progress

Commander cleanup
First impl of ship logs
Ship display improved
Store debugged

main.py

@@ -2,18 +2,21 @@
 import argparse
 from nullptr.commander import Commander
 import os
+from nullptr.store_analyzer import StoreAnalyzer
 from nullptr.models.base import Base
 def main(args):
   if not os.path.isdir(args.data_dir):
     os.makedirs(args.data_dir )
+  if args.analyze:
+    a = StoreAnalyzer(verbose=True)
+    a.run(args.analyze)
+  else:
     c = Commander(args.data_dir)
     c.run()
   
-# X1-AG74-41076A
-# X1-KS52-51429E
-
 if __name__ == '__main__':
   parser = argparse.ArgumentParser()
   parser.add_argument('-d', '--data-dir', default='data')
+  parser.add_argument('-a', '--analyze', type=argparse.FileType('rb'))
   args = parser.parse_args()
   main(args)

nullptr/analyzer.py

@@ -8,6 +8,14 @@ from copy import copy
 class AnalyzerException(Exception):
   pass
 
+def path_dist(m):
+  t = 0
+  o = Point(0,0)
+  for w in m:
+    t +=w.distance(o)
+    o = w
+  return t
+  
 @dataclass
 class Point:
   x: int
@@ -70,7 +78,6 @@ class Analyzer:
     possibles = sorted(candidates, key=lambda m: m[2])
     possibles = possibles[:10]
     results = []
-    print(len(possibles))
     for typ,m,d in possibles:
       system = m.waypoint.system
       p = self.find_path(origin, system)
@@ -101,7 +108,8 @@ class Analyzer:
     path = []
     mkts = [m.waypoint for m in self.store.all_members(orig.system, Marketplace)]
     cur = orig
-    
+    if orig == to:
+      return []
     while cur != to:
       best = cur
       bestdist = cur.distance(to)
@@ -156,30 +164,25 @@ class Analyzer:
   
   def find_trade(self, system):
     prices = self.prices(system)
+    occupied_resources = set()
+    for s in self.store.all('Ship'):
+      if s.mission != 'haul':
+        continue
+      occupied_resources.add(s.mission_state['resource'])
     best = None
     for resource, markets in prices.items():
+      if resource in occupied_resources:
+        continue
       source = sorted(markets, key=lambda x: x['buy'])[0]
       dest = sorted(markets, key=lambda x: x['sell'])[-1]
       margin = dest['sell'] -source['buy']
-      if margin < 0:
-        continue
+      
       dist = source['wp'].distance(dest['wp'])
       dist = max(dist, 0.0001)
       score = margin / dist
+      if margin < 0:
+        continue
       o = TradeOption(resource, source['wp'], dest['wp'], margin, dist, score)
       if best is None or best.score < o.score:
         best = o
     return best
-
-  def market_scan(self, system):
-    m = [w.waypoint for w in self.store.all_members(system, Marketplace) if not w.is_fuel()]
-    ms = len(m)
-    path = self.solve_tsp(m)
-    cur = Point(0,0)
-    for w in path:
-      print(w, w.distance(cur))
-      cur = w
-    far = self.store.get(Waypoint, 'X1-NN7-B7')
-    for w in path:
-      print(w, w.distance(far))
-    

nullptr/api.py

@@ -178,6 +178,7 @@ class Api:
   def navigate(self, ship, wp):
     data = {'waypointSymbol': str(wp)}
     response = self.request('post', f'my/ships/{ship}/navigate', data)
+    ship.log(f'nav to {wp}')
     ship.update(response)
   
   def dock(self, ship):
@@ -193,6 +194,7 @@ class Api:
   def flight_mode(self, ship, mode):
     data = {'flightMode': mode}
     data = self.request('patch', f'my/ships/{ship}/nav', data)
+    ship.update(data)
     return data
     
   def jump(self, ship, waypoint):
@@ -243,6 +245,7 @@ class Api:
       'units': units
     }
     data = self.request('post', f'my/ships/{ship}/sell', data)
+    ship.log(f'sell {units} of {typ}')
     if 'cargo' in data:
       ship.update(data)
     if 'agent' in data:
@@ -255,6 +258,7 @@ class Api:
       'units': amt
     }
     data = self.request('post', f'my/ships/{ship}/purchase', data)
+    ship.log(f'buy {amt} of {typ} at {ship.location}')
     if 'cargo' in data:
       ship.update(data)
     if 'agent' in data:
@@ -271,6 +275,7 @@ class Api:
       'units': units
     }
     data = self.request('post', f'my/ships/{ship.symbol}/jettison', data)
+    ship.log(f'drop {units} of {typ}')
     if 'cargo' in data:
       ship.update(data)
     if 'agent' in data:

nullptr/commander.py

@@ -1,6 +1,6 @@
 from nullptr.command_line import CommandLine
 from nullptr.store import Store
-from nullptr.analyzer import  Analyzer, Point
+from nullptr.analyzer import  Analyzer, Point, path_dist
 import argparse
 from nullptr.models import * 
 from nullptr.api import Api
@@ -33,23 +33,27 @@ class Commander(CommandLine):
     self.stop_auto= False
     super().__init__()
   
+  ######## INFRA #########
   def handle_eof(self):
     self.store.close()
     readline.write_history_file(self.hist_file)
     print("Goodbye!")
   
+  def do_pp(self):
+    pprint(self.api.last_result)
+  
   def prompt(self):
     if self.ship:
       return f'{self.ship.symbol}> '
     else:
       return '> '
 
-  def has_ship(self):
-    if self.ship is not None:
-      return True
-    else:
-      print('set a ship')
+  def after_cmd(self):
+    self.store.flush()
 
+  def do_auto(self):
+    self.centcom.run_interactive()
+  ######## Resolvers #########
   def ask_obj(self, typ, prompt):
     obj = None
     while obj is None:
@@ -59,6 +63,12 @@ class Commander(CommandLine):
         print('not found')
     return obj
 
+  def has_ship(self):
+    if self.ship is not None:
+      return True
+    else:
+      print('set a ship')
+  
   def select_agent(self):
     agents = self.store.all(Agent)
     agent = next(agents, None)
@@ -66,6 +76,27 @@ class Commander(CommandLine):
       agent = self.agent_setup()
     return agent
   
+  def resolve(self, typ, arg):
+    arg = arg.upper()
+    matches = [c for c in self.store.all(typ) if c.symbol.startswith(arg)]
+    if len(matches) == 1:
+      return matches[0]
+    elif len(matches) > 1:
+      raise CommandError('multiple matches')
+    else:
+      raise CommandError('not found')
+  
+  def resolve_system(self, system_str):
+    if type(system_str) == System:
+      return system_str
+    if system_str == '':
+      if not self.has_ship(): return
+      system = self.ship.location.system
+    else:
+      system = self.store.get(System, system_str)
+    return system
+  
+  ######## First run #########
   def agent_setup(self):
     symbol = input('agent name: ')
     agent = self.store.get(Agent, symbol, create=True)
@@ -90,38 +121,186 @@ class Commander(CommandLine):
     self.store.flush()
     return agent
   
-  def resolve(self, typ, arg):
-    arg = arg.upper()
-    matches = [c for c in self.store.all(typ) if c.symbol.startswith(arg)]
-    if len(matches) == 1:
-      return matches[0]
-    elif len(matches) > 1:
-      raise CommandError('multiple matches')
-    else:
-      raise CommandError('not found')
+  def do_token(self):
+    print(self.agent.token)
   
-  def resolve_system(self, system_str):
-    if type(system_str) == System:
-      return system_str
-    if system_str == '':
-      if not self.has_ship(): return
-      system = self.ship.location.system
-    else:
-      system = self.store.get(System, system_str)
-    return system
-    
-  def after_cmd(self):
-    self.store.flush()
+  def do_register(self, faction):
+    self.api.register(faction.upper())
+    pprint(self.api.agent)
   
+  ######## Fleet #########
   def do_info(self, arg=''):
     if arg.startswith('r'):
       self.api.info()
-    
     pprint(self.agent, 100)
   
-  def do_auto(self):
-    self.centcom.run_interactive()
+  def do_ships(self, arg=''):
+    if arg.startswith('r'):
+      r = self.api.list_ships()
+    else:
+      r = sorted(list(self.store.all('Ship')))
+    pprint(r)
 
+  def do_ship(self, arg=''):
+    if arg != '':
+      symbol = f'{self.agent.symbol}-{arg}'
+      ship = self.store.get('Ship', symbol)
+      if ship is None:
+        print('not found')
+        return
+      else:
+        self.ship = ship
+    pprint(self.ship, 5)
+
+  ######## Atlas #########
+  def do_systems(self, page=1):
+    r = self.api.list_systems(int(page))
+    pprint(self.api.last_meta)
+  
+  def do_catalog(self, system_str=''):
+    system = self.resolve_system(system_str)
+    r = self.api.list_waypoints(system)
+    for w in r:
+      if 'MARKETPLACE' in w.traits:
+        self.api.marketplace(w)
+      if w.type == 'JUMP_GATE':
+        self.api.jumps(w)
+      
+  def do_system(self, system_str):
+    system = self.store.get(System, system_str)
+    r = self.api.list_waypoints(system)
+    pprint(r)
+    
+  def do_waypoints(self, system_str=''):
+    loc = None
+    if system_str == '':
+      if not self.has_ship(): return
+      loc = self.ship.location
+      system = loc.system
+    else:
+      system = self.store.get(System, system_str)
+    print(f'=== waypoints in {system}')
+    r = self.store.all_members(system, 'Waypoint')
+    for w in r:
+      
+      wname = w.symbol.split('-')[2]
+      traits = ", ".join(w.traits())
+      typ = w.type[0]
+      if typ not in ['F','J'] and len(traits) == 0:
+        continue
+      if loc:
+        dist = loc.distance(w)
+        print(f'{wname:4} {typ} {dist:6} {traits}')
+      else:
+        print(f'{wname:4} {typ} {traits}')
+  
+  def do_members(self):
+    if not self.has_ship(): return
+    system = self.ship.location.system
+    pprint(list(self.store.all_members(system)))
+
+  def do_wp(self, s=''):
+    self.do_waypoints(s)
+  
+  ######## Specials #########
+  def do_market(self, arg=''):
+    if arg == '':
+      if not self.has_ship(): return
+      waypoint = self.ship.location
+    else:
+      waypoint = self.resolve('Waypoint', arg)
+    r =  self.api.marketplace(waypoint)
+    pprint(r, 3)
+ 
+  def do_atlas(self, state=None):
+    atlas = self.store.get(Atlas, 'ATLAS')
+    if state is not None:
+      atlas.enabled = True if state == 'on' else 'off'
+    pprint(atlas, 5)
+    
+  def do_jumps(self, waypoint_str=None):
+    if waypoint_str is None:
+      if not self.has_ship(): return
+      waypoint = self.ship.location
+    else:
+      waypoint = self.store.get(Waypoint, waypoint_str.upper())
+    r = self.api.jumps(waypoint)
+    pprint(r)
+  
+  def do_shipyard(self):
+    if not self.has_ship(): return
+    location = self.ship.location
+    data = self.api.shipyard(location)
+    for s in must_get(data, 'ships'):
+      print(s['type'], s['purchasePrice'])
+  
+  ######## Commerce #########
+  def do_refuel(self, source='market'):
+    if not self.has_ship(): return
+    from_cargo = source != 'market'
+    r =  self.api.refuel(self.ship, from_cargo=from_cargo)
+    pprint(r)
+  
+  def do_cargo(self):
+    if not self.has_ship(): return
+    print(f'== Cargo {self.ship.cargo_units}/{self.ship.cargo_capacity} ==')
+    for c, units in self.ship.cargo.items():
+      print(f'{units:4d} {c}')
+      
+  def do_buy(self, resource, amt=None):
+    if not self.has_ship(): return
+    if amt is None:
+      amt = self.ship.cargo_capacity - self.ship.cargo_units
+    self.api.buy(self.ship, resource.upper(), amt)
+    self.do_cargo()
+  
+  def do_sell(self, resource, amt=None):
+    if not self.has_ship(): return
+    self.api.sell(self.ship, resource.upper(), amt)
+    self.do_cargo()
+    
+  def do_dump(self, resource):
+    if not self.has_ship(): return
+    self.api.jettison(self.ship, resource.upper())
+    self.do_cargo()
+  
+  
+  def do_purchase(self, ship_type):
+    if not self.has_ship(): return
+    location = self.ship.location
+    ship_type = ship_type.upper()
+    if not ship_type.startswith('SHIP'):
+      ship_type = 'SHIP_' + ship_type
+    s = self.api.purchase(ship_type, location)
+    pprint(s)
+
+  ######## Mining #########
+  def do_siphon(self):
+    if not self.has_ship(): return
+    data = self.api.siphon(self.ship)
+    pprint(data)
+  
+  def do_survey(self):
+    if not self.has_ship(): return
+    r = self.api.survey(self.ship)
+    pprint(r)
+  
+  def do_surveys(self):
+    pprint(list(self.store.all('Survey')))
+  
+  def do_extract(self, survey_str=''):
+    if not self.has_ship(): return
+    survey = None
+    if survey_str != '':
+      survey = self.resolve('Survey', survey_str)
+    result = self.api.extract(self.ship, survey)
+    
+    symbol = mg(result,'extraction.yield.symbol')
+    units  = mg(result,'extraction.yield.units')
+    print(units, symbol)
+
+    
+  ######## Missions #########
   def print_mission(self):
     print(f'mission: {self.ship.mission} ({self.ship.mission_status})')
     pprint(self.ship.mission_state)
@@ -155,11 +334,45 @@ class Commander(CommandLine):
     if not self.has_ship(): return
     self.centcom.set_mission_param(self.ship, nm, val)
   
+  ######## Contracts #########
   def active_contract(self):
     for c in self.store.all('Contract'):
       if c.accepted and not c.fulfilled: return c
     raise CommandError('no active contract')
   
+  def do_contracts(self, arg=''):
+    if arg.startswith('r'):
+      r = self.api.list_contracts()
+    else:
+      r = list(self.store.all('Contract'))
+    pprint(r)
+  
+  def do_negotiate(self):
+    if not self.has_ship(): return
+    r =  self.api.negotiate(self.ship)
+    pprint(r)
+  
+  def do_accept(self, c):
+    contract = self.resolve('Contract', c)
+    r =  self.api.accept_contract(contract)
+    pprint(r)
+  
+  def do_deliver(self):
+    if not self.has_ship(): return 
+    site = self.ship.location
+    contract = self.active_contract()
+    delivery = contract.unfinished_delivery()
+    if delivery is None:
+      raise CommandError('no delivery')
+    resource = delivery['trade_symbol']
+    self.api.deliver(self.ship, resource, contract)
+    pprint(contract)
+  
+  def do_fulfill(self):
+    contract = self.active_contract()
+    self.api.fulfill(contract)
+    
+  ######## Automissions #########
   def do_cmine(self):
     if not self.has_ship(): return 
     site = self.ship.location
@@ -219,204 +432,25 @@ class Commander(CommandLine):
     self.centcom.set_mission_param(self.ship, 'hops', markets)
     self.print_mission()
   
-  def totaldist(self, m):
-    t = 0
-    o = Point(0,0)
-    for w in m:
-      t +=w.distance(o)
-      o = w
-    return t
-      
   def do_sprobe(self):
     if not self.has_ship(): return     
     system = self.ship.location.system
     m = [m.waypoint for m in self.store.all_members(system, 'Marketplace')]
-    print("pre", self.totaldist(m))
+    print("pre", path_dist(m))
     m = self.analyzer.solve_tsp(m)
-    print("post", self.totaldist(m))
+    print("post", path_dist(m))
     hops = [w.symbol for w in m]
     self.centcom.init_mission(self.ship, 'probe')
     self.centcom.set_mission_param(self.ship, 'hops', hops)
     self.print_mission()
   
+  ######## Travel #########
   def do_travel(self, dest):
     dest = self.resolve('Waypoint', dest)
     self.centcom.init_mission(self.ship, 'travel')
     self.centcom.set_mission_param(self.ship, 'dest', dest)
     self.print_mission()
   
-  def do_register(self, faction):
-    self.api.register(faction.upper())
-    pprint(self.api.agent)
-    
-  def do_systems(self, page=1):
-    r = self.api.list_systems(int(page))
-    pprint(self.api.last_meta)
-  
-  def do_stats(self):
-    total = 0
-    for t in self.store.data:
-      num = len(self.store.data[t])
-      nam = t.__name__
-      total += num
-      print(f'{num:5d} {nam}')
-    print(f'{total:5d} total')
-  
-  def do_defrag(self):
-    self.store.defrag()
-    
-  def do_catalog(self, system_str=''):
-    system = self.resolve_system(system_str)
-    r = self.api.list_waypoints(system)
-    for w in r:
-      if 'MARKETPLACE' in w.traits:
-        self.api.marketplace(w)
-      if w.type == 'JUMP_GATE':
-        self.api.jumps(w)
-      
-  def do_market_scan(self):
-    if not self.has_ship(): return
-    loc = self.ship.location.system
-    pprint(self.analyzer.market_scan(loc))
-    
-  def do_system(self, system_str):
-    system = self.store.get(System, system_str)
-    r = self.api.list_waypoints(system)
-    pprint(r)
-    
-  def do_waypoints(self, system_str=''):
-    loc = None
-    if system_str == '':
-      if not self.has_ship(): return
-      loc = self.ship.location
-      system = loc.system
-    else:
-      system = self.store.get(System, system_str)
-    print(f'=== waypoints in {system}')
-    r = self.store.all_members(system, 'Waypoint')
-    for w in r:
-      traits = []
-      if w.type == 'JUMP_GATE':
-        traits.append('JUMP')
-      if w.type == 'GAS_GIANT':
-        traits.append('GAS')
-      if 'SHIPYARD' in w.traits:
-        traits.append('SHIPYARD')
-      if 'MARKETPLACE' in w.traits:
-        traits.append('MARKET')
-      
-      
-      if w.type == 'ASTEROID':
-        if 'COMMON_METAL_DEPOSITS' in w.traits:
-          traits.append('METAL')
-        if 'PRECIOUS_METAL_DEPOSITS' in w.traits:
-          traits.append('GOLD')
-        if 'MINERAL_DEPOSITS' in w.traits:
-          traits.append('MINS')
-        if 'STRIPPED' in w.traits:
-          traits.append('STRIPPED')
-      
-      wname = w.symbol.split('-')[2]
-      traits = ', '.join(traits)
-      typ = w.type[0]
-      if typ not in ['F','J'] and len(traits) == 0:
-        continue
-      
-      if loc:
-        dist = loc.distance(w)
-        print(f'{wname:4} {typ} {dist:6} {traits}')
-      else:
-        print(f'{wname:4} {typ} {traits}')
-  
-  def do_members(self):
-    if not self.has_ship(): return
-    system = self.ship.location.system
-    pprint(list(self.store.all_members(system)))
-
-  def do_wp(self, s=''):
-    self.do_waypoints(s)
-    
-  def do_marketplace(self, waypoint_str):
-    waypoint = self.store.get(Waypoint, waypoint_str.upper())
-    r = self.api.marketplace(waypoint)
-    
-  def do_atlas(self, state=None):
-    atlas = self.store.get(Atlas, 'ATLAS')
-    if state is not None:
-      atlas.enabled = True if state == 'on' else 'off'
-    pprint(atlas, 5)
-    
-  def do_jumps(self, waypoint_str=None):
-    if waypoint_str is None:
-      if not self.has_ship(): return
-      waypoint = self.ship.location
-    else:
-      waypoint = self.store.get(Waypoint, waypoint_str.upper())
-    r = self.api.jumps(waypoint)
-    pprint(r)
-  
-  def do_query(self, resource):
-    if not self.has_ship(): return
-    location = self.ship.location
-    resource = resource.upper()
-    print('Found markets:')
-    for typ, m, d, plen in self.analyzer.find_closest_markets(resource, 'buy,exchange',location):
-      price = '?'
-      if resource in m.prices:
-        price = m.prices[resource]['buy']
-      print(m, typ[0], f'{plen-1:3} hops {price}')
-      
-  def do_path(self):
-    orig = self.ask_obj(System, 'from: ')
-    dest = self.ask_obj(System, 'to: ')
-    # orig = self.store.get(System, 'X1-KS52')
-    # dest = self.store.get(System, 'X1-DA90')
-    path = self.analyzer.find_path(orig, dest)
-    pprint(path)
-  
-  def do_ships(self, arg=''):
-    if arg.startswith('r'):
-      r = self.api.list_ships()
-    else:
-      r = sorted(list(self.store.all('Ship')))
-    pprint(r)
-  
-  def do_contracts(self, arg=''):
-    if arg.startswith('r'):
-      r = self.api.list_contracts()
-    else:
-      r = list(self.store.all('Contract'))
-    pprint(r)
-  
-  def do_deliver(self):
-    if not self.has_ship(): return 
-    site = self.ship.location
-    contract = self.active_contract()
-    delivery = contract.unfinished_delivery()
-    if delivery is None:
-      raise CommandError('no delivery')
-    resource = delivery['trade_symbol']
-    self.api.deliver(self.ship, resource, contract)
-    pprint(contract)
-  
-  def do_fulfill(self):
-    contract = self.active_contract()
-    self.api.fulfill(contract)
-    
-  def do_ship(self, arg=''):
-    if arg != '':
-      symbol = f'{self.agent.symbol}-{arg}'
-      ship = self.store.get('Ship', symbol)
-      if ship is None:
-        print('not found')
-        return
-      else:
-        self.ship = ship
-    pprint(self.ship)
-  
-  def do_pp(self):
-    pprint(self.api.last_result)
-  
   def do_go(self, arg):
     if not self.has_ship(): return
     system = self.ship.location.system
@@ -435,19 +469,6 @@ class Commander(CommandLine):
     self.api.orbit(self.ship)
     pprint(self.ship)
   
-  def do_siphon(self):
-    if not self.has_ship(): return
-    data = self.api.siphon(self.ship)
-    pprint(data)
-    
-  def do_negotiate(self):
-    if not self.has_ship(): return
-    r =  self.api.negotiate(self.ship)
-    pprint(r)
-  
-  def do_token(self):
-    print(self.agent.token)
-  
   def do_speed(self, speed):
     if not self.has_ship(): return 
     speed = speed.upper()
@@ -456,25 +477,42 @@ class Commander(CommandLine):
       print('please choose from:', speeds)
     self.api.flight_mode(self.ship, speed)
   
-  def do_refuel(self, source='market'):
+  def do_jump(self, waypoint_str):
     if not self.has_ship(): return
-    from_cargo = source != 'market'
-    r =  self.api.refuel(self.ship, from_cargo=from_cargo)
-    pprint(r)
+    w = self.resolve('Waypoint', waypoint_str)
+    self.api.jump(self.ship, w)
+    pprint(self.ship)
     
-  def do_accept(self, c):
-    contract = self.resolve('Contract', c)
-    r =  self.api.accept_contract(contract)
-    pprint(r)
+  ######## Analysis #########
+  def do_stats(self):
+    total = 0
+    for t in self.store.data:
+      num = len(self.store.data[t])
+      nam = t.__name__
+      total += num
+      print(f'{num:5d} {nam}')
+    print(f'{total:5d} total')
   
-  def do_market(self, arg=''):
-    if arg == '':
+  def do_defrag(self):
+    self.store.defrag()
+    
+  
+  def do_query(self, resource):
     if not self.has_ship(): return
-      waypoint = self.ship.location
-    else:
-      waypoint = self.resolve('Waypoint', arg)
-    r =  self.api.marketplace(waypoint)
-    pprint(r, 3)
+    location = self.ship.location
+    resource = resource.upper()
+    print('Found markets:')
+    for typ, m, d, plen in self.analyzer.find_closest_markets(resource, 'buy,exchange',location):
+      price = '?'
+      if resource in m.prices:
+        price = m.prices[resource]['buy']
+      print(m, typ[0], f'{plen-1:3} hops {price}')
+      
+  def do_findtrade(self):
+    if not self.has_ship(): return
+    system = self.ship.location.system
+    t = self.analyzer.find_trade(system)
+    pprint(t)
     
   def do_prices(self, resource=None):
     if not self.has_ship(): return
@@ -484,68 +522,3 @@ class Commander(CommandLine):
       pprint(prices[resource.upper()])
     else:
       pprint(prices)
-    
-  def do_cargo(self):
-    if not self.has_ship(): return
-    print(f'== Cargo {self.ship.cargo_units}/{self.ship.cargo_capacity} ==')
-    for c, units in self.ship.cargo.items():
-      print(f'{units:4d} {c}')
-      
-  def do_buy(self, resource, amt=None):
-    if not self.has_ship(): return
-    if amt is None:
-      amt = self.ship.cargo_capacity - self.ship.cargo_units
-    self.api.buy(self.ship, resource.upper(), amt)
-    self.do_cargo()
-  
-  def do_sell(self, resource, amt=None):
-    if not self.has_ship(): return
-    self.api.sell(self.ship, resource.upper(), amt)
-    self.do_cargo()
-    
-  def do_dump(self, resource):
-    if not self.has_ship(): return
-    self.api.jettison(self.ship, resource.upper())
-    self.do_cargo()
-  
-  def do_shipyard(self):
-    if not self.has_ship(): return
-    location = self.ship.location
-    data = self.api.shipyard(location)
-    for s in must_get(data, 'ships'):
-      print(s['type'], s['purchasePrice'])
-  
-  def do_jump(self, waypoint_str):
-    if not self.has_ship(): return
-    
-    w = self.resolve('Waypoint', waypoint_str)
-    self.api.jump(self.ship, w)
-    pprint(self.ship)
-    
-  def do_purchase(self, ship_type):
-    if not self.has_ship(): return
-    location = self.ship.location
-    ship_type = ship_type.upper()
-    if not ship_type.startswith('SHIP'):
-      ship_type = 'SHIP_' + ship_type
-    s = self.api.purchase(ship_type, location)
-    pprint(s)
-
-  def do_survey(self):
-    if not self.has_ship(): return
-    r = self.api.survey(self.ship)
-    pprint(r)
-  
-  def do_surveys(self):
-    pprint(list(self.store.all('Survey')))
-  
-  def do_extract(self, survey_str=''):
-    if not self.has_ship(): return
-    survey = None
-    if survey_str != '':
-      survey = self.resolve('Survey', survey_str)
-    result = self.api.extract(self.ship, survey)
-    
-    symbol = mg(result,'extraction.yield.symbol')
-    units  = mg(result,'extraction.yield.units')
-    print(units, symbol)

nullptr/models/base.py

@@ -22,12 +22,19 @@ class Base:
   identifier = 'symbol'
   
   def __init__(self, symbol, store):
-    self.disable_dirty = True
-    self.file_offset = None
+    self._disable_dirty = True
+    self._file_offset = None
     self.store = store
     self.symbol = symbol
     self.define()
-    self.disable_dirty = False
+    self._disable_dirty = False
+  
+  def __setstate__(self, d):
+    self.__init__(d['symbol'], d['store'])
+    self.__dict__.update(d)
+  
+  def __getstate__(self):
+    return {k:v for k,v in self.__dict__.items() if not k.startswith('_')}
 
   @classmethod
   def ext(cls):
@@ -73,7 +80,7 @@ class Base:
       setattr(self, attr, lst)
     
   def __setattr__(self, name, value):
-    if name not in ['symbol','store','disable_dirty', 'file_offset'] and not self.disable_dirty:
+    if not name.startswith('_') and not self._disable_dirty:
       self.store.dirty(self)
     if issubclass(type(value), Base):
       value = Reference.create(value)
@@ -91,11 +98,6 @@ class Base:
   def is_expired(self):
     return False
     
-  def load(self, d):
-    self.disable_dirty = True
-    self.__dict__.update(d)
-    self.disable_dirty = False
-    
   def type(self):
     return self.__class__.__name__
   

nullptr/models/ship.py

@@ -2,6 +2,7 @@ from .base import Base
 from time import time
 from nullptr.util import *
 from nullptr.models import Waypoint
+import os
 
 class Ship(Base):  
   def define(self):
@@ -18,6 +19,18 @@ class Ship(Base):
     self.mission:str = None
     self.mission_status:str = 'init'
     self.role = None
+    self.frame = ''
+    self.speed = "CRUISE"
+    self._log_file = None
+  
+  def log(self, m):
+    if self._log_file is None:
+      fn = os.path.join(self.store.data_dir, f'{self.symbol}.{self.ext()}.log')
+      self._log_file = open(fn, 'a')
+    ts = int(time())
+    m = m.strip()
+    self._log_file.write(f'{ts} {m}\n')
+    self._log_file.flush()
     
   @classmethod
   def ext(self):
@@ -30,6 +43,8 @@ class Ship(Base):
     
   def update(self, d):
     self.seta('status', d, 'nav.status')
+    self.seta('speed', d, "nav.flightMode")
+    self.seta('frame', d, 'frame.name')
     getter = self.store.getter(Waypoint, create=True)
     self.seta('location', d, 'nav.waypointSymbol', interp=getter)
     self.seta('cargo_capacity', d, 'cargo.capacity')
@@ -104,16 +119,45 @@ class Ship(Base):
     self.update_timers()
     arrival = int(self.arrival - time())
     cooldown = int(self.cooldown - time())
+    
+    role = self.role
+    if role is None:
+      role = 'none'
+    mstatus = self.mission_status
+    if mstatus == 'error': 
+      mstatus = mstatus.upper()
+    status = self.status.lower()
+    if status.startswith('in_'):
+      status = status[3:]
+      
+    if detail < 2:
       r = self.symbol
-    if detail > 1:
-      if self.role is not None:
-        r += f' {self.role}'
-      r += ' ' + self.status
-      r += f' [{self.fuel_current}/{self.fuel_capacity}]'
-      r += ' ' + str(self.location)
+    elif detail == 2:
+      symbol = self.symbol.split('-')[1]
+      
+      r = f'{symbol:<2} {role:7} {mstatus:8} {str(self.location):11}'
       if self.is_travelling():
         r += f' [A: {arrival}]'
       if self.is_cooldown():
         r += f' [C: {cooldown}]'
+    else:
+      r = f'== {self.symbol} {self.frame} ==\n'
+      r += f'Role: {role}\n'
+      r += f'Mission: {self.mission}   ({mstatus})\n'
+      for k, v in self.mission_state.items():
+        r += f' {k}: {v}\n'
+      adj = 'to' if self.status == 'IN_TRANSIT' else 'at'
+      r += f'Status {self.status} {adj} {self.location}\n'
+      
+      r += f'Fuel: {self.fuel_current}/{self.fuel_capacity}\n'
+      r += f'Speed: {self.speed}\n'
+      r += f'Cargo: {self.cargo_units}/{self.cargo_capacity}\n'
+      for res, u in self.cargo.items():
+        r += f' {res}: {u}\n'
+      if self.is_travelling():
+        r += f'Arrival: {arrival} seconds\n'
+      if self.is_cooldown():
+        r += f'Cooldown: {cooldown} seconds \n'
+        
     return r 
   

nullptr/models/waypoint.py

@@ -32,3 +32,26 @@ class Waypoint(Base):
   def ext(self):
     return 'way'
     
+  def traits(self):
+    traits = []
+    if self.type == 'JUMP_GATE':
+      traits.append('JUMP')
+    if self.type == 'GAS_GIANT':
+      traits.append('GAS')
+    if 'SHIPYARD' in self.traits:
+      traits.append('SHIPYARD')
+    if 'MARKETPLACE' in self.traits:
+      traits.append('MARKET')
+    
+    
+    if self.type == 'ASTEROID':
+      if 'COMMON_METAL_DEPOSITS' in self.traits:
+        traits.append('METAL')
+      if 'PRECIOUS_METAL_DEPOSITS' in self.traits:
+        traits.append('GOLD')
+      if 'MINERAL_DEPOSITS' in self.traits:
+        traits.append('MINS')
+      if 'STRIPPED' in self.traits:
+        traits.append('STRIPPED')
+    return traits
+    

nullptr/store.py

@@ -63,6 +63,7 @@ class ChunkHeader:
 class Store:
   def __init__(self, data_file, verbose=False):
     self.init_models()
+    self.data_dir = os.path.dirname(data_file)
     self.fil = open_file(data_file)
     self.data = {m: {} for m in self.models}
     self.system_members = {}
@@ -102,8 +103,7 @@ class Store:
     buf = BytesIO(data)
     p = StoreUnpickler(buf, self)
     obj = p.load()
-    obj.file_offset = offset
-    obj.disable_dirty = False
+    obj._file_offset = offset
     self.hold(obj)
     
   def load(self):
@@ -143,27 +143,31 @@ class Store:
     h = ChunkHeader()
     h.size = sz
     h.used = used
-    h.offset = self.fil.tell()
+    h.offset = offset
     h.write(self.fil)
     return offset, h
     
   def purge(self, obj):
-    if obj.file_offset is None:
+    if obj._file_offset is None:
       return
-    self.fil.seek(obj.file_offset)
+    self.fil.seek(obj._file_offset)
     hdr = ChunkHeader.parse(self.fil)
     hdr.in_use = False
-    self.fil.seek(obj.file_offset)
+    self.fil.seek(obj._file_offset)
     hdr.write(self.fil)
-    obj.file_offset = None
+    if type(obj) in self.data and obj.symbol in self.data[type(obj)]:
+      del self.data[type(obj)][obj.symbol]
+    if obj in self.dirty_objects:
+      self.dirty_objects.remove(obj)
+    obj._file_offset = None
     
   def store(self, obj):
     data = self.dump_object(obj)
     osize = len(data)
     # is there an existing chunk for this obj?
-    if obj.file_offset is not None:
+    if obj._file_offset is not None:
       # read chunk hdr
-      self.fil.seek(obj.file_offset)
+      self.fil.seek(obj._file_offset)
       hdr = ChunkHeader.parse(self.fil)
       csize = hdr.size
       # if the chunk is too small
@@ -171,15 +175,15 @@ class Store:
         # free the chunk
         hdr.in_use = False
         # force a new chunk
-        obj.file_offset = None
+        obj._file_offset = None
       else:
         # if it is big enough, update the used field
         hdr.used = osize
       self.fil.seek(hdr.offset)
       hdr.write(self.fil)
         
-    if obj.file_offset is None:
-      obj.file_offset, hdr = self.allocate_chunk(osize)
+    if obj._file_offset is None:
+      obj._file_offset, hdr = self.allocate_chunk(osize)
     # print(type(obj).__name__, hdr)
     self.fil.write(data)
     slack = b'\x00' * (hdr.size - hdr.used)
@@ -294,14 +298,17 @@ class Store:
     self.fil.flush()
     self.dirty_objects = set()
     dur = time() - start_time
-    # print(f'flush done {it} items {dur:.2f}')
+    self.p(f'flush done {it} items {dur:.2f}')
   
   def defrag(self):
     nm = self.fil.name
     self.fil.close()
+    bakfile = nm+'.bak'
+    if os.path.isfile(bakfile):
+      os.remove(bakfile)
     os.rename(nm, nm + '.bak')
-    self.fil = open(nm, 'ab+')
+    self.fil = open_file(nm)
     for t in self.data:
       for o in self.all(t):
-        o.file_offset = None
+        o._file_offset = None
         self.store(o)

nullptr/store_analyzer.py

@@ -0,0 +1,58 @@
+from nullptr.store import CHUNK_MAGIC, ChunkHeader, StoreUnpickler
+from hexdump import hexdump
+from io import BytesIO
+class FakeStore:
+  def get(self, typ, sym, create=False):
+    return None
+
+class StoreAnalyzer:
+  def __init__(self, verbose=False):
+    self.verbose = verbose
+
+  def load_obj(self, f, sz):
+    buf = BytesIO(f.read(sz))
+    p = StoreUnpickler(buf, FakeStore())
+    obj = p.load()
+    return obj
+    print(obj.symbol, type(obj).__name__)
+
+  def run(self, f):
+    lastpos = 0
+    pos = 0
+    objs = {}
+    result = True
+    f.seek(0)
+    while True:
+      lastpos = pos
+      pos = f.tell()
+      m = f.read(8)
+      if len(m) < 8:
+        break
+      if m != CHUNK_MAGIC:
+        print(f'missing magic at {pos}')
+        result = False
+        self.investigate(f, lastpos)
+        break
+      f.seek(-8, 1)
+      h = ChunkHeader.parse(f)
+      if self.verbose:
+        print(h, pos)
+      if h.in_use:
+        obj = self.load_obj(f, h.used)
+        kobj = obj.symbol, type(obj).__name__
+        if kobj in objs:
+          print(f'Double object {kobj} prev {objs[kobj]} latest {h}')
+          result = False
+        objs[kobj] = h
+      else:
+        f.seek(h.used, 1)
+      f.seek(h.size - h.used, 1)
+    return result
+  
+  def investigate(self, f, lastpos):
+    print(f'dumping 1024 bytes from {lastpos}')
+    f.seek(lastpos, 0)
+    d = f.read(1024)
+    
+    hexdump(d)
+    print(d.index(CHUNK_MAGIC))

nullptr/test_store.py

@@ -1,7 +1,10 @@
 import unittest
 import tempfile
-from nullptr.store import Store
+from nullptr.store import Store, ChunkHeader
 from nullptr.models import Base
+from io import BytesIO
+import os
+from nullptr.store_analyzer import StoreAnalyzer
 
 class Dummy(Base):
   def define(self):
@@ -16,7 +19,7 @@ class Dummy(Base):
     return 'dum'
   
   def f(self, detail=1):
-    r = super().f(detail)
+    r = super().f(detail) + '.' + self.ext()
     if detail >2:
       r += f' c:{self.count}'
     return r
@@ -50,10 +53,19 @@ class TestStore(unittest.TestCase):
     dum2 = self.s.get(Dummy, "7",create=True)
     self.reopen()
     dum = self.s.get(Dummy, "5")
+    old_off = dum._file_offset
+    self.assertTrue(old_off is not None)
     dum.data = "A" * 1000
     dum.count = 1337
+    self.s.flush()
+    new_off = dum._file_offset
+    self.assertTrue(new_off is not None)
+    self.assertNotEqual(old_off, new_off)
     self.reopen()
     dum = self.s.get(Dummy, "5")
+    newer_off = dum._file_offset
+    self.assertTrue(newer_off is not None)
+    self.assertEqual(new_off, newer_off)
     self.assertEqual(1337, dum.count)
   
   def test_purge(self):
@@ -64,6 +76,8 @@ class TestStore(unittest.TestCase):
     self.s.flush()
     self.s.purge(dum)
     self.reopen()
+    dum = self.s.get(Dummy, "5")
+    self.assertIsNone(dum)
     dum2 = self.s.get(Dummy, "7")
     self.assertEqual(1337, dum2.count)
   
@@ -98,4 +112,59 @@ class TestStore(unittest.TestCase):
     dum3 = self.s.get(Dummy, "9")
     self.assertEqual(1338, dum3.count)
   
+  def test_dont_relocate(self):
+    dum = self.s.get(Dummy, "5", create=True)
+    dum.data = "A"
+    self.s.flush()
+    old_off = dum._file_offset
+    self.reopen()
+    dum2 = self.s.get(Dummy, "5")
+    dum2.data = "BCDE"
+    self.s.flush()
+    new_off = dum._file_offset
+    self.assertEqual(old_off, new_off)
+
+  def test_chunk_header(self):
+    a = ChunkHeader()
+    a.size = 123
+    a.used = 122
+    a.in_use = True
+    b = BytesIO()
+    a.write(b)
+    b.seek(0)
+    c = ChunkHeader.parse(b)
+    self.assertEqual(c.size, a.size)
+    self.assertEqual(c.used, a.used)
+    self.assertEqual(c.in_use, True)
+    c.in_use = False
+    b.seek(0)
+    c.write(b)
+    b.seek(0)
+    d = ChunkHeader.parse(b)
+    self.assertEqual(d.size, a.size)
+    self.assertEqual(d.used, a.used)
+    self.assertEqual(d.in_use, False)
+  
+  def test_mass(self):
+    num = 50
+    for i in range(num):
+      dum = self.s.get(Dummy, str(i), create=True)
+      dum.data = str(i)
+      dum.count = 0
+    self.reopen()
+    sz = os.stat(self.store_file.name).st_size
+    for j in range(50):
+      for i in range(num):
+        dum = self.s.get(Dummy, str(i))
+        # this works because j is max 49, and the slack is 64
+        # so no growing is needed
+        self.assertEqual(dum.data, "B" * j + str(i)) 
+        self.assertEqual(dum.count, j)
+        dum.data = "B" * (j+1) + str(i)
+        dum.count += 1
+      self.reopen()
+    sz2 = os.stat(self.store_file.name).st_size
+    self.assertEqual(sz, sz2)
+    an = StoreAnalyzer().run(self.store_file)
+    self.assertTrue(an)
     

requirements.txt

@@ -1,2 +1,3 @@
 requests
 readline
+hexdump