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mutter/tests/interactive/test-cogl-material.c

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Adds a CoglMaterial abstraction, which includes support for multi-texturing My previous work to provide muti-texturing support has been extended into a CoglMaterial abstraction that adds control over the texture combine functions (controlling how multiple texture layers are blended together), the gl blend function (used for blending the final primitive with the framebuffer), the alpha function (used to discard fragments based on their alpha channel), describing attributes such as a diffuse, ambient and specular color (for use with the standard OpenGL lighting model), and per layer rotations. (utilizing the new CoglMatrix utility API) For now the only way this abstraction is exposed is via a new cogl_material_rectangle function, that is similar to cogl_texture_rectangle but doesn't take a texture handle (the source material is pulled from the context), and the array of texture coordinates is extended to be able to supply coordinates for each layer. Note: this function doesn't support sliced textures; supporting sliced textures is a non trivial problem, considering the ability to rotate layers. Note: cogl_material_rectangle, has quite a few workarounds, for a number of other limitations within Cogl a.t.m. Note: The GLES1/2 multi-texturing support has yet to be updated to use the material abstraction.
2008-12-11 15:11:30 -05:00
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <glib.h>
#include <glib-object.h>
#include <gmodule.h>
#include <clutter/clutter.h>
#include <cogl/cogl.h>
#define TIMELINE_FRAME_COUNT 200
typedef struct _TestMultiLayerMaterialState
{
ClutterActor *group;
CoglHandle material;
CoglHandle alpha_tex;
CoglHandle redhand_tex;
CoglHandle light_tex0;
ClutterFixed *tex_coords;
CoglMatrix tex_matrix;
CoglMatrix rot_matrix;
} TestMultiLayerMaterialState;
static void
frame_cb (ClutterTimeline *timeline,
gint frame_no,
gpointer data)
{
TestMultiLayerMaterialState *state = data;
cogl_matrix_multiply (&state->tex_matrix,
&state->tex_matrix,
&state->rot_matrix);
cogl_material_set_layer_matrix (state->material, 2, &state->tex_matrix);
}
[test-cogl-material] Remove return value from material_rectangle_paint The paint signal has no return value so it isn't needed. This fixes a compiler warning.
2009-01-06 11:01:23 -05:00
static void
Adds a CoglMaterial abstraction, which includes support for multi-texturing My previous work to provide muti-texturing support has been extended into a CoglMaterial abstraction that adds control over the texture combine functions (controlling how multiple texture layers are blended together), the gl blend function (used for blending the final primitive with the framebuffer), the alpha function (used to discard fragments based on their alpha channel), describing attributes such as a diffuse, ambient and specular color (for use with the standard OpenGL lighting model), and per layer rotations. (utilizing the new CoglMatrix utility API) For now the only way this abstraction is exposed is via a new cogl_material_rectangle function, that is similar to cogl_texture_rectangle but doesn't take a texture handle (the source material is pulled from the context), and the array of texture coordinates is extended to be able to supply coordinates for each layer. Note: this function doesn't support sliced textures; supporting sliced textures is a non trivial problem, considering the ability to rotate layers. Note: cogl_material_rectangle, has quite a few workarounds, for a number of other limitations within Cogl a.t.m. Note: The GLES1/2 multi-texturing support has yet to be updated to use the material abstraction.
2008-12-11 15:11:30 -05:00
material_rectangle_paint (ClutterActor *actor, gpointer data)
{
TestMultiLayerMaterialState *state = data;
cogl_set_source (state->material);
cogl_material_rectangle (CLUTTER_INT_TO_FIXED(0),
CLUTTER_INT_TO_FIXED(0),
CLUTTER_INT_TO_FIXED(TIMELINE_FRAME_COUNT),
CLUTTER_INT_TO_FIXED(TIMELINE_FRAME_COUNT),
[cogl-material] improvements for cogl_material_rectangle The API has been changed to take an explicit length for the number of texture coordinates passed, and it's now documented that if there are more layers to the current material than the number of texture coords passed, then default coordinates will be generated for the other layers. cogl_material_rectangle should now handle the case where a single sliced texture is supplied as a material layer by falling back to cogl_texture_rectangle. We are nearly at the point that cogl_texture_rectangle could be deprecated. A few issues remain though, such as not considering waste in cogl_material_rectangle.
2008-12-23 18:50:02 -05:00
12,
Adds a CoglMaterial abstraction, which includes support for multi-texturing My previous work to provide muti-texturing support has been extended into a CoglMaterial abstraction that adds control over the texture combine functions (controlling how multiple texture layers are blended together), the gl blend function (used for blending the final primitive with the framebuffer), the alpha function (used to discard fragments based on their alpha channel), describing attributes such as a diffuse, ambient and specular color (for use with the standard OpenGL lighting model), and per layer rotations. (utilizing the new CoglMatrix utility API) For now the only way this abstraction is exposed is via a new cogl_material_rectangle function, that is similar to cogl_texture_rectangle but doesn't take a texture handle (the source material is pulled from the context), and the array of texture coordinates is extended to be able to supply coordinates for each layer. Note: this function doesn't support sliced textures; supporting sliced textures is a non trivial problem, considering the ability to rotate layers. Note: cogl_material_rectangle, has quite a few workarounds, for a number of other limitations within Cogl a.t.m. Note: The GLES1/2 multi-texturing support has yet to be updated to use the material abstraction.
2008-12-11 15:11:30 -05:00
state->tex_coords);
}
G_MODULE_EXPORT int
test_cogl_material_main (int argc, char *argv[])
{
ClutterTimeline *timeline;
ClutterAlpha *alpha;
ClutterBehaviour *r_behave;
ClutterActor *stage;
ClutterColor stage_color = { 0x61, 0x56, 0x56, 0xff };
TestMultiLayerMaterialState *state = g_new0 (TestMultiLayerMaterialState, 1);
ClutterGeometry geom;
ClutterFixed tex_coords[] =
{
/* tx1 ty1 tx2 ty2 */
0, 0, CLUTTER_INT_TO_FIXED (1), CLUTTER_INT_TO_FIXED (1),
0, 0, CLUTTER_INT_TO_FIXED (1), CLUTTER_INT_TO_FIXED (1),
0, 0, CLUTTER_INT_TO_FIXED (1), CLUTTER_INT_TO_FIXED (1)
};
clutter_init (&argc, &argv);
stage = clutter_stage_get_default ();
clutter_actor_get_geometry (stage, &geom);
clutter_stage_set_color (CLUTTER_STAGE (stage),
&stage_color);
/* We create a non-descript actor that we know doesn't have a
* default paint handler, so that we can easily control
* painting in a paint signal handler, without having to
* sub-class anything etc. */
state->group = clutter_group_new ();
clutter_actor_set_position (state->group, geom.width/2, geom.height/2);
g_signal_connect (state->group, "paint",
G_CALLBACK(material_rectangle_paint), state);
state->alpha_tex =
cogl_texture_new_from_file ("./redhand_alpha.png",
-1, /* disable slicing */
TRUE,
COGL_PIXEL_FORMAT_ANY,
NULL);
state->redhand_tex =
cogl_texture_new_from_file ("./redhand.png",
-1, /* disable slicing */
TRUE,
COGL_PIXEL_FORMAT_ANY,
NULL);
state->light_tex0 =
cogl_texture_new_from_file ("./light0.png",
-1, /* disable slicing */
TRUE,
COGL_PIXEL_FORMAT_ANY,
NULL);
state->material = cogl_material_new ();
cogl_material_set_layer (state->material, 0, state->alpha_tex);
cogl_material_set_layer (state->material, 1, state->redhand_tex);
cogl_material_set_layer (state->material, 2, state->light_tex0);
state->tex_coords = tex_coords;
cogl_matrix_init_identity (&state->tex_matrix);
cogl_matrix_init_identity (&state->rot_matrix);
cogl_matrix_translate (&state->rot_matrix, 0.5, 0.5, 0);
cogl_matrix_rotate (&state->rot_matrix, 10.0, 0, 0, 1.0);
cogl_matrix_translate (&state->rot_matrix, -0.5, -0.5, 0);
clutter_actor_set_anchor_point (state->group, 86, 125);
clutter_container_add_actor (CLUTTER_CONTAINER(stage),
state->group);
timeline = clutter_timeline_new (TIMELINE_FRAME_COUNT, 26 /* fps */);
g_object_set (timeline, "loop", TRUE, NULL);
g_signal_connect (timeline, "new-frame", G_CALLBACK (frame_cb), state);
/* Set an alpha func to power behaviour - ramp is constant rise/fall */
alpha = clutter_alpha_new_for_mode (CLUTTER_LINEAR);
clutter_alpha_set_timeline (alpha, timeline);
/* Create a behaviour for that alpha */
r_behave = clutter_behaviour_rotate_new (alpha,
CLUTTER_Y_AXIS,
CLUTTER_ROTATE_CW,
0.0, 360.0);
/* Apply it to our actor */
clutter_behaviour_apply (r_behave, state->group);
/* start the timeline and thus the animations */
clutter_timeline_start (timeline);
clutter_actor_show_all (stage);
clutter_main();
cogl_material_unref (state->material);
cogl_texture_unref (state->alpha_tex);
cogl_texture_unref (state->redhand_tex);
cogl_texture_unref (state->light_tex0);
g_free (state);
g_object_unref (r_behave);
return 0;
}
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