+#include <msp/datafile/collection.h>
#include <msp/gl/extensions/arb_texture_cube_map.h>
+#include <msp/gl/extensions/arb_texture_storage.h>
#include <msp/io/memory.h>
#include <msp/strings/format.h>
#include "bindable.h"
namespace Msp {
namespace GL {
+TextureCubeFace TextureCube::face_order[6] =
+{
+ POSITIVE_X,
+ NEGATIVE_X,
+ POSITIVE_Y,
+ NEGATIVE_Y,
+ POSITIVE_Z,
+ NEGATIVE_Z
+};
+
Vector3 TextureCube::directions[6] =
{
Vector3(1, 0, 0),
Vector3(0, 0, -1)
};
+unsigned TextureCube::orientations[12] =
+{
+ 5, 3,
+ 4, 3,
+ 0, 4,
+ 0, 5,
+ 0, 3,
+ 1, 3
+};
+
TextureCube::TextureCube():
Texture(GL_TEXTURE_CUBE_MAP),
size(0),
throw invalid_operation("TextureCube::storage");
if(sz==0)
throw invalid_argument("TextureCube::storage");
- require_pixelformat(fmt);
- ifmt = fmt;
+ set_internal_format(fmt);
size = sz;
}
if(allocated&(1<<level))
return;
- for(unsigned i=0; i<6; ++i)
- image(enumerate_faces(i), level, get_base_pixelformat(ifmt), UNSIGNED_BYTE, 0);
+ if(ARB_texture_storage)
+ {
+ BindRestore _bind(this);
+ unsigned n_levels = (is_mipmapped(min_filter) ? get_n_levels() : 1);
+ glTexStorage2D(target, n_levels, ifmt, size, size);
+ allocated |= (1<<n_levels)-1;
+ }
+ else
+ {
+ PixelFormat base_fmt = get_base_pixelformat(ifmt);
+ DataType type = get_alloc_type(base_fmt);
+ for(unsigned i=0; i<6; ++i)
+ image(enumerate_faces(i), level, base_fmt, type, 0);
+ }
}
void TextureCube::image(TextureCubeFace face, unsigned level, PixelFormat fmt, DataType type, const void *data)
if(s==0)
throw out_of_range("TextureCube::image");
+ if(ARB_texture_storage)
+ return sub_image(face, level, 0, 0, s, s, fmt, type, data);
+
BindRestore _bind(this);
- glTexImage2D(face, level, ifmt, s, s, 0, fmt, type, data);
+ glTexImage2D(face, level, ifmt, s, s, 0, get_upload_format(fmt), type, data);
// XXX Allocation should be tracked per-face, but we'll run out of bits
allocated |= 1<<level;
if(gen_mipmap && level==0)
{
- for(; s; s>>=1, ++level) ;
- allocated |= (1<<level)-1;
+ // TODO Only do this once all faces are created
+ auto_generate_mipmap();
+ allocated |= (1<<get_n_levels())-1;
}
}
-void TextureCube::image(TextureCubeFace face, const Graphics::Image &img)
+void TextureCube::sub_image(TextureCubeFace face, unsigned level, int x, int y, unsigned wd, unsigned ht, PixelFormat fmt, DataType type, const void *data)
+{
+ if(size==0)
+ throw invalid_operation("TextureCube::sub_image");
+
+ BindRestore _bind(this);
+ allocate(level);
+
+ glTexSubImage2D(face, level, x, y, wd, ht, get_upload_format(fmt), type, data);
+
+ if(gen_mipmap && level==0)
+ auto_generate_mipmap();
+}
+
+void TextureCube::image(TextureCubeFace face, const Graphics::Image &img, bool srgb)
{
unsigned w = img.get_width();
unsigned h = img.get_height();
PixelFormat fmt = pixelformat_from_graphics(img.get_format());
if(size==0)
{
- if(w==h)
- storage(storage_pixelformat_from_graphics(img.get_format()), w);
- else
+ if(w!=h)
throw incompatible_data("TextureCube::image");
+
+ storage(storage_pixelformat_from_graphics(img.get_format(), srgb), w);
}
else if(w!=size || h!=size)
throw incompatible_data("TextureCube::image");
image(face, 0, fmt, UNSIGNED_BYTE, img.get_data());
}
-unsigned TextureCube::get_level_size(unsigned level)
+void TextureCube::image(const Graphics::Image &img, bool srgb)
+{
+ unsigned w = img.get_width();
+ unsigned h = img.get_height();
+
+ if(h!=w*6)
+ throw incompatible_data("TextureCube::image");
+ h /= 6;
+
+ PixelFormat fmt = pixelformat_from_graphics(img.get_format());
+ if(size==0)
+ storage(storage_pixelformat_from_graphics(img.get_format(), srgb), w);
+ else if(w!=size || h!=size)
+ throw incompatible_data("TextureCube::image");
+
+ PixelStore pstore = PixelStore::from_image(img);
+ BindRestore _bind_ps(pstore);
+
+ const char *cdata = reinterpret_cast<const char *>(img.get_data());
+ unsigned face_size = img.get_stride()*size;
+ for(unsigned i=0; i<6; ++i)
+ image(enumerate_faces(i), 0, fmt, UNSIGNED_BYTE, cdata+i*face_size);
+}
+
+unsigned TextureCube::get_n_levels() const
+{
+ unsigned n = 0;
+ for(unsigned s=size; s; s>>=1, ++n) ;
+ return n;
+}
+
+unsigned TextureCube::get_level_size(unsigned level) const
{
return size>>level;
}
TextureCubeFace TextureCube::enumerate_faces(unsigned i)
{
- switch(i)
- {
- case 0: return POSITIVE_X;
- case 1: return NEGATIVE_X;
- case 2: return POSITIVE_Y;
- case 3: return NEGATIVE_Y;
- case 4: return POSITIVE_Z;
- case 5: return NEGATIVE_Z;
- default: throw out_of_range("TextureCube::enumerate_faces");
- }
+ if(i>=6)
+ throw out_of_range("TextureCube::enumerate_faces");
+ return face_order[i];
}
-const Vector3 &TextureCube::get_face_direction(TextureCubeFace face)
+unsigned TextureCube::get_face_index(TextureCubeFace face)
{
switch(face)
{
- case POSITIVE_X: return directions[0];
- case NEGATIVE_X: return directions[1];
- case POSITIVE_Y: return directions[2];
- case NEGATIVE_Y: return directions[3];
- case POSITIVE_Z: return directions[4];
- case NEGATIVE_Z: return directions[5];
- default: throw invalid_argument("TextureCube::get_face_direction");
+ case POSITIVE_X: return 0;
+ case NEGATIVE_X: return 1;
+ case POSITIVE_Y: return 2;
+ case NEGATIVE_Y: return 3;
+ case POSITIVE_Z: return 4;
+ case NEGATIVE_Z: return 5;
+ default: throw invalid_argument("TextureCube::get_face_index");
}
}
+const Vector3 &TextureCube::get_face_direction(TextureCubeFace face)
+{
+ return directions[get_face_index(face)];
+}
+
const Vector3 &TextureCube::get_s_direction(TextureCubeFace face)
{
- switch(face)
- {
- case POSITIVE_X: return directions[5];
- case NEGATIVE_X: return directions[4];
- case POSITIVE_Y: return directions[0];
- case NEGATIVE_Y: return directions[0];
- case POSITIVE_Z: return directions[0];
- case NEGATIVE_Z: return directions[1];
- default: throw invalid_argument("TextureCube::get_s_direction");
- }
+ return directions[orientations[get_face_index(face)*2]];
}
const Vector3 &TextureCube::get_t_direction(TextureCubeFace face)
{
- switch(face)
- {
- case POSITIVE_X: return directions[3];
- case NEGATIVE_X: return directions[3];
- case POSITIVE_Y: return directions[4];
- case NEGATIVE_Y: return directions[5];
- case POSITIVE_Z: return directions[3];
- case NEGATIVE_Z: return directions[3];
- default: throw invalid_argument("TextureCube::get_t_direction");
- }
+ return directions[orientations[get_face_index(face)*2+1]];
}
Vector3 TextureCube::get_texel_direction(TextureCubeFace face, unsigned u, unsigned v)
return fv+s*sv+t*tv;
}
+UInt64 TextureCube::get_data_size() const
+{
+ return id ? size*size*6*get_pixel_size(ifmt) : 0;
+}
+
TextureCube::Loader::Loader(TextureCube &t):
DataFile::DerivedObjectLoader<TextureCube, Texture::Loader>(t)
{
+ init();
+}
+
+TextureCube::Loader::Loader(TextureCube &t, Collection &c):
+ DataFile::DerivedObjectLoader<TextureCube, Texture::Loader>(t, c)
+{
+ init();
+}
+
+void TextureCube::Loader::init()
+{
+ add("external_image", &Loader::external_image);
add("image_data", &Loader::image_data);
add("raw_data", &Loader::raw_data);
add("storage", &Loader::storage);
}
+void TextureCube::Loader::external_image(TextureCubeFace face, const string &fn)
+{
+ Graphics::Image img;
+ RefPtr<IO::Seekable> io = get_collection().open_raw(fn);
+ img.load_io(*io);
+
+ obj.image(face, img, srgb);
+}
+
void TextureCube::Loader::image_data(TextureCubeFace face, const string &data)
{
Graphics::Image img;
IO::Memory mem(data.data(), data.size());
img.load_io(mem);
- obj.image(face, img);
+ obj.image(face, img, srgb);
}
void TextureCube::Loader::raw_data(TextureCubeFace face, const string &data)
void TextureCube::Loader::storage(PixelFormat fmt, unsigned s)
{
+ if(srgb)
+ fmt = get_srgb_pixelformat(fmt);
obj.storage(fmt, s);
}