PrusaSlicer-NonPlainar/src/libslic3r/MTUtils.hpp

#ifndef MTUTILS_HPP
#define MTUTILS_HPP

#include <atomic>       // for std::atomic_flag and memory orders
#include <mutex>        // for std::lock_guard
#include <functional>   // for std::function
#include <utility>      // for std::forward

namespace Slic3r {

/// Handy little spin mutex for the cached meshes.
/// Implements the "Lockable" concept
class SpinMutex {
    std::atomic_flag m_flg;
    static const /*constexpr*/ auto MO_ACQ = std::memory_order_acquire;
    static const /*constexpr*/ auto MO_REL = std::memory_order_release;
public:
    inline SpinMutex() { m_flg.clear(MO_REL); }
    inline void lock() { while(m_flg.test_and_set(MO_ACQ)); }
    inline bool try_lock() { return !m_flg.test_and_set(MO_ACQ); }
    inline void unlock() { m_flg.clear(MO_REL); }
};

/// A wrapper class around arbitrary object that needs thread safe caching.
template<class T> class CachedObject {
public:
    // Method type which refreshes the object when it has been invalidated
    using Setter = std::function<void(T&)>;
private:
    T m_obj;            // the object itself
    bool m_valid;       // invalidation flag
    SpinMutex m_lck;    // to make the caching thread safe

    // the setter will be called just before the object's const value is about
    // to be retrieved.
    std::function<void(T&)> m_setter;
public:

    // Forwarded constructor
    template<class...Args> inline CachedObject(Setter fn, Args&&...args):
        m_obj(std::forward<Args>(args)...), m_valid(false), m_setter(fn) {}

    // invalidate the value of the object. The object will be refreshed at the
    // next retrieval (Setter will be called). The data that is used in
    // the setter function should be guarded as well during modification so the
    // modification has to take place in fn.
    inline void invalidate(std::function<void()> fn) {
        std::lock_guard<SpinMutex> lck(m_lck); fn(); m_valid = false;
    }

    // Get the const object properly updated.
    inline const T& get() {
        std::lock_guard<SpinMutex> lck(m_lck);
        if(!m_valid) { m_setter(m_obj); m_valid = true; }
        return m_obj;
    }
};

template<class Vector,
         class Value = typename Vector::value_type>
class IndexBasedIterator {
    static const size_t NONE = size_t(-1);

    std::reference_wrapper<Vector> m_index_ref;
    size_t m_idx = NONE;
public:

    using value_type = Value;
    using pointer = Value *;
    using reference = Value &;
    using difference_type = long;
    using iterator_category = std::random_access_iterator_tag;

    inline explicit
    IndexBasedIterator(Vector& index, size_t idx):
        m_index_ref(index), m_idx(idx) {}

    // Post increment
    inline IndexBasedIterator operator++(int) {
        IndexBasedIterator cpy(*this); ++m_idx; return cpy;
    }

    inline IndexBasedIterator operator--(int) {
        IndexBasedIterator cpy(*this); --m_idx; return cpy;
    }

    inline IndexBasedIterator& operator++() {
        ++m_idx; return *this;
    }

    inline IndexBasedIterator& operator--() {
        --m_idx; return *this;
    }

    inline IndexBasedIterator& operator+=(difference_type l) {
        m_idx += size_t(l); return *this;
    }

    inline IndexBasedIterator operator+(difference_type l) {
        auto cpy = *this; cpy += l; return cpy;
    }

    inline IndexBasedIterator& operator-=(difference_type l) {
        m_idx -= size_t(l); return *this;
    }

    inline IndexBasedIterator operator-(difference_type l) {
        auto cpy = *this; cpy -= l; return cpy;
    }

    operator difference_type() { return difference_type(m_idx); }

    inline bool is_end() const { return m_idx >= m_index_ref.get().size();}

    inline Value & operator*() const {
        assert(m_idx < m_index_ref.get().size());
        return m_index_ref.get().operator[](m_idx);
    }

    inline Value * operator->() const {
        assert(m_idx < m_index_ref.get().size());
        return &m_index_ref.get().operator[](m_idx);
    }

    inline bool operator ==(const IndexBasedIterator& other) {
        size_t e = m_index_ref.get().size();
        return m_idx == other.m_idx || (m_idx >= e && other.m_idx >= e);
    }

    inline bool operator !=(const IndexBasedIterator& other) {
        return !(*this == other);
    }

    inline bool operator <=(const IndexBasedIterator& other) {
        return (m_idx < other.m_idx) || (*this == other);
    }

    inline bool operator <(const IndexBasedIterator& other) {
        return m_idx < other.m_idx && (*this != other);
    }

    inline bool operator >=(const IndexBasedIterator& other) {
        return m_idx > other.m_idx || *this == other;
    }

    inline bool operator >(const IndexBasedIterator& other) {
        return m_idx > other.m_idx && *this != other;
    }
};

template<class It> class Range {
    It from, to;
public:
    It begin() const { return from; }
    It end() const { return to; }
    using Type = It;

    Range() = default;
    Range(It &&b, It &&e):
        from(std::forward<It>(b)), to(std::forward<It>(e)) {}

    inline size_t size() const { return end() - begin(); }
    inline bool empty() const { return size() == 0; }
};

}

#endif // MTUTILS_HPP
Change to return const references for TriangleMesh return values in SLAPrintObject's methods 2018-11-21 14:21:57 +00:00			`#ifndef MTUTILS_HPP`
			`#define MTUTILS_HPP`

merge tm_sla_supports_backend with master 2018-11-21 14:33:30 +00:00			`#include <atomic> // for std::atomic_flag and memory orders`
Change to return const references for TriangleMesh return values in SLAPrintObject's methods 2018-11-21 14:21:57 +00:00			`#include <mutex> // for std::lock_guard`
			`#include <functional> // for std::function`
			`#include <utility> // for std::forward`

			`namespace Slic3r {`

			`/// Handy little spin mutex for the cached meshes.`
			`/// Implements the "Lockable" concept`
			`class SpinMutex {`
			`std::atomic_flag m_flg;`
			`static const /constexpr/ auto MO_ACQ = std::memory_order_acquire;`
			`static const /constexpr/ auto MO_REL = std::memory_order_release;`
			`public:`
			`inline SpinMutex() { m_flg.clear(MO_REL); }`
			`inline void lock() { while(m_flg.test_and_set(MO_ACQ)); }`
			`inline bool try_lock() { return !m_flg.test_and_set(MO_ACQ); }`
			`inline void unlock() { m_flg.clear(MO_REL); }`
			`};`

			`/// A wrapper class around arbitrary object that needs thread safe caching.`
			`template<class T> class CachedObject {`
			`public:`
			`// Method type which refreshes the object when it has been invalidated`
			`using Setter = std::function<void(T&)>;`
			`private:`
			`T m_obj; // the object itself`
			`bool m_valid; // invalidation flag`
			`SpinMutex m_lck; // to make the caching thread safe`

			`// the setter will be called just before the object's const value is about`
			`// to be retrieved.`
			`std::function<void(T&)> m_setter;`
			`public:`

			`// Forwarded constructor`
			`template<class...Args> inline CachedObject(Setter fn, Args&&...args):`
			`m_obj(std::forward<Args>(args)...), m_valid(false), m_setter(fn) {}`

			`// invalidate the value of the object. The object will be refreshed at the`
			`// next retrieval (Setter will be called). The data that is used in`
merge tm_sla_supports_backend with master 2018-11-21 14:33:30 +00:00			`// the setter function should be guarded as well during modification so the`
Change to return const references for TriangleMesh return values in SLAPrintObject's methods 2018-11-21 14:21:57 +00:00			`// modification has to take place in fn.`
			`inline void invalidate(std::function<void()> fn) {`
			`std::lock_guard<SpinMutex> lck(m_lck); fn(); m_valid = false;`
			`}`

			`// Get the const object properly updated.`
			`inline const T& get() {`
			`std::lock_guard<SpinMutex> lck(m_lck);`
			`if(!m_valid) { m_setter(m_obj); m_valid = true; }`
			`return m_obj;`
			`}`
			`};`

Refactoring changes to the slice index. 2019-03-22 14:31:38 +00:00			`template<class Vector,`
			`class Value = typename Vector::value_type>`
			`class IndexBasedIterator {`
			`static const size_t NONE = size_t(-1);`

			`std::reference_wrapper<Vector> m_index_ref;`
			`size_t m_idx = NONE;`
			`public:`

			`using value_type = Value;`
			`using pointer = Value *;`
			`using reference = Value &;`
			`using difference_type = long;`
			`using iterator_category = std::random_access_iterator_tag;`

			`inline explicit`
			`IndexBasedIterator(Vector& index, size_t idx):`
			`m_index_ref(index), m_idx(idx) {}`

			`// Post increment`
			`inline IndexBasedIterator operator++(int) {`
			`IndexBasedIterator cpy(*this); ++m_idx; return cpy;`
			`}`

			`inline IndexBasedIterator operator--(int) {`
			`IndexBasedIterator cpy(*this); --m_idx; return cpy;`
			`}`

			`inline IndexBasedIterator& operator++() {`
			`++m_idx; return *this;`
			`}`

			`inline IndexBasedIterator& operator--() {`
			`--m_idx; return *this;`
			`}`

			`inline IndexBasedIterator& operator+=(difference_type l) {`
			`m_idx += size_t(l); return *this;`
			`}`

			`inline IndexBasedIterator operator+(difference_type l) {`
			`auto cpy = *this; cpy += l; return cpy;`
			`}`

			`inline IndexBasedIterator& operator-=(difference_type l) {`
			`m_idx -= size_t(l); return *this;`
			`}`

			`inline IndexBasedIterator operator-(difference_type l) {`
			`auto cpy = *this; cpy -= l; return cpy;`
			`}`

			`operator difference_type() { return difference_type(m_idx); }`

			`inline bool is_end() const { return m_idx >= m_index_ref.get().size();}`

			`inline Value & operator*() const {`
			`assert(m_idx < m_index_ref.get().size());`
			`return m_index_ref.get().operator[](m_idx);`
			`}`

			`inline Value * operator->() const {`
			`assert(m_idx < m_index_ref.get().size());`
			`return &m_index_ref.get().operator[](m_idx);`
			`}`

			`inline bool operator ==(const IndexBasedIterator& other) {`
			`size_t e = m_index_ref.get().size();`
			`return m_idx == other.m_idx \|\| (m_idx >= e && other.m_idx >= e);`
			`}`

			`inline bool operator !=(const IndexBasedIterator& other) {`
			`return !(*this == other);`
			`}`

			`inline bool operator <=(const IndexBasedIterator& other) {`
			`return (m_idx < other.m_idx) \|\| (*this == other);`
			`}`

			`inline bool operator <(const IndexBasedIterator& other) {`
			`return m_idx < other.m_idx && (*this != other);`
			`}`

			`inline bool operator >=(const IndexBasedIterator& other) {`
			`return m_idx > other.m_idx \|\| *this == other;`
			`}`

			`inline bool operator >(const IndexBasedIterator& other) {`
			`return m_idx > other.m_idx && *this != other;`
			`}`
			`};`

			`template<class It> class Range {`
			`It from, to;`
			`public:`
			`It begin() const { return from; }`
			`It end() const { return to; }`
			`using Type = It;`

			`Range() = default;`
			`Range(It &&b, It &&e):`
			`from(std::forward<It>(b)), to(std::forward<It>(e)) {}`

			`inline size_t size() const { return end() - begin(); }`
			`inline bool empty() const { return size() == 0; }`
			`};`

Change to return const references for TriangleMesh return values in SLAPrintObject's methods 2018-11-21 14:21:57 +00:00			`}`

			`#endif // MTUTILS_HPP`