day18, example

day17/clumsyCrucible.go

@@ -11,7 +11,7 @@ import (
 
 func Run() int {
 	fmt.Println("hello from day 17")
-	filename := "day17/example"
+	filename := "day17/input"
 	field := NewField(filename)
 	log.Printf("%+v\n", field)
 
@@ -140,7 +140,7 @@ func (p *PathSegmentEnd) NextDirections2() (next []Direction) {
 		next = append(next, p.lastDirection)
 	}
 
-	log.Printf("getting directions from %+v they are %+v", p, next)
+	// log.Printf("getting directions from %+v they are %+v", p, next)
 	return
 }
 

day18/example

@@ -0,0 +1,14 @@
+R 6 (#70c710)
+D 5 (#0dc571)
+L 2 (#5713f0)
+D 2 (#d2c081)
+R 2 (#59c680)
+D 2 (#411b91)
+L 5 (#8ceee2)
+U 2 (#caa173)
+L 1 (#1b58a2)
+U 2 (#caa171)
+R 2 (#7807d2)
+U 3 (#a77fa3)
+L 2 (#015232)
+U 2 (#7a21e3)

day18/lagoon.go

@@ -0,0 +1,256 @@
+package day18
+
+import (
+	"fmt"
+	"log"
+	"os"
+	"slices"
+	"strconv"
+	"strings"
+)
+
+func Run() int {
+	fmt.Println("hello day 18")
+	log.Println("problem of lagoon bgins")
+	filename := "day18/example"
+	instructions := ReadInstructionas(filename)
+	h, w := calcHeightWidth(instructions)
+	field := CreateField(h, w)
+
+	fmt.Println(field.String())
+
+	field.digByInstructions(instructions)
+
+	fmt.Println(field.String())
+	// i'll start at (0,0), let's first just dig out the thing and check result
+	field.digInsides()
+
+	fmt.Println(field.String())
+
+	return field.countDugOut()
+}
+
+// determine size of field. max(sum(up), sum(down)) for height,
+// same for left and right,
+// translate (0,0) into center of the field
+//
+// have cells, with coord. and i guess four sides, with color.
+// i guess have directions, map[direction]color
+// and have 'opposite' on directoin.
+// for each direction apply it to cell coord, get cell, get opposite directoin and color it
+//
+// then have method on field and cell that excavates cell and colors all neighbors
+//
+// last part is filling in isides, should be ok with horizontal scans from left by even crossings
+
+type Direction int
+const (Upward Direction = iota
+Downward
+Leftward
+Rightward)
+
+func (d Direction)opposite() Direction {
+	switch d {
+    case Upward:
+		return Downward
+    case Downward:
+		return Upward
+    case Leftward:
+		return Rightward
+    case Rightward:
+		return Leftward
+	}
+	panic("unaccounted direction")
+}
+
+var DirectionNames []string = []string{"U", "D", "L", "R"}
+
+func (d Direction)String() string {
+	return DirectionNames[d]
+}
+func DirectionFromString(s string) Direction {
+	index := slices.Index(DirectionNames, s)
+	if index == -1 {
+		panic(fmt.Sprint("bad direction", s))
+	}
+	return Direction(index)
+}
+
+type Instruction struct {
+	Direction Direction
+	Steps int
+	Color string
+}
+
+func ReadInstructionas(filename string) (result []Instruction) {
+	bytes, err := os.ReadFile(filename)
+	if err != nil {
+		panic(fmt.Sprint("error reading file: ", filename))
+	}
+	text := strings.TrimSpace(string(bytes))
+	for _, line := range strings.Split(text, "\n") {
+		result = append(result, ReadInstruction(line))
+	}
+
+	return
+}
+
+func ReadInstruction(line string) Instruction {
+	fields := strings.Fields(line)
+	direction := DirectionFromString(fields[0])
+	steps, err := strconv.Atoi(fields[1])
+	if err != nil {
+		panic(fmt.Sprint("bad steps in line: ", line))
+	}
+	color := fields[2][1 : len(fields[2])-1]
+
+	return Instruction{Direction: direction, Steps: steps, Color: color}
+}
+
+func calcHeightWidth(instructions []Instruction) (height, width int) {
+	movements := make(map[Direction]int)
+	for _, instr := range instructions {
+		movements[instr.Direction] += instr.Steps
+	}
+	if movements[Downward] > movements[Upward] {
+		height = 2 * movements[Downward]
+	} else {
+		height = 2 * movements[Upward]
+	}
+
+	if movements[Leftward] > movements[Rightward] {
+		width = 2 * movements[Leftward]
+	} else {
+		width = 2 * movements[Rightward]
+	}
+
+	height += 10
+	width += 10
+
+	return
+}
+
+type Coord struct {
+	X, Y int
+}
+func (c Coord)applyDirection(d Direction) Coord {
+	switch d {
+    case Upward:
+		c.Y -= 1
+    case Downward:
+		c.Y += 1
+    case Leftward:
+		c.X -= 1
+    case Rightward:
+		c.X += 1
+	}
+
+	return c
+}
+
+type Cell struct {
+	IsDug bool
+	Walls map[Direction]string
+	Coord Coord
+}
+type Field struct {
+	Height, Width int
+	Cells [][]*Cell
+}
+
+func CreateField(height, width int) Field {
+	rows := make([][]*Cell, height)
+	for i := 0; i < height; i++ {
+		row := make([]*Cell, width)
+		rows[i] = row
+		for j := 0; j < width; j++ {
+			row[j] = &Cell{
+				Walls: make(map[Direction]string),
+			}
+		}
+	}
+	return Field{
+		Height: height, Width: width,
+		Cells: rows,
+	}
+}
+
+func (f *Field)coordToIndices(c Coord) (row, col int) {
+	row = c.Y + (f.Height/2)
+	col = c.X + (f.Width/2)
+	return
+}
+
+func (f *Field)digByInstructions(instructions []Instruction) {
+	runnerCoord := Coord{X: 0, Y: 0}
+	row, col := f.coordToIndices(runnerCoord)
+	f.Cells[row][col].IsDug = true
+
+	for _, instruction := range instructions {
+		for i := 0; i < instruction.Steps; i++ {
+			runnerCoord = runnerCoord.applyDirection(instruction.Direction)
+			row, col := f.coordToIndices(runnerCoord)
+			f.Cells[row][col].IsDug = true
+		}
+	}
+	return
+}
+
+func (f *Field)String() string {
+	s := "\n"
+	for _, row := range f.Cells {
+		for _, cell := range row {
+			if cell.IsDug {
+				s += "#"
+			} else {
+				s += "."
+			}
+		}
+		s += "\n"
+	}
+	return s
+}
+
+func (f *Field)digInsides() {
+	for row := 0; row < f.Height; row++ {
+		isInside := false
+		seenUp, seenDown := false, false // for detecting L---7 walls
+		for col := 0; col < f.Width - 1; col++ {
+			cellPtr := f.Cells[row][col]
+			rightCell := f.Cells[row][col+1]
+			if cellPtr.IsDug {
+				upCell := f.Cells[row-1][col]
+				downCell := f.Cells[row+1][col]
+				if !rightCell.IsDug {
+					if (upCell.IsDug && seenDown) || (downCell.IsDug && seenUp) {
+						isInside = !isInside
+					}
+					seenUp, seenDown = false, false
+				}
+			} else {
+				// not a dug out cell, maybe inside and needs to be dug out
+				if isInside {
+					cellPtr.IsDug = true
+				}
+				if rightCell.IsDug {
+					nextUpCell := f.Cells[row-1][col+1]
+					nextDownCell := f.Cells[row+1][col+1]
+					seenUp = nextUpCell.IsDug
+					seenDown = nextDownCell.IsDug
+				}
+
+			}
+		}
+	}
+}
+
+func (f *Field)countDugOut() (result int) {
+	for _, row := range f.Cells {
+		for _, cell := range row {
+			if cell.IsDug {
+				result += 1
+			}
+		}
+	}
+	return
+}

main.go

@@ -3,12 +3,12 @@ package main
 import (
 	"log"
 
-	"sunshine.industries/aoc2023/day17"
+	"sunshine.industries/aoc2023/day18"
 )
 
 func main() {
 	log.Print("> starting run:")
 
-	result := day17.Run()
-	log.Printf("\n\nday17 result: %d\n****\n", result)
+	result := day18.Run()
+	log.Printf("\n\nday18 result: %d\n****\n", result)
 }