mutter/cogl/cogl-atlas-texture.c

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/*
* Cogl
*
* An object oriented GL/GLES Abstraction/Utility Layer
*
* Copyright (C) 2009,2010,2011 Intel Corporation.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see <http://www.gnu.org/licenses/>.
*
*
*
* Authors:
* Neil Roberts <neil@linux.intel.com>
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "cogl.h"
#include "cogl-debug.h"
#include "cogl-internal.h"
#include "cogl-util.h"
#include "cogl-texture-private.h"
#include "cogl-atlas-texture-private.h"
#include "cogl-texture-2d-private.h"
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#include "cogl-sub-texture-private.h"
#include "cogl-context-private.h"
#include "cogl-handle.h"
#include "cogl-texture-driver.h"
#include "cogl-rectangle-map.h"
#include "cogl-journal-private.h"
cogl: rename CoglMaterial -> CoglPipeline This applies an API naming change that's been deliberated over for a while now which is to rename CoglMaterial to CoglPipeline. For now the new pipeline API is marked as experimental and public headers continue to talk about materials not pipelines. The CoglMaterial API is now maintained in terms of the cogl_pipeline API internally. Currently this API is targeting Cogl 2.0 so we will have time to integrate it properly with other upcoming Cogl 2.0 work. The basic reasons for the rename are: - That the term "material" implies to many people that they are constrained to fragment processing; perhaps as some kind of high-level texture abstraction. - In Clutter they get exposed by ClutterTexture actors which may be re-inforcing this misconception. - When comparing how other frameworks use the term material, a material sometimes describes a multi-pass fragment processing technique which isn't the case in Cogl. - In code, "CoglPipeline" will hopefully be a much more self documenting summary of what these objects represent; a full GPU pipeline configuration including, for example, vertex processing, fragment processing and blending. - When considering the API documentation story, at some point we need a document introducing developers to how the "GPU pipeline" works so it should become intuitive that CoglPipeline maps back to that description of the GPU pipeline. - This is consistent in terminology and concept to OpenGL 4's new pipeline object which is a container for program objects. Note: The cogl-material.[ch] files have been renamed to cogl-material-compat.[ch] because otherwise git doesn't seem to treat the change as a moving the old cogl-material.c->cogl-pipeline.c and so we loose all our git-blame history.
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#include "cogl-pipeline-opengl-private.h"
#include "cogl-atlas.h"
#include <stdlib.h>
static void _cogl_atlas_texture_free (CoglAtlasTexture *sub_tex);
COGL_TEXTURE_INTERNAL_DEFINE (AtlasTexture, atlas_texture);
static const CoglTextureVtable cogl_atlas_texture_vtable;
static CoglHandle
_cogl_atlas_texture_create_sub_texture (CoglHandle full_texture,
const CoglRectangleMapEntry *rectangle)
{
/* Create a subtexture for the given rectangle not including the
1-pixel border */
return _cogl_sub_texture_new (full_texture,
rectangle->x + 1,
rectangle->y + 1,
rectangle->width - 2,
rectangle->height - 2);
}
static void
_cogl_atlas_texture_update_position_cb (gpointer user_data,
CoglHandle new_texture,
const CoglRectangleMapEntry *rectangle)
{
CoglAtlasTexture *atlas_tex = user_data;
/* Update the sub texture */
if (atlas_tex->sub_texture)
cogl_handle_unref (atlas_tex->sub_texture);
atlas_tex->sub_texture =
_cogl_atlas_texture_create_sub_texture (new_texture, rectangle);
/* Update the position */
atlas_tex->rectangle = *rectangle;
}
static void
_cogl_atlas_texture_pre_reorganize_foreach_cb
(const CoglRectangleMapEntry *entry,
void *rectangle_data,
void *user_data)
{
CoglAtlasTexture *atlas_tex = rectangle_data;
/* Keep a reference to the texture because we don't want it to be
destroyed during the reorganization */
cogl_handle_ref (atlas_tex);
cogl: rename CoglMaterial -> CoglPipeline This applies an API naming change that's been deliberated over for a while now which is to rename CoglMaterial to CoglPipeline. For now the new pipeline API is marked as experimental and public headers continue to talk about materials not pipelines. The CoglMaterial API is now maintained in terms of the cogl_pipeline API internally. Currently this API is targeting Cogl 2.0 so we will have time to integrate it properly with other upcoming Cogl 2.0 work. The basic reasons for the rename are: - That the term "material" implies to many people that they are constrained to fragment processing; perhaps as some kind of high-level texture abstraction. - In Clutter they get exposed by ClutterTexture actors which may be re-inforcing this misconception. - When comparing how other frameworks use the term material, a material sometimes describes a multi-pass fragment processing technique which isn't the case in Cogl. - In code, "CoglPipeline" will hopefully be a much more self documenting summary of what these objects represent; a full GPU pipeline configuration including, for example, vertex processing, fragment processing and blending. - When considering the API documentation story, at some point we need a document introducing developers to how the "GPU pipeline" works so it should become intuitive that CoglPipeline maps back to that description of the GPU pipeline. - This is consistent in terminology and concept to OpenGL 4's new pipeline object which is a container for program objects. Note: The cogl-material.[ch] files have been renamed to cogl-material-compat.[ch] because otherwise git doesn't seem to treat the change as a moving the old cogl-material.c->cogl-pipeline.c and so we loose all our git-blame history.
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/* Notify cogl-pipeline.c that the texture's underlying GL texture
* storage is changing so it knows it may need to bind a new texture
* if the CoglTexture is reused with the same texture unit. */
_cogl_pipeline_texture_storage_change_notify (COGL_TEXTURE (atlas_tex));
}
static void
_cogl_atlas_texture_pre_reorganize_cb (void *data)
{
CoglAtlas *atlas = data;
/* We don't know if any journal entries currently depend on OpenGL
* texture coordinates that would be invalidated by reorganizing
* this atlas so we flush all journals before migrating.
*
* We are assuming that texture atlas migration never happens
* during a flush so we don't have to consider recursion here.
*/
cogl_flush ();
if (atlas->map)
_cogl_rectangle_map_foreach (atlas->map,
_cogl_atlas_texture_pre_reorganize_foreach_cb,
NULL);
}
typedef struct
{
CoglAtlasTexture **textures;
/* Number of textures found so far */
unsigned int n_textures;
} CoglAtlasTextureGetRectanglesData;
static void
_cogl_atlas_texture_get_rectangles_cb (const CoglRectangleMapEntry *entry,
void *rectangle_data,
void *user_data)
{
CoglAtlasTextureGetRectanglesData *data = user_data;
data->textures[data->n_textures++] = rectangle_data;
}
static void
_cogl_atlas_texture_post_reorganize_cb (void *user_data)
{
CoglAtlas *atlas = user_data;
_COGL_GET_CONTEXT (ctx, NO_RETVAL);
if (atlas->map)
{
CoglAtlasTextureGetRectanglesData data;
unsigned int i;
data.textures = g_new (CoglAtlasTexture *,
_cogl_rectangle_map_get_n_rectangles (atlas->map));
data.n_textures = 0;
/* We need to remove all of the references that we took during
the preorganize callback. We have to get a separate array of
the textures because CoglRectangleMap doesn't support
removing rectangles during iteration */
_cogl_rectangle_map_foreach (atlas->map,
_cogl_atlas_texture_get_rectangles_cb,
&data);
for (i = 0; i < data.n_textures; i++)
{
/* Ignore textures that don't have an atlas yet. This will
happen when a new texture is added because we allocate
the structure for the texture so that it can get stored
in the atlas but it isn't a valid object yet */
if (data.textures[i]->atlas)
cogl_object_unref (data.textures[i]);
}
g_free (data.textures);
}
/* Notify any listeners that an atlas has changed */
g_hook_list_invoke (&ctx->atlas_reorganize_callbacks, FALSE);
}
static void
_cogl_atlas_texture_atlas_destroyed_cb (void *user_data)
{
_COGL_GET_CONTEXT (ctx, NO_RETVAL);
/* Remove the atlas from the global list */
ctx->atlases = g_slist_remove (ctx->atlases, user_data);
}
static CoglAtlas *
_cogl_atlas_texture_create_atlas (void)
{
static CoglUserDataKey atlas_private_key;
CoglAtlas *atlas;
_COGL_GET_CONTEXT (ctx, COGL_INVALID_HANDLE);
atlas = _cogl_atlas_new (COGL_PIXEL_FORMAT_RGBA_8888,
0,
_cogl_atlas_texture_update_position_cb);
_cogl_atlas_add_reorganize_callback (atlas,
_cogl_atlas_texture_pre_reorganize_cb,
_cogl_atlas_texture_post_reorganize_cb,
atlas);
ctx->atlases = g_slist_prepend (ctx->atlases, atlas);
/* Set some data on the atlas so we can get notification when it is
destroyed in order to remove it from the list. ctx->atlases
effectively holds a weak reference. We don't need a strong
reference because the atlas textures take a reference on the
atlas so it will stay alive */
cogl_object_set_user_data (COGL_OBJECT (atlas), &atlas_private_key, atlas,
_cogl_atlas_texture_atlas_destroyed_cb);
return atlas;
}
static void
_cogl_atlas_texture_foreach_sub_texture_in_region (
CoglTexture *tex,
float virtual_tx_1,
float virtual_ty_1,
float virtual_tx_2,
float virtual_ty_2,
CoglTextureSliceCallback callback,
void *user_data)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
_cogl_texture_foreach_sub_texture_in_region (atlas_tex->sub_texture,
virtual_tx_1,
virtual_ty_1,
virtual_tx_2,
virtual_ty_2,
callback,
user_data);
}
static void
_cogl_atlas_texture_set_wrap_mode_parameters (CoglTexture *tex,
GLenum wrap_mode_s,
GLenum wrap_mode_t,
GLenum wrap_mode_p)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
_cogl_texture_set_wrap_mode_parameters (atlas_tex->sub_texture,
wrap_mode_s,
wrap_mode_t,
wrap_mode_p);
}
static void
_cogl_atlas_texture_remove_from_atlas (CoglAtlasTexture *atlas_tex)
{
if (atlas_tex->atlas)
{
_cogl_atlas_remove (atlas_tex->atlas,
&atlas_tex->rectangle);
cogl_object_unref (atlas_tex->atlas);
atlas_tex->atlas = NULL;
}
}
static void
_cogl_atlas_texture_free (CoglAtlasTexture *atlas_tex)
{
_cogl_atlas_texture_remove_from_atlas (atlas_tex);
cogl_handle_unref (atlas_tex->sub_texture);
/* Chain up */
_cogl_texture_free (COGL_TEXTURE (atlas_tex));
}
cogl: improves header and coding style consistency We've had complaints that our Cogl code/headers are a bit "special" so this is a first pass at tidying things up by giving them some consistency. These changes are all consistent with how new code in Cogl is being written, but the style isn't consistently applied across all code yet. There are two parts to this patch; but since each one required a large amount of effort to maintain tidy indenting it made sense to combine the changes to reduce the time spent re indenting the same lines. The first change is to use a consistent style for declaring function prototypes in headers. Cogl headers now consistently use this style for prototypes: return_type cogl_function_name (CoglType arg0, CoglType arg1); Not everyone likes this style, but it seems that most of the currently active Cogl developers agree on it. The second change is to constrain the use of redundant glib data types in Cogl. Uses of gint, guint, gfloat, glong, gulong and gchar have all been replaced with int, unsigned int, float, long, unsigned long and char respectively. When talking about pixel data; use of guchar has been replaced with guint8, otherwise unsigned char can be used. The glib types that we continue to use for portability are gboolean, gint{8,16,32,64}, guint{8,16,32,64} and gsize. The general intention is that Cogl should look palatable to the widest range of C programmers including those outside the Gnome community so - especially for the public API - we want to minimize the number of foreign looking typedefs.
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static int
_cogl_atlas_texture_get_max_waste (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return cogl_texture_get_max_waste (atlas_tex->sub_texture);
}
static gboolean
_cogl_atlas_texture_is_sliced (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return cogl_texture_is_sliced (atlas_tex->sub_texture);
}
static gboolean
_cogl_atlas_texture_can_hardware_repeat (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return _cogl_texture_can_hardware_repeat (atlas_tex->sub_texture);
}
static void
_cogl_atlas_texture_transform_coords_to_gl (CoglTexture *tex,
float *s,
float *t)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
_cogl_texture_transform_coords_to_gl (atlas_tex->sub_texture, s, t);
}
static CoglTransformResult
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_cogl_atlas_texture_transform_quad_coords_to_gl (CoglTexture *tex,
float *coords)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return _cogl_texture_transform_quad_coords_to_gl (atlas_tex->sub_texture,
coords);
}
static gboolean
_cogl_atlas_texture_get_gl_texture (CoglTexture *tex,
GLuint *out_gl_handle,
GLenum *out_gl_target)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return cogl_texture_get_gl_texture (atlas_tex->sub_texture,
out_gl_handle,
out_gl_target);
}
static void
_cogl_atlas_texture_set_filters (CoglTexture *tex,
GLenum min_filter,
GLenum mag_filter)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
_cogl_texture_set_filters (atlas_tex->sub_texture, min_filter, mag_filter);
}
static void
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_cogl_atlas_texture_migrate_out_of_atlas (CoglAtlasTexture *atlas_tex)
{
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/* Make sure this texture is not in the atlas */
if (atlas_tex->atlas)
{
CoglHandle sub_texture;
COGL_NOTE (ATLAS, "Migrating texture out of the atlas");
/* We don't know if any journal entries currently depend on
* OpenGL texture coordinates that would be invalidated by
* migrating textures in this atlas so we flush all journals
* before migrating.
*
* We are assuming that texture atlas migration never happens
* during a flush so we don't have to consider recursion here.
*/
cogl_flush ();
sub_texture =
_cogl_atlas_copy_rectangle (atlas_tex->atlas,
atlas_tex->rectangle.x + 1,
atlas_tex->rectangle.y + 1,
atlas_tex->rectangle.width - 2,
atlas_tex->rectangle.height - 2,
COGL_TEXTURE_NO_ATLAS,
atlas_tex->format);
/* Notify cogl-pipeline.c that the texture's underlying GL texture
* storage is changing so it knows it may need to bind a new texture
* if the CoglTexture is reused with the same texture unit. */
_cogl_pipeline_texture_storage_change_notify (atlas_tex);
/* We need to unref the sub texture after doing the copy because
the copy can involve rendering which might cause the texture
to be used if it is used from a layer that is left in a
texture unit */
cogl_handle_unref (atlas_tex->sub_texture);
atlas_tex->sub_texture = sub_texture;
_cogl_atlas_texture_remove_from_atlas (atlas_tex);
}
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}
static void
_cogl_atlas_texture_pre_paint (CoglTexture *tex, CoglTexturePrePaintFlags flags)
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{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
if ((flags & COGL_TEXTURE_NEEDS_MIPMAP))
/* Mipmaps do not work well with the current atlas so instead
we'll just migrate the texture out and use a regular texture */
_cogl_atlas_texture_migrate_out_of_atlas (atlas_tex);
/* Forward on to the sub texture */
_cogl_texture_pre_paint (atlas_tex->sub_texture, flags);
}
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static void
_cogl_atlas_texture_ensure_non_quad_rendering (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Sub textures can't support non-quad rendering so we'll just
migrate the texture out */
_cogl_atlas_texture_migrate_out_of_atlas (atlas_tex);
/* Forward on to the sub texture */
_cogl_texture_ensure_non_quad_rendering (atlas_tex->sub_texture);
}
static gboolean
_cogl_atlas_texture_set_region_with_border (CoglAtlasTexture *atlas_tex,
int src_x,
int src_y,
int dst_x,
int dst_y,
unsigned int dst_width,
unsigned int dst_height,
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
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CoglBitmap *bmp)
{
CoglAtlas *atlas = atlas_tex->atlas;
/* Copy the central data */
if (!_cogl_texture_set_region_from_bitmap (atlas->texture,
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
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src_x, src_y,
dst_x + atlas_tex->rectangle.x + 1,
dst_y + atlas_tex->rectangle.y + 1,
dst_width,
dst_height,
bmp))
return FALSE;
/* Update the left edge pixels */
if (dst_x == 0 &&
!_cogl_texture_set_region_from_bitmap (atlas->texture,
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
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src_x, src_y,
atlas_tex->rectangle.x,
dst_y + atlas_tex->rectangle.y + 1,
1, dst_height,
bmp))
return FALSE;
/* Update the right edge pixels */
if (dst_x + dst_width == atlas_tex->rectangle.width - 2 &&
!_cogl_texture_set_region_from_bitmap (atlas->texture,
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
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src_x + dst_width - 1, src_y,
atlas_tex->rectangle.x +
atlas_tex->rectangle.width - 1,
dst_y + atlas_tex->rectangle.y + 1,
1, dst_height,
bmp))
return FALSE;
/* Update the top edge pixels */
if (dst_y == 0 &&
!_cogl_texture_set_region_from_bitmap (atlas->texture,
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
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src_x, src_y,
dst_x + atlas_tex->rectangle.x + 1,
atlas_tex->rectangle.y,
dst_width, 1,
bmp))
return FALSE;
/* Update the bottom edge pixels */
if (dst_y + dst_height == atlas_tex->rectangle.height - 2 &&
!_cogl_texture_set_region_from_bitmap (atlas->texture,
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
2010-07-07 17:44:16 +00:00
src_x, src_y + dst_height - 1,
dst_x + atlas_tex->rectangle.x + 1,
atlas_tex->rectangle.y +
atlas_tex->rectangle.height - 1,
dst_width, 1,
bmp))
return FALSE;
return TRUE;
}
static gboolean
_cogl_atlas_texture_set_region (CoglTexture *tex,
int src_x,
int src_y,
int dst_x,
int dst_y,
unsigned int dst_width,
unsigned int dst_height,
CoglBitmap *bmp)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* If the texture is in the atlas then we need to copy the edge
pixels to the border */
if (atlas_tex->atlas)
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
2010-07-07 17:44:16 +00:00
{
gboolean ret;
bmp = _cogl_bitmap_new_shared (bmp,
_cogl_bitmap_get_format (bmp) &
~COGL_PREMULT_BIT,
_cogl_bitmap_get_width (bmp),
_cogl_bitmap_get_height (bmp),
_cogl_bitmap_get_rowstride (bmp));
/* Upload the data ignoring the premult bit */
ret = _cogl_atlas_texture_set_region_with_border (atlas_tex,
src_x, src_y,
dst_x, dst_y,
dst_width, dst_height,
bmp);
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
2010-07-07 17:44:16 +00:00
cogl_object_unref (bmp);
return ret;
}
else
/* Otherwise we can just forward on to the sub texture */
return _cogl_texture_set_region_from_bitmap (atlas_tex->sub_texture,
src_x, src_y,
dst_x, dst_y,
dst_width, dst_height,
bmp);
}
static CoglPixelFormat
_cogl_atlas_texture_get_format (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* We don't want to forward this on the sub-texture because it isn't
the necessarily the same format. This will happen if the texture
isn't pre-multiplied */
return atlas_tex->format;
}
static GLenum
_cogl_atlas_texture_get_gl_format (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return _cogl_texture_get_gl_format (atlas_tex->sub_texture);
}
cogl: improves header and coding style consistency We've had complaints that our Cogl code/headers are a bit "special" so this is a first pass at tidying things up by giving them some consistency. These changes are all consistent with how new code in Cogl is being written, but the style isn't consistently applied across all code yet. There are two parts to this patch; but since each one required a large amount of effort to maintain tidy indenting it made sense to combine the changes to reduce the time spent re indenting the same lines. The first change is to use a consistent style for declaring function prototypes in headers. Cogl headers now consistently use this style for prototypes: return_type cogl_function_name (CoglType arg0, CoglType arg1); Not everyone likes this style, but it seems that most of the currently active Cogl developers agree on it. The second change is to constrain the use of redundant glib data types in Cogl. Uses of gint, guint, gfloat, glong, gulong and gchar have all been replaced with int, unsigned int, float, long, unsigned long and char respectively. When talking about pixel data; use of guchar has been replaced with guint8, otherwise unsigned char can be used. The glib types that we continue to use for portability are gboolean, gint{8,16,32,64}, guint{8,16,32,64} and gsize. The general intention is that Cogl should look palatable to the widest range of C programmers including those outside the Gnome community so - especially for the public API - we want to minimize the number of foreign looking typedefs.
2010-02-10 01:57:32 +00:00
static int
_cogl_atlas_texture_get_width (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return cogl_texture_get_width (atlas_tex->sub_texture);
}
cogl: improves header and coding style consistency We've had complaints that our Cogl code/headers are a bit "special" so this is a first pass at tidying things up by giving them some consistency. These changes are all consistent with how new code in Cogl is being written, but the style isn't consistently applied across all code yet. There are two parts to this patch; but since each one required a large amount of effort to maintain tidy indenting it made sense to combine the changes to reduce the time spent re indenting the same lines. The first change is to use a consistent style for declaring function prototypes in headers. Cogl headers now consistently use this style for prototypes: return_type cogl_function_name (CoglType arg0, CoglType arg1); Not everyone likes this style, but it seems that most of the currently active Cogl developers agree on it. The second change is to constrain the use of redundant glib data types in Cogl. Uses of gint, guint, gfloat, glong, gulong and gchar have all been replaced with int, unsigned int, float, long, unsigned long and char respectively. When talking about pixel data; use of guchar has been replaced with guint8, otherwise unsigned char can be used. The glib types that we continue to use for portability are gboolean, gint{8,16,32,64}, guint{8,16,32,64} and gsize. The general intention is that Cogl should look palatable to the widest range of C programmers including those outside the Gnome community so - especially for the public API - we want to minimize the number of foreign looking typedefs.
2010-02-10 01:57:32 +00:00
static int
_cogl_atlas_texture_get_height (CoglTexture *tex)
{
CoglAtlasTexture *atlas_tex = COGL_ATLAS_TEXTURE (tex);
/* Forward on to the sub texture */
return cogl_texture_get_height (atlas_tex->sub_texture);
}
static gboolean
_cogl_atlas_texture_can_use_format (CoglPixelFormat format)
{
/* We don't care about the ordering or the premult status and we can
accept RGBA or RGB textures. Although we could also accept
luminance and alpha only textures or 16-bit formats it seems that
if the application is explicitly using these formats then they've
got a reason to want the lower memory requirements so putting
them in the atlas might not be a good idea */
format &= ~(COGL_PREMULT_BIT | COGL_BGR_BIT | COGL_AFIRST_BIT);
return (format == COGL_PIXEL_FORMAT_RGB_888 ||
format == COGL_PIXEL_FORMAT_RGBA_8888);
}
CoglHandle
_cogl_atlas_texture_new_with_size (unsigned int width,
unsigned int height,
CoglTextureFlags flags,
CoglPixelFormat internal_format)
{
CoglAtlasTexture *atlas_tex;
CoglAtlas *atlas;
GSList *l;
_COGL_GET_CONTEXT (ctx, COGL_INVALID_HANDLE);
/* Don't put textures in the atlas if the user has explicitly
requested to disable it */
if (G_UNLIKELY (COGL_DEBUG_ENABLED (COGL_DEBUG_DISABLE_ATLAS)))
return COGL_INVALID_HANDLE;
/* We can't put the texture in the atlas if there are any special
flags. This precludes textures with COGL_TEXTURE_NO_ATLAS and
COGL_TEXTURE_NO_SLICING from being atlased */
if (flags)
return COGL_INVALID_HANDLE;
/* We can't atlas zero-sized textures because it breaks the atlas
data structure */
if (width < 1 || height < 1)
return COGL_INVALID_HANDLE;
/* If we can't use FBOs then it will be too slow to migrate textures
and we shouldn't use the atlas */
if (!cogl_features_available (COGL_FEATURE_OFFSCREEN))
return COGL_INVALID_HANDLE;
COGL_NOTE (ATLAS, "Adding texture of size %ix%i", width, height);
/* If the texture is in a strange format then we won't use it */
if (!_cogl_atlas_texture_can_use_format (internal_format))
{
COGL_NOTE (ATLAS, "Texture can not be added because the "
"format is unsupported");
return COGL_INVALID_HANDLE;
}
/* We need to allocate the texture now because we need the pointer
to set as the data for the rectangle in the atlas */
atlas_tex = g_new (CoglAtlasTexture, 1);
/* Mark it as having no atlas so we don't try to unref it in
_cogl_atlas_texture_post_reorganize_cb */
atlas_tex->atlas = NULL;
_cogl_texture_init (COGL_TEXTURE (atlas_tex),
&cogl_atlas_texture_vtable);
atlas_tex->sub_texture = COGL_INVALID_HANDLE;
/* Look for an existing atlas that can hold the texture */
for (l = ctx->atlases; l; l = l->next)
/* Try to make some space in the atlas for the texture */
if (_cogl_atlas_reserve_space (atlas = l->data,
/* Add two pixels for the border */
width + 2, height + 2,
atlas_tex))
{
cogl_object_ref (atlas);
break;
}
/* If we couldn't find a suitable atlas then start another */
if (l == NULL)
{
atlas = _cogl_atlas_texture_create_atlas ();
COGL_NOTE (ATLAS, "Created new atlas for textures: %p", atlas);
if (!_cogl_atlas_reserve_space (atlas,
/* Add two pixels for the border */
width + 2, height + 2,
atlas_tex))
{
/* Ok, this means we really can't add it to the atlas */
cogl_object_unref (atlas);
g_free (atlas_tex);
return COGL_INVALID_HANDLE;
}
}
atlas_tex->format = internal_format;
atlas_tex->atlas = atlas;
return _cogl_atlas_texture_handle_new (atlas_tex);
}
CoglHandle
_cogl_atlas_texture_new_from_bitmap (CoglBitmap *bmp,
CoglTextureFlags flags,
CoglPixelFormat internal_format)
{
CoglHandle atlas_tex_handle;
CoglAtlasTexture *atlas_tex;
CoglBitmap *dst_bmp;
CoglBitmap *override_bmp;
GLenum gl_intformat;
GLenum gl_format;
GLenum gl_type;
int bmp_width;
int bmp_height;
CoglPixelFormat bmp_format;
_COGL_GET_CONTEXT (ctx, COGL_INVALID_HANDLE);
g_return_val_if_fail (cogl_is_bitmap (bmp), COGL_INVALID_HANDLE);
bmp_width = _cogl_bitmap_get_width (bmp);
bmp_height = _cogl_bitmap_get_height (bmp);
bmp_format = _cogl_bitmap_get_format (bmp);
internal_format = _cogl_texture_determine_internal_format (bmp_format,
internal_format);
atlas_tex_handle = _cogl_atlas_texture_new_with_size (bmp_width, bmp_height,
flags, internal_format);
if (atlas_tex_handle == COGL_INVALID_HANDLE)
return COGL_INVALID_HANDLE;
atlas_tex = atlas_tex_handle;
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
2010-07-07 17:44:16 +00:00
dst_bmp = _cogl_texture_prepare_for_upload (bmp,
internal_format,
&internal_format,
&gl_intformat,
&gl_format,
&gl_type);
if (dst_bmp == NULL)
{
cogl_handle_unref (atlas_tex_handle);
return COGL_INVALID_HANDLE;
}
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
2010-07-07 17:44:16 +00:00
/* Make another bitmap so that we can override the format */
override_bmp = _cogl_bitmap_new_shared (dst_bmp,
_cogl_bitmap_get_format (dst_bmp) &
~COGL_PREMULT_BIT,
_cogl_bitmap_get_width (dst_bmp),
_cogl_bitmap_get_height (dst_bmp),
_cogl_bitmap_get_rowstride (dst_bmp));
cogl_object_unref (dst_bmp);
/* Defer to set_region so that we can share the code for copying the
edge pixels to the border. We don't want to pass the actual
format of the converted texture because otherwise it will get
unpremultiplied. */
_cogl_atlas_texture_set_region_with_border (atlas_tex,
cogl-bitmap: Encapsulate the CoglBitmap even internally The CoglBitmap struct is now only defined within cogl-bitmap.c so that all of its members can now only be accessed with accessor functions. To get to the data pointer for the bitmap image you must first call _cogl_bitmap_map and later call _cogl_bitmap_unmap. The map function takes the same arguments as cogl_pixel_array_map so that eventually we can make a bitmap optionally internally divert to a pixel array. There is a _cogl_bitmap_new_from_data function which constructs a new bitmap object and takes ownership of the data pointer. The function gets passed a destroy callback which gets called when the bitmap is freed. This is similar to how gdk_pixbuf_new_from_data works. Alternatively NULL can be passed for the destroy function which means that the caller will manage the life of the pointer (but must guarantee that it stays alive at least until the bitmap is freed). This mechanism is used instead of the old approach of creating a CoglBitmap struct on the stack and manually filling in the members. It could also later be used to create a CoglBitmap that owns a GdkPixbuf ref so that we don't necessarily have to copy the GdkPixbuf data when converting to a bitmap. There is also _cogl_bitmap_new_shared. This creates a bitmap using a reference to another CoglBitmap for the data. This is a bit of a hack but it is needed by the atlas texture backend which wants to divert the set_region virtual to another texture but it needs to override the format of the bitmap to ignore the premult flag.
2010-07-07 17:44:16 +00:00
0, /* src_x */
0, /* src_y */
0, /* dst_x */
0, /* dst_y */
bmp_width, /* dst_width */
bmp_height, /* dst_height */
override_bmp);
cogl_object_unref (override_bmp);
return atlas_tex_handle;
}
void
_cogl_atlas_texture_add_reorganize_callback (GHookFunc callback,
void *user_data)
{
GHook *hook;
_COGL_GET_CONTEXT (ctx, NO_RETVAL);
hook = g_hook_alloc (&ctx->atlas_reorganize_callbacks);
hook->func = callback;
hook->data = user_data;
g_hook_prepend (&ctx->atlas_reorganize_callbacks, hook);
}
void
_cogl_atlas_texture_remove_reorganize_callback (GHookFunc callback,
void *user_data)
{
GHook *hook;
_COGL_GET_CONTEXT (ctx, NO_RETVAL);
hook = g_hook_find_func_data (&ctx->atlas_reorganize_callbacks,
FALSE,
callback,
user_data);
if (hook)
g_hook_destroy_link (&ctx->atlas_reorganize_callbacks, hook);
}
static const CoglTextureVtable
cogl_atlas_texture_vtable =
{
_cogl_atlas_texture_set_region,
NULL, /* get_data */
_cogl_atlas_texture_foreach_sub_texture_in_region,
_cogl_atlas_texture_get_max_waste,
_cogl_atlas_texture_is_sliced,
_cogl_atlas_texture_can_hardware_repeat,
_cogl_atlas_texture_transform_coords_to_gl,
2010-01-18 09:22:04 +00:00
_cogl_atlas_texture_transform_quad_coords_to_gl,
_cogl_atlas_texture_get_gl_texture,
_cogl_atlas_texture_set_filters,
_cogl_atlas_texture_pre_paint,
2010-01-18 09:22:04 +00:00
_cogl_atlas_texture_ensure_non_quad_rendering,
_cogl_atlas_texture_set_wrap_mode_parameters,
_cogl_atlas_texture_get_format,
_cogl_atlas_texture_get_gl_format,
_cogl_atlas_texture_get_width,
_cogl_atlas_texture_get_height,
NULL /* is_foreign */
};