khanat-client/addons/zylann.hterrain/util/grid.gd


# Note: `tool` is optional but without it there are no error reporting in the editor
tool

# TODO Remove grid_ prefixes, context is already given by the script itself


# Performs a positive integer division rounded to upper (4/2 = 2, 5/3 = 2)
static func up_div(a, b):
	if a % b != 0:
		return a / b + 1
	return a / b


# Creates a 2D array as an array of arrays.
# if v is provided, all cells will contain the same value.
# if v is a funcref, it will be executed to fill the grid cell per cell.
static func create_grid(w, h, v=null):
	var is_create_func = typeof(v) == TYPE_OBJECT and v is FuncRef
	var grid = []
	grid.resize(h)
	for y in range(grid.size()):
		var row = []
		row.resize(w)
		if is_create_func:
			for x in range(row.size()):
				row[x] = v.call_func(x,y)
		else:
			for x in range(row.size()):
				row[x] = v
		grid[y] = row
	return grid


# Creates a 2D array that is a copy of another 2D array
static func clone_grid(other_grid):
	var grid = []
	grid.resize(other_grid.size())
	for y in range(0, grid.size()):
		var row = []
		var other_row = other_grid[y]
		row.resize(other_row.size())
		grid[y] = row
		for x in range(0, row.size()):
			row[x] = other_row[x]
	return grid


# Resizes a 2D array and allows to set or call functions for each deleted and created cells.
# This is especially useful if cells contain objects and you don't want to loose existing data.
static func resize_grid(grid, new_width, new_height, create_func=null, delete_func=null):
	# Check parameters
	assert(new_width >= 0 and new_height >= 0)
	assert(grid != null)
	if delete_func != null:
		assert(typeof(delete_func) == TYPE_OBJECT and delete_func is FuncRef)
	var is_create_func = typeof(create_func) == TYPE_OBJECT and create_func is FuncRef
	
	# Get old size (supposed to be rectangular!)
	var old_height = grid.size()
	var old_width = 0
	if grid.size() != 0:
		old_width = grid[0].size()
	
	# Delete old rows
	if new_height < old_height:
		if delete_func != null:
			for y in range(new_height, grid.size()):
				var row = grid[y]
				for x in range(0, row.size()):
					var elem = row[x]
					delete_func.call_func(elem)
		grid.resize(new_height)
	
	# Delete old columns
	if new_width < old_width:
		for y in range(0, grid.size()):
			var row = grid[y]
			if delete_func != null:
				for x in range(new_width, row.size()):
					var elem = row[x]
					delete_func.call_func(elem)
			row.resize(new_width)
	
	# Create new columns
	if new_width > old_width:
		for y in range(0, grid.size()):
			var row = grid[y]
			row.resize(new_width)
			if is_create_func:
				for x in range(old_width, new_width):
					row[x] = create_func.call_func(x,y)
			else:
				for x in range(old_width, new_width):
					row[x] = create_func
	
	# Create new rows
	if new_height > old_height:
		grid.resize(new_height)
		for y in range(old_height, new_height):
			var row = []
			row.resize(new_width)
			grid[y] = row
			if is_create_func:
				for x in range(0, new_width):
					row[x] = create_func.call_func(x,y)
			else:
				for x in range(0, new_width):
					row[x] = create_func
	
	# Debug test check
	assert(grid.size() == new_height)
	for y in range(0, grid.size()):
		assert(grid[y].size() == new_width)


# Retrieves the minimum and maximum values from a grid
static func grid_min_max(grid):
	if grid.size() == 0 or grid[0].size() == 0:
		return [0,0]
	var vmin = grid[0][0]
	var vmax = vmin
	for y in range(0, grid.size()):
		var row = grid[y]
		for x in range(0, row.size()):
			var v = row[x]
			if v > vmax:
				vmax = v
			elif v < vmin:
				vmin = v
	return [vmin, vmax]


# Copies a sub-region of a grid as a new grid. No boundary check!
static func grid_extract_area(src_grid, x0, y0, w, h):
	var dst = create_grid(w, h)
	for y in range(0, h):
		var dst_row = dst[y]
		var src_row = src_grid[y0+y]
		for x in range(0, w):
			dst_row[x] = src_row[x0+x]
	return dst


# Extracts data and crops the result if the requested rect crosses the bounds
static func grid_extract_area_safe_crop(src_grid, x0, y0, w, h):
	# Return empty is completely out of bounds
	var gw = src_grid.size()
	if gw == 0:
		return []
	var gh = src_grid[0].size()
	if x0 >= gw or y0 >= gh:
		return []
	
	# Crop min pos
	if x0 < 0:
		w += x0
		x0 = 0
	if y0 < 0:
		h += y0
		y0 = 0
	
	# Crop max pos
	if x0 + w >= gw:
		w = gw-x0
	if y0 + h >= gh:
		h = gh-y0

	return grid_extract_area(src_grid, x0, y0, w, h)


# Sets values from a grid inside another grid. No boundary check!
static func grid_paste(src_grid, dst_grid, x0, y0):
	for y in range(0, src_grid.size()):
		var src_row = src_grid[y]
		var dst_row = dst_grid[y0+y]
		for x in range(0, src_row.size()):
			dst_row[x0+x] = src_row[x]


# Tests if two grids are the same size and contain the same values
static func grid_equals(a, b):
	if a.size() != b.size():
		return false
	for y in range(0, a.size()):
		var a_row = a[y]
		var b_row = b[y]
		if a_row.size() != b_row.size():
			return false
		for x in range(0, b_row.size()):
			if a_row[x] != b_row[x]:
				return false
	return true


static func grid_get_or_default(grid, x, y, defval=null):
	if y >= 0 and y < len(grid):
		var row = grid[y]
		if x >= 0 and x < len(row):
			return row[x]
	return defval
Download et installation of Height Terrain addon by Zylann 2021-10-15 14:29:08 +00:00
			# Note: `tool` is optional but without it there are no error reporting in the editor
			`tool`

			`# TODO Remove grid_ prefixes, context is already given by the script itself`


			`# Performs a positive integer division rounded to upper (4/2 = 2, 5/3 = 2)`
			`static func up_div(a, b):`
			`if a % b != 0:`
			`return a / b + 1`
			`return a / b`


			`# Creates a 2D array as an array of arrays.`
			`# if v is provided, all cells will contain the same value.`
			`# if v is a funcref, it will be executed to fill the grid cell per cell.`
			`static func create_grid(w, h, v=null):`
			`var is_create_func = typeof(v) == TYPE_OBJECT and v is FuncRef`
			`var grid = []`
			`grid.resize(h)`
			`for y in range(grid.size()):`
			`var row = []`
			`row.resize(w)`
			`if is_create_func:`
			`for x in range(row.size()):`
			`row[x] = v.call_func(x,y)`
			`else:`
			`for x in range(row.size()):`
			`row[x] = v`
			`grid[y] = row`
			`return grid`


			`# Creates a 2D array that is a copy of another 2D array`
			`static func clone_grid(other_grid):`
			`var grid = []`
			`grid.resize(other_grid.size())`
			`for y in range(0, grid.size()):`
			`var row = []`
			`var other_row = other_grid[y]`
			`row.resize(other_row.size())`
			`grid[y] = row`
			`for x in range(0, row.size()):`
			`row[x] = other_row[x]`
			`return grid`


			`# Resizes a 2D array and allows to set or call functions for each deleted and created cells.`
			`# This is especially useful if cells contain objects and you don't want to loose existing data.`
			`static func resize_grid(grid, new_width, new_height, create_func=null, delete_func=null):`
			`# Check parameters`
			`assert(new_width >= 0 and new_height >= 0)`
			`assert(grid != null)`
			`if delete_func != null:`
			`assert(typeof(delete_func) == TYPE_OBJECT and delete_func is FuncRef)`
			`var is_create_func = typeof(create_func) == TYPE_OBJECT and create_func is FuncRef`

			`# Get old size (supposed to be rectangular!)`
			`var old_height = grid.size()`
			`var old_width = 0`
			`if grid.size() != 0:`
			`old_width = grid[0].size()`

			`# Delete old rows`
			`if new_height < old_height:`
			`if delete_func != null:`
			`for y in range(new_height, grid.size()):`
			`var row = grid[y]`
			`for x in range(0, row.size()):`
			`var elem = row[x]`
			`delete_func.call_func(elem)`
			`grid.resize(new_height)`

			`# Delete old columns`
			`if new_width < old_width:`
			`for y in range(0, grid.size()):`
			`var row = grid[y]`
			`if delete_func != null:`
			`for x in range(new_width, row.size()):`
			`var elem = row[x]`
			`delete_func.call_func(elem)`
			`row.resize(new_width)`

			`# Create new columns`
			`if new_width > old_width:`
			`for y in range(0, grid.size()):`
			`var row = grid[y]`
			`row.resize(new_width)`
			`if is_create_func:`
			`for x in range(old_width, new_width):`
			`row[x] = create_func.call_func(x,y)`
			`else:`
			`for x in range(old_width, new_width):`
			`row[x] = create_func`

			`# Create new rows`
			`if new_height > old_height:`
			`grid.resize(new_height)`
			`for y in range(old_height, new_height):`
			`var row = []`
			`row.resize(new_width)`
			`grid[y] = row`
			`if is_create_func:`
			`for x in range(0, new_width):`
			`row[x] = create_func.call_func(x,y)`
			`else:`
			`for x in range(0, new_width):`
			`row[x] = create_func`

			`# Debug test check`
			`assert(grid.size() == new_height)`
			`for y in range(0, grid.size()):`
			`assert(grid[y].size() == new_width)`


			`# Retrieves the minimum and maximum values from a grid`
			`static func grid_min_max(grid):`
			`if grid.size() == 0 or grid[0].size() == 0:`
			`return [0,0]`
			`var vmin = grid[0][0]`
			`var vmax = vmin`
			`for y in range(0, grid.size()):`
			`var row = grid[y]`
			`for x in range(0, row.size()):`
			`var v = row[x]`
			`if v > vmax:`
			`vmax = v`
			`elif v < vmin:`
			`vmin = v`
			`return [vmin, vmax]`


			`# Copies a sub-region of a grid as a new grid. No boundary check!`
			`static func grid_extract_area(src_grid, x0, y0, w, h):`
			`var dst = create_grid(w, h)`
			`for y in range(0, h):`
			`var dst_row = dst[y]`
			`var src_row = src_grid[y0+y]`
			`for x in range(0, w):`
			`dst_row[x] = src_row[x0+x]`
			`return dst`


			`# Extracts data and crops the result if the requested rect crosses the bounds`
			`static func grid_extract_area_safe_crop(src_grid, x0, y0, w, h):`
			`# Return empty is completely out of bounds`
			`var gw = src_grid.size()`
			`if gw == 0:`
			`return []`
			`var gh = src_grid[0].size()`
			`if x0 >= gw or y0 >= gh:`
			`return []`

			`# Crop min pos`
			`if x0 < 0:`
			`w += x0`
			`x0 = 0`
			`if y0 < 0:`
			`h += y0`
			`y0 = 0`

			`# Crop max pos`
			`if x0 + w >= gw:`
			`w = gw-x0`
			`if y0 + h >= gh:`
			`h = gh-y0`

			`return grid_extract_area(src_grid, x0, y0, w, h)`


			`# Sets values from a grid inside another grid. No boundary check!`
			`static func grid_paste(src_grid, dst_grid, x0, y0):`
			`for y in range(0, src_grid.size()):`
			`var src_row = src_grid[y]`
			`var dst_row = dst_grid[y0+y]`
			`for x in range(0, src_row.size()):`
			`dst_row[x0+x] = src_row[x]`


			`# Tests if two grids are the same size and contain the same values`
			`static func grid_equals(a, b):`
			`if a.size() != b.size():`
			`return false`
			`for y in range(0, a.size()):`
			`var a_row = a[y]`
			`var b_row = b[y]`
			`if a_row.size() != b_row.size():`
			`return false`
			`for x in range(0, b_row.size()):`
			`if a_row[x] != b_row[x]:`
			`return false`
			`return true`


			`static func grid_get_or_default(grid, x, y, defval=null):`
			`if y >= 0 and y < len(grid):`
			`var row = grid[y]`
			`if x >= 0 and x < len(row):`
			`return row[x]`
			`return defval`