Ejemplo n.º 1
0
def generate_footprint():

    # get mesh objects
    objects = filter(
        lambda obj: obj.type == 'Mesh' and obj.name.lower().startswith(
            'footprint'), scene.objects)

    if not objects:
        error(
            'Error! Object list is empty. (No mesh objects whose names begin with "footprint".)'
        )
        return False

    # check whether visual transforms applied
    v = [
        obj for obj in objects
        if tuple(obj.rot) != (0, 0, 0) or tuple(obj.size) != (1, 1, 1)
    ]
    if v:
        error('Error! The following mesh ' +
              ('objects have' if len(v) > 1 else 'object has') +
              ' non-applied visual transforms:')
        for obj in v:
            error('\x20\x20%s -> rot: %s, size: %s' %
                  (str(obj), str(obj.rot), str(obj.size)))
        error('Solution: apply visual transforms.')
        return False

    footprint = []

    for obj in objects:

        log(str(obj))

        mesh = obj.getData(mesh=True)

        obj_loc = obj.matrix[3].xyz + Vector(0.5, 0.5, 0)

        name = obj.name.split('.')
        name = name[1] if len(name) > 1 else "0"

        def test_point(x0, y0, i, j):

            x = x0 + 0.0625 * (i + 0.5)
            y = y0 + 0.0625 * (j + 0.5)

            ray, orig = Vector(0, 0, 1), Vector(x, y, 0)

            for face in mesh.faces:
                verts = [v.co + obj_loc for v in face.verts]

                if Intersect(verts[0], verts[1], verts[2], ray, orig, 1) or \
                 ( len(face.verts) == 4 and \
                   Intersect(verts[0], verts[2], verts[3], ray, orig, 1) ):
                    return True

            return False

        # bounding box
        box = obj.getBoundBox(1)
        X, Y, Z = zip(*map(tuple, box))
        Z = None  # not used

        minx, maxx = int(floor(min(X) + 0.5)), int(ceil(max(X) + 0.5))
        miny, maxy = int(floor(min(Y) + 0.5)), int(ceil(max(Y) + 0.5))

        data = [(0x02, 'minx', minx), (0x02, 'maxx', maxx - 1),
                (0x02, 'miny', miny), (0x02, 'maxy', maxy - 1)]

        log('--Name: "%s"' % name)
        log('--Size: %i x %i' % (maxx - minx, maxy - miny))

        for x, y in product(xrange(minx, maxx), xrange(miny, maxy)):

            key = '(%i,%i)' % (x, y)

            s = ''

            for j in xrange(16):
                a = sum(2**i for i in xrange(16) if test_point(x, y, i, j))
                s += pack('<H', a)
            data.append((0x09, key, s))

        footprint.append((0x07, name, data))

    #<- objects

    return (0x07, 'footprint', footprint)
Ejemplo n.º 2
0
def generate_footprint():

	# get mesh objects
	objects = filter(lambda obj: obj.type=='Mesh' and obj.name.lower().startswith('footprint'), scene.objects)

	if not objects:
		error( 'Error! Object list is empty. (No mesh objects whose names begin with "footprint".)' )
		return False

	# check whether visual transforms applied
	v = [obj for obj in objects if tuple(obj.rot)!=(0, 0, 0) or tuple(obj.size)!=(1, 1, 1)]
	if v:
		error( 'Error! The following mesh ' + ('objects have' if len(v)>1 else 'object has') + ' non-applied visual transforms:' )
		for obj in v:
			error( '\x20\x20%s -> rot: %s, size: %s' % (str(obj), str(obj.rot), str(obj.size)) )
		error( 'Solution: apply visual transforms.' )
		return False

	footprint = []

	for obj in objects:

		log( str(obj) )

		mesh = obj.getData(mesh=True)

		obj_loc = obj.matrix[3].xyz + Vector(0.5, 0.5, 0)

		name = obj.name.split('.')
		name = name[1] if len(name)>1 else "0"

		def test_point(x0, y0, i, j):

			x = x0 + 0.0625*(i+0.5)
			y = y0 + 0.0625*(j+0.5)

			ray, orig = Vector(0, 0, 1), Vector(x, y, 0)

			for face in mesh.faces:
				verts = [v.co+obj_loc for v in face.verts]

				if Intersect(verts[0], verts[1], verts[2], ray, orig, 1) or \
				 ( len(face.verts) == 4 and \
				   Intersect(verts[0], verts[2], verts[3], ray, orig, 1) ): return True

			return False

		# bounding box
		box = obj.getBoundBox(1)
		X, Y, Z = zip(*map(tuple, box))
		Z = None # not used

		minx, maxx = int(floor(min(X)+0.5)), int(ceil(max(X)+0.5))
		miny, maxy = int(floor(min(Y)+0.5)), int(ceil(max(Y)+0.5))

		data = [(0x02, 'minx', minx), (0x02, 'maxx', maxx-1), (0x02, 'miny', miny), (0x02, 'maxy', maxy-1)]

		log( '--Name: "%s"' % name )
		log( '--Size: %i x %i' % (maxx-minx, maxy-miny) )

		for x, y in product(xrange(minx, maxx), xrange(miny, maxy)):

			key = '(%i,%i)' % (x, y)

			s = ''

			for j in xrange(16):
				a = sum(2**i for i in xrange(16) if test_point(x, y, i, j))
				s+= pack('<H', a)
			data.append( (0x09, key, s) )

		footprint.append( (0x07, name, data) )

	#<- objects

	return (0x07, 'footprint', footprint)
Ejemplo n.º 3
0
def update_cres(cres_filename):

    Blender.Window.EditMode(0)

    _save_log = display_menu('Save log?', ['Yes', 'No'], True) == 0

    # create log file (if needed)
    if _save_log:
        s = cres_filename + '.gen_footprint_log.txt'
        log('Opening log file "%s" for writing... ' % s)
        try:
            f = open(s, 'w')
        except IOError as e:
            error(e)
            display_menu('Error!', ['Could not open log file for writing.'])
            return
        # Ok
        set_log_file(f)

    #
    # begin export
    #

    log('==TS2 Object Footprint Generator========')
    log('CRES File:', cres_filename)
    log()

    # load CRES file
    log('Opening CRES file "%s"...' % cres_filename)
    try:
        res = load_resource(cres_filename, _save_log and 2 or 1)
    except:
        print_last_exception()
        res = False
    if not res or res.nodes[0].type != 'cResourceNode':
        res and error('Not a GMDC file!')
        close_log_file()
        display_menu(
            'Error!',
            ['Could not load resource node file. See log for details.'])
        return

    log()

    # get footprint extension node
    #
    v = [
        node for node in res.nodes if node.type == 'cDataListExtension'
        and node.Ext_data[1] == 'footprint'
    ]
    if v:
        node = v[0]
        log('Footprint extension node found (%i).' % node.index)
    else:
        log('Adding footprint extension node...')
        node = DataListExtension(len(res.nodes))
        res.nodes.append(node)
        res.nodes[0].extensions.append((1, 0, node.index))

    log()

    # export
    #
    log('Processing objects...')
    footprint = None
    try:
        footprint = generate_footprint()
        assert bool(footprint)
        node.Ext_data = footprint
        footprint = None

        log()
        log('Saving file...')
        res.save()

    except:
        footprint == None and print_last_exception()
        display_menu('Error!', ['An error has occured. See log for details.'])

    else:
        # Ok
        log()
        log('New footprint:\n' + str_footprint(node.Ext_data[2]))

        log('Finished!')

    finally:
        close_log_file()
Ejemplo n.º 4
0
def update_cres(cres_filename):

	Blender.Window.EditMode(0)

	_save_log = display_menu('Save log?', ['Yes', 'No'], True) == 0

	# create log file (if needed)
	if _save_log:
		s = cres_filename + '.gen_footprint_log.txt'
		log( 'Opening log file "%s" for writing... ' % s )
		try:
			f = open(s, 'w')
		except IOError as e:
			error(e)
			display_menu('Error!', ['Could not open log file for writing.'])
			return
		# Ok
		set_log_file(f)

	#
	# begin export
	#

	log( '==TS2 Object Footprint Generator========' )
	log( 'CRES File:', cres_filename )
	log()

	# load CRES file
	log( 'Opening CRES file "%s"...' % cres_filename )
	try:
		res = load_resource(cres_filename, _save_log and 2 or 1)
	except:
		print_last_exception()
		res = False
	if not res or res.nodes[0].type != 'cResourceNode':
		res and error( 'Not a GMDC file!' )
		close_log_file()
		display_menu('Error!', ['Could not load resource node file. See log for details.'])
		return

	log()

	# get footprint extension node
	#
	v = [node for node in res.nodes if node.type=='cDataListExtension' and node.Ext_data[1]=='footprint']
	if v:
		node = v[0]
		log( 'Footprint extension node found (%i).' % node.index )
	else:
		log( 'Adding footprint extension node...' )
		node = DataListExtension(len(res.nodes))
		res.nodes.append(node)
		res.nodes[0].extensions.append((1, 0, node.index))

	log()

	# export
	#
	log( 'Processing objects...' )
	footprint = None
	try:
		footprint = generate_footprint()
		assert bool(footprint)
		node.Ext_data = footprint ; footprint = None

		log()
		log( 'Saving file...' )
		res.save()

	except:
		footprint==None and print_last_exception()
		display_menu('Error!', ['An error has occured. See log for details.'])

	else:
		# Ok
		log()
		log( 'New footprint:\n' + str_footprint(node.Ext_data[2]) )

		log( 'Finished!' )

	finally:
		close_log_file()