gim: make outgoing edges also be split along the rectangle
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905b182467
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faf41c7386
@ -41,6 +41,24 @@ func abs(i int) int {
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return i
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}
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// Abs returns the XY with all fields made positive, if they weren't already
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func (xy XY) Abs() XY {
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return XY{abs(xy[0]), abs(xy[1])}
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}
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// Unit returns the XY with each field divided by its absolute value (i.e.
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// scaled down to 1 or -1). Fields which are 0 are left alone
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func (xy XY) Unit() XY {
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for i := range xy {
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if xy[i] > 0 {
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xy[i] = 1
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} else if xy[i] < 0 {
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xy[i] = -1
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}
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}
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return xy
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}
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// Len returns the length (aka magnitude) of the XY as a vector, using the
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// Rounder to round to an int
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func (xy XY) Len(r Rounder) int {
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50
gim/line.go
50
gim/line.go
@ -41,58 +41,24 @@ var arrows = map[geo.XY]string{
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type line struct {
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from, to *box
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toI int
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fromI, toI int
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}
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// given the "primary" direction the line should be headed, picks a possible
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// secondary one which may be used to detour along the path in order to reach
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// the destination (in the case that the two boxes are diagonal from each other)
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func (l line) secondaryDir(primary geo.XY) geo.XY {
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fromRect, toRect := l.from.rect(), l.to.rect()
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rels := make([]int, len(geo.Units))
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for i, dir := range geo.Units {
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rels[i] = toRect.EdgeCoord(dir.Inv()) - fromRect.EdgeCoord(dir)
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if dir == geo.Up || dir == geo.Left {
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rels[i] *= -1
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}
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}
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var secondary geo.XY
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var secondaryMax int
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var secondarySet bool
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for i, rel := range rels {
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if geo.Units[i] == primary {
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continue
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} else if geo.Units[i][0] == 0 && primary[0] == 0 {
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continue
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} else if geo.Units[i][1] == 0 && primary[1] == 0 {
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continue
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} else if !secondarySet || rel > secondaryMax {
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secondary = geo.Units[i]
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secondaryMax = rel
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secondarySet = true
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}
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}
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return secondary
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func secondaryDir(flowDir, start, end geo.XY) geo.XY {
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var perpDir geo.XY
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perpDir[0], perpDir[1] = flowDir[1], flowDir[0]
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return end.Sub(start).Mul(perpDir.Abs()).Unit()
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}
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//func (l line) startEnd(flowDir, secFlowDir geo.XY) (geo.XY, geo.XY) {
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// from, to := *(l.from), *(l.to)
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// start := from.rect().EdgeMidpoint(flowDir, rounder) // ezpz
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//}
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func (l line) draw(term *terminal.Terminal, flowDir, secFlowDir geo.XY) {
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from, to := *(l.from), *(l.to)
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dirSec := l.secondaryDir(flowDir)
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flowDirInv := flowDir.Inv()
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start := from.rect().Edge(flowDir, secFlowDir).Midpoint(rounder)
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endSlot := l.toI*2 + 1
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endSlotXY := geo.XY{endSlot, endSlot}
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end := to.rect().Edge(flowDirInv, secFlowDir)[0].Add(secFlowDir.Mul(endSlotXY))
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start := from.rect().Edge(flowDir, secFlowDir)[0].Add(secFlowDir.Scale(l.fromI*2 + 1))
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end := to.rect().Edge(flowDir.Inv(), secFlowDir)[0].Add(secFlowDir.Scale(l.toI*2 + 1))
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dirSec := secondaryDir(flowDir, start, end)
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mid := start.Midpoint(end, rounder)
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along := func(xy, dir geo.XY) int {
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11
gim/main.go
11
gim/main.go
@ -17,7 +17,7 @@ import (
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// - Absolute positioning of some/all vertices
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// TODO
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// - assign edges to "slots" on boxes
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// - in current example, order of edges leaving "a" is fucked
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// - edge values
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// - be able to draw circular graphs
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// - audit all steps, make sure everything is deterministic
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@ -76,8 +76,8 @@ func mkGraph() (*gg.Graph, gg.Value) {
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func main() {
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rand.Seed(time.Now().UnixNano())
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term := terminal.New()
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term.Reset()
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term.HideCursor()
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//term.Reset()
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//term.HideCursor()
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g, start := mkGraph()
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v := view{
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@ -88,9 +88,10 @@ func main() {
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center: geo.Zero.Midpoint(term.WindowSize(), rounder),
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}
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for range time.Tick(frameperiod) {
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//for range time.Tick(frameperiod) {
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term.Reset()
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v.draw(term)
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term.Flush()
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}
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//}
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time.Sleep(1 * time.Hour)
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}
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18
gim/view.go
18
gim/view.go
@ -146,13 +146,29 @@ func (view *view) draw(term *terminal.Terminal) {
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primPos += maxPrim + primPadding
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}
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// returns the index of this edge in from's Out
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// TODO this might not be deterministic? Out is never ordered technically
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findFromI := func(from *gg.Vertex, e gg.Edge) int {
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for i, fe := range from.Out {
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if fe == e {
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return i
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}
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}
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panic("edge not found in from.Out")
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}
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// create lines
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var lines []line
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for _, b := range boxes {
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v := boxesM[b]
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for i, e := range v.In {
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bFrom := boxesMr[e.From]
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lines = append(lines, line{from: bFrom, to: b, toI: i})
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lines = append(lines, line{
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from: bFrom,
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fromI: findFromI(e.From, e),
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to: b,
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toI: i,
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})
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}
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}
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