glm/test/external/gli/core/image.inl

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2016-11-18 22:16:29 +00:00
namespace gli{
namespace detail
{
inline size_t texel_linear_aAdressing
(
extent1d const& Extent,
extent1d const& TexelCoord
)
{
GLI_ASSERT(glm::all(glm::lessThan(TexelCoord, Extent)));
return static_cast<size_t>(TexelCoord.x);
}
inline size_t texel_linear_adressing
(
extent2d const& Extent,
extent2d const& TexelCoord
)
{
GLI_ASSERT(TexelCoord.x < Extent.x);
GLI_ASSERT(TexelCoord.y < Extent.y);
return static_cast<size_t>(TexelCoord.x + Extent.x * TexelCoord.y);
}
inline size_t texel_linear_adressing
(
extent3d const& Extent,
extent3d const& TexelCoord
)
{
GLI_ASSERT(TexelCoord.x < Extent.x);
GLI_ASSERT(TexelCoord.y < Extent.y);
GLI_ASSERT(TexelCoord.z < Extent.z);
return static_cast<size_t>(TexelCoord.x + Extent.x * (TexelCoord.y + Extent.y * TexelCoord.z));
}
inline size_t texel_morton_adressing
(
extent1d const& Extent,
extent1d const& TexelCoord
)
{
GLI_ASSERT(TexelCoord.x < Extent.x);
return TexelCoord.x;
}
inline size_t texel_morton_adressing
(
extent2d const& Extent,
extent2d const& TexelCoord
)
{
GLI_ASSERT(TexelCoord.x < Extent.x && TexelCoord.x >= 0 && TexelCoord.x < std::numeric_limits<extent2d::value_type>::max());
GLI_ASSERT(TexelCoord.y < Extent.y && TexelCoord.y >= 0 && TexelCoord.y < std::numeric_limits<extent2d::value_type>::max());
glm::u32vec2 const Input(TexelCoord);
return static_cast<size_t>(glm::bitfieldInterleave(Input.x, Input.y));
}
inline size_t texel_morton_adressing
(
extent3d const& Extent,
extent3d const& TexelCoord
)
{
GLI_ASSERT(TexelCoord.x < Extent.x);
GLI_ASSERT(TexelCoord.y < Extent.y);
GLI_ASSERT(TexelCoord.z < Extent.z);
glm::u32vec3 const Input(TexelCoord);
return static_cast<size_t>(glm::bitfieldInterleave(Input.x, Input.y, Input.z));
}
}//namespace detail
inline image::image()
: Format(static_cast<gli::format>(FORMAT_INVALID))
, BaseLevel(0)
, Data(nullptr)
, Size(0)
{}
inline image::image
(
format_type Format,
extent_type const& Extent
)
: Storage(std::make_shared<storage_linear>(Format, Extent, 1, 1, 1))
, Format(Format)
, BaseLevel(0)
, Data(Storage->data())
, Size(compute_size(0))
{}
inline image::image
(
std::shared_ptr<storage_linear> Storage,
format_type Format,
size_type BaseLayer,
size_type BaseFace,
size_type BaseLevel
)
: Storage(Storage)
, Format(Format)
, BaseLevel(BaseLevel)
, Data(compute_data(BaseLayer, BaseFace, BaseLevel))
, Size(compute_size(BaseLevel))
{}
inline image::image
(
image const & Image,
format_type Format
)
: Storage(Image.Storage)
, Format(Format)
, BaseLevel(Image.BaseLevel)
, Data(Image.Data)
, Size(Image.Size)
{
GLI_ASSERT(block_size(Format) == block_size(Image.format()));
}
inline bool image::empty() const
{
if(this->Storage.get() == nullptr)
return true;
return this->Storage->empty();
}
inline image::size_type image::size() const
{
GLI_ASSERT(!this->empty());
return this->Size;
}
template <typename genType>
inline image::size_type image::size() const
{
GLI_ASSERT(sizeof(genType) <= this->Storage->block_size());
return this->size() / sizeof(genType);
}
inline image::format_type image::format() const
{
return this->Format;
}
inline image::extent_type image::extent() const
{
GLI_ASSERT(!this->empty());
storage_linear::extent_type const& SrcExtent = this->Storage->extent(this->BaseLevel);
storage_linear::extent_type const& DstExtent = SrcExtent * block_extent(this->format()) / this->Storage->block_extent();
return glm::max(DstExtent, storage_linear::extent_type(1));
}
inline void* image::data()
{
GLI_ASSERT(!this->empty());
return this->Data;
}
inline void const* image::data() const
{
GLI_ASSERT(!this->empty());
return this->Data;
}
template <typename genType>
inline genType* image::data()
{
GLI_ASSERT(!this->empty());
GLI_ASSERT(this->Storage->block_size() >= sizeof(genType));
return reinterpret_cast<genType *>(this->data());
}
template <typename genType>
inline genType const* image::data() const
{
GLI_ASSERT(!this->empty());
GLI_ASSERT(this->Storage->block_size() >= sizeof(genType));
return reinterpret_cast<genType const *>(this->data());
}
inline void image::clear()
{
GLI_ASSERT(!this->empty());
memset(this->data<glm::byte>(), 0, this->size<glm::byte>());
}
template <typename genType>
inline void image::clear(genType const& Texel)
{
GLI_ASSERT(!this->empty());
GLI_ASSERT(this->Storage->block_size() == sizeof(genType));
for(size_type TexelIndex = 0; TexelIndex < this->size<genType>(); ++TexelIndex)
*(this->data<genType>() + TexelIndex) = Texel;
}
inline image::data_type* image::compute_data(size_type BaseLayer, size_type BaseFace, size_type BaseLevel)
{
size_type const BaseOffset = this->Storage->base_offset(BaseLayer, BaseFace, BaseLevel);
return this->Storage->data() + BaseOffset;
}
inline image::size_type image::compute_size(size_type Level) const
{
GLI_ASSERT(!this->empty());
return this->Storage->level_size(Level);
}
template <typename genType>
genType image::load(extent_type const& TexelCoord)
{
GLI_ASSERT(!this->empty());
GLI_ASSERT(!is_compressed(this->format()));
GLI_ASSERT(this->Storage->block_size() == sizeof(genType));
GLI_ASSERT(glm::all(glm::lessThan(TexelCoord, this->extent())));
return *(this->data<genType>() + detail::texel_linear_adressing(this->extent(), TexelCoord));
}
template <typename genType>
void image::store(extent_type const& TexelCoord, genType const& Data)
{
GLI_ASSERT(!this->empty());
GLI_ASSERT(!is_compressed(this->format()));
GLI_ASSERT(this->Storage->block_size() == sizeof(genType));
GLI_ASSERT(glm::all(glm::lessThan(TexelCoord, this->extent())));
*(this->data<genType>() + detail::texel_linear_adressing(this->extent(), TexelCoord)) = Data;
}
}//namespace gli