X-Git-Url: http://git.scottworley.com/planeteer/blobdiff_plain/a06dc4cbaa5d9172483e91a15bb481f3fdbbbc9e..b7a6e28b4e3619a9b8ff18285bba9876de52549c:/planeteer.go?ds=inline diff --git a/planeteer.go b/planeteer.go index a707d58..82650b9 100644 --- a/planeteer.go +++ b/planeteer.go @@ -19,7 +19,7 @@ package main import "flag" import "fmt" -import "json" +import "encoding/json" import "os" import "runtime/pprof" import "strings" @@ -65,6 +65,9 @@ var battery_price = flag.Int("battery_price", 0, "Today's Shield Battery price") var visit_string = flag.String("visit", "", "A comma-separated list of planets to make sure to visit") +var tomorrow_weight = flag.Float64("tomorrow_weight", 1.0, + "Weight for the expected value of tomorrow's trading. 0.0 - 1.0") + var cpuprofile = flag.String("cpuprofile", "", "write cpu profile to file") var visit_cache []string @@ -113,8 +116,9 @@ type Commodity struct { Limit int } type Planet struct { - BeaconOn bool - Private bool + BeaconOn bool + Private bool + TomorrowValue int /* Use relative prices rather than absolute prices because you can get relative prices without traveling to each planet. */ RelativePrices map[string]int @@ -476,8 +480,7 @@ func CellValue(data planet_data, dims []int, table []State, addr []int) int32 { } /* Visit this planet */ - var i uint - for i = 0; i < uint(len(visit())); i++ { + for i := uint(0); i < uint(len(visit())); i++ { if addr[Visit]&(1< max_value { max_value = value max_index = index @@ -563,6 +574,9 @@ func FindBestState(data planet_data, dims []int, table []State) int32 { } func Commas(n int32) (s string) { + if n < 0 { + panic(n) + } r := n % 1000 n /= 1000 for n > 0 { @@ -687,14 +701,64 @@ func main() { 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]) + } + + // Ok, that was the important stuff. Now some fun stuff. + + // Calculate total cost of fighters and shields + if *drones > 0 || *batteries > 0 { + fmt.Println() + } + if *drones > 0 { + final_state[BuyFighters] = 0 + alt_best := FindBestState(data, dims, table, final_state) + cost := table[alt_best].value - table[best].value + fmt.Println("\rDrones were", float64(cost)/float64(*drones), "each") + final_state[BuyFighters] = 1 + } + if *batteries > 0 { + final_state[BuyShields] = 0 + alt_best := FindBestState(data, dims, table, final_state) + cost := table[alt_best].value - table[best].value + fmt.Println("\rBatteries were", float64(cost)/float64(*batteries), "each") + final_state[BuyShields] = 1 + } + + // 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)") + } + final_state[Edens] = *end_edens + + // Cost of visiting places + if dims[Visit] > 1 { + fmt.Println() + } + for i := uint(0); i < uint(len(visit())); i++ { + all_bits := dims[Visit] - 1 + final_state[Visit] = all_bits & ^(1 << i) + alt_best := FindBestState(data, dims, table, final_state) + cost := table[alt_best].value - table[best].value + fmt.Println("\r", Commas(cost), "Cost to visit", visit()[i]) + } + final_state[Visit] = dims[Visit] - 1 + }