maze-solver-go/maze/parser/parser.go

package parser

import (
	"fmt"
	"maze-solver/io/reader"
	"maze-solver/maze"
)

const (
	WallChar = '#'
	PathChar = ' '
)

func Parse(reader reader.Reader) (*maze.Maze, error) {
	nodesByCoord := make(map[maze.Coordinates]*maze.Node)
	ret := &maze.Maze{}

	raw_maze, err := reader.Read()
	if err != nil {
		return nil, err
	}

	for y, line := range raw_maze.Data {
		fmt.Println(line)
		for x := 1; x < len(line)-1; x++ {
			char := line[x]
			var left_char, right_char, above_char byte

			if y > 0 {
				left_char = line[x-1]
				right_char = line[x+1]
				above_char = raw_maze.Data[y-1][x]
			}

			// Parse first line to get entrance
			if y == 0 && char == PathChar {
				coords := maze.Coordinates{X: x, Y: y}
				node := maze.NewNode(coords)
				ret.Nodes = append(ret.Nodes, node)
				nodesByCoord[coords] = node
				continue
			}

			// Parse middle of the maze
			if y > 0 && char == PathChar &&
				(left_char == WallChar && right_char == PathChar ||
					left_char == PathChar && right_char == WallChar ||
					above_char == PathChar && (left_char == PathChar || right_char == PathChar)) {
				coords := maze.Coordinates{X: x, Y: y}
				node := maze.NewNode(coords)

				lookupNeighbourAbove(&raw_maze.Data, node, &nodesByCoord, ret)

				ret.Nodes = append(ret.Nodes, node)
				nodesByCoord[coords] = node

				if left_char == PathChar && right_char == WallChar ||
					above_char == PathChar && (left_char == PathChar || right_char == PathChar) {
					lookupNeighbourLeft(&line, node, &nodesByCoord)
				}
			}
		}
	}

	// Parse last line to get exit
	for x, rune := range raw_maze.Data[len(raw_maze.Data)-1] {
		char := byte(rune)
		if char == PathChar {
			coords := maze.Coordinates{X: x, Y: len(raw_maze.Data) - 1}
			node := maze.NewNode(coords)
			lookupNeighbourAbove(&raw_maze.Data, node, &nodesByCoord, ret)
			ret.Nodes = append(ret.Nodes, node)
			break
		}
	}

	return ret, nil
}

func lookupNeighbourAbove(Data *[]string, node *maze.Node, nodesByCoord *map[maze.Coordinates]*maze.Node, m *maze.Maze) {
	for y := node.Coords.Y - 1; y >= 0; y-- {
		neighbour, ok := (*nodesByCoord)[maze.Coordinates{X: node.Coords.X, Y: y}]

		if ok {
			node.Up = neighbour
			neighbour.Down = node
			break
		}

		if y > 0 && (*Data)[y][node.Coords.X] == WallChar {
			y++
			if y == node.Coords.Y {
				break
			}
			coords := maze.Coordinates{X: node.Coords.X, Y: y}
			new_node := maze.NewNode(coords)
			lookupNeighbourLeft(&(*Data)[y], new_node, nodesByCoord)
			lookupNeighbourRight(&(*Data)[y], new_node, nodesByCoord)
			(*nodesByCoord)[coords] = new_node
			m.Nodes = append(m.Nodes, new_node)

			node.Up = new_node
			new_node.Down = node
			break
		}

	}
}

func lookupNeighbourLeft(line *string, node *maze.Node, nodesByCoord *map[maze.Coordinates]*maze.Node) {
	for x := node.Coords.X - 1; x > 0; x-- {
		if (*line)[x] == WallChar && x < node.Coords.X-1 {
			panic(fmt.Sprintf("Found no node before wall while looking to the left at neighbours of node %v", node))
		}

		neighbour, ok := (*nodesByCoord)[maze.Coordinates{X: x, Y: node.Coords.Y}]
		if ok {
			node.Left = neighbour
			neighbour.Right = node
			break
		}
	}
}

func lookupNeighbourRight(line *string, node *maze.Node, nodesByCoord *map[maze.Coordinates]*maze.Node) {
	for x := node.Coords.X + 1; x < len(*line); x++ {
		if (*line)[x] == WallChar {
			panic(fmt.Sprintf("Found no node before wall while looking to the right at neighbours of node %v", node))
		}

		neighbour, ok := (*nodesByCoord)[maze.Coordinates{X: x, Y: node.Coords.Y}]
		if ok {
			node.Right = neighbour
			neighbour.Left = node
			break
		}
	}
}
Reader -> Reader+Parser refacfotring: create the parser package, moved the parsing aspect of reader to parser (still have some naughty stuff like WallChar and PathChar in parser but it'll be fixed in next commit) 2023-08-05 10:38:46 +02:00			`package parser`

			`import (`
			`"fmt"`
			`"maze-solver/io/reader"`
			`"maze-solver/maze"`
			`)`

			`const (`
			`WallChar = '#'`
			`PathChar = ' '`
			`)`

			`func Parse(reader reader.Reader) (*maze.Maze, error) {`
			`nodesByCoord := make(map[maze.Coordinates]*maze.Node)`
			`ret := &maze.Maze{}`

			`raw_maze, err := reader.Read()`
			`if err != nil {`
			`return nil, err`
			`}`

			`for y, line := range raw_maze.Data {`
			`fmt.Println(line)`
			`for x := 1; x < len(line)-1; x++ {`
			`char := line[x]`
			`var left_char, right_char, above_char byte`

			`if y > 0 {`
			`left_char = line[x-1]`
			`right_char = line[x+1]`
			`above_char = raw_maze.Data[y-1][x]`
			`}`

			`// Parse first line to get entrance`
			`if y == 0 && char == PathChar {`
			`coords := maze.Coordinates{X: x, Y: y}`
			`node := maze.NewNode(coords)`
			`ret.Nodes = append(ret.Nodes, node)`
			`nodesByCoord[coords] = node`
			`continue`
			`}`

			`// Parse middle of the maze`
			`if y > 0 && char == PathChar &&`
			`(left_char == WallChar && right_char == PathChar \|\|`
			`left_char == PathChar && right_char == WallChar \|\|`
			`above_char == PathChar && (left_char == PathChar \|\| right_char == PathChar)) {`
			`coords := maze.Coordinates{X: x, Y: y}`
			`node := maze.NewNode(coords)`

			`lookupNeighbourAbove(&raw_maze.Data, node, &nodesByCoord, ret)`

			`ret.Nodes = append(ret.Nodes, node)`
			`nodesByCoord[coords] = node`

			`if left_char == PathChar && right_char == WallChar \|\|`
			`above_char == PathChar && (left_char == PathChar \|\| right_char == PathChar) {`
			`lookupNeighbourLeft(&line, node, &nodesByCoord)`
			`}`
			`}`
			`}`
			`}`

			`// Parse last line to get exit`
			`for x, rune := range raw_maze.Data[len(raw_maze.Data)-1] {`
			`char := byte(rune)`
			`if char == PathChar {`
			`coords := maze.Coordinates{X: x, Y: len(raw_maze.Data) - 1}`
			`node := maze.NewNode(coords)`
			`lookupNeighbourAbove(&raw_maze.Data, node, &nodesByCoord, ret)`
			`ret.Nodes = append(ret.Nodes, node)`
			`break`
			`}`
			`}`

			`return ret, nil`
			`}`

			`func lookupNeighbourAbove(Data []string, node maze.Node, nodesByCoord map[maze.Coordinates]maze.Node, m *maze.Maze) {`
			`for y := node.Coords.Y - 1; y >= 0; y-- {`
			`neighbour, ok := (*nodesByCoord)[maze.Coordinates{X: node.Coords.X, Y: y}]`

			`if ok {`
			`node.Up = neighbour`
			`neighbour.Down = node`
			`break`
			`}`

			`if y > 0 && (*Data)[y][node.Coords.X] == WallChar {`
			`y++`
			`if y == node.Coords.Y {`
			`break`
			`}`
			`coords := maze.Coordinates{X: node.Coords.X, Y: y}`
			`new_node := maze.NewNode(coords)`
			`lookupNeighbourLeft(&(*Data)[y], new_node, nodesByCoord)`
			`lookupNeighbourRight(&(*Data)[y], new_node, nodesByCoord)`
			`(*nodesByCoord)[coords] = new_node`
			`m.Nodes = append(m.Nodes, new_node)`

			`node.Up = new_node`
			`new_node.Down = node`
			`break`
			`}`

			`}`
			`}`

			`func lookupNeighbourLeft(line string, node maze.Node, nodesByCoord map[maze.Coordinates]maze.Node) {`
			`for x := node.Coords.X - 1; x > 0; x-- {`
			`if (*line)[x] == WallChar && x < node.Coords.X-1 {`
			`panic(fmt.Sprintf("Found no node before wall while looking to the left at neighbours of node %v", node))`
			`}`

			`neighbour, ok := (*nodesByCoord)[maze.Coordinates{X: x, Y: node.Coords.Y}]`
			`if ok {`
			`node.Left = neighbour`
			`neighbour.Right = node`
			`break`
			`}`
			`}`
			`}`

			`func lookupNeighbourRight(line string, node maze.Node, nodesByCoord map[maze.Coordinates]maze.Node) {`
			`for x := node.Coords.X + 1; x < len(*line); x++ {`
			`if (*line)[x] == WallChar {`
			`panic(fmt.Sprintf("Found no node before wall while looking to the right at neighbours of node %v", node))`
			`}`

			`neighbour, ok := (*nodesByCoord)[maze.Coordinates{X: x, Y: node.Coords.Y}]`
			`if ok {`
			`node.Right = neighbour`
			`neighbour.Left = node`
			`break`
			`}`
			`}`
			`}`