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188c27c6e2097319cb3ffbfe0d138c185e5ff565
archived-Reclass/src/core.h
IChooseYou 188c27c6e2 feat: workspace panel visual overhaul, perf optimizations, remove kernel base addresses 
Workspace panel:
- Custom WorkspaceDelegate: struct names bright, metadata dimmed, child types in teal
- Search box: monospace font, search icon, bordered with focus highlight
- Selection: accent bar, all fonts synced to 10pt monospace
- Remove rebuildWorkspaceModel from visibilityChanged (fixes double-click refresh)
- Incremental sync (syncProjectExplorer) preserves tree expansion state

Performance:
- childrenOf() O(1) via cached parent→children hash map
- Debounced workspace rebuilds (50ms coalesce)
- Pre-reserve node vector in NodeTree::fromJson
- Benchmark suite (bench_project)

Data:
- Remove kernel baseAddress from Vergilius/WinSDK examples (default to 0x400000)
2026-03-07 06:47:16 -07:00

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#pragma once
#include <QString>
#include <QStringList>
#include <QVector>
#include <QJsonObject>
#include <QJsonArray>
#include <QByteArray>
#include <QHash>
#include <QSet>
#include <cstdint>
#include <array>
#include <memory>
#include <variant>
#include <QDateTime>
#include "providers/provider.h"
#include "providers/buffer_provider.h"
#include "providers/null_provider.h"
namespace rcx {
// ── Node kind enum ──
enum class NodeKind : uint8_t {
Hex8, Hex16, Hex32, Hex64,
Int8, Int16, Int32, Int64,
UInt8, UInt16, UInt32, UInt64,
Float, Double, Bool,
Pointer32, Pointer64,
FuncPtr32, FuncPtr64,
Vec2, Vec3, Vec4, Mat4x4,
UTF8, UTF16,
Struct, Array
};
} // namespace rcx (temporarily close for qHash)
#if QT_VERSION < QT_VERSION_CHECK(6, 0, 0)
inline uint qHash(rcx::NodeKind key, uint seed = 0) { return qHash(static_cast<int>(key), seed); }
#endif
namespace rcx { // reopen
// ── Kind flags (replaces repeated Hex switches) ──
enum KindFlags : uint32_t {
KF_None = 0,
KF_HexPreview = 1 << 0, // Hex8..Hex64 (ASCII+hex layout)
KF_Container = 1 << 1, // Struct/Array
KF_String = 1 << 2, // UTF8/UTF16
KF_Vector = 1 << 3, // Vec2/3/4
};
// ── Unified kind metadata table (single source of truth) ──
struct KindMeta {
NodeKind kind;
const char* name; // UI/JSON name: "Hex64", "UInt16"
const char* typeName; // display name: "Hex64", "uint16_t"
int size; // byte size (0 = dynamic: Struct/Array)
int lines; // display line count
int align; // natural alignment
uint32_t flags; // KindFlags bitmask
};
inline constexpr KindMeta kKindMeta[] = {
// kind name typeName sz ln al flags
{NodeKind::Hex8, "Hex8", "hex8", 1, 1, 1, KF_HexPreview},
{NodeKind::Hex16, "Hex16", "hex16", 2, 1, 2, KF_HexPreview},
{NodeKind::Hex32, "Hex32", "hex32", 4, 1, 4, KF_HexPreview},
{NodeKind::Hex64, "Hex64", "hex64", 8, 1, 8, KF_HexPreview},
{NodeKind::Int8, "Int8", "int8_t", 1, 1, 1, KF_None},
{NodeKind::Int16, "Int16", "int16_t", 2, 1, 2, KF_None},
{NodeKind::Int32, "Int32", "int32_t", 4, 1, 4, KF_None},
{NodeKind::Int64, "Int64", "int64_t", 8, 1, 8, KF_None},
{NodeKind::UInt8, "UInt8", "uint8_t", 1, 1, 1, KF_None},
{NodeKind::UInt16, "UInt16", "uint16_t", 2, 1, 2, KF_None},
{NodeKind::UInt32, "UInt32", "uint32_t", 4, 1, 4, KF_None},
{NodeKind::UInt64, "UInt64", "uint64_t", 8, 1, 8, KF_None},
{NodeKind::Float, "Float", "float", 4, 1, 4, KF_None},
{NodeKind::Double, "Double", "double", 8, 1, 8, KF_None},
{NodeKind::Bool, "Bool", "bool", 1, 1, 1, KF_None},
{NodeKind::Pointer32, "Pointer32", "ptr32", 4, 1, 4, KF_None},
{NodeKind::Pointer64, "Pointer64", "ptr64", 8, 1, 8, KF_None},
{NodeKind::FuncPtr32, "FuncPtr32", "fnptr32", 4, 1, 4, KF_None},
{NodeKind::FuncPtr64, "FuncPtr64", "fnptr64", 8, 1, 8, KF_None},
{NodeKind::Vec2, "Vec2", "vec2", 8, 1, 4, KF_Vector},
{NodeKind::Vec3, "Vec3", "vec3", 12, 1, 4, KF_Vector},
{NodeKind::Vec4, "Vec4", "vec4", 16, 1, 4, KF_Vector},
{NodeKind::Mat4x4, "Mat4x4", "mat4x4", 64, 4, 4, KF_None},
{NodeKind::UTF8, "UTF8", "str", 1, 1, 1, KF_String},
{NodeKind::UTF16, "UTF16", "wstr", 2, 1, 2, KF_String},
{NodeKind::Struct, "Struct", "struct", 0, 1, 1, KF_Container},
{NodeKind::Array, "Array", "array", 0, 1, 1, KF_Container},
};
inline constexpr const KindMeta* kindMeta(NodeKind k) {
for (const auto& m : kKindMeta)
if (m.kind == k) return &m;
return nullptr;
}
inline constexpr int sizeForKind(NodeKind k) { auto* m = kindMeta(k); return m ? m->size : 0; }
inline constexpr int linesForKind(NodeKind k) { auto* m = kindMeta(k); return m ? m->lines : 1; }
inline constexpr int alignmentFor(NodeKind k) { auto* m = kindMeta(k); return m ? m->align : 1; }
inline const char* kindToString(NodeKind k) {
auto* m = kindMeta(k);
return m ? m->name : "Unknown";
}
inline NodeKind kindFromString(const QString& s) {
for (const auto& m : kKindMeta)
if (s == m.name) return m.kind;
return NodeKind::Hex8;
}
inline NodeKind kindFromTypeName(const QString& s, bool* ok = nullptr) {
for (const auto& m : kKindMeta) {
if (s == m.typeName) {
if (ok) *ok = true;
return m.kind;
}
}
if (ok) *ok = false;
return NodeKind::Hex8;
}
inline constexpr uint32_t flagsFor(NodeKind k) {
const auto* m = kindMeta(k);
return m ? m->flags : 0;
}
inline constexpr bool isHexPreview(NodeKind k) {
return flagsFor(k) & KF_HexPreview;
}
inline constexpr bool isHexNode(NodeKind k) {
return k >= NodeKind::Hex8 && k <= NodeKind::Hex64;
}
inline constexpr bool isVectorKind(NodeKind k) {
return k == NodeKind::Vec2 || k == NodeKind::Vec3 || k == NodeKind::Vec4;
}
inline constexpr bool isMatrixKind(NodeKind k) {
return k == NodeKind::Mat4x4;
}
inline constexpr bool isFuncPtr(NodeKind k) {
return k == NodeKind::FuncPtr32 || k == NodeKind::FuncPtr64;
}
// Hex types, pointer types, function pointers, and containers are not meaningful
// primitive-pointer targets — dereferencing them produces the same output as void*.
inline constexpr bool isValidPrimitivePtrTarget(NodeKind k) {
if (isHexNode(k)) return false;
if (k == NodeKind::Pointer32 || k == NodeKind::Pointer64) return false;
if (isFuncPtr(k)) return false;
if (k == NodeKind::Struct || k == NodeKind::Array) return false;
return true;
}
inline QStringList allTypeNamesForUI(bool /*stripBrackets*/ = false) {
QStringList out;
out.reserve(std::size(kKindMeta));
for (const auto& m : kKindMeta)
out << QString::fromLatin1(m.typeName);
out.sort(Qt::CaseInsensitive);
out.removeDuplicates();
return out;
}
// ── Marker vocabulary ──
enum Marker : int {
M_CONT = 0,
M_PTR0 = 2,
M_CYCLE = 3,
M_ERR = 4,
M_STRUCT_BG = 5,
M_HOVER = 6,
M_SELECTED = 7,
M_CMD_ROW = 8,
M_ACCENT = 9,
};
// ── Bitfield member (name + bit position + width within a container) ──
struct BitfieldMember {
QString name;
uint8_t bitOffset = 0; // position from LSB within the container
uint8_t bitWidth = 1; // number of bits (1..64)
};
// ── Node ──
struct Node {
uint64_t id = 0;
NodeKind kind = NodeKind::Hex8;
QString name;
QString structTypeName; // Struct/Array: optional type name (e.g., "IMAGE_DOS_HEADER")
QString classKeyword; // "struct", "class", or "enum" (empty = "struct")
uint64_t parentId = 0; // 0 = root (no parent)
int offset = 0;
bool isStatic = false; // static field — excluded from struct layout
QString offsetExpr; // C/C++ expression → absolute address (static fields only)
int arrayLen = 1; // Array: element count
int strLen = 64;
bool collapsed = false;
uint64_t refId = 0; // Pointer32/64: id of Struct to expand at *ptr
NodeKind elementKind = NodeKind::UInt8; // Array: element type; Pointer with ptrDepth>0: target type
int ptrDepth = 0; // Pointer: 0=struct/void ptr, 1=primitive*, 2=primitive**
int viewIndex = 0; // Array: current view offset (transient)
QVector<QPair<QString, int64_t>> enumMembers; // Enum: name→value pairs
QVector<BitfieldMember> bitfieldMembers; // Bitfield: per-bit member definitions
// Note: Returns 0 for Array-of-Struct/Array. Use tree.structSpan() for accurate size.
int byteSize() const {
switch (kind) {
case NodeKind::UTF8: return strLen;
case NodeKind::UTF16: return qMin(strLen, INT_MAX / 2) * 2;
case NodeKind::Array: {
int elemSz = sizeForKind(elementKind);
if (elemSz <= 0) return 0;
return qMin(arrayLen, INT_MAX / elemSz) * elemSz;
}
case NodeKind::Struct:
if (classKeyword == QStringLiteral("bitfield")) {
int sz = sizeForKind(elementKind);
return sz > 0 ? sz : 4;
}
return 0;
default: return sizeForKind(kind);
}
}
QJsonObject toJson() const {
QJsonObject o;
o["id"] = QString::number(id);
o["kind"] = kindToString(kind);
o["name"] = name;
if (!structTypeName.isEmpty())
o["structTypeName"] = structTypeName;
if (!classKeyword.isEmpty() && classKeyword != QStringLiteral("struct"))
o["classKeyword"] = classKeyword;
o["parentId"] = QString::number(parentId);
o["offset"] = offset;
if (isStatic)
o["isStatic"] = true;
if (!offsetExpr.isEmpty())
o["offsetExpr"] = offsetExpr;
o["arrayLen"] = arrayLen;
o["strLen"] = strLen;
o["collapsed"] = collapsed;
o["refId"] = QString::number(refId);
o["elementKind"] = kindToString(elementKind);
if (ptrDepth > 0)
o["ptrDepth"] = ptrDepth;
if (!enumMembers.isEmpty()) {
QJsonArray arr;
for (const auto& m : enumMembers) {
QJsonObject em;
em["name"] = m.first;
em["value"] = QString::number(m.second);
arr.append(em);
}
o["enumMembers"] = arr;
}
if (!bitfieldMembers.isEmpty()) {
QJsonArray arr;
for (const auto& m : bitfieldMembers) {
QJsonObject bm;
bm["name"] = m.name;
bm["bitOffset"] = m.bitOffset;
bm["bitWidth"] = m.bitWidth;
arr.append(bm);
}
o["bitfieldMembers"] = arr;
}
return o;
}
static Node fromJson(const QJsonObject& o) {
Node n;
n.id = o["id"].toString("0").toULongLong();
n.kind = kindFromString(o["kind"].toString());
n.name = o["name"].toString();
n.structTypeName = o["structTypeName"].toString();
n.classKeyword = o["classKeyword"].toString();
n.parentId = o["parentId"].toString("0").toULongLong();
n.offset = o["offset"].toInt(0);
n.isStatic = o["isStatic"].toBool(o["isHelper"].toBool(false));
n.offsetExpr = o["offsetExpr"].toString();
n.arrayLen = qBound(1, o["arrayLen"].toInt(1), 1000000);
n.strLen = qBound(1, o["strLen"].toInt(64), 1000000);
n.collapsed = o["collapsed"].toBool(false);
n.refId = o["refId"].toString("0").toULongLong();
n.elementKind = kindFromString(o["elementKind"].toString("UInt8"));
n.ptrDepth = qBound(0, o["ptrDepth"].toInt(0), 2);
if (o.contains("enumMembers")) {
QJsonArray arr = o["enumMembers"].toArray();
for (const auto& v : arr) {
QJsonObject em = v.toObject();
n.enumMembers.append({em["name"].toString(),
em["value"].toString("0").toLongLong()});
}
}
if (o.contains("bitfieldMembers")) {
QJsonArray arr = o["bitfieldMembers"].toArray();
for (const auto& v : arr) {
QJsonObject bm = v.toObject();
BitfieldMember m;
m.name = bm["name"].toString();
m.bitOffset = (uint8_t)qBound(0, bm["bitOffset"].toInt(0), 255);
m.bitWidth = (uint8_t)qBound(1, bm["bitWidth"].toInt(1), 64);
n.bitfieldMembers.append(m);
}
}
return n;
}
// Resolved class keyword (never empty)
QString resolvedClassKeyword() const {
return classKeyword.isEmpty() ? QStringLiteral("struct") : classKeyword;
}
// NOTE: isStringArray() was checking UInt8/UInt16 instead of UTF8/UTF16.
// Currently unused — commented out until a caller needs it.
// bool isStringArray() const {
// return kind == NodeKind::Array &&
// (elementKind == NodeKind::UTF8 || elementKind == NodeKind::UTF16);
// }
};
// ── NodeTree ──
struct NodeTree {
QVector<Node> nodes;
uint64_t baseAddress = 0x00400000;
QString baseAddressFormula; // e.g. "<ReClass.exe> + 0x100"
int pointerSize = 8; // 4 for 32-bit targets, 8 for 64-bit
uint64_t m_nextId = 1;
mutable QHash<uint64_t, int> m_idCache;
mutable QHash<uint64_t, QVector<int>> m_childCache;
int addNode(const Node& n) {
Node copy = n;
if (copy.id == 0) copy.id = m_nextId++;
else if (copy.id >= m_nextId) m_nextId = copy.id + 1;
int idx = nodes.size();
nodes.append(copy);
if (!m_idCache.isEmpty())
m_idCache[copy.id] = idx;
if (!m_childCache.isEmpty())
m_childCache[copy.parentId].append(idx);
return idx;
}
// Reserve a unique ID atomically (for use before pushing undo commands)
uint64_t reserveId() { return m_nextId++; }
void invalidateIdCache() const { m_idCache.clear(); m_childCache.clear(); }
int indexOfId(uint64_t id) const {
if (m_idCache.isEmpty() && !nodes.isEmpty()) {
for (int i = 0; i < nodes.size(); i++)
m_idCache[nodes[i].id] = i;
}
return m_idCache.value(id, -1);
}
QVector<int> childrenOf(uint64_t parentId) const {
if (m_childCache.isEmpty() && !nodes.isEmpty()) {
for (int i = 0; i < nodes.size(); i++)
m_childCache[nodes[i].parentId].append(i);
}
return m_childCache.value(parentId);
}
// Collect node + all descendants (iterative, cycle-safe)
QVector<int> subtreeIndices(uint64_t nodeId) const {
int idx = indexOfId(nodeId);
if (idx < 0) return {};
// Build parent→children map
QHash<uint64_t, QVector<int>> childMap;
for (int i = 0; i < nodes.size(); i++)
childMap[nodes[i].parentId].append(i);
// BFS with visited guard
QVector<int> result;
QSet<uint64_t> visited;
QVector<uint64_t> stack;
stack.append(nodeId);
result.append(idx);
visited.insert(nodeId);
while (!stack.isEmpty()) {
uint64_t pid = stack.takeLast();
for (int ci : childMap.value(pid)) {
uint64_t cid = nodes[ci].id;
if (!visited.contains(cid)) {
visited.insert(cid);
result.append(ci);
stack.append(cid);
}
}
}
return result;
}
int depthOf(int idx) const {
int d = 0;
QSet<uint64_t> visited;
int cur = idx;
while (cur >= 0 && cur < nodes.size() && nodes[cur].parentId != 0) {
uint64_t nid = nodes[cur].id;
if (visited.contains(nid)) break;
visited.insert(nid);
cur = indexOfId(nodes[cur].parentId);
if (cur < 0) break;
d++;
}
return d;
}
int64_t computeOffset(int idx) const {
int64_t total = 0;
QSet<uint64_t> visited;
int cur = idx;
while (cur >= 0 && cur < nodes.size()) {
uint64_t nid = nodes[cur].id;
if (visited.contains(nid)) break;
visited.insert(nid);
total += nodes[cur].offset;
if (nodes[cur].parentId == 0) break;
cur = indexOfId(nodes[cur].parentId);
}
return total;
}
int structSpan(uint64_t structId,
const QHash<uint64_t, QVector<int>>* childMap = nullptr,
QSet<uint64_t>* visited = nullptr) const {
QSet<uint64_t> localVisited;
if (!visited) visited = &localVisited;
if (visited->contains(structId)) return 0; // Cycle detected
visited->insert(structId);
int idx = indexOfId(structId);
if (idx < 0) return 0;
const Node& node = nodes[idx];
int declaredSize = node.byteSize();
int maxEnd = 0;
QVector<int> kids = childMap ? childMap->value(structId) : childrenOf(structId);
for (int ci : kids) {
const Node& c = nodes[ci];
if (c.isStatic) continue; // static fields don't affect struct size
int sz = (c.kind == NodeKind::Struct || c.kind == NodeKind::Array)
? structSpan(c.id, childMap, visited) : c.byteSize();
int end = c.offset + sz;
if (end > maxEnd) maxEnd = end;
}
// Embedded struct reference: no own children but refId points to a struct definition
if (kids.isEmpty() && node.kind == NodeKind::Struct && node.refId != 0)
maxEnd = qMax(maxEnd, structSpan(node.refId, childMap, visited));
return qMax(declaredSize, maxEnd);
}
// Batch selection normalizers
QSet<uint64_t> normalizePreferAncestors(const QSet<uint64_t>& ids) const;
QSet<uint64_t> normalizePreferDescendants(const QSet<uint64_t>& ids) const;
QJsonObject toJson() const {
QJsonObject o;
o["baseAddress"] = QString::number(baseAddress, 16);
if (!baseAddressFormula.isEmpty())
o["baseAddressFormula"] = baseAddressFormula;
if (pointerSize != 8)
o["pointerSize"] = pointerSize;
o["nextId"] = QString::number(m_nextId);
QJsonArray arr;
for (const auto& n : nodes) arr.append(n.toJson());
o["nodes"] = arr;
return o;
}
static NodeTree fromJson(const QJsonObject& o) {
NodeTree t;
t.baseAddress = o["baseAddress"].toString("400000").toULongLong(nullptr, 16);
t.baseAddressFormula = o["baseAddressFormula"].toString();
t.pointerSize = o["pointerSize"].toInt(8);
t.m_nextId = o["nextId"].toString("1").toULongLong();
QJsonArray arr = o["nodes"].toArray();
t.nodes.reserve(arr.size());
for (const auto& v : arr) {
Node n = Node::fromJson(v.toObject());
t.nodes.append(n);
if (n.id >= t.m_nextId) t.m_nextId = n.id + 1;
}
return t;
}
};
// ── Value History (ring buffer for heatmap) ──
struct ValueHistory {
static constexpr int kCapacity = 10;
std::array<QString, kCapacity> values;
std::array<qint64, kCapacity> timestamps{}; // msec since epoch
int count = 0; // total unique values recorded
int head = 0; // next write position in ring
void record(const QString& v) {
if (count > 0) {
int last = (head + kCapacity - 1) % kCapacity;
if (values[last] == v) return; // no change
}
values[head] = v;
timestamps[head] = QDateTime::currentMSecsSinceEpoch();
head = (head + 1) % kCapacity;
if (count < INT_MAX) count++;
}
void clear() {
count = 0;
head = 0;
}
int uniqueCount() const { return qMin(count, kCapacity); }
// 0=static, 1=cold(2 unique), 2=warm(3-4), 3=hot(5+)
int heatLevel() const {
if (count <= 1) return 0;
if (count == 2) return 1;
if (count <= 4) return 2;
return 3;
}
QString last() const {
if (count == 0) return {};
return values[(head + kCapacity - 1) % kCapacity];
}
// Iterate from oldest to newest (up to uniqueCount entries)
template<typename Fn>
void forEach(Fn&& fn) const {
int n = uniqueCount();
int start = (head + kCapacity - n) % kCapacity;
for (int i = 0; i < n; i++)
fn(values[(start + i) % kCapacity]);
}
// Iterate with timestamps from newest to oldest
template<typename Fn>
void forEachWithTime(Fn&& fn) const {
int n = uniqueCount();
for (int i = 0; i < n; i++) {
int idx = (head + kCapacity - 1 - i) % kCapacity;
fn(values[idx], timestamps[idx]);
}
}
};
// ── LineMeta ──
enum class LineKind : uint8_t {
CommandRow, // line 0: source + address + root class type + name
Blank, // (unused — kept for enum stability)
Header, Field, Continuation, Footer, ArrayElementSeparator
};
static constexpr uint64_t kCommandRowId = UINT64_MAX;
static constexpr int kCommandRowLine = 0;
static constexpr int kFirstDataLine = 1;
static constexpr uint64_t kFooterIdBit = 0x8000000000000000ULL;
static constexpr uint64_t kArrayElemBit = 0x4000000000000000ULL; // marks array element selection
static constexpr uint64_t kArrayElemShift = 48; // bits 48-61 hold element index
static constexpr uint64_t kArrayElemMask = 0x3FFF000000000000ULL; // 14 bits → max 16383 elements
// Encode an array element selection ID: nodeId | kArrayElemBit | (elemIdx << 48)
inline uint64_t makeArrayElemSelId(uint64_t nodeId, int elemIdx) {
return nodeId | kArrayElemBit | ((uint64_t)(elemIdx & 0x3FFF) << kArrayElemShift);
}
inline int arrayElemIdxFromSelId(uint64_t selId) {
return (int)((selId & kArrayElemMask) >> kArrayElemShift);
}
// Member selection encoding (enum/bitfield members) — mirrors array element pattern
static constexpr uint64_t kMemberBit = 0x2000000000000000ULL;
static constexpr uint64_t kMemberSubShift = 48;
static constexpr uint64_t kMemberSubMask = 0x3FFF000000000000ULL;
inline uint64_t makeMemberSelId(uint64_t nodeId, int subLine) {
return nodeId | kMemberBit | ((uint64_t)(subLine & 0x3FFF) << kMemberSubShift);
}
inline int memberSubFromSelId(uint64_t selId) {
return (int)((selId & kMemberSubMask) >> kMemberSubShift);
}
struct LineMeta {
int nodeIdx = -1;
uint64_t nodeId = 0;
int subLine = 0;
int depth = 0;
int foldLevel = 0;
bool foldHead = false;
bool foldCollapsed = false;
bool isContinuation = false;
bool isRootHeader = false; // true for top-level struct headers (base address editable)
bool isArrayHeader = false; // true for array headers (has <idx/count> nav)
LineKind lineKind = LineKind::Field;
NodeKind nodeKind = NodeKind::Int32;
NodeKind elementKind = NodeKind::UInt8; // Array element type
int arrayViewIdx = 0; // Array: current view index
int arrayCount = 0; // Array: total element count
int arrayElementIdx = -1; // Index of this element within parent array (-1 if not array element)
QString offsetText;
uint64_t offsetAddr = 0; // Raw absolute address (for margin toggle)
uint64_t ptrBase = 0; // Pointer expansion base (non-zero = use for RVA)
uint32_t markerMask = 0;
bool dataChanged = false; // true if any byte in this node changed since last refresh
int heatLevel = 0; // 0=static, 1=cold, 2=warm, 3=hot (from ValueHistory)
QVector<int> changedByteIndices; // Hex preview: which byte indices (0-based) changed on this line
int lineByteCount = 0; // Hex preview: actual data byte count on this line
int effectiveTypeW = 14; // Per-line type column width used for rendering
int effectiveNameW = 22; // Per-line name column width used for rendering
QString pointerTargetName; // Resolved target type name for Pointer32/64 (empty = "void")
bool isArrayElement = false; // true for synthesized primitive array element lines
bool isMemberLine = false; // true for enum member / bitfield member lines
bool isStaticLine = false; // true for static field node lines
};
inline bool isSyntheticLine(const LineMeta& lm) {
return lm.lineKind == LineKind::CommandRow;
}
// ── Layout Info ──
struct LayoutInfo {
int typeW = 14; // Effective type column width (default = kColType)
int nameW = 22; // Effective name column width (default = kColName)
int offsetHexDigits = 8; // Hex digits for offset margin (4/8/12/16)
uint64_t baseAddress = 0; // Base address for relative offset computation
bool treeLines = false; // Whether tree line connectors are embedded in the text
};
// ── ComposeResult ──
struct ComposeResult {
QString text;
QVector<LineMeta> meta;
LayoutInfo layout;
};
// ── Command ──
namespace cmd {
struct OffsetAdj { uint64_t nodeId; int oldOffset, newOffset; };
struct ChangeKind { uint64_t nodeId; NodeKind oldKind, newKind;
QVector<OffsetAdj> offAdjs; };
struct Rename { uint64_t nodeId; QString oldName, newName; };
struct Collapse { uint64_t nodeId; bool oldState, newState; };
struct Insert { Node node; QVector<OffsetAdj> offAdjs; };
struct Remove { uint64_t nodeId; QVector<Node> subtree;
QVector<OffsetAdj> offAdjs; };
struct ChangeBase { uint64_t oldBase, newBase; QString oldFormula, newFormula; };
struct WriteBytes { uint64_t addr; QByteArray oldBytes, newBytes; };
struct ChangeArrayMeta { uint64_t nodeId;
NodeKind oldElementKind, newElementKind;
int oldArrayLen, newArrayLen; };
struct ChangePointerRef { uint64_t nodeId;
uint64_t oldRefId, newRefId; };
struct ChangeStructTypeName { uint64_t nodeId; QString oldName, newName; };
struct ChangeClassKeyword { uint64_t nodeId; QString oldKeyword, newKeyword; };
struct ChangeOffset { uint64_t nodeId; int oldOffset, newOffset; };
struct ChangeEnumMembers { uint64_t nodeId;
QVector<QPair<QString, int64_t>> oldMembers, newMembers; };
struct ChangeOffsetExpr { uint64_t nodeId; QString oldExpr, newExpr; };
struct ToggleStatic { uint64_t nodeId; bool oldVal, newVal; };
}
using Command = std::variant<
cmd::ChangeKind, cmd::Rename, cmd::Collapse,
cmd::Insert, cmd::Remove, cmd::ChangeBase, cmd::WriteBytes,
cmd::ChangeArrayMeta, cmd::ChangePointerRef, cmd::ChangeStructTypeName,
cmd::ChangeClassKeyword, cmd::ChangeOffset, cmd::ChangeEnumMembers,
cmd::ChangeOffsetExpr, cmd::ToggleStatic
>;
// ── Column spans (for inline editing) ──
struct ColumnSpan {
int start = 0; // inclusive column index
int end = 0; // exclusive column index
bool valid = false;
};
enum class EditTarget { Name, Type, Value, BaseAddress, Source, ArrayIndex, ArrayCount,
ArrayElementType, ArrayElementCount, PointerTarget,
RootClassType, RootClassName, TypeSelector, StaticExpr };
// Column layout constants (shared with format.cpp span computation)
inline constexpr int kFoldCol = 3; // 3-char fold indicator prefix per line
inline constexpr int kColType = 14; // Max type column width (fits "uint64_t[999]")
inline constexpr int kColName = 22;
inline constexpr int kColValue = 96;
inline constexpr int kColComment = 28; // "// Enter=Save Esc=Cancel" fits
inline constexpr int kColBaseAddr = 12; // "0x" + up to 10 hex digits (40-bit address)
inline constexpr int kSepWidth = 1;
inline constexpr int kMinTypeW = 7; // Minimum type column width (fits "uint8_t")
inline constexpr int kMaxTypeW = 128; // Maximum type column width
inline constexpr int kMinNameW = 8; // Minimum name column width (matches ASCII preview)
inline constexpr int kMaxNameW = 128; // Maximum name column width
inline constexpr int kCompactTypeW = 20; // Type column cap for compact column mode
inline ColumnSpan typeSpanFor(const LineMeta& lm, int typeW = kColType) {
if (lm.lineKind != LineKind::Field || lm.isContinuation || lm.isMemberLine) return {};
int ind = kFoldCol + lm.depth * 3;
return {ind, ind + typeW, true};
}
inline ColumnSpan nameSpanFor(const LineMeta& lm, int typeW = kColType, int nameW = kColName) {
if (lm.isContinuation || lm.lineKind != LineKind::Field || lm.isMemberLine) return {};
int ind = kFoldCol + lm.depth * 3;
int start = ind + typeW + kSepWidth;
// Hex: ASCII preview occupies the name column (padded to nameW)
if (isHexPreview(lm.nodeKind))
return {start, start + nameW, true};
return {start, start + nameW, true};
}
inline ColumnSpan valueSpanFor(const LineMeta& lm, int /*lineLength*/, int typeW = kColType, int nameW = kColName) {
if (lm.lineKind == LineKind::Header || lm.lineKind == LineKind::Footer ||
lm.lineKind == LineKind::ArrayElementSeparator) return {};
if (lm.isMemberLine) return {};
int ind = kFoldCol + lm.depth * 3;
// Hex uses nameW for ASCII column (same as regular name column)
bool isHex = isHexPreview(lm.nodeKind);
int valWidth = isHex ? 23 : kColValue;
int prefixW = typeW + nameW + 2 * kSepWidth;
if (lm.isContinuation) {
int start = ind + prefixW;
return {start, start + valWidth, true};
}
if (lm.lineKind != LineKind::Field) return {};
int start = ind + prefixW;
return {start, start + valWidth, true};
}
// Member line spans (enum "name = value", bitfield "name : N = value")
inline ColumnSpan memberNameSpanFor(const LineMeta& lm, const QString& lineText) {
if (!lm.isMemberLine) return {};
int ind = kFoldCol + lm.depth * 3;
int eq = lineText.indexOf(QLatin1String(" = "), ind);
if (eq < 0) return {};
int nameEnd = eq;
while (nameEnd > ind && lineText[nameEnd - 1] == ' ') nameEnd--;
return {ind, nameEnd, true};
}
inline ColumnSpan memberValueSpanFor(const LineMeta& lm, const QString& lineText) {
if (!lm.isMemberLine) return {};
int eq = lineText.indexOf(QLatin1String(" = "));
if (eq < 0) return {};
int valStart = eq + 3;
int valEnd = lineText.size();
while (valEnd > valStart && lineText[valEnd - 1] == ' ') valEnd--;
return {valStart, valEnd, true};
}
// Static field expression span: locates text between "return " and "→" / "(error)" / end
inline ColumnSpan staticExprSpanFor(const LineMeta& /*lm*/, const QString& lineText) {
int ret = lineText.indexOf(QLatin1String("return "));
if (ret < 0) return {};
int exprStart = ret + 7;
// End: before arrow, before "(error)", or line end
int exprEnd = lineText.size();
int arrow = lineText.indexOf(QChar(0x2192), exprStart);
if (arrow > exprStart) exprEnd = arrow;
int err = lineText.indexOf(QLatin1String("(error)"), exprStart);
if (err > exprStart && err < exprEnd) exprEnd = err;
// Also stop at " }" for collapsed format
int brace = lineText.indexOf(QLatin1String(" }"), exprStart);
if (brace > exprStart && brace < exprEnd) exprEnd = brace;
while (exprEnd > exprStart && lineText[exprEnd - 1] == ' ') exprEnd--;
return {exprStart, exprEnd, true};
}
inline ColumnSpan commentSpanFor(const LineMeta& lm, int lineLength, int typeW = kColType, int nameW = kColName) {
if (lm.lineKind == LineKind::Header || lm.lineKind == LineKind::Footer) return {};
int ind = kFoldCol + lm.depth * 3;
bool isHex = isHexPreview(lm.nodeKind);
int valWidth = isHex ? 23 : kColValue;
int prefixW = typeW + nameW + 2 * kSepWidth;
int start;
if (lm.isContinuation) {
start = ind + prefixW + valWidth;
} else {
start = ind + prefixW + valWidth;
}
return {start, lineLength, start < lineLength};
}
// ── CommandRow spans ──
// Line format: "source▾ · 0x140000000"
inline ColumnSpan commandRowSrcSpan(const QString& lineText) {
// Source label ends at the ▾ dropdown arrow
int arrow = lineText.indexOf(QChar(0x25BE));
if (arrow < 0) return {};
int start = 0;
while (start < arrow && !lineText[start].isLetterOrNumber()
&& lineText[start] != '<' && lineText[start] != '\'') start++;
if (start >= arrow) return {};
return {start, arrow, true};
}
// ── CommandRow root-class spans ──
// Combined CommandRow format ends with: " struct ClassName {"
inline int commandRowRootStart(const QString& lineText) {
int best = -1;
int i;
// Match "struct " / "class " / "enum " as whole words before the class name
i = lineText.lastIndexOf(QStringLiteral("struct "));
if (i > best) best = i;
i = lineText.lastIndexOf(QStringLiteral("class "));
if (i > best) best = i;
i = lineText.lastIndexOf(QStringLiteral("enum "));
if (i > best) best = i;
return best;
}
inline ColumnSpan commandRowAddrSpan(const QString& lineText) {
// Address starts at "0x" after the source dropdown arrow
int arrow = lineText.indexOf(QChar(0x25BE));
if (arrow < 0) return {};
int start = lineText.indexOf(QStringLiteral("0x"), arrow);
if (start < 0) {
// Formula mode: address is between arrow and root keyword
start = arrow + 1;
while (start < lineText.size() && lineText[start].isSpace()) start++;
}
// End at root keyword (struct/class/enum) or end of line
int rootStart = commandRowRootStart(lineText);
int end = (rootStart > start) ? rootStart : lineText.size();
// Trim trailing whitespace
while (end > start && lineText[end - 1].isSpace()) end--;
if (end <= start) return {};
return {start, end, true};
}
inline ColumnSpan commandRowRootTypeSpan(const QString& lineText) {
int start = commandRowRootStart(lineText);
if (start < 0) return {};
int end = start;
while (end < lineText.size() && lineText[end] != QChar(' ')) end++;
if (end <= start) return {};
return {start, end, true};
}
inline ColumnSpan commandRowRootNameSpan(const QString& lineText) {
int base = commandRowRootStart(lineText);
if (base < 0) return {};
int space = lineText.indexOf(' ', base);
if (space < 0) return {};
int nameStart = space + 1;
while (nameStart < lineText.size() && lineText[nameStart].isSpace()) nameStart++;
if (nameStart >= lineText.size()) return {};
int nameEnd = lineText.indexOf(QStringLiteral(" {"), nameStart);
if (nameEnd < 0) nameEnd = lineText.size();
while (nameEnd > nameStart && lineText[nameEnd - 1].isSpace()) nameEnd--;
if (nameEnd <= nameStart) return {};
return {nameStart, nameEnd, true};
}
// ── CommandRow type-selector chevron span ──
// Detects "[▸]" at the start of the command row text
inline ColumnSpan commandRowChevronSpan(const QString& lineText) {
if (lineText.size() < 3) return {};
if (lineText[0] == '[' && lineText[1] == QChar(0x25B8) && lineText[2] == ']')
return {0, qMin(4, (int)lineText.size()), true}; // include trailing space for easier clicking
return {};
}
// ── Array element type/count spans (within type column of array headers) ──
// Line format: " int32_t[10] name {"
// arrayElemTypeSpan covers "int32_t", arrayElemCountSpan covers "10"
inline ColumnSpan arrayElemTypeSpanFor(const LineMeta& lm, const QString& lineText) {
if (lm.lineKind != LineKind::Header || !lm.isArrayHeader) return {};
int ind = kFoldCol + lm.depth * 3;
// Find '[' in the type portion
int bracket = lineText.indexOf('[', ind);
if (bracket <= ind) return {};
return {ind, bracket, true};
}
inline ColumnSpan arrayElemCountSpanFor(const LineMeta& lm, const QString& lineText) {
if (lm.lineKind != LineKind::Header || !lm.isArrayHeader) return {};
int ind = kFoldCol + lm.depth * 3;
int openBracket = lineText.indexOf('[', ind);
int closeBracket = lineText.indexOf(']', openBracket);
if (openBracket < 0 || closeBracket < 0 || closeBracket <= openBracket + 1) return {};
return {openBracket + 1, closeBracket, true};
}
// Click-area version: includes brackets [N] for hit testing
inline ColumnSpan arrayElemCountClickSpanFor(const LineMeta& lm, const QString& lineText) {
if (lm.lineKind != LineKind::Header || !lm.isArrayHeader) return {};
int ind = kFoldCol + lm.depth * 3;
int openBracket = lineText.indexOf('[', ind);
int closeBracket = lineText.indexOf(']', openBracket);
if (openBracket < 0 || closeBracket < 0 || closeBracket <= openBracket + 1) return {};
return {openBracket, closeBracket + 1, true};
}
// ── Pointer kind/target spans (within type column of pointer fields) ──
// Line format: " void* name -> 0x..."
// pointerTargetSpan covers the target name before '*'
inline ColumnSpan pointerKindSpanFor(const LineMeta& /*lm*/, const QString& /*lineText*/) {
return {}; // No separate kind span in "Type*" format
}
inline ColumnSpan pointerTargetSpanFor(const LineMeta& lm, const QString& lineText) {
if ((lm.lineKind != LineKind::Field && lm.lineKind != LineKind::Header) || lm.isContinuation) return {};
if (lm.nodeKind != NodeKind::Pointer32 && lm.nodeKind != NodeKind::Pointer64) return {};
int ind = kFoldCol + lm.depth * 3;
int star = lineText.indexOf('*', ind);
if (star <= ind) return {};
return {ind, star, true};
}
// ── Array navigation spans ──
// Line format: "uint32_t[16] name { <0/16>"
inline ColumnSpan arrayPrevSpanFor(const LineMeta& lm, const QString& lineText) {
if (!lm.isArrayHeader) return {};
int lt = lineText.lastIndexOf('<');
if (lt < 0) return {};
return {lt, lt + 1, true};
}
inline ColumnSpan arrayIndexSpanFor(const LineMeta& lm, const QString& lineText) {
if (!lm.isArrayHeader) return {};
int lt = lineText.lastIndexOf('<');
int slash = lineText.indexOf('/', lt);
if (lt < 0 || slash < 0) return {};
return {lt + 1, slash, true};
}
inline ColumnSpan arrayCountSpanFor(const LineMeta& lm, const QString& lineText) {
if (!lm.isArrayHeader) return {};
int slash = lineText.lastIndexOf('/');
int gt = lineText.indexOf('>', slash);
if (slash < 0 || gt < 0) return {};
return {slash + 1, gt, true};
}
inline ColumnSpan arrayNextSpanFor(const LineMeta& lm, const QString& lineText) {
if (!lm.isArrayHeader) return {};
int gt = lineText.lastIndexOf('>');
if (gt < 0) return {};
return {gt, gt + 1, true};
}
// ── ViewState ──
struct ViewState {
int scrollLine = 0;
int cursorLine = 0;
int cursorCol = 0;
int xOffset = 0; // horizontal scroll in pixels
};
// ── Format function forward declarations ──
namespace fmt {
using TypeNameFn = QString (*)(NodeKind);
void setTypeNameProvider(TypeNameFn fn);
QString typeName(NodeKind kind, int colType = kColType);
QString typeNameRaw(NodeKind kind); // Unpadded type name for width calculation
QString fmtInt8(int8_t v);
QString fmtInt16(int16_t v);
QString fmtInt32(int32_t v);
QString fmtInt64(int64_t v);
QString fmtUInt8(uint8_t v);
QString fmtUInt16(uint16_t v);
QString fmtUInt32(uint32_t v);
QString fmtUInt64(uint64_t v);
QString fmtFloat(float v);
QString fmtDouble(double v);
QString fmtBool(uint8_t v);
QString fmtPointer32(uint32_t v);
QString fmtPointer64(uint64_t v);
QString fmtNodeLine(const Node& node, const Provider& prov,
uint64_t addr, int depth, int subLine = 0,
const QString& comment = {}, int colType = kColType, int colName = kColName,
const QString& typeOverride = {}, bool compact = false);
QString fmtOffsetMargin(uint64_t absoluteOffset, bool isContinuation, int hexDigits = 8);
QString fmtStructHeader(const Node& node, int depth, bool collapsed, int colType = kColType, int colName = kColName, bool compact = false);
QString fmtStructFooter(const Node& node, int depth, int totalSize = -1);
QString fmtArrayHeader(const Node& node, int depth, int viewIdx, bool collapsed, int colType = kColType, int colName = kColName, const QString& elemStructName = {}, bool compact = false);
QString structTypeName(const Node& node); // Full type string for struct headers
QString arrayTypeName(NodeKind elemKind, int count, const QString& structName = {});
QString pointerTypeName(NodeKind kind, const QString& targetName);
QString fmtPointerHeader(const Node& node, int depth, bool collapsed,
const Provider& prov, uint64_t addr,
const QString& ptrTypeName, int colType = kColType, int colName = kColName,
bool compact = false);
QString validateBaseAddress(const QString& text);
QString indent(int depth);
QString readValue(const Node& node, const Provider& prov,
uint64_t addr, int subLine);
QString editableValue(const Node& node, const Provider& prov,
uint64_t addr, int subLine);
QByteArray parseValue(NodeKind kind, const QString& text, bool* ok);
QByteArray parseAsciiValue(const QString& text, int expectedSize, bool* ok);
QString validateValue(NodeKind kind, const QString& text);
QString fmtEnumMember(const QString& name, int64_t value, int depth, int nameW);
QString fmtBitfieldMember(const QString& name, uint8_t bitWidth,
uint64_t value, int depth, int nameW);
uint64_t extractBits(const Provider& prov, uint64_t addr,
NodeKind containerKind,
uint8_t bitOffset, uint8_t bitWidth);
} // namespace fmt
// ── Compose function forward declaration ──
ComposeResult compose(const NodeTree& tree, const Provider& prov, uint64_t viewRootId = 0,
bool compactColumns = false, bool treeLines = false,
bool braceWrap = false);
} // namespace rcx
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