module main import benchmark import sim import sim.args as simargs import sim.img fn main() { args := simargs.parse_args()! as simargs.ParallelArgs img_settings := img.image_settings_from_grid(args.grid) width := img_settings.width height := img_settings.height total_pixels := width * height request_chan := chan &sim.SimRequest{cap: args.workers} result_chan := chan &sim.SimResult{cap: args.workers} mut writer := img.ppm_writer_for_fname(args.filename, img_settings)! mut image_writer := img.new_image_writer(mut writer, img_settings) mut workers := []thread{cap: args.workers} mut bmark := benchmark.start() defer { request_chan.close() sim.log('Waiting for workers to finish') workers.wait() result_chan.close() bmark.measure(@FN) sim.log('Closing writer file') writer.close() sim.log('Done!') } for id in 0 .. args.workers { workers << go sim.sim_worker(id, request_chan, [result_chan]) } mut x := 0 mut y := 0 mut request_index := 0 for { // setup state conditions position := sim.vector( x: 0.1 * ((f64(x) - 0.5 * f64(width - 1)) / f64(width - 1)) y: 0.1 * ((f64(y) - 0.5 * f64(height - 1)) / f64(height - 1)) z: 0.0 ) velocity := sim.vector(x: 0, y: 0, z: 0) mut state := sim.new_state( position: position velocity: velocity ) state.satisfy_rope_constraint(args.params) request := &sim.SimRequest{ id: request_index state: state params: args.params } select { result := <-result_chan { image_writer.handle(result) or { break } } else { if request.id == total_pixels { continue } request_chan <- request x++ if x == width { x = 0 y++ sim.log('y: ${y + 1}') } request_index++ } } } }