noham/archived-Reclass
1
0
Fork 0
mirror of https://github.com/NohamR/Reclass.git synced 2026-05-10 19:59:21 +00:00
Code Issues Packages Projects Releases Wiki Activity

Array element offset display, fold arrow UX, type picker popup, and provider cleanup

Browse Source 
- Show relative hex offset on array element separators ([N] +0x...)
- Dim fold arrows and add hover highlight for better visibility
- Extend fold/chevron click areas for easier interaction
- Add type picker popup for array element type and pointer target editing
- Remove process_provider.h in favor of plugin-based provider system
- Expand compose/format to handle struct-of-array type names and widths

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
This commit is contained in:
IChooseYou
2026-02-11 09:13:17 -07:00
committed by sysadmin
parent 3db051f4ba
commit df07b61144
16 changed files with 373 additions and 184 deletions
Download Patch File Download Diff File Expand all files Collapse all files

13
CMakeLists.txt
View File

@@ -16,6 +16,8 @@ if(NOT QT_FOUND)
find_package(Qt5 REQUIRED COMPONENTS ${_QT_COMPONENTS}) find_package(Qt5 REQUIRED COMPONENTS ${_QT_COMPONENTS})
set(QT_VERSION_MAJOR 5) set(QT_VERSION_MAJOR 5)
endif() endif()
# The NAMES variant only detects the version; load the actual component targets
find_package(Qt${QT_VERSION_MAJOR} REQUIRED COMPONENTS ${_QT_COMPONENTS})
set(QT Qt${QT_VERSION_MAJOR}) set(QT Qt${QT_VERSION_MAJOR})
message(STATUS "Using ${QT}: ${${QT}_DIR}") message(STATUS "Using ${QT}: ${${QT}_DIR}")
@@ -44,7 +46,7 @@ add_executable(ReclassX
src/resources.qrc src/resources.qrc
src/core.h src/core.h
src/workspace_model.h src/workspace_model.h
src/providers/buffer_provider.h src/providers/null_provider.h src/providers/process_provider.h src/providers/provider.h src/providers/snapshot_provider.h src/providers/buffer_provider.h src/providers/null_provider.h src/providers/provider.h src/providers/snapshot_provider.h
src/providerregistry.cpp src/providerregistry.cpp
src/providerregistry.h src/providerregistry.h
src/pluginmanager.cpp src/pluginmanager.cpp
@@ -154,15 +156,6 @@ if(BUILD_TESTING)
target_link_libraries(test_command_row PRIVATE ${QT}::Core ${QT}::Test) target_link_libraries(test_command_row PRIVATE ${QT}::Core ${QT}::Test)
add_test(NAME test_command_row COMMAND test_command_row) add_test(NAME test_command_row COMMAND test_command_row)
add_executable(test_provider_getSymbol tests/test_provider_getSymbol.cpp)
target_include_directories(test_provider_getSymbol PRIVATE src)
target_link_libraries(test_provider_getSymbol PRIVATE ${QT}::Core ${QT}::Test)
if(WIN32)
target_compile_definitions(test_provider_getSymbol PRIVATE _WIN32)
target_link_libraries(test_provider_getSymbol PRIVATE psapi)
endif()
add_test(NAME test_provider_getSymbol COMMAND test_provider_getSymbol)
add_executable(test_controller tests/test_controller.cpp add_executable(test_controller tests/test_controller.cpp
src/editor.cpp src/compose.cpp src/format.cpp src/controller.cpp src/editor.cpp src/compose.cpp src/format.cpp src/controller.cpp
src/processpicker.cpp src/processpicker.ui src/providerregistry.cpp src/processpicker.cpp src/processpicker.ui src/providerregistry.cpp

100
src/compose.cpp
View File

@@ -172,16 +172,19 @@ void composeLeaf(ComposeState& state, const NodeTree& tree,
void composeNode(ComposeState& state, const NodeTree& tree, void composeNode(ComposeState& state, const NodeTree& tree,
const Provider& prov, int nodeIdx, int depth, const Provider& prov, int nodeIdx, int depth,
uint64_t base = 0, uint64_t rootId = 0, bool isArrayChild = false, uint64_t base = 0, uint64_t rootId = 0, bool isArrayChild = false,
uint64_t scopeId = 0, int arrayElementIdx = -1); uint64_t scopeId = 0, int arrayElementIdx = -1,
uint64_t arrayContainerAddr = 0);
void composeParent(ComposeState& state, const NodeTree& tree, void composeParent(ComposeState& state, const NodeTree& tree,
const Provider& prov, int nodeIdx, int depth, const Provider& prov, int nodeIdx, int depth,
uint64_t base = 0, uint64_t rootId = 0, bool isArrayChild = false, uint64_t base = 0, uint64_t rootId = 0, bool isArrayChild = false,
uint64_t scopeId = 0, int arrayElementIdx = -1); uint64_t scopeId = 0, int arrayElementIdx = -1,
uint64_t arrayContainerAddr = 0);
void composeParent(ComposeState& state, const NodeTree& tree, void composeParent(ComposeState& state, const NodeTree& tree,
const Provider& prov, int nodeIdx, int depth, const Provider& prov, int nodeIdx, int depth,
uint64_t base, uint64_t rootId, bool isArrayChild, uint64_t base, uint64_t rootId, bool isArrayChild,
uint64_t scopeId, int arrayElementIdx) { uint64_t scopeId, int arrayElementIdx,
uint64_t arrayContainerAddr) {
const Node& node = tree.nodes[nodeIdx]; const Node& node = tree.nodes[nodeIdx];
uint64_t absAddr = resolveAddr(state, tree, nodeIdx, base, rootId); uint64_t absAddr = resolveAddr(state, tree, nodeIdx, base, rootId);
@@ -214,7 +217,9 @@ void composeParent(ComposeState& state, const NodeTree& tree,
lm.foldLevel = computeFoldLevel(depth, false); lm.foldLevel = computeFoldLevel(depth, false);
lm.markerMask = 0; lm.markerMask = 0;
lm.arrayElementIdx = arrayElementIdx; lm.arrayElementIdx = arrayElementIdx;
state.emitLine(fmt::indent(depth) + QStringLiteral("[%1]").arg(arrayElementIdx), lm); uint64_t relOff = absAddr - arrayContainerAddr;
QString relOffHex = QString::number(relOff, 16).toUpper();
state.emitLine(fmt::indent(depth) + QStringLiteral("[%1] +0x%2").arg(arrayElementIdx).arg(relOffHex), lm);
} }
// Detect root header: first root-level struct — suppressed from display // Detect root header: first root-level struct — suppressed from display
@@ -252,7 +257,9 @@ void composeParent(ComposeState& state, const NodeTree& tree,
lm.elementKind = node.elementKind; lm.elementKind = node.elementKind;
lm.arrayViewIdx = node.viewIndex; lm.arrayViewIdx = node.viewIndex;
lm.arrayCount = node.arrayLen; lm.arrayCount = node.arrayLen;
headerText = fmt::fmtArrayHeader(node, depth, node.viewIndex, node.collapsed, typeW, nameW); QString elemStructName = (node.elementKind == NodeKind::Struct)
? resolvePointerTarget(tree, node.refId) : QString();
headerText = fmt::fmtArrayHeader(node, depth, node.viewIndex, node.collapsed, typeW, nameW, elemStructName);
} else { } else {
// All structs (root and nested) use the same header format // All structs (root and nested) use the same header format
headerText = fmt::fmtStructHeader(node, depth, node.collapsed, typeW, nameW); headerText = fmt::fmtStructHeader(node, depth, node.collapsed, typeW, nameW);
@@ -268,6 +275,61 @@ void composeParent(ComposeState& state, const NodeTree& tree,
int childDepth = depth + 1; int childDepth = depth + 1;
// Primitive arrays with no child nodes: synthesize element lines dynamically
if (node.kind == NodeKind::Array && children.isEmpty()
&& node.elementKind != NodeKind::Struct && node.elementKind != NodeKind::Array) {
int elemSize = sizeForKind(node.elementKind);
int eTW = state.effectiveTypeW(node.id);
int eNW = state.effectiveNameW(node.id);
for (int i = 0; i < node.arrayLen; i++) {
uint64_t elemAddr = absAddr + i * elemSize;
// Type override: "float[0]", "uint32_t[1]", etc.
QString elemTypeStr = fmt::typeNameRaw(node.elementKind)
+ QStringLiteral("[%1]").arg(i);
Node elem;
elem.kind = node.elementKind;
elem.name = QString(); // no name for array elements
elem.offset = node.offset + i * elemSize;
elem.parentId = node.id;
elem.id = 0;
LineMeta lm;
lm.nodeIdx = nodeIdx;
lm.nodeId = node.id;
lm.depth = childDepth;
lm.lineKind = LineKind::Field;
lm.nodeKind = node.elementKind;
lm.isArrayElement = true;
lm.offsetText = fmt::fmtOffsetMargin(tree.baseAddress + elemAddr, false, state.offsetHexDigits);
lm.markerMask = computeMarkers(elem, prov, elemAddr, false, childDepth);
lm.foldLevel = computeFoldLevel(childDepth, false);
lm.effectiveTypeW = eTW;
lm.effectiveNameW = eNW;
state.emitLine(fmt::fmtNodeLine(elem, prov, elemAddr, childDepth, 0,
{}, eTW, eNW, elemTypeStr), lm);
}
}
// Struct arrays with refId but no child nodes: synthesize by expanding the
// referenced struct for each element (like repeated pointer deref)
if (node.kind == NodeKind::Array && children.isEmpty()
&& node.elementKind == NodeKind::Struct && node.refId != 0) {
int refIdx = tree.indexOfId(node.refId);
if (refIdx >= 0) {
int elemSize = tree.structSpan(node.refId, &state.childMap);
if (elemSize <= 0) elemSize = 1;
for (int i = 0; i < node.arrayLen; i++) {
uint64_t elemBase = absAddr + (uint64_t)i * elemSize;
// Use base offset that maps refStruct's children to the right provider address
composeParent(state, tree, prov, refIdx, childDepth, elemBase, node.refId,
/*isArrayChild=*/true, node.id, i, absAddr);
}
}
}
// For arrays, render children as condensed (no header/footer for struct elements) // For arrays, render children as condensed (no header/footer for struct elements)
bool childrenAreArrayElements = (node.kind == NodeKind::Array); bool childrenAreArrayElements = (node.kind == NodeKind::Array);
int elementIdx = 0; int elementIdx = 0;
@@ -276,7 +338,8 @@ void composeParent(ComposeState& state, const NodeTree& tree,
// For array elements, also pass the element index for [N] separator // For array elements, also pass the element index for [N] separator
composeNode(state, tree, prov, childIdx, childDepth, base, rootId, composeNode(state, tree, prov, childIdx, childDepth, base, rootId,
childrenAreArrayElements, node.id, childrenAreArrayElements, node.id,
childrenAreArrayElements ? elementIdx++ : -1); childrenAreArrayElements ? elementIdx++ : -1,
childrenAreArrayElements ? absAddr : 0);
} }
} }
@@ -302,7 +365,8 @@ void composeParent(ComposeState& state, const NodeTree& tree,
void composeNode(ComposeState& state, const NodeTree& tree, void composeNode(ComposeState& state, const NodeTree& tree,
const Provider& prov, int nodeIdx, int depth, const Provider& prov, int nodeIdx, int depth,
uint64_t base, uint64_t rootId, bool isArrayChild, uint64_t base, uint64_t rootId, bool isArrayChild,
uint64_t scopeId, int arrayElementIdx) { uint64_t scopeId, int arrayElementIdx,
uint64_t arrayContainerAddr) {
const Node& node = tree.nodes[nodeIdx]; const Node& node = tree.nodes[nodeIdx];
uint64_t absAddr = resolveAddr(state, tree, nodeIdx, base, rootId); uint64_t absAddr = resolveAddr(state, tree, nodeIdx, base, rootId);
@@ -392,7 +456,7 @@ void composeNode(ComposeState& state, const NodeTree& tree,
} }
if (node.kind == NodeKind::Struct || node.kind == NodeKind::Array) { if (node.kind == NodeKind::Struct || node.kind == NodeKind::Array) {
composeParent(state, tree, prov, nodeIdx, depth, base, rootId, isArrayChild, scopeId, arrayElementIdx); composeParent(state, tree, prov, nodeIdx, depth, base, rootId, isArrayChild, scopeId, arrayElementIdx, arrayContainerAddr);
} else { } else {
composeLeaf(state, tree, prov, nodeIdx, depth, absAddr, scopeId); composeLeaf(state, tree, prov, nodeIdx, depth, absAddr, scopeId);
} }
@@ -427,8 +491,11 @@ ComposeResult compose(const NodeTree& tree, const Provider& prov, uint64_t viewR
// Helper: compute the display type string for a node (for width calculation) // Helper: compute the display type string for a node (for width calculation)
auto nodeTypeName = [&](const Node& n) -> QString { auto nodeTypeName = [&](const Node& n) -> QString {
if (n.kind == NodeKind::Array) if (n.kind == NodeKind::Array) {
return fmt::arrayTypeName(n.elementKind, n.arrayLen); QString sn = (n.elementKind == NodeKind::Struct)
? resolvePointerTarget(tree, n.refId) : QString();
return fmt::arrayTypeName(n.elementKind, n.arrayLen, sn);
}
if (n.kind == NodeKind::Struct) if (n.kind == NodeKind::Struct)
return fmt::structTypeName(n); return fmt::structTypeName(n);
if (n.kind == NodeKind::Pointer32 || n.kind == NodeKind::Pointer64) if (n.kind == NodeKind::Pointer32 || n.kind == NodeKind::Pointer64)
@@ -473,6 +540,19 @@ ComposeResult compose(const NodeTree& tree, const Provider& prov, uint64_t viewR
} }
} }
// Primitive arrays with no tree children: account for synthesized element types
// e.g. "uint32_t[0]", "uint32_t[99]" — longest index determines width
if (container.kind == NodeKind::Array
&& state.childMap.value(container.id).isEmpty()
&& container.elementKind != NodeKind::Struct
&& container.elementKind != NodeKind::Array
&& container.arrayLen > 0) {
int maxIdx = container.arrayLen - 1;
QString longestElemType = fmt::typeNameRaw(container.elementKind)
+ QStringLiteral("[%1]").arg(maxIdx);
scopeMaxType = qMax(scopeMaxType, (int)longestElemType.size());
}
state.scopeTypeW[container.id] = qBound(kMinTypeW, scopeMaxType, kMaxTypeW); state.scopeTypeW[container.id] = qBound(kMinTypeW, scopeMaxType, kMaxTypeW);
state.scopeNameW[container.id] = qBound(kMinNameW, scopeMaxName, kMaxNameW); state.scopeNameW[container.id] = qBound(kMinNameW, scopeMaxName, kMaxNameW);
} }

9
src/controller.h
View File

@@ -61,11 +61,10 @@ private:
// ── Saved source entry ── // ── Saved source entry ──
struct SavedSourceEntry { struct SavedSourceEntry {
QString kind; // "File" or "Process" QString kind; // "File" or provider identifier (e.g. "processmemory")
QString displayName; // filename or process name QString displayName; // filename or process name
QString filePath; // for File sources QString filePath; // for File sources
uint32_t pid = 0; // for Process sources QString providerTarget; // for plugin providers (e.g. "pid:name")
QString processName; // for Process sources
uint64_t baseAddress = 0; uint64_t baseAddress = 0;
}; };
@@ -112,7 +111,7 @@ public:
// MCP bridge accessors // MCP bridge accessors
void setSuppressRefresh(bool v) { m_suppressRefresh = v; } void setSuppressRefresh(bool v) { m_suppressRefresh = v; }
void attachToProcess(uint32_t pid, const QString& processName); void attachViaPlugin(const QString& providerIdentifier, const QString& target);
const QVector<SavedSourceEntry>& savedSources() const { return m_savedSources; } const QVector<SavedSourceEntry>& savedSources() const { return m_savedSources; }
int activeSourceIndex() const { return m_activeSourceIdx; } int activeSourceIndex() const { return m_activeSourceIdx; }
void switchSource(int idx) { switchToSavedSource(idx); } void switchSource(int idx) { switchToSavedSource(idx); }
@@ -151,6 +150,8 @@ private:
void switchToSavedSource(int idx); void switchToSavedSource(int idx);
void pushSavedSourcesToEditors(); void pushSavedSourcesToEditors();
void showTypeSelectorPopup(RcxEditor* editor); void showTypeSelectorPopup(RcxEditor* editor);
void showTypePickerPopup(RcxEditor* editor, EditTarget target, int nodeIdx, QPoint globalPos);
void applyTypePickerResult(EditTarget target, int nodeIdx, uint64_t selectedId, const QString& displayName);
// ── Auto-refresh methods ── // ── Auto-refresh methods ──
void setupAutoRefresh(); void setupAutoRefresh();

2
src/core.h
View File

@@ -650,7 +650,7 @@ inline ColumnSpan commandRowRootNameSpan(const QString& lineText) {
inline ColumnSpan commandRowChevronSpan(const QString& lineText) { inline ColumnSpan commandRowChevronSpan(const QString& lineText) {
if (lineText.size() < 3) return {}; if (lineText.size() < 3) return {};
if (lineText[0] == '[' && lineText[1] == QChar(0x25B8) && lineText[2] == ']') if (lineText[0] == '[' && lineText[1] == QChar(0x25B8) && lineText[2] == ']')
return {0, 3, true}; return {0, qMin(4, (int)lineText.size()), true}; // include trailing space for easier clicking
return {}; return {};
} }

58
src/editor.cpp
View File

@@ -466,6 +466,10 @@ void RcxEditor::fillIndicatorCols(int indic, int line, int colA, int colB) {
void RcxEditor::applyHexDimming(const QVector<LineMeta>& meta) { void RcxEditor::applyHexDimming(const QVector<LineMeta>& meta) {
m_sci->SendScintilla(QsciScintillaBase::SCI_SETINDICATORCURRENT, IND_HEX_DIM); m_sci->SendScintilla(QsciScintillaBase::SCI_SETINDICATORCURRENT, IND_HEX_DIM);
for (int i = 0; i < meta.size(); i++) { for (int i = 0; i < meta.size(); i++) {
// Dim fold arrows (▸/▾) on fold head lines
if (meta[i].foldHead && meta[i].lineKind != LineKind::CommandRow)
fillIndicatorCols(IND_HEX_DIM, i, 0, kFoldCol);
if (isHexPreview(meta[i].nodeKind)) { if (isHexPreview(meta[i].nodeKind)) {
long pos, len; lineRangeNoEol(m_sci, i, pos, len); long pos, len; lineRangeNoEol(m_sci, i, pos, len);
if (len > 0) if (len > 0)
@@ -979,7 +983,7 @@ RcxEditor::HitInfo RcxEditor::hitTest(const QPoint& vp) const {
if (h.line >= 0 && h.line < m_meta.size()) { if (h.line >= 0 && h.line < m_meta.size()) {
h.nodeId = m_meta[h.line].nodeId; h.nodeId = m_meta[h.line].nodeId;
h.inFoldCol = (h.col >= 0 && h.col < kFoldCol && m_meta[h.line].foldHead); h.inFoldCol = (h.col >= 0 && h.col < kFoldCol + 1 && m_meta[h.line].foldHead);
} }
return h; return h;
} }
@@ -1044,11 +1048,12 @@ static bool hitTestTarget(QsciScintilla* sci,
} }
// Array headers: check element type and count sub-spans first // Array headers: check element type and count sub-spans first
// Count click area includes brackets [N] so clicking [ or ] edits the count
if (lm.isArrayHeader) { if (lm.isArrayHeader) {
ColumnSpan elemCountClick = arrayElemCountClickSpanFor(lm, lineText);
ColumnSpan elemType = arrayElemTypeSpanFor(lm, lineText); ColumnSpan elemType = arrayElemTypeSpanFor(lm, lineText);
ColumnSpan elemCount = arrayElemCountSpanFor(lm, lineText); if (inSpan(elemCountClick)) { outTarget = EditTarget::ArrayElementCount; outLine = line; return true; }
if (inSpan(elemCount)) { outTarget = EditTarget::ArrayElementCount; outLine = line; return true; } if (inSpan(elemType)) { outTarget = EditTarget::ArrayElementType; outLine = line; return true; }
if (inSpan(elemType)) { outTarget = EditTarget::ArrayElementType; outLine = line; return true; }
} }
// Fallback spans for header lines // Fallback spans for header lines
@@ -1065,6 +1070,26 @@ static bool hitTestTarget(QsciScintilla* sci,
else if (inSpan(vs)) outTarget = EditTarget::Value; else if (inSpan(vs)) outTarget = EditTarget::Value;
else return false; else return false;
// Array headers: redirect generic Type hit to ArrayElementType (uses popup, not inline edit)
if (lm.isArrayHeader && outTarget == EditTarget::Type) {
outTarget = EditTarget::ArrayElementType;
outLine = line;
return true;
}
// Array element lines: type/name click opens element type picker on the parent array header
if (lm.isArrayElement && (outTarget == EditTarget::Type || outTarget == EditTarget::Name)) {
outTarget = EditTarget::ArrayElementType;
// Find the array header line (previous line with isArrayHeader and same nodeIdx)
for (int l = line - 1; l >= 0; l--) {
if (l >= meta.size()) continue;
const LineMeta& hdr = meta[l];
if (hdr.isArrayHeader && hdr.nodeIdx == lm.nodeIdx) {
outLine = l;
return true;
}
}
return false;
}
// Padding nodes: hex bytes are display-only, not editable // Padding nodes: hex bytes are display-only, not editable
if (outTarget == EditTarget::Value && lm.nodeKind == NodeKind::Padding) if (outTarget == EditTarget::Value && lm.nodeKind == NodeKind::Padding)
return false; return false;
@@ -1446,6 +1471,24 @@ bool RcxEditor::handleEditKey(QKeyEvent* ke) {
bool RcxEditor::beginInlineEdit(EditTarget target, int line) { bool RcxEditor::beginInlineEdit(EditTarget target, int line) {
if (target == EditTarget::TypeSelector) return false; // handled by popup, not inline edit if (target == EditTarget::TypeSelector) return false; // handled by popup, not inline edit
// Array element type and pointer target: handled by TypeSelectorPopup, not inline edit
if (target == EditTarget::ArrayElementType || target == EditTarget::PointerTarget) {
if (line < 0) {
int col;
m_sci->getCursorPosition(&line, &col);
}
auto* lm = metaForLine(line);
if (!lm) return false;
long lineStart = m_sci->SendScintilla(QsciScintillaBase::SCI_POSITIONFROMLINE, (unsigned long)line);
int lineH = (int)m_sci->SendScintilla(QsciScintillaBase::SCI_TEXTHEIGHT, (unsigned long)line);
int x = (int)m_sci->SendScintilla(QsciScintillaBase::SCI_POINTXFROMPOSITION, (unsigned long)0, lineStart);
int y = (int)m_sci->SendScintilla(QsciScintillaBase::SCI_POINTYFROMPOSITION, (unsigned long)0, lineStart);
QPoint pos = m_sci->viewport()->mapToGlobal(QPoint(x, y + lineH));
emit typePickerRequested(target, lm->nodeIdx, pos);
return true;
}
if (m_editState.active) return false; if (m_editState.active) return false;
m_hoveredNodeId = 0; m_hoveredNodeId = 0;
m_hoveredLine = -1; m_hoveredLine = -1;
@@ -1759,7 +1802,6 @@ void RcxEditor::showSourcePicker() {
menuFont.setPointSize(menuFont.pointSize() + zoom); menuFont.setPointSize(menuFont.pointSize() + zoom);
menu.setFont(menuFont); menu.setFont(menuFont);
menu.addAction("file"); menu.addAction("file");
menu.addAction("process");
// Add all registered providers from global registry // Add all registered providers from global registry
const auto& providers = ProviderRegistry::instance().providers(); const auto& providers = ProviderRegistry::instance().providers();
@@ -2015,6 +2057,12 @@ void RcxEditor::applyHoverCursor() {
} }
} }
// Apply hover span on fold arrows (▸/▾) — same visual feedback as editable tokens
if (h.inFoldCol && h.line >= 0 && h.line < m_meta.size()) {
fillIndicatorCols(IND_HOVER_SPAN, h.line, 0, kFoldCol);
m_hoverSpanLines.append(h.line);
}
// Determine cursor shape based on interaction type // Determine cursor shape based on interaction type
Qt::CursorShape desired = Qt::ArrowCursor; Qt::CursorShape desired = Qt::ArrowCursor;

1
src/editor.h
View File

@@ -65,6 +65,7 @@ signals:
EditTarget target, const QString& text); EditTarget target, const QString& text);
void inlineEditCancelled(); void inlineEditCancelled();
void typeSelectorRequested(); void typeSelectorRequested();
void typePickerRequested(EditTarget target, int nodeIdx, QPoint globalPos);
protected: protected:
bool eventFilter(QObject* obj, QEvent* event) override; bool eventFilter(QObject* obj, QEvent* event) override;

20
src/examples/demo.rcx
View File

@@ -317,27 +317,27 @@
"strLen": 64 "strLen": 64
}, },
{ {
"arrayLen": 1, "arrayLen": 4,
"collapsed": false, "collapsed": false,
"elementKind": "UInt8", "elementKind": "Float",
"id": "27", "id": "27",
"kind": "Hex64", "kind": "Array",
"name": "field_70", "name": "scores",
"offset": 112, "offset": 112,
"parentId": "1", "parentId": "1",
"refId": "0", "refId": "0",
"strLen": 64 "strLen": 64
}, },
{ {
"arrayLen": 1, "arrayLen": 2,
"collapsed": false, "collapsed": false,
"elementKind": "UInt8", "elementKind": "Struct",
"id": "28", "id": "28",
"kind": "Hex64", "kind": "Array",
"name": "field_78", "name": "materials",
"offset": 120, "offset": 128,
"parentId": "1", "parentId": "1",
"refId": "0", "refId": "20",
"strLen": 64 "strLen": 64
} }
] ]

20
src/format.cpp
View File

@@ -41,13 +41,15 @@ QString typeName(NodeKind kind, int colType) {
return fit(m ? QString::fromLatin1(m->typeName) : QStringLiteral("???"), colType); return fit(m ? QString::fromLatin1(m->typeName) : QStringLiteral("???"), colType);
} }
// Array type string: "uint32_t[16]" or "char[64]" // Array type string: "uint32_t[16]" or "Material[2]"
QString arrayTypeName(NodeKind elemKind, int count) { QString arrayTypeName(NodeKind elemKind, int count, const QString& structName) {
auto* m = kindMeta(elemKind); QString elem;
QString elem = m ? QString::fromLatin1(m->typeName) : QStringLiteral("???"); if (elemKind == NodeKind::Struct && !structName.isEmpty())
// char[] for UInt8, wchar_t[] for UInt16 elem = structName;
if (elemKind == NodeKind::UInt8) elem = QStringLiteral("char"); else {
else if (elemKind == NodeKind::UInt16) elem = QStringLiteral("wchar_t"); auto* m = kindMeta(elemKind);
elem = m ? QString::fromLatin1(m->typeName) : QStringLiteral("???");
}
return elem + QStringLiteral("[") + QString::number(count) + QStringLiteral("]"); return elem + QStringLiteral("[") + QString::number(count) + QStringLiteral("]");
} }
@@ -143,9 +145,9 @@ QString fmtStructFooter(const Node& /*node*/, int depth, int /*totalSize*/) {
// ── Array header ── // ── Array header ──
// Columnar format: <type[count]> <name> { (or no brace when collapsed) // Columnar format: <type[count]> <name> { (or no brace when collapsed)
QString fmtArrayHeader(const Node& node, int depth, int /*viewIdx*/, bool collapsed, int colType, int colName) { QString fmtArrayHeader(const Node& node, int depth, int /*viewIdx*/, bool collapsed, int colType, int colName, const QString& elemStructName) {
QString ind = indent(depth); QString ind = indent(depth);
QString type = fit(arrayTypeName(node.elementKind, node.arrayLen), colType); QString type = fit(arrayTypeName(node.elementKind, node.arrayLen, elemStructName), colType);
QString suffix = collapsed ? QString() : QStringLiteral("{"); QString suffix = collapsed ? QString() : QStringLiteral("{");
return ind + type + SEP + node.name + SEP + suffix; return ind + type + SEP + node.name + SEP + suffix;
} }

8
src/main.cpp
View File

@@ -597,8 +597,12 @@ static void buildBallDemo(NodeTree& tree) {
// Pointer to Material in Ball struct // Pointer to Material in Ball struct
{ Node n; n.kind = NodeKind::Pointer64; n.name = "material"; n.parentId = ballId; n.offset = 104; n.refId = matId; n.collapsed = true; tree.addNode(n); } { Node n; n.kind = NodeKind::Pointer64; n.name = "material"; n.parentId = ballId; n.offset = 104; n.refId = matId; n.collapsed = true; tree.addNode(n); }
{ Node n; n.kind = NodeKind::Hex64; n.name = "field_70"; n.parentId = ballId; n.offset = 112; tree.addNode(n); }
{ Node n; n.kind = NodeKind::Hex64; n.name = "field_78"; n.parentId = ballId; n.offset = 120; tree.addNode(n); } // float[4] scores at offset 112
{ Node n; n.kind = NodeKind::Array; n.name = "scores"; n.parentId = ballId; n.offset = 112; n.elementKind = NodeKind::Float; n.arrayLen = 4; tree.addNode(n); }
// Material[2] materials at offset 128 (112 + 16 for float[4])
{ Node n; n.kind = NodeKind::Array; n.name = "materials"; n.parentId = ballId; n.offset = 128; n.elementKind = NodeKind::Struct; n.arrayLen = 2; n.refId = matId; tree.addNode(n); }
} }
void MainWindow::newFile() { void MainWindow::newFile() {

3
src/mcp/mcp_bridge.cpp
View File

@@ -796,7 +796,8 @@ QJsonObject McpBridge::toolSourceSwitch(const QJsonObject& args) {
uint32_t pid = (uint32_t)args.value("pid").toInteger(); uint32_t pid = (uint32_t)args.value("pid").toInteger();
QString name = args.value("processName").toString(); QString name = args.value("processName").toString();
if (name.isEmpty()) name = QString("PID %1").arg(pid); if (name.isEmpty()) name = QString("PID %1").arg(pid);
ctrl->attachToProcess(pid, name); QString target = QString("%1:%2").arg(pid).arg(name);
ctrl->attachViaPlugin(QStringLiteral("processmemory"), target);
return makeTextResult("Attached to process " + name + " (PID " + QString::number(pid) + ")"); return makeTextResult("Attached to process " + name + " (PID " + QString::number(pid) + ")");
} }

109
src/providers/process_provider.h
View File

@@ -1,109 +0,0 @@
#pragma once
#include "provider.h"
#ifdef _WIN32
#include <windows.h>
#include <psapi.h>
namespace rcx {
class ProcessProvider : public Provider {
HANDLE m_handle = nullptr;
uint64_t m_base = 0;
int m_size = 0;
QString m_name;
struct ModuleInfo {
QString name;
uint64_t base;
uint64_t size;
};
QVector<ModuleInfo> m_modules;
public:
ProcessProvider(HANDLE proc, uint64_t base, int regionSize, const QString& name)
: m_handle(proc), m_base(base), m_size(regionSize), m_name(name)
{
cacheModules();
}
~ProcessProvider() override {
if (m_handle) CloseHandle(m_handle);
}
ProcessProvider(const ProcessProvider&) = delete;
ProcessProvider& operator=(const ProcessProvider&) = delete;
int size() const override { return m_size; }
bool isReadable(uint64_t, int len) const override { return len >= 0; }
bool read(uint64_t addr, void* buf, int len) const override {
if (!m_handle || len <= 0) return false;
SIZE_T got = 0;
ReadProcessMemory(m_handle,
(LPCVOID)(m_base + addr), buf, len, &got);
if ((int)got < len)
memset((char*)buf + got, 0, len - got);
return got > 0;
}
bool isWritable() const override { return true; }
bool write(uint64_t addr, const void* buf, int len) override {
SIZE_T got = 0;
BOOL ok = WriteProcessMemory(m_handle,
(LPVOID)(m_base + addr), buf, len, &got);
return ok && (int)got == len;
}
QString name() const override { return m_name; }
QString kind() const override { return QStringLiteral("Process"); }
bool isLive() const override { return true; }
// getSymbol takes an absolute virtual address and resolves it to
// "module.dll+0xOFFSET" using the cached module list.
QString getSymbol(uint64_t absAddr) const override {
for (const auto& mod : m_modules) {
if (absAddr >= mod.base && absAddr < mod.base + mod.size) {
uint64_t offset = absAddr - mod.base;
return QStringLiteral("%1+0x%2")
.arg(mod.name)
.arg(offset, 0, 16, QChar('0'));
}
}
return {};
}
HANDLE handle() const { return m_handle; }
uint64_t baseAddress() const { return m_base; }
uint64_t base() const override { return m_base; }
void setBase(uint64_t b) override { m_base = b; }
void refreshModules() { m_modules.clear(); cacheModules(); }
private:
void cacheModules() {
HMODULE mods[1024];
DWORD needed = 0;
if (!EnumProcessModulesEx(m_handle, mods, sizeof(mods),
&needed, LIST_MODULES_ALL))
return;
int count = qMin((int)(needed / sizeof(HMODULE)), 1024);
m_modules.reserve(count);
for (int i = 0; i < count; ++i) {
MODULEINFO mi{};
WCHAR modName[MAX_PATH];
if (GetModuleInformation(m_handle, mods[i], &mi, sizeof(mi))
&& GetModuleBaseNameW(m_handle, mods[i], modName, MAX_PATH))
{
m_modules.append({
QString::fromWCharArray(modName),
(uint64_t)mi.lpBaseOfDll,
(uint64_t)mi.SizeOfImage
});
}
}
}
};
} // namespace rcx
#endif // _WIN32

2
src/providers/provider.h
View File

@@ -40,7 +40,7 @@ public:
// Resolve an absolute address to a symbol name. // Resolve an absolute address to a symbol name.
// Returns empty string if no symbol is known. // Returns empty string if no symbol is known.
// ProcessProvider: "ntdll.dll+0x1A30" // Example: "ntdll.dll+0x1A30"
// BufferProvider: "" (no symbols in flat files) // BufferProvider: "" (no symbols in flat files)
virtual QString getSymbol(uint64_t addr) const { virtual QString getSymbol(uint64_t addr) const {
Q_UNUSED(addr); Q_UNUSED(addr);

27
src/typeselectorpopup.cpp
View File

@@ -58,10 +58,14 @@ public:
} }
x += 18; x += 18;
// Icon 16x16 // Icon 16x16 — only for struct/class/enum entries (non-empty classKeyword)
static QIcon structIcon(QStringLiteral(":/vsicons/symbol-structure.svg")); bool hasIcon = (m_filtered && row >= 0 && row < m_filtered->size()
structIcon.paint(painter, x, y + (h - 16) / 2, 16, 16); && !(*m_filtered)[row].classKeyword.isEmpty());
x += 20; if (hasIcon) {
static QIcon structIcon(QStringLiteral(":/vsicons/symbol-structure.svg"));
structIcon.paint(painter, x, y + (h - 16) / 2, 16, 16);
}
x += 20; // reserve space for alignment
// Text // Text
painter->setPen(option.state & QStyle::State_Selected painter->setPen(option.state & QStyle::State_Selected
@@ -122,7 +126,7 @@ TypeSelectorPopup::TypeSelectorPopup(QWidget* parent)
{ {
auto* row = new QHBoxLayout; auto* row = new QHBoxLayout;
row->setContentsMargins(0, 0, 0, 0); row->setContentsMargins(0, 0, 0, 0);
m_titleLabel = new QLabel(QStringLiteral("View as type")); m_titleLabel = new QLabel(QStringLiteral("Change root"));
m_titleLabel->setPalette(pal); m_titleLabel->setPalette(pal);
QFont bold = m_titleLabel->font(); QFont bold = m_titleLabel->font();
bold.setBold(true); bold.setBold(true);
@@ -236,7 +240,7 @@ void TypeSelectorPopup::setTypes(const QVector<TypeEntry>& types, uint64_t curre
void TypeSelectorPopup::popup(const QPoint& globalPos) { void TypeSelectorPopup::popup(const QPoint& globalPos) {
// Size: width based on longest entry, height based on count // Size: width based on longest entry, height based on count
QFontMetrics fm(m_font); QFontMetrics fm(m_font);
int maxTextW = fm.horizontalAdvance(QStringLiteral("View as type Esc")); int maxTextW = fm.horizontalAdvance(QStringLiteral("Choose element type Esc"));
for (const auto& t : m_allTypes) { for (const auto& t : m_allTypes) {
QString text = t.classKeyword + QStringLiteral(" ") + t.displayName; QString text = t.classKeyword + QStringLiteral(" ") + t.displayName;
int w = 18 + 20 + fm.horizontalAdvance(text) + 16; // gutter + icon + text + pad int w = 18 + 20 + fm.horizontalAdvance(text) + 16; // gutter + icon + text + pad
@@ -283,7 +287,10 @@ void TypeSelectorPopup::applyFilter(const QString& text) {
|| t.displayName.contains(text, Qt::CaseInsensitive) || t.displayName.contains(text, Qt::CaseInsensitive)
|| t.classKeyword.contains(text, Qt::CaseInsensitive)) { || t.classKeyword.contains(text, Qt::CaseInsensitive)) {
m_filteredTypes.append(t); m_filteredTypes.append(t);
displayStrings << (t.classKeyword + QStringLiteral(" ") + t.displayName); if (t.classKeyword.isEmpty())
displayStrings << t.displayName;
else
displayStrings << (t.classKeyword + QStringLiteral(" ") + t.displayName);
} }
} }
@@ -305,9 +312,13 @@ void TypeSelectorPopup::acceptCurrent() {
acceptIndex(idx.row()); acceptIndex(idx.row());
} }
void TypeSelectorPopup::setTitle(const QString& title) {
m_titleLabel->setText(title);
}
void TypeSelectorPopup::acceptIndex(int row) { void TypeSelectorPopup::acceptIndex(int row) {
if (row < 0 || row >= m_filteredTypes.size()) return; if (row < 0 || row >= m_filteredTypes.size()) return;
emit typeSelected(m_filteredTypes[row].id); emit typeSelected(m_filteredTypes[row].id, m_filteredTypes[row].displayName);
hide(); hide();
} }

3
src/typeselectorpopup.h
View File

@@ -25,11 +25,12 @@ public:
explicit TypeSelectorPopup(QWidget* parent = nullptr); explicit TypeSelectorPopup(QWidget* parent = nullptr);
void setFont(const QFont& font); void setFont(const QFont& font);
void setTitle(const QString& title);
void setTypes(const QVector<TypeEntry>& types, uint64_t currentId); void setTypes(const QVector<TypeEntry>& types, uint64_t currentId);
void popup(const QPoint& globalPos); void popup(const QPoint& globalPos);
signals: signals:
void typeSelected(uint64_t structId); void typeSelected(uint64_t id, const QString& displayName);
void createNewTypeRequested(); void createNewTypeRequested();
void dismissed(); void dismissed();

177
tests/test_compose.cpp
View File

@@ -732,7 +732,7 @@ private slots:
} }
void testArrayHeaderCharTypes() { void testArrayHeaderCharTypes() {
// UInt8 array → "char[N]", UInt16 → "wchar_t[N]" // UInt8 array → "uint8_t[N]", UInt16 → "uint16_t[N]"
NodeTree tree; NodeTree tree;
tree.baseAddress = 0; tree.baseAddress = 0;
@@ -769,11 +769,11 @@ private slots:
for (int i = 0; i < result.meta.size(); i++) { for (int i = 0; i < result.meta.size(); i++) {
if (!result.meta[i].isArrayHeader) continue; if (!result.meta[i].isArrayHeader) continue;
QString text = lines[i]; QString text = lines[i];
if (text.contains("char[64]")) foundChar = true; if (text.contains("uint8_t[64]")) foundChar = true;
if (text.contains("wchar_t[32]")) foundWchar = true; if (text.contains("uint16_t[32]")) foundWchar = true;
} }
QVERIFY2(foundChar, "Should have 'char[64]' header"); QVERIFY2(foundChar, "Should have 'uint8_t[64]' header");
QVERIFY2(foundWchar, "Should have 'wchar_t[32]' header"); QVERIFY2(foundWchar, "Should have 'uint16_t[32]' header");
} }
void testArraySpansClickable() { void testArraySpansClickable() {
@@ -995,13 +995,13 @@ private slots:
ComposeResult r2 = compose(tree, prov); ComposeResult r2 = compose(tree, prov);
QStringList lines2 = r2.text.split('\n'); QStringList lines2 = r2.text.split('\n');
bool found42 = false; bool found42 = false;
bool still10 = false; bool still10Header = false;
for (const QString& l : lines2) { for (int i = 0; i < r2.meta.size(); i++) {
if (l.contains("[42]")) found42 = true; if (r2.meta[i].isArrayHeader && lines2[i].contains("uint8_t[42]")) found42 = true;
if (l.contains("[10]")) still10 = true; if (r2.meta[i].isArrayHeader && lines2[i].contains("uint8_t[10]")) still10Header = true;
} }
QVERIFY2(found42, "Recomposed text should show [42]"); QVERIFY2(found42, "Recomposed header should show uint8_t[42]");
QVERIFY2(!still10, "Recomposed text should NOT still show [10]"); QVERIFY2(!still10Header, "Recomposed header should NOT still show uint8_t[10]");
// Spans must still work after recompose // Spans must still work after recompose
int headerLine = -1; int headerLine = -1;
@@ -1015,6 +1015,161 @@ private slots:
QCOMPARE(countText, QString("42")); QCOMPARE(countText, QString("42"));
} }
void testPrimitiveArrayElements() {
// Expanded primitive array should synthesize element lines dynamically
NodeTree tree;
tree.baseAddress = 0x1000;
Node root;
root.kind = NodeKind::Struct;
root.name = "Root";
root.parentId = 0;
int ri = tree.addNode(root);
uint64_t rootId = tree.nodes[ri].id;
Node arr;
arr.kind = NodeKind::Array;
arr.name = "values";
arr.parentId = rootId;
arr.offset = 0;
arr.elementKind = NodeKind::UInt32;
arr.arrayLen = 4;
tree.addNode(arr);
// Buffer with known values: 0x11, 0x22, 0x33, 0x44
QByteArray data(64, '\0');
uint32_t v0 = 0x11, v1 = 0x22, v2 = 0x33, v3 = 0x44;
memcpy(data.data() + 0, &v0, 4);
memcpy(data.data() + 4, &v1, 4);
memcpy(data.data() + 8, &v2, 4);
memcpy(data.data() + 12, &v3, 4);
BufferProvider prov(data);
ComposeResult result = compose(tree, prov);
QStringList lines = result.text.split('\n');
// Find array header
int headerLine = -1;
for (int i = 0; i < result.meta.size(); i++) {
if (result.meta[i].isArrayHeader) { headerLine = i; break; }
}
QVERIFY2(headerLine >= 0, "Array header must exist");
QVERIFY2(lines[headerLine].contains("uint32_t[4]"),
qPrintable("Header should contain 'uint32_t[4]': " + lines[headerLine]));
// Count element field lines (depth >= 2, lineKind == Field)
int elemCount = 0;
bool found0 = false, found3 = false;
for (int i = 0; i < result.meta.size(); i++) {
if (result.meta[i].lineKind == LineKind::Field && result.meta[i].depth >= 2) {
elemCount++;
// Type column should have combined type+index: "uint32_t[0]"
if (lines[i].contains("uint32_t[0]")) found0 = true;
if (lines[i].contains("uint32_t[3]")) found3 = true;
// isArrayElement flag must be set
QVERIFY2(result.meta[i].isArrayElement,
qPrintable("Element line must have isArrayElement=true: " + lines[i]));
}
}
QCOMPARE(elemCount, 4);
QVERIFY2(found0, "Should have uint32_t[0] element");
QVERIFY2(found3, "Should have uint32_t[3] element");
// Check footer exists
bool hasFooter = false;
for (int i = headerLine + 1; i < result.meta.size(); i++) {
if (result.meta[i].lineKind == LineKind::Footer && result.meta[i].nodeKind == NodeKind::Array) {
hasFooter = true;
break;
}
}
QVERIFY2(hasFooter, "Array should have footer line");
}
void testPrimitiveArrayCollapsed() {
// Collapsed primitive array should show NO element lines
NodeTree tree;
tree.baseAddress = 0;
Node root;
root.kind = NodeKind::Struct;
root.name = "Root";
root.parentId = 0;
int ri = tree.addNode(root);
uint64_t rootId = tree.nodes[ri].id;
Node arr;
arr.kind = NodeKind::Array;
arr.name = "data";
arr.parentId = rootId;
arr.offset = 0;
arr.elementKind = NodeKind::UInt16;
arr.arrayLen = 8;
arr.collapsed = true;
tree.addNode(arr);
NullProvider prov;
ComposeResult result = compose(tree, prov);
// No field lines at depth >= 2 (no synthesized elements)
int elemFields = 0;
for (int i = 0; i < result.meta.size(); i++) {
if (result.meta[i].lineKind == LineKind::Field && result.meta[i].depth >= 2)
elemFields++;
}
QCOMPARE(elemFields, 0);
}
void testStructArrayStillUsesChildren() {
// Struct array with manual children should still render child nodes, not synthesize
NodeTree tree;
tree.baseAddress = 0;
Node root;
root.kind = NodeKind::Struct;
root.name = "Root";
root.parentId = 0;
int ri = tree.addNode(root);
uint64_t rootId = tree.nodes[ri].id;
Node arr;
arr.kind = NodeKind::Array;
arr.name = "items";
arr.parentId = rootId;
arr.offset = 0;
arr.elementKind = NodeKind::Struct;
arr.arrayLen = 1;
int ai = tree.addNode(arr);
uint64_t arrId = tree.nodes[ai].id;
// One struct child
Node elem;
elem.kind = NodeKind::Struct;
elem.name = "Item";
elem.parentId = arrId;
elem.offset = 0;
int ei = tree.addNode(elem);
uint64_t elemId = tree.nodes[ei].id;
Node field;
field.kind = NodeKind::UInt32;
field.name = "val";
field.parentId = elemId;
field.offset = 0;
tree.addNode(field);
NullProvider prov;
ComposeResult result = compose(tree, prov);
// Should have the child struct's field rendered
bool hasVal = false;
QStringList lines = result.text.split('\n');
for (int i = 0; i < lines.size(); i++) {
if (lines[i].contains("val")) { hasVal = true; break; }
}
QVERIFY2(hasVal, "Struct array child field 'val' should be rendered");
}
// ═════════════════════════════════════════════════════════════ // ═════════════════════════════════════════════════════════════
// Pointer tests // Pointer tests
// ═════════════════════════════════════════════════════════════ // ═════════════════════════════════════════════════════════════

5
tests/test_type_selector.cpp
View File

@@ -61,7 +61,7 @@ private slots:
ColumnSpan span = commandRowChevronSpan(text); ColumnSpan span = commandRowChevronSpan(text);
QVERIFY(span.valid); QVERIFY(span.valid);
QCOMPARE(span.start, 0); QCOMPARE(span.start, 0);
QCOMPARE(span.end, 3); QCOMPARE(span.end, 4); // includes trailing space for easier clicking
} }
void testChevronSpanRejects() { void testChevronSpanRejects() {
@@ -117,9 +117,10 @@ private slots:
QSignalSpy typeSpy(&popup, &TypeSelectorPopup::typeSelected); QSignalSpy typeSpy(&popup, &TypeSelectorPopup::typeSelected);
QSignalSpy createSpy(&popup, &TypeSelectorPopup::createNewTypeRequested); QSignalSpy createSpy(&popup, &TypeSelectorPopup::createNewTypeRequested);
emit popup.typeSelected(2); emit popup.typeSelected(2, QStringLiteral("B"));
QCOMPARE(typeSpy.count(), 1); QCOMPARE(typeSpy.count(), 1);
QCOMPARE(typeSpy.at(0).at(0).toULongLong(), (uint64_t)2); QCOMPARE(typeSpy.at(0).at(0).toULongLong(), (uint64_t)2);
QCOMPARE(typeSpy.at(0).at(1).toString(), QStringLiteral("B"));
emit popup.createNewTypeRequested(); emit popup.createNewTypeRequested();
QCOMPARE(createSpy.count(), 1); QCOMPARE(createSpy.count(), 1);