Branchless code for interlacing a texture

author: Mathias Gumz <akira at fluxbox dot org> 2013-02-06 06:49:54 (GMT)
committer: Mathias Gumz <akira at fluxbox dot org> 2013-02-06 06:49:54 (GMT)
commit: 6514398bead7926b85b6e5eb7d6276f47a97cd2f (patch)
tree: 17fd36433e427551c3fd56248593c66c5ae60235 /src/FbTk/TextureRender.cc
parent: 779618e45d4571bb6a4866aa2e398780f4b4da5d (diff)
download: fluxbox_pavel-6514398bead7926b85b6e5eb7d6276f47a97cd2f.zip
fluxbox_pavel-6514398bead7926b85b6e5eb7d6276f47a97cd2f.tar.bz2
1 files changed, 15 insertions, 25 deletions
diff --git a/src/FbTk/TextureRender.cc b/src/FbTk/TextureRender.cc
index 4623417..93c91f1 100644
--- a/src/FbTk/TextureRender.cc
+++ b/src/FbTk/TextureRender.cc
@@ -85,12 +85,14 @@ struct RGBA {
        color.b = PRE_MULTIPLY_0_75[color.b];
    }
+    static void noop(RGBA& color) { }
    typedef void (*colorFunc)(RGBA&);
-    static const colorFunc pseudoInterlaceFuncs[2];
+    static const colorFunc pseudoInterlaceFuncs[3];
 };
-const RGBA::colorFunc RGBA::pseudoInterlaceFuncs[2] = {
+const RGBA::colorFunc RGBA::pseudoInterlaceFuncs[3] = {
+    RGBA::noop,
    RGBA::brighten_4,
    RGBA::darken
 };
@@ -233,12 +235,11 @@ void prepareMirrorTable(prepareFunc prepare, size_t size, FbTk::RGBA* rgba,
    size_t half_size = (size >> 1) + (size & 1);
    prepare(half_size, &rgba[0], from, to, scale);
-    mirrorRGB(size, 1, rgba); // TODO!!
+    mirrorRGB(size, 1, rgba);
 }
+inline void pseudoInterlace(FbTk::RGBA& rgba, const bool& do_interlace, const size_t& y) {
-inline void pseudoInterlace(FbTk::RGBA& rgba, const size_t& y) {
+    FbTk::RGBA::pseudoInterlaceFuncs[do_interlace + (do_interlace * (y & 1))](rgba);
-    FbTk::RGBA::pseudoInterlaceFuncs[y & 1](rgba);
 }
@@ -367,11 +368,8 @@ void renderHorizontalGradient(bool interlaced,
    for (i = 0, y = 0; y < height; ++y) {
        for (x = 0; x < width; ++x, ++i) {
            rgba[i] = gradient[x];
+            pseudoInterlace(rgba[i], interlaced, y);
-            if (interlaced)
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
@@ -392,9 +390,7 @@ void renderVerticalGradient(bool interlaced,
    for (i = 0, y = 0; y < height; ++y) {
        for (x = 0; x < width; ++x, ++i) {
            rgba[i] = gradient[y];
+            pseudoInterlace(rgba[i], interlaced, y);
-            if (interlaced)
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
@@ -427,8 +423,7 @@ void renderPyramidGradient(bool interlaced,
            rgba[i].g = x_gradient[x].g + y_gradient[y].g;
            rgba[i].b = x_gradient[x].b + y_gradient[y].b;
-            if (interlaced)
+            pseudoInterlace(rgba[i], interlaced, y);
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
@@ -482,8 +477,7 @@ void renderRectangleGradient(bool interlaced,
                rgba[i] = y_gradient[y];
            }
-            if (interlaced)
+            pseudoInterlace(rgba[i], interlaced, y);
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
@@ -525,8 +519,7 @@ void renderPipeCrossGradient(bool interlaced,
                rgba[i] = y_gradient[y];
            }
-            if (interlaced)
+            pseudoInterlace(rgba[i], interlaced, y);
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
@@ -562,8 +555,7 @@ void renderDiagonalGradient(bool interlaced,
            rgba[i].g = x_gradient[x].g + y_gradient[y].g;
            rgba[i].b = x_gradient[x].b + y_gradient[y].b;
-            if (interlaced)
+            pseudoInterlace(rgba[i], interlaced, y);
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
@@ -608,8 +600,7 @@ void renderEllipticGradient(bool interlaced,
            rgba[i].g = (unsigned char)(g - (d * dg));
            rgba[i].b = (unsigned char)(b - (d * db));
-            if (interlaced)
+            pseudoInterlace(rgba[i], interlaced, y);
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
@@ -643,8 +634,7 @@ void renderCrossDiagonalGradient(bool interlaced,
            rgba[i].g = x_gradient[x].g + y_gradient[y].g;
            rgba[i].b = x_gradient[x].b + y_gradient[y].b;
-            if (interlaced)
+            pseudoInterlace(rgba[i], interlaced, y);
-                pseudoInterlace(rgba[i], y);
        }
    }
 }
author	Mathias Gumz <akira at fluxbox dot org>	2013-02-06 06:49:54 (GMT)
committer	Mathias Gumz <akira at fluxbox dot org>	2013-02-06 06:49:54 (GMT)
commit	6514398bead7926b85b6e5eb7d6276f47a97cd2f (patch)
tree	17fd36433e427551c3fd56248593c66c5ae60235 /src/FbTk/TextureRender.cc
parent	779618e45d4571bb6a4866aa2e398780f4b4da5d (diff)
download	fluxbox_pavel-6514398bead7926b85b6e5eb7d6276f47a97cd2f.zip fluxbox_pavel-6514398bead7926b85b6e5eb7d6276f47a97cd2f.tar.bz2

diff --git a/src/FbTk/TextureRender.cc b/src/FbTk/TextureRender.cc index 4623417..93c91f1 100644 --- a/src/FbTk/TextureRender.cc +++ b/src/FbTk/TextureRender.cc
@@ -85,12 +85,14 @@ struct RGBA {
85	color.b = PRE_MULTIPLY_0_75[color.b];	85	color.b = PRE_MULTIPLY_0_75[color.b];
86	}	86	}
87		87
		88	static void noop(RGBA& color) { }
88		89
89	typedef void (*colorFunc)(RGBA&);	90	typedef void (*colorFunc)(RGBA&);
90	static const colorFunc pseudoInterlaceFuncs[2];	91	static const colorFunc pseudoInterlaceFuncs[3];
91	};	92	};
92		93
93	const RGBA::colorFunc RGBA::pseudoInterlaceFuncs[2] = {	94	const RGBA::colorFunc RGBA::pseudoInterlaceFuncs[3] = {
		95	RGBA::noop,
94	RGBA::brighten_4,	96	RGBA::brighten_4,
95	RGBA::darken	97	RGBA::darken
96	};	98	};
@@ -233,12 +235,11 @@ void prepareMirrorTable(prepareFunc prepare, size_t size, FbTk::RGBA* rgba,
233	size_t half_size = (size >> 1) + (size & 1);	235	size_t half_size = (size >> 1) + (size & 1);
234		236
235	prepare(half_size, &rgba[0], from, to, scale);	237	prepare(half_size, &rgba[0], from, to, scale);
236	mirrorRGB(size, 1, rgba); // TODO!!	238	mirrorRGB(size, 1, rgba);
237	}	239	}
238		240
239		241	inline void pseudoInterlace(FbTk::RGBA& rgba, const bool& do_interlace, const size_t& y) {
240	inline void pseudoInterlace(FbTk::RGBA& rgba, const size_t& y) {	242	FbTk::RGBA::pseudoInterlaceFuncs[do_interlace + (do_interlace * (y & 1))](rgba);
241	FbTk::RGBA::pseudoInterlaceFuncs[y & 1](rgba);
242	}	243	}
243		244
244		245
@@ -367,11 +368,8 @@ void renderHorizontalGradient(bool interlaced,
367		368
368	for (i = 0, y = 0; y < height; ++y) {	369	for (i = 0, y = 0; y < height; ++y) {
369	for (x = 0; x < width; ++x, ++i) {	370	for (x = 0; x < width; ++x, ++i) {
370
371	rgba[i] = gradient[x];	371	rgba[i] = gradient[x];
372		372	pseudoInterlace(rgba[i], interlaced, y);
373	if (interlaced)
374	pseudoInterlace(rgba[i], y);
375	}	373	}
376	}	374	}
377	}	375	}
@@ -392,9 +390,7 @@ void renderVerticalGradient(bool interlaced,
392	for (i = 0, y = 0; y < height; ++y) {	390	for (i = 0, y = 0; y < height; ++y) {
393	for (x = 0; x < width; ++x, ++i) {	391	for (x = 0; x < width; ++x, ++i) {
394	rgba[i] = gradient[y];	392	rgba[i] = gradient[y];
395		393	pseudoInterlace(rgba[i], interlaced, y);
396	if (interlaced)
397	pseudoInterlace(rgba[i], y);
398	}	394	}
399	}	395	}
400	}	396	}
@@ -427,8 +423,7 @@ void renderPyramidGradient(bool interlaced,
427	rgba[i].g = x_gradient[x].g + y_gradient[y].g;	423	rgba[i].g = x_gradient[x].g + y_gradient[y].g;
428	rgba[i].b = x_gradient[x].b + y_gradient[y].b;	424	rgba[i].b = x_gradient[x].b + y_gradient[y].b;
429		425
430	if (interlaced)	426	pseudoInterlace(rgba[i], interlaced, y);
431	pseudoInterlace(rgba[i], y);
432	}	427	}
433	}	428	}
434	}	429	}
@@ -482,8 +477,7 @@ void renderRectangleGradient(bool interlaced,
482	rgba[i] = y_gradient[y];	477	rgba[i] = y_gradient[y];
483	}	478	}
484		479
485	if (interlaced)	480	pseudoInterlace(rgba[i], interlaced, y);
486	pseudoInterlace(rgba[i], y);
487	}	481	}
488	}	482	}
489	}	483	}
@@ -525,8 +519,7 @@ void renderPipeCrossGradient(bool interlaced,
525	rgba[i] = y_gradient[y];	519	rgba[i] = y_gradient[y];
526	}	520	}
527		521
528	if (interlaced)	522	pseudoInterlace(rgba[i], interlaced, y);
529	pseudoInterlace(rgba[i], y);
530	}	523	}
531	}	524	}
532	}	525	}
@@ -562,8 +555,7 @@ void renderDiagonalGradient(bool interlaced,
562	rgba[i].g = x_gradient[x].g + y_gradient[y].g;	555	rgba[i].g = x_gradient[x].g + y_gradient[y].g;
563	rgba[i].b = x_gradient[x].b + y_gradient[y].b;	556	rgba[i].b = x_gradient[x].b + y_gradient[y].b;
564		557
565	if (interlaced)	558	pseudoInterlace(rgba[i], interlaced, y);
566	pseudoInterlace(rgba[i], y);
567	}	559	}
568	}	560	}
569	}	561	}
@@ -608,8 +600,7 @@ void renderEllipticGradient(bool interlaced,
608	rgba[i].g = (unsigned char)(g - (d * dg));	600	rgba[i].g = (unsigned char)(g - (d * dg));
609	rgba[i].b = (unsigned char)(b - (d * db));	601	rgba[i].b = (unsigned char)(b - (d * db));
610		602
611	if (interlaced)	603	pseudoInterlace(rgba[i], interlaced, y);
612	pseudoInterlace(rgba[i], y);
613	}	604	}
614	}	605	}
615	}	606	}
@@ -643,8 +634,7 @@ void renderCrossDiagonalGradient(bool interlaced,
643	rgba[i].g = x_gradient[x].g + y_gradient[y].g;	634	rgba[i].g = x_gradient[x].g + y_gradient[y].g;
644	rgba[i].b = x_gradient[x].b + y_gradient[y].b;	635	rgba[i].b = x_gradient[x].b + y_gradient[y].b;
645		636
646	if (interlaced)	637	pseudoInterlace(rgba[i], interlaced, y);
647	pseudoInterlace(rgba[i], y);
648	}	638	}
649	}	639	}
650	}	640	}