godot/thirdparty/embree/kernels/common/buffer.h
jfons a69cc9f13d
Upgrade Embree to the latest official release.
Since Embree v3.13.0 supports AARCH64, switch back to the
official repo instead of using Embree-aarch64.

`thirdparty/embree/patches/godot-changes.patch` should now contain
an accurate diff of the changes done to the library.

(cherry picked from commit 767e374dce)
2021-05-22 15:14:07 +02:00

264 lines
6.8 KiB
C++

// Copyright 2009-2021 Intel Corporation
// SPDX-License-Identifier: Apache-2.0
#pragma once
#include "default.h"
#include "device.h"
namespace embree
{
/*! Implements an API data buffer object. This class may or may not own the data. */
class Buffer : public RefCount
{
public:
/*! Buffer construction */
Buffer()
: device(nullptr), ptr(nullptr), numBytes(0), shared(false) {}
/*! Buffer construction */
Buffer(Device* device, size_t numBytes_in, void* ptr_in = nullptr)
: device(device), numBytes(numBytes_in)
{
device->refInc();
if (ptr_in)
{
shared = true;
ptr = (char*)ptr_in;
}
else
{
shared = false;
alloc();
}
}
/*! Buffer destruction */
~Buffer() {
free();
device->refDec();
}
/*! this class is not copyable */
private:
Buffer(const Buffer& other) DELETED; // do not implement
Buffer& operator =(const Buffer& other) DELETED; // do not implement
public:
/* inits and allocates the buffer */
void create(Device* device_in, size_t numBytes_in)
{
init(device_in, numBytes_in);
alloc();
}
/* inits the buffer */
void init(Device* device_in, size_t numBytes_in)
{
free();
device = device_in;
ptr = nullptr;
numBytes = numBytes_in;
shared = false;
}
/*! sets shared buffer */
void set(Device* device_in, void* ptr_in, size_t numBytes_in)
{
free();
device = device_in;
ptr = (char*)ptr_in;
if (numBytes_in != (size_t)-1)
numBytes = numBytes_in;
shared = true;
}
/*! allocated buffer */
void alloc()
{
if (device)
device->memoryMonitor(this->bytes(), false);
size_t b = (this->bytes()+15) & ssize_t(-16);
ptr = (char*)alignedMalloc(b,16);
}
/*! frees the buffer */
void free()
{
if (shared) return;
alignedFree(ptr);
if (device)
device->memoryMonitor(-ssize_t(this->bytes()), true);
ptr = nullptr;
}
/*! gets buffer pointer */
void* data()
{
/* report error if buffer is not existing */
if (!device)
throw_RTCError(RTC_ERROR_INVALID_ARGUMENT, "invalid buffer specified");
/* return buffer */
return ptr;
}
/*! returns pointer to first element */
__forceinline char* getPtr() const {
return ptr;
}
/*! returns the number of bytes of the buffer */
__forceinline size_t bytes() const {
return numBytes;
}
/*! returns true of the buffer is not empty */
__forceinline operator bool() const {
return ptr;
}
public:
Device* device; //!< device to report memory usage to
char* ptr; //!< pointer to buffer data
size_t numBytes; //!< number of bytes in the buffer
bool shared; //!< set if memory is shared with application
};
/*! An untyped contiguous range of a buffer. This class does not own the buffer content. */
class RawBufferView
{
public:
/*! Buffer construction */
RawBufferView()
: ptr_ofs(nullptr), stride(0), num(0), format(RTC_FORMAT_UNDEFINED), modCounter(1), modified(true), userData(0) {}
public:
/*! sets the buffer view */
void set(const Ref<Buffer>& buffer_in, size_t offset_in, size_t stride_in, size_t num_in, RTCFormat format_in)
{
if ((offset_in + stride_in * num_in) > (stride_in * buffer_in->numBytes))
throw_RTCError(RTC_ERROR_INVALID_ARGUMENT, "buffer range out of bounds");
ptr_ofs = buffer_in->ptr + offset_in;
stride = stride_in;
num = num_in;
format = format_in;
modCounter++;
modified = true;
buffer = buffer_in;
}
/*! returns pointer to the first element */
__forceinline char* getPtr() const {
return ptr_ofs;
}
/*! returns pointer to the i'th element */
__forceinline char* getPtr(size_t i) const
{
assert(i<num);
return ptr_ofs + i*stride;
}
/*! returns the number of elements of the buffer */
__forceinline size_t size() const {
return num;
}
/*! returns the number of bytes of the buffer */
__forceinline size_t bytes() const {
return num*stride;
}
/*! returns the buffer stride */
__forceinline unsigned getStride() const
{
assert(stride <= unsigned(inf));
return unsigned(stride);
}
/*! return the buffer format */
__forceinline RTCFormat getFormat() const {
return format;
}
/*! mark buffer as modified or unmodified */
__forceinline void setModified() {
modCounter++;
modified = true;
}
/*! mark buffer as modified or unmodified */
__forceinline bool isModified(unsigned int otherModCounter) const {
return modCounter > otherModCounter;
}
/*! mark buffer as modified or unmodified */
__forceinline bool isLocalModified() const {
return modified;
}
/*! clear local modified flag */
__forceinline void clearLocalModified() {
modified = false;
}
/*! returns true of the buffer is not empty */
__forceinline operator bool() const {
return ptr_ofs;
}
/*! checks padding to 16 byte check, fails hard */
__forceinline void checkPadding16() const
{
if (ptr_ofs && num)
volatile int MAYBE_UNUSED w = *((int*)getPtr(size()-1)+3); // FIXME: is failing hard avoidable?
}
public:
char* ptr_ofs; //!< base pointer plus offset
size_t stride; //!< stride of the buffer in bytes
size_t num; //!< number of elements in the buffer
RTCFormat format; //!< format of the buffer
unsigned int modCounter; //!< version ID of this buffer
bool modified; //!< local modified data
int userData; //!< special data
Ref<Buffer> buffer; //!< reference to the parent buffer
};
/*! A typed contiguous range of a buffer. This class does not own the buffer content. */
template<typename T>
class BufferView : public RawBufferView
{
public:
typedef T value_type;
/*! access to the ith element of the buffer */
__forceinline T& operator [](size_t i) { assert(i<num); return *(T*)(ptr_ofs + i*stride); }
__forceinline const T& operator [](size_t i) const { assert(i<num); return *(T*)(ptr_ofs + i*stride); }
};
template<>
class BufferView<Vec3fa> : public RawBufferView
{
public:
typedef Vec3fa value_type;
/*! access to the ith element of the buffer */
__forceinline const Vec3fa operator [](size_t i) const
{
assert(i<num);
return Vec3fa(vfloat4::loadu((float*)(ptr_ofs + i*stride)));
}
/*! writes the i'th element */
__forceinline void store(size_t i, const Vec3fa& v)
{
assert(i<num);
vfloat4::storeu((float*)(ptr_ofs + i*stride), (vfloat4)v);
}
};
}