/*
This file is part of Magnum .
Copyright © 2010 , 2011 , 2012 , 2013 , 2014 , 2015 , 2016 , 2017 , 2018 , 2019 ,
2020 , 2021 , 2022 Vladimír Vondruš < mosra @ centrum . cz >
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 .
*/
# include <sstream>
# include <Corrade/Containers/Optional.h>
# include <Corrade/Containers/StridedArrayView.h>
# include <Corrade/Containers/String.h>
# include <Corrade/Containers/StringStl.h> /** @todo remove once AbstractImporter is <string>-free */
# include <Corrade/PluginManager/Manager.h>
# include <Corrade/Utility/DebugStl.h>
# include <Corrade/Utility/FormatStl.h>
# include <Corrade/Utility/Path.h>
# ifdef CORRADE_TARGET_APPLE
# include <Corrade/Containers/Pair.h>
# include <Corrade/Utility/System.h> /* isSandboxed() */
# endif
# include "Magnum/Image.h"
# include "Magnum/ImageView.h"
# include "Magnum/PixelFormat.h"
# include "Magnum/DebugTools/CompareImage.h"
# include "Magnum/GL/Context.h"
# include "Magnum/GL/Extensions.h"
# include "Magnum/GL/Mesh.h"
# include "Magnum/GL/Framebuffer.h"
# include "Magnum/GL/Renderer.h"
# include "Magnum/GL/Renderbuffer.h"
# include "Magnum/GL/RenderbufferFormat.h"
# include "Magnum/GL/Texture.h"
# include "Magnum/GL/TextureFormat.h"
# include "Magnum/GL/OpenGLTester.h"
# include "Magnum/Math/Color.h"
# include "Magnum/Math/Matrix3.h"
# include "Magnum/Math/Matrix4.h"
# include "Magnum/MeshTools/Compile.h"
# include "Magnum/Primitives/Circle.h"
# include "Magnum/Primitives/UVSphere.h"
# include "Magnum/Shaders/FlatGL.h"
# include "Magnum/Trade/AbstractImporter.h"
# include "Magnum/Trade/ImageData.h"
# include "Magnum/Trade/MeshData.h"
# ifndef MAGNUM_TARGET_GLES2
# include "Magnum/GL/MeshView.h"
# include "Magnum/GL/TextureArray.h"
# include "Magnum/MeshTools/Concatenate.h"
# include "Magnum/MeshTools/GenerateIndices.h"
# include "Magnum/Primitives/Cone.h"
# include "Magnum/Primitives/Plane.h"
# include "Magnum/Primitives/Square.h"
# include "Magnum/Shaders/Generic.h"
# include "Magnum/Shaders/Flat.h"
# endif
# include "configure.h"
namespace Magnum { namespace Shaders { namespace Test { namespace {
struct FlatGLTest : GL : : OpenGLTester {
explicit FlatGLTest ( ) ;
template < UnsignedInt dimensions > void construct ( ) ;
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void constructUniformBuffers ( ) ;
# endif
template < UnsignedInt dimensions > void constructMove ( ) ;
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void constructMoveUniformBuffers ( ) ;
# endif
template < UnsignedInt dimensions > void constructInvalid ( ) ;
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void constructUniformBuffersInvalid ( ) ;
# endif
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void setUniformUniformBuffersEnabled ( ) ;
template < UnsignedInt dimensions > void bindBufferUniformBuffersNotEnabled ( ) ;
# endif
template < UnsignedInt dimensions > void bindTexturesInvalid ( ) ;
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void bindTextureArraysInvalid ( ) ;
# endif
template < UnsignedInt dimensions > void setAlphaMaskNotEnabled ( ) ;
template < UnsignedInt dimensions > void setTextureMatrixNotEnabled ( ) ;
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void setTextureLayerNotArray ( ) ;
template < UnsignedInt dimensions > void bindTextureTransformBufferNotEnabled ( ) ;
# endif
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void setObjectIdNotEnabled ( ) ;
# endif
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void setWrongDrawOffset ( ) ;
# endif
void renderSetup ( ) ;
void renderTeardown ( ) ;
template < FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderDefaults2D ( ) ;
template < FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderDefaults3D ( ) ;
template < FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderColored2D ( ) ;
template < FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderColored3D ( ) ;
template < FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderSinglePixelTextured2D ( ) ;
template < FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderSinglePixelTextured3D ( ) ;
template < FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderTextured2D ( ) ;
template < FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderTextured3D ( ) ;
template < class T , FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderVertexColor2D ( ) ;
template < class T , FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderVertexColor3D ( ) ;
void renderAlphaSetup ( ) ;
void renderAlphaTeardown ( ) ;
template < FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderAlpha2D ( ) ;
template < FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderAlpha3D ( ) ;
# ifndef MAGNUM_TARGET_GLES2
void renderObjectIdSetup ( ) ;
void renderObjectIdTeardown ( ) ;
template < FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderObjectId2D ( ) ;
template < FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderObjectId3D ( ) ;
# endif
template < FlatGL2D : : Flag flag = FlatGL2D : : Flag { } > void renderInstanced2D ( ) ;
template < FlatGL3D : : Flag flag = FlatGL3D : : Flag { } > void renderInstanced3D ( ) ;
# ifndef MAGNUM_TARGET_GLES2
void renderMulti2D ( ) ;
void renderMulti3D ( ) ;
# endif
private :
PluginManager : : Manager < Trade : : AbstractImporter > _manager { " nonexistent " } ;
Containers : : String _testDir ;
GL : : Renderbuffer _color { NoCreate } ;
# ifndef MAGNUM_TARGET_GLES2
GL : : Renderbuffer _objectId { NoCreate } ;
# endif
GL : : Framebuffer _framebuffer { NoCreate } ;
} ;
/*
Rendering tests done :
[ B ] base
[ A ] alpha mask
[ D ] object ID
[ I ] instancing
[ O ] UBOs + draw offset
[ M ] multidraw
[ L ] texture arrays
Mesa Intel BADIOML
ES2 xxx
ES3 BAD Ox
Mesa AMD BAD
Mesa llvmpipe BAD
SwiftShader ES2 BAD xxx
ES3 BAD
ANGLE ES2 xxx
ES3 BAD OM
ARM Mali ( Huawei P10 ) ES2 BAD xxx
ES3 BAD Ox
WebGL ( on Mesa Intel ) 1.0 BAD xxx
2.0 BAD OM
NVidia BAD
Intel Windows BAD
AMD macOS BAD
Intel macOS BAD Ox
iPhone 6 w / iOS 12.4 ES3 BAD x
*/
using namespace Math : : Literals ;
constexpr struct {
const char * name ;
FlatGL2D : : Flags flags ;
} ConstructData [ ] {
{ " " , { } } ,
{ " textured " , FlatGL2D : : Flag : : Textured } ,
{ " textured + texture transformation " , FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureTransformation } ,
# ifndef MAGNUM_TARGET_GLES2
{ " texture arrays " , FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays } ,
{ " texture arrays + texture transformation " , FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : TextureTransformation } ,
# endif
{ " alpha mask " , FlatGL2D : : Flag : : AlphaMask } ,
{ " alpha mask + textured " , FlatGL2D : : Flag : : AlphaMask | FlatGL2D : : Flag : : Textured } ,
{ " vertex colors " , FlatGL2D : : Flag : : VertexColor } ,
{ " vertex colors + textured " , FlatGL2D : : Flag : : VertexColor | FlatGL2D : : Flag : : Textured } ,
# ifndef MAGNUM_TARGET_GLES2
{ " object ID " , FlatGL2D : : Flag : : ObjectId } ,
{ " instanced object ID " , FlatGL2D : : Flag : : InstancedObjectId } ,
{ " object ID + alpha mask + textured " , FlatGL2D : : Flag : : ObjectId | FlatGL2D : : Flag : : AlphaMask | FlatGL2D : : Flag : : Textured } ,
{ " object ID texture " , FlatGL2D : : Flag : : ObjectIdTexture } ,
{ " object ID texture array " , FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays } ,
{ " object ID texture + instanced texture transformation " , FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : InstancedTextureOffset } ,
{ " object ID texture array + instanced texture transformation " , FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : InstancedTextureOffset } ,
{ " instanced object ID texture array + texture transformation " , FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : InstancedObjectId | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : TextureTransformation } ,
{ " object ID texture + textured " , FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : Textured } ,
# endif
{ " instanced transformation " , FlatGL2D : : Flag : : InstancedTransformation } ,
{ " instanced texture offset " , FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : InstancedTextureOffset } ,
# ifndef MAGNUM_TARGET_GLES2
{ " instanced texture array offset + layer " , FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : InstancedTextureOffset } ,
# endif
} ;
# ifndef MAGNUM_TARGET_GLES2
constexpr struct {
const char * name ;
FlatGL2D : : Flags flags ;
UnsignedInt materialCount , drawCount ;
} ConstructUniformBuffersData [ ] {
{ " classic fallback " , { } , 1 , 1 } ,
{ " " , FlatGL2D : : Flag : : UniformBuffers , 1 , 1 } ,
/* SwiftShader has 256 uniform vectors at most, per-draw is 4+1 in 3D case
and 3 + 1 in 2 D , per - material 2 */
{ " multiple materials, draws " , FlatGL2D : : Flag : : UniformBuffers , 8 , 48 } ,
{ " textured " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : Textured , 1 , 1 } ,
{ " textured + texture transformation " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureTransformation , 1 , 1 } ,
{ " texture arrays + texture transformation " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureTransformation , 1 , 1 } ,
{ " alpha mask " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : AlphaMask , 1 , 1 } ,
{ " object ID " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : ObjectId , 1 , 1 } ,
{ " object ID texture " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : ObjectIdTexture , 1 , 1 } ,
{ " object ID texture array " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : TextureTransformation , 1 , 1 } ,
{ " object ID texture + instanced texture transformation " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : InstancedTextureOffset , 1 , 1 } ,
{ " object ID texture array + instanced texture transformation " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : InstancedTextureOffset , 1 , 1 } ,
{ " instanced object ID texture array + texture transformation " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : InstancedObjectId | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : TextureTransformation , 1 , 1 } ,
{ " object ID texture + textured " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : Textured , 1 , 1 } ,
{ " instanced texture array offset + layer " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : InstancedTextureOffset , 1 , 1 } ,
{ " multidraw with all the things " , FlatGL2D : : Flag : : MultiDraw | FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : AlphaMask | FlatGL2D : : Flag : : ObjectId | FlatGL2D : : Flag : : InstancedTextureOffset | FlatGL2D : : Flag : : InstancedTransformation | FlatGL2D : : Flag : : InstancedObjectId , 8 , 48 }
} ;
# endif
constexpr struct {
const char * name ;
FlatGL2D : : Flags flags ;
const char * message ;
} ConstructInvalidData [ ] {
{ " texture transformation but not textured " ,
/* ObjectId shares bits with ObjectIdTexture but should still trigger
the assert */
FlatGL2D : : Flag : : TextureTransformation
# ifndef MAGNUM_TARGET_GLES2
| FlatGL2D : : Flag : : ObjectId
# endif
,
" texture transformation enabled but the shader is not textured " } ,
# ifndef MAGNUM_TARGET_GLES2
{ " texture arrays but not textured " ,
/* ObjectId shares bits with ObjectIdTexture but should still trigger
the assert */
FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : ObjectId ,
" texture arrays enabled but the shader is not textured " }
# endif
} ;
# ifndef MAGNUM_TARGET_GLES2
constexpr struct {
const char * name ;
FlatGL2D : : Flags flags ;
UnsignedInt materialCount , drawCount ;
const char * message ;
} ConstructUniformBuffersInvalidData [ ] {
{ " zero draws " , FlatGL2D : : Flag : : UniformBuffers , 1 , 0 ,
" draw count can't be zero " } ,
{ " zero materials " , FlatGL2D : : Flag : : UniformBuffers , 0 , 1 ,
" material count can't be zero " } ,
{ " texture arrays but no transformation " , FlatGL2D : : Flag : : UniformBuffers | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays , 1 , 1 ,
" texture arrays require texture transformation enabled as well if uniform buffers are used " }
} ;
# endif
constexpr struct {
const char * name ;
FlatGL2D : : Flags flags ;
const char * message ;
} BindTexturesInvalidData [ ] {
{ " not textured " ,
FlatGL2D : : Flags { }
# ifndef MAGNUM_TARGET_GLES2
/* ObjectId shares bits with ObjectIdTexture but should still
trigger the assert */
| FlatGL2D : : Flag : : ObjectId
# endif
,
" Shaders::FlatGL::bindTexture(): the shader was not created with texturing enabled \n "
# ifndef MAGNUM_TARGET_GLES2
" Shaders::FlatGL::bindObjectIdTexture(): the shader was not created with object ID texture enabled \n "
# endif
} ,
# ifndef MAGNUM_TARGET_GLES2
{ " array " ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays ,
" Shaders::FlatGL::bindTexture(): the shader was created with texture arrays enabled, use a Texture2DArray instead \n "
" Shaders::FlatGL::bindObjectIdTexture(): the shader was created with texture arrays enabled, use a Texture2DArray instead \n " }
# endif
} ;
# ifndef MAGNUM_TARGET_GLES2
constexpr struct {
const char * name ;
FlatGL2D : : Flags flags ;
const char * message ;
} BindTextureArraysInvalidData [ ] {
{ " not textured " ,
/* ObjectId shares bits with ObjectIdTexture but should still trigger
the assert */
FlatGL2D : : Flag : : ObjectId ,
" Shaders::FlatGL::bindTexture(): the shader was not created with texturing enabled \n "
" Shaders::FlatGL::bindObjectIdTexture(): the shader was not created with object ID texture enabled \n " } ,
{ " not array " ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : ObjectIdTexture ,
" Shaders::FlatGL::bindTexture(): the shader was not created with texture arrays enabled, use a Texture2D instead \n "
" Shaders::FlatGL::bindObjectIdTexture(): the shader was not created with texture arrays enabled, use a Texture2D instead \n " }
} ;
# endif
const struct {
const char * name ;
FlatGL2D : : Flags flags ;
Int layer ;
} RenderSinglePixelTexturedData [ ] {
{ " " , { } , 0 } ,
# ifndef MAGNUM_TARGET_GLES2
{ " array, first layer " , FlatGL2D : : Flag : : TextureArrays , 0 } ,
{ " array, arbitrary layer " , FlatGL2D : : Flag : : TextureArrays , 6 } ,
# endif
} ;
const struct {
const char * name ;
FlatGL2D : : Flags flags ;
Matrix3 textureTransformation ;
Int layer ;
bool flip ;
} RenderTexturedData [ ] {
{ " " ,
FlatGL2D : : Flag : : Textured ,
{ } , 0 , false } ,
{ " texture transformation " ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureTransformation ,
Matrix3 : : translation ( Vector2 { 1.0f } ) * Matrix3 : : scaling ( Vector2 { - 1.0f } ) ,
0 , true } ,
# ifndef MAGNUM_TARGET_GLES2
{ " array, first layer " ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays ,
{ } , 0 , false } ,
{ " array, arbitrary layer " ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays ,
{ } , 6 , false } ,
{ " array, texture transformation, arbitrary layer " ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays | FlatGL2D : : Flag : : TextureTransformation ,
Matrix3 : : translation ( Vector2 { 1.0f } ) * Matrix3 : : scaling ( Vector2 { - 1.0f } ) ,
6 , true } ,
# endif
} ;
const struct {
const char * name ;
const char * expected2D ;
const char * expected3D ;
bool blending ;
FlatGL2D : : Flags flags ;
Float threshold ;
} RenderAlphaData [ ] {
/* All those deliberately have a non-white diffuse in order to match the
expected data from textured ( ) */
{ " none " , " FlatTestFiles/textured2D.tga " , " FlatTestFiles/textured3D.tga " , false ,
FlatGL2D : : Flag : : Textured , 0.0f } ,
{ " blending " , " FlatTestFiles/textured2D-alpha.tga " , " FlatTestFiles/textured3D-alpha.tga " , true ,
FlatGL2D : : Flag : : Textured , 0.0f } ,
{ " masking 0.0 " , " FlatTestFiles/textured2D.tga " , " FlatTestFiles/textured3D.tga " , false ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : AlphaMask , 0.0f } ,
{ " masking 0.5 " , " FlatTestFiles/textured2D-alpha-mask0.5.tga " , " FlatTestFiles/textured3D-alpha-mask0.5.tga " , false ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : AlphaMask , 0.5f } ,
{ " masking 1.0 " , " TestFiles/alpha-mask1.0.tga " , " TestFiles/alpha-mask1.0.tga " , false ,
FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : AlphaMask , 1.0f }
/* texture arrays are orthogonal to this, no need to be tested here */
} ;
# ifndef MAGNUM_TARGET_GLES2
const struct {
const char * name ;
UnsignedInt expected [ 4 ] ;
FlatGL2D : : Flags flags ;
Matrix3 textureTransformation ;
Int layer ;
} RenderObjectIdData [ ] {
{ " " ,
{ 40006 , 40006 , 40006 , 40006 } ,
{ } , { } , 0 } ,
{ " textured " ,
{ 40106 , 40206 , 40306 , 40406 } ,
FlatGL2D : : Flag : : ObjectIdTexture , { } , 0 } ,
{ " textured, texture transformation " ,
{ 40406 , 40306 , 40206 , 40106 } ,
FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureTransformation ,
Matrix3 : : translation ( Vector2 { 1.0f } ) * Matrix3 : : scaling ( Vector2 { - 1.0f } ) , 0 } ,
{ " texture array, first layer " ,
{ 40106 , 40206 , 40306 , 40406 } ,
FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays ,
{ } , 0 } ,
{ " texture array, arbitrary layer " ,
{ 40106 , 40206 , 40306 , 40406 } ,
FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays ,
{ } , 6 } ,
{ " texture array, texture transformation, arbitrary layer " ,
{ 40406 , 40306 , 40206 , 40106 } ,
FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : TextureArrays ,
Matrix3 : : translation ( Vector2 { 1.0f } ) * Matrix3 : : scaling ( Vector2 { - 1.0f } ) , 6 } ,
} ;
# endif
constexpr struct {
const char * name ;
const char * expected2D ;
const char * expected3D ;
UnsignedInt expectedId [ 3 ] ;
FlatGL2D : : Flags flags ;
Float maxThreshold , meanThreshold ;
} RenderInstancedData [ ] {
{ " colored " ,
" instanced2D.tga " , " instanced3D.tga " , { } ,
{ } ,
/* Minor differences on SwiftShader */
164.4f , 0.094f } ,
# ifndef MAGNUM_TARGET_GLES2
{ " colored + object ID " ,
" instanced2D.tga " , " instanced3D.tga " , { 1000 , 1000 , 1000 } ,
FlatGL2D : : Flag : : ObjectId ,
/* Minor differences on SwiftShader */
164.4f , 0.094f } ,
{ " colored + instanced object ID " ,
" instanced2D.tga " , " instanced3D.tga " , { 1211 , 5627 , 36363 } ,
FlatGL2D : : Flag : : InstancedObjectId ,
/* Minor differences on SwiftShader */
164.4f , 0.094f } ,
{ " colored + textured object ID " ,
" instanced2D.tga " , " instanced3D.tga " , { 3000 , 4000 , 5000 } ,
FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : InstancedTextureOffset ,
/* Minor differences on SwiftShader */
164.4f , 0.094f } ,
{ " colored + instanced textured object ID " ,
" instanced2D.tga " , " instanced3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : InstancedObjectId | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : InstancedTextureOffset ,
/* Minor differences on SwiftShader */
164.4f , 0.094f } ,
{ " colored + instanced textured array object ID " ,
" instanced2D.tga " , " instanced3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : InstancedObjectId | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : InstancedTextureOffset | FlatGL2D : : Flag : : TextureArrays ,
/* Minor differences on SwiftShader */
164.4f , 0.094f } ,
# endif
{ " textured " ,
" instanced-textured2D.tga " , " instanced-textured3D.tga " , { } ,
FlatGL2D : : Flag : : InstancedTextureOffset | FlatGL2D : : Flag : : Textured ,
/* Minor differences on SwiftShader */
192.67f , 0.140f } ,
# ifndef MAGNUM_TARGET_GLES2
{ " texture array " ,
" instanced-textured2D.tga " , " instanced-textured3D.tga " , { } ,
FlatGL2D : : Flag : : InstancedTextureOffset | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays ,
/* Some difference at the UV edge (texture is wrapping in the 2D case
while the 2 D array has a black area around ) ; minor differences on
SwiftShader */
192.67f , 0.398f } ,
# endif
} ;
# ifndef MAGNUM_TARGET_GLES2
constexpr struct {
const char * name ;
const char * expected2D ;
const char * expected3D ;
UnsignedInt expectedId [ 3 ] ;
FlatGL2D : : Flags flags ;
UnsignedInt materialCount , drawCount ;
UnsignedInt uniformIncrement ;
Float maxThreshold , meanThreshold ;
} RenderMultiData [ ] {
{ " bind with offset, colored " ,
" multidraw2D.tga " , " multidraw3D.tga " , { } ,
{ } , 1 , 1 , 16 , 0.0f , 0.0f } ,
{ " bind with offset, colored + object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 1211 , 5627 , 36363 } ,
FlatGL2D : : Flag : : ObjectId ,
1 , 1 , 16 , 0.0f , 0.0f } ,
{ " bind with offset, colored + textured object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : ObjectIdTexture ,
1 , 1 , 16 , 0.0f , 0.0f } ,
{ " bind with offset, colored + textured array object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays ,
1 , 1 , 16 , 0.0f , 0.0f } ,
{ " bind with offset, textured " ,
" multidraw-textured2D.tga " , " multidraw-textured3D.tga " , { } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : Textured ,
1 , 1 , 16 ,
/* Minor differences on ARM Mali */
2.34f , 0.01f } ,
{ " bind with offset, texture array " ,
" multidraw-textured2D.tga " , " multidraw-textured3D.tga " , { } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays ,
1 , 1 , 16 ,
/* Some difference at the UV edge (texture is wrapping in the 2D case
while the 2 D array has a black area around ) */
65.0f , 0.15f } ,
{ " draw offset, colored " ,
" multidraw2D.tga " , " multidraw3D.tga " , { } ,
{ } ,
2 , 3 , 1 , 0.0f , 0.0f } ,
{ " draw offset, colored + object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 1211 , 5627 , 36363 } ,
FlatGL2D : : Flag : : ObjectId ,
2 , 3 , 1 , 0.0f , 0.0f } ,
{ " draw offset, colored + textured object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : ObjectIdTexture ,
2 , 3 , 1 , 0.0f , 0.0f } ,
{ " draw offset, colored + textured array object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays ,
2 , 3 , 1 , 0.0f , 0.0f } ,
{ " draw offset, textured " ,
" multidraw-textured2D.tga " , " multidraw-textured3D.tga " , { } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : Textured ,
2 , 3 , 1 ,
/* Minor differences on ARM Mali */
2.34f , 0.01f } ,
{ " draw offset, texture array " ,
" multidraw-textured2D.tga " , " multidraw-textured3D.tga " , { } ,
FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays ,
2 , 3 , 1 ,
/* Some difference at the UV edge (texture is wrapping in the 2D case
while the 2 D array has a black area around ) */
65.0f , 0.15f } ,
{ " multidraw, colored " ,
" multidraw2D.tga " , " multidraw3D.tga " , { } ,
FlatGL2D : : Flag : : MultiDraw , 2 , 3 , 1 , 0.0f , 0.0f } ,
{ " multidraw, colored + object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 1211 , 5627 , 36363 } ,
FlatGL2D : : Flag : : MultiDraw | FlatGL2D : : Flag : : ObjectId ,
2 , 3 , 1 , 0.0f , 0.0f } ,
{ " multidraw, colored + textured object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : MultiDraw | FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : ObjectIdTexture ,
2 , 3 , 1 , 0.0f , 0.0f } ,
{ " multidraw, colored + textured array object ID " ,
" multidraw2D.tga " , " multidraw3D.tga " , { 3211 , 8627 , 40363 } ,
FlatGL2D : : Flag : : MultiDraw | FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : ObjectIdTexture | FlatGL2D : : Flag : : TextureArrays ,
2 , 3 , 1 , 0.0f , 0.0f } ,
{ " multidraw, textured " ,
" multidraw-textured2D.tga " , " multidraw-textured3D.tga " , { } ,
FlatGL2D : : Flag : : MultiDraw | FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : Textured ,
2 , 3 , 1 ,
/* Minor differences on ARM Mali */
2.34f , 0.01f } ,
{ " multidraw, texture array " ,
" multidraw-textured2D.tga " , " multidraw-textured3D.tga " , { } ,
FlatGL2D : : Flag : : MultiDraw | FlatGL2D : : Flag : : TextureTransformation | FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : TextureArrays ,
2 , 3 , 1 ,
/* Some difference at the UV edge (texture is wrapping in the 2D case
while the 2 D array has a black area around ) */
65.0f , 0.15f }
} ;
# endif
FlatGLTest : : FlatGLTest ( ) {
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : construct < 2 > ,
& FlatGLTest : : construct < 3 > } ,
Containers : : arraySize ( ConstructData ) ) ;
# ifndef MAGNUM_TARGET_GLES2
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : constructUniformBuffers < 2 > ,
& FlatGLTest : : constructUniformBuffers < 3 > } ,
Containers : : arraySize ( ConstructUniformBuffersData ) ) ;
# endif
addTests < FlatGLTest > ( {
& FlatGLTest : : constructMove < 2 > ,
& FlatGLTest : : constructMove < 3 > ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : constructMoveUniformBuffers < 2 > ,
& FlatGLTest : : constructMoveUniformBuffers < 3 > ,
# endif
} ) ;
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : constructInvalid < 2 > ,
& FlatGLTest : : constructInvalid < 3 > } ,
Containers : : arraySize ( ConstructInvalidData ) ) ;
# ifndef MAGNUM_TARGET_GLES2
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : constructUniformBuffersInvalid < 2 > ,
& FlatGLTest : : constructUniformBuffersInvalid < 3 > } ,
Containers : : arraySize ( ConstructUniformBuffersInvalidData ) ) ;
# endif
addTests < FlatGLTest > ( {
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : setUniformUniformBuffersEnabled < 2 > ,
& FlatGLTest : : setUniformUniformBuffersEnabled < 3 > ,
& FlatGLTest : : bindBufferUniformBuffersNotEnabled < 2 > ,
& FlatGLTest : : bindBufferUniformBuffersNotEnabled < 3 > ,
# endif
} ) ;
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : bindTexturesInvalid < 2 > ,
& FlatGLTest : : bindTexturesInvalid < 3 > } ,
Containers : : arraySize ( BindTexturesInvalidData ) ) ;
# ifndef MAGNUM_TARGET_GLES2
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : bindTextureArraysInvalid < 2 > ,
& FlatGLTest : : bindTextureArraysInvalid < 3 > } ,
Containers : : arraySize ( BindTextureArraysInvalidData ) ) ;
# endif
addTests < FlatGLTest > ( {
& FlatGLTest : : setAlphaMaskNotEnabled < 2 > ,
& FlatGLTest : : setAlphaMaskNotEnabled < 3 > ,
& FlatGLTest : : setTextureMatrixNotEnabled < 2 > ,
& FlatGLTest : : setTextureMatrixNotEnabled < 3 > ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : setTextureLayerNotArray < 2 > ,
& FlatGLTest : : setTextureLayerNotArray < 3 > ,
# endif
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : bindTextureTransformBufferNotEnabled < 2 > ,
& FlatGLTest : : bindTextureTransformBufferNotEnabled < 3 > ,
# endif
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : setObjectIdNotEnabled < 2 > ,
& FlatGLTest : : setObjectIdNotEnabled < 3 > ,
# endif
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : setWrongDrawOffset < 2 > ,
& FlatGLTest : : setWrongDrawOffset < 3 > ,
# endif
} ) ;
/* MSVC needs explicit type due to default template args */
addTests < FlatGLTest > ( {
& FlatGLTest : : renderDefaults2D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderDefaults2D < FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderDefaults3D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderDefaults3D < FlatGL3D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderColored2D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderColored2D < FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderColored3D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderColored3D < FlatGL3D : : Flag : : UniformBuffers > ,
# endif
} ,
& FlatGLTest : : renderSetup ,
& FlatGLTest : : renderTeardown ) ;
/* MSVC needs explicit type due to default template args */
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : renderSinglePixelTextured2D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderSinglePixelTextured2D < FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderSinglePixelTextured3D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderSinglePixelTextured3D < FlatGL2D : : Flag : : UniformBuffers >
# endif
} ,
Containers : : arraySize ( RenderSinglePixelTexturedData ) ,
& FlatGLTest : : renderSetup ,
& FlatGLTest : : renderTeardown ) ;
/* MSVC needs explicit type due to default template args */
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : renderTextured2D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderTextured2D < FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderTextured3D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderTextured3D < FlatGL3D : : Flag : : UniformBuffers >
# endif
} ,
Containers : : arraySize ( RenderTexturedData ) ,
& FlatGLTest : : renderSetup ,
& FlatGLTest : : renderTeardown ) ;
/* MSVC needs explicit type due to default template args */
addTests < FlatGLTest > ( {
& FlatGLTest : : renderVertexColor2D < Color3 > ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderVertexColor2D < Color3 , FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderVertexColor2D < Color4 > ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderVertexColor2D < Color4 , FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderVertexColor3D < Color3 > ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderVertexColor3D < Color3 , FlatGL3D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderVertexColor3D < Color4 > ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderVertexColor3D < Color4 , FlatGL3D : : Flag : : UniformBuffers >
# endif
} ,
& FlatGLTest : : renderSetup ,
& FlatGLTest : : renderTeardown ) ;
/* MSVC needs explicit type due to default template args */
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : renderAlpha2D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderAlpha2D < FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderAlpha3D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderAlpha3D < FlatGL3D : : Flag : : UniformBuffers >
# endif
} ,
Containers : : arraySize ( RenderAlphaData ) ,
& FlatGLTest : : renderAlphaSetup ,
& FlatGLTest : : renderAlphaTeardown ) ;
# ifndef MAGNUM_TARGET_GLES2
/* MSVC needs explicit type due to default template args */
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : renderObjectId2D ,
& FlatGLTest : : renderObjectId2D < FlatGL2D : : Flag : : UniformBuffers > ,
& FlatGLTest : : renderObjectId3D ,
& FlatGLTest : : renderObjectId3D < FlatGL3D : : Flag : : UniformBuffers > } ,
Containers : : arraySize ( RenderObjectIdData ) ,
& FlatGLTest : : renderObjectIdSetup ,
& FlatGLTest : : renderObjectIdTeardown ) ;
# endif
/* MSVC needs explicit type due to default template args */
addInstancedTests < FlatGLTest > ( {
& FlatGLTest : : renderInstanced2D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderInstanced2D < FlatGL2D : : Flag : : UniformBuffers > ,
# endif
& FlatGLTest : : renderInstanced3D ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderInstanced3D < FlatGL3D : : Flag : : UniformBuffers >
# endif
} ,
Containers : : arraySize ( RenderInstancedData ) ,
# ifndef MAGNUM_TARGET_GLES2
& FlatGLTest : : renderObjectIdSetup ,
& FlatGLTest : : renderObjectIdTeardown
# else
& FlatGLTest : : renderSetup ,
& FlatGLTest : : renderTeardown
# endif
) ;
# ifndef MAGNUM_TARGET_GLES2
addInstancedTests ( { & FlatGLTest : : renderMulti2D ,
& FlatGLTest : : renderMulti3D } ,
Containers : : arraySize ( RenderMultiData ) ,
& FlatGLTest : : renderObjectIdSetup ,
& FlatGLTest : : renderObjectIdTeardown ) ;
# endif
/* Load the plugins directly from the build tree. Otherwise they're either
static and already loaded or not present in the build tree */
# ifdef ANYIMAGEIMPORTER_PLUGIN_FILENAME
CORRADE_INTERNAL_ASSERT_OUTPUT ( _manager . load ( ANYIMAGEIMPORTER_PLUGIN_FILENAME ) & PluginManager : : LoadState : : Loaded ) ;
# endif
# ifdef TGAIMPORTER_PLUGIN_FILENAME
CORRADE_INTERNAL_ASSERT_OUTPUT ( _manager . load ( TGAIMPORTER_PLUGIN_FILENAME ) & PluginManager : : LoadState : : Loaded ) ;
# endif
# ifdef CORRADE_TARGET_APPLE
if ( Utility : : System : : isSandboxed ( )
# if defined(CORRADE_TARGET_IOS) && defined(CORRADE_TESTSUITE_TARGET_XCTEST)
/** @todo Fix this once I persuade CMake to run XCTest tests properly */
& & std : : getenv ( " SIMULATOR_UDID " )
# endif
) {
_testDir = Utility : : Path : : split ( * Utility : : Path : : executableLocation ( ) ) . first ( ) ;
} else
# endif
{
_testDir = SHADERS_TEST_DIR ;
}
}
template < UnsignedInt dimensions > void FlatGLTest : : construct ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
auto & & data = ConstructData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : ObjectId ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
FlatGL < dimensions > shader { data . flags } ;
CORRADE_COMPARE ( shader . flags ( ) , data . flags ) ;
CORRADE_VERIFY ( shader . id ( ) ) ;
{
# if defined(CORRADE_TARGET_APPLE) && !defined(MAGNUM_TARGET_GLES)
CORRADE_EXPECT_FAIL ( " macOS drivers need insane amount of state to validate properly. " ) ;
# endif
CORRADE_VERIFY ( shader . validate ( ) . first ) ;
}
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
}
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : constructUniformBuffers ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
auto & & data = ConstructUniformBuffersData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : UniformBuffers ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
if ( ( data . flags & FlatGL2D : : Flag : : ObjectId ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
if ( data . flags > = FlatGL2D : : Flag : : MultiDraw ) {
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : shader_draw_parameters > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : shader_draw_parameters : : string ( ) < < " is not supported. " ) ;
# elif !defined(MAGNUM_TARGET_WEBGL)
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ANGLE : : multi_draw > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ANGLE : : multi_draw : : string ( ) < < " is not supported. " ) ;
# else
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : WEBGL : : multi_draw > ( ) )
CORRADE_SKIP ( GL : : Extensions : : WEBGL : : multi_draw : : string ( ) < < " is not supported. " ) ;
# endif
}
FlatGL < dimensions > shader { data . flags , data . materialCount , data . drawCount } ;
CORRADE_COMPARE ( shader . flags ( ) , data . flags ) ;
CORRADE_COMPARE ( shader . materialCount ( ) , data . materialCount ) ;
CORRADE_COMPARE ( shader . drawCount ( ) , data . drawCount ) ;
CORRADE_VERIFY ( shader . id ( ) ) ;
{
# if defined(CORRADE_TARGET_APPLE) && !defined(MAGNUM_TARGET_GLES)
CORRADE_EXPECT_FAIL ( " macOS drivers need insane amount of state to validate properly. " ) ;
# endif
CORRADE_VERIFY ( shader . validate ( ) . first ) ;
}
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
}
# endif
template < UnsignedInt dimensions > void FlatGLTest : : constructMove ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
FlatGL < dimensions > a { FlatGL < dimensions > : : Flag : : Textured } ;
const GLuint id = a . id ( ) ;
CORRADE_VERIFY ( id ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
FlatGL < dimensions > b { std : : move ( a ) } ;
CORRADE_COMPARE ( b . id ( ) , id ) ;
CORRADE_COMPARE ( b . flags ( ) , FlatGL < dimensions > : : Flag : : Textured ) ;
CORRADE_VERIFY ( ! a . id ( ) ) ;
FlatGL < dimensions > c { NoCreate } ;
c = std : : move ( b ) ;
CORRADE_COMPARE ( c . id ( ) , id ) ;
CORRADE_COMPARE ( c . flags ( ) , FlatGL < dimensions > : : Flag : : Textured ) ;
CORRADE_VERIFY ( ! b . id ( ) ) ;
}
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : constructMoveUniformBuffers ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
FlatGL < dimensions > a { FlatGL < dimensions > : : Flag : : UniformBuffers , 2 , 5 } ;
const GLuint id = a . id ( ) ;
CORRADE_VERIFY ( id ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
FlatGL < dimensions > b { std : : move ( a ) } ;
CORRADE_COMPARE ( b . id ( ) , id ) ;
CORRADE_COMPARE ( b . flags ( ) , FlatGL < dimensions > : : Flag : : UniformBuffers ) ;
CORRADE_COMPARE ( b . materialCount ( ) , 2 ) ;
CORRADE_COMPARE ( b . drawCount ( ) , 5 ) ;
CORRADE_VERIFY ( ! a . id ( ) ) ;
FlatGL < dimensions > c { NoCreate } ;
c = std : : move ( b ) ;
CORRADE_COMPARE ( c . id ( ) , id ) ;
CORRADE_COMPARE ( c . flags ( ) , FlatGL < dimensions > : : Flag : : UniformBuffers ) ;
CORRADE_COMPARE ( c . materialCount ( ) , 2 ) ;
CORRADE_COMPARE ( c . drawCount ( ) , 5 ) ;
CORRADE_VERIFY ( ! b . id ( ) ) ;
}
# endif
template < UnsignedInt dimensions > void FlatGLTest : : constructInvalid ( ) {
auto & & data = ConstructInvalidData [ testCaseInstanceId ( ) ] ;
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
setTestCaseDescription ( data . name ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > { data . flags } ;
CORRADE_COMPARE ( out . str ( ) , Utility : : formatString (
" Shaders::FlatGL: {} \n " , data . message ) ) ;
}
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : constructUniformBuffersInvalid ( ) {
auto & & data = ConstructUniformBuffersInvalidData [ testCaseInstanceId ( ) ] ;
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
setTestCaseDescription ( data . name ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > { data . flags , data . materialCount , data . drawCount } ;
CORRADE_COMPARE ( out . str ( ) , Utility : : formatString (
" Shaders::FlatGL: {} \n " , data . message ) ) ;
}
# endif
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : setUniformUniformBuffersEnabled ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > shader { FlatGL < dimensions > : : Flag : : UniformBuffers } ;
shader . setTransformationProjectionMatrix ( { } )
. setTextureMatrix ( { } )
. setTextureLayer ( { } )
. setColor ( { } )
. setAlphaMask ( { } )
. setObjectId ( { } ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::setTransformationProjectionMatrix(): the shader was created with uniform buffers enabled \n "
" Shaders::FlatGL::setTextureMatrix(): the shader was created with uniform buffers enabled \n "
" Shaders::FlatGL::setTextureLayer(): the shader was created with uniform buffers enabled \n "
" Shaders::FlatGL::setColor(): the shader was created with uniform buffers enabled \n "
" Shaders::FlatGL::setAlphaMask(): the shader was created with uniform buffers enabled \n "
" Shaders::FlatGL::setObjectId(): the shader was created with uniform buffers enabled \n " ) ;
}
template < UnsignedInt dimensions > void FlatGLTest : : bindBufferUniformBuffersNotEnabled ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
GL : : Buffer buffer ;
FlatGL < dimensions > shader ;
shader . bindTransformationProjectionBuffer ( buffer )
. bindTransformationProjectionBuffer ( buffer , 0 , 16 )
. bindDrawBuffer ( buffer )
. bindDrawBuffer ( buffer , 0 , 16 )
. bindTextureTransformationBuffer ( buffer )
. bindTextureTransformationBuffer ( buffer , 0 , 16 )
. bindMaterialBuffer ( buffer )
. bindMaterialBuffer ( buffer , 0 , 16 )
. setDrawOffset ( 0 ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::bindTransformationProjectionBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::bindTransformationProjectionBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::bindDrawBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::bindDrawBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::bindTextureTransformationBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::bindTextureTransformationBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::bindMaterialBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::bindMaterialBuffer(): the shader was not created with uniform buffers enabled \n "
" Shaders::FlatGL::setDrawOffset(): the shader was not created with uniform buffers enabled \n " ) ;
}
# endif
template < UnsignedInt dimensions > void FlatGLTest : : bindTexturesInvalid ( ) {
auto & & data = BindTexturesInvalidData [ testCaseInstanceId ( ) ] ;
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
setTestCaseDescription ( data . name ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL < dimensions > : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > shader { data . flags } ;
GL : : Texture2D texture ;
shader . bindTexture ( texture ) ;
# ifndef MAGNUM_TARGET_GLES2
shader . bindObjectIdTexture ( texture ) ;
# endif
CORRADE_COMPARE ( out . str ( ) , data . message ) ;
}
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : bindTextureArraysInvalid ( ) {
auto & & data = BindTextureArraysInvalidData [ testCaseInstanceId ( ) ] ;
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
setTestCaseDescription ( data . name ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > shader { data . flags } ;
GL : : Texture2DArray textureArray ;
shader . bindTexture ( textureArray ) ;
shader . bindObjectIdTexture ( textureArray ) ;
CORRADE_COMPARE ( out . str ( ) , data . message ) ;
}
# endif
template < UnsignedInt dimensions > void FlatGLTest : : setAlphaMaskNotEnabled ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > shader ;
shader . setAlphaMask ( 0.75f ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::setAlphaMask(): the shader was not created with alpha mask enabled \n " ) ;
}
template < UnsignedInt dimensions > void FlatGLTest : : setTextureMatrixNotEnabled ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > shader ;
shader . setTextureMatrix ( { } ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::setTextureMatrix(): the shader was not created with texture transformation enabled \n " ) ;
}
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : setTextureLayerNotArray ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > shader ;
shader . setTextureLayer ( 37 ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::setTextureLayer(): the shader was not created with texture arrays enabled \n " ) ;
}
# endif
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : bindTextureTransformBufferNotEnabled ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
GL : : Buffer buffer { GL : : Buffer : : TargetHint : : Uniform } ;
FlatGL < dimensions > shader { FlatGL < dimensions > : : Flag : : UniformBuffers } ;
shader . bindTextureTransformationBuffer ( buffer )
. bindTextureTransformationBuffer ( buffer , 0 , 16 ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::bindTextureTransformationBuffer(): the shader was not created with texture transformation enabled \n "
" Shaders::FlatGL::bindTextureTransformationBuffer(): the shader was not created with texture transformation enabled \n " ) ;
}
# endif
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : setObjectIdNotEnabled ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > shader ;
shader . setObjectId ( 33376 ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::setObjectId(): the shader was not created with object ID enabled \n " ) ;
}
# endif
# ifndef MAGNUM_TARGET_GLES2
template < UnsignedInt dimensions > void FlatGLTest : : setWrongDrawOffset ( ) {
setTestCaseTemplateName ( Utility : : format ( " {} " , dimensions ) ) ;
# ifdef CORRADE_NO_ASSERT
CORRADE_SKIP ( " CORRADE_NO_ASSERT defined, can't test assertions " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
std : : ostringstream out ;
Error redirectError { & out } ;
FlatGL < dimensions > { FlatGL < dimensions > : : Flag : : UniformBuffers , 2 , 5 }
. setDrawOffset ( 5 ) ;
CORRADE_COMPARE ( out . str ( ) ,
" Shaders::FlatGL::setDrawOffset(): draw offset 5 is out of bounds for 5 draws \n " ) ;
}
# endif
constexpr Vector2i RenderSize { 80 , 80 } ;
void FlatGLTest : : renderSetup ( ) {
/* Pick a color that's directly representable on RGBA4 as well to reduce
artifacts */
GL : : Renderer : : setClearColor ( 0x111111 _rgbf ) ;
GL : : Renderer : : enable ( GL : : Renderer : : Feature : : FaceCulling ) ;
_color = GL : : Renderbuffer { } ;
_color . setStorage (
# if !defined(MAGNUM_TARGET_GLES2) || !defined(MAGNUM_TARGET_WEBGL)
GL : : RenderbufferFormat : : RGBA8 ,
# else
GL : : RenderbufferFormat : : RGBA4 ,
# endif
RenderSize ) ;
_framebuffer = GL : : Framebuffer { { { } , RenderSize } } ;
_framebuffer . attachRenderbuffer ( GL : : Framebuffer : : ColorAttachment { 0 } , _color )
. clear ( GL : : FramebufferClear : : Color )
. bind ( ) ;
}
void FlatGLTest : : renderTeardown ( ) {
_framebuffer = GL : : Framebuffer { NoCreate } ;
_color = GL : : Renderbuffer { NoCreate } ;
}
template < FlatGL2D : : Flag flag > void FlatGLTest : : renderDefaults2D ( ) {
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
GL : : Mesh circle = MeshTools : : compile ( Primitives : : circle2DSolid ( 32 ) ) ;
FlatGL2D shader { flag } ;
if ( flag = = FlatGL2D : : Flag { } ) {
shader . draw ( circle ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
} } ;
shader
. bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/defaults.tga " ) ,
/* SwiftShader has 8 different pixels on the edges */
( DebugTools : : CompareImageToFile { _manager , 238.0f , 0.2975f } ) ) ;
}
template < FlatGL3D : : Flag flag > void FlatGLTest : : renderDefaults3D ( ) {
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
GL : : Mesh sphere = MeshTools : : compile ( Primitives : : uvSphereSolid ( 16 , 32 ) ) ;
FlatGL3D shader { flag } ;
if ( flag = = FlatGL3D : : Flag { } ) {
shader . draw ( sphere ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
} } ;
shader
. bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( sphere ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/defaults.tga " ) ,
/* SwiftShader has 8 different pixels on the edges */
( DebugTools : : CompareImageToFile { _manager , 238.0f , 0.2975f } ) ) ;
}
template < FlatGL2D : : Flag flag > void FlatGLTest : : renderColored2D ( ) {
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
GL : : Mesh circle = MeshTools : : compile ( Primitives : : circle2DSolid ( 32 ) ) ;
FlatGL2D shader { flag } ;
if ( flag = = FlatGL2D : : Flag { } ) {
shader
. setColor ( 0x9999ff _rgbf )
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
. draw ( circle ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
shader
. bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
const Float maxThreshold = 0.0f , meanThreshold = 0.0f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 11.34f , meanThreshold = 0.51f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/colored2D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
template < FlatGL3D : : Flag flag > void FlatGLTest : : renderColored3D ( ) {
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
GL : : Mesh sphere = MeshTools : : compile ( Primitives : : uvSphereSolid ( 16 , 32 ) ) ;
FlatGL3D shader { flag } ;
if ( flag = = FlatGL3D : : Flag { } ) {
shader
. setColor ( 0x9999ff _rgbf )
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf ) )
. draw ( sphere ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
shader
. bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( sphere ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has 5 different pixels on the edges */
const Float maxThreshold = 170.0f , meanThreshold = 0.133f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 170.0f , meanThreshold = 0.456f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/colored3D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
constexpr GL : : TextureFormat TextureFormatRGB =
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
GL : : TextureFormat : : RGB8
# else
GL : : TextureFormat : : RGB
# endif
;
constexpr GL : : TextureFormat TextureFormatRGBA =
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
GL : : TextureFormat : : RGBA8
# else
GL : : TextureFormat : : RGBA
# endif
;
template < FlatGL2D : : Flag flag > void FlatGLTest : : renderSinglePixelTextured2D ( ) {
auto & & data = RenderSinglePixelTexturedData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
GL : : Mesh circle = MeshTools : : compile ( Primitives : : circle2DSolid ( 32 ,
Primitives : : Circle2DFlag : : TextureCoordinates ) ) ;
FlatGL2D : : Flags flags = FlatGL2D : : Flag : : Textured | data . flags | flag ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers & & ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! ( data . flags & FlatGL2D : : Flag : : TextureTransformation ) ) {
CORRADE_INFO ( " Texture arrays currently require texture transformation if UBOs are used, enabling implicitly. " ) ;
flags | = FlatGL2D : : Flag : : TextureTransformation ;
}
# endif
FlatGL2D shader { flags } ;
const Color4ub imageData [ ] { 0x9999ff _rgb } ;
ImageView2D image { PixelFormat : : RGBA8Unorm , Vector2i { 1 } , imageData } ;
GL : : Texture2D texture { NoCreate } ;
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags & FlatGL3D : : Flag : : TextureArrays ) {
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGBA , Vector3i { 1 , 1 , data . layer + 1 } )
. setSubImage ( 0 , { 0 , 0 , data . layer } , image ) ;
shader . bindTexture ( textureArray ) ;
if ( flag ! = FlatGL2D : : Flag : : UniformBuffers & & data . layer ! = 0 )
shader . setTextureLayer ( data . layer ) ; /* to verify the default */
} else
# endif
{
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGBA , Vector2i { 1 } )
. setSubImage ( 0 , { } , image ) ;
shader . bindTexture ( texture ) ;
}
if ( flag = = FlatGL2D : : Flag { } ) {
shader . setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
. draw ( circle ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setLayer ( data . layer )
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
} } ;
/* Also take into account the case when texture transform needs to be
enabled for texture arrays , so not data . flags but flags */
if ( flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has 5 different pixels on the edges */
const Float maxThreshold = 170.0f , meanThreshold = 0.133f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 11.34f , meanThreshold = 0.51f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/colored2D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
template < FlatGL3D : : Flag flag > void FlatGLTest : : renderSinglePixelTextured3D ( ) {
auto & & data = RenderSinglePixelTexturedData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
GL : : Mesh sphere = MeshTools : : compile ( Primitives : : uvSphereSolid ( 16 , 32 ,
Primitives : : UVSphereFlag : : TextureCoordinates ) ) ;
FlatGL3D : : Flags flags = FlatGL2D : : Flag : : Textured | data . flags | flag ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL3D : : Flag : : UniformBuffers & & ( data . flags & FlatGL3D : : Flag : : TextureArrays ) & & ! ( data . flags & FlatGL3D : : Flag : : TextureTransformation ) ) {
CORRADE_INFO ( " Texture arrays currently require texture transformation if UBOs are used, enabling implicitly. " ) ;
flags | = FlatGL3D : : Flag : : TextureTransformation ;
}
# endif
FlatGL3D shader { flags } ;
const Color4ub imageData [ ] { 0x9999ff _rgb } ;
ImageView2D image { PixelFormat : : RGBA8Unorm , Vector2i { 1 } , imageData } ;
GL : : Texture2D texture { NoCreate } ;
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags & FlatGL3D : : Flag : : TextureArrays ) {
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGBA , Vector3i { 1 , 1 , data . layer + 1 } )
. setSubImage ( 0 , { 0 , 0 , data . layer } , image ) ;
shader . bindTexture ( textureArray ) ;
if ( flag ! = FlatGL2D : : Flag : : UniformBuffers & & data . layer ! = 0 )
shader . setTextureLayer ( data . layer ) ; /* to verify the default */
} else
# endif
{
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGBA , Vector2i { 1 } )
. setSubImage ( 0 , { } , image ) ;
shader . bindTexture ( texture ) ;
}
if ( flag = = FlatGL3D : : Flag { } ) {
shader . setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf )
)
. draw ( sphere ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setLayer ( data . layer )
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
} } ;
/* Also take into account the case when texture transform needs to be
enabled for texture arrays , so not data . flags but flags */
if ( flags & FlatGL3D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( sphere ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has 5 different pixels on the edges */
const Float maxThreshold = 170.0f , meanThreshold = 0.133f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 170.0f , meanThreshold = 0.456f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/colored3D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
template < FlatGL2D : : Flag flag > void FlatGLTest : : renderTextured2D ( ) {
auto & & data = RenderTexturedData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
GL : : Mesh circle = MeshTools : : compile ( Primitives : : circle2DSolid ( 32 ,
Primitives : : Circle2DFlag : : TextureCoordinates ) ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
FlatGL2D : : Flags flags = data . flags | flag ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers & & ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! ( data . flags & FlatGL2D : : Flag : : TextureTransformation ) ) {
CORRADE_INFO ( " Texture arrays currently require texture transformation if UBOs are used, enabling implicitly. " ) ;
flags | = FlatGL2D : : Flag : : TextureTransformation ;
}
# endif
FlatGL2D shader { flags } ;
GL : : Texture2D texture { NoCreate } ;
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags & FlatGL3D : : Flag : : TextureArrays ) {
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , { image - > size ( ) , data . layer + 1 } )
. setSubImage ( 0 , { 0 , 0 , data . layer } , ImageView2D { * image } ) ;
shader . bindTexture ( textureArray ) ;
if ( flag ! = FlatGL2D : : Flag : : UniformBuffers & & data . layer ! = 0 )
shader . setTextureLayer ( data . layer ) ; /* to verify the default */
} else
# endif
{
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
shader . bindTexture ( texture ) ;
}
if ( flag = = FlatGL2D : : Flag { } ) {
if ( data . textureTransformation ! = Matrix3 { } )
shader . setTextureMatrix ( data . textureTransformation ) ;
shader . setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
/* Colorized. Case without a color (where it should be white) is
tested in renderSinglePixelTextured2D ( ) */
. setColor ( 0x9999ff _rgbf )
. draw ( circle ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setTextureMatrix ( data . textureTransformation )
. setLayer ( data . layer )
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
/* Also take into account the case when texture transform needs to be
enabled for texture arrays , so not data . flags but flags */
if ( flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
Image2D rendered = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) ;
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : StridedArrayView2D < Color3ub > pixels =
Containers : : arrayCast < Color3ub > ( rendered . pixels < Color4ub > ( ) ) ;
if ( data . flip ) pixels = pixels . flipped < 0 > ( ) . flipped < 1 > ( ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has minor rounding errors, Apple A8 & llvmpipe a bit more */
const Float maxThreshold = 2.334f , meanThreshold = 0.032f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 15.667f , meanThreshold = 3.254f ;
# endif
CORRADE_COMPARE_WITH ( pixels ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/textured2D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
template < FlatGL3D : : Flag flag > void FlatGLTest : : renderTextured3D ( ) {
auto & & data = RenderTexturedData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
GL : : Mesh sphere = MeshTools : : compile ( Primitives : : uvSphereSolid ( 16 , 32 ,
Primitives : : UVSphereFlag : : TextureCoordinates ) ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
FlatGL3D : : Flags flags = data . flags | flag ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers & & ( data . flags & FlatGL3D : : Flag : : TextureArrays ) & & ! ( data . flags & FlatGL3D : : Flag : : TextureTransformation ) ) {
CORRADE_INFO ( " Texture arrays currently require texture transformation if UBOs are used, enabling implicitly. " ) ;
flags | = FlatGL3D : : Flag : : TextureTransformation ;
}
# endif
FlatGL3D shader { flags } ;
GL : : Texture2D texture { NoCreate } ;
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags & FlatGL3D : : Flag : : TextureArrays ) {
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , { image - > size ( ) , data . layer + 1 } )
. setSubImage ( 0 , { 0 , 0 , data . layer } , ImageView2D { * image } ) ;
shader . bindTexture ( textureArray ) ;
if ( flag ! = FlatGL3D : : Flag : : UniformBuffers & & data . layer ! = 0 )
shader . setTextureLayer ( data . layer ) ; /* to verify the default */
} else
# endif
{
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
shader . bindTexture ( texture ) ;
}
if ( flag = = FlatGL3D : : Flag { } ) {
if ( data . textureTransformation ! = Matrix3 { } )
shader . setTextureMatrix ( data . textureTransformation ) ;
shader
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( data . flip ? 15.0 _degf : - 15.0 _degf ) *
Matrix4 : : rotationX ( data . flip ? - 15.0 _degf : 15.0 _degf ) )
/* Colorized. Case without a color (where it should be white) is
tested in renderSinglePixelTextured3D ( ) */
. setColor ( 0x9999ff _rgbf )
. draw ( sphere ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( data . flip ? 15.0 _degf : - 15.0 _degf ) *
Matrix4 : : rotationX ( data . flip ? - 15.0 _degf : 15.0 _degf )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setTextureMatrix ( data . textureTransformation )
. setLayer ( data . layer )
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
/* Also take into account the case when texture transform needs to be
enabled for texture arrays */
if ( flags & FlatGL3D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( sphere ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
Image2D rendered = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) ;
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : StridedArrayView2D < Color3ub > pixels =
Containers : : arrayCast < Color3ub > ( rendered . pixels < Color4ub > ( ) ) ;
if ( data . flip ) pixels = pixels . flipped < 0 > ( ) . flipped < 1 > ( ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has 5 different pixels on the edges */
const Float maxThreshold = 139.0f , meanThreshold = 0.087f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 139.0f , meanThreshold = 2.896f ;
# endif
CORRADE_COMPARE_WITH ( pixels ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/textured3D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
template < class T , FlatGL2D : : Flag flag > void FlatGLTest : : renderVertexColor2D ( ) {
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( { T : : Size = = 3 ? " Color3 " : " Color4 " , " Flag::UniformBuffers " } ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
} else
# endif
{
setTestCaseTemplateName ( T : : Size = = 3 ? " Color3 " : " Color4 " ) ;
}
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Trade : : MeshData circleData = Primitives : : circle2DSolid ( 32 ,
Primitives : : Circle2DFlag : : TextureCoordinates ) ;
/* Highlight a quarter */
Containers : : Array < T > colorData { DirectInit , circleData . vertexCount ( ) , 0x999999 _rgbf } ;
for ( std : : size_t i = 8 ; i ! = 16 ; + + i )
colorData [ i + 1 ] = 0xffff99 _rgbf * 1.5f ;
GL : : Buffer colors ;
colors . setData ( colorData ) ;
GL : : Mesh circle = MeshTools : : compile ( circleData ) ;
circle . addVertexBuffer ( colors , 0 , GL : : Attribute < Shaders : : FlatGL2D : : Color3 : : Location , T > { } ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
GL : : Texture2D texture ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
FlatGL2D shader { FlatGL2D : : Flag : : Textured | FlatGL2D : : Flag : : VertexColor | flag } ;
shader . bindTexture ( texture ) ;
if ( flag = = FlatGL2D : : Flag { } ) {
shader . setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
. setColor ( 0x9999ff _rgbf )
. draw ( circle ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has minor rounding errors. ARM Mali / Apple A8 a bit more */
const Float maxThreshold = 3.334f , meanThreshold = 0.064f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's worse */
const Float maxThreshold = 15.334f , meanThreshold = 4.355f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/vertexColor2D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
template < class T , FlatGL2D : : Flag flag > void FlatGLTest : : renderVertexColor3D ( ) {
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( { T : : Size = = 3 ? " Color3 " : " Color4 " , " Flag::UniformBuffers " } ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
} else
# endif
{
setTestCaseTemplateName ( T : : Size = = 3 ? " Color3 " : " Color4 " ) ;
}
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Trade : : MeshData sphereData = Primitives : : uvSphereSolid ( 16 , 32 ,
Primitives : : UVSphereFlag : : TextureCoordinates ) ;
/* Highlight the middle rings */
Containers : : Array < T > colorData { DirectInit , sphereData . vertexCount ( ) , 0x999999 _rgbf } ;
for ( std : : size_t i = 6 * 33 ; i ! = 9 * 33 ; + + i )
colorData [ i + 1 ] = 0xffff99 _rgbf * 1.5f ;
GL : : Buffer colors ;
colors . setData ( colorData ) ;
GL : : Mesh sphere = MeshTools : : compile ( sphereData ) ;
sphere . addVertexBuffer ( colors , 0 , GL : : Attribute < Shaders : : FlatGL3D : : Color4 : : Location , T > { } ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
GL : : Texture2D texture ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
FlatGL3D shader { FlatGL3D : : Flag : : Textured | FlatGL3D : : Flag : : VertexColor | flag } ;
shader . bindTexture ( texture ) ;
if ( flag = = FlatGL2D : : Flag { } ) {
shader . setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf ) )
. setColor ( 0x9999ff _rgbf )
. draw ( sphere ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( sphere ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has some minor differences on the edges, Apple A8 more */
const Float maxThreshold = 76.67f , meanThreshold = 0.138f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's worse */
const Float maxThreshold = 76.67f , meanThreshold = 3.908f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/vertexColor3D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
void FlatGLTest : : renderAlphaSetup ( ) {
renderSetup ( ) ;
if ( RenderAlphaData [ testCaseInstanceId ( ) ] . blending )
GL : : Renderer : : enable ( GL : : Renderer : : Feature : : Blending ) ;
GL : : Renderer : : setBlendFunction ( GL : : Renderer : : BlendFunction : : SourceAlpha , GL : : Renderer : : BlendFunction : : OneMinusSourceAlpha ) ;
GL : : Renderer : : setBlendEquation ( GL : : Renderer : : BlendEquation : : Add ) ;
}
void FlatGLTest : : renderAlphaTeardown ( ) {
if ( RenderAlphaData [ testCaseInstanceId ( ) ] . blending )
GL : : Renderer : : disable ( GL : : Renderer : : Feature : : Blending ) ;
renderTeardown ( ) ;
}
template < FlatGL2D : : Flag flag > void FlatGLTest : : renderAlpha2D ( ) {
auto & & data = RenderAlphaData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
GL : : Texture2D texture ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( { _testDir , " TestFiles " , " diffuse-alpha-texture.tga " } ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGBA , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
GL : : Mesh circle = MeshTools : : compile ( Primitives : : circle2DSolid ( 32 ,
Primitives : : Circle2DFlag : : TextureCoordinates ) ) ;
FlatGL2D shader { data . flags | flag } ;
shader . bindTexture ( texture ) ;
if ( flag = = FlatGL2D : : Flag { } ) {
/* Test that the default is correct by not setting the threshold if
it ' s equal to the default */
if ( data . flags & FlatGL2D : : Flag : : AlphaMask & & data . threshold ! = 0.5f )
shader . setAlphaMask ( data . threshold ) ;
shader . setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
. setColor ( 0x9999ff _rgbf )
. draw ( circle ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
. setAlphaMask ( data . threshold )
} } ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* Minor differences between opaque and diffuse, not sure why */
const Float maxThreshold = 24.34f , meanThreshold = 0.305f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 31.34f , meanThreshold = 3.945f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , data . expected2D ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
template < FlatGL3D : : Flag flag > void FlatGLTest : : renderAlpha3D ( ) {
auto & & data = RenderAlphaData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
GL : : Texture2D texture ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( { _testDir , " TestFiles " , " diffuse-alpha-texture.tga " } ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGBA , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
GL : : Mesh sphere = MeshTools : : compile ( Primitives : : uvSphereSolid ( 16 , 32 ,
Primitives : : UVSphereFlag : : TextureCoordinates ) ) ;
FlatGL3D shader { data . flags | flag } ;
shader . bindTexture ( texture ) ;
if ( flag = = FlatGL2D : : Flag { } ) {
shader . setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf ) )
. setColor ( 0x9999ff _rgbf ) ;
/* Test that the default is correct by not setting the threshold if
it ' s equal to the default */
if ( data . flags & FlatGL3D : : Flag : : AlphaMask & & data . threshold ! = 0.5f )
shader . setAlphaMask ( data . threshold ) ;
/* For proper Z order draw back faces first and then front faces */
GL : : Renderer : : setFaceCullingMode ( GL : : Renderer : : PolygonFacing : : Front ) ;
shader . draw ( sphere ) ;
GL : : Renderer : : setFaceCullingMode ( GL : : Renderer : : PolygonFacing : : Back ) ;
shader . draw ( sphere ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
. setAlphaMask ( data . threshold )
} } ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform ) ;
/* For proper Z order draw back faces first and then front faces */
GL : : Renderer : : setFaceCullingMode ( GL : : Renderer : : PolygonFacing : : Front ) ;
shader . draw ( sphere ) ;
GL : : Renderer : : setFaceCullingMode ( GL : : Renderer : : PolygonFacing : : Back ) ;
shader . draw ( sphere ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* Minor differences between opaque and diffuse, not sure why. SwiftShader
has 5 different pixels on the edges , llvmpipe some off - by - one errors */
const Float maxThreshold = 139.0f , meanThreshold = 0.421f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 139.0f , meanThreshold = 4.587f ;
# endif
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( { _testDir , data . expected3D } ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
}
# ifndef MAGNUM_TARGET_GLES2
void FlatGLTest : : renderObjectIdSetup ( ) {
GL : : Renderer : : enable ( GL : : Renderer : : Feature : : FaceCulling ) ;
_color = GL : : Renderbuffer { } ;
_color . setStorage ( GL : : RenderbufferFormat : : RGBA8 , RenderSize ) ;
_framebuffer = GL : : Framebuffer { { { } , RenderSize } } ;
_framebuffer . attachRenderbuffer ( GL : : Framebuffer : : ColorAttachment { 0 } , _color )
/* Pick a color that's directly representable on RGBA4 as well to
reduce artifacts ( well , and this needs to be consistent with other
tests that * need * to run on WebGL 1 ) */
. clearColor ( 0 , 0x111111 _rgbf )
. bind ( ) ;
/* If we don't have EXT_gpu_shader4, we likely don't have integer
framebuffers either ( Mesa ' s Zink ) , so skip setting up integer
attachments to avoid GL errors */
# ifndef MAGNUM_TARGET_GLES
if ( GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
# endif
{
_objectId = GL : : Renderbuffer { } ;
_objectId . setStorage ( GL : : RenderbufferFormat : : R32UI , RenderSize ) ;
_framebuffer . attachRenderbuffer ( GL : : Framebuffer : : ColorAttachment { 1 } , _objectId )
. mapForDraw ( {
{ FlatGL2D : : ColorOutput , GL : : Framebuffer : : ColorAttachment { 0 } } ,
{ FlatGL2D : : ObjectIdOutput , GL : : Framebuffer : : ColorAttachment { 1 } }
} )
. clearColor ( 1 , Vector4ui { 27 } ) ;
}
}
void FlatGLTest : : renderObjectIdTeardown ( ) {
_color = GL : : Renderbuffer { NoCreate } ;
_objectId = GL : : Renderbuffer { NoCreate } ;
_framebuffer = GL : : Framebuffer { NoCreate } ;
}
template < FlatGL2D : : Flag flag > void FlatGLTest : : renderObjectId2D ( ) {
auto & & data = RenderObjectIdData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Draw ) , GL : : Framebuffer : : Status : : Complete ) ;
Primitives : : Circle2DFlags circleFlags ;
if ( data . flags & FlatGL2D : : Flag : : ObjectIdTexture )
circleFlags | = Primitives : : Circle2DFlag : : TextureCoordinates ;
GL : : Mesh circle = MeshTools : : compile ( Primitives : : circle2DSolid ( 32 , circleFlags ) ) ;
FlatGL2D : : Flags flags = data . flags | flag ;
if ( flag = = FlatGL2D : : Flag : : UniformBuffers & & ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! ( data . flags & FlatGL2D : : Flag : : TextureTransformation ) ) {
CORRADE_INFO ( " Texture arrays currently require texture transformation if UBOs are used, enabling implicitly. " ) ;
flags | = FlatGL2D : : Flag : : TextureTransformation ;
}
FlatGL2D shader { FlatGL2D : : Flag : : ObjectId | flags } ;
GL : : Texture2D texture { NoCreate } ;
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags > = FlatGL2D : : Flag : : ObjectIdTexture ) {
const UnsignedShort imageData [ ] {
100 , 200 , 300 , 400
} ;
ImageView2D image { PixelFormat : : R16UI , { 2 , 2 } , imageData } ;
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , { image . size ( ) , data . layer + 1 } )
. setSubImage ( 0 , { 0 , 0 , data . layer } , image ) ;
shader . bindObjectIdTexture ( textureArray ) ;
if ( flag ! = FlatGL2D : : Flag : : UniformBuffers & & data . layer ! = 0 )
shader . setTextureLayer ( data . layer ) ; /* to verify the default */
} else {
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( texture ) ;
}
}
if ( flag = = FlatGL2D : : Flag { } ) {
if ( data . textureTransformation ! = Matrix3 { } )
shader . setTextureMatrix ( data . textureTransformation ) ;
shader . setColor ( 0x9999ff _rgbf )
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
. setObjectId ( 40006 )
. draw ( circle ) ;
} else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix ( Matrix3 : : projection ( { 2.1f , 2.1f } ) )
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
. setObjectId ( 40006 )
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setTextureMatrix ( data . textureTransformation )
. setLayer ( data . layer )
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
/* Also take into account the case when texture transform needs to be
enabled for texture arrays , so not data . flags but flags */
if ( flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
} else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
/* Color output should have no difference -- same as in colored2D() */
const Float maxThreshold = 0.0f , meanThreshold = 0.0f ;
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/colored2D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
/* Object ID -- no need to verify the whole image, just check that pixels
on known places have expected values . SwiftShader insists that the read
format has to be 32 bit , so the renderbuffer format is that too to make
it the same ( ES3 Mesa complains if these don ' t match ) . */
_framebuffer . mapForRead ( GL : : Framebuffer : : ColorAttachment { 1 } ) ;
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Read ) , GL : : Framebuffer : : Status : : Complete ) ;
Image2D image = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : R32UI } ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
/* Outside of the object, cleared to 27 */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 10 ] [ 10 ] , 27 ) ;
/* Inside of the object */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 30 ] [ 30 ] , data . expected [ 0 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 30 ] [ 50 ] , data . expected [ 1 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 50 ] [ 30 ] , data . expected [ 2 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 50 ] [ 50 ] , data . expected [ 3 ] ) ;
}
template < FlatGL3D : : Flag flag > void FlatGLTest : : renderObjectId3D ( ) {
auto & & data = RenderObjectIdData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL3D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Draw ) , GL : : Framebuffer : : Status : : Complete ) ;
Primitives : : UVSphereFlags sphereFlags ;
if ( data . flags & FlatGL3D : : Flag : : ObjectIdTexture )
sphereFlags | = Primitives : : UVSphereFlag : : TextureCoordinates ;
GL : : Mesh sphere = MeshTools : : compile ( Primitives : : uvSphereSolid ( 16 , 32 , sphereFlags ) ) ;
FlatGL3D : : Flags flags = data . flags | flag ;
if ( flag = = FlatGL3D : : Flag : : UniformBuffers & & ( data . flags & FlatGL3D : : Flag : : TextureArrays ) & & ! ( data . flags & FlatGL3D : : Flag : : TextureTransformation ) ) {
CORRADE_INFO ( " Texture arrays currently require texture transformation if UBOs are used, enabling implicitly. " ) ;
flags | = FlatGL3D : : Flag : : TextureTransformation ;
}
FlatGL3D shader { FlatGL3D : : Flag : : ObjectId | flags } ;
GL : : Texture2D texture { NoCreate } ;
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags & FlatGL3D : : Flag : : ObjectIdTexture ) {
const UnsignedShort imageData [ ] {
100 , 200 , 300 , 400
} ;
ImageView2D image { PixelFormat : : R16UI , { 2 , 2 } , imageData } ;
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , { image . size ( ) , data . layer + 1 } )
. setSubImage ( 0 , { 0 , 0 , data . layer } , image ) ;
shader . bindObjectIdTexture ( textureArray ) ;
if ( flag ! = FlatGL2D : : Flag : : UniformBuffers & & data . layer ! = 0 )
shader . setTextureLayer ( data . layer ) ; /* to verify the default */
} else {
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( texture ) ;
}
}
if ( flag = = FlatGL3D : : Flag { } ) {
if ( data . textureTransformation ! = Matrix3 { } )
shader . setTextureMatrix ( data . textureTransformation ) ;
shader . setColor ( 0x9999ff _rgbf )
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf ) )
. setObjectId ( 40006 )
. draw ( sphere ) ;
} else if ( flag = = FlatGL3D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : rotationY ( - 15.0 _degf ) *
Matrix4 : : rotationX ( 15.0 _degf )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
. setObjectId ( 40006 )
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setTextureMatrix ( data . textureTransformation )
. setLayer ( data . layer )
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( 0x9999ff _rgbf )
} } ;
/* Also take into account the case when texture transform needs to be
enabled for texture arrays , so not data . flags but flags */
if ( flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( sphere ) ;
} else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
/* Color output should have no difference -- same as in colored3D() */
# if !(defined(MAGNUM_TARGET_GLES2) && defined(MAGNUM_TARGET_WEBGL))
/* SwiftShader has 5 different pixels on the edges */
const Float maxThreshold = 170.0f , meanThreshold = 0.133f ;
# else
/* WebGL 1 doesn't have 8bit renderbuffer storage, so it's way worse */
const Float maxThreshold = 170.0f , meanThreshold = 0.456f ;
# endif
_framebuffer . mapForRead ( GL : : Framebuffer : : ColorAttachment { 0 } ) ;
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Read ) , GL : : Framebuffer : : Status : : Complete ) ;
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( _testDir , " FlatTestFiles/colored3D.tga " ) ,
( DebugTools : : CompareImageToFile { _manager , maxThreshold , meanThreshold } ) ) ;
/* Object ID -- no need to verify the whole image, just check that pixels
on known places have expected values . SwiftShader insists that the read
format has to be 32 bit , so the renderbuffer format is that too to make
it the same ( ES3 Mesa complains if these don ' t match ) . */
_framebuffer . mapForRead ( GL : : Framebuffer : : ColorAttachment { 1 } ) ;
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Read ) , GL : : Framebuffer : : Status : : Complete ) ;
Image2D image = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : R32UI } ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
/* Outside of the object, cleared to 27 */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 10 ] [ 10 ] , 27 ) ;
/* Inside of the object. It's a sphere and the seam is at the front,
rotated to bottom left , meaning left is actually the right part of the
texture and right is the left part of the texture . */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 20 ] [ 50 ] , data . expected [ 0 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 20 ] [ 20 ] , data . expected [ 1 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 50 ] [ 50 ] , data . expected [ 2 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 50 ] [ 20 ] , data . expected [ 3 ] ) ;
}
# endif
template < FlatGL2D : : Flag flag > void FlatGLTest : : renderInstanced2D ( ) {
auto & & data = RenderInstancedData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : ObjectId ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : instanced_arrays > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : instanced_arrays : : string ( ) < < " is not supported. " ) ;
# elif defined(MAGNUM_TARGET_GLES2)
# ifndef MAGNUM_TARGET_WEBGL
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ANGLE : : instanced_arrays > ( ) & &
! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : instanced_arrays > ( ) & &
! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : NV : : instanced_arrays > ( ) )
CORRADE_SKIP ( " GL_{ANGLE,EXT,NV}_instanced_arrays is not supported " ) ;
# else
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ANGLE : : instanced_arrays > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ANGLE : : instanced_arrays : : string ( ) < < " is not supported. " ) ;
# endif
# endif
GL : : Mesh circle = MeshTools : : compile ( Primitives : : circle2DSolid ( 32 ,
Primitives : : Circle2DFlag : : TextureCoordinates ) ) ;
/* Three circles, each in a different location */
struct {
Matrix3 transformation ;
Color3 color ;
Vector3 textureOffsetLayer ;
UnsignedInt objectId ;
} instanceData [ ] {
{ Matrix3 : : translation ( { - 1.25f , - 1.25f } ) ,
data . flags & FlatGL2D : : Flag : : Textured ? 0xffffff _rgbf : 0xffff00 _rgbf ,
{ 0.0f , 0.0f , 0.0f } , 211 } ,
{ Matrix3 : : translation ( { 1.25f , - 1.25f } ) ,
data . flags & FlatGL2D : : Flag : : Textured ? 0xffffff _rgbf : 0x00ffff _rgbf ,
{ 1.0f , 0.0f , 1.0f } , 4627 } ,
{ Matrix3 : : translation ( { 0.00f , 1.25f } ) ,
data . flags & FlatGL2D : : Flag : : Textured ? 0xffffff _rgbf : 0xff00ff _rgbf ,
# ifndef MAGNUM_TARGET_GLES2
data . flags & FlatGL2D : : Flag : : TextureArrays ? Vector3 { 0.0f , 0.0f , 2.0f } :
# endif
Vector3 { 0.5f , 1.0f , 2.0f } , 35363 } ,
} ;
circle
. addVertexBufferInstanced ( GL : : Buffer { instanceData } , 1 , 0 ,
FlatGL2D : : TransformationMatrix { } ,
FlatGL2D : : Color3 { } ,
# ifndef MAGNUM_TARGET_GLES2
FlatGL2D : : TextureOffsetLayer { } ,
# else
FlatGL2D : : TextureOffset { } ,
4 ,
# endif
# ifndef MAGNUM_TARGET_GLES2
FlatGL2D : : ObjectId { }
# else
4
# endif
)
. setInstanceCount ( 3 ) ;
FlatGL2D shader { FlatGL2D : : Flag : : VertexColor |
FlatGL2D : : Flag : : InstancedTransformation | data . flags | flag } ;
GL : : Texture2D texture { NoCreate } ;
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2DArray textureArray { NoCreate } ;
# endif
if ( data . flags & FlatGL3D : : Flag : : Textured ) {
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
# ifndef MAGNUM_TARGET_GLES2
/* For arrays we upload three slices of the original image to half-high
slices */
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
/** @todo implement image slicing, ffs */
const ImageView2D first {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { 0 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D second {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 2 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D third {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 4 , image - > size ( ) . y ( ) / 2 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
/* Three slices with 2 extra as a base offset, each slice has
half the height */
. setStorage ( 1 , TextureFormatRGB , { image - > size ( ) . x ( ) , image - > size ( ) . y ( ) / 2 , 2 + 3 } )
. setSubImage ( 0 , { 0 , 0 , 2 } , first )
/* Put the second image on the right half to test that the
per - instance offset is used together with the layer */
. setSubImage ( 0 , { image - > size ( ) . x ( ) / 2 , 0 , 3 } , second )
. setSubImage ( 0 , { 0 , 0 , 4 } , third ) ;
shader . bindTexture ( textureArray ) ;
} else
# endif
{
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
shader . bindTexture ( texture ) ;
}
}
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2D objectIdTexture { NoCreate } ;
GL : : Texture2DArray objectIdTextureArray { NoCreate } ;
if ( data . flags > = FlatGL2D : : Flag : : ObjectIdTexture ) {
/* This should match transformation done for the diffuse/normal
texture */
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
/* 2 extra slices as a base offset, each slice has half height,
second slice has the data in the right half */
const UnsignedShort imageData [ ] {
0 , 0 ,
0 , 0 ,
2000 , 0 ,
0 , 3000 ,
4000 , 0
} ;
ImageView3D image { PixelFormat : : R16UI , { 2 , 1 , 5 } , imageData } ;
objectIdTextureArray = GL : : Texture2DArray { } ;
objectIdTextureArray . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTextureArray ) ;
} else {
/* First is taken from bottom left, second from bottom right, third
from top center ( there I just duplicate the pixel on both
sides ) */
const UnsignedShort imageData [ ] {
2000 , 3000 ,
4000 , 4000
} ;
ImageView2D image { PixelFormat : : R16UI , { 2 , 2 } , imageData } ;
objectIdTexture = GL : : Texture2D { } ;
objectIdTexture . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTexture ) ;
}
}
# endif
if ( flag = = FlatGL2D : : Flag { } ) {
shader
. setColor ( data . flags & FlatGL2D : : Flag : : Textured ? 0xffffff _rgbf : 0xffff00 _rgbf )
. setTransformationProjectionMatrix (
Matrix3 : : projection ( { 2.1f , 2.1f } ) *
Matrix3 : : scaling ( Vector2 { 0.4f } ) ) ;
if ( data . flags & FlatGL2D : : Flag : : TextureTransformation )
shader . setTextureMatrix ( Matrix3 : : scaling (
# ifndef MAGNUM_TARGET_GLES2
/* Slices of the texture array have half the height */
data . flags & FlatGL2D : : Flag : : TextureArrays ? Vector2 : : xScale ( 0.5f ) :
# endif
Vector2 { 0.5f }
) ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( data . flags & FlatGL2D : : Flag : : TextureArrays )
shader . setTextureLayer ( 2 ) ; /* base offset */
# endif
# ifndef MAGNUM_TARGET_GLES2
if ( data . flags & FlatGL2D : : Flag : : ObjectId ) {
/* Gets added to the per-instance ID, if that's enabled as well */
shader . setObjectId ( 1000 ) ;
}
# endif
shader . draw ( circle ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix (
Matrix3 : : projection ( { 2.1f , 2.1f } ) *
Matrix3 : : scaling ( Vector2 { 0.4f } )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
/* Gets added to the per-instance ID, if that's enabled as
well */
. setObjectId ( 1000 )
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setTextureMatrix ( Matrix3 : : scaling (
# ifndef MAGNUM_TARGET_GLES2
/* Slices of the texture array have half the height */
data . flags & FlatGL2D : : Flag : : TextureArrays ? Vector2 : : xScale ( 0.5f ) :
# endif
Vector2 { 0.5f } ) )
. setLayer ( 2 ) /* base offset */
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( data . flags & FlatGL2D : : Flag : : Textured ? 0xffffff _rgbf : 0xffff00 _rgbf )
} } ;
if ( data . flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( circle ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
/*
Colored case :
- First should be lower left , yellow with a yellow base color , so
yellow
- Second lower right , cyan with a yellow base color , so green
- Third up center , magenta with a yellow base color , so red
Textured case :
- Lower left has bottom left numbers , so light 7881
- Lower light has bottom right , 1223
- Up center has 6778
*/
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( { _testDir , " FlatTestFiles " , data . expected2D } ) ,
( DebugTools : : CompareImageToFile { _manager , data . maxThreshold , data . meanThreshold } ) ) ;
# ifndef MAGNUM_TARGET_GLES2
/* Object ID -- no need to verify the whole image, just check that pixels
on known places have expected values . SwiftShader insists that the read
format has to be 32 bit , so the renderbuffer format is that too to make
it the same ( ES3 Mesa complains if these don ' t match ) . */
if ( data . flags & FlatGL2D : : Flag : : ObjectId ) {
_framebuffer . mapForRead ( GL : : Framebuffer : : ColorAttachment { 1 } ) ;
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Read ) , GL : : Framebuffer : : Status : : Complete ) ;
Image2D image = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : R32UI } ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
/* If instanced object IDs are enabled, the per-instance ID gets added
to the output as well */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 5 ] [ 5 ] , 27 ) ; /* Outside */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 24 ] , data . expectedId [ 0 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 56 ] , data . expectedId [ 1 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 56 ] [ 40 ] , data . expectedId [ 2 ] ) ;
}
# endif
}
template < FlatGL3D : : Flag flag > void FlatGLTest : : renderInstanced3D ( ) {
auto & & data = RenderInstancedData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
setTestCaseTemplateName ( " Flag::UniformBuffers " ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
# endif
}
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL3D : : Flag : : ObjectId ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : instanced_arrays > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : instanced_arrays : : string ( ) < < " is not supported. " ) ;
# elif defined(MAGNUM_TARGET_GLES2)
# ifndef MAGNUM_TARGET_WEBGL
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ANGLE : : instanced_arrays > ( ) & &
! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : instanced_arrays > ( ) & &
! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : NV : : instanced_arrays > ( ) )
CORRADE_SKIP ( " GL_{ANGLE,EXT,NV}_instanced_arrays is not supported " ) ;
# else
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ANGLE : : instanced_arrays > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ANGLE : : instanced_arrays : : string ( ) < < " is not supported. " ) ;
# endif
# endif
GL : : Mesh sphere = MeshTools : : compile ( Primitives : : uvSphereSolid ( 16 , 32 ,
Primitives : : UVSphereFlag : : TextureCoordinates ) ) ;
/* Three spheres, each in a different location */
struct {
Matrix4 transformation ;
Color3 color ;
Vector3 textureOffsetLayer ;
UnsignedInt objectId ;
} instanceData [ ] {
{ Matrix4 : : translation ( { - 1.25f , - 1.25f , 0.0f } ) *
/* To be consistent with Phong's output where it tests that the
normal matrix is applied properly */
Matrix4 : : rotationX ( 90.0 _degf ) ,
data . flags & FlatGL3D : : Flag : : Textured ? 0xffffff _rgbf : 0xffff00 _rgbf ,
{ 0.0f , 0.0f , 0.0f } , 211 } ,
{ Matrix4 : : translation ( { 1.25f , - 1.25f , 0.0f } ) ,
data . flags & FlatGL3D : : Flag : : Textured ? 0xffffff _rgbf : 0x00ffff _rgbf ,
{ 1.0f , 0.0f , 1.0f } , 4627 } ,
{ Matrix4 : : translation ( { 0.0f , 1.0f , 1.0f } ) ,
data . flags & FlatGL3D : : Flag : : Textured ? 0xffffff _rgbf : 0xff00ff _rgbf ,
# ifndef MAGNUM_TARGET_GLES2
data . flags & FlatGL2D : : Flag : : TextureArrays ? Vector3 { 0.0f , 0.0f , 2.0f } :
# endif
Vector3 { 0.5f , 1.0f , 2.0f } , 35363 }
} ;
sphere
. addVertexBufferInstanced ( GL : : Buffer { instanceData } , 1 , 0 ,
FlatGL3D : : TransformationMatrix { } ,
FlatGL3D : : Color3 { } ,
# ifndef MAGNUM_TARGET_GLES2
FlatGL2D : : TextureOffsetLayer { } ,
# else
FlatGL2D : : TextureOffset { } ,
4 ,
# endif
# ifndef MAGNUM_TARGET_GLES2
FlatGL2D : : ObjectId { }
# else
4
# endif
)
. setInstanceCount ( 3 ) ;
FlatGL3D shader { FlatGL3D : : Flag : : VertexColor |
FlatGL3D : : Flag : : InstancedTransformation | data . flags | flag } ;
GL : : Texture2D texture { NoCreate } ;
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2DArray textureArray { NoCreate } ;
# endif
if ( data . flags & FlatGL2D : : Flag : : Textured ) {
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
# ifndef MAGNUM_TARGET_GLES2
/* For arrays we upload three slices of the original image to half-high
slices */
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
/** @todo implement image slicing, ffs */
const ImageView2D first {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { 0 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D second {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 2 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D third {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 4 , image - > size ( ) . y ( ) / 2 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
/* Three slices with 2 extra as a base offset, each slice has
half the height */
. setStorage ( 1 , TextureFormatRGB , { image - > size ( ) . x ( ) , image - > size ( ) . y ( ) / 2 , 2 + 3 } )
. setSubImage ( 0 , { 0 , 0 , 2 } , first )
/* Put the second image on the right half to test that the
per - instance offset is used together with the layer */
. setSubImage ( 0 , { image - > size ( ) . x ( ) / 2 , 0 , 3 } , second )
. setSubImage ( 0 , { 0 , 0 , 4 } , third ) ;
shader . bindTexture ( textureArray ) ;
} else
# endif
{
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
shader . bindTexture ( texture ) ;
}
}
# ifndef MAGNUM_TARGET_GLES2
GL : : Texture2D objectIdTexture { NoCreate } ;
GL : : Texture2DArray objectIdTextureArray { NoCreate } ;
if ( data . flags > = FlatGL3D : : Flag : : ObjectIdTexture ) {
/* This should match transformation done for the diffuse/normal
texture */
if ( data . flags & FlatGL3D : : Flag : : TextureArrays ) {
/* 2 extra slices as a base offset, each slice has half height,
second slice has the data in the right half */
const UnsignedShort imageData [ ] {
0 , 0 ,
0 , 0 ,
2000 , 0 ,
0 , 3000 ,
4000 , 0
} ;
ImageView3D image { PixelFormat : : R16UI , { 2 , 1 , 5 } , imageData } ;
objectIdTextureArray = GL : : Texture2DArray { } ;
objectIdTextureArray . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTextureArray ) ;
} else {
/* First is taken from bottom left, second from bottom right, third
from top center ( there I just duplicate the pixel on both
sides ) */
const UnsignedShort imageData [ ] {
2000 , 3000 ,
4000 , 4000
} ;
ImageView2D image { PixelFormat : : R16UI , { 2 , 2 } , imageData } ;
objectIdTexture = GL : : Texture2D { } ;
objectIdTexture . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTexture ) ;
}
}
# endif
if ( flag = = FlatGL3D : : Flag { } ) {
shader
. setColor ( data . flags & FlatGL2D : : Flag : : Textured ? 0xffffff _rgbf : 0xffff00 _rgbf )
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : scaling ( Vector3 { 0.4f } ) ) ;
if ( data . flags & FlatGL3D : : Flag : : TextureTransformation )
shader . setTextureMatrix ( Matrix3 : : scaling (
# ifndef MAGNUM_TARGET_GLES2
/* Slices of the texture array have half the height */
data . flags & FlatGL2D : : Flag : : TextureArrays ? Vector2 : : xScale ( 0.5f ) :
# endif
Vector2 { 0.5f }
) ) ;
# ifndef MAGNUM_TARGET_GLES2
if ( data . flags & FlatGL3D : : Flag : : TextureArrays )
shader . setTextureLayer ( 2 ) ; /* base offset */
# endif
# ifndef MAGNUM_TARGET_GLES2
if ( data . flags & FlatGL3D : : Flag : : ObjectId ) {
/* Gets added to the per-instance ID, if that's enabled as well */
shader . setObjectId ( 1000 ) ;
}
# endif
shader . draw ( sphere ) ;
}
# ifndef MAGNUM_TARGET_GLES2
else if ( flag = = FlatGL2D : : Flag : : UniformBuffers ) {
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , {
TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : scaling ( Vector3 { 0.4f } )
)
} } ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatDrawUniform { }
/* Gets added to the per-instance ID, if that's enabled as
well */
. setObjectId ( 1000 )
} } ;
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , {
TextureTransformationUniform { }
. setTextureMatrix ( Matrix3 : : scaling (
# ifndef MAGNUM_TARGET_GLES2
/* Slices of the texture array have half the height */
data . flags & FlatGL2D : : Flag : : TextureArrays ? Vector2 : : xScale ( 0.5f ) :
# endif
Vector2 { 0.5f } ) )
. setLayer ( 2 ) /* base offset */
} } ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , {
FlatMaterialUniform { }
. setColor ( data . flags & FlatGL3D : : Flag : : Textured ? 0xffffff _rgbf : 0xffff00 _rgbf )
} } ;
if ( data . flags & FlatGL3D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform )
. draw ( sphere ) ;
}
# endif
else CORRADE_INTERNAL_ASSERT_UNREACHABLE ( ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
/*
Colored case :
- First should be lower left , yellow with a yellow base color , so
yellow
- Second lower right , cyan with a yellow base color , so green
- Third up center , magenta with a yellow base color , so red
Textured case :
- Lower left has bottom left numbers , so light 7881 , rotated ( 78
visible )
- Lower light has bottom right , 1223
- Up center has 6778
*/
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( { _testDir , " FlatTestFiles " , data . expected3D } ) ,
( DebugTools : : CompareImageToFile { _manager , data . maxThreshold , data . meanThreshold } ) ) ;
# ifndef MAGNUM_TARGET_GLES2
/* Object ID -- no need to verify the whole image, just check that pixels
on known places have expected values . SwiftShader insists that the read
format has to be 32 bit , so the renderbuffer format is that too to make
it the same ( ES3 Mesa complains if these don ' t match ) . */
if ( data . flags & FlatGL3D : : Flag : : ObjectId ) {
_framebuffer . mapForRead ( GL : : Framebuffer : : ColorAttachment { 1 } ) ;
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Read ) , GL : : Framebuffer : : Status : : Complete ) ;
Image2D image = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : R32UI } ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 5 ] [ 5 ] , 27 ) ; /* Outside */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 24 ] , data . expectedId [ 0 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 56 ] , data . expectedId [ 1 ] ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 56 ] [ 40 ] , data . expectedId [ 2 ] ) ;
}
# endif
}
# ifndef MAGNUM_TARGET_GLES2
void FlatGLTest : : renderMulti2D ( ) {
auto & & data = RenderMultiData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL2D : : Flag : : ObjectId ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
# endif
if ( data . flags > = FlatGL2D : : Flag : : MultiDraw ) {
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : shader_draw_parameters > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : shader_draw_parameters : : string ( ) < < " is not supported. " ) ;
# elif !defined(MAGNUM_TARGET_WEBGL)
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ANGLE : : multi_draw > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ANGLE : : multi_draw : : string ( ) < < " is not supported. " ) ;
# else
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : WEBGL : : multi_draw > ( ) )
CORRADE_SKIP ( GL : : Extensions : : WEBGL : : multi_draw : : string ( ) < < " is not supported. " ) ;
# endif
}
# if defined(MAGNUM_TARGET_GLES) && !defined(MAGNUM_TARGET_WEBGL)
if ( GL : : Context : : current ( ) . detectedDriver ( ) & GL : : Context : : DetectedDriver : : SwiftShader )
CORRADE_SKIP ( " UBOs with dynamically indexed arrays are a crashy dumpster fire on SwiftShader, can't test. " ) ;
# endif
FlatGL2D shader { FlatGL2D : : Flag : : UniformBuffers | data . flags , data . materialCount , data . drawCount } ;
GL : : Texture2D texture { NoCreate } ;
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags & FlatGL3D : : Flag : : Textured ) {
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
/* For arrays we upload three slices of the original image to half-high
slices */
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
/** @todo implement image slicing, ffs */
const ImageView2D first {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { 0 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D second {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 2 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D third {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 4 , image - > size ( ) . y ( ) / 2 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
/* Each slice has half the height */
. setStorage ( 1 , TextureFormatRGB , { image - > size ( ) . x ( ) , image - > size ( ) . y ( ) / 2 , 3 } )
. setSubImage ( 0 , { 0 , 0 , 0 } , first )
/* Put the second image on the right half to test that the
per - instance offset is used together with the layer */
. setSubImage ( 0 , { image - > size ( ) . x ( ) / 2 , 0 , 1 } , second )
. setSubImage ( 0 , { 0 , 0 , 2 } , third ) ;
shader . bindTexture ( textureArray ) ;
} else {
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
shader . bindTexture ( texture ) ;
}
}
GL : : Texture2D objectIdTexture { NoCreate } ;
GL : : Texture2DArray objectIdTextureArray { NoCreate } ;
if ( data . flags > = FlatGL2D : : Flag : : ObjectIdTexture ) {
/* This should match transformation done for the diffuse/normal
texture */
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
/* Each slice has half height, second slice has the data in the
right half */
const UnsignedShort imageData [ ] {
2000 , 0 ,
0 , 3000 ,
4000 , 0
} ;
ImageView3D image { PixelFormat : : R16UI , { 2 , 1 , 3 } , imageData } ;
objectIdTextureArray = GL : : Texture2DArray { } ;
objectIdTextureArray . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTextureArray ) ;
} else {
/* First is taken from bottom left, second from bottom right, third
from top center ( there I just duplicate the pixel on both
sides ) */
const UnsignedShort imageData [ ] {
2000 , 3000 ,
4000 , 4000
} ;
ImageView2D image { PixelFormat : : R16UI , { 2 , 2 } , imageData } ;
objectIdTexture = GL : : Texture2D { } ;
objectIdTexture . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTexture ) ;
}
}
/* Circle is a fan, plane is a strip, make it indexed first */
Trade : : MeshData circleData = MeshTools : : generateIndices ( Primitives : : circle2DSolid ( 32 ,
Primitives : : Circle2DFlag : : TextureCoordinates ) ) ;
Trade : : MeshData squareData = MeshTools : : generateIndices ( Primitives : : squareSolid (
Primitives : : SquareFlag : : TextureCoordinates ) ) ;
Trade : : MeshData triangleData = MeshTools : : generateIndices ( Primitives : : circle2DSolid ( 3 ,
Primitives : : Circle2DFlag : : TextureCoordinates ) ) ;
GL : : Mesh mesh = MeshTools : : compile ( MeshTools : : concatenate ( { circleData , squareData , triangleData } ) ) ;
GL : : MeshView circle { mesh } ;
circle . setCount ( circleData . indexCount ( ) ) ;
GL : : MeshView square { mesh } ;
square . setCount ( squareData . indexCount ( ) )
. setIndexRange ( circleData . indexCount ( ) ) ;
GL : : MeshView triangle { mesh } ;
triangle . setCount ( triangleData . indexCount ( ) )
. setIndexRange ( circleData . indexCount ( ) + squareData . indexCount ( ) ) ;
/* Some drivers have uniform offset alignment as high as 256, which means
the subsequent sets of uniforms have to be aligned to a multiply of it .
The data . uniformIncrement is set high enough to ensure that , in the
non - offset - bind case this value is 1. */
Containers : : Array < FlatMaterialUniform > materialData { data . uniformIncrement + 1 } ;
materialData [ 0 * data . uniformIncrement ] = FlatMaterialUniform { }
. setColor ( data . flags & FlatGL2D : : Flag : : Textured ?
0xffffff _rgbf : 0x0000ff _rgbf ) ;
materialData [ 1 * data . uniformIncrement ] = FlatMaterialUniform { }
. setColor ( data . flags & FlatGL2D : : Flag : : Textured ?
0xffffff _rgbf : 0xff0000 _rgbf ) ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , materialData } ;
Containers : : Array < TransformationProjectionUniform2D > transformationProjectionData { 2 * data . uniformIncrement + 1 } ;
transformationProjectionData [ 0 * data . uniformIncrement ] = TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix (
Matrix3 : : projection ( { 2.1f , 2.1f } ) *
Matrix3 : : scaling ( Vector2 { 0.4f } ) *
Matrix3 : : translation ( { - 1.25f , - 1.25f } )
) ;
transformationProjectionData [ 1 * data . uniformIncrement ] = TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix (
Matrix3 : : projection ( { 2.1f , 2.1f } ) *
Matrix3 : : scaling ( Vector2 { 0.4f } ) *
Matrix3 : : translation ( { 1.25f , - 1.25f } )
) ;
transformationProjectionData [ 2 * data . uniformIncrement ] = TransformationProjectionUniform2D { }
. setTransformationProjectionMatrix (
Matrix3 : : projection ( { 2.1f , 2.1f } ) *
Matrix3 : : scaling ( Vector2 { 0.4f } ) *
Matrix3 : : translation ( { 0.00f , 1.25f } )
) ;
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , transformationProjectionData } ;
Containers : : Array < TextureTransformationUniform > textureTransformationData { 2 * data . uniformIncrement + 1 } ;
textureTransformationData [ 0 * data . uniformIncrement ] = TextureTransformationUniform { }
. setTextureMatrix (
data . flags & FlatGL2D : : Flag : : TextureArrays ?
Matrix3 : : scaling ( Vector2 : : xScale ( 0.5f ) ) *
Matrix3 : : translation ( { 0.0f , 0.0f } ) :
Matrix3 : : scaling ( Vector2 { 0.5f } ) *
Matrix3 : : translation ( { 0.0f , 0.0f } ) )
. setLayer ( 0 ) ; /* ignored if not array */
textureTransformationData [ 1 * data . uniformIncrement ] = TextureTransformationUniform { }
. setTextureMatrix (
data . flags & FlatGL2D : : Flag : : TextureArrays ?
Matrix3 : : scaling ( Vector2 : : xScale ( 0.5f ) ) *
Matrix3 : : translation ( { 1.0f , 0.0f } ) :
Matrix3 : : scaling ( Vector2 { 0.5f } ) *
Matrix3 : : translation ( { 1.0f , 0.0f } ) )
. setLayer ( 1 ) ; /* ignored if not array */
textureTransformationData [ 2 * data . uniformIncrement ] = TextureTransformationUniform { }
. setTextureMatrix (
data . flags & FlatGL2D : : Flag : : TextureArrays ?
Matrix3 : : scaling ( Vector2 : : xScale ( 0.5f ) ) *
Matrix3 : : translation ( { 0.0f , 0.0f } ) :
Matrix3 : : scaling ( Vector2 { 0.5f } ) *
Matrix3 : : translation ( { 0.5f , 1.0f } ) )
. setLayer ( 2 ) ; /* ignored if not array */
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , textureTransformationData } ;
Containers : : Array < FlatDrawUniform > drawData { 2 * data . uniformIncrement + 1 } ;
/* Material offsets are zero if we have single draw, as those are
done with UBO offset bindings instead . */
drawData [ 0 * data . uniformIncrement ] = FlatDrawUniform { }
. setMaterialId ( data . drawCount = = 1 ? 0 : 1 )
. setObjectId ( 1211 ) ;
drawData [ 1 * data . uniformIncrement ] = FlatDrawUniform { }
. setMaterialId ( data . drawCount = = 1 ? 0 : 0 )
. setObjectId ( 5627 ) ;
drawData [ 2 * data . uniformIncrement ] = FlatDrawUniform { }
. setMaterialId ( data . drawCount = = 1 ? 0 : 1 )
. setObjectId ( 36363 ) ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , drawData } ;
/* Just one draw, rebinding UBOs each time */
if ( data . drawCount = = 1 ) {
shader . bindMaterialBuffer ( materialUniform ,
1 * data . uniformIncrement * sizeof ( FlatMaterialUniform ) ,
sizeof ( FlatMaterialUniform ) ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform ,
0 * data . uniformIncrement * sizeof ( TransformationProjectionUniform2D ) ,
sizeof ( TransformationProjectionUniform2D ) ) ;
shader . bindDrawBuffer ( drawUniform ,
0 * data . uniformIncrement * sizeof ( FlatDrawUniform ) ,
sizeof ( FlatDrawUniform ) ) ;
if ( data . flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ,
0 * data . uniformIncrement * sizeof ( TextureTransformationUniform ) ,
sizeof ( TextureTransformationUniform ) ) ;
shader . draw ( circle ) ;
shader . bindMaterialBuffer ( materialUniform ,
0 * data . uniformIncrement * sizeof ( FlatMaterialUniform ) ,
sizeof ( FlatMaterialUniform ) ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform ,
1 * data . uniformIncrement * sizeof ( TransformationProjectionUniform2D ) ,
sizeof ( TransformationProjectionUniform2D ) ) ;
shader . bindDrawBuffer ( drawUniform ,
1 * data . uniformIncrement * sizeof ( FlatDrawUniform ) ,
sizeof ( FlatDrawUniform ) ) ;
if ( data . flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ,
1 * data . uniformIncrement * sizeof ( TextureTransformationUniform ) ,
sizeof ( TextureTransformationUniform ) ) ;
shader . draw ( square ) ;
shader . bindMaterialBuffer ( materialUniform ,
1 * data . uniformIncrement * sizeof ( FlatMaterialUniform ) ,
sizeof ( FlatMaterialUniform ) ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform ,
2 * data . uniformIncrement * sizeof ( TransformationProjectionUniform2D ) ,
sizeof ( TransformationProjectionUniform2D ) ) ;
shader . bindDrawBuffer ( drawUniform ,
2 * data . uniformIncrement * sizeof ( FlatDrawUniform ) ,
sizeof ( FlatDrawUniform ) ) ;
if ( data . flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ,
2 * data . uniformIncrement * sizeof ( TextureTransformationUniform ) ,
sizeof ( TextureTransformationUniform ) ) ;
shader . draw ( triangle ) ;
/* Otherwise using the draw offset / multidraw */
} else {
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform ) ;
if ( data . flags & FlatGL2D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
if ( data . flags > = FlatGL2D : : Flag : : MultiDraw )
shader . draw ( { circle , square , triangle } ) ;
else {
shader . setDrawOffset ( 0 )
. draw ( circle ) ;
shader . setDrawOffset ( 1 )
. draw ( square ) ;
shader . setDrawOffset ( 2 )
. draw ( triangle ) ;
}
}
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
/*
Colored case :
- Circle should be lower left , red
- Square lower right , blue
- Triangle up center , red
Textured case :
- Circle should have bottom left numbers , so light 7881
- Square bottom right , 1223
- Triangle 6778
*/
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( { _testDir , " FlatTestFiles " , data . expected2D } ) ,
( DebugTools : : CompareImageToFile { _manager , data . maxThreshold , data . meanThreshold } ) ) ;
/* Object ID -- no need to verify the whole image, just check that pixels
on known places have expected values . SwiftShader insists that the read
format has to be 32 bit , so the renderbuffer format is that too to make
it the same ( ES3 Mesa complains if these don ' t match ) . */
if ( data . flags & FlatGL2D : : Flag : : ObjectId ) {
_framebuffer . mapForRead ( GL : : Framebuffer : : ColorAttachment { 1 } ) ;
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Read ) , GL : : Framebuffer : : Status : : Complete ) ;
Image2D image = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : R32UI } ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 5 ] [ 5 ] , 27 ) ; /* Outside */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 24 ] , data . expectedId [ 0 ] ) ; /* Circle */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 56 ] , data . expectedId [ 1 ] ) ; /* Square */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 56 ] [ 40 ] , data . expectedId [ 2 ] ) ; /* Triangle */
}
}
void FlatGLTest : : renderMulti3D ( ) {
auto & & data = RenderMultiData [ testCaseInstanceId ( ) ] ;
setTestCaseDescription ( data . name ) ;
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : uniform_buffer_object > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : uniform_buffer_object : : string ( ) < < " is not supported. " ) ;
if ( ( data . flags & FlatGL2D : : Flag : : TextureArrays ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : texture_array > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : texture_array : : string ( ) < < " is not supported. " ) ;
# endif
# ifndef MAGNUM_TARGET_GLES
if ( ( data . flags & FlatGL3D : : Flag : : ObjectId ) & & ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : EXT : : gpu_shader4 > ( ) )
CORRADE_SKIP ( GL : : Extensions : : EXT : : gpu_shader4 : : string ( ) < < " is not supported. " ) ;
# endif
if ( data . flags > = FlatGL3D : : Flag : : MultiDraw ) {
# ifndef MAGNUM_TARGET_GLES
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ARB : : shader_draw_parameters > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ARB : : shader_draw_parameters : : string ( ) < < " is not supported. " ) ;
# elif !defined(MAGNUM_TARGET_WEBGL)
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : ANGLE : : multi_draw > ( ) )
CORRADE_SKIP ( GL : : Extensions : : ANGLE : : multi_draw : : string ( ) < < " is not supported. " ) ;
# else
if ( ! GL : : Context : : current ( ) . isExtensionSupported < GL : : Extensions : : WEBGL : : multi_draw > ( ) )
CORRADE_SKIP ( GL : : Extensions : : WEBGL : : multi_draw : : string ( ) < < " is not supported. " ) ;
# endif
}
# if defined(MAGNUM_TARGET_GLES) && !defined(MAGNUM_TARGET_WEBGL)
if ( GL : : Context : : current ( ) . detectedDriver ( ) & GL : : Context : : DetectedDriver : : SwiftShader )
CORRADE_SKIP ( " UBOs with dynamically indexed arrays are a crashy dumpster fire on SwiftShader, can't test. " ) ;
# endif
FlatGL3D shader { FlatGL3D : : Flag : : UniformBuffers | data . flags , data . materialCount , data . drawCount } ;
GL : : Texture2D texture { NoCreate } ;
GL : : Texture2DArray textureArray { NoCreate } ;
if ( data . flags & FlatGL3D : : Flag : : Textured ) {
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
Containers : : Pointer < Trade : : AbstractImporter > importer = _manager . loadAndInstantiate ( " AnyImageImporter " ) ;
CORRADE_VERIFY ( importer ) ;
Containers : : Optional < Trade : : ImageData2D > image ;
CORRADE_VERIFY ( importer - > openFile ( Utility : : Path : : join ( _testDir , " TestFiles/diffuse-texture.tga " ) ) & & ( image = importer - > image2D ( 0 ) ) ) ;
/* For arrays we upload three slices of the original image to half-high
slices */
if ( data . flags & FlatGL2D : : Flag : : TextureArrays ) {
/** @todo implement image slicing, ffs */
const ImageView2D first {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { 0 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D second {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 2 , 0 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
const ImageView2D third {
image - > storage ( ) . setRowLength ( image - > size ( ) . x ( ) )
. setImageHeight ( image - > size ( ) . y ( ) )
. setSkip ( { image - > size ( ) . x ( ) / 4 , image - > size ( ) . y ( ) / 2 , 0 } ) ,
image - > format ( ) , image - > size ( ) / 2 , image - > data ( ) } ;
textureArray = GL : : Texture2DArray { } ;
textureArray . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
/* Each slice has half the height */
. setStorage ( 1 , TextureFormatRGB , { image - > size ( ) . x ( ) , image - > size ( ) . y ( ) / 2 , 3 } )
. setSubImage ( 0 , { 0 , 0 , 0 } , first )
/* Put the second image on the right half to test that the
per - instance offset is used together with the layer */
. setSubImage ( 0 , { image - > size ( ) . x ( ) / 2 , 0 , 1 } , second )
. setSubImage ( 0 , { 0 , 0 , 2 } , third ) ;
shader . bindTexture ( textureArray ) ;
} else {
texture = GL : : Texture2D { } ;
texture . setMinificationFilter ( GL : : SamplerFilter : : Linear )
. setMagnificationFilter ( GL : : SamplerFilter : : Linear )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , TextureFormatRGB , image - > size ( ) )
. setSubImage ( 0 , { } , * image ) ;
shader . bindTexture ( texture ) ;
}
}
GL : : Texture2D objectIdTexture { NoCreate } ;
GL : : Texture2DArray objectIdTextureArray { NoCreate } ;
if ( data . flags > = FlatGL3D : : Flag : : ObjectIdTexture ) {
/* This should match transformation done for the diffuse/normal
texture */
if ( data . flags & FlatGL3D : : Flag : : TextureArrays ) {
/* Each slice has half height, second slice has the data in the
right half */
const UnsignedShort imageData [ ] {
2000 , 0 ,
0 , 3000 ,
4000 , 0
} ;
ImageView3D image { PixelFormat : : R16UI , { 2 , 1 , 3 } , imageData } ;
objectIdTextureArray = GL : : Texture2DArray { } ;
objectIdTextureArray . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTextureArray ) ;
} else {
/* First is taken from bottom left, second from bottom right, third
from top center ( there I just duplicate the pixel on both
sides ) */
const UnsignedShort imageData [ ] {
2000 , 3000 ,
4000 , 4000
} ;
ImageView2D image { PixelFormat : : R16UI , { 2 , 2 } , imageData } ;
objectIdTexture = GL : : Texture2D { } ;
objectIdTexture . setMinificationFilter ( GL : : SamplerFilter : : Nearest )
. setMagnificationFilter ( GL : : SamplerFilter : : Nearest )
. setWrapping ( GL : : SamplerWrapping : : ClampToEdge )
. setStorage ( 1 , GL : : TextureFormat : : R16UI , image . size ( ) )
. setSubImage ( 0 , { } , image ) ;
shader . bindObjectIdTexture ( objectIdTexture ) ;
}
}
Trade : : MeshData sphereData = Primitives : : uvSphereSolid ( 16 , 32 ,
Primitives : : UVSphereFlag : : TextureCoordinates ) ;
/* Plane is a strip, make it indexed first */
Trade : : MeshData planeData = MeshTools : : generateIndices ( Primitives : : planeSolid (
Primitives : : PlaneFlag : : TextureCoordinates ) ) ;
Trade : : MeshData coneData = Primitives : : coneSolid ( 1 , 32 , 1.0f ,
Primitives : : ConeFlag : : TextureCoordinates ) ;
GL : : Mesh mesh = MeshTools : : compile ( MeshTools : : concatenate ( { sphereData , planeData , coneData } ) ) ;
GL : : MeshView sphere { mesh } ;
sphere . setCount ( sphereData . indexCount ( ) ) ;
GL : : MeshView plane { mesh } ;
plane . setCount ( planeData . indexCount ( ) )
. setIndexRange ( sphereData . indexCount ( ) ) ;
GL : : MeshView cone { mesh } ;
cone . setCount ( coneData . indexCount ( ) )
. setIndexRange ( sphereData . indexCount ( ) + planeData . indexCount ( ) ) ;
/* Some drivers have uniform offset alignment as high as 256, which means
the subsequent sets of uniforms have to be aligned to a multiply of it .
The data . uniformIncrement is set high enough to ensure that , in the
non - offset - bind case this value is 1. */
Containers : : Array < FlatMaterialUniform > materialData { data . uniformIncrement + 1 } ;
materialData [ 0 * data . uniformIncrement ] = FlatMaterialUniform { }
. setColor ( data . flags & FlatGL2D : : Flag : : Textured ?
0xffffff _rgbf : 0x0000ff _rgbf ) ;
materialData [ 1 * data . uniformIncrement ] = FlatMaterialUniform { }
. setColor ( data . flags & FlatGL2D : : Flag : : Textured ?
0xffffff _rgbf : 0xff0000 _rgbf ) ;
GL : : Buffer materialUniform { GL : : Buffer : : TargetHint : : Uniform , materialData } ;
Containers : : Array < TransformationProjectionUniform3D > transformationProjectionData { 2 * data . uniformIncrement + 1 } ;
transformationProjectionData [ 0 * data . uniformIncrement ] = TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : scaling ( Vector3 { 0.4f } ) *
Matrix4 : : translation ( { - 1.25f , - 1.25f , 0.0f } ) *
/* To be consistent with Phong's output where it tests that the
normal matrix is applied properly */
Matrix4 : : rotationX ( 90.0 _degf )
) ;
transformationProjectionData [ 1 * data . uniformIncrement ] = TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : scaling ( Vector3 { 0.4f } ) *
Matrix4 : : translation ( { 1.25f , - 1.25f , 0.0f } )
) ;
transformationProjectionData [ 2 * data . uniformIncrement ] = TransformationProjectionUniform3D { }
. setTransformationProjectionMatrix (
Matrix4 : : perspectiveProjection ( 60.0 _degf , 1.0f , 0.1f , 10.0f ) *
Matrix4 : : translation ( Vector3 : : zAxis ( - 2.15f ) ) *
Matrix4 : : scaling ( Vector3 { 0.4f } ) *
Matrix4 : : translation ( { 0.0f , 1.0f , 1.0f } )
) ;
GL : : Buffer transformationProjectionUniform { GL : : Buffer : : TargetHint : : Uniform , transformationProjectionData } ;
Containers : : Array < TextureTransformationUniform > textureTransformationData { 2 * data . uniformIncrement + 1 } ;
textureTransformationData [ 0 * data . uniformIncrement ] = TextureTransformationUniform { }
. setTextureMatrix (
data . flags & FlatGL2D : : Flag : : TextureArrays ?
Matrix3 : : scaling ( Vector2 : : xScale ( 0.5f ) ) *
Matrix3 : : translation ( { 0.0f , 0.0f } ) :
Matrix3 : : scaling ( Vector2 { 0.5f } ) *
Matrix3 : : translation ( { 0.0f , 0.0f } ) )
. setLayer ( 0 ) ; /* ignored if not array */
textureTransformationData [ 1 * data . uniformIncrement ] = TextureTransformationUniform { }
. setTextureMatrix (
data . flags & FlatGL2D : : Flag : : TextureArrays ?
Matrix3 : : scaling ( Vector2 : : xScale ( 0.5f ) ) *
Matrix3 : : translation ( { 1.0f , 0.0f } ) :
Matrix3 : : scaling ( Vector2 { 0.5f } ) *
Matrix3 : : translation ( { 1.0f , 0.0f } ) )
. setLayer ( 1 ) ; /* ignored if not array */
textureTransformationData [ 2 * data . uniformIncrement ] = TextureTransformationUniform { }
. setTextureMatrix (
data . flags & FlatGL2D : : Flag : : TextureArrays ?
Matrix3 : : scaling ( Vector2 : : xScale ( 0.5f ) ) *
Matrix3 : : translation ( { 0.0f , 0.0f } ) :
Matrix3 : : scaling ( Vector2 { 0.5f } ) *
Matrix3 : : translation ( { 0.5f , 1.0f } ) )
. setLayer ( 2 ) ; /* ignored if not array */
GL : : Buffer textureTransformationUniform { GL : : Buffer : : TargetHint : : Uniform , textureTransformationData } ;
Containers : : Array < FlatDrawUniform > drawData { 2 * data . uniformIncrement + 1 } ;
/* Material offsets are zero if we have single draw, as those are done with
UBO offset bindings instead . */
drawData [ 0 * data . uniformIncrement ] = FlatDrawUniform { }
. setMaterialId ( data . drawCount = = 1 ? 0 : 1 )
. setObjectId ( 1211 ) ;
drawData [ 1 * data . uniformIncrement ] = FlatDrawUniform { }
. setMaterialId ( data . drawCount = = 1 ? 0 : 0 )
. setObjectId ( 5627 ) ;
drawData [ 2 * data . uniformIncrement ] = FlatDrawUniform { }
. setMaterialId ( data . drawCount = = 1 ? 0 : 1 )
. setObjectId ( 36363 ) ;
GL : : Buffer drawUniform { GL : : Buffer : : TargetHint : : Uniform , drawData } ;
/* Just one draw, rebinding UBOs each time */
if ( data . drawCount = = 1 ) {
shader . bindMaterialBuffer ( materialUniform ,
1 * data . uniformIncrement * sizeof ( FlatMaterialUniform ) ,
sizeof ( FlatMaterialUniform ) ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform ,
0 * data . uniformIncrement * sizeof ( TransformationProjectionUniform3D ) ,
sizeof ( TransformationProjectionUniform3D ) ) ;
shader . bindDrawBuffer ( drawUniform ,
0 * data . uniformIncrement * sizeof ( FlatDrawUniform ) ,
sizeof ( FlatDrawUniform ) ) ;
if ( data . flags & FlatGL3D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ,
0 * data . uniformIncrement * sizeof ( TextureTransformationUniform ) ,
sizeof ( TextureTransformationUniform ) ) ;
shader . draw ( sphere ) ;
shader . bindMaterialBuffer ( materialUniform ,
0 * data . uniformIncrement * sizeof ( FlatMaterialUniform ) ,
sizeof ( FlatMaterialUniform ) ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform ,
1 * data . uniformIncrement * sizeof ( TransformationProjectionUniform3D ) ,
sizeof ( TransformationProjectionUniform3D ) ) ;
shader . bindDrawBuffer ( drawUniform ,
1 * data . uniformIncrement * sizeof ( FlatDrawUniform ) ,
sizeof ( FlatDrawUniform ) ) ;
if ( data . flags & FlatGL3D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ,
1 * data . uniformIncrement * sizeof ( TextureTransformationUniform ) ,
sizeof ( TextureTransformationUniform ) ) ;
shader . draw ( plane ) ;
shader . bindMaterialBuffer ( materialUniform ,
1 * data . uniformIncrement * sizeof ( FlatMaterialUniform ) ,
sizeof ( FlatMaterialUniform ) ) ;
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform ,
2 * data . uniformIncrement * sizeof ( TransformationProjectionUniform3D ) ,
sizeof ( TransformationProjectionUniform3D ) ) ;
shader . bindDrawBuffer ( drawUniform ,
2 * data . uniformIncrement * sizeof ( FlatDrawUniform ) ,
sizeof ( FlatDrawUniform ) ) ;
if ( data . flags & FlatGL3D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ,
2 * data . uniformIncrement * sizeof ( TextureTransformationUniform ) ,
sizeof ( TextureTransformationUniform ) ) ;
shader . draw ( cone ) ;
/* Otherwise using the draw offset / multidraw */
} else {
shader . bindTransformationProjectionBuffer ( transformationProjectionUniform )
. bindDrawBuffer ( drawUniform )
. bindMaterialBuffer ( materialUniform ) ;
if ( data . flags & FlatGL3D : : Flag : : TextureTransformation )
shader . bindTextureTransformationBuffer ( textureTransformationUniform ) ;
if ( data . flags > = FlatGL3D : : Flag : : MultiDraw )
shader . draw ( { sphere , plane , cone } ) ;
else {
shader . setDrawOffset ( 0 )
. draw ( sphere ) ;
shader . setDrawOffset ( 1 )
. draw ( plane ) ;
shader . setDrawOffset ( 2 )
. draw ( cone ) ;
}
}
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
if ( ! ( _manager . loadState ( " AnyImageImporter " ) & PluginManager : : LoadState : : Loaded ) | |
! ( _manager . loadState ( " TgaImporter " ) & PluginManager : : LoadState : : Loaded ) )
CORRADE_SKIP ( " AnyImageImporter / TgaImporter plugins not found. " ) ;
/*
Colored case :
- Sphere should be lower left , red
- Plane lower right , blue
- Cone up center , red
Textured case :
- Sphere should have bottom left numbers , so light 7881 , rotated ( 78
visible )
- Plane bottom right , 1223
- Cone 6778
*/
CORRADE_COMPARE_WITH (
/* Dropping the alpha channel, as it's always 1.0 */
Containers : : arrayCast < Color3ub > ( _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : RGBA8Unorm } ) . pixels < Color4ub > ( ) ) ,
Utility : : Path : : join ( { _testDir , " FlatTestFiles " , data . expected3D } ) ,
( DebugTools : : CompareImageToFile { _manager , data . maxThreshold , data . meanThreshold } ) ) ;
/* Object ID -- no need to verify the whole image, just check that pixels
on known places have expected values . SwiftShader insists that the read
format has to be 32 bit , so the renderbuffer format is that too to make
it the same ( ES3 Mesa complains if these don ' t match ) . */
if ( data . flags & FlatGL2D : : Flag : : ObjectId ) {
_framebuffer . mapForRead ( GL : : Framebuffer : : ColorAttachment { 1 } ) ;
CORRADE_COMPARE ( _framebuffer . checkStatus ( GL : : FramebufferTarget : : Read ) , GL : : Framebuffer : : Status : : Complete ) ;
Image2D image = _framebuffer . read ( _framebuffer . viewport ( ) , { PixelFormat : : R32UI } ) ;
MAGNUM_VERIFY_NO_GL_ERROR ( ) ;
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 5 ] [ 5 ] , 27 ) ; /* Outside */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 24 ] , data . expectedId [ 0 ] ) ; /* Sphere */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 24 ] [ 56 ] , data . expectedId [ 1 ] ) ; /* Plane */
CORRADE_COMPARE ( image . pixels < UnsignedInt > ( ) [ 56 ] [ 40 ] , data . expectedId [ 2 ] ) ; /* Circle */
}
}
# endif
} } } }
CORRADE_TEST_MAIN ( Magnum : : Shaders : : Test : : FlatGLTest )
