X-Git-Url: https://git.pterodactylus.net/?a=blobdiff_plain;f=synfig-core%2Ftrunk%2Fsrc%2Fsynfig%2Flayer_shape.cpp;h=539d71587e5873ee953afd35e16e0b85a2c9d6cf;hb=756c0d29ac1742f231e6615f9a577e574e35a4af;hp=0c980aa5de99bc77476a7d6f8dce6f8f2d8ab885;hpb=fe67325abc11f1fa871e18e7953f26225d648014;p=synfig.git diff --git a/synfig-core/trunk/src/synfig/layer_shape.cpp b/synfig-core/trunk/src/synfig/layer_shape.cpp index 0c980aa..539d715 100644 --- a/synfig-core/trunk/src/synfig/layer_shape.cpp +++ b/synfig-core/trunk/src/synfig/layer_shape.cpp @@ -1,11 +1,12 @@ /* === S Y N F I G ========================================================= */ /*! \file layer_shape.cpp -** \brief Template Header +** \brief Implementation of the "Shape" layer ** ** $Id$ ** ** \legal ** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley +** Copyright (c) 2007, 2008 Chris Moore ** ** This package is free software; you can redistribute it and/or ** modify it under the terms of the GNU General Public License as @@ -59,8 +60,8 @@ using namespace etl; SYNFIG_LAYER_INIT(Layer_Shape); SYNFIG_LAYER_SET_NAME(Layer_Shape,"shape"); -SYNFIG_LAYER_SET_LOCAL_NAME(Layer_Shape,_("Shape")); -SYNFIG_LAYER_SET_CATEGORY(Layer_Shape,_("Internal")); +SYNFIG_LAYER_SET_LOCAL_NAME(Layer_Shape,N_("Shape")); +SYNFIG_LAYER_SET_CATEGORY(Layer_Shape,N_("Internal")); SYNFIG_LAYER_SET_VERSION(Layer_Shape,"0.1"); SYNFIG_LAYER_SET_CVS_ID(Layer_Shape,"$Id$"); @@ -233,7 +234,7 @@ struct MonoSegment int intersect(Real x,Real y) const { - if((y < aabb.miny) || (y > aabb.maxy) || (x < aabb.minx)) return 0; + if((y < aabb.miny+EPSILON) || (y > aabb.maxy) || (x < aabb.minx)) return 0; if(x > aabb.maxx) return ydir; //int i = 0; @@ -244,11 +245,13 @@ struct MonoSegment //assumes that the rect culled away anything that would be beyond the edges if(ydir > 0) { - while(y > (*++p)[1]); + while(y > (*++p)[1]) + ; } else { - while(y < (*++p)[1]); + while(y < (*++p)[1]) + ; } //for the loop to break there must have been a slope (straight line would do nothing) @@ -316,7 +319,7 @@ struct CurveArray degrees.push_back(2); } - static int intersect_conic(Real x, Real y, Point *p, int level = 0) + static int intersect_conic(Real x, Real y, Point *p, int /*level*/ = 0) { Real ymin,ymax,xmin,xmax; int intersects = 0; @@ -334,7 +337,7 @@ struct CurveArray if( (y > ymax && y > p[1][1]) || (y < ymin && y < p[1][1]) ) return 0; //degenerate line max - if(ymin == ymax == p[1][1]) + if(ymin == ymax && ymax == p[1][1]) return 0; //degenerate accept - to the right and crossing the base line @@ -440,7 +443,7 @@ struct CurveArray const Real cn[4] = {a,b,c,d}; Real p,dp,newt,oldpmag=FLT_MAX; - //eval cubic eqn and it's derivative + //eval cubic eqn and its derivative for(;;) { p = cn[0]*t + cn[1]; @@ -471,7 +474,7 @@ struct CurveArray } } - static int intersect_cubic(Real x, Real y, Point *p, int level = 0) + static int intersect_cubic(Real x, Real y, Point *p, int /*level*/ = 0) { const Real INVALIDROOT = -FLT_MAX; Real ymin,ymax,xmin,xmax; @@ -712,7 +715,7 @@ struct Layer_Shape::Intersector { Rect aabb; - //! true iff aabb hasn't been initialised yet + //! true iff aabb hasn't been initialized yet bool initaabb; int flags; @@ -1089,19 +1092,27 @@ public: void draw_scanline(int y, Real x1, Real y1, Real x2, Real y2); void draw_line(Real x1, Real y1, Real x2, Real y2); - Real ExtractAlpha(Real area) + Real ExtractAlpha(Real area, WindingStyle winding_style) { - //non-zero winding style - if(area < 0) area = -area; - if(area > 1) area = 1; + if (area < 0) + area = -area; - //even-odd winding style - /*if(area < 0) area = -area; + if (winding_style == WINDING_NON_ZERO) + { + // non-zero winding style + if (area > 1) + return 1; + } + else // if (winding_style == WINDING_EVEN_ODD) + { + // even-odd winding style + while (area > 1) + area -= 2; - while(area > 2) area -= 2; - if(area > 1) area = 1-area; //want pyramid like thing - */ - //broken? - yep broken + // want pyramid like thing + if (area < 0) + area = -area; + } return area; } @@ -1118,6 +1129,7 @@ Layer_Shape::Layer_Shape(const Real &a, const Color::BlendMethod m): antialias (true), blurtype (Blur::FASTGAUSSIAN), feather (0), + winding_style (WINDING_NON_ZERO), bytestream (0), lastbyteop (Primitive::NONE), lastoppos (-1) @@ -1139,12 +1151,15 @@ Layer_Shape::clear() bool Layer_Shape::set_param(const String & param, const ValueBase &value) { - IMPORT(color); + IMPORT_PLUS(color, { if (color.get_a() == 0) { if (converted_blend_) { + set_blend_method(Color::BLEND_ALPHA_OVER); + color.set_a(1); } else transparent_color_ = true; } }); IMPORT(offset); IMPORT(invert); IMPORT(antialias); IMPORT(feather); IMPORT(blurtype); + IMPORT(winding_style); return Layer_Composite::set_param(param,value); } @@ -1158,6 +1173,7 @@ Layer_Shape::get_param(const String ¶m)const EXPORT(antialias); EXPORT(feather); EXPORT(blurtype); + EXPORT(winding_style); EXPORT_NAME(); EXPORT_VERSION(); @@ -1175,7 +1191,7 @@ Layer_Shape::get_param_vocab()const .set_description(_("Layer_Shape Color")) ); ret.push_back(ParamDesc("offset") - .set_local_name(_("Position")) + .set_local_name(_("Offset")) ); ret.push_back(ParamDesc("invert") .set_local_name(_("Invert")) @@ -1197,6 +1213,13 @@ Layer_Shape::get_param_vocab()const .add_enum_value(Blur::GAUSSIAN,"gaussian",_("Gaussian Blur")) .add_enum_value(Blur::DISC,"disc",_("Disc Blur")) ); + ret.push_back(ParamDesc("winding_style") + .set_local_name(_("Winding Style")) + .set_description(_("Winding style to use")) + .set_hint("enum") + .add_enum_value(WINDING_NON_ZERO,"nonzero",_("Non Zero")) + .add_enum_value(WINDING_EVEN_ODD,"evenodd",_("Even/Odd")) + ); return ret; } @@ -1272,7 +1295,7 @@ Layer_Shape::get_color(Context context, const Point &p)const //************** SCANLINE RENDERING ********************* void Layer_Shape::PolySpan::line_to(Real x, Real y) { - Real n[4]; + Real n[4] = {0,0,0,0}; bool afterx = false; const Real xin(x), yin(y); @@ -1309,7 +1332,7 @@ void Layer_Shape::PolySpan::line_to(Real x, Real y) //generate data for the ending clipped info if(y > window.maxy) { - //intial line to intersection (and degenerate) + //initial line to intersection (and degenerate) n[2] = x + (window.maxy - y) * dx / dy; //intersect coords @@ -1333,7 +1356,7 @@ void Layer_Shape::PolySpan::line_to(Real x, Real y) //generate data for the ending clipped info if(y < window.miny) { - //intial line to intersection (and degenerate) + //initial line to intersection (and degenerate) n[2] = x + (window.miny - y) * dx / dy; //intersect coords @@ -1383,7 +1406,7 @@ void Layer_Shape::PolySpan::line_to(Real x, Real y) //generate data for the ending clipped info if(x > window.maxx) { - //intial line to intersection (and degenerate) + //initial line to intersection (and degenerate) n[2] = y + (window.maxx - x) * dy / dx; n[0] = window.maxx; @@ -1412,7 +1435,7 @@ void Layer_Shape::PolySpan::line_to(Real x, Real y) //generate data for the ending clipped info if(x < window.minx) { - //intial line to intersection (and degenerate) + //initial line to intersection (and degenerate) n[2] = y + (window.minx - x) * dy / dx; n[0] = window.minx; @@ -1529,7 +1552,7 @@ void Layer_Shape::PolySpan::conic_to(Real x1, Real y1, Real x, Real y) { if(num >= MAX_SUBDIVISION_SIZE) { - warning("Curve subdivision somehow ran out of space while tesselating!"); + warning("Curve subdivision somehow ran out of space while tessellating!"); //do something... assert(0); @@ -1602,7 +1625,7 @@ void Layer_Shape::PolySpan::cubic_to(Real x1, Real y1, Real x2, Real y2, Real x, { if(num >= MAX_SUBDIVISION_SIZE) { - warning("Curve subdivision somehow ran out of space while tesselating!"); + warning("Curve subdivision somehow ran out of space while tessellating!"); //do something... assert(0); @@ -1680,7 +1703,7 @@ void Layer_Shape::PolySpan::draw_scanline(int y, Real x1, Real fy1, Real x2, Rea //case all in same pixel if(ix1 == ix2) //impossible for degenerate case (covered by the previous cases) { - current.addcover(dy,(fx1 + fx2)*dy/2); //horizontal trapazoid area + current.addcover(dy,(fx1 + fx2)*dy/2); //horizontal trapezoid area return; } @@ -1694,7 +1717,7 @@ void Layer_Shape::PolySpan::draw_scanline(int y, Real x1, Real fy1, Real x2, Rea mult = (1 - fx1)*dydx; //next y intersection diff value (at 1) //first pixel - current.addcover(mult,(1 + fx1)*mult/2); // fx1,fy1,1,fy@1 - starting trapazoidal area + current.addcover(mult,(1 + fx1)*mult/2); // fx1,fy1,1,fy@1 - starting trapezoidal area //move to the next pixel fy1 += mult; @@ -1730,7 +1753,7 @@ void Layer_Shape::PolySpan::draw_scanline(int y, Real x1, Real fy1, Real x2, Rea mult = fx1*dydx; //next y intersection diff value //first pixel - current.addcover(mult,fx1*mult/2); // fx1,fy1,0,fy@0 - starting trapazoidal area + current.addcover(mult,fx1*mult/2); // fx1,fy1,0,fy@0 - starting trapezoidal area //move to next pixel fy1 += mult; @@ -1858,7 +1881,7 @@ void Layer_Shape::PolySpan::draw_line(Real x1, Real y1, Real x2, Real y2) mult = (1 - fy1) * dxdy; - //x interset scanline + //x intersect scanline x_from = x1 + mult; draw_scanline(iy1,x1,fy1,x_from,1); @@ -1888,7 +1911,7 @@ void Layer_Shape::PolySpan::draw_line(Real x1, Real y1, Real x2, Real y2) mult = fy1 * dxdy; - //x interset scanline + //x intersect scanline x_from = x1 + mult; draw_scanline(iy1,x1,fy1,x_from,0); @@ -2195,7 +2218,7 @@ bool Layer_Shape::render_polyspan(Surface *surface, PolySpan &polyspan, //draw pixel - based on covered area if(area) //if we're ok, draw the current pixel { - alpha = polyspan.ExtractAlpha(cover - area); + alpha = polyspan.ExtractAlpha(cover - area, winding_style); if(invert) alpha = 1 - alpha; if(!antialias) @@ -2232,7 +2255,7 @@ bool Layer_Shape::render_polyspan(Surface *surface, PolySpan &polyspan, //draw span to next pixel - based on total amount of pixel cover if(x < cur_mark->x) { - alpha = polyspan.ExtractAlpha(cover); + alpha = polyspan.ExtractAlpha(cover, winding_style); if(invert) alpha = 1 - alpha; if(!antialias) @@ -2321,7 +2344,7 @@ bool Layer_Shape::render_polyspan(etl::surface *surface, PolySpan &polysp //draw pixel - based on covered area if(area) //if we're ok, draw the current pixel { - alpha = 1 - polyspan.ExtractAlpha(cover - area); + alpha = 1 - polyspan.ExtractAlpha(cover - area, winding_style); if(!antialias) { if(alpha >= .5) p.put_value(); @@ -2353,7 +2376,7 @@ bool Layer_Shape::render_polyspan(etl::surface *surface, PolySpan &polysp //draw span to next pixel - based on total amount of pixel cover if(x < cur_mark->x) { - alpha = 1 - polyspan.ExtractAlpha(cover); + alpha = 1 - polyspan.ExtractAlpha(cover, winding_style); if(!antialias) { if(alpha >= .5) p.put_hline(cur_mark->x - x); @@ -2393,7 +2416,7 @@ bool Layer_Shape::render_polyspan(etl::surface *surface, PolySpan &polysp //draw pixel - based on covered area if(area) //if we're ok, draw the current pixel { - alpha = polyspan.ExtractAlpha(cover - area); + alpha = polyspan.ExtractAlpha(cover - area, winding_style); if(!antialias) { if(alpha >= .5) p.put_value(); @@ -2418,7 +2441,7 @@ bool Layer_Shape::render_polyspan(etl::surface *surface, PolySpan &polysp //draw span to next pixel - based on total amount of pixel cover if(x < cur_mark->x) { - alpha = polyspan.ExtractAlpha(cover); + alpha = polyspan.ExtractAlpha(cover, winding_style); if(!antialias) { if(alpha >= .5) p.put_hline(cur_mark->x - x); @@ -2458,8 +2481,8 @@ Layer_Shape::accelerated_render(Context context,Surface *surface,int quality, co Rect nrect; - Real pixelfeatherx = abs(feather/pw), - pixelfeathery = abs(feather/ph); + Real pixelfeatherx = quality == 10 ? 0 : abs(feather/pw), + pixelfeathery = quality == 10 ? 0 : abs(feather/ph); nrect.set_point((aabb.minx - tl[0])/pw,(aabb.miny - tl[1])/ph); nrect.expand((aabb.maxx - tl[0])/pw,(aabb.maxy - tl[1])/ph); @@ -2500,7 +2523,7 @@ Layer_Shape::accelerated_render(Context context,Surface *surface,int quality, co if(cb && !cb->amount_complete(10000,10001+renddesc.get_h())) return false; - if(feather) + if(feather && quality != 10) { //we have to blur rather than be crappy @@ -2596,7 +2619,7 @@ Layer_Shape::accelerated_render(Context context,Surface *surface,int quality, co } bool -Layer_Shape::render_shape(Surface *surface,bool useblend,int quality, +Layer_Shape::render_shape(Surface *surface,bool useblend,int /*quality*/, const RendDesc &renddesc, ProgressCallback *cb)const { int tmp(0); @@ -2621,7 +2644,11 @@ Layer_Shape::render_shape(Surface *surface,bool useblend,int quality, PolySpan span; - //optimization for tesselating only inside tiles + // if the pixels are zero sized then we're too zoomed out to see anything + if (pw == 0 || ph == 0) + return true; + + //optimization for tessellating only inside tiles span.window.minx = 0; span.window.miny = 0; span.window.maxx = w; @@ -2836,8 +2863,8 @@ Layer_Shape::render_shape(Surface *surface,bool useblend,int quality, } bool -Layer_Shape::render_shape(surface *surface,int quality, - const RendDesc &renddesc, ProgressCallback *cb)const +Layer_Shape::render_shape(etl::surface *surface,int /*quality*/, + const RendDesc &renddesc, ProgressCallback */*cb*/)const { // If our amount is set to zero, no need to render anything if(!get_amount()) @@ -2857,7 +2884,7 @@ Layer_Shape::render_shape(surface *surface,int quality, PolySpan span; - //optimization for tesselating only inside tiles + //optimization for tessellating only inside tiles span.window.minx = 0; span.window.miny = 0; span.window.maxx = w;