mirror of
https://git.planet-casio.com/Slyvtt/Collab_RPG.git
synced 2024-12-28 20:43:42 +01:00
363 lines
11 KiB
Python
363 lines
11 KiB
Python
from random import randint
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from PIL import Image
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import fxconv
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import json
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import pathlib
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import csv
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import os
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def convert(input, output, params, target):
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if params["custom-type"] == "map":
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print("ERROR : Asset ", params["name"], " has legacy type map")
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return 1
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elif params["custom-type"] == "world":
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convert_world(input, output, params, target)
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return 0
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elif params["custom-type"] == "custom-image":
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convert_custom_image(input, output, params, target)
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return 0
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elif params["custom-type"] == "font":
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convert_font(input, output, params, target)
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return 0
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else:
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return 1
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def convert_world(input, output, params, target):
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print( "WE ARE COMPUTING THE WORLD", input )
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data = json.load(open(input, "r"))
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nbMaps = ["fileName" in i for i in data["maps"]].count(True)
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print( "We have to treat ", nbMaps, " maps")
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print( "So let's go ... ")
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structWorld = fxconv.Structure()
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#structExtra = fxconv.Structure()
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for i in range(nbMaps):
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nameMap = data["maps"][i]["fileName"].replace(".tmx","")
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nameMapFree = nameMap.split("/")[-1]
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#count the number of "back" (cd ..) to locate the map on the computer
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nbRetour = nameMap.count("..")+1
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#create the map absolute path
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nameTMX = "/".join(input.split("/")[:-nbRetour]) + "/" + nameMap + ".tmx"
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nameJSON = "/".join(input.split("/")[:-nbRetour]) + "/" + nameMap + ".json"
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commandline = 'tiled --export-map json ' + nameTMX + ' ' + nameJSON
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print( "TILED COMMAND LINE FOR MAPS : ", commandline )
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os.system( commandline )
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mapPath = "/".join(input.split("/")[:-nbRetour]) + "/" + nameMap + ".json"
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print("Map ", i , " name : ", mapPath )
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xmin = data["maps"][i]["x"]
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print( "xmin = ", xmin )
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ymin = data["maps"][i]["y"]
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print( "ymin = ", ymin )
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xmax = data["maps"][i]["x"] + data["maps"][i]["width"]
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print( "xmax = ", xmax )
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ymax = data["maps"][i]["y"] + data["maps"][i]["height"]
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print( "ymax = ", ymax )
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map = get_tile_map_data( mapPath, output, params, target, xmin, ymin, xmax, ymax)
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print( "Map = ", map )
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structWorld += fxconv.ptr( map )
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#ext = get_extra_map_data( mapPath, output, params, target, xmin, ymin, xmax, ymax )
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#print( "Data = ", ext )
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#if (ext!=fxconv.u32(0)): structExtra += fxconv.ptr( ext )
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structWorld += fxconv.u32(0)
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#structExtra += fxconv.u32(0)
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"""
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#and all the extra data (PNJ, SGN, ...)
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fxconv.elf_multi(
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[("_" + params["varMapData"], structWorld),
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("_" + params["varExtraData"], structExtra)],
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output, **target)
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"""
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#generate !
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fxconv.elf(structWorld, output, "_" + params["name"], **target)
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def get_tile_map_data(input, output, params, target, xmin, ymin, xmax, ymax):
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print( "WE ARE COMPUTING THE MAP : ", input )
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data = json.load(open(input, "r"))
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#find the tileset in use. it's a relative path (like ../tileset.tsx)
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nameTileset = data["tilesets"][0]["source"].replace(".tsx","")
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print(nameTileset)
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#the name of the tileset without the .something
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nameTilesetFree = nameTileset.split("/")[-1]
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#count the number of "back" (cd ..) to locate the tileset on the computer
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nbRetour = nameTileset.count("..")+1
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#create the tileset absolute path
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tilesetTSX = "/".join(input.split("/")[:-nbRetour]) + "/" + nameTileset + ".tsx"
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tilesetJSON = "/".join(input.split("/")[:-nbRetour]) + "/" + nameTileset + ".json"
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commandline = 'tiled --export-tileset json ' + tilesetTSX + ' ' + tilesetJSON
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print( "TILED COMMAND LINE FOR TILESET : ", commandline )
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os.system( commandline )
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tileset = open(tilesetJSON, "r")
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data_tileset = json.load(tileset)
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tileset_size = data_tileset.get("columns")
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tileset.close()
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#find the ID of the first tile in the walkable tileset ()
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indexWalkable = data["tilesets"][1]["firstgid"]
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print(indexWalkable)
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#Extract from the json the width, height
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w, h = data["width"], data["height"]
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#nbTileLayer is the number of "true" layers (without ObjectsLayer)
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nbTilelayer = ["data" in i for i in data["layers"]].count(True) - 1
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print( nbTilelayer)
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#index of the various layers (may change from one map to another)
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layer_walkable = 0
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layer_foreground = 0
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layer_background = 0
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#create the structure of the map
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structMap = fxconv.Structure()
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structMap += fxconv.u32(w) + fxconv.u32(h) + fxconv.u32(nbTilelayer)
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structMap += fxconv.u32(tileset_size)
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structMap += fxconv.u32(xmin) + fxconv.u32(ymin) + fxconv.u32(xmax) + fxconv.u32(ymax)
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structMap += fxconv.ref(f"img_{nameTilesetFree}")
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#extraction of the data contained in the layer "Walkable" of the map
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for i in range(nbTilelayer+1):
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datavalid = data["layers"][i]
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if datavalid["name"]=="Walkable":
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layer_walkable = i
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print( "Walkable Tile Data in layer : ", layer_walkable)
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break
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elif i==nbTilelayer:
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print( "ERROR : No Walkable layer data !!!" )
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walk_data = bytes()
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layer = data["layers"][layer_walkable]
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for tile in layer["data"]:
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#print( tile )
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if tile == 0: walk_data += fxconv.u8(tile) #if walkable_data = 0 then it is a blanck cell so nothing to change
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else : walk_data += fxconv.u8(tile-indexWalkable) #if !=0 than we need to shift the tile number by considering the first tileID (given by indexwalkable)
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structMap += fxconv.ptr(walk_data)
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nbextra = 0
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extradata = fxconv.Structure()
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nbextra, extradata = get_extra_map_data(input, output, params, target, xmin, ymin, xmax, ymax)
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if (nbextra==0):
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structMap += fxconv.u32( 0 )
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structMap += fxconv.u32( 0 )
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else:
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structMap += fxconv.u32( int(nbextra) )
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structMap += fxconv.ptr( extradata )
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#extraction of the data contained in the layer "Background" and "Foreground" of the map
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#import the Background layer of the map
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for i in range(nbTilelayer+1):
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datavalid = data["layers"][i]
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if datavalid["name"]=="Background":
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layer_background = i
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print( "Background Tile Data in layer : ", layer_background)
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break
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elif i==nbTilelayer:
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print( "ERROR : No Background layer data !!!" )
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layer_data = bytes()
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layer = data["layers"][layer_background]
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for tile in layer["data"]:
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layer_data += fxconv.u16(tile-1)
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structMap += fxconv.ptr(layer_data)
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#import the foreground layer of the map
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for i in range(nbTilelayer+1):
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datavalid = data["layers"][i]
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if datavalid["name"]=="Foreground":
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layer_foreground = i
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print( "Foreground Tile Data in layer : ", layer_foreground)
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break
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elif i==nbTilelayer:
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printf( "ERROR : No Foreground layer data !!!" )
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layer_data = bytes()
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layer = data["layers"][layer_foreground]
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for tile in layer["data"]:
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layer_data += fxconv.u16(tile-1)
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structMap += fxconv.ptr(layer_data)
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return structMap
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def get_extra_map_data(input, output, params, target, xmin, ymin, xmax, ymax):
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print( "WE ARE COMPUTING THE EXTRA DATA OF THE MAP : ", input )
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data = json.load(open(input, "r"))
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nblayer = ["id" in i for i in data["layers"]].count(True) - 1
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print( "I found ", nblayer, " of extradata")
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#index of the various layers (may change from one map to another)
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layer_extradata = 0
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#import the foreground layer of the map
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for i in range(nblayer+1):
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datavalid = data["layers"][i]
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if datavalid["name"]=="ExtraData":
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layer_extradata = i
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print( "Extra Data in layer : ", layer_extradata)
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break
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elif i==nblayer:
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print( "ERROR : No ExtraData layer data !!!" )
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return 0, fxconv.u32(0)
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#create the structure of the map
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structData = fxconv.Structure()
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nbExtraData = 0
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layer = data["layers"][layer_extradata]
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for i in layer["objects"]:
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#get the type of the item
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tpe = i["type"]
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#we check if the type corresponds to a items of type Point in Tiled
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if tpe in ( "SGN", "NPC", "INFO" ):
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nbExtraData = nbExtraData + 1
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x = i["x"] + xmin
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y = i["y"] + ymin
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nme = i["name"]
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dialog = None
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quest = 0
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choi = None
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conc1 = None
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conc2 = None
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path = 0
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path_length = 0
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xdata = None
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ydata = None
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#we now fill all the properties of this item
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for j in i["properties"]:
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#property "dialog"
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if j["name"]=="dialog": dialog = j[ "value" ]
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#property "isQuestion"
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elif j["name"]=="isQuestion": quest = j[ "value" ]
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#property "choices"
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elif j["name"]=="choices":
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choi = j[ "value" ]
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choi = choi.replace( '$', chr(0) )
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#property "conclusion1"
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elif j["name"]=="conclusion1": conc1 = j[ "value" ]
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#property "conclusion2"
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elif j["name"]=="conclusion2": conc2 = j[ "value" ]
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else:
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#Extra properties for NPCs (path)
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if tpe=="NPC":
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if j["name"]=="hasPath":
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pathID = None
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path = j[ "value" ]
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if path==1:
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print( "PNJ has path - NOW LOOKING FOR RELEVANT DATA" )
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# we start looking for path data with first the ID of the path Object
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for u in i["properties"]:
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if u["name"]=="path":
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pathID = u[ "value" ]
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print( "path ID is identified : ID= ", pathID )
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for v in layer["objects"]:
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if v[ "id" ] == pathID:
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print( "path data found : " )
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xdata = bytes("", "UTF-16")
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ydata = bytes("", "UTF-16")
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for w in v[ "polyline" ]:
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path_length = path_length + 1
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print( "X= ", w[ "x" ], " Y= ", w[ "y" ] )
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xdata += fxconv.u16( int( w[ "x" ] ) )
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ydata += fxconv.u16( int( w[ "y" ] ) )
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print("xdata : ", xdata)
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print("ydata : ", ydata)
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else:
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print( "PNJ has no Path" )
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else:
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print( "UNIDENTIFIED PROPERTY : ", j["name"])
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print( "OBJECT X= ", x, " Y= ", y, "STR= ", dialog )
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print( " Type= ", tpe, " Name= ", nme )
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print( " Q?= ", quest, " Choi= ", choi )
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print( " c1= ", conc1, " c2=", conc2)
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structData += fxconv.u32( int(x) )
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structData += fxconv.u32( int(y) )
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structData += fxconv.string( nme )
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structData += fxconv.string( tpe )
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structData += fxconv.string( dialog )
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structData += fxconv.u32( int(quest) )
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structData += fxconv.string( choi )
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structData += fxconv.string( conc1 )
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structData += fxconv.string( conc2 )
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if path==0:
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structData += fxconv.u32(0)
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structData += fxconv.u32(0)
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structData += fxconv.u32(0)
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structData += fxconv.u32(0)
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else:
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o_xdata = fxconv.Structure()
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o_xdata += xdata
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o_ydata = fxconv.Structure()
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o_ydata += ydata
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structData += fxconv.u32(path)
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structData += fxconv.u32(path_length)
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structData += fxconv.ptr(o_xdata)
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structData += fxconv.ptr(o_ydata)
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#else we do nothing (yet)
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else:
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break
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return nbExtraData, structData
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def convert_custom_image(input, output, params, target):
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scale = int(params.get("scale", 1))
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# Upscale image before converting
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im = Image.open(input)
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im = im.resize((im.width * scale, im.height * scale),
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resample=Image.NEAREST)
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o = fxconv.convert_image_cg(im, params)
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fxconv.elf(o, output, "_" + params["name"], **target)
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def convert_font(input, output, params, target):
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o = fxconv.convert_topti(input, params)
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fxconv.elf(o, output, "_" + params["name"], **target)
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