def parse_tex_noise(node: bpy.types.ShaderNodeTexNoise, out_socket: bpy.types.NodeSocket, state: ParserState) -> Union[floatstr, vec3str]:
c.write_procedurals()
state.curshader.add_function(c_functions.str_tex_noise)
c.assets_add(os.path.join(arm.utils.get_sdk_path(), 'armory', 'Assets', 'noise256.png'))
c.assets_add_embedded_data('noise256.png')
state.curshader.add_uniform('sampler2D snoise256', link='$noise256.png')
if node.inputs[0].is_linked:
co = c.parse_vector_input(node.inputs[0])
else:
co = 'bposition'
scale = c.parse_value_input(node.inputs[2])
detail = c.parse_value_input(node.inputs[3])
roughness = c.parse_value_input(node.inputs[4])
distortion = c.parse_value_input(node.inputs[5])
# Color
if out_socket == node.outputs[1]:
res = 'vec3(tex_noise({0} * {1},{2},{3}), tex_noise({0} * {1} + 120.0,{2},{3}), tex_noise({0} * {1} + 168.0,{2},{3}))'.format(co, scale, detail, distortion)
# Fac
else:
res = 'tex_noise({0} * {1},{2},{3})'.format(co, scale, detail, distortion)
if state.sample_bump:
c.write_bump(node, out_socket, res, 0.1)
return res
def parse_tex_wave(node: bpy.types.ShaderNodeTexWave, out_socket: bpy.types.NodeSocket, state: ParserState) -> Union[floatstr, vec3str]:
c.write_procedurals()
state.curshader.add_function(c_functions.str_tex_wave)
if node.inputs[0].is_linked:
co = c.parse_vector_input(node.inputs[0])
else:
co = 'bposition'
scale = c.parse_value_input(node.inputs[1])
distortion = c.parse_value_input(node.inputs[2])
detail = c.parse_value_input(node.inputs[3])
detail_scale = c.parse_value_input(node.inputs[4])
if node.wave_profile == 'SIN':
wave_profile = 0
else:
wave_profile = 1
if node.wave_type == 'BANDS':
wave_type = 0
else:
wave_type = 1
# Color
if out_socket == node.outputs[0]:
res = 'vec3(tex_wave_f({0} * {1},{2},{3},{4},{5},{6}))'.format(co, scale, wave_type, wave_profile, distortion, detail, detail_scale)
# Fac
else:
res = 'tex_wave_f({0} * {1},{2},{3},{4},{5},{6})'.format(co, scale, wave_type, wave_profile, distortion, detail, detail_scale)
if state.sample_bump:
c.write_bump(node, out_socket, res)
return res
def parse_tex_voronoi(node: bpy.types.ShaderNodeTexVoronoi,
out_socket: bpy.types.NodeSocket,
state: ParserState) -> Union[floatstr, vec3str]:
outp = 0
if out_socket.type == 'RGBA':
outp = 1
elif out_socket.type == 'VECTOR':
outp = 2
m = 0
if node.distance == 'MANHATTAN':
m = 1
elif node.distance == 'CHEBYCHEV':
m = 2
elif node.distance == 'MINKOWSKI':
m = 3
c.write_procedurals()
state.curshader.add_function(c_functions.str_tex_voronoi)
if node.inputs[0].is_linked:
co = c.parse_vector_input(node.inputs[0])
else:
co = 'bposition'
scale = c.parse_value_input(node.inputs[2])
exp = c.parse_value_input(node.inputs[4])
randomness = c.parse_value_input(node.inputs[5])
# Color or Position
if out_socket == node.outputs[1] or out_socket == node.outputs[2]:
res = 'tex_voronoi({0}, {1}, {2}, {3}, {4}, {5})'.format(
co, randomness, m, outp, scale, exp)
# Distance
else:
res = 'tex_voronoi({0}, {1}, {2}, {3}, {4}, {5}).x'.format(
co, randomness, m, outp, scale, exp)
if state.sample_bump:
c.write_bump(node, out_socket, res)
return res
