rbdlsim/3rdparty/tracy/server/TracyVector.hpp

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2021-08-06 12:10:32 +02:00
#ifndef __TRACYVECTOR_HPP__
#define __TRACYVECTOR_HPP__
#include <algorithm>
#include <assert.h>
#include <limits>
#include <stdint.h>
#include <stdlib.h>
#include <type_traits>
#include "../common/TracyForceInline.hpp"
#include "TracyMemory.hpp"
#include "TracyPopcnt.hpp"
#include "TracyShortPtr.hpp"
#include "TracySlab.hpp"
//#define TRACY_VECTOR_DEBUG
namespace tracy
{
#pragma pack( 1 )
template<typename T>
class Vector
{
constexpr uint8_t MaxCapacity() { return 0x7F; }
public:
using iterator = T*;
using const_iterator = const T*;
tracy_force_inline Vector()
{
memset( (char*)this, 0, sizeof( Vector<T> ) );
}
Vector( const Vector& ) = delete;
tracy_force_inline Vector( Vector&& src ) noexcept
{
memcpy( (char*)this, &src, sizeof( Vector<T> ) );
memset( (char*)&src, 0, sizeof( Vector<T> ) );
}
tracy_force_inline Vector( const T& value )
: m_ptr( (T*)malloc( sizeof( T ) ) )
, m_size( 1 )
, m_capacity( 0 )
, m_magic( 0 )
{
memUsage += sizeof( T );
new(m_ptr) T( value );
}
tracy_force_inline ~Vector()
{
if( m_capacity != MaxCapacity() && m_ptr )
{
memUsage -= Capacity() * sizeof( T );
free( m_ptr );
}
}
Vector& operator=( const Vector& ) = delete;
tracy_force_inline Vector& operator=( Vector&& src ) noexcept
{
if( m_capacity != MaxCapacity() && m_ptr )
{
memUsage -= Capacity() * sizeof( T );
free( m_ptr );
}
memcpy( (char*)this, &src, sizeof( Vector<T> ) );
memset( (char*)&src, 0, sizeof( Vector<T> ) );
return *this;
}
tracy_force_inline void swap( Vector& other )
{
uint8_t tmp[sizeof( Vector<T> )];
memcpy( (char*)tmp, &other, sizeof( Vector<T> ) );
memcpy( (char*)&other, this, sizeof( Vector<T> ) );
memcpy( (char*)this, tmp, sizeof( Vector<T> ) );
}
tracy_force_inline bool empty() const { return m_size == 0; }
tracy_force_inline size_t size() const { return m_size; }
tracy_force_inline void set_size( size_t sz ) { assert( m_capacity != MaxCapacity() ); m_size = sz; }
tracy_force_inline T* data() { return m_ptr; }
tracy_force_inline const T* data() const { return m_ptr; };
tracy_force_inline T* begin() { return m_ptr; }
tracy_force_inline const T* begin() const { return m_ptr; }
tracy_force_inline T* end() { return m_ptr + m_size; }
tracy_force_inline const T* end() const { return m_ptr + m_size; }
tracy_force_inline T& front() { assert( m_size > 0 ); return m_ptr[0]; }
tracy_force_inline const T& front() const { assert( m_size > 0 ); return m_ptr[0]; }
tracy_force_inline T& back() { assert( m_size > 0 ); return m_ptr[m_size - 1]; }
tracy_force_inline const T& back() const { assert( m_size > 0 ); return m_ptr[m_size - 1]; }
tracy_force_inline T& operator[]( size_t idx ) { return m_ptr[idx]; }
tracy_force_inline const T& operator[]( size_t idx ) const { return m_ptr[idx]; }
tracy_force_inline void push_back( const T& v )
{
assert( m_capacity != MaxCapacity() );
if( m_size == Capacity() ) AllocMore();
new(m_ptr+m_size) T( v );
m_size++;
}
tracy_force_inline void push_back_non_empty( const T& v )
{
assert( m_capacity != MaxCapacity() );
assert( m_ptr );
if( m_size == CapacityNoNullptrCheck() ) AllocMore();
new(m_ptr+m_size) T( v );
m_size++;
}
tracy_force_inline void push_back_no_space_check( const T& v )
{
assert( m_capacity != MaxCapacity() );
assert( m_size < Capacity() );
new(m_ptr+m_size) T( v );
m_size++;
}
tracy_force_inline void push_back( T&& v )
{
assert( m_capacity != MaxCapacity() );
if( m_size == Capacity() ) AllocMore();
new(m_ptr+m_size) T( std::move( v ) );
m_size++;
}
tracy_force_inline T& push_next()
{
assert( m_capacity != MaxCapacity() );
if( m_size == Capacity() ) AllocMore();
new(m_ptr+m_size) T();
return m_ptr[m_size++];
}
tracy_force_inline T& push_next_non_empty()
{
assert( m_capacity != MaxCapacity() );
assert( m_ptr );
if( m_size == CapacityNoNullptrCheck() ) AllocMore();
new(m_ptr+m_size) T();
return m_ptr[m_size++];
}
tracy_force_inline T& push_next_no_space_check()
{
assert( m_capacity != MaxCapacity() );
assert( m_size < Capacity() );
new(m_ptr+m_size) T();
return m_ptr[m_size++];
}
T* insert( T* it, const T& v )
{
assert( m_capacity != MaxCapacity() );
assert( it >= m_ptr && it <= m_ptr + m_size );
const auto dist = it - m_ptr;
if( m_size == Capacity() ) AllocMore();
if( dist != m_size ) memmove( m_ptr + dist + 1, m_ptr + dist, ( m_size - dist ) * sizeof( T ) );
m_size++;
new(m_ptr+dist) T( v );
m_ptr[dist] = v;
return m_ptr + dist;
}
T* insert( T* it, T&& v )
{
assert( m_capacity != MaxCapacity() );
assert( it >= m_ptr && it <= m_ptr + m_size );
const auto dist = it - m_ptr;
if( m_size == Capacity() ) AllocMore();
if( dist != m_size ) memmove( m_ptr + dist + 1, m_ptr + dist, ( m_size - dist ) * sizeof( T ) );
m_size++;
new(m_ptr+dist) T( std::move( v ) );
return m_ptr + dist;
}
void insert( T* it, T* begin, T* end )
{
assert( m_capacity != MaxCapacity() );
assert( it >= m_ptr && it <= m_ptr + m_size );
const auto sz = end - begin;
const auto dist = it - m_ptr;
while( m_size + sz > Capacity() ) AllocMore();
if( dist != m_size ) memmove( m_ptr + dist + sz, m_ptr + dist, ( m_size - dist ) * sizeof( T ) );
m_size += sz;
memcpy( m_ptr + dist, begin, sz * sizeof( T ) );
}
T* erase( T* it )
{
assert( m_capacity != MaxCapacity() );
assert( it >= m_ptr && it <= m_ptr + m_size );
m_size--;
memmove( it, it+1, ( m_size - ( it - m_ptr ) ) * sizeof( T ) );
return it;
}
T* erase( T* begin, T* end )
{
assert( m_capacity != MaxCapacity() );
assert( begin >= m_ptr && begin <= m_ptr + m_size );
assert( end >= m_ptr && end <= m_ptr + m_size );
assert( begin <= end );
const auto dist = end - begin;
if( dist > 0 )
{
memmove( begin, end, ( m_size - ( end - m_ptr ) ) * sizeof( T ) );
m_size -= dist;
}
return begin;
}
tracy_force_inline void pop_back()
{
assert( m_capacity != MaxCapacity() );
assert( m_size > 0 );
m_size--;
}
tracy_force_inline T& back_and_pop()
{
assert( m_capacity != MaxCapacity() );
assert( m_size > 0 );
m_size--;
return m_ptr[m_size];
}
tracy_force_inline void reserve( size_t cap )
{
if( cap == 0 || cap <= Capacity() ) return;
reserve_non_zero( cap );
}
void reserve_non_zero( size_t cap )
{
assert( m_capacity != MaxCapacity() );
cap--;
cap |= cap >> 1;
cap |= cap >> 2;
cap |= cap >> 4;
cap |= cap >> 8;
cap |= cap >> 16;
cap = TracyCountBits( cap );
memUsage += ( ( 1 << cap ) - Capacity() ) * sizeof( T );
m_capacity = cap;
Realloc();
}
tracy_force_inline void reserve_and_use( size_t sz )
{
assert( m_capacity != MaxCapacity() );
reserve( sz );
m_size = sz;
}
template<size_t U>
tracy_force_inline void reserve_exact( uint32_t sz, Slab<U>& slab )
{
assert( !m_ptr );
m_capacity = MaxCapacity();
m_size = sz;
m_ptr = (T*)slab.AllocBig( sizeof( T ) * sz );
}
tracy_force_inline void clear()
{
assert( m_capacity != MaxCapacity() );
m_size = 0;
}
tracy_force_inline bool is_magic() const { return m_magic; }
tracy_force_inline void set_magic() { assert( !m_magic ); m_magic = 1; }
private:
tracy_no_inline void AllocMore()
{
assert( m_capacity != MaxCapacity() );
if( m_ptr == nullptr )
{
memUsage += sizeof( T );
m_ptr = (T*)malloc( sizeof( T ) );
m_capacity = 0;
}
else
{
memUsage += Capacity() * sizeof( T );
m_capacity++;
Realloc();
}
}
void Realloc()
{
T* ptr = (T*)malloc( sizeof( T ) * CapacityNoNullptrCheck() );
if( m_size != 0 )
{
if( std::is_trivially_copyable<T>() )
{
memcpy( (char*)ptr, m_ptr, m_size * sizeof( T ) );
}
else
{
for( uint32_t i=0; i<m_size; i++ )
{
new(ptr+i) T( std::move( m_ptr[i] ) );
}
}
free( m_ptr );
}
m_ptr = ptr;
}
tracy_force_inline uint32_t Capacity() const
{
return m_ptr == nullptr ? 0 : 1 << m_capacity;
}
tracy_force_inline uint32_t CapacityNoNullptrCheck() const
{
return 1 << m_capacity;
}
#ifdef TRACY_VECTOR_DEBUG
T* m_ptr;
#else
short_ptr<T> m_ptr;
#endif
uint32_t m_size;
uint8_t m_capacity : 7;
uint8_t m_magic : 1;
};
template<typename T> struct VectorAdapterDirect { const T& operator()( const T& it ) const { return it; } };
template<typename T> struct VectorAdapterPointer { const T& operator()( const short_ptr<T>& it ) const { return *it; } };
#pragma pack()
enum { VectorSize = sizeof( Vector<int> ) };
}
#endif