image: implement Image::Lock2D().

vor 10 Jahren · 1ad2430ba9
--- a/build/vs2012/Lol.sln
+++ b/build/vs2012/Lol.sln
@@ -1,6 +1,8 @@

 Microsoft Visual Studio Solution File, Format Version 12.00
 # Visual Studio 2012
 # Visual Studio 2013
 VisualStudioVersion = 12.0.30501.0
 MinimumVisualStudioVersion = 10.0.40219.1
 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "deushax", "..\..\games\deushax\deushax.vcxproj", "{EF1A4E80-63FA-4EB0-B834-12B6C500F31C}"
 	ProjectSection(ProjectDependencies) = postProject
 		{9E62F2FE-3408-4EAE-8238-FD84238CEEDA} = {9E62F2FE-3408-4EAE-8238-FD84238CEEDA}
@@ -172,12 +174,10 @@ Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "sprite_sorter", "..\..\peop
 EndProject
 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "squad_shooter", "..\..\people\touky\squad_shooter\squad_shooter.vcxproj", "{DB344310-4938-4294-AEE2-18512454585D}"
 EndProject
 Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Pimp", "Pimp", "{2195FB18-53BF-48AF-96B6-9BD242924EA5}"
 Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "The Pimp", "The Pimp", "{2195FB18-53BF-48AF-96B6-9BD242924EA5}"
 EndProject
 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "pimp", "..\..\tools\pimp\pimp.vcxproj", "{FFF58874-D460-41E6-AD65-DBFEC6E47A94}"
 EndProject
 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "squad_shooter", "..\..\people\touky\private\squad_shooter\squad_shooter.vcxproj", "{DB344310-4938-4294-AEE2-18512454585D}"
 EndProject
 Global
 	GlobalSection(SolutionConfigurationPlatforms) = preSolution
 		Debug|ORBIS = Debug|ORBIS
@@ -751,60 +751,60 @@ Global
 		HideSolutionNode = FALSE
 	EndGlobalSection
 	GlobalSection(NestedProjects) = preSolution
 		{928A359C-9C41-400A-8D2D-A054B33A79F5} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{9EA99B18-D352-47F6-BC04-A0B49CAA2772} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{0A1651FC-322B-4B04-82CB-28E9046D9383} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{E27FDF36-50C4-4ED2-8CF5-A20FED016910} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{B583BBFF-BE97-4F4E-BA1E-1F978A31EAB0} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{454DE15C-9063-4EB1-AD6C-77D7150F15DF} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{2F87CEAB-4818-443C-A5E3-6C34E7D967EC} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{33704AA4-F2B5-4138-A40D-E3E77F89ED46} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{8C77EAA8-1077-4EF7-AE53-97C6C60A3601} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{50509BA3-D27B-4FAC-9772-9EC76146F709} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{08C6A854-533D-4A1E-924E-C4A62281869F} = {928A359C-9C41-400A-8D2D-A054B33A79F5}
 		{9C66B179-0737-4BDA-AB42-2ADE478A9008} = {08C6A854-533D-4A1E-924E-C4A62281869F}
 		{EF1A4E80-63FA-4EB0-B834-12B6C500F31C} = {08C6A854-533D-4A1E-924E-C4A62281869F}
 		{17F0F184-4436-4D08-B8AA-16572EA238DB} = {2F87CEAB-4818-443C-A5E3-6C34E7D967EC}
 		{9C66B179-0737-4BDA-AB42-2ADE478A9008} = {08C6A854-533D-4A1E-924E-C4A62281869F}
 		{08C6A854-533D-4A1E-924E-C4A62281869F} = {928A359C-9C41-400A-8D2D-A054B33A79F5}
 		{2F87CEAB-4818-443C-A5E3-6C34E7D967EC} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{9E62F2FE-3408-4EAE-8238-FD84238CEEDA} = {1AFD580B-98B8-4689-B661-38C41132C60E}
 		{83D3B207-C601-4025-8F41-01DEDC354661} = {1AFD580B-98B8-4689-B661-38C41132C60E}
 		{D84021CA-B233-4E0F-8A52-071B83BBCCC4} = {1AFD580B-98B8-4689-B661-38C41132C60E}
 		{9E62F2FE-3408-4EAE-8238-FD84238CEEDA} = {1AFD580B-98B8-4689-B661-38C41132C60E}
 		{B1E10086-A1DA-401A-834D-969C9DBB5CC1} = {E0491194-35E3-4513-9D31-608EA3165ECF}
 		{80F81C11-8DA2-4990-91CB-9807783BA46E} = {E0491194-35E3-4513-9D31-608EA3165ECF}
 		{EE203B88-44CF-4859-9D42-7A1F43FECB52} = {E0491194-35E3-4513-9D31-608EA3165ECF}
 		{7CE9FE12-E4AB-4A22-90D4-2C15F0C30D4E} = {E0491194-35E3-4513-9D31-608EA3165ECF}
 		{E74CF679-CA2A-47E9-B1F4-3779D6AC6B04} = {E5C5E320-C077-4362-9A3F-3920C6447601}
 		{F7D4A671-612F-4FF4-883F-2097697694B7} = {E5C5E320-C077-4362-9A3F-3920C6447601}
 		{B92ABADC-45BE-4CC5-B724-9426053123A1} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{7B083DA2-FE08-4F6D-BFDD-195D5C2783EB} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{1C5B8702-290C-42DA-AA9E-671348F5B747} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{6BF81B39-EDC2-4227-9992-C2D8ABEA95AF} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{BCEE0132-8E24-49BE-AFEB-96DAD14396BA} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{B0A53D75-CBB4-4FDF-93AC-2D12A79ADA0E} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{834852DB-EDB6-4FD0-BCF9-45CD01126962} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{6BF81B39-EDC2-4227-9982-C2D8ABEA95AF} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{B92ABADC-45BE-4CC5-B724-9426053123A1} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{572E5B9C-7E19-489C-BD8A-E8401CFBBC47} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{E05E23A5-67DE-42B5-98A3-E63CCE0CC0AF} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{33704AA4-F2B5-4138-A40D-E3E77F89ED46} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{32F3F8CF-D22E-45E4-BEB8-AD909E8C5515} = {33704AA4-F2B5-4138-A40D-E3E77F89ED46}
 		{8C77EAA8-1077-4EF7-AE53-97C6C60A3601} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{EE203B88-44CF-4859-9D42-7A5F40FECB52} = {8C77EAA8-1077-4EF7-AE53-97C6C60A3601}
 		{B357514A-7881-422D-8358-161B689E7620} = {3D341D8A-E400-4B1D-BC05-B5C35487D9B5}
 		{2195FB18-53BF-48AF-96B6-9BD242924EA5} = {3D341D8A-E400-4B1D-BC05-B5C35487D9B5}
 		{587FCCE9-1D8D-4398-B8B6-E8F4E9A92233} = {B357514A-7881-422D-8358-161B689E7620}
 		{9EA99B18-D352-47F6-BC04-A0B49CAA2772} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{EE203B88-44CF-4859-9D42-7A5F43FECB52} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{25493FC8-75AC-4703-AD58-AB0C4A0FB79C} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{6BF81B39-EDC2-4127-9982-C2D8ABEA95AF} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{EE203B88-44CF-4829-9D42-7A5F43FECB52} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{7422B977-CA61-49BF-A586-F57B6FF9BD64} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{DB344310-4938-4294-AEE2-18512454585D} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{EE203B88-44CF-4859-9D42-7A1F43FECB52} = {E0491194-35E3-4513-9D31-608EA3165ECF}
 		{BCEE0132-8E24-49BE-AFEB-96DAD14396BA} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{0A1651FC-322B-4B04-82CB-28E9046D9383} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{A69411B3-6DE8-404E-8E70-0D3375A7492A} = {0A1651FC-322B-4B04-82CB-28E9046D9383}
 		{5A77DCDD-2CBA-43E9-8B45-00C281443F77} = {0A1651FC-322B-4B04-82CB-28E9046D9383}
 		{928A359C-9C41-400A-8D2D-A054B33A79F5} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{E27FDF36-50C4-4ED2-8CF5-A20FED016910} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{C2E01551-B636-4324-8461-71811DF6FBB5} = {E27FDF36-50C4-4ED2-8CF5-A20FED016910}
 		{B0A53D75-CBB4-4FDF-93AC-2D12A79ADA0E} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{5A77DCDD-2CBA-43E9-8B45-00C281443F77} = {0A1651FC-322B-4B04-82CB-28E9046D9383}
 		{834852DB-EDB6-4FD0-BCF9-45CD01126962} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{B583BBFF-BE97-4F4E-BA1E-1F978A31EAB0} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{FAF82AD2-D9F4-4694-9A01-103BC5B771B4} = {B583BBFF-BE97-4F4E-BA1E-1F978A31EAB0}
 		{7CE9FE12-E4AB-4A22-90D4-2C15F0C30D4E} = {E0491194-35E3-4513-9D31-608EA3165ECF}
 		{25493FC8-75AC-4703-AD58-AB0C4A0FB79C} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{6BF81B39-EDC2-4227-9982-C2D8ABEA95AF} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{6BF81B39-EDC2-4127-9982-C2D8ABEA95AF} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{AA376B9B-484B-4DC4-982F-6CFA645E441E} = {F7D4A671-612F-4FF4-883F-2097697694B7}
 		{F7D4A671-612F-4FF4-883F-2097697694B7} = {E5C5E320-C077-4362-9A3F-3920C6447601}
 		{572E5B9C-7E19-489C-BD8A-E8401CFBBC47} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{E05E23A5-67DE-42B5-98A3-E63CCE0CC0AF} = {E74CF679-CA2A-47E9-B1F4-3779D6AC6B04}
 		{52493826-AC00-470B-A745-4F602529B3B0} = {B583BBFF-BE97-4F4E-BA1E-1F978A31EAB0}
 		{9F291982-8C81-4105-BF39-16844648E55F} = {B583BBFF-BE97-4F4E-BA1E-1F978A31EAB0}
 		{950EDCC1-DF6A-4A75-B083-DFE98E7DD34F} = {B583BBFF-BE97-4F4E-BA1E-1F978A31EAB0}
 		{AA376B9B-484B-4DC4-982F-6CFA645E441E} = {F7D4A671-612F-4FF4-883F-2097697694B7}
 		{50509BA3-D27B-4FAC-9772-9EC76146F709} = {1DFE1729-4F1B-47CA-9819-72431FE14E25}
 		{5D994A3B-83BF-4FCB-9AC1-E7B642B46FEA} = {50509BA3-D27B-4FAC-9772-9EC76146F709}
 		{454DE15C-9063-4EB1-AD6C-77D7150F15DF} = {5F1AAF03-7202-4C07-B99F-EB397105B1B7}
 		{C3E2D690-F2B4-4A11-B317-D5CB8EF9561A} = {454DE15C-9063-4EB1-AD6C-77D7150F15DF}
 		{EE203B88-44CF-4829-9D42-7A5F43FECB52} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{7422B977-CA61-49BF-A586-F57B6FF9BD64} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{DB344310-4938-4294-AEE2-18512454585D} = {9EA99B18-D352-47F6-BC04-A0B49CAA2772}
 		{2195FB18-53BF-48AF-96B6-9BD242924EA5} = {3D341D8A-E400-4B1D-BC05-B5C35487D9B5}
 		{FFF58874-D460-41E6-AD65-DBFEC6E47A94} = {2195FB18-53BF-48AF-96B6-9BD242924EA5}
 	EndGlobalSection
 EndGlobal
--- a/src/image/filter/convolution.cpp
+++ b/src/image/filter/convolution.cpp
@@ -108,8 +108,8 @@ static Image NonSepConv(Image &src, Array2D<float> const &kernel)
    ivec2 const ksize = kernel.GetSize();
    Image dst(size);

    pixel_t const *srcp = src.Lock<FORMAT>();
    pixel_t *dstp = dst.Lock<FORMAT>();
    Array2D<pixel_t> const &srcp = src.Lock2D<FORMAT>();
    Array2D<pixel_t> &dstp = dst.Lock2D<FORMAT>();

    for (int y = 0; y < size.y; y++)
    {
@@ -135,16 +135,16 @@ static Image NonSepConv(Image &src, Array2D<float> const &kernel)
                    else if (x2 >= size.x)
                        x2 = WRAP_X ? x2 % size.x : size.x - 1;

                    pixel += f * srcp[y2 * size.x + x2];
                    pixel += f * srcp[x2][y2];
                }
            }

            dstp[y * size.x + x] = lol::clamp(pixel, 0.0f, 1.0f);
            dstp[x][y] = lol::clamp(pixel, 0.0f, 1.0f);
        }
    }

    src.Unlock(srcp);
    dst.Unlock(dstp);
    src.Unlock2D(srcp);
    dst.Unlock2D(dstp);

    return dst;
 }
@@ -201,8 +201,8 @@ static Image SepConv(Image &src, Array<float> const &hvec,
    ivec2 const ksize(hvec.Count(), vvec.Count());
    Image dst(size);

    pixel_t const *srcp = src.Lock<FORMAT>();
    pixel_t *dstp = dst.Lock<FORMAT>();
    Array2D<pixel_t> const &srcp = src.Lock2D<FORMAT>();
    Array2D<pixel_t> &dstp = dst.Lock2D<FORMAT>();

    Array2D<pixel_t> tmp(size);

@@ -220,7 +220,7 @@ static Image SepConv(Image &src, Array<float> const &hvec,
                else if (x2 >= size.x)
                    x2 = WRAP_X ? x2 % size.x : size.x - 1;

                pixel += hvec[dx] * srcp[y * size.x + x2];
                pixel += hvec[dx] * srcp[x2][y];
            }

            tmp[x][y] = pixel;
@@ -244,12 +244,12 @@ static Image SepConv(Image &src, Array<float> const &hvec,
                pixel += vvec[j] * tmp[x][y2];
            }

            dstp[y * size.x + x] = lol::clamp(pixel, 0.0f, 1.0f);
            dstp[x][y] = lol::clamp(pixel, 0.0f, 1.0f);
        }
    }

    src.Unlock(srcp);
    dst.Unlock(dstp);
    src.Unlock2D(srcp);
    dst.Unlock2D(dstp);

    return dst;
 }
--- a/src/image/image-private.h
+++ b/src/image/image-private.h
@@ -19,6 +19,31 @@
 namespace lol
 {

 class PixelDataBase
 {
 public:
    virtual void *Data() = 0;
    virtual void const *Data() const = 0;
    virtual void *Data2D() = 0;
    virtual void const *Data2D() const = 0;

    inline virtual ~PixelDataBase() {}
 };

 template<PixelFormat T>
 class PixelData : public PixelDataBase
 {
 public:
    inline PixelData(ivec2 size) { m_array2d.SetSize(size); }

    virtual void *Data() { return m_array2d.Data(); }
    virtual void const *Data() const { return m_array2d.Data(); }
    virtual void *Data2D() { return &m_array2d; }
    virtual void const *Data2D() const { return &m_array2d; }

    Array2D<typename PixelType<T>::type> m_array2d;
 };

 class ImageData
 {
    friend class Image;
@@ -37,7 +62,7 @@ public:
    WrapMode m_wrap_x, m_wrap_y;

    /* A map of the various available bitplanes */
    Map<int, void *> m_pixels;
    Map<int, PixelDataBase *> m_pixels;
    /* The last bitplane being accessed for writing */
    PixelFormat m_format;
 };
--- a/src/image/image.cpp
+++ b/src/image/image.cpp
@@ -109,9 +109,9 @@ Image::Image (Image const &other)
    if (fmt != PixelFormat::Unknown)
    {
        SetFormat(fmt);
        void *psrc = other.m_data->m_pixels[(int)fmt];
        void *pdst = m_data->m_pixels[(int)fmt];
        memcpy(pdst, psrc, size.x * size.y * BytesPerPixel(fmt));
        memcpy(m_data->m_pixels[(int)fmt]->Data(),
               other.m_data->m_pixels[(int)fmt]->Data(),
               size.x * size.y * BytesPerPixel(fmt));
    }
 }

@@ -126,10 +126,8 @@ Image & Image::operator =(Image other)
 Image::~Image()
 {
    for (int k : m_data->m_pixels.Keys())
    {
        delete[] (uint8_t *)m_data->m_pixels[k];
        m_data->m_pixels[k] = nullptr;
    }
        delete m_data->m_pixels[k];

    delete m_data;
 }

@@ -161,11 +159,12 @@ void Image::SetSize(ivec2 size)

    if (m_data->m_size != size)
    {
        /* FIXME: delete data or resize it */
        if (m_data->m_format != PixelFormat::Unknown)
        for (int k : m_data->m_pixels.Keys())
        {
            m_data->m_pixels.Remove((int)m_data->m_format);
            delete m_data->m_pixels[k];
            m_data->m_pixels[k] = nullptr;
        }

        m_data->m_format = PixelFormat::Unknown;
    }

@@ -194,17 +193,35 @@ template<PixelFormat T> typename PixelType<T>::type *Image::Lock()
 {
    SetFormat(T);

    return (typename PixelType<T>::type *)m_data->m_pixels[(int)T];
    return (typename PixelType<T>::type *)m_data->m_pixels[(int)T]->Data();
 }

 /* Explicit specialisations for the above template */
 #define _T(T) template PixelType<T>::type *Image::Lock<T>()
 _T(PixelFormat::Y_8);
 _T(PixelFormat::RGB_8);
 _T(PixelFormat::RGBA_8);
 _T(PixelFormat::Y_F32);
 _T(PixelFormat::RGB_F32);
 _T(PixelFormat::RGBA_F32);
 /* The Lock2D() method */
 template<PixelFormat T> Array2D<typename PixelType<T>::type> &Image::Lock2D()
 {
    SetFormat(T);

    return *(Array2D<typename PixelType<T>::type> *)m_data->m_pixels[(int)T]->Data2D();
 }

 template<typename T>
 void Image::Unlock2D(Array2D<T> const &array)
 {
    ASSERT(m_data->m_pixels.HasKey((int)m_data->m_format));
    ASSERT(array.Data() == m_data->m_pixels[(int)m_data->m_format]->Data());
 }

 /* Explicit specialisations for the above templates */
 #define _T(T) \
    template PixelType<T>::type *Image::Lock<T>(); \
    template Array2D<PixelType<T>::type> &Image::Lock2D<T>(); \
    template void Image::Unlock2D(Array2D<PixelType<T>::type> const &array);
 _T(PixelFormat::Y_8)
 _T(PixelFormat::RGB_8)
 _T(PixelFormat::RGBA_8)
 _T(PixelFormat::Y_F32)
 _T(PixelFormat::RGB_F32)
 _T(PixelFormat::RGBA_F32)
 #undef _T

 /* Special case for the "any" format: return the last active buffer */
@@ -212,20 +229,13 @@ void *Image::Lock()
 {
    ASSERT(m_data->m_format != PixelFormat::Unknown);

    return m_data->m_pixels[(int)m_data->m_format];
    return m_data->m_pixels[(int)m_data->m_format]->Data();
 }

 void Image::Unlock(void const *pixels)
 {
    ASSERT(m_data->m_pixels.HasKey((int)m_data->m_format));

    /* Ensure that the unlocked data is inside the buffer */
    uintptr_t start = (uintptr_t)m_data->m_pixels[(int)m_data->m_format];
    uintptr_t end = start + m_data->m_size.x * m_data->m_size.y
                                 * BytesPerPixel(m_data->m_format);

    ASSERT(start <= (uintptr_t)pixels);
    ASSERT((uintptr_t)pixels <= end);
    ASSERT(pixels == m_data->m_pixels[(int)m_data->m_format]->Data());
 }

 bool Image::RetrieveTiles(Array<ivec2, ivec2>& tiles) const
--- a/src/image/pixels.cpp
+++ b/src/image/pixels.cpp
@@ -67,7 +67,25 @@ void Image::SetFormat(PixelFormat fmt)
     * obviously need it. */
    if (m_data->m_pixels[(int)fmt] == nullptr)
    {
        m_data->m_pixels[(int)fmt] = new uint8_t[count * BytesPerPixel(fmt)];
        PixelDataBase *data = nullptr;
        switch (fmt)
        {
            case PixelFormat::Y_8:
                data = new PixelData<PixelFormat::Y_8>(size); break;
            case PixelFormat::RGB_8:
                data = new PixelData<PixelFormat::RGB_8>(size); break;
            case PixelFormat::RGBA_8:
                data = new PixelData<PixelFormat::RGBA_8>(size); break;
            case PixelFormat::Y_F32:
                data = new PixelData<PixelFormat::Y_F32>(size); break;
            case PixelFormat::RGB_F32:
                data = new PixelData<PixelFormat::RGB_F32>(size); break;
            case PixelFormat::RGBA_F32:
                data = new PixelData<PixelFormat::RGBA_F32>(size); break;
            default:
                ASSERT(false, "invalid pixel type %d", (int)fmt);
        }
        m_data->m_pixels[(int)fmt] = data;
    }

    /* If the requested format is already the current format, or if the
@@ -78,24 +96,24 @@ void Image::SetFormat(PixelFormat fmt)
    /* Convert pixels */
    if (old_fmt == PixelFormat::RGBA_8 && fmt == PixelFormat::RGBA_F32)
    {
        u8vec4 *src = (u8vec4 *)m_data->m_pixels[(int)old_fmt];
        vec4 *dest = (vec4 *)m_data->m_pixels[(int)fmt];
        u8vec4 *src = (u8vec4 *)m_data->m_pixels[(int)old_fmt]->Data();
        vec4 *dest = (vec4 *)m_data->m_pixels[(int)fmt]->Data();

        for (int n = 0; n < count; ++n)
            dest[n] = u8tof32(src[n]);
    }
    else if (old_fmt == PixelFormat::RGB_8 && fmt == PixelFormat::RGBA_F32)
    {
        u8vec3 *src = (u8vec3 *)m_data->m_pixels[(int)old_fmt];
        vec4 *dest = (vec4 *)m_data->m_pixels[(int)fmt];
        u8vec3 *src = (u8vec3 *)m_data->m_pixels[(int)old_fmt]->Data();
        vec4 *dest = (vec4 *)m_data->m_pixels[(int)fmt]->Data();

        for (int n = 0; n < count; ++n)
            dest[n] = u8tof32(u8vec4(src[n], 255));
    }
    else if (old_fmt == PixelFormat::RGBA_F32 && fmt == PixelFormat::RGBA_8)
    {
        vec4 *src = (vec4 *)m_data->m_pixels[(int)old_fmt];
        u8vec4 *dest = (u8vec4 *)m_data->m_pixels[(int)fmt];
        vec4 *src = (vec4 *)m_data->m_pixels[(int)old_fmt]->Data();
        u8vec4 *dest = (u8vec4 *)m_data->m_pixels[(int)fmt]->Data();

        for (int n = 0; n < count; ++n)
            dest[n] = f32tou8(src[n]);
@@ -133,16 +151,16 @@ void Image::SetFormat(PixelFormat fmt)
    }
    else if (old_fmt == PixelFormat::Y_F32 && fmt == PixelFormat::RGBA_F32)
    {
        float *src = (float *)m_data->m_pixels[(int)old_fmt];
        vec4 *dest = (vec4 *)m_data->m_pixels[(int)fmt];
        float *src = (float *)m_data->m_pixels[(int)old_fmt]->Data();
        vec4 *dest = (vec4 *)m_data->m_pixels[(int)fmt]->Data();

        for (int n = 0; n < count; ++n)
            dest[n] = vec4(vec3(src[n]), 1.0f);
    }
    else if (old_fmt == PixelFormat::RGBA_F32 && fmt == PixelFormat::Y_F32)
    {
        vec4 *src = (vec4 *)m_data->m_pixels[(int)old_fmt];
        float *dest = (float *)m_data->m_pixels[(int)fmt];
        vec4 *src = (vec4 *)m_data->m_pixels[(int)old_fmt]->Data();
        float *dest = (float *)m_data->m_pixels[(int)fmt]->Data();

        vec3 const coeff(0.299f, 0.587f, 0.114f);

--- a/src/lol/image/image.h
+++ b/src/lol/image/image.h
@@ -94,6 +94,11 @@ public:
    void *Lock();
    void Unlock(void const *pixels);

    template<PixelFormat T>
        Array2D<typename PixelType<T>::type> &Lock2D();
    template<typename T>
        void Unlock2D(Array2D<T> const &);

    bool RetrieveTiles(Array<ivec2, ivec2>& tiles) const;

    /* Image processing kernels */