package types_test import ( "bytes" "encoding/json" "fmt" "math/big" "strings" "testing" "github.com/stretchr/testify/suite" "gopkg.in/yaml.v2" sdk "github.com/cosmos/cosmos-sdk/types" ) type decimalTestSuite struct { suite.Suite } func TestDecimalTestSuite(t *testing.T) { suite.Run(t, new(decimalTestSuite)) } // create a decimal from a decimal string (ex. "1234.5678") func (s *decimalTestSuite) mustNewDecFromStr(str string) (d sdk.Dec) { d, err := sdk.NewDecFromStr(str) s.Require().NoError(err) return d } func (s *decimalTestSuite) TestNewDecFromStr() { largeBigInt, ok := new(big.Int).SetString("3144605511029693144278234343371835", 10) s.Require().True(ok) largerBigInt, ok := new(big.Int).SetString("8888888888888888888888888888888888888888888888888888888888888888888844444440", 10) s.Require().True(ok) largestBigInt, ok := new(big.Int).SetString("33499189745056880149688856635597007162669032647290798121690100488888732861290034376435130433535", 10) s.Require().True(ok) tests := []struct { decimalStr string expErr bool exp sdk.Dec }{ {"", true, sdk.Dec{}}, {"0.-75", true, sdk.Dec{}}, {"0", false, sdk.NewDec(0)}, {"1", false, sdk.NewDec(1)}, {"1.1", false, sdk.NewDecWithPrec(11, 1)}, {"0.75", false, sdk.NewDecWithPrec(75, 2)}, {"0.8", false, sdk.NewDecWithPrec(8, 1)}, {"0.11111", false, sdk.NewDecWithPrec(11111, 5)}, {"314460551102969.3144278234343371835", true, sdk.NewDec(3141203149163817869)}, {"314460551102969314427823434337.1835718092488231350", true, sdk.NewDecFromBigIntWithPrec(largeBigInt, 4)}, {"314460551102969314427823434337.1835", false, sdk.NewDecFromBigIntWithPrec(largeBigInt, 4)}, {".", true, sdk.Dec{}}, {".0", true, sdk.NewDec(0)}, {"1.", true, sdk.NewDec(1)}, {"foobar", true, sdk.Dec{}}, {"0.foobar", true, sdk.Dec{}}, {"0.foobar.", true, sdk.Dec{}}, {"8888888888888888888888888888888888888888888888888888888888888888888844444440", false, sdk.NewDecFromBigInt(largerBigInt)}, {"33499189745056880149688856635597007162669032647290798121690100488888732861290.034376435130433535", false, sdk.NewDecFromBigIntWithPrec(largestBigInt, 18)}, {"133499189745056880149688856635597007162669032647290798121690100488888732861291", true, sdk.Dec{}}, } for tcIndex, tc := range tests { res, err := sdk.NewDecFromStr(tc.decimalStr) if tc.expErr { s.Require().NotNil(err, "error expected, decimalStr %v, tc %v", tc.decimalStr, tcIndex) } else { s.Require().Nil(err, "unexpected error, decimalStr %v, tc %v", tc.decimalStr, tcIndex) s.Require().True(res.Equal(tc.exp), "equality was incorrect, res %v, exp %v, tc %v", res, tc.exp, tcIndex) } // negative tc res, err = sdk.NewDecFromStr("-" + tc.decimalStr) if tc.expErr { s.Require().NotNil(err, "error expected, decimalStr %v, tc %v", tc.decimalStr, tcIndex) } else { s.Require().Nil(err, "unexpected error, decimalStr %v, tc %v", tc.decimalStr, tcIndex) exp := tc.exp.Mul(sdk.NewDec(-1)) s.Require().True(res.Equal(exp), "equality was incorrect, res %v, exp %v, tc %v", res, exp, tcIndex) } } } func (s *decimalTestSuite) TestDecString() { tests := []struct { d sdk.Dec want string }{ {sdk.NewDec(0), "0.000000000000000000"}, {sdk.NewDec(1), "1.000000000000000000"}, {sdk.NewDec(10), "10.000000000000000000"}, {sdk.NewDec(12340), "12340.000000000000000000"}, {sdk.NewDecWithPrec(12340, 4), "1.234000000000000000"}, {sdk.NewDecWithPrec(12340, 5), "0.123400000000000000"}, {sdk.NewDecWithPrec(12340, 8), "0.000123400000000000"}, {sdk.NewDecWithPrec(1009009009009009009, 17), "10.090090090090090090"}, } for tcIndex, tc := range tests { s.Require().Equal(tc.want, tc.d.String(), "bad String(), index: %v", tcIndex) } } func (s *decimalTestSuite) TestDecFloat64() { tests := []struct { d sdk.Dec want float64 }{ {sdk.NewDec(0), 0.000000000000000000}, {sdk.NewDec(1), 1.000000000000000000}, {sdk.NewDec(10), 10.000000000000000000}, {sdk.NewDec(12340), 12340.000000000000000000}, {sdk.NewDecWithPrec(12340, 4), 1.234000000000000000}, {sdk.NewDecWithPrec(12340, 5), 0.123400000000000000}, {sdk.NewDecWithPrec(12340, 8), 0.000123400000000000}, {sdk.NewDecWithPrec(1009009009009009009, 17), 10.090090090090090090}, } for tcIndex, tc := range tests { value, err := tc.d.Float64() s.Require().Nil(err, "error getting Float64(), index: %v", tcIndex) s.Require().Equal(tc.want, value, "bad Float64(), index: %v", tcIndex) s.Require().Equal(tc.want, tc.d.MustFloat64(), "bad MustFloat64(), index: %v", tcIndex) } } func (s *decimalTestSuite) TestEqualities() { tests := []struct { d1, d2 sdk.Dec gt, lt, eq bool }{ {sdk.NewDec(0), sdk.NewDec(0), false, false, true}, {sdk.NewDecWithPrec(0, 2), sdk.NewDecWithPrec(0, 4), false, false, true}, {sdk.NewDecWithPrec(100, 0), sdk.NewDecWithPrec(100, 0), false, false, true}, {sdk.NewDecWithPrec(-100, 0), sdk.NewDecWithPrec(-100, 0), false, false, true}, {sdk.NewDecWithPrec(-1, 1), sdk.NewDecWithPrec(-1, 1), false, false, true}, {sdk.NewDecWithPrec(3333, 3), sdk.NewDecWithPrec(3333, 3), false, false, true}, {sdk.NewDecWithPrec(0, 0), sdk.NewDecWithPrec(3333, 3), false, true, false}, {sdk.NewDecWithPrec(0, 0), sdk.NewDecWithPrec(100, 0), false, true, false}, {sdk.NewDecWithPrec(-1, 0), sdk.NewDecWithPrec(3333, 3), false, true, false}, {sdk.NewDecWithPrec(-1, 0), sdk.NewDecWithPrec(100, 0), false, true, false}, {sdk.NewDecWithPrec(1111, 3), sdk.NewDecWithPrec(100, 0), false, true, false}, {sdk.NewDecWithPrec(1111, 3), sdk.NewDecWithPrec(3333, 3), false, true, false}, {sdk.NewDecWithPrec(-3333, 3), sdk.NewDecWithPrec(-1111, 3), false, true, false}, {sdk.NewDecWithPrec(3333, 3), sdk.NewDecWithPrec(0, 0), true, false, false}, {sdk.NewDecWithPrec(100, 0), sdk.NewDecWithPrec(0, 0), true, false, false}, {sdk.NewDecWithPrec(3333, 3), sdk.NewDecWithPrec(-1, 0), true, false, false}, {sdk.NewDecWithPrec(100, 0), sdk.NewDecWithPrec(-1, 0), true, false, false}, {sdk.NewDecWithPrec(100, 0), sdk.NewDecWithPrec(1111, 3), true, false, false}, {sdk.NewDecWithPrec(3333, 3), sdk.NewDecWithPrec(1111, 3), true, false, false}, {sdk.NewDecWithPrec(-1111, 3), sdk.NewDecWithPrec(-3333, 3), true, false, false}, } for tcIndex, tc := range tests { s.Require().Equal(tc.gt, tc.d1.GT(tc.d2), "GT result is incorrect, tc %d", tcIndex) s.Require().Equal(tc.lt, tc.d1.LT(tc.d2), "LT result is incorrect, tc %d", tcIndex) s.Require().Equal(tc.eq, tc.d1.Equal(tc.d2), "equality result is incorrect, tc %d", tcIndex) } } func (s *decimalTestSuite) TestDecsEqual() { tests := []struct { d1s, d2s []sdk.Dec eq bool }{ {[]sdk.Dec{sdk.NewDec(0)}, []sdk.Dec{sdk.NewDec(0)}, true}, {[]sdk.Dec{sdk.NewDec(0)}, []sdk.Dec{sdk.NewDec(1)}, false}, {[]sdk.Dec{sdk.NewDec(0)}, []sdk.Dec{}, false}, {[]sdk.Dec{sdk.NewDec(0), sdk.NewDec(1)}, []sdk.Dec{sdk.NewDec(0), sdk.NewDec(1)}, true}, {[]sdk.Dec{sdk.NewDec(1), sdk.NewDec(0)}, []sdk.Dec{sdk.NewDec(1), sdk.NewDec(0)}, true}, {[]sdk.Dec{sdk.NewDec(1), sdk.NewDec(0)}, []sdk.Dec{sdk.NewDec(0), sdk.NewDec(1)}, false}, {[]sdk.Dec{sdk.NewDec(1), sdk.NewDec(0)}, []sdk.Dec{sdk.NewDec(1)}, false}, {[]sdk.Dec{sdk.NewDec(1), sdk.NewDec(2)}, []sdk.Dec{sdk.NewDec(2), sdk.NewDec(4)}, false}, {[]sdk.Dec{sdk.NewDec(3), sdk.NewDec(18)}, []sdk.Dec{sdk.NewDec(1), sdk.NewDec(6)}, false}, } for tcIndex, tc := range tests { s.Require().Equal(tc.eq, sdk.DecsEqual(tc.d1s, tc.d2s), "equality of decional arrays is incorrect, tc %d", tcIndex) s.Require().Equal(tc.eq, sdk.DecsEqual(tc.d2s, tc.d1s), "equality of decional arrays is incorrect (converse), tc %d", tcIndex) } } func (s *decimalTestSuite) TestArithmetic() { tests := []struct { d1, d2 sdk.Dec expMul, expMulTruncate sdk.Dec expQuo, expQuoRoundUp, expQuoTruncate sdk.Dec expAdd, expSub sdk.Dec }{ // d1 d2 MUL MulTruncate QUO QUORoundUp QUOTrunctate ADD SUB {sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0)}, {sdk.NewDec(1), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(1), sdk.NewDec(1)}, {sdk.NewDec(0), sdk.NewDec(1), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(1), sdk.NewDec(-1)}, {sdk.NewDec(0), sdk.NewDec(-1), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(-1), sdk.NewDec(1)}, {sdk.NewDec(-1), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(0), sdk.NewDec(-1), sdk.NewDec(-1)}, {sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(2), sdk.NewDec(0)}, {sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(-2), sdk.NewDec(0)}, {sdk.NewDec(1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(0), sdk.NewDec(2)}, {sdk.NewDec(-1), sdk.NewDec(1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(-1), sdk.NewDec(0), sdk.NewDec(-2)}, {sdk.NewDec(3), sdk.NewDec(7), sdk.NewDec(21), sdk.NewDec(21), sdk.NewDecWithPrec(428571428571428571, 18), sdk.NewDecWithPrec(428571428571428572, 18), sdk.NewDecWithPrec(428571428571428571, 18), sdk.NewDec(10), sdk.NewDec(-4)}, {sdk.NewDec(2), sdk.NewDec(4), sdk.NewDec(8), sdk.NewDec(8), sdk.NewDecWithPrec(5, 1), sdk.NewDecWithPrec(5, 1), sdk.NewDecWithPrec(5, 1), sdk.NewDec(6), sdk.NewDec(-2)}, {sdk.NewDec(100), sdk.NewDec(100), sdk.NewDec(10000), sdk.NewDec(10000), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(200), sdk.NewDec(0)}, {sdk.NewDecWithPrec(15, 1), sdk.NewDecWithPrec(15, 1), sdk.NewDecWithPrec(225, 2), sdk.NewDecWithPrec(225, 2), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(1), sdk.NewDec(3), sdk.NewDec(0)}, {sdk.NewDecWithPrec(3333, 4), sdk.NewDecWithPrec(333, 4), sdk.NewDecWithPrec(1109889, 8), sdk.NewDecWithPrec(1109889, 8), sdk.MustNewDecFromStr("10.009009009009009009"), sdk.MustNewDecFromStr("10.009009009009009010"), sdk.MustNewDecFromStr("10.009009009009009009"), sdk.NewDecWithPrec(3666, 4), sdk.NewDecWithPrec(3, 1)}, } for tcIndex, tc := range tests { tc := tc resAdd := tc.d1.Add(tc.d2) resSub := tc.d1.Sub(tc.d2) resMul := tc.d1.Mul(tc.d2) resMulTruncate := tc.d1.MulTruncate(tc.d2) s.Require().True(tc.expAdd.Equal(resAdd), "exp %v, res %v, tc %d", tc.expAdd, resAdd, tcIndex) s.Require().True(tc.expSub.Equal(resSub), "exp %v, res %v, tc %d", tc.expSub, resSub, tcIndex) s.Require().True(tc.expMul.Equal(resMul), "exp %v, res %v, tc %d", tc.expMul, resMul, tcIndex) s.Require().True(tc.expMulTruncate.Equal(resMulTruncate), "exp %v, res %v, tc %d", tc.expMulTruncate, resMulTruncate, tcIndex) if tc.d2.IsZero() { // panic for divide by zero s.Require().Panics(func() { tc.d1.Quo(tc.d2) }) } else { resQuo := tc.d1.Quo(tc.d2) s.Require().True(tc.expQuo.Equal(resQuo), "exp %v, res %v, tc %d", tc.expQuo.String(), resQuo.String(), tcIndex) resQuoRoundUp := tc.d1.QuoRoundUp(tc.d2) s.Require().True(tc.expQuoRoundUp.Equal(resQuoRoundUp), "exp %v, res %v, tc %d", tc.expQuoRoundUp.String(), resQuoRoundUp.String(), tcIndex) resQuoTruncate := tc.d1.QuoTruncate(tc.d2) s.Require().True(tc.expQuoTruncate.Equal(resQuoTruncate), "exp %v, res %v, tc %d", tc.expQuoTruncate.String(), resQuoTruncate.String(), tcIndex) } } } func (s *decimalTestSuite) TestBankerRoundChop() { tests := []struct { d1 sdk.Dec exp int64 }{ {s.mustNewDecFromStr("0.25"), 0}, {s.mustNewDecFromStr("0"), 0}, {s.mustNewDecFromStr("1"), 1}, {s.mustNewDecFromStr("0.75"), 1}, {s.mustNewDecFromStr("0.5"), 0}, {s.mustNewDecFromStr("7.5"), 8}, {s.mustNewDecFromStr("1.5"), 2}, {s.mustNewDecFromStr("2.5"), 2}, {s.mustNewDecFromStr("0.545"), 1}, // 0.545-> 1 even though 5 is first decimal and 1 not even {s.mustNewDecFromStr("1.545"), 2}, } for tcIndex, tc := range tests { resNeg := tc.d1.Neg().RoundInt64() s.Require().Equal(-1*tc.exp, resNeg, "negative tc %d", tcIndex) resPos := tc.d1.RoundInt64() s.Require().Equal(tc.exp, resPos, "positive tc %d", tcIndex) } } func (s *decimalTestSuite) TestTruncate() { tests := []struct { d1 sdk.Dec exp int64 }{ {s.mustNewDecFromStr("0"), 0}, {s.mustNewDecFromStr("0.25"), 0}, {s.mustNewDecFromStr("0.75"), 0}, {s.mustNewDecFromStr("1"), 1}, {s.mustNewDecFromStr("1.5"), 1}, {s.mustNewDecFromStr("7.5"), 7}, {s.mustNewDecFromStr("7.6"), 7}, {s.mustNewDecFromStr("7.4"), 7}, {s.mustNewDecFromStr("100.1"), 100}, {s.mustNewDecFromStr("1000.1"), 1000}, } for tcIndex, tc := range tests { resNeg := tc.d1.Neg().TruncateInt64() s.Require().Equal(-1*tc.exp, resNeg, "negative tc %d", tcIndex) resPos := tc.d1.TruncateInt64() s.Require().Equal(tc.exp, resPos, "positive tc %d", tcIndex) } } func (s *decimalTestSuite) TestStringOverflow() { // two random 64 bit primes dec1, err := sdk.NewDecFromStr("51643150036226787134389711697696177267") s.Require().NoError(err) dec2, err := sdk.NewDecFromStr("-31798496660535729618459429845579852627") s.Require().NoError(err) dec3 := dec1.Add(dec2) s.Require().Equal( "19844653375691057515930281852116324640.000000000000000000", dec3.String(), ) } func (s *decimalTestSuite) TestDecMulInt() { tests := []struct { sdkDec sdk.Dec sdkInt sdk.Int want sdk.Dec }{ {sdk.NewDec(10), sdk.NewInt(2), sdk.NewDec(20)}, {sdk.NewDec(1000000), sdk.NewInt(100), sdk.NewDec(100000000)}, {sdk.NewDecWithPrec(1, 1), sdk.NewInt(10), sdk.NewDec(1)}, {sdk.NewDecWithPrec(1, 5), sdk.NewInt(20), sdk.NewDecWithPrec(2, 4)}, } for i, tc := range tests { got := tc.sdkDec.MulInt(tc.sdkInt) s.Require().Equal(tc.want, got, "Incorrect result on test case %d", i) } } func (s *decimalTestSuite) TestDecCeil() { testCases := []struct { input sdk.Dec expected sdk.Dec }{ {sdk.NewDecWithPrec(1000000000000000, sdk.Precision), sdk.NewDec(1)}, // 0.001 => 1.0 {sdk.NewDecWithPrec(-1000000000000000, sdk.Precision), sdk.ZeroDec()}, // -0.001 => 0.0 {sdk.ZeroDec(), sdk.ZeroDec()}, // 0.0 => 0.0 {sdk.NewDecWithPrec(900000000000000000, sdk.Precision), sdk.NewDec(1)}, // 0.9 => 1.0 {sdk.NewDecWithPrec(4001000000000000000, sdk.Precision), sdk.NewDec(5)}, // 4.001 => 5.0 {sdk.NewDecWithPrec(-4001000000000000000, sdk.Precision), sdk.NewDec(-4)}, // -4.001 => -4.0 {sdk.NewDecWithPrec(4700000000000000000, sdk.Precision), sdk.NewDec(5)}, // 4.7 => 5.0 {sdk.NewDecWithPrec(-4700000000000000000, sdk.Precision), sdk.NewDec(-4)}, // -4.7 => -4.0 } for i, tc := range testCases { res := tc.input.Ceil() s.Require().Equal(tc.expected, res, "unexpected result for test case %d, input: %v", i, tc.input) } } func (s *decimalTestSuite) TestPower() { testCases := []struct { input sdk.Dec power uint64 expected sdk.Dec }{ {sdk.OneDec(), 10, sdk.OneDec()}, // 1.0 ^ (10) => 1.0 {sdk.NewDecWithPrec(5, 1), 2, sdk.NewDecWithPrec(25, 2)}, // 0.5 ^ 2 => 0.25 {sdk.NewDecWithPrec(2, 1), 2, sdk.NewDecWithPrec(4, 2)}, // 0.2 ^ 2 => 0.04 {sdk.NewDecFromInt(sdk.NewInt(3)), 3, sdk.NewDecFromInt(sdk.NewInt(27))}, // 3 ^ 3 => 27 {sdk.NewDecFromInt(sdk.NewInt(-3)), 4, sdk.NewDecFromInt(sdk.NewInt(81))}, // -3 ^ 4 = 81 {sdk.NewDecWithPrec(1414213562373095049, 18), 2, sdk.NewDecFromInt(sdk.NewInt(2))}, // 1.414213562373095049 ^ 2 = 2 } for i, tc := range testCases { res := tc.input.Power(tc.power) s.Require().True(tc.expected.Sub(res).Abs().LTE(sdk.SmallestDec()), "unexpected result for test case %d, input: %v", i, tc.input) } } func (s *decimalTestSuite) TestApproxRoot() { testCases := []struct { input sdk.Dec root uint64 expected sdk.Dec }{ {sdk.OneDec(), 10, sdk.OneDec()}, // 1.0 ^ (0.1) => 1.0 {sdk.NewDecWithPrec(25, 2), 2, sdk.NewDecWithPrec(5, 1)}, // 0.25 ^ (0.5) => 0.5 {sdk.NewDecWithPrec(4, 2), 2, sdk.NewDecWithPrec(2, 1)}, // 0.04 ^ (0.5) => 0.2 {sdk.NewDecFromInt(sdk.NewInt(27)), 3, sdk.NewDecFromInt(sdk.NewInt(3))}, // 27 ^ (1/3) => 3 {sdk.NewDecFromInt(sdk.NewInt(-81)), 4, sdk.NewDecFromInt(sdk.NewInt(-3))}, // -81 ^ (0.25) => -3 {sdk.NewDecFromInt(sdk.NewInt(2)), 2, sdk.NewDecWithPrec(1414213562373095049, 18)}, // 2 ^ (0.5) => 1.414213562373095049 {sdk.NewDecWithPrec(1005, 3), 31536000, sdk.MustNewDecFromStr("1.000000000158153904")}, // 1.005 ^ (1/31536000) ≈ 1.00000000016 {sdk.SmallestDec(), 2, sdk.NewDecWithPrec(1, 9)}, // 1e-18 ^ (0.5) => 1e-9 {sdk.SmallestDec(), 3, sdk.MustNewDecFromStr("0.000000999999999997")}, // 1e-18 ^ (1/3) => 1e-6 {sdk.NewDecWithPrec(1, 8), 3, sdk.MustNewDecFromStr("0.002154434690031900")}, // 1e-8 ^ (1/3) ≈ 0.00215443469 } // In the case of 1e-8 ^ (1/3), the result repeats every 5 iterations starting from iteration 24 // (i.e. 24, 29, 34, ... give the same result) and never converges enough. The maximum number of // iterations (100) causes the result at iteration 100 to be returned, regardless of convergence. for i, tc := range testCases { res, err := tc.input.ApproxRoot(tc.root) s.Require().NoError(err) s.Require().True(tc.expected.Sub(res).Abs().LTE(sdk.SmallestDec()), "unexpected result for test case %d, input: %v", i, tc.input) } } func (s *decimalTestSuite) TestApproxSqrt() { testCases := []struct { input sdk.Dec expected sdk.Dec }{ {sdk.OneDec(), sdk.OneDec()}, // 1.0 => 1.0 {sdk.NewDecWithPrec(25, 2), sdk.NewDecWithPrec(5, 1)}, // 0.25 => 0.5 {sdk.NewDecWithPrec(4, 2), sdk.NewDecWithPrec(2, 1)}, // 0.09 => 0.3 {sdk.NewDecFromInt(sdk.NewInt(9)), sdk.NewDecFromInt(sdk.NewInt(3))}, // 9 => 3 {sdk.NewDecFromInt(sdk.NewInt(-9)), sdk.NewDecFromInt(sdk.NewInt(-3))}, // -9 => -3 {sdk.NewDecFromInt(sdk.NewInt(2)), sdk.NewDecWithPrec(1414213562373095049, 18)}, // 2 => 1.414213562373095049 } for i, tc := range testCases { res, err := tc.input.ApproxSqrt() s.Require().NoError(err) s.Require().Equal(tc.expected, res, "unexpected result for test case %d, input: %v", i, tc.input) } } func (s *decimalTestSuite) TestDecSortableBytes() { tests := []struct { d sdk.Dec want []byte }{ {sdk.NewDec(0), []byte("000000000000000000.000000000000000000")}, {sdk.NewDec(1), []byte("000000000000000001.000000000000000000")}, {sdk.NewDec(10), []byte("000000000000000010.000000000000000000")}, {sdk.NewDec(12340), []byte("000000000000012340.000000000000000000")}, {sdk.NewDecWithPrec(12340, 4), []byte("000000000000000001.234000000000000000")}, {sdk.NewDecWithPrec(12340, 5), []byte("000000000000000000.123400000000000000")}, {sdk.NewDecWithPrec(12340, 8), []byte("000000000000000000.000123400000000000")}, {sdk.NewDecWithPrec(1009009009009009009, 17), []byte("000000000000000010.090090090090090090")}, {sdk.NewDecWithPrec(-1009009009009009009, 17), []byte("-000000000000000010.090090090090090090")}, {sdk.NewDec(1000000000000000000), []byte("max")}, {sdk.NewDec(-1000000000000000000), []byte("--")}, } for tcIndex, tc := range tests { s.Require().Equal(tc.want, sdk.SortableDecBytes(tc.d), "bad String(), index: %v", tcIndex) } s.Require().Panics(func() { sdk.SortableDecBytes(sdk.NewDec(1000000000000000001)) }) s.Require().Panics(func() { sdk.SortableDecBytes(sdk.NewDec(-1000000000000000001)) }) } func (s *decimalTestSuite) TestDecEncoding() { largestBigInt, ok := new(big.Int).SetString("33499189745056880149688856635597007162669032647290798121690100488888732861290034376435130433535", 10) s.Require().True(ok) smallestBigInt, ok := new(big.Int).SetString("-33499189745056880149688856635597007162669032647290798121690100488888732861290034376435130433535", 10) s.Require().True(ok) const maxDecBitLen = 315 maxInt, ok := new(big.Int).SetString(strings.Repeat("1", maxDecBitLen), 2) s.Require().True(ok) testCases := []struct { input sdk.Dec rawBz string jsonStr string yamlStr string }{ { sdk.NewDec(0), "30", "\"0.000000000000000000\"", "\"0.000000000000000000\"\n", }, { sdk.NewDecWithPrec(4, 2), "3430303030303030303030303030303030", "\"0.040000000000000000\"", "\"0.040000000000000000\"\n", }, { sdk.NewDecWithPrec(-4, 2), "2D3430303030303030303030303030303030", "\"-0.040000000000000000\"", "\"-0.040000000000000000\"\n", }, { sdk.NewDecWithPrec(1414213562373095049, 18), "31343134323133353632333733303935303439", "\"1.414213562373095049\"", "\"1.414213562373095049\"\n", }, { sdk.NewDecWithPrec(-1414213562373095049, 18), "2D31343134323133353632333733303935303439", "\"-1.414213562373095049\"", "\"-1.414213562373095049\"\n", }, { sdk.NewDecFromBigIntWithPrec(largestBigInt, 18), "3333343939313839373435303536383830313439363838383536363335353937303037313632363639303332363437323930373938313231363930313030343838383838373332383631323930303334333736343335313330343333353335", "\"33499189745056880149688856635597007162669032647290798121690100488888732861290.034376435130433535\"", "\"33499189745056880149688856635597007162669032647290798121690100488888732861290.034376435130433535\"\n", }, { sdk.NewDecFromBigIntWithPrec(smallestBigInt, 18), "2D3333343939313839373435303536383830313439363838383536363335353937303037313632363639303332363437323930373938313231363930313030343838383838373332383631323930303334333736343335313330343333353335", "\"-33499189745056880149688856635597007162669032647290798121690100488888732861290.034376435130433535\"", "\"-33499189745056880149688856635597007162669032647290798121690100488888732861290.034376435130433535\"\n", }, { sdk.NewDecFromBigIntWithPrec(maxInt, 18), "3636373439353934383732353238343430303734383434343238333137373938353033353831333334353136333233363435333939303630383435303530323434343434333636343330363435303137313838323137353635323136373637", "\"66749594872528440074844428317798503581334516323645399060845050244444366430645.017188217565216767\"", "\"66749594872528440074844428317798503581334516323645399060845050244444366430645.017188217565216767\"\n", }, } for _, tc := range testCases { bz, err := tc.input.Marshal() s.Require().NoError(err) s.Require().Equal(tc.rawBz, fmt.Sprintf("%X", bz)) var other sdk.Dec s.Require().NoError((&other).Unmarshal(bz)) s.Require().True(tc.input.Equal(other)) bz, err = json.Marshal(tc.input) s.Require().NoError(err) s.Require().Equal(tc.jsonStr, string(bz)) s.Require().NoError(json.Unmarshal(bz, &other)) s.Require().True(tc.input.Equal(other)) bz, err = yaml.Marshal(tc.input) s.Require().NoError(err) s.Require().Equal(tc.yamlStr, string(bz)) } } // Showcase that different orders of operations causes different results. func (s *decimalTestSuite) TestOperationOrders() { n1 := sdk.NewDec(10) n2 := sdk.NewDec(1000000010) s.Require().Equal(n1.Mul(n2).Quo(n2), sdk.NewDec(10)) s.Require().NotEqual(n1.Mul(n2).Quo(n2), n1.Quo(n2).Mul(n2)) } func BenchmarkMarshalTo(b *testing.B) { b.ReportAllocs() bis := []struct { in sdk.Dec want []byte }{ { sdk.NewDec(1e8), []byte{ 0x31, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, 0x30, }, }, {sdk.NewDec(0), []byte{0x30}}, } data := make([]byte, 100) b.ReportAllocs() b.ResetTimer() for i := 0; i < b.N; i++ { for _, bi := range bis { if n, err := bi.in.MarshalTo(data); err != nil { b.Fatal(err) } else { if !bytes.Equal(data[:n], bi.want) { b.Fatalf("Mismatch\nGot: % x\nWant: % x\n", data[:n], bi.want) } } } } }