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base: OpenCMT:3af983a9553f3a2233188426155c6ff851ad49f8
Branches Tags
OpenCMT:main OpenCMT:fix-properties OpenCMT:gea-devel OpenCMT:fix-context OpenCMT:fix-assembly OpenCMT:andrea-dev OpenCMT:andrea-geo OpenCMT:serialization OpenCMT:andrea-alg OpenCMT:beam_tracer OpenCMT:devel
OpenCMT:v0.5.3 OpenCMT:v0.5.2 OpenCMT:v0.5.1 OpenCMT:v.0.4.1 OpenCMT:v.0.3.1 OpenCMT:v.0.2.1 OpenCMT:v1.0.0
..
compare: OpenCMT:andrea-dev
Branches Tags
OpenCMT:fix-properties OpenCMT:gea-devel OpenCMT:fix-context OpenCMT:fix-assembly OpenCMT:andrea-dev OpenCMT:andrea-geo OpenCMT:serialization OpenCMT:andrea-alg OpenCMT:main OpenCMT:beam_tracer OpenCMT:devel
OpenCMT:v0.5.3 OpenCMT:v0.5.2 OpenCMT:v0.5.1 OpenCMT:v.0.4.1 OpenCMT:v.0.3.1 OpenCMT:v.0.2.1 OpenCMT:v1.0.0

4 Commits
3af983a955 ... andrea-dev

Author SHA1 Message Date
AndreaRigoni
e09a614fa5 refactor: add override specifier to type_name method in Core/Types.h 2026-04-03 10:14:20 +00:00
AndreaRigoni
7f6323403d merge andrea-geo: geometry/material/property system features 
Merges all work from andrea-geo branch:
- Geant material management classes
- Serialization enhancements (read-only, NVP/HRP macros)
- Transform/assembly system improvements
- VTK puppet/viewport updates (orthographic toggle, voxel rendering)
- Property grouping, dynamic properties, NotifyPropertiesUpdated
- Object type identification via uLibTypeMacro
- New tests (PropertyGrouping, ReadOnly, vtkQViewport, PuppetParenting)
- Various gcompose UI fixes

Conflict resolved in CMakePresets.json: kept both 'fast' (clang/lld)
and 'mutom' (stub) presets.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-03 08:47:32 +00:00
AndreaRigoni
a53b3051de fix EXPAT::EXPAT-NOTFOUND when building with Geant4 on conda 
Geant4's G4EXPATShim creates EXPAT::EXPAT (uppercase) with
IMPORTED_LOCATION set to ${EXPAT_LIBRARY}, which is empty when EXPAT
is found via conda's config-mode package (expat::expat, lowercase).

After find_package(Geant4), patch EXPAT::EXPAT with the real library
path taken from expat::expat IMPORTED_LOCATION_NOCONFIG, falling back
to find_library if needed.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-03 08:41:00 +00:00
AndreaRigoni
c53570192f switch to Ninja+ccache, add clang/lld fast build profile 
- CMakePresets.json: add 'fast' preset (clang+lld+ccache)
- .gitignore: generalize build/ to build*/, add CMakeUserPresets.json
- CMakeUserPresets.json: untrack (conan-generated, now gitignored)
- src/Core/Archives.h: remove redundant 'using basic_xml_iarchive::load_override'
  in xml_iarchive; caused ambiguous overload with clang (diamond inheritance)
- src/Core/Object.cpp: remove invalid explicit instantiations of non-template
  virtual Object::serialize (GCC extension, clang rejects)
- README.md, CLAUDE.md: document GCC and LLVM/clang build workflows

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-03 08:24:50 +00:00
32 changed files with 347 additions and 624 deletions
Expand all files Collapse all files

9
.agents/rules/context_exclude_vtk.md
View File

@@ -1,9 +0,0 @@
---
trigger: manual
---
# Context Restriction: No VTK
When this rule is active, restrict the operational context to libraries excluding the VTK layer.
- **Exclude Path**: `src/Vtk`
- **Include Paths**: `src/Core`, `src/Math`, `src/HEP`, `src/Root`, `src/Python`, `src/utils`
- **Focus**: Tomographic reconstruction algorithms, data structures in `Core`, and physical modeling in `HEP`.
- **Constraint**: Avoid referencing `Puppet`, `Viewport`, or any VTK-specific headers unless the user overrides this restriction.

9
.agents/rules/context_gcompose.md
View File

@@ -1,9 +0,0 @@
---
trigger: manual
---
# Context Focus: gcompose Application
When this rule is active, prioritize the `gcompose` GUI application.
- **Primary Path**: `app/gcompose`
- **Focus**: `MainPanel`, `ContextPanel`, `PropertiesPanel`, and `ViewportPane`.
- **Integration**: Wiring of Qt signals/slots between the `uLib` core model and the GUI widgets.
- **Dependency**: Reference `src/Vtk` and `src/Core` as the underlying framework for the application.

9
.agents/rules/context_vtk.md
View File

@@ -1,9 +0,0 @@
---
trigger: always_on
---
# Context Inclusion: VTK
When this rule is active, include the VTK visualization layer in the operational context.
- **Priority Path**: `src/Vtk`
- **Focus**: `Puppet` hierarchy, `Viewport` management, and the synchronization between domain objects and VTK props.
- **Key Classes**: `vtkViewport`, `vtkQViewport`, `vtkObjectsContext`, and all classes in `src/Vtk/HEP/Geant`.
- **Logic**: Ensure transformations (TRS) applied to domain objects are correctly mirrored in the visualization layer and vice versa.

7
.agents/rules/micromamba.md Normal file
View File

@@ -0,0 +1,7 @@
---
trigger: always_on
---
build in build directory using always micromamba "mutom" env.
build with make flag -j$(nproc).

39
.agents/skills/micromamba_build.md
View File

@@ -1,39 +0,0 @@
# Skill: Build uLib with Micromamba
This skill provides instructions for building the uLib project using the micromamba environment.
## Context
- **Environment**: micromamba `uLib`
- **Output Directory**: `build`
- **CPU Usage**: All available cores
## Instructions
1. **Environment Setup**:
Ensure micromamba is properly initialized and the `uLib` environment is active.
```bash
export MAMBA_EXE="/home/share/micromamba/bin/micromamba"
export MAMBA_ROOT_PREFIX="/home/share/micromamba"
eval "$(/home/share/micromamba/bin/micromamba shell hook --shell bash)"
micromamba activate uLib
```
2. **Full Rebuild (if needed)**:
If the `build` directory does not exist or a full reconfiguration is required:
```bash
conan profile detect --force
conan install . --output-folder=build --build=missing
cmake --preset conan-release
```
3. **Incremental Build**:
Run the build command from the root directory, pointing to the `build` folder and using all cores.
```bash
cmake --build build -j$(nproc)
```
4. **Specific Target Build**:
To build a specific target (e.g., gcompose):
```bash
cmake --build build --target gcompose -j$(nproc)
```

2
.gitignore vendored
View File

@@ -18,5 +18,3 @@ test_props.xml
test_props2.xml
test_boost.cpp
.claude/settings.json
build_output.log
configure_output.log

2
CLAUDE.md
View File

@@ -10,7 +10,7 @@ This file provides guidance to Claude Code (claude.ai/code) when working with co
export MAMBA_EXE="/home/share/micromamba/bin/micromamba"
export MAMBA_ROOT_PREFIX="/home/share/micromamba"
eval "$(/home/share/micromamba/bin/micromamba shell hook --shell bash)"
micromamba activate uLib
micromamba activate mutom
# Configure (from repo root, using Conan preset — uses Ninja + ccache)
cmake --preset conan-release

15
CMakeLists.txt
View File

@@ -15,20 +15,11 @@ if(POLICY CMP0167)
cmake_policy(SET CMP0167 NEW)
endif()
## -------------------------------------------------------------------------- ##
project(uLib)
# Applica la flag SOLO se il compilatore è GCC
if(CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
add_compile_options(-fno-merge-constants)
endif()
# Disabilita il warning se il compilatore è Clang (o AppleClang)
if(CMAKE_CXX_COMPILER_ID MATCHES "Clang")
add_compile_options(-Wno-ignored-optimization-argument)
endif()
# CUDA Toolkit seems to be missing locally. Toggle ON if nvcc is made available.
option(USE_CUDA "Enable CUDA support" OFF)
if(USE_CUDA)
@@ -133,8 +124,6 @@ find_package(Eigen3 CONFIG REQUIRED)
get_target_property(EIGEN3_INCLUDE_DIRS Eigen3::Eigen INTERFACE_INCLUDE_DIRECTORIES)
include_directories(${EIGEN3_INCLUDE_DIRS})
find_package(OpenMP)
find_package(ROOT CONFIG REQUIRED)
include(${ROOT_USE_FILE})
@@ -156,8 +145,6 @@ else()
IOXML
IOXMLParser
ImagingCore
ImagingHybrid
ImagingSources
InteractionStyle
InteractionWidgets
RenderingAnnotation

20
README.md
View File

@@ -30,13 +30,13 @@ You can create and activate the environment using either `micromamba` or `conda`
**Using Micromamba:**
```bash
micromamba env create -f condaenv.yml
micromamba activate uLib
micromamba activate mutom
```
**Using Conda:**
```bash
conda env create -f condaenv.yml
conda activate uLib
conda activate mutom
```
### Configure and Build
@@ -65,24 +65,12 @@ cmake --preset conan-release
cmake --build build -j$(nproc)
```
5. **Clean build (wipe and rebuild everything):**
```bash
cmake --build build --clean-first -j$(nproc)
```
6. **Run tests:**
```bash
cmake --build build --target test -j$(nproc)
# or equivalently:
ctest --test-dir build --output-on-failure -j$(nproc)
```
#### LLVM/Clang build (clang + lld + ccache — fastest)
A `fast` conan profile is provided that uses **clang**, **lld** (LLVM linker), and **ccache**. Install them into your environment first:
```bash
micromamba install -n uLib -y clang clangxx lld -c conda-forge
micromamba install -n mutom -y clang clangxx lld -c conda-forge
```
Then build using the `fast` profile:
@@ -103,6 +91,6 @@ The `fast` profile is defined at `~/.conan2/profiles/fast` and sets:
### Make python package
```bash
micromamba run -n uLib env USE_CUDA=ON poetry install
micromamba run -n mutom env USE_CUDA=ON poetry install
```

2
conanfile.txt
View File

@@ -1,6 +1,6 @@
[requires]
eigen/3.4.0
boost/1.86.0
boost/1.83.0
# pybind11/3.0.2
hdf5/1.14.3

13
condaenv.yml
View File

@@ -1,4 +1,4 @@
name: uLib
name: mutom
channels:
- conda-forge
dependencies:
@@ -7,13 +7,4 @@ dependencies:
- cmake
- conan
- root
- vtk=9.4 # VTK 9.4
- pybind11
# - boost=1.86.0 # requested by VTK 9.4
- ninja
- clang
- clangxx
- lld
- ccache
- OpenMP
- Geant4
- vtk

86
src/Core/Archives.h
View File

@@ -80,9 +80,6 @@ template <class ArchiveImplementation> class polymorphic_iarchive_route;
namespace boost {
namespace serialization {
template <typename T> struct hrp;
template <typename T> struct hrp_val;
template <typename T> struct hrp_enum;
template <typename T> struct hrp_enum_val;
}
} // namespace boost
@@ -180,24 +177,6 @@ public:
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::hrp_val<T> &t) {
this->This()->load_override(const_cast<boost::serialization::hrp_val<T> &>(t));
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::hrp_enum<T> &t) {
this->This()->load_override(const_cast<boost::serialization::hrp_enum<T> &>(t));
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::hrp_enum_val<T> &t) {
this->This()->load_override(const_cast<boost::serialization::hrp_enum_val<T> &>(t));
return *this->This();
}
// the & operator
template <class T> Archive &operator&(T &t) { return *(this->This()) >> t; }
@@ -211,21 +190,6 @@ public:
return *(this->This()) >> t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_val<T> &t) {
return *(this->This()) >> t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum<T> &t) {
return *(this->This()) >> t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum_val<T> &t) {
return *(this->This()) >> t;
}
// the == operator
template <class T> Archive &operator==(T &t) { return this->operator&(t); }
@@ -266,61 +230,11 @@ public:
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp_val<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp_enum<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp_enum_val<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::nvp<T> &t) {
this->This()->save_override(t);
return *this->This();
}
// the & operator
template <class T> Archive &operator&(const T &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_val<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum_val<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::nvp<T> &t) {
return *this->This() << t;
}
// the == operator
template <class T> Archive &operator==(T &t) { return this->operator&(t); }

1
src/Core/CMakeLists.txt
View File

@@ -21,7 +21,6 @@ set(HEADERS
StringReader.h
Threads.h
Monitor.h
Property.h
Types.h
Uuid.h
Vector.h

24
src/Core/Object.cpp
View File

@@ -65,19 +65,10 @@ public:
std::vector<Slot> slov;
std::vector<PropertyBase*> m_Properties;
std::vector<PropertyBase*> m_DynamicProperties;
std::vector<PropertyBase*> m_DisplayProperties;
bool m_SignalsBlocked;
};
// Implementations of Property methods
void Object::RegisterDisplayProperty(PropertyBase* prop) {
if (prop) d->m_DisplayProperties.push_back(prop);
}
const std::vector<PropertyBase*>& Object::GetDisplayProperties() const {
return d->m_DisplayProperties;
}
void Object::RegisterProperty(PropertyBase* prop) {
if (prop) {
d->m_Properties.push_back(prop);
@@ -113,9 +104,24 @@ void Object::NotifyPropertiesUpdated() {
for (auto* p : d->m_DynamicProperties) p->Updated();
}
// In Object.h, the template serialize needs to be updated to call property serialization.
// However, since Object::serialize is a template in the header, we might need a helper here.
template <class ArchiveT>
void Object::serialize(ArchiveT &ar, const unsigned int version) {
ar & boost::serialization::make_nvp("InstanceName", d->m_InstanceName);
for (auto* prop : d->m_Properties) {
prop->serialize(ar, version);
}
}
void Object::Updated() { ULIB_SIGNAL_EMIT(Object::Updated); }
void Object::PropertyUpdated() { ULIB_SIGNAL_EMIT(Object::PropertyUpdated); }
template <class ArchiveT>
void Object::save_override(ArchiveT &ar, const unsigned int version) {}
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////

10
src/Core/Object.h
View File

@@ -92,11 +92,9 @@ public:
////////////////////////////////////////////////////////////////////////////
// PROPERTIES //
virtual void RegisterProperty(PropertyBase* property);
virtual void RegisterDynamicProperty(PropertyBase* property);
virtual void RegisterDisplayProperty(PropertyBase* property);
virtual const std::vector<PropertyBase*>& GetProperties() const;
virtual const std::vector<PropertyBase*>& GetDisplayProperties() const;
void RegisterProperty(PropertyBase* prop);
void RegisterDynamicProperty(PropertyBase* prop);
const std::vector<PropertyBase*>& GetProperties() const;
PropertyBase* GetProperty(const std::string& name) const;
/** @brief Sends an Updated signal for all properties of this object. useful for real-time UI refresh. */
@@ -126,7 +124,7 @@ public:
virtual void serialize(Archive::log_archive & ar, const unsigned int version) {}
template <class ArchiveT>
void save_override(ArchiveT &ar, const unsigned int version) {}
void save_override(ArchiveT &ar, const unsigned int version);
void SaveConfig(std::ostream &os, int version = 0);
void LoadConfig(std::istream &is, int version = 0);

400
src/Core/Property.h
View File

@@ -5,23 +5,19 @@
#include <vector>
#include <sstream>
#include <typeinfo>
#include <typeindex>
#include <typeindex> // Added
#include <boost/serialization/nvp.hpp>
#include <boost/lexical_cast.hpp>
#include <vector>
#include <boost/type_traits/is_class.hpp>
#include <boost/mpl/bool.hpp>
#include <set>
#include <boost/type_traits/is_base_of.hpp>
#include <boost/serialization/serialization.hpp>
#include "Core/Archives.h"
#include "Core/Signal.h"
#include "Core/Object.h"
namespace uLib {
namespace Archive {
class property_register_archive;
}
/**
* @brief Base class for properties to allow runtime listing and identification.
*/
@@ -31,7 +27,7 @@ public:
virtual const std::string& GetName() const = 0;
virtual const char* GetTypeName() const = 0;
virtual std::string GetValueAsString() const = 0;
virtual std::type_index GetTypeIndex() const = 0;
virtual std::type_index GetTypeIndex() const = 0; // Added
virtual const std::string& GetUnits() const = 0;
virtual void SetUnits(const std::string& units) = 0;
virtual const std::vector<std::string>& GetEnumLabels() const {
@@ -65,29 +61,42 @@ public:
virtual void serialize(Archive::hrt_oarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::hrt_iarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::log_archive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::property_register_archive & ar, const unsigned int v) = 0;
};
/**
* @brief Template class for typed properties.
*/
template <typename T>
class Property : public PropertyBase {
public:
// PROXY: Use an existing variable as back-end storage
Property(Object* owner, const std::string& name, T* valuePtr, const std::string& units = "", const std::string& group = "")
: m_owner(owner), m_name(name), m_units(units), m_group(group), m_value(valuePtr), m_own(false),
m_HasRange(false), m_HasDefault(false), m_ReadOnly(false) {
if (m_owner) m_owner->RegisterProperty(this);
if (m_owner) {
m_owner->RegisterProperty(this);
}
}
// MANAGED: Create and own internal storage
Property(Object* owner, const std::string& name, const T& defaultValue = T(), const std::string& units = "", const std::string& group = "")
: m_owner(owner), m_name(name), m_units(units), m_group(group), m_value(new T(defaultValue)), m_own(true),
m_HasRange(false), m_HasDefault(true), m_Default(defaultValue), m_ReadOnly(false) {
if (m_owner) m_owner->RegisterProperty(this);
if (m_owner) {
m_owner->RegisterProperty(this);
}
}
virtual ~Property() { if (m_own) delete m_value; }
virtual ~Property() {
if (m_own) delete m_value;
}
// Identification
virtual const std::string& GetName() const override { return m_name; }
@@ -98,18 +107,36 @@ public:
virtual const std::string& GetGroup() const override { return m_group; }
virtual void SetGroup(const std::string& group) override { m_group = group; }
std::string GetValueAsString() const override {
try { return boost::lexical_cast<std::string>(*m_value); }
catch (...) { std::stringstream ss; ss << *m_value; return ss.str(); }
try {
return boost::lexical_cast<std::string>(*m_value);
} catch (const boost::bad_lexical_cast&) {
std::stringstream ss;
ss << *m_value;
return ss.str();
}
}
// Accessors
const T& Get() const { return *m_value; }
template<typename U = T>
typename std::enable_if<std::is_arithmetic<U>::value, void>::type
ValidateT(T& val) {
if (m_HasRange) {
if (val < m_Min) val = m_Min;
if (val > m_Max) val = m_Max;
}
}
template<typename U = T>
typename std::enable_if<!std::is_arithmetic<U>::value, void>::type
ValidateT(T& val) {
}
void Set(const T& value) {
T val = value;
if constexpr (std::is_arithmetic<T>::value) {
if (m_HasRange) { if (val < m_Min) val = m_Min; if (val > m_Max) val = m_Max; }
}
ValidateT<T>(val);
if (*m_value != val) {
*m_value = val;
ULIB_SIGNAL_EMIT(Property<T>::PropertyChanged);
@@ -123,55 +150,65 @@ public:
void SetReadOnly(bool ro) { m_ReadOnly = ro; }
virtual bool IsReadOnly() const override { return m_ReadOnly; }
virtual bool HasRange() const override { return m_HasRange; }
virtual double GetMin() const override { return m_HasRange ? convert_to_double(m_Min) : 0.0; }
virtual double GetMax() const override { return m_HasRange ? convert_to_double(m_Max) : 0.0; }
const T& GetMinTyped() const { return m_Min; }
const T& GetMaxTyped() const { return m_Max; }
virtual bool HasRange() const override { return m_HasRange; }
template<typename U = T>
typename std::enable_if<std::is_arithmetic<U>::value, double>::type
GetMinT() const { return (double)m_Min; }
template<typename U = T>
typename std::enable_if<!std::is_arithmetic<U>::value, double>::type
GetMinT() const { return 0.0; }
template<typename U = T>
typename std::enable_if<std::is_arithmetic<U>::value, double>::type
GetMaxT() const { return (double)m_Max; }
template<typename U = T>
typename std::enable_if<!std::is_arithmetic<U>::value, double>::type
GetMaxT() const { return 0.0; }
virtual double GetMin() const override { return GetMinT<T>(); }
virtual double GetMax() const override { return GetMaxT<T>(); }
virtual bool HasDefault() const override { return m_HasDefault; }
virtual std::string GetDefaultValueAsString() const override {
try { return boost::lexical_cast<std::string>(m_Default); } catch (...) { return ""; }
try { return boost::lexical_cast<std::string>(m_Default); }
catch (...) { return ""; }
}
// Operators
// Operators for seamless usage
operator const T&() const { return *m_value; }
Property& operator=(const T& value) { Set(value); return *this; }
Property& operator=(const T& value) {
Set(value);
return *this;
}
// Signals
signals:
virtual void PropertyChanged() { ULIB_SIGNAL_EMIT(Property<T>::PropertyChanged); }
private:
template <typename U>
static double convert_to_double(const U& val) {
return convert_to_double_impl(val, typename std::is_arithmetic<U>::type());
}
template <typename U>
static double convert_to_double_impl(const U& val, std::true_type) { return (double)val; }
template <typename U>
static double convert_to_double_impl(const U& val, std::false_type) { return 0.0; }
public:
// Serialization
template <class ArchiveT>
void serialize_helper(ArchiveT & ar, const unsigned int version) {
ar & boost::serialization::make_hrp(m_name.c_str(), *m_value, m_units.c_str());
void serialize_impl(ArchiveT & ar, const unsigned int version) {
ar & boost::serialization::make_nvp(m_name.c_str(), *m_value);
}
virtual void serialize(Archive::xml_oarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::xml_iarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::text_oarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::text_iarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::hrt_oarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::hrt_iarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::log_archive & ar, const unsigned int v) override { serialize_helper(ar, v); }
void serialize(Archive::xml_oarchive & ar, const unsigned int v) override { serialize_impl(ar, v); }
void serialize(Archive::xml_iarchive & ar, const unsigned int v) override { serialize_impl(ar, v); }
void serialize(Archive::text_oarchive & ar, const unsigned int v) override { serialize_impl(ar, v); }
void serialize(Archive::text_iarchive & ar, const unsigned int v) override { serialize_impl(ar, v); }
void serialize(Archive::hrt_oarchive & ar, const unsigned int v) override { serialize_impl(ar, v); }
void serialize(Archive::hrt_iarchive & ar, const unsigned int v) override { serialize_impl(ar, v); }
void serialize(Archive::log_archive & ar, const unsigned int v) override { serialize_impl(ar, v); }
virtual void serialize(Archive::property_register_archive & ar, const unsigned int v) override;
virtual void Updated() override {
PropertyBase::Updated();
this->PropertyChanged();
}
virtual void Updated() override { PropertyBase::Updated(); this->PropertyChanged(); }
protected:
private:
std::string m_name;
std::string m_units;
std::string m_group;
@@ -187,7 +224,20 @@ protected:
};
/**
* @brief Property specialized for enumerations.
* @brief Conveninent typedefs for common property types.
*/
typedef Property<std::string> StringProperty;
typedef Property<int> IntProperty;
typedef Property<unsigned int> UIntProperty;
typedef Property<long> LongProperty;
typedef Property<unsigned long> ULongProperty;
typedef Property<float> FloatProperty;
typedef Property<double> DoubleProperty;
typedef Property<Bool_t> BoolProperty;
/**
* @brief Property specialized for enumerations, providing labels for GUI representations.
*/
class EnumProperty : public Property<int> {
public:
@@ -198,49 +248,68 @@ public:
const char* GetTypeName() const override { return "Enum"; }
virtual std::type_index GetTypeIndex() const override { return std::type_index(typeid(EnumProperty)); }
template <class ArchiveT>
void serialize_enum_helper(ArchiveT & ar, const unsigned int version) {
ar & boost::serialization::make_hrp_enum(m_name.c_str(), *m_value, m_Labels, m_units.c_str());
}
virtual void serialize(Archive::xml_oarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::xml_iarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::text_oarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::text_iarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::hrt_oarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::hrt_iarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::log_archive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::property_register_archive & ar, const unsigned int v) override;
private:
std::vector<std::string> m_Labels;
};
/**
* @brief Macro to simplify property declaration within a class.
* Usage: ULIB_PROPERTY(float, Width, 1.0f)
* It creates a raw member m_Width and a Property proxy Width.
*/
#define ULIB_PROPERTY(type, name, defaultValue) \
type m_##name = defaultValue; \
Property<type> name = Property<type>(this, #name, &m_##name);
} // namespace uLib
namespace uLib {
namespace Archive {
class property_register_archive;
} // namespace Archive
} // namespace uLib
class property_register_archive
: public boost::archive::detail::common_oarchive<property_register_archive> {
protected:
namespace boost {
namespace archive {
namespace detail {
template <>
class interface_oarchive<uLib::Archive::property_register_archive>
: public uLib_interface_oarchive<uLib::Archive::property_register_archive> {};
} // namespace detail
} // namespace archive
} // namespace boost
namespace uLib {
namespace Archive {
/**
* @brief A special archive that creates and registers Property proxies
* for any member it encounters wrapped in HRP().
*/
class property_register_archive :
public boost::archive::detail::common_oarchive<property_register_archive>
{
Object* m_Object;
bool m_DisplayOnly;
public:
friend class boost::archive::detail::interface_oarchive<property_register_archive>;
friend class boost::archive::save_access;
using boost::archive::detail::common_oarchive<property_register_archive>::save_override;
typedef boost::archive::detail::common_oarchive<property_register_archive> detail_common_oarchive;
property_register_archive(Object* obj, bool displayOnly = false) :
property_register_archive(Object* obj) :
boost::archive::detail::common_oarchive<property_register_archive>(boost::archive::no_header),
m_Object(obj), m_DisplayOnly(displayOnly) {
if (obj) m_Visited.insert(dynamic_cast<const void*>(obj));
}
template<class T> property_register_archive &operator&(const T &t) { this->save_override(t); return *this; }
template<class T> property_register_archive &operator<<(const T &t) { this->save_override(t); return *this; }
m_Object(obj) {}
std::string GetCurrentGroup() const {
std::string group;
@@ -251,91 +320,77 @@ public:
return group;
}
template<class T> void register_property(Property<T>& p) {
save_property_impl(p.GetName().c_str(), const_cast<T&>(p.Get()), p.GetUnits().c_str(),
p.HasRange(), p.GetMinTyped(), p.GetMaxTyped(), p.IsReadOnly());
}
void register_enum_property(EnumProperty& p) {
if (!m_Object) return;
EnumProperty* newP = new EnumProperty(m_Object, p.GetName(), const_cast<int*>(&p.Get()), p.GetEnumLabels(), p.GetUnits(), GetCurrentGroup());
newP->SetReadOnly(p.IsReadOnly());
if (m_DisplayOnly) {
m_Object->RegisterDisplayProperty(newP);
Object* obj = m_Object;
Object::connect(newP, &PropertyBase::Updated, [obj]() { obj->Updated(); });
} else {
m_Object->RegisterDynamicProperty(newP);
}
}
template<class T> void save_property_impl(const char* name, T& val, const char* units, bool hasRange, const T& minVal, const T& maxVal, bool isReadOnly) {
// Core logic: encounter HRP -> Create Dynamic Property
template<class T>
void save_override(const boost::serialization::hrp<T> &t) {
if (m_Object) {
Property<T>* p = new Property<T>(m_Object, name, &val, units ? units : "", GetCurrentGroup());
set_range_helper(p, hasRange, minVal, maxVal, typename std::is_arithmetic<T>::type());
p->SetReadOnly(isReadOnly);
if (m_DisplayOnly) {
m_Object->RegisterDisplayProperty(p);
Object* obj = m_Object;
Object::connect(p, &PropertyBase::Updated, [obj]() { obj->Updated(); });
} else {
Property<T>* p = new Property<T>(m_Object, t.name(), &const_cast<boost::serialization::hrp<T>&>(t).value(), t.units() ? t.units() : "", GetCurrentGroup());
if (t.has_range()) p->SetRange(t.min_val(), t.max_val());
if (t.has_default()) p->SetDefault(t.default_val());
p->SetReadOnly(t.is_read_only());
m_Object->RegisterDynamicProperty(p);
}
}
template<class T>
void save_override(const boost::serialization::hrp_val<T> &t) {
if (m_Object) {
// Note: hrp_val stores by value. Property usually points to existing data.
// But here we are registering properties from HRP wrappers.
// If it's hrp_val, it means it's an rvalue from a getter.
// The hrp_val wrapper itself owns the value.
// However, the property_register_archive is temporary.
// This is a bit tricky. Usually HRP(rvalue) is meant for read-only display.
// Let's use the address of the value in the wrapper, but mark it read-only.
Property<T>* p = new Property<T>(m_Object, t.name(), &const_cast<boost::serialization::hrp_val<T>&>(t).value(), t.units() ? t.units() : "", GetCurrentGroup());
if (t.has_range()) p->SetRange(t.min_val(), t.max_val());
if (t.has_default()) p->SetDefault(t.default_val());
p->SetReadOnly(t.is_read_only());
m_Object->RegisterDynamicProperty(p);
}
}
template<class U> static void set_range_helper(Property<U>* p, bool hasRange, const U& minVal, const U& maxVal, std::true_type) { if (hasRange) p->SetRange(minVal, maxVal); }
template<class U> static void set_range_helper(Property<U>* p, bool hasRange, const U& minVal, const U& maxVal, std::false_type) {}
template<class T> void save_override(const boost::serialization::hrp<T> &t) {
// To handle T correctly without deduction issues, we assume T can be passed to save_property_impl
T dummy = T(); // Ensure we can construct T
save_property_impl(t.name(), const_cast<boost::serialization::hrp<T>&>(t).value(), t.units(), t.has_range(), t.has_range() ? t.min_val() : dummy, t.has_range() ? t.max_val() : dummy, t.is_read_only());
}
template<class T> void save_override(const boost::serialization::hrp_val<T> &t) {
T dummy = T();
save_property_impl(t.name(), const_cast<boost::serialization::hrp_val<T>&>(t).value(), t.units(), t.has_range(), t.has_range() ? t.min_val() : dummy, t.has_range() ? t.max_val() : dummy, t.is_read_only());
}
template<class T> void save_override(const boost::serialization::hrp_enum<T> &t) {
template<class T>
void save_override(const boost::serialization::hrp_enum<T> &t) {
if (m_Object) {
EnumProperty* p = new EnumProperty(m_Object, t.name(), (int*)&const_cast<boost::serialization::hrp_enum<T>&>(t).value(), t.labels(), t.units() ? t.units() : "", GetCurrentGroup());
p->SetReadOnly(t.is_read_only());
if (m_DisplayOnly) { m_Object->RegisterDisplayProperty(p); Object* obj = m_Object; Object::connect(p, &PropertyBase::Updated, [obj]() { obj->Updated(); }); }
else { m_Object->RegisterDynamicProperty(p); }
}
}
template<class T> void save_override(const boost::serialization::hrp_enum_val<T> &t) {
if (m_Object) {
EnumProperty* p = new EnumProperty(m_Object, t.name(), (int*)&const_cast<boost::serialization::hrp_enum_val<T>&>(t).value(), t.labels(), t.units() ? t.units() : "", GetCurrentGroup());
p->SetReadOnly(t.is_read_only());
if (m_DisplayOnly) { m_Object->RegisterDisplayProperty(p); Object* obj = m_Object; Object::connect(p, &PropertyBase::Updated, [obj]() { obj->Updated(); }); }
else { m_Object->RegisterDynamicProperty(p); }
m_Object->RegisterDynamicProperty(p);
}
}
template<class T> void save_override(const boost::serialization::nvp<T> &t) {
template<class T>
void save_override(const boost::serialization::hrp_enum_val<T> &t) {
if (m_Object) {
EnumProperty* p = new EnumProperty(m_Object, t.name(), (int*)&const_cast<boost::serialization::hrp_enum_val<T>&>(t).value(), t.labels(), t.units() ? t.units() : "", GetCurrentGroup());
p->SetReadOnly(t.is_read_only());
m_Object->RegisterDynamicProperty(p);
}
}
// Handle standard NVPs by recursing (important for base classes)
template<class T>
void save_override(const boost::serialization::nvp<T> &t) {
if (t.name()) m_GroupStack.push_back(t.name());
this->save_helper(t.const_value(), typename boost::is_class<T>::type());
if (t.name()) m_GroupStack.pop_back();
}
void save_override(const std::string &t) {}
template<class T> void save_override(T * const & t) {
if (!t) return;
this->save_pointer_helper(t, typename boost::is_base_of<Object, T>::type());
// Recursion for nested classes, ignore primitives
template<class T>
void save_override(const T &t) {
this->save_helper(t, typename boost::is_class<T>::type());
}
template<class T> void save_pointer_helper(T* t, boost::mpl::true_) {
const void* ptr = dynamic_cast<const void*>(t);
if (m_Visited.find(ptr) != m_Visited.end()) return;
m_Visited.insert(ptr);
this->save_override(*t);
}
template<class T> void save_pointer_helper(T* t, boost::mpl::false_) {}
template<class T> void save_override(const T &t) { this->save_helper(t, typename boost::is_class<T>::type()); }
template<class T> void save_helper(const T &t, boost::mpl::true_) { boost::serialization::serialize_adl(*this, const_cast<T&>(t), 0); }
void save_helper(const std::string &t, boost::mpl::true_) {}
template<class T> void save_helper(const T &t, boost::mpl::false_) {}
template<class T>
void save_helper(const T &t, boost::mpl::true_) {
boost::serialization::serialize_adl(*this, const_cast<T&>(t), 0);
}
template<class T>
void save_helper(const T &t, boost::mpl::false_) {}
// Required attribute overrides for common_oarchive
void save_override(const boost::archive::object_id_type & t) {}
void save_override(const boost::archive::object_reference_type & t) {}
void save_override(const boost::archive::version_type & t) {}
@@ -345,30 +400,30 @@ public:
void save_override(const boost::archive::class_name_type & t) {}
void save_override(const boost::archive::tracking_type & t) {}
protected:
private:
std::vector<std::string> m_GroupStack;
std::set<const void*> m_Visited;
};
} // namespace Archive
} // namespace uLib
namespace uLib {
template <typename T>
inline void Property<T>::serialize(Archive::property_register_archive & ar, const unsigned int v) {
ar.register_property(*this);
}
inline void EnumProperty::serialize(Archive::property_register_archive & ar, const unsigned int v) {
ar.register_enum_property(*this);
}
namespace Archive {
/**
* @brief Convenience macro to automatically activate and register all HRP members
* as uLib properties. Usage: ULIB_ACTIVATE_PROPERTIES(obj)
*/
#define ULIB_ACTIVATE_PROPERTIES(obj) \
{ uLib::Archive::property_register_archive _ar_tmp(&(obj)); _ar_tmp & (obj); }
/**
* @brief Declares a private member that automatically calls ULIB_ACTIVATE_PROPERTIES
* in every constructor of the class. Place this macro as the last declaration
* inside the class body (before the closing brace).
*
* Usage: ULIB_DECLARE_PROPERTIES(ClassName)
*
* This replaces per-constructor ULIB_ACTIVATE_PROPERTIES(*this) calls.
* RegisterDynamicProperty deduplicates by qualified name, so re-registration
* from inherited activators in a hierarchy is safe.
*/
#define ULIB_DECLARE_PROPERTIES(SelfType) \
private: \
struct _PropActivator { \
@@ -379,31 +434,6 @@ private: \
} _prop_activator{this};
} // namespace Archive
// Convenience macro: declares a named Property<T> member with a default value.
// Usage inside a class body (requires 'this' to be available, so use in-class initializer):
// ULIB_PROPERTY(int, MyProp, 42)
#define ULIB_PROPERTY(type, name, defaultVal) \
::uLib::Property<type> name{this, #name, (type)(defaultVal)};
// Common property type aliases
typedef Property<bool> BoolProperty;
typedef Property<int> IntProperty;
typedef Property<float> FloatProperty;
typedef Property<double> DoubleProperty;
typedef Property<std::string> StringProperty;
template <class ArchiveT>
void serialize_properties_helper(ArchiveT &ar, const std::vector<PropertyBase*> &props, unsigned int version) {
for (auto* prop : props) prop->serialize(ar, version);
}
template <class ArchiveT>
void Object::serialize(ArchiveT &ar, const unsigned int version) {
ar & boost::serialization::make_nvp("InstanceName", this->GetInstanceName());
serialize_properties_helper(ar, this->GetProperties(), version);
}
} // namespace uLib
#endif // U_CORE_PROPERTY_H

2
src/Core/testing/VectorTest.cpp
View File

@@ -38,7 +38,7 @@ inline const unsigned long VectorSplice(const _Tp &_it, const _Tp &_end,
_Tp it = _it;
_Tp end = _end - 1;
for (; it != end;) {
for (it; it != end;) {
if (_comp(*it, value))
it++;
else if (_comp(*end, value)) {

8
src/HEP/Geant/EmitterPrimary.hh
View File

@@ -32,7 +32,7 @@ class EmitterPrimary : public G4VUserPrimaryGeneratorAction, public AffineTransf
virtual ~EmitterPrimary();
// Metodo principale chiamato all'inizio di ogni evento
virtual void GeneratePrimaries(G4Event*) override;
virtual void GeneratePrimaries(G4Event*);
virtual void Updated() override { ULIB_SIGNAL_EMIT(EmitterPrimary::Updated); }
@@ -51,7 +51,7 @@ class SkyPlaneEmitterPrimary : public EmitterPrimary
SkyPlaneEmitterPrimary();
virtual ~SkyPlaneEmitterPrimary();
virtual void GeneratePrimaries(G4Event*) override;
virtual void GeneratePrimaries(G4Event*);
void SetPlane(const uLib::Vector3f& p0, const uLib::Vector3f& normal);
void SetSkySize(const uLib::Vector2f& size);
@@ -72,7 +72,7 @@ class CylinderEmitterPrimary : public EmitterPrimary
CylinderEmitterPrimary();
virtual ~CylinderEmitterPrimary();
virtual void GeneratePrimaries(G4Event*) override;
virtual void GeneratePrimaries(G4Event*);
void SetRadius(float r);
float GetRadius() const { return m_Radius; }
@@ -101,7 +101,7 @@ class QuadMeshEmitterPrimary : public EmitterPrimary
virtual ~QuadMeshEmitterPrimary();
// Metodo principale chiamato all'inizio di ogni evento
virtual void GeneratePrimaries(G4Event*) override;
virtual void GeneratePrimaries(G4Event*);
void SetMesh(uLib::QuadMesh* mesh);

2
src/HEP/Geant/Solid.cpp
View File

@@ -105,8 +105,6 @@ void Solid::SetTransform(Matrix4f transform) {
m_Physical->SetTranslation(*m_Position);
m_Physical->SetRotation(m_Rotation);
}
std::cout << "Solid " << GetName() << " position: " << pos << " rotation: " << m << std::endl;
}
void Solid::SetParent(Solid *parent) {

62
src/Math/Units.h
View File

@@ -13,41 +13,41 @@ namespace uLib {
using namespace CLHEP;
inline namespace literals {
constexpr double operator""_m(long double v) { return static_cast<double>(v) * CLHEP::meter; }
constexpr double operator""_cm(long double v) { return static_cast<double>(v) * CLHEP::centimeter; }
constexpr double operator""_mm(long double v) { return static_cast<double>(v) * CLHEP::millimeter; }
constexpr double operator""_um(long double v) { return static_cast<double>(v) * CLHEP::micrometer; }
constexpr double operator""_nm(long double v) { return static_cast<double>(v) * CLHEP::nanometer; }
constexpr double operator""_km(long double v) { return static_cast<double>(v) * CLHEP::kilometer; }
constexpr double operator"" _m(long double v) { return static_cast<double>(v) * CLHEP::meter; }
constexpr double operator"" _cm(long double v) { return static_cast<double>(v) * CLHEP::centimeter; }
constexpr double operator"" _mm(long double v) { return static_cast<double>(v) * CLHEP::millimeter; }
constexpr double operator"" _um(long double v) { return static_cast<double>(v) * CLHEP::micrometer; }
constexpr double operator"" _nm(long double v) { return static_cast<double>(v) * CLHEP::nanometer; }
constexpr double operator"" _km(long double v) { return static_cast<double>(v) * CLHEP::kilometer; }
constexpr double operator""_m(unsigned long long v) { return static_cast<double>(v) * CLHEP::meter; }
constexpr double operator""_cm(unsigned long long v) { return static_cast<double>(v) * CLHEP::centimeter; }
constexpr double operator""_mm(unsigned long long v) { return static_cast<double>(v) * CLHEP::millimeter; }
constexpr double operator""_um(unsigned long long v) { return static_cast<double>(v) * CLHEP::micrometer; }
constexpr double operator""_nm(unsigned long long v) { return static_cast<double>(v) * CLHEP::nanometer; }
constexpr double operator""_km(unsigned long long v) { return static_cast<double>(v) * CLHEP::kilometer; }
constexpr double operator"" _m(unsigned long long v) { return static_cast<double>(v) * CLHEP::meter; }
constexpr double operator"" _cm(unsigned long long v) { return static_cast<double>(v) * CLHEP::centimeter; }
constexpr double operator"" _mm(unsigned long long v) { return static_cast<double>(v) * CLHEP::millimeter; }
constexpr double operator"" _um(unsigned long long v) { return static_cast<double>(v) * CLHEP::micrometer; }
constexpr double operator"" _nm(unsigned long long v) { return static_cast<double>(v) * CLHEP::nanometer; }
constexpr double operator"" _km(unsigned long long v) { return static_cast<double>(v) * CLHEP::kilometer; }
constexpr double operator""_deg(long double v) { return static_cast<double>(v) * CLHEP::degree; }
constexpr double operator""_rad(long double v) { return static_cast<double>(v) * CLHEP::radian; }
constexpr double operator""_deg(unsigned long long v) { return static_cast<double>(v) * CLHEP::degree; }
constexpr double operator""_rad(unsigned long long v) { return static_cast<double>(v) * CLHEP::radian; }
constexpr double operator"" _deg(long double v) { return static_cast<double>(v) * CLHEP::degree; }
constexpr double operator"" _rad(long double v) { return static_cast<double>(v) * CLHEP::radian; }
constexpr double operator"" _deg(unsigned long long v) { return static_cast<double>(v) * CLHEP::degree; }
constexpr double operator"" _rad(unsigned long long v) { return static_cast<double>(v) * CLHEP::radian; }
constexpr double operator""_ns(long double v) { return static_cast<double>(v) * CLHEP::nanosecond; }
constexpr double operator""_s(long double v) { return static_cast<double>(v) * CLHEP::second; }
constexpr double operator""_ms(long double v) { return static_cast<double>(v) * CLHEP::millisecond; }
constexpr double operator""_ns(unsigned long long v) { return static_cast<double>(v) * CLHEP::nanosecond; }
constexpr double operator""_s(unsigned long long v) { return static_cast<double>(v) * CLHEP::second; }
constexpr double operator""_ms(unsigned long long v) { return static_cast<double>(v) * CLHEP::millisecond; }
constexpr double operator"" _ns(long double v) { return static_cast<double>(v) * CLHEP::nanosecond; }
constexpr double operator"" _s(long double v) { return static_cast<double>(v) * CLHEP::second; }
constexpr double operator"" _ms(long double v) { return static_cast<double>(v) * CLHEP::millisecond; }
constexpr double operator"" _ns(unsigned long long v) { return static_cast<double>(v) * CLHEP::nanosecond; }
constexpr double operator"" _s(unsigned long long v) { return static_cast<double>(v) * CLHEP::second; }
constexpr double operator"" _ms(unsigned long long v) { return static_cast<double>(v) * CLHEP::millisecond; }
constexpr double operator""_MeV(long double v) { return static_cast<double>(v) * CLHEP::megaelectronvolt; }
constexpr double operator""_eV(long double v) { return static_cast<double>(v) * CLHEP::electronvolt; }
constexpr double operator""_keV(long double v) { return static_cast<double>(v) * CLHEP::kiloelectronvolt; }
constexpr double operator""_GeV(long double v) { return static_cast<double>(v) * CLHEP::gigaelectronvolt; }
constexpr double operator""_TeV(long double v) { return static_cast<double>(v) * CLHEP::teraelectronvolt; }
constexpr double operator""_MeV(unsigned long long v) { return static_cast<double>(v) * CLHEP::megaelectronvolt; }
constexpr double operator""_eV(unsigned long long v) { return static_cast<double>(v) * CLHEP::electronvolt; }
constexpr double operator""_keV(unsigned long long v) { return static_cast<double>(v) * CLHEP::kiloelectronvolt; }
constexpr double operator""_GeV(unsigned long long v) { return static_cast<double>(v) * CLHEP::gigaelectronvolt; }
constexpr double operator"" _MeV(long double v) { return static_cast<double>(v) * CLHEP::megaelectronvolt; }
constexpr double operator"" _eV(long double v) { return static_cast<double>(v) * CLHEP::electronvolt; }
constexpr double operator"" _keV(long double v) { return static_cast<double>(v) * CLHEP::kiloelectronvolt; }
constexpr double operator"" _GeV(long double v) { return static_cast<double>(v) * CLHEP::gigaelectronvolt; }
constexpr double operator"" _TeV(long double v) { return static_cast<double>(v) * CLHEP::teraelectronvolt; }
constexpr double operator"" _MeV(unsigned long long v) { return static_cast<double>(v) * CLHEP::megaelectronvolt; }
constexpr double operator"" _eV(unsigned long long v) { return static_cast<double>(v) * CLHEP::electronvolt; }
constexpr double operator"" _keV(unsigned long long v) { return static_cast<double>(v) * CLHEP::kiloelectronvolt; }
constexpr double operator"" _GeV(unsigned long long v) { return static_cast<double>(v) * CLHEP::gigaelectronvolt; }
}
}

4
src/Vtk/CMakeLists.txt
View File

@@ -37,8 +37,6 @@ list(APPEND HEADERS ${HEP_GEANT_HEADERS})
set(LIBRARIES Eigen3::Eigen
${ROOT_LIBRARIES}
${VTK_LIBRARIES}
VTK::ImagingHybrid
VTK::ImagingSources
${PACKAGE_LIBPREFIX}Math
${PACKAGE_LIBPREFIX}Detectors
${PACKAGE_LIBPREFIX}Geant)
@@ -58,7 +56,7 @@ set_target_properties(${libname} PROPERTIES
AUTOMOC ON
AUTOUIC ON
AUTORCC ON)
target_link_libraries(${libname} PUBLIC ${LIBRARIES} Qt6::Widgets)
target_link_libraries(${libname} ${LIBRARIES} Qt6::Widgets)
install(TARGETS ${libname}
EXPORT "uLibTargets"

4
src/Vtk/HEP/Geant/testing/vtkSolidsTest.cpp
View File

@@ -61,8 +61,8 @@ int main(int argc, char** argv) {
vtkTess.AddToViewer(viewer);
// Color them differently
vtkBox.SetColor(0.8, 0.2, 0.2); // Redish box
vtkTess.SetColor(0.2, 0.8, 0.2); // Greenish tess
vtkActor::SafeDownCast(vtkBox.GetProp())->GetProperty()->SetColor(0.8, 0.2, 0.2); // Redish box
vtkActor::SafeDownCast(vtkTess.GetProp())->GetProperty()->SetColor(0.2, 0.8, 0.2); // Greenish tess
// Position tessellated solid away from box
Matrix4f trans = Matrix4f::Identity();

67
src/Vtk/HEP/Geant/vtkBoxSolid.cpp
View File

@@ -10,74 +10,47 @@
//////////////////////////////////////////////////////////////////////////////*/
#include "vtkBoxSolid.h"
#include "Core/Monitor.h"
#include <vtkCubeSource.h>
#include <vtkPolyDataMapper.h>
#include <vtkActor.h>
#include <vtkProperty.h>
#include <vtkAssembly.h>
#include <vtkTransform.h>
#include <vtkMatrix4x4.h>
#include <Geant4/G4VPhysicalVolume.hh>
#include "Vtk/Math/vtkDense.h"
namespace uLib {
namespace Vtk {
vtkBoxSolid::vtkBoxSolid(Geant::BoxSolid *content)
: vtkGeantSolid(content), m_BoxContent(content) {
this->InstallPipe();
// Connect the model's Updated event to updateTransform to ensure VTK sync
m_UpdateConnection = Object::connect(m_BoxContent, &uLib::Object::Updated, this, &vtkBoxSolid::Update);
// Initial sync
// Re-run Update for box-specific pipe
this->Update();
}
vtkBoxSolid::~vtkBoxSolid() {
}
vtkBoxSolid::~vtkBoxSolid() {}
void vtkBoxSolid::Update() {
ConnectionBlock blocker(m_UpdateConnection);
this->UpdateGeometry();
// Ensure base Puppet properties (color, opacity, etc) and transform are applied
this->Puppet::Update();
}
void vtkBoxSolid::SyncFromVtk() {
this->Puppet::SyncFromVtk();
if (auto* proxy = vtkProp3D::SafeDownCast(this->GetProxyProp())) {
if (vtkMatrix4x4* mat = proxy->GetUserMatrix()) {
m_BoxContent->SetTransform(VtkToMatrix4f(mat));
}
}
this->UpdateTransform();
}
void vtkBoxSolid::UpdateGeometry() {
// Sync geometry from G4VSolid provided by vtkGeantSolid (tessellation)
if (!m_BoxContent || !m_BoxContent->GetObject()) {
// Fallback to base tessellation if no model object
vtkGeantSolid::UpdateGeometry();
}
void vtkBoxSolid::UpdateTransform() {
// Take transform from Puppet base (which uses GetContent() -> ContainerBox TRS)
this->Puppet::Update();
}
void vtkBoxSolid::serialize_display(uLib::Archive::display_properties_archive &ar,
const unsigned int version) {
// Expose Geant solid properties and underlying Box/TRS properties
this->Puppet::serialize_display(ar, version);
if (m_BoxContent) {
ar & NVP("Box", *m_BoxContent);
if (m_BoxContent->GetObject()) {
ar & NVP("Container", *m_BoxContent->GetObject());
return;
}
}
}
void vtkBoxSolid::InstallPipe() {
vtkGeantSolid::InstallPipe();
// Use the underlying ContainerBox for precise geometry
Vector3f size = m_BoxContent->GetObject()->GetSize();
vtkNew<vtkCubeSource> cube;
cube->SetXLength(size(0));
cube->SetYLength(size(1));
cube->SetZLength(size(2));
cube->Update();
vtkPolyData *poly = GetPolyData();
if (poly) {
poly->ShallowCopy(cube->GetOutput());
poly->Modified();
}
}
} // namespace Vtk

28
src/Vtk/HEP/Geant/vtkBoxSolid.h
View File

@@ -26,15 +26,8 @@
#ifndef U_VTKBOXSOLID_H
#define U_VTKBOXSOLID_H
#include "Core/Types.h"
#include "Core/Property.h"
#include "Core/Serializable.h"
#include "vtkGeantSolid.h"
class vtkCubeSource;
class vtkActor;
namespace uLib {
namespace Vtk {
@@ -42,36 +35,15 @@ namespace Vtk {
* @brief VTK Puppet for visualizing a Geant::BoxSolid.
*/
class vtkBoxSolid : public vtkGeantSolid {
uLibTypeMacro(vtkBoxSolid, uLib::Vtk::vtkGeantSolid)
public:
vtkBoxSolid(Geant::BoxSolid *content);
virtual ~vtkBoxSolid();
virtual void Update() override;
virtual void UpdateGeometry() override;
virtual void UpdateTransform() override;
virtual void SyncFromVtk() override;
virtual uLib::Object *GetContent() const override {
return m_BoxContent ? (::uLib::Object*)m_BoxContent->GetObject() : nullptr;
}
virtual void serialize_display(uLib::Archive::display_properties_archive &ar,
const unsigned int version = 0) override;
template <typename Ar>
void serialize(Ar &ar, const unsigned int version) {
ar & NVP("BoxSolid", *m_BoxContent);
}
protected:
virtual void InstallPipe() override;
Geant::BoxSolid *m_BoxContent;
uLib::Connection m_UpdateConnection;
ULIB_DECLARE_PROPERTIES(vtkBoxSolid)
};
} // namespace Vtk

2
src/Vtk/HEP/Geant/vtkGeantEvent.h
View File

@@ -43,7 +43,7 @@ public:
virtual class vtkPolyData *GetPolyData() const override;
virtual void Update() override;
virtual void Update();
protected:
virtual void InstallPipe();

1
src/Vtk/HEP/Geant/vtkGeantSolid.cpp
View File

@@ -82,7 +82,6 @@ void vtkGeantSolid::UpdateGeometry() {
int nVertices = polyhedron->GetNoVertices();
for (int i = 1; i <= nVertices; ++i) {
G4Point3D vtx = polyhedron->GetVertex(i);
points->InsertNextPoint(vtx.x(), vtx.y(), vtx.z());
}

1
src/Vtk/Math/vtkContainerBox.cpp
View File

@@ -54,7 +54,6 @@ struct ContainerBoxData {
vtkSmartPointer<vtkMatrix4x4> m_Affine;
uLib::Connection m_UpdateSignal;
ContainerBoxData() : m_Cube(vtkSmartPointer<vtkActor>::New()),
m_Axes(vtkSmartPointer<vtkActor>::New()),
m_VtkAsm(vtkSmartPointer<vtkAssembly>::New()),

8
src/Vtk/Math/vtkContainerBox.h
View File

@@ -38,15 +38,13 @@ namespace Vtk {
struct ContainerBoxData;
class vtkContainerBox : public Puppet, public Polydata {
uLibTypeMacro(vtkContainerBox, Puppet, Polydata)
typedef ContainerBox Content;
public:
vtkContainerBox(Content *content);
~vtkContainerBox();
virtual class vtkPolyData *GetPolyData() const override;
virtual class vtkPolyData *GetPolyData() const;
/**
* @brief Updates the VTK representation from the internal state.
@@ -64,9 +62,9 @@ protected:
virtual void InstallPipe();
struct ContainerBoxData *d;
ContainerBox *m_Content;
Content *m_Content;
bool m_BlockUpdate = false;
ULIB_DECLARE_PROPERTIES(vtkContainerBox)
};
} // namespace Vtk

8
src/Vtk/Math/vtkCylinder.cpp
View File

@@ -93,10 +93,18 @@ void vtkCylinder::SyncFromVtk() {
// VTK -> Model: Extract new world TRS from proxy
vtkMatrix4x4* rootMat = root->GetUserMatrix();
if (rootMat) {
std::cout << "[vtkCylinder::SyncFromVtk] Read Proxy UserMatrix:" << std::endl;
rootMat->Print(std::cout);
}
Matrix4f vtkWorld = VtkToMatrix4f(rootMat);
// Directly sync model from the world matrix
m_Content->FromMatrix(vtkWorld);
std::cout << "[vtkCylinder::SyncFromVtk] New Model WorldMatrix:" << std::endl << m_Content->GetWorldMatrix() << std::endl;
m_Content->Updated();
}

54
src/Vtk/uLibVtkInterface.cxx
View File

@@ -183,7 +183,7 @@ public:
vtkPolyData* polydata = nullptr;
if (vtkActor *actor = vtkActor::SafeDownCast(m_Prop)) {
if (actor->GetMapper()) {
polydata = vtkPolyData::SafeDownCast(actor->GetMapper()->GetInput());
polydata = vtkPolyData::SafeDownCast(actor->GetMapper()->GetDataSetInput());
}
} else if (vtkAssembly *asm_p = vtkAssembly::SafeDownCast(m_Prop)) {
vtkPropCollection *parts = asm_p->GetParts();
@@ -192,7 +192,7 @@ public:
for (int i = 0; i < parts->GetNumberOfItems(); ++i) {
vtkActor *a = vtkActor::SafeDownCast(parts->GetNextProp());
if (a && a->GetMapper()) {
polydata = vtkPolyData::SafeDownCast(a->GetMapper()->GetInput());
polydata = vtkPolyData::SafeDownCast(a->GetMapper()->GetDataSetInput());
if (polydata) break;
}
}
@@ -560,55 +560,28 @@ bool Puppet::IsSelected() const
return pd->m_Selected;
}
void Puppet::ApplyPuppetTransform(vtkProp3D* prop)
{
if (!prop) return;
if (auto* content = this->GetContent()) {
if (auto* tr = dynamic_cast<uLib::TRS*>(content)) {
vtkNew<vtkMatrix4x4> m;
Matrix4fToVtk(tr->GetMatrix(), m);
prop->SetUserMatrix(m);
prop->Modified();
}
}
}
void Puppet::SyncFromVtk()
{
if (auto* content = this->GetContent()) {
if (auto* tr = dynamic_cast<uLib::TRS*>(content)) {
if (auto* proxy = this->GetProxyProp()) {
if (vtkMatrix4x4* mat = proxy->GetUserMatrix()) {
tr->FromMatrix(VtkToMatrix4f(mat));
content->Updated();
}
}
}
}
}
void Puppet::Update()
{
// Apply content transform via virtual GetProp() / ApplyPuppetTransform(),
// so all derived classes benefit without duplicating the matrix code.
this->ApplyPuppetTransform(vtkProp3D::SafeDownCast(this->GetProp()));
// Derived classes should have updated the transform if they override Update()
// or we can apply base transform if it's default:
// pd->ApplyTransform(pd->m_Prop);
// Use virtual GetProp() for appearance so overriders (e.g. vtkVoxImage)
// that never call SetProp() are handled correctly.
pd->ApplyAppearance(this->GetProp());
pd->ApplyAppearance(pd->m_Prop);
if (pd->m_Selected) {
pd->UpdateHighlight();
}
if (auto* prop = this->GetProp()) {
if (pd->m_ShowBoundingBox && pd->m_OutlineSource) {
double* bounds = prop->GetBounds();
if (pd->m_Prop) {
if (pd->m_ShowBoundingBox) {
double* bounds = pd->m_Prop->GetBounds();
pd->m_OutlineSource->SetBounds(bounds);
pd->m_OutlineSource->Update();
}
if (pd->m_ShowScaleMeasures && pd->m_CubeAxesActor) {
pd->m_CubeAxesActor->SetBounds(prop->GetBounds());
if (pd->m_ShowScaleMeasures) {
double* bounds = pd->m_Prop->GetBounds();
pd->m_CubeAxesActor->SetBounds(bounds);
}
}
@@ -625,7 +598,6 @@ void Puppet::Update()
}
void Puppet::ConnectInteractor(vtkRenderWindowInteractor *interactor)
{
}

56
src/Vtk/uLibVtkInterface.h
View File

@@ -35,8 +35,6 @@
#include <iomanip>
#include <ostream>
#include <vector>
#include <set>
#include <boost/type_traits/is_base_of.hpp>
// vtk classes forward declaration //
class vtkProp;
@@ -108,7 +106,7 @@ uLibTypeMacro(Puppet, uLib::Object)
* This method should be called when the VTK representation has been modified
* (e.g., via a gizmo) and the changes need to be pushed back to the model.
*/
virtual void SyncFromVtk();
virtual void SyncFromVtk() {}
enum Representation {
Points = 0,
@@ -129,10 +127,10 @@ uLibTypeMacro(Puppet, uLib::Object)
vtkRendererCollection *GetRenderers() const;
const std::vector<uLib::PropertyBase *> &GetDisplayProperties() const override {
const std::vector<uLib::PropertyBase *> &GetDisplayProperties() const {
return m_DisplayProperties;
}
void RegisterDisplayProperty(uLib::PropertyBase *prop) override {
void RegisterDisplayProperty(uLib::PropertyBase *prop) {
m_DisplayProperties.push_back(prop);
}
@@ -151,7 +149,6 @@ protected:
void ApplyAppearance(vtkProp *prop);
void ApplyTransform(vtkProp3D *p3d);
void ApplyPuppetTransform(vtkProp3D *p3d);
std::vector<uLib::PropertyBase *> m_DisplayProperties;
mutable uLib::RecursiveMutex m_UpdateMutex;
@@ -182,17 +179,10 @@ class display_properties_archive
: public boost::archive::detail::common_oarchive<
display_properties_archive> {
public:
friend class boost::archive::detail::interface_oarchive<display_properties_archive>;
friend class boost::archive::save_access;
using boost::archive::detail::common_oarchive<display_properties_archive>::save_override;
display_properties_archive(Vtk::Puppet *p)
display_properties_archive(Vtk::Puppet *puppet)
: boost::archive::detail::common_oarchive<display_properties_archive>(
boost::archive::no_header),
m_Puppet(p) {
if (p)
m_Visited.insert(dynamic_cast<const void *>(p));
}
m_Puppet(puppet) {}
std::string GetCurrentGroup() const {
std::string group;
@@ -244,24 +234,6 @@ public:
m_GroupStack.pop_back();
}
// Follow pointers to discover properties in child objects
template<class T>
void save_override(T * const & t) {
if (!t) return;
this->save_pointer_helper(t, typename boost::is_base_of<uLib::Object, T>::type());
}
template<class T>
void save_pointer_helper(T* t, boost::mpl::true_) {
const void* ptr = dynamic_cast<const void*>(t);
if (m_Visited.find(ptr) != m_Visited.end()) return;
m_Visited.insert(ptr);
this->save_override(*t);
}
template<class T>
void save_pointer_helper(T* t, boost::mpl::false_) {}
// Recursion for nested classes, ignore primitives
template <class T> void save_override(const T &t) {
this->save_helper(t, typename boost::is_class<T>::type());
@@ -271,8 +243,6 @@ public:
boost::serialization::serialize_adl(*this, const_cast<T &>(t), 0);
}
void save_helper(const std::string &t, boost::mpl::true_) {}
template <class T> void save_helper(const T &t, boost::mpl::false_) {}
void save_override(const boost::archive::object_id_type &t) {}
@@ -284,25 +254,9 @@ public:
void save_override(const boost::archive::class_name_type &t) {}
void save_override(const boost::archive::tracking_type &t) {}
// Called by Property<T>::serialize() and EnumProperty::serialize() to
// directly register an existing property object as a display property.
void register_property(uLib::PropertyBase &p) {
if (m_Puppet) {
m_Puppet->RegisterDisplayProperty(&p);
Vtk::Puppet *puppet = m_Puppet;
uLib::Object::connect(&p, &uLib::PropertyBase::Updated,
[puppet]() { puppet->Update(); });
}
}
void register_enum_property(uLib::EnumProperty &p) {
register_property(p);
}
private:
Vtk::Puppet *m_Puppet;
std::vector<std::string> m_GroupStack;
std::set<const void *> m_Visited;
};
} // namespace Archive