def remove_resource(self, resource):
# Remove it from the TextureManager
TextureManager.get_instance().remove_texture(resource)
def render(self, material, mesh, transform):
# self.set_uniform_data('material.ambient', material.ambient)
# self.set_uniform_data('material.diffuse', material.diffuse)
# self.set_uniform_data('material.specular', material.specular)
# self.set_uniform_data('material.shininess', material.shininess)
# this is a kind of roundabout of accessing this
world_mat = transform.world_matrix
#world_mat.transpose()
self.set_uniform_data('model', world_mat)
texture = TextureManager.get_instance().get_texture_by_name( material.texture )
if texture is not None:
self.set_uniform_data('diffuse_texture', texture)
if self.attributes_valid():
self.enable_attribute_arrays()
if mesh.vertex_buffer.is_setup:
with mesh.vertex_buffer as vb:
if self.attributes_valid():
glVertexAttribPointer(self.get_attribute_location("position"), *vb.GetVertexAttribute())
glVertexAttribPointer(self.get_attribute_location("normal"), *vb.GetNormalAttribute())
glVertexAttribPointer(self.get_attribute_location("colour"), *vb.GetColourAttribute())
glVertexAttribPointer(self.get_attribute_location("texture_coordinate"), *vb.GetTexCoordAttribute())
glDrawElements(GL_TRIANGLES, vb.count, GL_UNSIGNED_SHORT, vb.indices)
if self.attributes_valid():
self.disable_attribute_arrays()
#QuitEvent().send()
def process_resource(self, filename, name):
# new_texture = None
# Does the Texture already exist in the Texture Manager
new_texture = TextureManager.get_instance().get_texture_by_filename(filename)
# for texture in TextureManager.get_instance().textures:
# if texture.filename == filename:
# new_texture = texture
# break
# If the texture isn't in the texture manager
if new_texture is None:
# Load the image
new_texture = Texture(filename=filename, name=name)
# Add it to the TextureManager
TextureManager.get_instance().add_texture(new_texture)
# Create a Resource object that also contains the Texture object within the data property
# new_resource = Texture(filename=filename)
# Return the new Resource
return new_texture
def texture(self, new_tex):
the_texture = None
if isinstance(new_tex, Texture):
the_texture = new_tex
elif isinstance(new_tex, str):
# Get Texture from TextureManager
the_texture = TextureManager.get_instance().get_texture(new_tex)
if the_texture is not None:
self._tex_obj = the_texture
self._tex_name = the_texture.name
else:
Logger.Log("Can't find texture: %s" % new_tex)
def _gen_texture(self, address, resolution=None):
texture_name = None
# If the a texture for the address has already been generated
if address in self._generated_textures:
texture_name = self._generated_textures[address]
# Otherwise generate a new texture
else:
face = CubeSphereMap.get_address_face(address)
level = len(address)
name = "planet_texture"
size = self._increments #256
if not resolution is None:
size = resolution
data = None
format_size = 4
pitch = size * format_size
format = "RGBA"
#b = datetime.now()
# Generate the data for the texture
#perlin = Perlin(12345)
# Generate sphere coordinates for the address
# verts = []
# for x in range(size):
# o = ""
# x /= float(size)
# for y in range(size):
# y /= float(size)
# # verts.append( Vector3(x, y, 0.5) )
# coord = CubeSphereMap.get_sphere_vector(x, y, face) * self._radius
# # #print coord
# verts.append( coord )
# o += " (%1.2f, %1.2f)" % (x, y)
#verts = self._gen_verts(address)
# mesh = self._generated_meshes[address]
# verts = mesh.vertices
#print o
#ignoring faces
#print verts
# as image data is loaded from bottom-left to top-right vertex data
# needs to be transformed as it is generated top-left to bottom-right
# t_data = []
# for x in xrange(size-1, -1, -1):
# row_start = x * size
# row_end = row_start + size
# t_data += verts[row_start:row_end]
# for x in range(size):
# row_start = x * size
# row_end = row_start + size
# o = ""
# for v in verts[row_start:row_end]:
# o += " (%1.2f, %1.2f, %1.2f)" % (v.x, v.y, v.z)
# Generate noise
#data = [self._noise.ridged_multi_fractal3(v[0], v[1], v[2], 0, 1.0) for v in t_data]
#data = [self._noise.ridged_multi_fractal3(v[0], v[1], v[2], 0, 1.0) for v in t_data]
# data = [perlin.noise3(v.x, v.x, v.x) * 255.0 for v in verts]
# first_scale = 8 * self._octaves
#second_scale = 0.5 * self._octaves
# data = []
noise = self._generated_noise[address]
# t_data = []
# for x in xrange(size-1, -1, -1):
# row_start = x * size
# row_end = row_start + size
# t_data += noise[row_start:row_end]
# for x in range(size):
# row_start = x * size
# row_end = row_start + size
# noise = t_data
colour_data = []
#for v in verts:
# for n in noise:
for y in range(self._increments):#,-1,-1):
nv = []
for x in range(self._increments):#,-1,-1):
n = noise[x][y]
# # convert the height to a colour value
# #height = ( (v.magnitude() - self._radius) / self._max_height ) * 255.0
#nv.append(n)
# if n > 1.0:
# print "n: %3.2f x: %d y: %d" % ( n, x, y)
height = (n * 128.0) + 128.0
# #height = 150.0
# #print height
colour = Preset.white
if 200 >= height >= 150:
colour = Preset.green
elif 150 > height > 100:
colour = Preset.yellow
elif 100 >= height:
colour = Preset.blue
# if 50 > height:
# colour = Preset.blue
# else:
# colour = Preset.red
# if x == 0 or x == self._increments-1:
# colour = Preset.yellow
# if y == 0 or y == self._increments-1:
# colour = Preset.green
# colour = Preset.red
# colour = colour.tinted(Preset.green, (y/float(size)))
# colour = colour.tinted(Preset.blue, (x/float(size)))
colour_data += [colour.r * 255.0, colour.g * 255.0, colour.b * 255.0, colour.a * 255.0]
# s = ""
# for n in noise[x]:
# s += "\t%0.3f," % n
# print s
#e = datetime.now() - b
#print "%s Tex Colours Gen time: %3.5f" % (address, e.total_seconds())#(e.seconds + (e.microseconds / 1000000.0) ) )
# colour_data = []
# for n in noise:
# nv.append(n)
# height = (n * 128.0) + 128.0
# if 100 > height:
# colour = Preset.blue
# else:
# colour = Preset.red
# colour_data += [colour.r * 255.0, colour.g * 255.0, colour.b * 255.0, colour.a * 255.0]
#b = datetime.now()
# Transform noise to colour data
array_data = numpy.array(colour_data, 'f')
# array_data = numpy.random.random_integers(low=0,
# high=255,
# size = (size * size, format_size))
#array_data *= 255
# array_data[:,3] = 255
array_data.shape = -1
tex_data = (GLubyte * array_data.size)(*array_data.astype('u1'))
#test_plane = SceneManager.get_instance().current_scene.root.transform.get_child_with_name("test_plane")
texture_name = "planet_texture_%s" % address
new_planet_texture = GeneratedTexture(name=texture_name, width=size, height=size)
new_planet_texture.wrapped = False
new_planet_texture.smoothed = True
new_planet_texture.set_data(format, pitch, tex_data)
TextureManager.get_instance().add_texture(new_planet_texture)
#test_plane.node.renderer.material.texture = "planet_texture"
#e = datetime.now() - b
#print "%s Tex Gen Vid card copy time: %3.5f" % (address, e.total_seconds())#(e.seconds + (e.microseconds / 1000000.0) ) )
#new_planet_texture.image.save(texture_name+'.png')
self._generated_textures[address] = texture_name
return texture_name
def __init__(self):
# Load Configuration settings
ConfigurationManager.load_configuration()
#Start Logger
method = Settings.get('LoggerSettings','method')
filename = Settings.get('LoggerSettings','filename')
to_console = Settings.get('LoggerSettings','log_to_console')
Logger.Configure(method, filename, to_console)
Logger.Log('Initialising Core Systems')
# The order of initialisation in this function is extremely important
# as it determines the order in which classes will receive events.
# For instance it is important that input is processed
# Start Event System so it can receive new listeners when the
# classes below are initialised
self._event_manager = EventManager.get_instance()
#Register Core Event Listener for detecting quit
self._core_listener = CoreListener(False)
# Initialise Time
self._time = Time.get_instance()
# Create a Scene
self._scene = SceneManager.get_instance()
self._scene.init()
#Start Render System
self._render_manager = RenderManager.get_instance()
self._render_manager.init( Settings.get('DisplaySettings','resolution')[0],
Settings.get('DisplaySettings','resolution')[1],
Settings.get('DisplaySettings','window_title')
)
# Setup the framework callbacks
self._framework = FrameworkManager.framework()
self._framework.setup = self.setup
self._framework.run_loop = self.update
self._framework.on_draw = self._render_manager.draw
self._framework.on_shutdown = self.shutdown
# Setup Frame Start/End Events
self._frame_start = FrameStarted()
self._frame_end = FrameEnded()
#Get the Texture Manager
self._texture_manager = TextureManager.get_instance()
# Start the ShaderManager
self._shader_manager = ShaderManager.get_instance()
# Start Scripting System
self._script_manager = ScriptManager.get_instance()
# Start the UI Manager and setup the MainUI
self._ui_manager = UIManager.get_instance()
self._main_ui = MainUI()
# Start the GizmoManager system
self._gizmo_manager = GizmoManager.get_instance()
# Configure the ResourceManager
self._resource_manager = ResourceManager.get_instance()
# enable Image Loading
self._resource_manager.add_handler(ImageResourceHandler())
# enable Scene Loading
self._resource_manager.add_handler(SceneResourceHandler())
# enable Wavefront Obj Loading
self._resource_manager.add_handler(WavefrontResourceHandler())
# Get the name
name = None
if "name" in node.attrib:
name = node.attrib["name"]
# If the texture is referenced by filename
if "filename" in node.attrib:
# Load the texture
filename = node.attrib["filename"]
texture = ResourceManager.get_instance().process_resource(filename, name)
# If the texture is just a reference, retrieve it from the TextureManager for assignment
if texture is None and name is not None:
texture = TextureManager.get_instance().get_texture_by_name(name)
# If the current parent is a Material node, set the material node's texture
if not parent is None:
if isinstance(parent, BaseMaterial) and not texture is None:
parent.texture = texture
# elif node.tag == "shader":
# pass
# Unknown XML tag
else:
self._log.Log("WARNING: Unknown XML Tag: " + node.tag)
# If it's not a node that has already had it's children processed
if not node.tag in ["children","scripts","material"]:
