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mining_test.go
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mining_test.go
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// Copyright (c) 2016 The btcsuite developers
// Copyright (c) 2015-2016 The Decred developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package main
import (
"container/heap"
"math/rand"
"testing"
"github.com/decred/dcrd/blockchain/stake"
)
// TestStakeTxFeePrioHeap tests the priority heaps including the stake types for
// both transaction fees per KB and transaction priority. It ensures that the
// primary sorting is first by stake type, and then by the latter chosen priority
// type.
func TestStakeTxFeePrioHeap(t *testing.T) {
numElements := 1000
numEdgeConditionElements := 12
// Create some fake priority items that exercise the expected sort
// edge conditions.
testItems := []*txPrioItem{
{feePerKB: 5678, txType: stake.TxTypeRegular, priority: 3},
{feePerKB: 5678, txType: stake.TxTypeRegular, priority: 1},
{feePerKB: 5678, txType: stake.TxTypeRegular, priority: 1}, // Duplicate fee and prio
{feePerKB: 5678, txType: stake.TxTypeRegular, priority: 5},
{feePerKB: 5678, txType: stake.TxTypeRegular, priority: 2},
{feePerKB: 1234, txType: stake.TxTypeRegular, priority: 3},
{feePerKB: 1234, txType: stake.TxTypeRegular, priority: 1},
{feePerKB: 1234, txType: stake.TxTypeRegular, priority: 5},
{feePerKB: 1234, txType: stake.TxTypeRegular, priority: 5}, // Duplicate fee and prio
{feePerKB: 1234, txType: stake.TxTypeRegular, priority: 2},
{feePerKB: 10000, txType: stake.TxTypeRegular, priority: 0}, // Higher fee, smaller prio
{feePerKB: 0, txType: stake.TxTypeRegular, priority: 10000}, // Higher prio, lower fee
}
ph := newTxPriorityQueue((numElements + numEdgeConditionElements), txPQByStakeAndFee)
// Add random data in addition to the edge conditions already manually
// specified.
for i := 0; i < (numElements + numEdgeConditionElements); i++ {
if i >= numEdgeConditionElements {
randType := stake.TxType(rand.Intn(4))
randPrio := rand.Float64() * 100
randFeePerKB := rand.Float64() * 10
testItems = append(testItems, &txPrioItem{
tx: nil,
txType: randType,
feePerKB: randFeePerKB,
priority: randPrio,
})
}
heap.Push(ph, testItems[i])
}
// Test sorting by stake and fee per KB.
last := &txPrioItem{
tx: nil,
txType: stake.TxTypeSSGen,
priority: 10000.0,
feePerKB: 10000.0,
}
for i := 0; i < numElements; i++ {
prioItem := heap.Pop(ph)
txpi, ok := prioItem.(*txPrioItem)
if ok {
if txpi.feePerKB > last.feePerKB &&
compareStakePriority(txpi, last) >= 0 {
t.Errorf("bad pop: %v fee per KB was more than last of %v "+
"while the txtype was %v but last was %v",
txpi.feePerKB, last.feePerKB, txpi.txType, last.txType)
}
last = txpi
}
}
ph = newTxPriorityQueue(len(testItems), txPQByStakeAndFeeAndThenPriority)
for i := 0; i < numElements; i++ {
randType := stake.TxType(rand.Intn(4))
randPrio := rand.Float64() * 100
randFeePerKB := rand.Float64() * 10
prioItem := &txPrioItem{
tx: nil,
txType: randType,
feePerKB: randFeePerKB,
priority: randPrio,
}
heap.Push(ph, prioItem)
}
// Test sorting with fees per KB for high stake priority, then
// priority for low stake priority.
last = &txPrioItem{
tx: nil,
txType: stake.TxTypeSSGen,
priority: 10000.0,
feePerKB: 10000.0,
}
for i := 0; i < numElements; i++ {
prioItem := heap.Pop(ph)
txpi, ok := prioItem.(*txPrioItem)
if ok {
bothAreLowStakePriority :=
txStakePriority(txpi.txType) == regOrRevocPriority &&
txStakePriority(last.txType) == regOrRevocPriority
if !bothAreLowStakePriority {
if txpi.feePerKB > last.feePerKB &&
compareStakePriority(txpi, last) >= 0 {
t.Errorf("bad pop: %v fee per KB was more than last of %v "+
"while the txtype was %v but last was %v",
txpi.feePerKB, last.feePerKB, txpi.txType, last.txType)
}
}
if bothAreLowStakePriority {
if txpi.priority > last.priority &&
compareStakePriority(txpi, last) >= 0 {
t.Errorf("bad pop: %v priority was more than last of %v "+
"while the txtype was %v but last was %v",
txpi.feePerKB, last.feePerKB, txpi.txType, last.txType)
}
}
last = txpi
}
}
}