Commit 33dfda38 authored by Simon Zünd's avatar Simon Zünd Committed by V8 LUCI CQ

[liveedit] Move live edit diffing code into separate file

This is a strictly code moving change. We move the diffing algorithm
out of liveedit.cc into its own file.

We want to replace the current diffing algorithm and to stay safe we
will ship old and new algorithm side-by-side for a release for easy
revertability. Given that liveedit.cc is already large enough we
extract the diffing algo into a separate file.

R=kimanh@chromium.org

Bug: chromium:1205288
Change-Id: If5ebb6c2dff2f00387c9e2ab87e4bb61d1f1484a
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/3802687Reviewed-by: 's avatarKim-Anh Tran <kimanh@chromium.org>
Commit-Queue: Simon Zünd <szuend@chromium.org>
Cr-Commit-Position: refs/heads/main@{#82124}
parent 8d7f3ea7
......@@ -1273,6 +1273,8 @@ filegroup(
"src/debug/debug.cc",
"src/debug/debug.h",
"src/debug/interface-types.h",
"src/debug/liveedit-diff.cc",
"src/debug/liveedit-diff.h",
"src/debug/liveedit.cc",
"src/debug/liveedit.h",
"src/deoptimizer/deoptimize-reason.cc",
......
......@@ -3009,6 +3009,7 @@ v8_header_set("v8_internal_headers") {
"src/debug/debug-type-profile.h",
"src/debug/debug.h",
"src/debug/interface-types.h",
"src/debug/liveedit-diff.h",
"src/debug/liveedit.h",
"src/deoptimizer/deoptimize-reason.h",
"src/deoptimizer/deoptimized-frame-info.h",
......@@ -4427,6 +4428,7 @@ v8_source_set("v8_base_without_compiler") {
"src/debug/debug-stack-trace-iterator.cc",
"src/debug/debug-type-profile.cc",
"src/debug/debug.cc",
"src/debug/liveedit-diff.cc",
"src/debug/liveedit.cc",
"src/deoptimizer/deoptimize-reason.cc",
"src/deoptimizer/deoptimized-frame-info.cc",
......
// Copyright 2022 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/debug/liveedit-diff.h"
#include <map>
#include "src/base/logging.h"
#include "src/common/globals.h"
namespace v8 {
namespace internal {
namespace {
// A simple implementation of dynamic programming algorithm. It solves
// the problem of finding the difference of 2 arrays. It uses a table of results
// of subproblems. Each cell contains a number together with 2-bit flag
// that helps building the chunk list.
class Differencer {
public:
explicit Differencer(Comparator::Input* input)
: input_(input), len1_(input->GetLength1()), len2_(input->GetLength2()) {}
void Initialize() {}
// Makes sure that result for the full problem is calculated and stored
// in the table together with flags showing a path through subproblems.
void FillTable() {
// Determine common prefix to skip.
int minLen = std::min(len1_, len2_);
while (prefixLen_ < minLen && input_->Equals(prefixLen_, prefixLen_)) {
++prefixLen_;
}
// Pre-fill common suffix in the table.
for (int pos1 = len1_, pos2 = len2_; pos1 > prefixLen_ &&
pos2 > prefixLen_ &&
input_->Equals(--pos1, --pos2);) {
set_value4_and_dir(pos1, pos2, 0, EQ);
}
CompareUpToTail(prefixLen_, prefixLen_);
}
void SaveResult(Comparator::Output* chunk_writer) {
ResultWriter writer(chunk_writer);
if (prefixLen_) writer.eq(prefixLen_);
for (int pos1 = prefixLen_, pos2 = prefixLen_; true;) {
if (pos1 < len1_) {
if (pos2 < len2_) {
Direction dir = get_direction(pos1, pos2);
switch (dir) {
case EQ:
writer.eq();
pos1++;
pos2++;
break;
case SKIP1:
writer.skip1(1);
pos1++;
break;
case SKIP2:
case SKIP_ANY:
writer.skip2(1);
pos2++;
break;
default:
UNREACHABLE();
}
} else {
writer.skip1(len1_ - pos1);
break;
}
} else {
if (len2_ != pos2) {
writer.skip2(len2_ - pos2);
}
break;
}
}
writer.close();
}
private:
Comparator::Input* input_;
std::map<std::pair<int, int>, int> buffer_;
int len1_;
int len2_;
int prefixLen_ = 0;
enum Direction {
EQ = 0,
SKIP1,
SKIP2,
SKIP_ANY,
MAX_DIRECTION_FLAG_VALUE = SKIP_ANY
};
// Computes result for a subtask and optionally caches it in the buffer table.
// All results values are shifted to make space for flags in the lower bits.
int CompareUpToTail(int pos1, int pos2) {
if (pos1 == len1_) {
return (len2_ - pos2) << kDirectionSizeBits;
}
if (pos2 == len2_) {
return (len1_ - pos1) << kDirectionSizeBits;
}
int res = get_value4(pos1, pos2);
if (res != kEmptyCellValue) {
return res;
}
Direction dir;
if (input_->Equals(pos1, pos2)) {
res = CompareUpToTail(pos1 + 1, pos2 + 1);
dir = EQ;
} else {
int res1 = CompareUpToTail(pos1 + 1, pos2) + (1 << kDirectionSizeBits);
int res2 = CompareUpToTail(pos1, pos2 + 1) + (1 << kDirectionSizeBits);
if (res1 == res2) {
res = res1;
dir = SKIP_ANY;
} else if (res1 < res2) {
res = res1;
dir = SKIP1;
} else {
res = res2;
dir = SKIP2;
}
}
set_value4_and_dir(pos1, pos2, res, dir);
return res;
}
inline int get_cell(int i1, int i2) {
auto it = buffer_.find(std::make_pair(i1, i2));
return it == buffer_.end() ? kEmptyCellValue : it->second;
}
inline void set_cell(int i1, int i2, int value) {
buffer_.insert(std::make_pair(std::make_pair(i1, i2), value));
}
// Each cell keeps a value plus direction. Value is multiplied by 4.
void set_value4_and_dir(int i1, int i2, int value4, Direction dir) {
DCHECK_EQ(0, value4 & kDirectionMask);
set_cell(i1, i2, value4 | dir);
}
int get_value4(int i1, int i2) {
return get_cell(i1, i2) & (kMaxUInt32 ^ kDirectionMask);
}
Direction get_direction(int i1, int i2) {
return static_cast<Direction>(get_cell(i1, i2) & kDirectionMask);
}
static const int kDirectionSizeBits = 2;
static const int kDirectionMask = (1 << kDirectionSizeBits) - 1;
static const int kEmptyCellValue = ~0u << kDirectionSizeBits;
// This method only holds static assert statement (unfortunately you cannot
// place one in class scope).
void StaticAssertHolder() {
static_assert(MAX_DIRECTION_FLAG_VALUE < (1 << kDirectionSizeBits));
}
class ResultWriter {
public:
explicit ResultWriter(Comparator::Output* chunk_writer)
: chunk_writer_(chunk_writer),
pos1_(0),
pos2_(0),
pos1_begin_(-1),
pos2_begin_(-1),
has_open_chunk_(false) {}
void eq(int len = 1) {
FlushChunk();
pos1_ += len;
pos2_ += len;
}
void skip1(int len1) {
StartChunk();
pos1_ += len1;
}
void skip2(int len2) {
StartChunk();
pos2_ += len2;
}
void close() { FlushChunk(); }
private:
Comparator::Output* chunk_writer_;
int pos1_;
int pos2_;
int pos1_begin_;
int pos2_begin_;
bool has_open_chunk_;
void StartChunk() {
if (!has_open_chunk_) {
pos1_begin_ = pos1_;
pos2_begin_ = pos2_;
has_open_chunk_ = true;
}
}
void FlushChunk() {
if (has_open_chunk_) {
chunk_writer_->AddChunk(pos1_begin_, pos2_begin_, pos1_ - pos1_begin_,
pos2_ - pos2_begin_);
has_open_chunk_ = false;
}
}
};
};
} // namespace
void Comparator::CalculateDifference(Comparator::Input* input,
Comparator::Output* result_writer) {
Differencer differencer(input);
differencer.Initialize();
differencer.FillTable();
differencer.SaveResult(result_writer);
}
} // namespace internal
} // namespace v8
// Copyright 2022 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_DEBUG_LIVEEDIT_DIFF_H_
#define V8_DEBUG_LIVEEDIT_DIFF_H_
namespace v8 {
namespace internal {
// A general-purpose comparator between 2 arrays.
class Comparator {
public:
// Holds 2 arrays of some elements allowing to compare any pair of
// element from the first array and element from the second array.
class Input {
public:
virtual int GetLength1() = 0;
virtual int GetLength2() = 0;
virtual bool Equals(int index1, int index2) = 0;
protected:
virtual ~Input() = default;
};
// Receives compare result as a series of chunks.
class Output {
public:
// Puts another chunk in result list. Note that technically speaking
// only 3 arguments actually needed with 4th being derivable.
virtual void AddChunk(int pos1, int pos2, int len1, int len2) = 0;
protected:
virtual ~Output() = default;
};
// Finds the difference between 2 arrays of elements.
static void CalculateDifference(Input* input, Output* result_writer);
};
} // namespace internal
} // namespace v8
#endif // V8_DEBUG_LIVEEDIT_DIFF_H_
......@@ -15,6 +15,7 @@
#include "src/debug/debug-interface.h"
#include "src/debug/debug-stack-trace-iterator.h"
#include "src/debug/debug.h"
#include "src/debug/liveedit-diff.h"
#include "src/execution/frames-inl.h"
#include "src/execution/v8threads.h"
#include "src/logging/log.h"
......@@ -26,247 +27,6 @@
namespace v8 {
namespace internal {
namespace {
// A general-purpose comparator between 2 arrays.
class Comparator {
public:
// Holds 2 arrays of some elements allowing to compare any pair of
// element from the first array and element from the second array.
class Input {
public:
virtual int GetLength1() = 0;
virtual int GetLength2() = 0;
virtual bool Equals(int index1, int index2) = 0;
protected:
virtual ~Input() = default;
};
// Receives compare result as a series of chunks.
class Output {
public:
// Puts another chunk in result list. Note that technically speaking
// only 3 arguments actually needed with 4th being derivable.
virtual void AddChunk(int pos1, int pos2, int len1, int len2) = 0;
protected:
virtual ~Output() = default;
};
// Finds the difference between 2 arrays of elements.
static void CalculateDifference(Input* input, Output* result_writer);
};
// A simple implementation of dynamic programming algorithm. It solves
// the problem of finding the difference of 2 arrays. It uses a table of results
// of subproblems. Each cell contains a number together with 2-bit flag
// that helps building the chunk list.
class Differencer {
public:
explicit Differencer(Comparator::Input* input)
: input_(input), len1_(input->GetLength1()), len2_(input->GetLength2()) {
}
void Initialize() {
}
// Makes sure that result for the full problem is calculated and stored
// in the table together with flags showing a path through subproblems.
void FillTable() {
// Determine common prefix to skip.
int minLen = std::min(len1_, len2_);
while (prefixLen_ < minLen && input_->Equals(prefixLen_, prefixLen_)) {
++prefixLen_;
}
// Pre-fill common suffix in the table.
for (int pos1 = len1_, pos2 = len2_; pos1 > prefixLen_ &&
pos2 > prefixLen_ &&
input_->Equals(--pos1, --pos2);) {
set_value4_and_dir(pos1, pos2, 0, EQ);
}
CompareUpToTail(prefixLen_, prefixLen_);
}
void SaveResult(Comparator::Output* chunk_writer) {
ResultWriter writer(chunk_writer);
if (prefixLen_) writer.eq(prefixLen_);
for (int pos1 = prefixLen_, pos2 = prefixLen_; true;) {
if (pos1 < len1_) {
if (pos2 < len2_) {
Direction dir = get_direction(pos1, pos2);
switch (dir) {
case EQ:
writer.eq();
pos1++;
pos2++;
break;
case SKIP1:
writer.skip1(1);
pos1++;
break;
case SKIP2:
case SKIP_ANY:
writer.skip2(1);
pos2++;
break;
default:
UNREACHABLE();
}
} else {
writer.skip1(len1_ - pos1);
break;
}
} else {
if (len2_ != pos2) {
writer.skip2(len2_ - pos2);
}
break;
}
}
writer.close();
}
private:
Comparator::Input* input_;
std::map<std::pair<int, int>, int> buffer_;
int len1_;
int len2_;
int prefixLen_ = 0;
enum Direction {
EQ = 0,
SKIP1,
SKIP2,
SKIP_ANY,
MAX_DIRECTION_FLAG_VALUE = SKIP_ANY
};
// Computes result for a subtask and optionally caches it in the buffer table.
// All results values are shifted to make space for flags in the lower bits.
int CompareUpToTail(int pos1, int pos2) {
if (pos1 == len1_) {
return (len2_ - pos2) << kDirectionSizeBits;
}
if (pos2 == len2_) {
return (len1_ - pos1) << kDirectionSizeBits;
}
int res = get_value4(pos1, pos2);
if (res != kEmptyCellValue) {
return res;
}
Direction dir;
if (input_->Equals(pos1, pos2)) {
res = CompareUpToTail(pos1 + 1, pos2 + 1);
dir = EQ;
} else {
int res1 = CompareUpToTail(pos1 + 1, pos2) + (1 << kDirectionSizeBits);
int res2 = CompareUpToTail(pos1, pos2 + 1) + (1 << kDirectionSizeBits);
if (res1 == res2) {
res = res1;
dir = SKIP_ANY;
} else if (res1 < res2) {
res = res1;
dir = SKIP1;
} else {
res = res2;
dir = SKIP2;
}
}
set_value4_and_dir(pos1, pos2, res, dir);
return res;
}
inline int get_cell(int i1, int i2) {
auto it = buffer_.find(std::make_pair(i1, i2));
return it == buffer_.end() ? kEmptyCellValue : it->second;
}
inline void set_cell(int i1, int i2, int value) {
buffer_.insert(std::make_pair(std::make_pair(i1, i2), value));
}
// Each cell keeps a value plus direction. Value is multiplied by 4.
void set_value4_and_dir(int i1, int i2, int value4, Direction dir) {
DCHECK_EQ(0, value4 & kDirectionMask);
set_cell(i1, i2, value4 | dir);
}
int get_value4(int i1, int i2) {
return get_cell(i1, i2) & (kMaxUInt32 ^ kDirectionMask);
}
Direction get_direction(int i1, int i2) {
return static_cast<Direction>(get_cell(i1, i2) & kDirectionMask);
}
static const int kDirectionSizeBits = 2;
static const int kDirectionMask = (1 << kDirectionSizeBits) - 1;
static const int kEmptyCellValue = ~0u << kDirectionSizeBits;
// This method only holds static assert statement (unfortunately you cannot
// place one in class scope).
void StaticAssertHolder() {
static_assert(MAX_DIRECTION_FLAG_VALUE < (1 << kDirectionSizeBits));
}
class ResultWriter {
public:
explicit ResultWriter(Comparator::Output* chunk_writer)
: chunk_writer_(chunk_writer), pos1_(0), pos2_(0),
pos1_begin_(-1), pos2_begin_(-1), has_open_chunk_(false) {
}
void eq(int len = 1) {
FlushChunk();
pos1_ += len;
pos2_ += len;
}
void skip1(int len1) {
StartChunk();
pos1_ += len1;
}
void skip2(int len2) {
StartChunk();
pos2_ += len2;
}
void close() {
FlushChunk();
}
private:
Comparator::Output* chunk_writer_;
int pos1_;
int pos2_;
int pos1_begin_;
int pos2_begin_;
bool has_open_chunk_;
void StartChunk() {
if (!has_open_chunk_) {
pos1_begin_ = pos1_;
pos2_begin_ = pos2_;
has_open_chunk_ = true;
}
}
void FlushChunk() {
if (has_open_chunk_) {
chunk_writer_->AddChunk(pos1_begin_, pos2_begin_,
pos1_ - pos1_begin_, pos2_ - pos2_begin_);
has_open_chunk_ = false;
}
}
};
};
void Comparator::CalculateDifference(Comparator::Input* input,
Comparator::Output* result_writer) {
Differencer differencer(input);
differencer.Initialize();
differencer.FillTable();
differencer.SaveResult(result_writer);
}
bool CompareSubstrings(Handle<String> s1, int pos1, Handle<String> s2, int pos2,
int len) {
......
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