Move CurrencyToString to size

pull/547/head
Taylor Gerring 10 years ago
parent 08b21acff1
commit 82a41a198e
  1. 57
      common/common.go
  2. 33
      common/common_test.go
  3. 62
      common/size.go
  4. 34
      common/size_test.go

@ -76,63 +76,6 @@ func WindonizePath(path string) string {
return path return path
} }
// The different number of units
var (
Douglas = BigPow(10, 42)
Einstein = BigPow(10, 21)
Ether = BigPow(10, 18)
Finney = BigPow(10, 15)
Szabo = BigPow(10, 12)
Shannon = BigPow(10, 9)
Babbage = BigPow(10, 6)
Ada = BigPow(10, 3)
Wei = big.NewInt(1)
)
//
// Currency to string
// Returns a string representing a human readable format
func CurrencyToString(num *big.Int) string {
var (
fin *big.Int = num
denom string = "Wei"
)
switch {
case num.Cmp(Douglas) >= 0:
fin = new(big.Int).Div(num, Douglas)
denom = "Douglas"
case num.Cmp(Einstein) >= 0:
fin = new(big.Int).Div(num, Einstein)
denom = "Einstein"
case num.Cmp(Ether) >= 0:
fin = new(big.Int).Div(num, Ether)
denom = "Ether"
case num.Cmp(Finney) >= 0:
fin = new(big.Int).Div(num, Finney)
denom = "Finney"
case num.Cmp(Szabo) >= 0:
fin = new(big.Int).Div(num, Szabo)
denom = "Szabo"
case num.Cmp(Shannon) >= 0:
fin = new(big.Int).Div(num, Shannon)
denom = "Shannon"
case num.Cmp(Babbage) >= 0:
fin = new(big.Int).Div(num, Babbage)
denom = "Babbage"
case num.Cmp(Ada) >= 0:
fin = new(big.Int).Div(num, Ada)
denom = "Ada"
}
// TODO add comment clarifying expected behavior
if len(fin.String()) > 5 {
return fmt.Sprintf("%sE%d %s", fin.String()[0:5], len(fin.String())-5, denom)
}
return fmt.Sprintf("%v %s", fin, denom)
}
// Common big integers often used // Common big integers often used
var ( var (
Big1 = big.NewInt(1) Big1 = big.NewInt(1)

@ -1,7 +1,6 @@
package common package common
import ( import (
"math/big"
"os" "os"
checker "gopkg.in/check.v1" checker "gopkg.in/check.v1"
@ -34,35 +33,3 @@ func (s *CommonSuite) TestWindonziePath(c *checker.C) {
c.Assert(ressep, checker.Not(checker.Equals), "/") c.Assert(ressep, checker.Not(checker.Equals), "/")
} }
} }
func (s *CommonSuite) TestCommon(c *checker.C) {
douglas := CurrencyToString(BigPow(10, 43))
einstein := CurrencyToString(BigPow(10, 22))
ether := CurrencyToString(BigPow(10, 19))
finney := CurrencyToString(BigPow(10, 16))
szabo := CurrencyToString(BigPow(10, 13))
shannon := CurrencyToString(BigPow(10, 10))
babbage := CurrencyToString(BigPow(10, 7))
ada := CurrencyToString(BigPow(10, 4))
wei := CurrencyToString(big.NewInt(10))
c.Assert(douglas, checker.Equals, "10 Douglas")
c.Assert(einstein, checker.Equals, "10 Einstein")
c.Assert(ether, checker.Equals, "10 Ether")
c.Assert(finney, checker.Equals, "10 Finney")
c.Assert(szabo, checker.Equals, "10 Szabo")
c.Assert(shannon, checker.Equals, "10 Shannon")
c.Assert(babbage, checker.Equals, "10 Babbage")
c.Assert(ada, checker.Equals, "10 Ada")
c.Assert(wei, checker.Equals, "10 Wei")
}
func (s *CommonSuite) TestLarge(c *checker.C) {
douglaslarge := CurrencyToString(BigPow(100000000, 43))
adalarge := CurrencyToString(BigPow(100000000, 4))
weilarge := CurrencyToString(big.NewInt(100000000))
c.Assert(douglaslarge, checker.Equals, "10000E298 Douglas")
c.Assert(adalarge, checker.Equals, "10000E7 Einstein")
c.Assert(weilarge, checker.Equals, "100 Babbage")
}

@ -1,6 +1,9 @@
package common package common
import "fmt" import (
"fmt"
"math/big"
)
type StorageSize float64 type StorageSize float64
@ -13,3 +16,60 @@ func (self StorageSize) String() string {
return fmt.Sprintf("%.2f B", self) return fmt.Sprintf("%.2f B", self)
} }
} }
// The different number of units
var (
Douglas = BigPow(10, 42)
Einstein = BigPow(10, 21)
Ether = BigPow(10, 18)
Finney = BigPow(10, 15)
Szabo = BigPow(10, 12)
Shannon = BigPow(10, 9)
Babbage = BigPow(10, 6)
Ada = BigPow(10, 3)
Wei = big.NewInt(1)
)
//
// Currency to string
// Returns a string representing a human readable format
func CurrencyToString(num *big.Int) string {
var (
fin *big.Int = num
denom string = "Wei"
)
switch {
case num.Cmp(Douglas) >= 0:
fin = new(big.Int).Div(num, Douglas)
denom = "Douglas"
case num.Cmp(Einstein) >= 0:
fin = new(big.Int).Div(num, Einstein)
denom = "Einstein"
case num.Cmp(Ether) >= 0:
fin = new(big.Int).Div(num, Ether)
denom = "Ether"
case num.Cmp(Finney) >= 0:
fin = new(big.Int).Div(num, Finney)
denom = "Finney"
case num.Cmp(Szabo) >= 0:
fin = new(big.Int).Div(num, Szabo)
denom = "Szabo"
case num.Cmp(Shannon) >= 0:
fin = new(big.Int).Div(num, Shannon)
denom = "Shannon"
case num.Cmp(Babbage) >= 0:
fin = new(big.Int).Div(num, Babbage)
denom = "Babbage"
case num.Cmp(Ada) >= 0:
fin = new(big.Int).Div(num, Ada)
denom = "Ada"
}
// TODO add comment clarifying expected behavior
if len(fin.String()) > 5 {
return fmt.Sprintf("%sE%d %s", fin.String()[0:5], len(fin.String())-5, denom)
}
return fmt.Sprintf("%v %s", fin, denom)
}

@ -1,6 +1,8 @@
package common package common
import ( import (
"math/big"
checker "gopkg.in/check.v1" checker "gopkg.in/check.v1"
) )
@ -21,3 +23,35 @@ func (s *SizeSuite) TestStorageSizeString(c *checker.C) {
c.Assert(StorageSize(data2).String(), checker.Equals, exp2) c.Assert(StorageSize(data2).String(), checker.Equals, exp2)
c.Assert(StorageSize(data3).String(), checker.Equals, exp3) c.Assert(StorageSize(data3).String(), checker.Equals, exp3)
} }
func (s *CommonSuite) TestCommon(c *checker.C) {
douglas := CurrencyToString(BigPow(10, 43))
einstein := CurrencyToString(BigPow(10, 22))
ether := CurrencyToString(BigPow(10, 19))
finney := CurrencyToString(BigPow(10, 16))
szabo := CurrencyToString(BigPow(10, 13))
shannon := CurrencyToString(BigPow(10, 10))
babbage := CurrencyToString(BigPow(10, 7))
ada := CurrencyToString(BigPow(10, 4))
wei := CurrencyToString(big.NewInt(10))
c.Assert(douglas, checker.Equals, "10 Douglas")
c.Assert(einstein, checker.Equals, "10 Einstein")
c.Assert(ether, checker.Equals, "10 Ether")
c.Assert(finney, checker.Equals, "10 Finney")
c.Assert(szabo, checker.Equals, "10 Szabo")
c.Assert(shannon, checker.Equals, "10 Shannon")
c.Assert(babbage, checker.Equals, "10 Babbage")
c.Assert(ada, checker.Equals, "10 Ada")
c.Assert(wei, checker.Equals, "10 Wei")
}
func (s *CommonSuite) TestLarge(c *checker.C) {
douglaslarge := CurrencyToString(BigPow(100000000, 43))
adalarge := CurrencyToString(BigPow(100000000, 4))
weilarge := CurrencyToString(big.NewInt(100000000))
c.Assert(douglaslarge, checker.Equals, "10000E298 Douglas")
c.Assert(adalarge, checker.Equals, "10000E7 Einstein")
c.Assert(weilarge, checker.Equals, "100 Babbage")
}

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