#ifndef Magnum_GL_CubeMapTextureArray_h #define Magnum_GL_CubeMapTextureArray_h /* This file is part of Magnum. Copyright © 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019 Vladimír Vondruš Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #if !defined(MAGNUM_TARGET_GLES2) && !defined(MAGNUM_TARGET_WEBGL) /** @file * @brief Class @ref Magnum::GL::CubeMapTextureArray */ #endif #include "Magnum/Array.h" #include "Magnum/Sampler.h" #include "Magnum/GL/AbstractTexture.h" #include "Magnum/GL/Sampler.h" #include "Magnum/Math/Vector3.h" #if !defined(MAGNUM_TARGET_GLES2) && !defined(MAGNUM_TARGET_WEBGL) namespace Magnum { namespace GL { /** @brief Cube map texture array See @ref CubeMapTexture documentation for introduction. @section GL-CubeMapTextureArray-usage Usage See @ref Texture documentation for introduction. Common usage is to specify each layer and face separately using @ref setSubImage(). You have to allocate the memory for all layers and faces first by calling @ref setStorage(). Example: array with 4 layers of cube maps, each cube map consisting of six 64x64 images, i.e. 24 layers total: @snippet MagnumGL.cpp CubeMapTextureArray-usage In shader, the texture is used via @glsl samplerCubeArray @ce, @glsl samplerCubeArrayShadow @ce, @glsl isamplerCubeArray @ce or @glsl usamplerCubeArray @ce. Unlike in classic textures, coordinates for cube map texture arrays is signed four-part vector. First three parts define vector from the center of the cube which intersects with one of the six sides of the cube map, fourth part is layer in the array. See @ref AbstractShaderProgram for more information about usage in shaders. @see @ref Renderer::Feature::SeamlessCubeMapTexture, @ref CubeMapTexture, @ref Texture, @ref TextureArray, @ref RectangleTexture, @ref BufferTexture, @ref MultisampleTexture @m_keywords{GL_TEXTURE_CUBE_MAP_ARRAY} @requires_gl40 Extension @gl_extension{ARB,texture_cube_map_array} @requires_gles30 Not defined in OpenGL ES 2.0. @requires_gles32 Extension @gl_extension{ANDROID,extension_pack_es31a} / @gl_extension{EXT,texture_cube_map_array} @requires_gles Cube map texture arrays are not available in WebGL. */ class MAGNUM_GL_EXPORT CubeMapTextureArray: public AbstractTexture { public: /** * @brief Max supported size of one side of cube map texture array * * The result is cached, repeated queries don't result in repeated * OpenGL calls. If @gl_extension{ARB,texture_cube_map_array} (part of * OpenGL 4.0) is not available, returns zero vector. * @see @fn_gl{Get} with @def_gl_keyword{MAX_CUBE_MAP_TEXTURE_SIZE} and * @def_gl_keyword{MAX_ARRAY_TEXTURE_LAYERS} */ static Vector3i maxSize(); #ifndef MAGNUM_TARGET_GLES /** * @brief @copybrief Texture::compressedBlockSize() * * See @ref Texture::compressedBlockSize() for more information. * @requires_gl43 Extension @gl_extension{ARB,internalformat_query2} * @requires_gl Compressed texture queries are not available in OpenGL * ES. */ static Vector2i compressedBlockSize(TextureFormat format) { return DataHelper<2>::compressedBlockSize(GL_TEXTURE_CUBE_MAP_ARRAY, format); } /** * @brief @copybrief Texture::compressedBlockDataSize() * * See @ref Texture::compressedBlockDataSize() for more information. * @requires_gl43 Extension @gl_extension{ARB,internalformat_query2} * @requires_gl Compressed texture queries are not available in OpenGL * ES. * @see @ref compressedBlockSize(), @fn_gl_keyword{GetInternalformat} * with @def_gl_keyword{TEXTURE_COMPRESSED_BLOCK_SIZE} */ static Int compressedBlockDataSize(TextureFormat format) { return AbstractTexture::compressedBlockDataSize(GL_TEXTURE_CUBE_MAP_ARRAY, format); } #endif /** * @brief Wrap existing OpenGL cube map array texture object * @param id OpenGL cube map array texture ID * @param flags Object creation flags * * The @p id is expected to be of an existing OpenGL texture object * with target @def_gl{TEXTURE_CUBE_MAP_ARRAY}. Unlike texture created * using constructor, the OpenGL object is by default not deleted on * destruction, use @p flags for different behavior. * @see @ref release() */ static CubeMapTextureArray wrap(GLuint id, ObjectFlags flags = {}) { return CubeMapTextureArray{id, flags}; } /** * @brief Constructor * * Creates new OpenGL texture object. If @gl_extension{ARB,direct_state_access} * (part of OpenGL 4.5) is not available, the texture is created on * first use. * @see @ref CubeMapTextureArray(NoCreateT), @ref wrap(), * @fn_gl_keyword{CreateTextures} with @def_gl{TEXTURE_CUBE_MAP_ARRAY}, * eventually @fn_gl_keyword{GenTextures} */ explicit CubeMapTextureArray(): AbstractTexture{GL_TEXTURE_CUBE_MAP_ARRAY} {} /** * @brief Construct without creating the underlying OpenGL object * * The constructed instance is equivalent to moved-from state. Useful * in cases where you will overwrite the instance later anyway. Move * another object over it to make it useful. * * This function can be safely used for constructing (and later * destructing) objects even without any OpenGL context being active. * @see @ref CubeMapTextureArray(), @ref wrap() */ explicit CubeMapTextureArray(NoCreateT) noexcept: AbstractTexture{NoCreate, GL_TEXTURE_CUBE_MAP_ARRAY} {} /** @brief Copying is not allowed */ CubeMapTextureArray(const CubeMapTextureArray&) = delete; /** @brief Move constructor */ CubeMapTextureArray(CubeMapTextureArray&&) noexcept = default; /** @brief Copying is not allowed */ CubeMapTextureArray& operator=(const CubeMapTextureArray&) = delete; /** @brief Move assignment */ CubeMapTextureArray& operator=(CubeMapTextureArray&&) noexcept = default; /** * @brief Bind level of given texture layer to given image unit * @param imageUnit Image unit * @param level Texture level * @param layer Texture layer * @param access Image access * @param format Image format * * Layer is equivalent to layer * 6 + number of texture face, i.e. +X * is @cpp 0 @ce and so on, in order of (+X, -X, +Y, -Y, +Z, -Z). * @note This function is meant to be used only internally from * @ref AbstractShaderProgram subclasses. See its documentation * for more information. * @see @ref bindImages(Int, std::initializer_list), * @ref bindImageLayered(), @ref unbindImage(), @ref unbindImages(), * @ref AbstractShaderProgram::maxImageUnits(), * @fn_gl{BindImageTexture} * @requires_gl42 Extension @gl_extension{ARB,shader_image_load_store} * @requires_gles31 Shader image load/store is not available in OpenGL * ES 3.0 and older. */ void bindImage(Int imageUnit, Int level, Int layer, ImageAccess access, ImageFormat format) { bindImageInternal(imageUnit, level, false, layer, access, format); } /** * @brief Bind level of layered texture to given image unit * @param imageUnit Image unit * @param level Texture level * @param access Image access * @param format Image format * * @note This function is meant to be used only internally from * @ref AbstractShaderProgram subclasses. See its documentation * for more information. * @see @ref bindImages(Int, std::initializer_list), * @ref bindImage(), @ref unbindImage(), @ref unbindImages(), * @ref AbstractShaderProgram::maxImageUnits(), * @fn_gl{BindImageTexture} * @requires_gl42 Extension @gl_extension{ARB,shader_image_load_store} * @requires_gles31 Shader image load/store is not available in OpenGL * ES 3.0 and older. */ void bindImageLayered(Int imageUnit, Int level, ImageAccess access, ImageFormat format) { bindImageInternal(imageUnit, level, true, 0, access, format); } /** * @brief @copybrief Texture::setBaseLevel() * @return Reference to self (for method chaining) * * See @ref Texture::setBaseLevel() for more information. */ CubeMapTextureArray& setBaseLevel(Int level) { AbstractTexture::setBaseLevel(level); return *this; } /** * @brief @copybrief Texture::setMaxLevel() * @return Reference to self (for method chaining) * * See @ref Texture::setMaxLevel() for more information. */ CubeMapTextureArray& setMaxLevel(Int level) { AbstractTexture::setMaxLevel(level); return *this; } /** * @brief @copybrief Texture::setMinificationFilter() * @return Reference to self (for method chaining) * * See @ref Texture::setMinificationFilter() for more information. */ CubeMapTextureArray& setMinificationFilter(SamplerFilter filter, SamplerMipmap mipmap = SamplerMipmap::Base) { AbstractTexture::setMinificationFilter(filter, mipmap); return *this; } /** @overload */ CubeMapTextureArray& setMinificationFilter(Magnum::SamplerFilter filter, Magnum::SamplerMipmap mipmap = Magnum::SamplerMipmap::Base) { return setMinificationFilter(samplerFilter(filter), samplerMipmap(mipmap)); } /** * @brief @copybrief Texture::setMagnificationFilter() * @return Reference to self (for method chaining) * * See @ref Texture::setMagnificationFilter() for more information. */ CubeMapTextureArray& setMagnificationFilter(SamplerFilter filter) { AbstractTexture::setMagnificationFilter(filter); return *this; } /** @overload */ CubeMapTextureArray& setMagnificationFilter(Magnum::SamplerFilter filter) { return setMagnificationFilter(samplerFilter(filter)); } /** * @brief @copybrief Texture::setMinLod() * @return Reference to self (for method chaining) * * See @ref Texture::setMinLod() for more information. */ CubeMapTextureArray& setMinLod(Float lod) { AbstractTexture::setMinLod(lod); return *this; } /** * @brief @copybrief Texture::setMaxLod() * @return Reference to self (for method chaining) * * See @ref Texture::setMaxLod() for more information. */ CubeMapTextureArray& setMaxLod(Float lod) { AbstractTexture::setMaxLod(lod); return *this; } #ifndef MAGNUM_TARGET_GLES /** * @brief @copybrief Texture::setLodBias() * @return Reference to self (for method chaining) * * See @ref Texture::setLodBias() for more information. * @requires_gl Texture LOD bias can be specified only directly in * fragment shader in OpenGL ES. */ CubeMapTextureArray& setLodBias(Float bias) { AbstractTexture::setLodBias(bias); return *this; } #endif /** * @brief @copybrief Texture::setWrapping() * @return Reference to self (for method chaining) * * See @ref Texture::setWrapping() for more information. */ CubeMapTextureArray& setWrapping(const Array2D& wrapping) { DataHelper<2>::setWrapping(*this, wrapping); return *this; } /** @overload */ CubeMapTextureArray& setWrapping(const Array2D& wrapping) { return setWrapping(samplerWrapping(wrapping)); } /** * @brief @copybrief Texture::setBorderColor(const Color4&) * @return Reference to self (for method chaining) * * See @ref Texture::setBorderColor(const Color4&) for more * information. * @requires_gles32 Extension @gl_extension{ANDROID,extension_pack_es31a} / * @gl_extension{EXT,texture_border_clamp} or * @gl_extension{NV,texture_border_clamp} */ CubeMapTextureArray& setBorderColor(const Color4& color) { AbstractTexture::setBorderColor(color); return *this; } /** * @brief @copybrief Texture::setBorderColor(const Vector4ui&) * @return Reference to self (for method chaining) * * See @ref Texture::setBorderColor(const Vector4ui&) for more * information. * @requires_gl30 Extension @gl_extension{EXT,texture_integer} * @requires_gles32 Extension @gl_extension{ANDROID,extension_pack_es31a} / * @gl_extension{EXT,texture_border_clamp} */ CubeMapTextureArray& setBorderColor(const Vector4ui& color) { AbstractTexture::setBorderColor(color); return *this; } /** @overload * @requires_gl30 Extension @gl_extension{EXT,texture_integer} * @requires_gles32 Extension @gl_extension{ANDROID,extension_pack_es31a} / * @gl_extension{EXT,texture_border_clamp} */ CubeMapTextureArray& setBorderColor(const Vector4i& color) { AbstractTexture::setBorderColor(color); return *this; } /** * @brief @copybrief Texture::setMaxAnisotropy() * @return Reference to self (for method chaining) * * See @ref Texture::setMaxAnisotropy() for more information. */ CubeMapTextureArray& setMaxAnisotropy(Float anisotropy) { AbstractTexture::setMaxAnisotropy(anisotropy); return *this; } /** * @brief @copybrief Texture::setSrgbDecode() * @return Reference to self (for method chaining) * * See @ref Texture::setSrgbDecode() for more information. * @requires_extension Extension @gl_extension{EXT,texture_sRGB_decode} * @requires_es_extension Extension @gl_extension{ANDROID,extension_pack_es31a} / * @gl_extension{EXT,texture_sRGB_decode} */ CubeMapTextureArray& setSrgbDecode(bool decode) { AbstractTexture::setSrgbDecode(decode); return *this; } #ifdef MAGNUM_BUILD_DEPRECATED /** @brief @copybrief setSrgbDecode() * @deprecated Use @ref setSrgbDecode() instead. */ CORRADE_DEPRECATED("use setSrgbDecode() instead") CubeMapTextureArray& setSRGBDecode(bool decode) { return setSrgbDecode(decode); } #endif /** * @brief @copybrief Texture::setSwizzle() * @return Reference to self (for method chaining) * * See @ref Texture::setSwizzle() for more information. * @requires_gl33 Extension @gl_extension{ARB,texture_swizzle} */ template CubeMapTextureArray& setSwizzle() { AbstractTexture::setSwizzle(); return *this; } /** * @brief @copybrief Texture::setCompareMode() * @return Reference to self (for method chaining) * * See @ref Texture::setCompareMode() for more information. */ CubeMapTextureArray& setCompareMode(SamplerCompareMode mode) { AbstractTexture::setCompareMode(mode); return *this; } /** * @brief @copybrief Texture::setCompareFunction() * @return Reference to self (for method chaining) * * See @ref Texture::setCompareFunction() for more information. */ CubeMapTextureArray& setCompareFunction(SamplerCompareFunction function) { AbstractTexture::setCompareFunction(function); return *this; } /** * @brief @copybrief Texture::setDepthStencilMode() * @return Reference to self (for method chaining) * * See @ref Texture::setDepthStencilMode() for more information. * @requires_gl43 Extension @gl_extension{ARB,stencil_texturing} */ CubeMapTextureArray& setDepthStencilMode(SamplerDepthStencilMode mode) { AbstractTexture::setDepthStencilMode(mode); return *this; } /** * @brief @copybrief Texture::setStorage() * @return Reference to self (for method chaining) * * Z coordinate of @p size must be multiple of 6. * * See @ref Texture::setStorage() for more information. * @see @ref maxSize() */ CubeMapTextureArray& setStorage(Int levels, TextureFormat internalFormat, const Vector3i& size) { DataHelper<3>::setStorage(*this, levels, internalFormat, size); return *this; } /** * @brief @copybrief Texture::imageSize() * * See @ref Texture::imageSize() for more information. */ Vector3i imageSize(Int level) { return DataHelper<3>::imageSize(*this, level); } #ifndef MAGNUM_TARGET_GLES /** * @brief Read given texture mip level to an image * * See @ref Texture::image(Int, Image&) for more information. * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void image(Int level, Image3D& image) { AbstractTexture::image<3>(level, image); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-image1 */ Image3D image(Int level, Image3D&& image); /** * @brief Read given texture mip level to an image view * * Compared to @ref image(Int, Image3D&) the function reads the pixels * into the memory provided by @p image, expecting it's not * @cpp nullptr @ce and its size is the same as size of given @p level. */ void image(Int level, const MutableImageView3D& image) { AbstractTexture::image<3>(level, image); } /** * @brief Read given texture mip level to a buffer image * * See @ref Texture::image(Int, BufferImage&, BufferUsage) for more * information. * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void image(Int level, BufferImage3D& image, BufferUsage usage) { AbstractTexture::image<3>(level, image, usage); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-image2 */ BufferImage3D image(Int level, BufferImage3D&& image, BufferUsage usage); /** * @brief Read given compressed texture mip level to an image * * See @ref Texture::compressedImage(Int, CompressedImage&) for more * information. * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void compressedImage(Int level, CompressedImage3D& image) { AbstractTexture::compressedImage<3>(level, image); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-compressedImage1 */ CompressedImage3D compressedImage(Int level, CompressedImage3D&& image); /** * @brief Read given compressed texture mip level to an image view * * Compared to @ref compressedImage(Int, CompressedImage3D&) the * function reads the pixels into the memory provided by @p image, * expecting it's not @cpp nullptr @ce, its format is the same as * texture format and its size is the same as size of given @p level. */ void compressedImage(Int level, const MutableCompressedImageView3D& image) { AbstractTexture::compressedImage<3>(level, image); } /** * @brief Read given compressed texture mip level to a buffer image * * See @ref Texture::compressedImage(Int, CompressedBufferImage&, BufferUsage) * for more information. * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void compressedImage(Int level, CompressedBufferImage3D& image, BufferUsage usage) { AbstractTexture::compressedImage<3>(level, image, usage); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-compressedImage2 */ CompressedBufferImage3D compressedImage(Int level, CompressedBufferImage3D&& image, BufferUsage usage); /** * @brief Read a range of given texture mip level to an image * * See @ref Texture::subImage(Int, const RangeTypeFor&, Image&) * for more information. * @requires_gl45 Extension @gl_extension{ARB,get_texture_sub_image} * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void subImage(Int level, const Range3Di& range, Image3D& image) { AbstractTexture::subImage<3>(level, range, image); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-subImage1 */ Image3D subImage(Int level, const Range3Di& range, Image3D&& image); /** * @brief Read a range of given texture mip level to an image view * * Compared to @ref subImage(Int, const Range3Di&, Image3D&) the * function reads the pixels into the memory provided by @p image, * expecting it's not @cpp nullptr @ce and its size is the same as * @p range size. */ void subImage(Int level, const Range3Di& range, const MutableImageView3D& image) { AbstractTexture::subImage<3>(level, range, image); } /** * @brief Read a range of given texture mip level to a buffer image * * See @ref Texture::subImage(Int, const RangeTypeFor&, BufferImage&, BufferUsage) * for more information. * @requires_gl45 Extension @gl_extension{ARB,get_texture_sub_image} * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void subImage(Int level, const Range3Di& range, BufferImage3D& image, BufferUsage usage) { AbstractTexture::subImage<3>(level, range, image, usage); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-subImage2 */ BufferImage3D subImage(Int level, const Range3Di& range, BufferImage3D&& image, BufferUsage usage); /** * @brief Read a range of given compressed texture mip level to an image * * See @ref Texture::compressedSubImage(Int, const RangeTypeFor&, CompressedImage&) * for more information. * @requires_gl45 Extension @gl_extension{ARB,get_texture_sub_image} * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl43 Extension @gl_extension{ARB,internalformat_query2} if * @ref CompressedPixelStorage::compressedBlockSize() and * @ref CompressedPixelStorage::compressedBlockDataSize() are not * set to non-zero values * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void compressedSubImage(Int level, const Range3Di& range, CompressedImage3D& image) { AbstractTexture::compressedSubImage<3>(level, range, image); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-compressedSubImage1 */ CompressedImage3D compressedSubImage(Int level, const Range3Di& range, CompressedImage3D&& image); /** * @brief Read a range of given compressed texture mip level to an image view * * Compared to @ref compressedSubImage(Int, const Range3Di&, CompressedImage3D&) * the function reads the pixels into the memory provided by @p image, * expecting it's not @cpp nullptr @ce, its format is the same as * texture format and its size is the same as @p range size. */ void compressedSubImage(Int level, const Range3Di& range, const MutableCompressedImageView3D& image) { AbstractTexture::compressedSubImage<3>(level, range, image); } /** * @brief Read a range of given compressed texture mip level to a buffer image * * See @ref Texture::compressedSubImage(Int, const RangeTypeFor&, CompressedBufferImage&, BufferUsage) * for more information. * @requires_gl45 Extension @gl_extension{ARB,get_texture_sub_image} * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl43 Extension @gl_extension{ARB,internalformat_query2} if * @ref CompressedPixelStorage::compressedBlockSize() and * @ref CompressedPixelStorage::compressedBlockDataSize() are not * set to non-zero values * @requires_gl Texture image queries are not available in OpenGL ES. * See @ref Framebuffer::read() or @ref DebugTools::textureSubImage() * for possible workarounds. */ void compressedSubImage(Int level, const Range3Di& range, CompressedBufferImage3D& image, BufferUsage usage) { AbstractTexture::compressedSubImage<3>(level, range, image, usage); } /** @overload * * Convenience alternative to the above, example usage: * * @snippet MagnumGL.cpp CubeMapTextureArray-compressedSubImage2 */ CompressedBufferImage3D compressedSubImage(Int level, const Range3Di& range, CompressedBufferImage3D&& image, BufferUsage usage); #endif /** * @brief @copybrief Texture::setImage() * @return Reference to self (for method chaining) * * Sets texture image data from three-dimensional image for all cube * faces for all layers. Each group of 6 2D images is one cube map * layer, thus Z coordinate of @p image size must be multiple of 6. The * images are in order of (+X, -X, +Y, -Y, +Z, -Z). * * See @ref Texture::setImage() for more information. * @see @ref maxSize() * @deprecated_gl Prefer to use @ref setStorage() and @ref setSubImage() * instead. */ CubeMapTextureArray& setImage(Int level, TextureFormat internalFormat, const ImageView3D& image) { DataHelper<3>::setImage(*this, level, internalFormat, image); return *this; } /** @overload * @deprecated_gl Prefer to use @ref setStorage() and @ref setSubImage() * instead. */ CubeMapTextureArray& setImage(Int level, TextureFormat internalFormat, BufferImage3D& image) { DataHelper<3>::setImage(*this, level, internalFormat, image); return *this; } /** @overload * @deprecated_gl Prefer to use @ref setStorage() and @ref setSubImage() * instead. */ CubeMapTextureArray& setImage(Int level, TextureFormat internalFormat, BufferImage3D&& image) { return setImage(level, internalFormat, image); } /** * @brief @copybrief Texture::setCompressedImage() * @return Reference to self (for method chaining) * * Sets texture image data from three-dimensional image for all cube * faces for all layers. Each group of 6 2D images is one cube map * layer, thus Z coordinate of @p image size must be multiple of 6. The * images are in order of (+X, -X, +Y, -Y, +Z, -Z). * * See @ref Texture::setCompressedImage() for more information. * @see @ref maxSize() * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl Non-default @ref CompressedPixelStorage is not * available in OpenGL ES. * @deprecated_gl Prefer to use @ref setStorage() and * @ref setCompressedSubImage() instead. */ CubeMapTextureArray& setCompressedImage(Int level, const CompressedImageView3D& image) { DataHelper<3>::setCompressedImage(*this, level, image); return *this; } /** @overload * @deprecated_gl Prefer to use @ref setStorage() and * @ref setCompressedSubImage() instead. */ CubeMapTextureArray& setCompressedImage(Int level, CompressedBufferImage3D& image) { DataHelper<3>::setCompressedImage(*this, level, image); return *this; } /** @overload * @deprecated_gl Prefer to use @ref setStorage() and * @ref setCompressedSubImage() instead. */ CubeMapTextureArray& setCompressedImage(Int level, CompressedBufferImage3D&& image) { return setCompressedImage(level, image); } /** * @brief @copybrief Texture::setSubImage() * @return Reference to self (for method chaining) * * Z coordinate is equivalent to layer * 6 + number of texture face, * i.e. +X is @cpp 0 @ce and so on, in order of (+X, -X, +Y, -Y, +Z, * -Z). * * See @ref Texture::setSubImage() for more information. */ CubeMapTextureArray& setSubImage(Int level, const Vector3i& offset, const ImageView3D& image) { DataHelper<3>::setSubImage(*this, level, offset, image); return *this; } /** @overload */ CubeMapTextureArray& setSubImage(Int level, const Vector3i& offset, BufferImage3D& image) { DataHelper<3>::setSubImage(*this, level, offset, image); return *this; } /** @overload */ CubeMapTextureArray& setSubImage(Int level, const Vector3i& offset, BufferImage3D&& image) { return setSubImage(level, offset, image); } /** * @brief @copybrief Texture::setCompressedSubImage() * @return Reference to self (for method chaining) * * Z coordinate is equivalent to layer * 6 + number of texture face, * i.e. +X is @cpp 0 @ce and so on, in order of (+X, -X, +Y, -Y, +Z, * -Z). * * See @ref Texture::setCompressedSubImage() for more information. * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl Non-default @ref CompressedPixelStorage is not * available in OpenGL ES. */ CubeMapTextureArray& setCompressedSubImage(Int level, const Vector3i& offset, const CompressedImageView3D& image) { DataHelper<3>::setCompressedSubImage(*this, level, offset, image); return *this; } /** @overload * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl Non-default @ref CompressedPixelStorage is not * available in OpenGL ES. */ CubeMapTextureArray& setCompressedSubImage(Int level, const Vector3i& offset, CompressedBufferImage3D& image) { DataHelper<3>::setCompressedSubImage(*this, level, offset, image); return *this; } /** @overload * @requires_gl42 Extension @gl_extension{ARB,compressed_texture_pixel_storage} * for non-default @ref CompressedPixelStorage * @requires_gl Non-default @ref CompressedPixelStorage is not * available in OpenGL ES. */ CubeMapTextureArray& setCompressedSubImage(Int level, const Vector3i& offset, CompressedBufferImage3D&& image) { return setCompressedSubImage(level, offset, image); } /** * @brief @copybrief Texture::generateMipmap() * @return Reference to self (for method chaining) * * See @ref Texture::generateMipmap() for more information. * @requires_gl30 Extension @gl_extension{ARB,framebuffer_object} */ CubeMapTextureArray& generateMipmap() { AbstractTexture::generateMipmap(); return *this; } /** * @brief @copybrief Texture::invalidateImage() * * See @ref Texture::invalidateImage() for more information. */ void invalidateImage(Int level) { AbstractTexture::invalidateImage(level); } /** * @brief @copybrief Texture::invalidateSubImage() * * Z coordinate is equivalent to layer * 6 + number of texture face, * i.e. +X is @cpp 0 @ce and so on, in order of (+X, -X, +Y, -Y, +Z, * -Z). * * See @ref Texture::invalidateSubImage() for more information. */ void invalidateSubImage(Int level, const Vector3i& offset, const Vector3i& size) { DataHelper<3>::invalidateSubImage(*this, level, offset, size); } /* Overloads to remove WTF-factor from method chaining order */ #ifndef DOXYGEN_GENERATING_OUTPUT CubeMapTextureArray& setLabel(const std::string& label) { AbstractTexture::setLabel(label); return *this; } template CubeMapTextureArray& setLabel(const char(&label)[size]) { AbstractTexture::setLabel(label); return *this; } #endif private: explicit CubeMapTextureArray(GLuint id, ObjectFlags flags) noexcept: AbstractTexture{id, GL_TEXTURE_CUBE_MAP_ARRAY, flags} {} }; }} #else #error this header is not available in OpenGL ES 2.0 and WebGL build #endif #endif