Ilia Denisov
292 lines
12 KiB
Go
292 lines
12 KiB
Go
package controller_test
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import (
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"slices"
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"testing"
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"github.com/google/uuid"
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"github.com/iliadenisov/galaxy/internal/controller"
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e "github.com/iliadenisov/galaxy/internal/error"
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"github.com/iliadenisov/galaxy/internal/model/game"
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"github.com/iliadenisov/galaxy/internal/number"
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"github.com/stretchr/testify/assert"
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)
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func TestRenamePlanet(t *testing.T) {
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c, g := newCache()
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assert.Equal(t, "Planet_0", c.MustPlanet(R0_Planet_0_num).Name)
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assert.NoError(t, g.RenamePlanet(Race_0.Name, int(R0_Planet_0_num), "Home_World"))
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assert.Equal(t, "Home_World", c.MustPlanet(R0_Planet_0_num).Name)
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assert.ErrorContains(t,
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g.RenamePlanet("UnknownRace", int(R0_Planet_0_num), "Home_World"),
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e.GenericErrorText(e.ErrInputUnknownRace))
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assert.ErrorContains(t,
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g.RenamePlanet(Race_0.Name, -1, "Home_World"),
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e.GenericErrorText(e.ErrInputPlanetNumber))
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assert.ErrorContains(t,
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g.RenamePlanet(Race_0.Name, 500, "Home_World"),
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e.GenericErrorText(e.ErrInputEntityNotExists))
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assert.ErrorContains(t,
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g.RenamePlanet(Race_0.Name, int(R1_Planet_1_num), "Home_World"),
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e.GenericErrorText(e.ErrInputEntityNotOwned))
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}
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func TestPlanetProduction(t *testing.T) {
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c, g := newCache()
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first := "Drive_Shields"
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assert.NoError(t, g.CreateScience(Race_0.Name, first, 0.4, 0, 0.6, 0))
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assert.Len(t, c.RaceScience(Race_0_idx), 1)
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scID := c.RaceScience(Race_0_idx)[0].ID
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pn := int(R0_Planet_0_num)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "MAT", ""))
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assert.Equal(t, game.ProductionMaterial, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "CAP", ""))
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assert.Equal(t, game.ProductionCapital, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "Weapons", "500"))
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assert.Equal(t, game.ResearchWeapons, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "cargo", ""))
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assert.Equal(t, game.ResearchCargo, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "SHIELDS", first))
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assert.Equal(t, game.ResearchShields, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "DrivE", ""))
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assert.Equal(t, game.ResearchDrive, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "Science", first))
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assert.Equal(t, game.ResearchScience, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.Nil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NotNil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.Equal(t, scID, *c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "SHIP", Race_0_Gunship))
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assert.Equal(t, game.ProductionShip, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.NotNil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NotNil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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stID := c.MustShipClass(Race_0_idx, Race_0_Gunship).ID
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assert.Equal(t, stID, *c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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pn = int(R0_Planet_2_num)
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assert.ErrorContains(t,
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g.PlanetProduction("UnknownRace", pn, "DRIVE", ""),
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e.GenericErrorText(e.ErrInputUnknownRace))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, pn, "Hyperdrive", ""),
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e.GenericErrorText(e.ErrInputProductionInvalid))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, -1, "DRIVE", ""),
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e.GenericErrorText(e.ErrInputPlanetNumber))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, 500, "DRIVE", ""),
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e.GenericErrorText(e.ErrInputEntityNotExists))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, int(R1_Planet_1_num), "DRIVE", ""),
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e.GenericErrorText(e.ErrInputEntityNotOwned))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, pn, "Science", ""),
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e.GenericErrorText(e.ErrInputEntityTypeNameInvalid))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, pn, "SHIP", ""),
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e.GenericErrorText(e.ErrInputEntityTypeNameInvalid))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, pn, "Science", "Winning"),
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e.GenericErrorText(e.ErrInputEntityNotExists))
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assert.ErrorContains(t,
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g.PlanetProduction(Race_0.Name, pn, "SHIP", "Drone"),
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e.GenericErrorText(e.ErrInputEntityNotExists))
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}
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func TestPlanetProductionCapacity(t *testing.T) {
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c, _ := newCache()
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assert.NoError(t, c.CreateShips(Race_0_idx, ShipType_Cruiser, R0_Planet_0_num, 1))
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assert.Equal(t, 100., c.PlanetProductionCapacity(R0_Planet_0_num))
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c.UpgradeShipGroup(0, game.TechDrive, 1.6)
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assert.Equal(t, 53.125, c.PlanetProductionCapacity(R0_Planet_0_num))
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}
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func TestProduceShips(t *testing.T) {
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c, g := newCache()
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pn := int(R0_Planet_0_num)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "SHIP", Race_0_Gunship))
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assert.Equal(t, game.ProductionShip, c.MustPlanet(R0_Planet_0_num).Production.Type)
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assert.NotNil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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assert.NotNil(t, c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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st := c.MustShipClass(Race_0_idx, Race_0_Gunship)
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assert.Equal(t, st.ID, *c.MustPlanet(R0_Planet_0_num).Production.SubjectID)
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c.MustPlanet(R0_Planet_0_num).Size = 1000.
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c.MustPlanet(R0_Planet_0_num).Population = 1000.
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c.MustPlanet(R0_Planet_0_num).Industry = 1000.
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c.MustPlanet(R0_Planet_0_num).Resources = 10.
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shipMass := st.EmptyMass()
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c.TurnPlanetProductions()
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assert.Len(t, slices.Collect(c.RaceShipGroups(Race_0_idx)), 0)
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assert.NotNil(t, c.MustPlanet(R0_Planet_0_num).Production.Progress)
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progress := *c.MustPlanet(R0_Planet_0_num).Production.Progress
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assert.InDelta(t, 0.45, progress.F(), 0.001)
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assert.NoError(t, c.CreateShipType(Race_0_idx, "Drone", 1, 0, 0, 0, 0))
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assert.NoError(t, c.CreateShips(Race_0_idx, "Drone", uint(pn), 7))
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assert.Len(t, slices.Collect(c.RaceShipGroups(Race_0_idx)), 1)
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assert.Equal(t, uint(7), c.ShipGroup(0).Number)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "SHIP", "Drone"))
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assert.InDelta(t, shipMass*progress.F(), c.MustPlanet(R0_Planet_0_num).Material.F(), 0.00001) // 99.(0099) material build
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c.MustPlanet(R0_Planet_0_num).Material = 0
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c.MustPlanet(R0_Planet_0_num).Colonists = 0
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c.TurnPlanetProductions()
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assert.Len(t, slices.Collect(c.RaceShipGroups(Race_0_idx)), 1)
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assert.Equal(t, uint(106), c.ShipGroup(0).Number)
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progress = *c.MustPlanet(R0_Planet_0_num).Production.Progress
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assert.InDelta(t, 0.0099, progress.F(), 0.00001) // 1.(0099) drones with no CAP on planet
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}
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func TestProduceShip(t *testing.T) {
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Drone := game.ShipType{
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Name: "Drone",
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Drive: 1,
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Armament: 0,
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Weapons: 0,
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Shields: 0,
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Cargo: 0,
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}
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BattleShip := game.ShipType{
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Name: "BattleShip",
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Drive: 25,
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Armament: 1,
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Weapons: 30,
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Shields: 35,
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Cargo: 0,
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}
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p := controller.NewPlanet(0, "Planet_0", uuid.New(), 1, 1, 1000, 1000, 1000, 10, game.ProductionShip.AsType(uuid.Nil))
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r := controller.ProduceShip(&p, p.ProductionCapacity(), Drone.EmptyMass())
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assert.Equal(t, uint(99), r)
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assert.InDelta(t, 0.0099, (*p.Production.Progress).F(), 0.000001)
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(&p).Production = game.ProductionShip.AsType(uuid.Nil)
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(&p).Capital = 10.
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r = controller.ProduceShip(&p, p.ProductionCapacity(), Drone.EmptyMass())
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assert.Equal(t, uint(100), r)
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assert.Equal(t, 0., (*p.Production.Progress).F())
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assert.Equal(t, 0., number.Fixed3(p.Capital.F())) // TODO: zero CAP is not actual '0.0' after series of decrements
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(&p).Production = game.ProductionShip.AsType(uuid.Nil)
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(&p).Capital = 0.
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r = controller.ProduceShip(&p, p.ProductionCapacity(), BattleShip.EmptyMass())
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assert.Equal(t, uint(1), r)
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assert.InDelta(t, 0.1, (*p.Production.Progress).F(), 0.001)
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(&p).Production = game.ProductionShip.AsType(uuid.Nil)
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(&p).Capital = 20.
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r = controller.ProduceShip(&p, p.ProductionCapacity(), BattleShip.EmptyMass())
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assert.Equal(t, uint(1), r)
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assert.Equal(t, 1./9., (*p.Production.Progress).F())
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// TODO: test with insufficient production capacity
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}
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func TestListProducingPlanets(t *testing.T) {
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c, g := newCache()
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c.MustPlanet(0).Production = game.ProductionNone.AsType(uuid.Nil)
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c.MustPlanet(1).Production = game.ProductionNone.AsType(uuid.Nil)
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c.MustPlanet(2).Production = game.ProductionNone.AsType(uuid.Nil)
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planets := slices.Collect(c.ListProducingPlanets())
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assert.Len(t, planets, 0)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, int(R0_Planet_0_num), "CAP", ""))
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planets = slices.Collect(c.ListProducingPlanets())
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assert.Len(t, planets, 1)
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assert.Equal(t, R0_Planet_0_num, c.MustPlanet(planets[0]).Number)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, int(R0_Planet_2_num), "SHIP", Race_0_Gunship))
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planets = slices.Collect(c.ListProducingPlanets())
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assert.Len(t, planets, 2)
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assert.Equal(t, R0_Planet_2_num, c.MustPlanet(planets[0]).Number)
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assert.Equal(t, R0_Planet_0_num, c.MustPlanet(planets[1]).Number)
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}
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func TestTurnPlanetProductions(t *testing.T) {
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c, g := newCache()
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assert.NoError(t, c.CreateShipType(Race_0_idx, "Drone", 1, 0, 0, 0, 0))
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assert.NoError(t, g.CreateScience(Race_0.Name, "Equality", 0.25, 0.25, 0.25, 0.25))
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c.MustPlanet(R0_Planet_0_num).Resources = 10.
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c.MustPlanet(R0_Planet_0_num).Size = 1000.
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c.MustPlanet(R0_Planet_0_num).Population = 1000.
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c.MustPlanet(R0_Planet_0_num).Industry = 1000.
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pn := int(R0_Planet_0_num)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "CAP", ""))
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assert.Equal(t, 0.0, c.MustPlanet(R0_Planet_0_num).Capital.F())
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assert.Equal(t, 0.0, c.MustPlanet(R0_Planet_0_num).Colonists.F())
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c.TurnPlanetProductions()
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assert.InDelta(t, 196., c.MustPlanet(R0_Planet_0_num).Capital.F(), 0.1)
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assert.InDelta(t, 10.0, c.MustPlanet(R0_Planet_0_num).Colonists.F(), 0.000001) // FIXME: should store more exact value
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "MAT", ""))
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assert.Equal(t, 0.0, c.MustPlanet(R0_Planet_0_num).Material.F())
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c.TurnPlanetProductions()
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assert.Equal(t, 10000., c.MustPlanet(R0_Planet_0_num).Material.F())
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assert.InDelta(t, 20.0, c.MustPlanet(R0_Planet_0_num).Colonists.F(), 0.000001)
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "DRIVE", ""))
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assert.Equal(t, 1.1, c.Race(Race_0_idx).TechLevel(game.TechDrive))
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c.TurnPlanetProductions()
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assert.Equal(t, 1.3, c.Race(Race_0_idx).TechLevel(game.TechDrive))
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "WEAPONS", ""))
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assert.Equal(t, 1.2, c.Race(Race_0_idx).TechLevel(game.TechWeapons))
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c.TurnPlanetProductions()
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assert.Equal(t, 1.4, c.Race(Race_0_idx).TechLevel(game.TechWeapons))
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "SHIELDS", ""))
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assert.Equal(t, 1.3, c.Race(Race_0_idx).TechLevel(game.TechShields))
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c.TurnPlanetProductions()
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assert.Equal(t, 1.5, c.Race(Race_0_idx).TechLevel(game.TechShields))
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "CARGO", ""))
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assert.Equal(t, 1.4, c.Race(Race_0_idx).TechLevel(game.TechCargo))
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c.TurnPlanetProductions()
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assert.InDelta(t, 1.6, c.Race(Race_0_idx).TechLevel(game.TechCargo), 0.1) // FIXME: 1.5999999999999999 -> 1.6
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "SCIENCE", "Equality"))
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c.TurnPlanetProductions()
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assert.Equal(t, 1.35, c.Race(Race_0_idx).TechLevel(game.TechDrive))
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assert.Equal(t, 1.45, c.Race(Race_0_idx).TechLevel(game.TechWeapons))
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assert.Equal(t, 1.55, c.Race(Race_0_idx).TechLevel(game.TechShields))
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assert.Equal(t, 1.65, c.Race(Race_0_idx).TechLevel(game.TechCargo))
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assert.NoError(t, g.PlanetProduction(Race_0.Name, pn, "SHIP", "Drone"))
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assert.Len(t, slices.Collect(c.RaceShipGroups(Race_0_idx)), 0)
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c.TurnPlanetProductions()
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assert.Len(t, slices.Collect(c.RaceShipGroups(Race_0_idx)), 1)
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assert.Equal(t, uint(100), c.ShipGroup(0).Number)
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}
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