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arbo/addbatch_test.go

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package arbo
import (
"encoding/hex"
"fmt"
"math/big"
"testing"
"time"
qt "github.com/frankban/quicktest"
"github.com/iden3/go-merkletree/db/memory"
)
func TestAddBatchCaseA(t *testing.T) {
c := qt.New(t)
nLeafs := 1024
tree, err := NewTree(memory.NewMemoryStorage(), 100, HashFunctionPoseidon)
c.Assert(err, qt.IsNil)
defer tree.db.Close()
start := time.Now()
for i := 0; i < nLeafs; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
if err := tree.Add(k, v); err != nil {
t.Fatal(err)
}
}
fmt.Println(time.Since(start))
tree2, err := NewTree(memory.NewMemoryStorage(), 100, HashFunctionPoseidon)
c.Assert(err, qt.IsNil)
defer tree2.db.Close()
var keys, values [][]byte
for i := 0; i < nLeafs; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
keys = append(keys, k)
values = append(values, v)
}
start = time.Now()
indexes, err := tree2.AddBatchOpt(keys, values)
c.Assert(err, qt.IsNil)
fmt.Println(time.Since(start))
c.Check(len(indexes), qt.Equals, 0)
// check that both trees roots are equal
c.Check(tree2.Root(), qt.DeepEquals, tree.Root())
}
func TestAddBatchCaseB(t *testing.T) {
c := qt.New(t)
nLeafs := 1024
tree, err := NewTree(memory.NewMemoryStorage(), 100, HashFunctionPoseidon)
c.Assert(err, qt.IsNil)
defer tree.db.Close()
start := time.Now()
for i := 0; i < nLeafs; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
if err := tree.Add(k, v); err != nil {
t.Fatal(err)
}
}
fmt.Println(time.Since(start))
tree2, err := NewTree(memory.NewMemoryStorage(), 100, HashFunctionPoseidon)
c.Assert(err, qt.IsNil)
defer tree2.db.Close()
// add the initial leafs to fill a bit the tree before calling the
// AddBatch method
for i := 0; i < 99; i++ { // TMP TODO use const minLeafsThreshold-1 once ready
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
if err := tree2.Add(k, v); err != nil {
t.Fatal(err)
}
}
var keys, values [][]byte
for i := 99; i < nLeafs; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
keys = append(keys, k)
values = append(values, v)
}
start = time.Now()
indexes, err := tree2.AddBatchOpt(keys, values)
c.Assert(err, qt.IsNil)
fmt.Println(time.Since(start))
c.Check(len(indexes), qt.Equals, 0)
// check that both trees roots are equal
c.Check(tree2.Root(), qt.DeepEquals, tree.Root())
}
func TestGetKeysAtLevel(t *testing.T) {
c := qt.New(t)
tree, err := NewTree(memory.NewMemoryStorage(), 100, HashFunctionPoseidon)
c.Assert(err, qt.IsNil)
defer tree.db.Close()
for i := 0; i < 32; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
if err := tree.Add(k, v); err != nil {
t.Fatal(err)
}
}
keys, err := tree.getKeysAtLevel(2)
c.Assert(err, qt.IsNil)
expected := []string{
"a5d5f14fce7348e40751496cf25d107d91b0bd043435b9577d778a01f8aa6111",
"e9e8dd9b28a7f81d1ff34cb5cefc0146dd848b31031a427b79bdadb62e7f6910",
}
for i := 0; i < len(keys); i++ {
c.Assert(hex.EncodeToString(keys[i]), qt.Equals, expected[i])
}
keys, err = tree.getKeysAtLevel(3)
c.Assert(err, qt.IsNil)
expected = []string{
"9f12c13e52bca96ad4882a26558e48ab67ddd63e062b839207e893d961390f01",
"16d246dd6826ec7346c7328f11c4261facf82d4689f33263ff6e207956a77f21",
"4a22cc901c6337daa17a431fa20170684b710e5f551509511492ec24e81a8f2f",
"470d61abcbd154977bffc9a9ec5a8daff0caabcf2a25e8441f604c79daa0f82d",
}
for i := 0; i < len(keys); i++ {
c.Assert(hex.EncodeToString(keys[i]), qt.Equals, expected[i])
}
keys, err = tree.getKeysAtLevel(4)
c.Assert(err, qt.IsNil)
expected = []string{
"7a5d1c81f7b96318012de3417e53d4f13df5b1337718651cd29d0cb0a66edd20",
"3408213e4e844bdf3355eb8781c74e31626812898c2dbe141ed6d2c92256fc1c",
"dfd8a4d0b6954a3e9f3892e655b58d456eeedf9367f27dfdd9bc2dd6a5577312",
"9e99fbec06fb2a6725997c12c4995f62725eb4cce4808523a5a5e80cca64b007",
"0befa1e070231dbf4e8ff841c05878cdec823e0c09594c24910a248b3ff5a628",
"b7131b0a15c772a57005a4dc5d0d6dd4b3414f5d9ee7408ce5e86c5ab3520e04",
"6d1abe0364077846a56bab1deb1a04883eb796b74fe531a7676a9a370f83ab21",
"4270116394bede69cf9cd72069eca018238080380bef5de75be8dcbbe968e105",
}
for i := 0; i < len(keys); i++ {
c.Assert(hex.EncodeToString(keys[i]), qt.Equals, expected[i])
}
}
func TestSplitInBuckets(t *testing.T) {
c := qt.New(t)
nLeafs := 16
kvs := make([]kv, nLeafs)
for i := 0; i < nLeafs; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
keyPath := make([]byte, 32)
copy(keyPath[:], k)
kvs[i].pos = i
kvs[i].keyPath = k
kvs[i].k = k
kvs[i].v = v
}
// check keyToBucket results for 4 buckets & 8 keys
c.Assert(keyToBucket(kvs[0].k, 4), qt.Equals, 0)
c.Assert(keyToBucket(kvs[1].k, 4), qt.Equals, 2)
c.Assert(keyToBucket(kvs[2].k, 4), qt.Equals, 1)
c.Assert(keyToBucket(kvs[3].k, 4), qt.Equals, 3)
c.Assert(keyToBucket(kvs[4].k, 4), qt.Equals, 0)
c.Assert(keyToBucket(kvs[5].k, 4), qt.Equals, 2)
c.Assert(keyToBucket(kvs[6].k, 4), qt.Equals, 1)
c.Assert(keyToBucket(kvs[7].k, 4), qt.Equals, 3)
// check keyToBucket results for 8 buckets & 8 keys
c.Assert(keyToBucket(kvs[0].k, 8), qt.Equals, 0)
c.Assert(keyToBucket(kvs[1].k, 8), qt.Equals, 4)
c.Assert(keyToBucket(kvs[2].k, 8), qt.Equals, 2)
c.Assert(keyToBucket(kvs[3].k, 8), qt.Equals, 6)
c.Assert(keyToBucket(kvs[4].k, 8), qt.Equals, 1)
c.Assert(keyToBucket(kvs[5].k, 8), qt.Equals, 5)
c.Assert(keyToBucket(kvs[6].k, 8), qt.Equals, 3)
c.Assert(keyToBucket(kvs[7].k, 8), qt.Equals, 7)
buckets := splitInBuckets(kvs, 4)
expected := [][]string{
{
"00000000", // bucket 0
"08000000",
"04000000",
"0c000000",
},
{
"02000000", // bucket 1
"0a000000",
"06000000",
"0e000000",
},
{
"01000000", // bucket 2
"09000000",
"05000000",
"0d000000",
},
{
"03000000", // bucket 3
"0b000000",
"07000000",
"0f000000",
},
}
for i := 0; i < len(buckets); i++ {
sortKvs(buckets[i])
c.Assert(len(buckets[i]), qt.Equals, len(expected[i]))
for j := 0; j < len(buckets[i]); j++ {
c.Check(hex.EncodeToString(buckets[i][j].k[:4]), qt.Equals, expected[i][j])
}
}
}
func TestAddBatchCaseC(t *testing.T) {
c := qt.New(t)
nLeafs := 1024
tree, err := NewTree(memory.NewMemoryStorage(), 100, HashFunctionPoseidon)
c.Assert(err, qt.IsNil)
defer tree.db.Close()
start := time.Now()
for i := 0; i < nLeafs; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
if err := tree.Add(k, v); err != nil {
t.Fatal(err)
}
}
fmt.Println(time.Since(start))
tree2, err := NewTree(memory.NewMemoryStorage(), 100, HashFunctionPoseidon)
c.Assert(err, qt.IsNil)
defer tree2.db.Close()
// add the initial leafs to fill a bit the tree before calling the
// AddBatch method
for i := 0; i < 101; i++ { // TMP TODO use const minLeafsThreshold-1 once ready
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
if err := tree2.Add(k, v); err != nil {
t.Fatal(err)
}
}
// tree2.PrintGraphviz(nil)
var keys, values [][]byte
for i := 101; i < nLeafs; i++ {
k := BigIntToBytes(big.NewInt(int64(i)))
v := BigIntToBytes(big.NewInt(int64(i * 2)))
keys = append(keys, k)
values = append(values, v)
}
start = time.Now()
indexes, err := tree2.AddBatchOpt(keys, values)
c.Assert(err, qt.IsNil)
fmt.Println(time.Since(start))
c.Check(len(indexes), qt.Equals, 0)
// check that both trees roots are equal
c.Check(tree2.Root(), qt.DeepEquals, tree.Root())
// tree.PrintGraphviz(nil)
// tree2.PrintGraphviz(nil)
// // tree.PrintGraphvizFirstNLevels(nil, 4)
// // tree2.PrintGraphvizFirstNLevels(nil, 4)
// fmt.Println("TREE")
// printLeafs("t1.txt", tree)
// fmt.Println("TREE2")
// printLeafs("t2.txt", tree2)
}
// func printLeafs(name string, t *Tree) {
// w := bytes.NewBufferString("")
//
// err := t.Iterate(func(k, v []byte) {
// if v[0] != PrefixValueLeaf {
// return
// }
// leafK, _ := readLeafValue(v)
// fmt.Fprintf(w, hex.EncodeToString(leafK[:4])+"\n")
// })
// if err != nil {
// panic(err)
// }
// err = ioutil.WriteFile(name, w.Bytes(), 0644)
// if err != nil {
// panic(err)
// }
//
// }
// func TestComputeCosts(t *testing.T) {
// fmt.Println(computeSimpleAddCost(10))
// fmt.Println(computeBottomUpAddCost(10))
//
// fmt.Println(computeSimpleAddCost(1024))
// fmt.Println(computeBottomUpAddCost(1024))
// }
// TODO test tree with nLeafs > minLeafsThreshold, but that at level L, there is
// less keys than nBuckets (so CASE C could be applied if first few leafs are
// added to balance the tree)