#ifndef _DNACOMMON_BABEDEAD_HPP_ #define _DNACOMMON_BABEDEAD_HPP_ #include "BlenderConnection.hpp" #include "zeus/Math.hpp" #include namespace DataSpec { template void ReadBabeDeadLightToBlender(hecl::BlenderConnection::PyOutStream& os, const BabeDeadLight& light, unsigned s, unsigned l) { switch (light.lightType) { case BabeDeadLight::LightType::LocalAmbient: case BabeDeadLight::LightType::LocalAmbient2: os.format("bg_node.inputs[0].default_value = (%f,%f,%f,1.0)\n" "bg_node.inputs[1].default_value = %f\n", light.color.vec[0], light.color.vec[1], light.color.vec[2], light.q / 8.0); return; case BabeDeadLight::LightType::Directional: os.format("lamp = bpy.data.lamps.new('LAMP_%01u_%03u', 'SUN')\n" "lamp_obj = bpy.data.objects.new(lamp.name, lamp)\n" "lamp_obj.rotation_mode = 'QUATERNION'\n" "lamp_obj.rotation_quaternion = Vector((0,0,-1)).rotation_difference(Vector((%f,%f,%f)))\n" "\n", s, l, light.direction.vec[0], light.direction.vec[1], light.direction.vec[2]); break; case BabeDeadLight::LightType::Custom: os.format("lamp = bpy.data.lamps.new('LAMP_%01u_%03u', 'POINT')\n" "lamp_obj = bpy.data.objects.new(lamp.name, lamp)\n" "\n", s, l); break; case BabeDeadLight::LightType::Spot: case BabeDeadLight::LightType::Spot2: os.format("lamp = bpy.data.lamps.new('LAMP_%01u_%03u', 'SPOT')\n" "lamp.spot_size = %f\n" "lamp_obj = bpy.data.objects.new(lamp.name, lamp)\n" "lamp_obj.rotation_mode = 'QUATERNION'\n" "lamp_obj.rotation_quaternion = Vector((0,0,-1)).rotation_difference(Vector((%f,%f,%f)))\n" "\n", s, l, zeus::degToRad(light.spotCutoff), light.direction.vec[0], light.direction.vec[1], light.direction.vec[2]); break; default: return; } os.format("lamp.retro_layer = %u\n" "lamp.retro_origtype = %u\n" "lamp.falloff_type = 'INVERSE_COEFFICIENTS'\n" "lamp.constant_coefficient = 0\n" "lamp.use_nodes = True\n" "falloff_node = lamp.node_tree.nodes.new('ShaderNodeLightFalloff')\n" "lamp.energy = 0.0\n" "falloff_node.inputs[0].default_value = %f\n" "hue_sat_node = lamp.node_tree.nodes.new('ShaderNodeHueSaturation')\n" "hue_sat_node.inputs[1].default_value = 1.25\n" "hue_sat_node.inputs[4].default_value = (%f,%f,%f,1.0)\n" "lamp.node_tree.links.new(hue_sat_node.outputs[0], lamp.node_tree.nodes['Emission'].inputs[0])\n" "lamp_obj.location = (%f,%f,%f)\n" "bpy.context.scene.objects.link(lamp_obj)\n" "\n", s, light.lightType, light.q / 8.0, light.color.vec[0], light.color.vec[1], light.color.vec[2], light.position.vec[0], light.position.vec[1], light.position.vec[2]); switch (light.falloff) { case BabeDeadLight::Falloff::Constant: os << "falloff_node.inputs[0].default_value *= 75.0\n" "lamp.node_tree.links.new(falloff_node.outputs[2], lamp.node_tree.nodes['Emission'].inputs[1])\n"; if (light.q > FLT_EPSILON) os.format("lamp.constant_coefficient = 2.0 / %f\n", light.q); break; case BabeDeadLight::Falloff::Linear: os << "lamp.node_tree.links.new(falloff_node.outputs[1], lamp.node_tree.nodes['Emission'].inputs[1])\n"; if (light.q > FLT_EPSILON) os.format("lamp.linear_coefficient = 250 / %f\n", light.q); break; case BabeDeadLight::Falloff::Quadratic: os << "lamp.node_tree.links.new(falloff_node.outputs[0], lamp.node_tree.nodes['Emission'].inputs[1])\n"; if (light.q > FLT_EPSILON) os.format("lamp.quadratic_coefficient = 25000 / %f\n", light.q); break; default: break; } } } #endif // _DNACOMMON_BABEDEAD_HPP_