Created
October 1, 2010 09:30
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Using sunflowAPIAPI in ruby-processing
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| # hair.rb NB: run this script directly with jruby | |
| require 'library/sunflow_api/library/sunflow_api.jar' | |
| require 'library/sunflow/library/sunflow.jar' | |
| require 'library/sunflow/library/janino.jar' | |
| class BasicHair | |
| API = Java::Com::briansteen::SunflowAPIAPI | |
| SMath = Java::Org::sunflow::math | |
| JColor = java.awt.Color | |
| attr_reader :width, :height, :n_particles, :sunflow | |
| def initialize width = 640, height = 480 | |
| @width = width | |
| @height = height | |
| @n_particles = 20 | |
| # create a new API instance | |
| @sunflow = API.new | |
| # set width and height | |
| @sunflow.set_width(width) | |
| @sunflow.set_height(height) | |
| # set background color | |
| @sunflow.set_background(1, 1, 1) | |
| # set camera | |
| @sunflow.set_camera_position(0, 7, 5) | |
| @sunflow.set_camera_target(2, 0.5, 0) | |
| @sunflow.set_thinlens_camera("thinLensCamera", 50, width/height) | |
| # set basic light | |
| @sunflow.set_point_light("myPointLight", SMath::Point3.new(0, 5, 5), | |
| JColor.new(255, 255, 255)) | |
| @sunflow.set_directional_light("myDirectionalLight", SMath::Point3.new(-2, 3, 0), | |
| SMath::Vector3.new(0, 0, 0), 3, JColor.new(1, 1, 1)) | |
| # @sunflow.setSphereLight("mySphereLight", SMath::Point3.new(0, 30, -5), | |
| # JColor.new(0, 0, 255), 32, 10) | |
| # draw a ground plane | |
| @sunflow.draw_plane("ground", SMath::Point3.new(0, 0, 0), SMath::Vector3.new(0, 1, 0)) | |
| # coordinates array | |
| @sunflow.draw_box("boxname", 0, 0, 0, 1) | |
| end | |
| def create_scene | |
| hair_widths = [0.025] | |
| # create particle coordinates | |
| 350.times do |j| | |
| # particle start position | |
| particle_x = Math.cos(j * 0.5) * j * 0.0015 | |
| particle_y = 0 | |
| particle_z = Math.sin(j * 0.5) * j * 0.0015 | |
| hair_coordinates = Array.new(n_particles * 3) | |
| array_index = -1 | |
| n_particles.times do |i| | |
| particle_x += 0.1 + Math.cos(i * 0.15 + j * 0.05) * 0.13 | |
| particle_y -= Math.sin(particle_z * 0.01 + j * 0.05) * 0.125 + | |
| Math.cos(i * 0.5 + particle_y) * 0.125 | |
| particle_z += Math.sin(i) * 0.25 + particle_y * 0.01 | |
| hair_coordinates[array_index += 1] = particle_x | |
| hair_coordinates[array_index += 1] = particle_y | |
| hair_coordinates[array_index += 1] = particle_z | |
| end | |
| # set ambient occlusion shader | |
| @sunflow.setAmbientOcclusionShader("myAmbientOcclusionShader#{j}", JColor.new(55, 55, 55), | |
| JColor.new(0, 0, 0), 16, 1) | |
| # set glass shader | |
| # @sunflow.setGlassShader("myGlassShader", JColor.new(1, 1, 1), 2.5, 3, JColor.new(1, 1, 1)) | |
| # set shiny-diffuse shader | |
| # @sunflow.setShinyDiffuseShader("myShinyShader", JColor.new(55, 55, 55), 0.8) | |
| # draw object | |
| @sunflow.draw_hair("hair#{j}", n_particles - 2, hair_coordinates.to_java(:float), | |
| hair_widths.to_java(:float)) | |
| end | |
| end | |
| def render_scene filename = nil | |
| sunflow.setIrradianceCacheGIEngine(32, 0.4, 1, 15, nil) | |
| # render | |
| sunflow.render() unless filename | |
| if filename | |
| begin # test for dodgy filename/path | |
| file = File.new(filename, "w") | |
| file.close | |
| sunflow.render(filename) # save as png image | |
| rescue | |
| puts "Warning #{filename} is not writable" | |
| end | |
| end | |
| end | |
| end | |
| hair = BasicHair.new 200, 200 # NB: render small is useful for quick for checking | |
| hair.create_scene | |
| hair.render_scene # default is to render in sunflow frame ie not to file |
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