use vector instead of raw heap for winding_storage_heap_t

2022-08-08 20:09:41 -04:00 · 2022-08-08 20:09:41 -04:00 · 8b7a1c21c9
parent 5b56ecfb28
commit 8b7a1c21c9
1 changed files with 25 additions and 62 deletions
--- a/include/common/polylib.hh
+++ b/include/common/polylib.hh
@ -109,7 +109,7 @@ public:
        return *this;
    }

-    inline const size_t &size() const { return count; }
+    inline size_t size() const { return count; }

    inline qvec3d &at(const size_t &index)
    {
@ -198,31 +198,21 @@ public:
 };


-// Stack storage; uses a solid heap allocation. Throws if it can't insert
-// a new member.
+// Heap storage; uses a vector.
 struct winding_storage_heap_t
 {
 protected:
-    qvec3d *heap = nullptr;
-    size_t allocated = 0;
+    std::vector<qvec3d> values {};

 public:
-    size_t count = 0;
-
    // default constructor does nothing
    inline winding_storage_heap_t() { }

-    // destructor
-    ~winding_storage_heap_t() { resize(0); }
-
    // construct winding with initial size; may allocate
    // memory, and sets size, but does not initialize any
    // of them.
-    inline winding_storage_heap_t(const size_t &initial_size) : allocated(initial_size), count(initial_size)
+    inline winding_storage_heap_t(const size_t &initial_size) : values(initial_size)
    {
-        if (initial_size) {
-            heap = reinterpret_cast<qvec3d *>(malloc(sizeof(qvec3d) * initial_size));
-        }
    }

    // construct winding from range.
@ -230,36 +220,28 @@ public:
    template<typename Iter, std::enable_if_t<is_iterator_v<Iter>, int> = 0>
    inline winding_storage_heap_t(Iter begin, Iter end) : winding_storage_heap_t(end - begin)
    {
-        std::copy_n(begin, count, heap);
+        std::copy_n(begin, size(), values.data());
    }

    // copy constructor; uses optimized method of copying
    // data over.
    inline winding_storage_heap_t(const winding_storage_heap_t &copy) : winding_storage_heap_t(copy.size())
    {
-        std::copy_n(copy.heap, copy.count, heap);
+        std::copy_n(copy.values.data(), copy.size(), values.data());
    }

    // move constructor
-    inline winding_storage_heap_t(winding_storage_heap_t &&move) noexcept : count(move.count)
+    inline winding_storage_heap_t(winding_storage_heap_t &&move) noexcept : values(std::move(move.values))
    {
-        // take ownership of heap pointer
-        heap = move.heap;
-        count = move.count;
-        allocated = move.allocated;
-
-        move.heap = nullptr;
-        move.count = 0;
-        move.allocated = 0;
    }

    // assignment copy
    inline winding_storage_heap_t &operator=(const winding_storage_heap_t &copy)
    {
-        resize(copy.count);
+        resize(copy.size());

        // copy array range
-        std::copy_n(copy.heap, copy.count, heap);
+        std::copy_n(copy.values.data(), copy.size(), values.data());

        return *this;
    }
@ -268,18 +250,12 @@ public:
    inline winding_storage_heap_t &operator=(winding_storage_heap_t &&move) noexcept
    {
        // take ownership of heap pointer
-        heap = move.heap;
-        count = move.count;
-        allocated = move.allocated;
-
-        move.heap = nullptr;
-        move.count = 0;
-        move.allocated = 0;
+        values = std::move(move.values);

        return *this;
    }

-    inline const size_t &size() const { return count; }
+    inline size_t size() const { return values.size(); }

    inline qvec3d &at(const size_t &index)
    {
@ -288,7 +264,7 @@ public:
            throw std::invalid_argument("index");
 #endif

-        return heap[index];
+        return values[index];
    }

    inline const qvec3d &at(const size_t &index) const
@ -298,72 +274,59 @@ public:
            throw std::invalid_argument("index");
 #endif

-        return heap[index];
+        return values[index];
    }

    // un-bounds-checked
    inline qvec3d &operator[](const size_t &index)
    {
-        return heap[index];
+        return values[index];
    }

    // un-bounds-checked
    inline const qvec3d &operator[](const size_t &index) const
    {
-        return heap[index];
+        return values[index];
    }

    inline const auto begin() const
    {
-        return heap;
+        return values.begin();
    }

    inline const auto end() const
    {
-        return heap + count;
+        return values.end();
    }

    inline auto begin()
    {
-        return heap;
+        return values.begin();
    }

    inline auto end()
    {
-        return heap + count;
+        return values.end();
    }

    inline qvec3d &emplace_back(const qvec3d &vec)
    {
-        resize(count + 1);
-        return (heap[count - 1] = vec);
+        return values.emplace_back(vec);
    }

    inline void resize(const size_t &new_size)
    {
-        count = new_size;
-
-        if (new_size == 0) {
-            free(heap);
-            heap = nullptr;
-            allocated = 0;
-        } else if (new_size > allocated) {
-            heap = reinterpret_cast<qvec3d *>(realloc(heap, new_size * sizeof(qvec3d)));
-            allocated = new_size;
-        }
+        values.resize(new_size);
    }

    inline void reserve(size_t size)
    {
-        if (allocated < size) {
-            heap = reinterpret_cast<qvec3d *>(realloc(heap, size * sizeof(qvec3d)));
-            allocated = size;
-        }
+        values.reserve(size);
    }

    inline void clear()
    {
-        count = 0;
+        values.clear();
    }
 };

@ -563,7 +526,7 @@ public:
        return *this;
    }

-    inline const size_t &size() const { return count; }
+    inline size_t size() const { return count; }

    inline size_t vector_size() const { return vector.size(); }

@ -716,7 +679,7 @@ public:

    inline explicit operator bool() const { return !empty(); }

-    inline const size_t &size() const { return storage.size(); }
+    inline size_t size() const { return storage.size(); }

    inline qvec3d &at(const size_t &index)
    {