
type BoxCorners struct {
TopLeft, TopRight, BottomRight, BottomLeft Point
}
// Box return the BoxCorners as a regular box.
func (bc BoxCorners) Box() Box {
return Box{
Top: util.Math.MinInt(bc.TopLeft.Y, bc.TopRight.Y),
Left: util.Math.MinInt(bc.TopLeft.X, bc.BottomLeft.X),
Right: util.Math.MaxInt(bc.TopRight.X, bc.BottomRight.X),
Bottom: util.Math.MaxInt(bc.BottomLeft.Y, bc.BottomRight.Y),
}
}
// Width returns the width
func (bc BoxCorners) Width() int {
minLeft := util.Math.MinInt(bc.TopLeft.X, bc.BottomLeft.X)
maxRight := util.Math.MaxInt(bc.TopRight.X, bc.BottomRight.X)
return maxRight - minLeft
}
// Height returns the height
func (bc BoxCorners) Height() int {
minTop := util.Math.MinInt(bc.TopLeft.Y, bc.TopRight.Y)
maxBottom := util.Math.MaxInt(bc.BottomLeft.Y, bc.BottomRight.Y)
return maxBottom - minTop
}
// Center returns the center of the box
func (bc BoxCorners) Center() (x, y int) {
left := util.Math.MeanInt(bc.TopLeft.X, bc.BottomLeft.X)
right := util.Math.MeanInt(bc.TopRight.X, bc.BottomRight.X)
x = ((right - left) >> 1) + left
top := util.Math.MeanInt(bc.TopLeft.Y, bc.TopRight.Y)
bottom := util.Math.MeanInt(bc.BottomLeft.Y, bc.BottomRight.Y)
y = ((bottom - top) >> 1) + top
return
}
// Rotate rotates the box.
func (bc BoxCorners) Rotate(thetaDegrees float64) BoxCorners {
cx, cy := bc.Center()
thetaRadians := util.Math.DegreesToRadians(thetaDegrees)
tlx, tly := util.Math.RotateCoordinate(cx, cy, bc.TopLeft.X, bc.TopLeft.Y, thetaRadians)
trx, try := util.Math.RotateCoordinate(cx, cy, bc.TopRight.X, bc.TopRight.Y, thetaRadians)
brx, bry := util.Math.RotateCoordinate(cx, cy, bc.BottomRight.X, bc.BottomRight.Y, thetaRadians)
blx, bly := util.Math.RotateCoordinate(cx, cy, bc.BottomLeft.X, bc.BottomLeft.Y, thetaRadians)
return BoxCorners{
TopLeft: Point{tlx, tly},
TopRight: Point{trx, try},
BottomRight: Point{brx, bry},
BottomLeft: Point{blx, bly},
}
}
// Equals returns if the box equals another box.
func (bc BoxCorners) Equals(other BoxCorners) bool {
return bc.TopLeft.Equals(other.TopLeft) &&
bc.TopRight.Equals(other.TopRight) &&
bc.BottomRight.Equals(other.BottomRight) &&
bc.BottomLeft.Equals(other.BottomLeft)
}
func (bc BoxCorners) String() string {
return fmt.Sprintf("BoxC{%s,%s,%s,%s}", bc.TopLeft.String(), bc.TopRight.String(), bc.BottomRight.String(), bc.BottomLeft.String())
}
// Point is an X,Y pair
type Point struct {
X, Y int
}
// DistanceTo calculates the distance to another point.
func (p Point) DistanceTo(other Point) float64 {
dx := math.Pow(float64(p.X-other.X), 2)
dy := math.Pow(float64(p.Y-other.Y), 2)
return math.Pow(dx+dy, 0.5)
}
// Equals returns if a point equals another point.
func (p Point) Equals(other Point) bool {
return p.X == other.X && p.Y == other.Y
}
// String returns a string representation of the point.
func (p Point) String() string {
return fmt.Sprintf("P{%d,%d}", p.X, p.Y)
}

181
box_2d.go Normal file
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@ -0,0 +1,181 @@
package chart
import (
"fmt"
"math"
util "github.com/wcharczuk/go-chart/util"
)
// Box2d is a box with (4) independent corners.
// It is used when dealing with ~rotated~ boxes.
type Box2d struct {
TopLeft, TopRight, BottomRight, BottomLeft Point
}
// Points returns the constituent points of the box.
func (bc Box2d) Points() []Point {
return []Point{
bc.TopRight,
bc.BottomRight,
bc.BottomLeft,
bc.TopLeft,
}
}
// Box return the Box2d as a regular box.
func (bc Box2d) Box() Box {
return Box{
Top: int(math.Min(bc.TopLeft.Y, bc.TopRight.Y)),
Left: int(math.Min(bc.TopLeft.X, bc.BottomLeft.X)),
Right: int(math.Max(bc.TopRight.X, bc.BottomRight.X)),
Bottom: int(math.Max(bc.BottomLeft.Y, bc.BottomRight.Y)),
}
}
// Width returns the width
func (bc Box2d) Width() float64 {
minLeft := math.Min(bc.TopLeft.X, bc.BottomLeft.X)
maxRight := math.Max(bc.TopRight.X, bc.BottomRight.X)
return maxRight - minLeft
}
// Height returns the height
func (bc Box2d) Height() float64 {
minTop := math.Min(bc.TopLeft.Y, bc.TopRight.Y)
maxBottom := math.Max(bc.BottomLeft.Y, bc.BottomRight.Y)
return maxBottom - minTop
}
// Center returns the center of the box
func (bc Box2d) Center() (x, y float64) {
left := util.Math.Mean(bc.TopLeft.X, bc.BottomLeft.X)
right := util.Math.Mean(bc.TopRight.X, bc.BottomRight.X)
x = ((right - left) / 2.0) + left
top := util.Math.Mean(bc.TopLeft.Y, bc.TopRight.Y)
bottom := util.Math.Mean(bc.BottomLeft.Y, bc.BottomRight.Y)
y = ((bottom - top) / 2.0) + top
return
}
// Rotate rotates the box.
func (bc Box2d) Rotate(thetaDegrees float64) Box2d {
cx, cy := bc.Center()
thetaRadians := util.Math.DegreesToRadians(thetaDegrees)
tlx, tly := util.Math.RotateCoordinate(int(cx), int(cy), int(bc.TopLeft.X), int(bc.TopLeft.Y), thetaRadians)
trx, try := util.Math.RotateCoordinate(int(cx), int(cy), int(bc.TopRight.X), int(bc.TopRight.Y), thetaRadians)
brx, bry := util.Math.RotateCoordinate(int(cx), int(cy), int(bc.BottomRight.X), int(bc.BottomRight.Y), thetaRadians)
blx, bly := util.Math.RotateCoordinate(int(cx), int(cy), int(bc.BottomLeft.X), int(bc.BottomLeft.Y), thetaRadians)
return Box2d{
TopLeft: Point{float64(tlx), float64(tly)},
TopRight: Point{float64(trx), float64(try)},
BottomRight: Point{float64(brx), float64(bry)},
BottomLeft: Point{float64(blx), float64(bly)},
}
}
// Shift shifts a box by a given x and y value.
func (bc Box2d) Shift(x, y float64) Box2d {
return Box2d{
TopLeft: bc.TopLeft.Shift(x, y),
TopRight: bc.TopRight.Shift(x, y),
BottomRight: bc.BottomRight.Shift(x, y),
BottomLeft: bc.BottomLeft.Shift(x, y),
}
}
// Equals returns if the box equals another box.
func (bc Box2d) Equals(other Box2d) bool {
return bc.TopLeft.Equals(other.TopLeft) &&
bc.TopRight.Equals(other.TopRight) &&
bc.BottomRight.Equals(other.BottomRight) &&
bc.BottomLeft.Equals(other.BottomLeft)
}
// Overlaps returns if two boxes overlap.
func (bc Box2d) Overlaps(other Box2d) bool {
for _, polygon := range []Box2d{bc, other} {
points := polygon.Points()
for i1 := 0; i1 < len(points); i1++ {
i2 := (i1 + 1) % len(points)
p1 := polygon.Points()[i1]
p2 := polygon.Points()[i2]
normal := Point{X: p2.Y - p1.Y, Y: p1.X - p2.X}
minA := math.MaxFloat64
maxA := -math.MaxFloat64
for _, p := range bc.Points() {
projected := normal.X*p.X + normal.Y*p.Y
if projected < minA {
minA = projected
}
if projected > maxA {
maxA = projected
}
}
minB := math.MaxFloat64
maxB := -math.MaxFloat64
for _, p := range other.Points() {
projected := normal.X*p.X + normal.Y*p.Y
if projected < minB {
minB = projected
}
if projected > maxB {
maxB = projected
}
}
if maxA < minB || maxB < minA {
return false
}
}
}
return true
}
func (bc Box2d) String() string {
return fmt.Sprintf("BoxC{%s,%s,%s,%s}", bc.TopLeft.String(), bc.TopRight.String(), bc.BottomRight.String(), bc.BottomLeft.String())
}
// Point is an X,Y pair
type Point struct {
X, Y float64
}
// Shift shifts a point.
func (p Point) Shift(x, y float64) Point {
return Point{
X: p.X + x,
Y: p.Y + y,
}
}
// DistanceTo calculates the distance to another point.
func (p Point) DistanceTo(other Point) float64 {
dx := math.Pow(float64(p.X-other.X), 2)
dy := math.Pow(float64(p.Y-other.Y), 2)
return math.Pow(dx+dy, 0.5)
}
// Equals returns if a point equals another point.
func (p Point) Equals(other Point) bool {
return p.X == other.X && p.Y == other.Y
}
// String returns a string representation of the point.
func (p Point) String() string {
return fmt.Sprintf("P{%.2f,%.2f}", p.X, p.Y)
}

66
box_2d_test.go Normal file
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@ -0,0 +1,66 @@
package chart
import (
"fmt"
"testing"
assert "github.com/blendlabs/go-assert"
)
func TestBox2dCenter(t *testing.T) {
assert := assert.New(t)
bc := Box2d{
TopLeft: Point{5, 5},
TopRight: Point{15, 5},
BottomRight: Point{15, 15},
BottomLeft: Point{5, 15},
}
cx, cy := bc.Center()
assert.Equal(10, cx)
assert.Equal(10, cy)
}
func TestBox2dRotate(t *testing.T) {
assert := assert.New(t)
bc := Box2d{
TopLeft: Point{5, 5},
TopRight: Point{15, 5},
BottomRight: Point{15, 15},
BottomLeft: Point{5, 15},
}
rotated := bc.Rotate(45)
assert.True(rotated.TopLeft.Equals(Point{10, 3}), rotated.String())
}
func TestBox2dOverlaps(t *testing.T) {
assert := assert.New(t)
bc := Box2d{
TopLeft: Point{5, 5},
TopRight: Point{15, 5},
BottomRight: Point{15, 15},
BottomLeft: Point{5, 15},
}
// shift meaningfully the full width of bc right.
bc2 := bc.Shift(bc.Width()+1, 0)
assert.False(bc.Overlaps(bc2), fmt.Sprintf("%v\n\t\tshould not overlap\n\t%v", bc, bc2))
// shift meaningfully the full height of bc down.
bc3 := bc.Shift(0, bc.Height()+1)
assert.False(bc.Overlaps(bc3), fmt.Sprintf("%v\n\t\tshould not overlap\n\t%v", bc, bc3))
bc4 := bc.Shift(5, 0)
assert.True(bc.Overlaps(bc4))
bc5 := bc.Shift(0, 5)
assert.True(bc.Overlaps(bc5))
bcr := bc.Rotate(45)
bcr2 := bc.Rotate(45).Shift(bc.Height(), 0)
assert.False(bcr.Overlaps(bcr2), fmt.Sprintf("%v\n\t\tshould not overlap\n\t%v", bcr, bcr2))
}

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@ -157,32 +157,3 @@ func TestBoxCenter(t *testing.T) {
assert.Equal(15, cx)
assert.Equal(20, cy)
}
func TestBoxCornersCenter(t *testing.T) {
assert := assert.New(t)
bc := BoxCorners{
TopLeft: Point{5, 5},
TopRight: Point{15, 5},
BottomRight: Point{15, 15},
BottomLeft: Point{5, 15},
}
cx, cy := bc.Center()
assert.Equal(10, cx)
assert.Equal(10, cy)
}
func TestBoxCornersRotate(t *testing.T) {
assert := assert.New(t)
bc := BoxCorners{
TopLeft: Point{5, 5},
TopRight: Point{15, 5},
BottomRight: Point{15, 15},
BottomLeft: Point{5, 15},
}
rotated := bc.Rotate(45)
assert.True(rotated.TopLeft.Equals(Point{10, 3}), rotated.String())
}

12
draw.go
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@ -314,17 +314,17 @@ func (d draw) Box(r Renderer, b Box, s Style) {
}
func (d draw) BoxRotated(r Renderer, b Box, thetaDegrees float64, s Style) {
d.BoxCorners(r, b.Corners().Rotate(thetaDegrees), s)
d.Box2d(r, b.Corners().Rotate(thetaDegrees), s)
}
func (d draw) BoxCorners(r Renderer, bc BoxCorners, s Style) {
func (d draw) Box2d(r Renderer, bc Box2d, s Style) {
s.GetFillAndStrokeOptions().WriteToRenderer(r)
defer r.ResetStyle()
r.MoveTo(bc.TopLeft.X, bc.TopLeft.Y)
r.LineTo(bc.TopRight.X, bc.TopRight.Y)
r.LineTo(bc.BottomRight.X, bc.BottomRight.Y)
r.LineTo(bc.BottomLeft.X, bc.BottomLeft.Y)
r.MoveTo(int(bc.TopLeft.X), int(bc.TopLeft.Y))
r.LineTo(int(bc.TopRight.X), int(bc.TopRight.Y))
r.LineTo(int(bc.BottomRight.X), int(bc.BottomRight.Y))
r.LineTo(int(bc.BottomLeft.X), int(bc.BottomLeft.Y))
r.Close()
r.FillStroke()
}