func TestSupportValidation(t *testing.T) { judge := startState(t) // Happy paths assertOrderValidity(t, judge, orders.SupportMove("bre", "par", "gas"), nil) assertOrderValidity(t, judge, orders.SupportHold("par", "bre"), nil) assertOrderValidity(t, judge, orders.SupportMove("par", "bre", "gas"), nil) judge.SetUnit("spa/sc", dip.Unit{cla.Fleet, cla.France}) judge.SetUnit("por", dip.Unit{cla.Fleet, cla.France}) judge.SetUnit("gol", dip.Unit{cla.Fleet, cla.France}) assertOrderValidity(t, judge, orders.SupportMove("spa/sc", "por", "mid"), nil) assertOrderValidity(t, judge, orders.SupportMove("gol", "mar", "spa"), nil) // Missing unit assertOrderValidity(t, judge, orders.SupportMove("ruh", "kie", "hol"), cla.ErrMissingUnit) // Missing supportee assertOrderValidity(t, judge, orders.SupportHold("ber", "sil"), cla.ErrMissingSupportUnit) // Illegal support assertOrderValidity(t, judge, orders.SupportHold("bre", "par"), cla.ErrIllegalSupportPosition) assertOrderValidity(t, judge, orders.SupportMove("mar", "spa/nc", "por"), cla.ErrIllegalSupportDestination) judge.RemoveUnit("spa/sc") judge.SetUnit("spa/nc", dip.Unit{cla.Fleet, cla.France}) assertOrderValidity(t, judge, orders.SupportMove("spa/nc", "mar", "gol"), cla.ErrIllegalSupportDestination) // Illegal moves assertOrderValidity(t, judge, orders.SupportMove("mar", "spa/nc", "bur"), cla.ErrIllegalSupportMove) }
regexp.MustCompile("^(?i)(A|F)\\s+(\\S+)\\s+disband$"): func(m []string) (prov dip.Province, order dip.Adjudicator, err error) { if prov, err = DATCProvince(m[2]); err != nil { return } order = orders.Disband(prov, time.Now()) return }, regexp.MustCompile("^(?i)(A|F)\\s+(\\S+)\\s+S(UPP\\S*)?\\s+(A|F)\\s+([^-\\s]+)$"): func(m []string) (prov dip.Province, order dip.Adjudicator, err error) { if prov, err = DATCProvince(m[2]); err != nil { return } target, err := DATCProvince(m[5]) if err != nil { return } order = orders.SupportHold(prov, target) return }, regexp.MustCompile("^(?i)(A|F)\\s+(\\S+)\\s+c(onv\\S*)?\\s+(A|F)\\s+(\\S+)\\s*-\\s*(\\S+)$"): func(m []string) (prov dip.Province, order dip.Adjudicator, err error) { if prov, err = DATCProvince(m[2]); err != nil { return } from, err := DATCProvince(m[5]) if err != nil { return } to, err := DATCProvince(m[6]) if err != nil { return } order = orders.Convoy(prov, from, to)
func assertGame(t *testing.T, name string) (phases, ords, positions, fails int, s *state.State) { file, err := os.Open(fmt.Sprintf("games/%v", name)) if err != nil { t.Fatalf("%v", err) } if s, err = classical.Start(); err != nil { t.Fatalf("%v", err) } lines := bufio.NewReader(file) var match []string state := inNothing scCollector, unitCollector, dislodgedCollector := make(map[dip.Province]dip.Nation), make(map[dip.Province]dip.Unit), make(map[dip.Province]dip.Unit) for line, err := lines.ReadString('\n'); err == nil; line, err = lines.ReadString('\n') { line = strings.TrimSpace(line) switch state { case inNothing: if match = phaseReg.FindStringSubmatch(line); match != nil { phases += 1 setPhase(t, &s, match) } else if line == positionsTag { state = inPositions } else { t.Fatalf("Unknown line for state inNothing: %v", line) } case inPositions: if match = posReg.FindStringSubmatch(line); match != nil { positions += 1 verifyPosition(t, s, match, scCollector, unitCollector, dislodgedCollector, &fails) } else if line == ordersTag { verifyReversePositions(t, s, scCollector, unitCollector, dislodgedCollector, &fails) if fails > 0 { return } dip.ClearLog() scCollector, unitCollector, dislodgedCollector = make(map[dip.Province]dip.Nation), make(map[dip.Province]dip.Unit), make(map[dip.Province]dip.Unit) state = inOrders } else { t.Fatalf("Unknown line for state inPositions: %v", line) } case inOrders: ords += 1 if match = moveReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.Move(dip.Province(match[1]), dip.Province(match[2]))) } else if match = moveViaConvoyReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.Move(dip.Province(match[1]), dip.Province(match[2])).ViaConvoy()) } else if match = supportMoveReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.SupportMove(dip.Province(match[1]), dip.Province(match[2]), dip.Province(match[3]))) } else if match = supportHoldReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.SupportHold(dip.Province(match[1]), dip.Province(match[2]))) } else if match = holdReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.Hold(dip.Province(match[1]))) } else if match = convoyReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.Convoy(dip.Province(match[1]), dip.Province(match[2]), dip.Province(match[3]))) } else if match = buildReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[2]), orders.Build(dip.Province(match[2]), dip.UnitType(match[1]), time.Now())) } else if match = removeReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.Disband(dip.Province(match[1]), time.Now())) } else if match = disbandReg.FindStringSubmatch(line); match != nil { s.SetOrder(dip.Province(match[1]), orders.Disband(dip.Province(match[1]), time.Now())) } else if match = phaseReg.FindStringSubmatch(line); match != nil { ords -= 1 phases += 1 setPhase(t, &s, match) state = inNothing } else { t.Fatalf("Unknown line for state inOrders: %v", line) } default: t.Fatalf("Unknown state %v", state) } } return }