SuperMarioOdysseyOnline/include/sead/container/seadRingBuffer.h

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2022-06-16 21:33:18 +00:00
#pragma once
#include <algorithm>
#include <type_traits>
#include <basis/seadNew.h>
#include <basis/seadRawPrint.h>
#include <basis/seadTypes.h>
#include <math/seadMathCalcCommon.h>
#include <prim/seadPtrUtil.h>
namespace sead
{
class Heap;
template <typename T>
class RingBuffer
{
public:
RingBuffer() = default;
RingBuffer(s32 capacity, T* buffer) { setBuffer(capacity, buffer); }
template <s32 N>
explicit RingBuffer(T (&array)[N]) : RingBuffer(N, array)
{
}
class iterator
{
public:
explicit iterator(RingBuffer* buffer, s32 index = 0) : mIndex(index), mBuffer(buffer) {}
bool operator==(const iterator& rhs) const
{
return mIndex == rhs.mIndex && mBuffer == rhs.mBuffer;
}
bool operator!=(const iterator& rhs) const { return !operator==(rhs); }
iterator& operator++()
{
++mIndex;
return *this;
}
T& operator*() const { return buffer()(mIndex); }
T* operator->() const { return &buffer()(mIndex); }
s32 getIndex() const { return mIndex; }
private:
RingBuffer& buffer() const { return *mBuffer; }
s32 mIndex;
RingBuffer* mBuffer;
};
class constIterator
{
public:
explicit constIterator(const RingBuffer* buffer, s32 index = 0)
: mIndex(index), mBuffer(buffer)
{
}
bool operator==(const constIterator& rhs) const
{
return mIndex == rhs.mIndex && mBuffer == rhs.mBuffer;
}
bool operator!=(const constIterator& rhs) const { return !operator==(rhs); }
constIterator& operator++()
{
++mIndex;
return *this;
}
const T& operator*() const { return buffer()(mIndex); }
const T* operator->() const { return &buffer()(mIndex); }
s32 getIndex() const { return mIndex; }
private:
const RingBuffer& buffer() const { return *mBuffer; }
s32 mIndex;
const RingBuffer* mBuffer;
};
iterator begin() { return iterator(this); }
constIterator begin() const { return constIterator(this); }
iterator begin(s32 start_idx) { return iterator(this, wrapIndex(start_idx)); }
constIterator begin(s32 start_idx) const { return constIterator(this, wrapIndex(start_idx)); }
iterator end() { return iterator(this, mSize); }
constIterator end() const { return constIterator(this, mSize); }
void allocBuffer(s32 capacity, s32 alignment) { void(tryAllocBuffer(capacity, alignment)); }
void allocBuffer(s32 capacity, Heap* heap, s32 alignment = sizeof(void*))
{
static_cast<void>(tryAllocBuffer(capacity, heap, alignment));
}
bool tryAllocBuffer(s32 capacity, s32 alignment = sizeof(void*))
{
SEAD_ASSERT(mBuffer == nullptr);
if (capacity > 0)
{
T* buffer = new (alignment, std::nothrow) T[capacity];
if (buffer)
{
mBuffer = buffer;
mHead = mSize = 0;
mCapacity = capacity;
SEAD_ASSERT_MSG(PtrUtil::isAlignedPow2(mBuffer, sead::Mathi::abs(alignment)),
"don't set alignment for a class with destructor");
return true;
}
return false;
}
SEAD_ASSERT_MSG(false, "numMax[%d] must be larger than zero", capacity);
return false;
}
bool tryAllocBuffer(s32 capacity, Heap* heap, s32 alignment = sizeof(void*))
{
SEAD_ASSERT(mBuffer == nullptr);
if (capacity > 0)
{
T* buffer = new (heap, alignment, std::nothrow) T[capacity];
if (buffer)
{
mBuffer = buffer;
mHead = mSize = 0;
mCapacity = capacity;
SEAD_ASSERT_MSG(PtrUtil::isAlignedPow2(mBuffer, sead::Mathi::abs(alignment)),
"don't set alignment for a class with destructor");
return true;
}
return false;
}
SEAD_ASSERT_MSG(false, "numMax[%d] must be larger than zero", capacity);
return false;
}
void allocBufferAssert(s32 size, Heap* heap, s32 alignment = sizeof(void*))
{
if (!tryAllocBuffer(size, heap, alignment))
AllocFailAssert(heap, sizeof(T) * size, alignment);
}
void freeBuffer()
{
if (mBuffer)
{
delete[] mBuffer;
mBuffer = nullptr;
mCapacity = 0;
mHead = 0;
mSize = 0;
}
}
void setBuffer(s32 capacity, T* bufferptr)
{
if (capacity < 1)
{
SEAD_ASSERT_MSG(false, "numMax[%d] must be larger than zero", capacity);
return;
}
if (!bufferptr)
{
SEAD_ASSERT_MSG(false, "bufferptr is null");
return;
}
mBuffer = bufferptr;
mHead = mSize = 0;
mCapacity = capacity;
}
bool isBufferReady() const { return mBuffer != nullptr; }
T& operator[](s32 idx)
{
if (u32(mSize) <= u32(idx))
{
SEAD_ASSERT_MSG(false, "index exceeded [%d/%d/%d]", idx, mSize, mCapacity);
return mBuffer[0];
}
return *unsafeGet(idx);
}
const T& operator[](s32 idx) const
{
if (u32(mSize) <= u32(idx))
{
SEAD_ASSERT_MSG(false, "index exceeded [%d/%d/%d]", idx, mSize, mCapacity);
return mBuffer[0];
}
return *unsafeGet(idx);
}
T* get(s32 idx)
{
if (u32(mSize) <= u32(idx))
{
SEAD_ASSERT_MSG(false, "index exceeded [%d/%d/%d]", idx, mSize, mCapacity);
return nullptr;
}
return unsafeGet(idx);
}
const T* get(s32 idx) const
{
if (u32(mSize) <= u32(idx))
{
SEAD_ASSERT_MSG(false, "index exceeded [%d/%d/%d]", idx, mSize, mCapacity);
return nullptr;
}
return unsafeGet(idx);
}
T& operator()(s32 idx) { return *unsafeGet(idx); }
const T& operator()(s32 idx) const { return *unsafeGet(idx); }
T* unsafeGet(s32 idx) { return &mBuffer[calcRealIdx(idx)]; }
const T* unsafeGet(s32 idx) const { return &mBuffer[calcRealIdx(idx)]; }
T& front() { return *unsafeGet(0); }
const T& front() const { return *unsafeGet(0); }
T& back()
{
if (mSize < 1)
{
SEAD_ASSERT_MSG(false, "no element");
return mBuffer[0];
}
return *unsafeGet(mSize - 1);
}
const T& back() const
{
if (mSize < 1)
{
SEAD_ASSERT_MSG(false, "no element");
return mBuffer[0];
}
return *unsafeGet(mSize - 1);
}
s32 capacity() const { return mCapacity; }
s32 size() const { return mSize; }
bool empty() const { return mSize == 0; }
explicit operator bool() const { return !empty(); }
T* data() { return mBuffer; }
const T* data() const { return mBuffer; }
void forcePushBack(const T& item)
{
if (mSize < mCapacity)
{
pushBack(item);
return;
}
if (mSize >= 1)
popFront();
pushBack(item);
}
bool pushBack(const T& item)
{
if (mSize >= mCapacity)
return false;
*unsafeGet(mSize++) = item;
return true;
}
void forcePushBackwards(const T& item, u32 offset = 1)
{
mHead = (mHead < 1 ? mCapacity : mHead) - offset;
++mSize;
*unsafeGet(0) = item;
}
bool pushBackwards(const T& item)
{
if (mSize >= mCapacity)
return false;
forcePushBackwards(item);
return true;
}
T popFront()
{
if (mSize >= 1)
{
T item = *unsafeGet(0);
mHead = mHead + 1 < mCapacity ? mHead + 1 : 0;
--mSize;
return item;
}
SEAD_ASSERT_MSG(false, "no element");
return {};
}
void clear() { mHead = mSize = 0; }
protected:
s32 calcRealIdx(s32 idx) const
{
s32 real_idx = mHead + idx;
if (real_idx >= mCapacity)
real_idx -= mCapacity;
return real_idx;
}
s32 wrapIndex(s32 idx) const { return u32(idx) > u32(mSize) ? 0 : idx; }
T* mBuffer = nullptr;
s32 mCapacity = 0;
s32 mHead = 0;
s32 mSize = 0;
};
template <typename T, s32 N>
class FixedRingBuffer : public RingBuffer<T>
{
public:
FixedRingBuffer() { RingBuffer<T>::setBuffer(N, mData); }
void allocBuffer(s32 capacity, s32 alignment) = delete;
void allocBuffer(s32 capacity, Heap* heap, s32 alignment) = delete;
bool tryAllocBuffer(s32 capacity, s32 alignment) = delete;
bool tryAllocBuffer(s32 capacity, Heap* heap, s32 alignment) = delete;
void allocBufferAssert(s32 size, Heap* heap, s32 alignment) = delete;
void freeBuffer() = delete;
void setBuffer(s32 capacity, T* bufferptr) = delete;
private:
T mData[N];
};
} // namespace sead