return table[my_index].value
}
-func FindBestState(data planet_data, dims []int, table []State) int32 {
+func FinalState(dims []int) []int {
addr := make([]int, NumDimensions)
addr[Edens] = *end_edens
addr[Cloaks] = dims[Cloaks] - 1
addr[Traded] = 1
addr[Hold] = 0
addr[UnusedCargo] = 0
+ // Fuel and Location are determined by FindBestState
+ return addr
+}
+
+func FindBestState(data planet_data, dims []int, table []State, addr []int) int32 {
max_index := int32(-1)
max_value := 0.0
max_fuel := 1
data.c2i, data.i2c = IndexCommodities(&data.Commodities, 1)
dims := DimensionSizes(data)
table := CreateStateTable(data, dims)
- best := FindBestState(data, dims, table)
+ final_state := FinalState(dims)
+ best := FindBestState(data, dims, table, final_state)
print("\n")
if best == -1 {
print("Cannot acheive success criteria\n")
- } else {
- description := DescribePath(data, dims, table, best)
- for i := len(description) - 1; i >= 0; i-- {
- fmt.Println(description[i])
- }
+ return
+ }
+ description := DescribePath(data, dims, table, best)
+ for i := len(description) - 1; i >= 0; i-- {
+ fmt.Println(description[i])
+ }
+
+ // Use extra eden warps
+ if *end_edens > 0 {
+ fmt.Println()
+ }
+ for extra_edens := 1; extra_edens <= *end_edens; extra_edens++ {
+ final_state[Edens] = *end_edens - extra_edens
+ alt_best := FindBestState(data, dims, table, final_state)
+ extra_funds := table[alt_best].value - table[best].value
+ fmt.Println("\rUse", extra_edens, "extra edens, make an extra",
+ Commas(extra_funds), "(",
+ Commas(extra_funds/int32(extra_edens)), "per eden)")
}
}
projects / planeteer / blobdiff