ginger/gim/view.go

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package main
import (
"sort"
"github.com/mediocregopher/ginger/gg"
"github.com/mediocregopher/ginger/gim/constraint"
"github.com/mediocregopher/ginger/gim/geo"
"github.com/mediocregopher/ginger/gim/terminal"
)
// "Solves" vertex position by detemining relative positions of vertices in
// primary and secondary directions (independently), with relative positions
// being described by "levels", where multiple vertices can occupy one level.
//
// Primary determines relative position in the primary direction by trying
// to place vertices before their outs and after their ins.
//
// Secondary determines relative position in the secondary direction by
// trying to place vertices relative to vertices they share an edge with in
// the order that the edges appear on the shared node.
func posSolve(g *gg.Graph) ([][]*gg.Vertex, map[string]int, map[string]int) {
primEng := constraint.NewEngine()
secEng := constraint.NewEngine()
strM := g.ByID()
for _, v := range strM {
var prevIn *gg.Vertex
for _, e := range v.In {
primEng.AddConstraint(constraint.Constraint{
Elem: e.From.ID,
LT: v.ID,
})
if prevIn != nil {
secEng.AddConstraint(constraint.Constraint{
Elem: prevIn.ID,
LT: e.From.ID,
})
}
prevIn = e.From
}
var prevOut *gg.Vertex
for _, e := range v.Out {
if prevOut == nil {
continue
}
secEng.AddConstraint(constraint.Constraint{
Elem: prevOut.ID,
LT: e.To.ID,
})
prevOut = e.To
}
}
prim := primEng.Solve()
sec := secEng.Solve()
// determine maximum primary level
var maxPrim int
for _, lvl := range prim {
if lvl > maxPrim {
maxPrim = lvl
}
}
outStr := make([][]string, maxPrim+1)
for v, lvl := range prim {
outStr[lvl] = append(outStr[lvl], v)
}
// sort each primary level
for _, vv := range outStr {
sort.Slice(vv, func(i, j int) bool {
return sec[vv[i]] < sec[vv[j]]
})
}
// convert to vertices
out := make([][]*gg.Vertex, len(outStr))
for i, vv := range outStr {
out[i] = make([]*gg.Vertex, len(outStr[i]))
for j, v := range vv {
out[i][j] = strM[v]
}
}
return out, prim, sec
}
type view struct {
g *gg.Graph
primFlowDir, secFlowDir geo.XY
start gg.Value
}
func (view *view) draw(buf *terminal.Buffer) {
relPos, _, secSol := posSolve(view.g)
// create boxes
var boxes []*box
boxesM := map[*box]*gg.Vertex{}
boxesMr := map[*gg.Vertex]*box{}
const (
primPadding = 5
secPadding = 1
)
var primPos int
for _, vv := range relPos {
var primBoxes []*box // boxes on just this level
var maxPrim int
var secPos int
for _, v := range vv {
primVec := view.primFlowDir.Scale(primPos)
secVec := view.secFlowDir.Scale(secPos)
b := boxFromVertex(v, view.primFlowDir)
b.topLeft = primVec.Add(secVec)
boxes = append(boxes, &b)
primBoxes = append(primBoxes, &b)
boxesM[&b] = v
boxesMr[v] = &b
bSize := b.rect().Size
primBoxLen := bSize.Mul(view.primFlowDir).Len()
secBoxLen := bSize.Mul(view.secFlowDir).Len()
if primBoxLen > maxPrim {
maxPrim = primBoxLen
}
secPos += secBoxLen + secPadding
}
for _, b := range primBoxes {
b.topLeft = b.topLeft.Add(view.primFlowDir.Scale(primPos))
}
primPos += maxPrim + primPadding
}
// maps a vertex to all of its to edges, sorted by secSol
findFromIM := map[*gg.Vertex][]gg.Edge{}
// returns the index of this edge in from's Out
findFromI := func(from *gg.Vertex, e gg.Edge) int {
edges, ok := findFromIM[from]
if !ok {
edges = make([]gg.Edge, len(from.Out))
copy(edges, from.Out)
sort.Slice(edges, func(i, j int) bool {
// TODO if two edges go to the same vertex, how are they sorted?
return secSol[edges[i].To.ID] < secSol[edges[j].To.ID]
})
findFromIM[from] = edges
}
for i, fe := range edges {
if fe == e {
return i
}
}
panic("edge not found in from.Out")
}
// create lines
var lines []line
for _, b := range boxes {
v := boxesM[b]
for i, e := range v.In {
bFrom := boxesMr[e.From]
fromI := findFromI(e.From, e)
buf := terminal.NewBuffer()
buf.WriteString(e.Value.V.(string))
lines = append(lines, line{
from: bFrom,
fromI: fromI,
to: b,
toI: i,
bodyBuf: buf,
})
}
}
// actually draw the boxes and lines
for _, b := range boxes {
b.draw(buf)
}
for _, line := range lines {
line.draw(buf, view.primFlowDir, view.secFlowDir)
}
}