module args import flag import os import runtime import sim import math // customisable through setting VJOBS const max_parallel_workers = runtime.nr_jobs() [params] pub struct ParserSettings { sequential bool img bool extra_workers int } pub struct SequentialArgs { pub: params sim.SimParams grid sim.GridSettings filename string } pub struct ParallelArgs { SequentialArgs pub: workers int = args.max_parallel_workers } pub type SimArgs = ParallelArgs | SequentialArgs pub fn parse_args(config ParserSettings) !SimArgs { if config.sequential { args := parse_sequential_args()! return SimArgs(args) } else { args := parse_parallel_args(config.extra_workers)! return SimArgs(args) } } fn parse_sequential_args() !SequentialArgs { mut fp := flag.new_flag_parser(os.args) fp.application('vps') fp.version('v0.1.0') fp.limit_free_args(0, 0)! fp.description('This is a pendulum simulation written in pure V') fp.skip_executable() // output parameters width := fp.int('width', `w`, sim.default_width, 'width of the image output. Defaults to ${sim.default_width}') height := fp.int('height', `h`, sim.default_height, 'height of the image output. Defaults to ${sim.default_height}') filename := fp.string('output', `o`, 'out.ppm', 'name of the image output. Defaults to out.ppm') // simulation parameters rope_length := fp.float('rope-length', 0, sim.default_rope_length, 'rope length to use on simulation. Defaults to ${sim.default_rope_length}') bearing_mass := fp.float('bearing-mass', 0, sim.default_bearing_mass, 'bearing mass to use on simulation. Defaults to ${sim.default_bearing_mass}') magnet_spacing := fp.float('magnet-spacing', 0, sim.default_magnet_spacing, 'magnet spacing to use on simulation. Defaults to ${sim.default_magnet_spacing}') magnet_height := fp.float('magnet-height', 0, sim.default_magnet_height, 'magnet height to use on simulation. Defaults to ${sim.default_magnet_height}') magnet_strength := fp.float('magnet-strength', 0, sim.default_magnet_strength, 'magnet strength to use on simulation. Defaults to ${sim.default_magnet_strength}') gravity := fp.float('gravity', 0, sim.default_gravity, 'gravity to use on simulation. Defaults to ${sim.default_gravity}') fp.finalize() or { println(fp.usage()) return error('none') } params := sim.sim_params( rope_length: rope_length bearing_mass: bearing_mass magnet_spacing: magnet_spacing magnet_height: magnet_height magnet_strength: magnet_strength gravity: gravity ) grid := sim.new_grid_settings( width: width height: height ) args := SequentialArgs{ params: params filename: filename grid: grid } sim.log('${args}') return args } fn parse_parallel_args(extra_workers int) !ParallelArgs { mut fp := flag.new_flag_parser(os.args) fp.application('vps') fp.version('v0.1.0') fp.limit_free_args(0, 0)! fp.description('This is a pendulum simulation written in pure V') fp.skip_executable() workers := fp.int('workers', 0, args.max_parallel_workers, 'amount of workers to use on simulation. Defaults to ${args.max_parallel_workers}') // output parameters width := fp.int('width', `w`, sim.default_width, 'width of the image output. Defaults to ${sim.default_width}') height := fp.int('height', `h`, sim.default_height, 'height of the image output. Defaults to ${sim.default_height}') filename := fp.string('output', `o`, 'out.ppm', 'name of the image output. Defaults to out.ppm') // simulation parameters rope_length := fp.float('rope-length', 0, sim.default_rope_length, 'rope length to use on simulation. Defaults to ${sim.default_rope_length}') bearing_mass := fp.float('bearing-mass', 0, sim.default_bearing_mass, 'bearing mass to use on simulation. Defaults to ${sim.default_bearing_mass}') magnet_spacing := fp.float('magnet-spacing', 0, sim.default_magnet_spacing, 'magnet spacing to use on simulation. Defaults to ${sim.default_magnet_spacing}') magnet_height := fp.float('magnet-height', 0, sim.default_magnet_height, 'magnet height to use on simulation. Defaults to ${sim.default_magnet_height}') magnet_strength := fp.float('magnet-strength', 0, sim.default_magnet_strength, 'magnet strength to use on simulation. Defaults to ${sim.default_magnet_strength}') gravity := fp.float('gravity', 0, sim.default_gravity, 'gravity to use on simulation. Defaults to ${sim.default_gravity}') fp.finalize() or { println(fp.usage()) return error('none') } params := sim.sim_params( rope_length: rope_length bearing_mass: bearing_mass magnet_spacing: magnet_spacing magnet_height: magnet_height magnet_strength: magnet_strength gravity: gravity ) grid := sim.new_grid_settings( width: width height: height ) args := ParallelArgs{ params: params filename: filename grid: grid workers: get_workers(workers, extra_workers) } sim.log('${args}') return args } [inline] fn get_workers(workers int, extra_workers int) int { result := if workers + extra_workers <= args.max_parallel_workers { workers } else { args.max_parallel_workers - extra_workers } return math.max(1, result) }