Phase 5 complete: B-tree property tests + benchmark regression suite
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- prop_test.nim: 11 new property-based B-Tree invariants
  (size accuracy, get roundtrip, scan ordering, range correctness,
   contains, remove, large order, duplicates, empty tree, interleaved ops)
- bench_all.nim: JSON-based benchmark result tracking with regression
  comparison against previous runs; each benchmark reports ops/sec
  delta vs last run
This commit is contained in:
2026-05-18 12:52:44 +03:00
parent 132e8c7a31
commit cf2aba104f
2 changed files with 292 additions and 19 deletions
+150 -18
View File
@@ -4,6 +4,9 @@ import std/times
import std/tables
import std/random
import std/strutils
import std/os
import std/osproc
import std/json
import ../src/barabadb/storage/lsm
import ../src/barabadb/storage/btree
import ../src/barabadb/vector/engine as vengine
@@ -11,6 +14,89 @@ import ../src/barabadb/vector/simd
import ../src/barabadb/fts/engine as fts
import ../src/barabadb/graph/engine as gengine
# ═══════════════════════════════════════════════════
# Benchmark Result Tracking
# ═══════════════════════════════════════════════════
type
BenchResult* = object
name*: string
ops*: int
seconds*: float64
opsPerSec*: float64
timestamp*: string
BenchReport* = object
version*: string
gitSha*: string
results*: seq[BenchResult]
const ResultsFile = "benchmark_results.json"
proc loadPreviousResults(path: string): seq[BenchResult] =
result = @[]
if not fileExists(path): return
try:
let j = parseFile(path)
if j.hasKey("results"):
for item in j["results"]:
if item.hasKey("name") and item.hasKey("opsPerSec"):
result.add(BenchResult(
name: item["name"].getStr(),
ops: if item.hasKey("ops"): item["ops"].getInt() else: 0,
seconds: if item.hasKey("seconds"): item["seconds"].getFloat() else: 0.0,
opsPerSec: item["opsPerSec"].getFloat(),
timestamp: if item.hasKey("timestamp"): item["timestamp"].getStr() else: "",
))
except:
discard
proc saveResults(path: string, report: BenchReport) =
var j = newJObject()
j["version"] = %report.version
j["gitSha"] = %report.gitSha
var arr = newJArray()
for r in report.results:
var obj = newJObject()
obj["name"] = %r.name
obj["ops"] = %r.ops
obj["seconds"] = %r.seconds
obj["opsPerSec"] = %r.opsPerSec
obj["timestamp"] = %r.timestamp
arr.add(obj)
j["results"] = arr
writeFile(path, j.pretty())
proc compareResult(name: string, currentOpsPerSec: float64, previous: seq[BenchResult]): string =
for p in previous:
if p.name == name:
let delta = currentOpsPerSec - p.opsPerSec
let pct = if p.opsPerSec > 0: (delta / p.opsPerSec) * 100.0 else: 0.0
if abs(pct) < 1.0:
return " (≈ same)"
elif pct > 0:
return " (+" & pct.formatFloat(ffDecimal, 1) & "% vs last)"
else:
return " (" & pct.formatFloat(ffDecimal, 1) & "% vs last)"
return " (new)"
var currentResults: seq[BenchResult] = @[]
var previousResults = loadPreviousResults(ResultsFile)
proc recordResult(name: string, ops: int, seconds: float64) =
currentResults.add(BenchResult(
name: name,
ops: ops,
seconds: seconds,
opsPerSec: if seconds > 0: float64(ops) / seconds else: 0.0,
timestamp: now().format("yyyy-MM-dd HH:mm:ss"),
))
proc gitSha(): string =
let (output, code) = execCmdEx("git rev-parse --short HEAD")
if code == 0:
return output.strip()
return "unknown"
proc elapsed(start: MonoTime): float64 =
let ns = float64((getMonoTime() - start).inNanoseconds)
return ns / 1_000_000_000.0
@@ -26,7 +112,9 @@ proc formatOps(ops: int, secs: float64): string =
proc benchLSMTree() =
echo "=== LSM-Tree Storage ==="
var db = newLSMTree("/tmp/baradb_bench_lsm")
let benchDir = getTempDir() / "baradb_bench_lsm"
removeDir(benchDir)
var db = newLSMTree(benchDir)
# Write benchmark
let n = 100_000
@@ -34,7 +122,9 @@ proc benchLSMTree() =
for i in 0..<n:
db.put("key_" & $i, cast[seq[byte]]("value_" & $i))
let writeTime = elapsed(start)
echo " Write ", n, " keys: ", writeTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, writeTime), ")"
let writeLabel = "LSM-Write"
recordResult(writeLabel, n, writeTime)
echo " Write ", n, " keys: ", writeTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, writeTime), ")", compareResult(writeLabel, currentResults[^1].opsPerSec, previousResults)
# Read benchmark
let readStart = getMonoTime()
@@ -43,7 +133,9 @@ proc benchLSMTree() =
let (ok, _) = db.get("key_" & $i)
if ok: inc found
let readTime = elapsed(readStart)
echo " Read ", n, " keys: ", readTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, readTime), ") (", found, " found)"
let readLabel = "LSM-Read"
recordResult(readLabel, n, readTime)
echo " Read ", n, " keys: ", readTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, readTime), ") (", found, " found)", compareResult(readLabel, currentResults[^1].opsPerSec, previousResults)
db.close()
@@ -57,7 +149,9 @@ proc benchBTree() =
for i in 0..<n:
btree.insert("key_" & $i, "value_" & $i)
let insertTime = elapsed(start)
echo " Insert ", n, " keys: ", insertTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, insertTime), ")"
let insertLabel = "BTree-Insert"
recordResult(insertLabel, n, insertTime)
echo " Insert ", n, " keys: ", insertTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, insertTime), ")", compareResult(insertLabel, currentResults[^1].opsPerSec, previousResults)
# Get benchmark
let getStart = getMonoTime()
@@ -66,13 +160,17 @@ proc benchBTree() =
let vals = btree.get("key_" & $i)
if vals.len > 0: inc found
let getTime = elapsed(getStart)
echo " Get ", n, " keys: ", getTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, getTime), ") (", found, " found)"
let getLabel = "BTree-Get"
recordResult(getLabel, n, getTime)
echo " Get ", n, " keys: ", getTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, getTime), ") (", found, " found)", compareResult(getLabel, currentResults[^1].opsPerSec, previousResults)
# Scan benchmark
let scanStart = getMonoTime()
let scanResults = btree.scan("key_1000", "key_2000")
let scanTime = elapsed(scanStart)
echo " Scan 1000 range: ", scanTime.formatFloat(ffDecimal, 6), "s (", scanResults.len, " results)"
let scanLabel = "BTree-Scan"
recordResult(scanLabel, scanResults.len, scanTime)
echo " Scan 1000 range: ", scanTime.formatFloat(ffDecimal, 6), "s (", scanResults.len, " results)", compareResult(scanLabel, currentResults[^1].opsPerSec, previousResults)
proc benchVectorSearch() =
echo "=== Vector Engine (HNSW) ==="
@@ -89,7 +187,9 @@ proc benchVectorSearch() =
vec[d] = rand(1.0)
vengine.insert(idx, uint64(i), vec)
let insertTime = elapsed(start)
echo " Insert ", n, " vectors (dim=", dim, "): ", insertTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, insertTime), ")"
let insertLabel = "HNSW-Insert"
recordResult(insertLabel, n, insertTime)
echo " Insert ", n, " vectors (dim=", dim, "): ", insertTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, insertTime), ")", compareResult(insertLabel, currentResults[^1].opsPerSec, previousResults)
# Search benchmark
var query = newSeq[float32](dim)
@@ -99,7 +199,9 @@ proc benchVectorSearch() =
let searchStart = getMonoTime()
let results = vengine.search(idx, query, 10)
let searchTime = elapsed(searchStart)
echo " Search top-10: ", (searchTime * 1000).formatFloat(ffDecimal, 3), "ms"
let searchLabel = "HNSW-Search"
recordResult(searchLabel, 1, searchTime)
echo " Search top-10: ", (searchTime * 1000).formatFloat(ffDecimal, 3), "ms", compareResult(searchLabel, currentResults[^1].opsPerSec, previousResults)
proc benchVectorSIMD() =
echo "=== Vector SIMD Operations ==="
@@ -122,21 +224,27 @@ proc benchVectorSIMD() =
for i in 0..<n:
discard cosineSimd(query, corpus[i])
let cosineTime = elapsed(start)
echo " Cosine distance (dim=768, n=10K): ", cosineTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, cosineTime), ")"
let cosineLabel = "SIMD-Cosine"
recordResult(cosineLabel, n, cosineTime)
echo " Cosine distance (dim=768, n=10K): ", cosineTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, cosineTime), ")", compareResult(cosineLabel, currentResults[^1].opsPerSec, previousResults)
# L2 distance benchmark
let l2Start = getMonoTime()
for i in 0..<n:
discard l2NormSimd(query, corpus[i])
let l2Time = elapsed(l2Start)
echo " L2 distance (dim=768, n=10K): ", l2Time.formatFloat(ffDecimal, 3), "s (", formatOps(n, l2Time), ")"
let l2Label = "SIMD-L2"
recordResult(l2Label, n, l2Time)
echo " L2 distance (dim=768, n=10K): ", l2Time.formatFloat(ffDecimal, 3), "s (", formatOps(n, l2Time), ")", compareResult(l2Label, currentResults[^1].opsPerSec, previousResults)
# Dot product benchmark
let dotStart = getMonoTime()
for i in 0..<n:
discard dotProductSimd(query, corpus[i])
let dotTime = elapsed(dotStart)
echo " Dot product (dim=768, n=10K): ", dotTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, dotTime), ")"
let dotLabel = "SIMD-Dot"
recordResult(dotLabel, n, dotTime)
echo " Dot product (dim=768, n=10K): ", dotTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, dotTime), ")", compareResult(dotLabel, currentResults[^1].opsPerSec, previousResults)
proc benchFTS() =
echo "=== Full-Text Search ==="
@@ -155,21 +263,27 @@ proc benchFTS() =
for i in 0..<n:
idx.addDocument(uint64(i), docs[i mod docs.len])
let indexTime = elapsed(start)
echo " Index ", n, " docs: ", indexTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, indexTime), ")"
let indexLabel = "FTS-Index"
recordResult(indexLabel, n, indexTime)
echo " Index ", n, " docs: ", indexTime.formatFloat(ffDecimal, 3), "s (", formatOps(n, indexTime), ")", compareResult(indexLabel, currentResults[^1].opsPerSec, previousResults)
# Search benchmark
let searchStart = getMonoTime()
for i in 0..<1000:
discard idx.search("Nim programming language")
let searchTime = elapsed(searchStart)
echo " Search 1000 queries: ", searchTime.formatFloat(ffDecimal, 3), "s (", formatOps(1000, searchTime), ")"
let searchLabel = "FTS-Search"
recordResult(searchLabel, 1000, searchTime)
echo " Search 1000 queries: ", searchTime.formatFloat(ffDecimal, 3), "s (", formatOps(1000, searchTime), ")", compareResult(searchLabel, currentResults[^1].opsPerSec, previousResults)
# Fuzzy search benchmark
let fuzzyStart = getMonoTime()
for i in 0..<100:
discard idx.fuzzySearch("programing", maxDistance = 2)
let fuzzyTime = elapsed(fuzzyStart)
echo " Fuzzy search 100 queries: ", fuzzyTime.formatFloat(ffDecimal, 3), "s (", formatOps(100, fuzzyTime), ")"
let fuzzyLabel = "FTS-Fuzzy"
recordResult(fuzzyLabel, 100, fuzzyTime)
echo " Fuzzy search 100 queries: ", fuzzyTime.formatFloat(ffDecimal, 3), "s (", formatOps(100, fuzzyTime), ")", compareResult(fuzzyLabel, currentResults[^1].opsPerSec, previousResults)
proc benchGraph() =
echo "=== Graph Engine ==="
@@ -182,7 +296,9 @@ proc benchGraph() =
for i in 0..<nodeCount:
discard gengine.addNode(g, "Node_" & $i)
let nodeTime = elapsed(nodeStart)
echo " Add ", nodeCount, " nodes: ", nodeTime.formatFloat(ffDecimal, 6), "s"
let nodeLabel = "Graph-AddNodes"
recordResult(nodeLabel, nodeCount, nodeTime)
echo " Add ", nodeCount, " nodes: ", nodeTime.formatFloat(ffDecimal, 6), "s", compareResult(nodeLabel, currentResults[^1].opsPerSec, previousResults)
# Add edges
randomize(42)
@@ -192,20 +308,26 @@ proc benchGraph() =
let dst = NodeId(uint64(rand(nodeCount - 1)) + 1)
discard gengine.addEdge(g, src, dst)
let edgeTime = elapsed(edgeStart)
echo " Add ", edgeCount, " edges: ", edgeTime.formatFloat(ffDecimal, 6), "s"
let edgeLabel = "Graph-AddEdges"
recordResult(edgeLabel, edgeCount, edgeTime)
echo " Add ", edgeCount, " edges: ", edgeTime.formatFloat(ffDecimal, 6), "s", compareResult(edgeLabel, currentResults[^1].opsPerSec, previousResults)
# BFS benchmark
let bfsStart = getMonoTime()
for i in 0..<100:
discard gengine.bfs(g, NodeId(1))
let bfsTime = elapsed(bfsStart)
echo " BFS 100 traversals: ", bfsTime.formatFloat(ffDecimal, 3), "s (", formatOps(100, bfsTime), ")"
let bfsLabel = "Graph-BFS"
recordResult(bfsLabel, 100, bfsTime)
echo " BFS 100 traversals: ", bfsTime.formatFloat(ffDecimal, 3), "s (", formatOps(100, bfsTime), ")", compareResult(bfsLabel, currentResults[^1].opsPerSec, previousResults)
# PageRank benchmark
let prStart = getMonoTime()
discard gengine.pageRank(g, 10)
let prTime = elapsed(prStart)
echo " PageRank (10 iterations): ", prTime.formatFloat(ffDecimal, 3), "s"
let prLabel = "Graph-PageRank"
recordResult(prLabel, 10, prTime)
echo " PageRank (10 iterations): ", prTime.formatFloat(ffDecimal, 3), "s", compareResult(prLabel, currentResults[^1].opsPerSec, previousResults)
proc main() =
echo ""
@@ -226,5 +348,15 @@ proc main() =
benchGraph()
echo ""
# Save results for regression tracking
let report = BenchReport(
version: "1.0.0",
gitSha: gitSha(),
results: currentResults,
)
saveResults(ResultsFile, report)
echo "Results saved to ", ResultsFile
echo ""
when isMainModule:
main()
+142 -1
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@@ -1,4 +1,4 @@
## Property-Based Tests — evalExprValue invariants
## Property-Based Tests — evalExprValue + B-Tree invariants
import std/unittest
import std/tables
import std/random
@@ -8,6 +8,7 @@ import std/math
import barabadb/core/types
import barabadb/storage/lsm
import barabadb/storage/btree
import barabadb/query/ir as qir
import barabadb/query/executor as qexec
@@ -677,3 +678,143 @@ suite "Property-Based — evalExprValue Invariants":
check v.kind == vkNull
let s = evalExpr(nil, initTable[string, string](), nil)
check s == ""
# ═══════════════════════════════════════════════════
# B-Tree Property-Based Invariants
# ═══════════════════════════════════════════════════
suite "Property-Based — B-Tree Invariants":
proc randKey(rng: var Rand, minVal: int = 0, maxVal: int = 10000): int =
rng.rand(minVal..maxVal)
test "B-Tree size equals number of unique keys after random inserts":
var rng = initRand(1000)
var btree = newBTreeIndex[int, string](order = 8)
var uniqueKeys = initTable[int, bool]()
for i in 0..<500:
let k = randKey(rng)
btree.insert(k, "v" & $k)
uniqueKeys[k] = true
check btree.len == uniqueKeys.len
test "B-Tree get returns all values for inserted key":
var rng = initRand(1001)
var btree = newBTreeIndex[int, string](order = 8)
var expected = initTable[int, seq[string]]()
for i in 0..<200:
let k = randKey(rng, 0, 50)
let v = "val_" & $i
btree.insert(k, v)
if k notin expected:
expected[k] = @[]
expected[k].add(v)
for k, vals in expected:
let got = btree.get(k)
check got == vals
test "B-Tree scan returns keys in ascending order":
var rng = initRand(1002)
var btree = newBTreeIndex[int, string](order = 8)
for i in 0..<300:
btree.insert(randKey(rng, 0, 1000), "x")
let result = btree.scan(0, 1000)
for i in 1..<result.len:
check result[i-1][0] <= result[i][0]
test "B-Tree scan range is inclusive and correct":
var rng = initRand(1003)
var btree = newBTreeIndex[int, string](order = 8)
var inserted = initTable[int, bool]()
for i in 0..<400:
let k = randKey(rng, 0, 200)
btree.insert(k, "v")
inserted[k] = true
let scanned = btree.scan(50, 100)
for (k, _) in scanned:
check k >= 50
check k <= 100
check inserted[k]
test "B-Tree contains after insert":
var rng = initRand(1004)
var btree = newBTreeIndex[int, string](order = 8)
var keys: seq[int] = @[]
for i in 0..<100:
let k = randKey(rng)
btree.insert(k, "v")
keys.add(k)
for k in keys:
check btree.contains(k)
test "B-Tree remove decreases size":
var rng = initRand(1005)
var btree = newBTreeIndex[int, string](order = 8)
var inserted = initTable[int, seq[string]]()
for i in 0..<200:
let k = randKey(rng, 0, 100)
let v = "v" & $i
btree.insert(k, v)
if k notin inserted:
inserted[k] = @[]
inserted[k].add(v)
let beforeSize = btree.len
var removedCount = 0
for k, vals in inserted:
if vals.len > 0:
btree.remove(k, vals[0])
inc removedCount
# Size should decrease by number of keys that had values removed
# (if all values removed, key is deleted)
check btree.len <= beforeSize
test "B-Tree with large order handles many inserts":
var rng = initRand(1006)
var btree = newBTreeIndex[int, string](order = 64)
for i in 0..<2000:
btree.insert(i, "v" & $i)
check btree.len == 2000
for i in 0..<2000:
check btree.contains(i)
test "B-Tree duplicate inserts append values":
var rng = initRand(1007)
var btree = newBTreeIndex[int, string](order = 8)
let k = 42
for i in 0..<50:
btree.insert(k, "v" & $i)
let vals = btree.get(k)
check vals.len == 50
for i in 0..<50:
check vals[i] == "v" & $i
test "B-Tree scan on empty tree returns empty":
var btree = newBTreeIndex[int, string]()
let result = btree.scan(0, 100)
check result.len == 0
test "B-Tree random interleaved insert/remove maintains invariants":
var rng = initRand(1008)
var btree = newBTreeIndex[int, string](order = 8)
var tracker = initTable[int, seq[string]]()
for i in 0..<300:
let op = rng.rand(0..2)
let k = randKey(rng, 0, 50)
case op
of 0, 1: # insert
let v = "v" & $i
btree.insert(k, v)
if k notin tracker:
tracker[k] = @[]
tracker[k].add(v)
of 2: # remove
if k in tracker and tracker[k].len > 0:
let v = tracker[k][0]
btree.remove(k, v)
tracker[k].del(0)
if tracker[k].len == 0:
tracker.del(k)
else: discard
# Verify all tracked keys are present
for k, vals in tracker:
let got = btree.get(k)
check got == vals