diff --git a/libs/pigment/KoCompositeOpRegistry.cpp b/libs/pigment/KoCompositeOpRegistry.cpp index 742fcb5eddd..a498268751f 100644 --- a/libs/pigment/KoCompositeOpRegistry.cpp +++ b/libs/pigment/KoCompositeOpRegistry.cpp @@ -1,210 +1,211 @@ /* * Copyright (c) 2005 Adrian Page * * 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 2.1 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; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "KoCompositeOpRegistry.h" #include #include #include #include #include "KoCompositeOp.h" #include "KoColorSpace.h" KoCompositeOpRegistry::KoCompositeOpRegistry() { m_categories << KoID("arithmetic", i18n("Arithmetic")) << KoID("dark" , i18n("Darken")) << KoID("light" , i18n("Lighten")) << KoID("negative" , i18n("Negative")) << KoID("mix" , i18n("Mix")) << KoID("misc" , i18n("Misc")) << KoID("hsy" , i18n("HSY")) << KoID("hsi" , i18n("HSI")) << KoID("hsl" , i18n("HSL")) << KoID("hsv" , i18n("HSV")); m_map.insert(m_categories[0], KoID(COMPOSITE_ADD , i18n("Addition"))); m_map.insert(m_categories[0], KoID(COMPOSITE_SUBTRACT , i18n("Subtract"))); m_map.insert(m_categories[0], KoID(COMPOSITE_MULT , i18n("Multiply"))); m_map.insert(m_categories[0], KoID(COMPOSITE_DIVIDE , i18n("Divide"))); m_map.insert(m_categories[0], KoID(COMPOSITE_INVERSE_SUBTRACT, i18n("Inverse Subtract"))); m_map.insert(m_categories[1], KoID(COMPOSITE_BURN , i18n("Burn"))); m_map.insert(m_categories[1], KoID(COMPOSITE_LINEAR_BURN, i18n("Linear Burn"))); m_map.insert(m_categories[1], KoID(COMPOSITE_DARKEN , i18n("Darken"))); m_map.insert(m_categories[1], KoID(COMPOSITE_GAMMA_DARK , i18n("Gamma Dark"))); m_map.insert(m_categories[1], KoID(COMPOSITE_DARKER_COLOR , i18n("Darker Color"))); m_map.insert(m_categories[2], KoID(COMPOSITE_DODGE , i18n("Color Dodge"))); m_map.insert(m_categories[2], KoID(COMPOSITE_LINEAR_DODGE, i18n("Linear Dodge"))); m_map.insert(m_categories[2], KoID(COMPOSITE_LIGHTEN , i18n("Lighten"))); m_map.insert(m_categories[2], KoID(COMPOSITE_LINEAR_LIGHT, i18n("Linear Light"))); m_map.insert(m_categories[2], KoID(COMPOSITE_SCREEN , i18n("Screen"))); m_map.insert(m_categories[2], KoID(COMPOSITE_PIN_LIGHT , i18n("Pin Light"))); m_map.insert(m_categories[2], KoID(COMPOSITE_VIVID_LIGHT , i18n("Vivid Light"))); m_map.insert(m_categories[2], KoID(COMPOSITE_HARD_LIGHT , i18n("Hard Light"))); m_map.insert(m_categories[2], KoID(COMPOSITE_SOFT_LIGHT_PHOTOSHOP, i18n("Soft Light (Photoshop)"))); m_map.insert(m_categories[2], KoID(COMPOSITE_SOFT_LIGHT_SVG, i18n("Soft Light (SVG)"))); m_map.insert(m_categories[2], KoID(COMPOSITE_GAMMA_LIGHT , i18n("Gamma Light"))); m_map.insert(m_categories[2], KoID(COMPOSITE_LIGHTER_COLOR , i18n("Lighter Color"))); m_map.insert(m_categories[3], KoID(COMPOSITE_DIFF , i18n("Difference"))); m_map.insert(m_categories[3], KoID(COMPOSITE_EQUIVALENCE , i18n("Equivalence"))); m_map.insert(m_categories[3], KoID(COMPOSITE_ADDITIVE_SUBTRACTIVE, i18n("Additive Subtractive"))); m_map.insert(m_categories[3], KoID(COMPOSITE_EXCLUSION , i18n("Exclusion"))); m_map.insert(m_categories[3], KoID(COMPOSITE_ARC_TANGENT , i18n("Arcus Tangent"))); m_map.insert(m_categories[4], KoID(COMPOSITE_OVER , i18n("Normal"))); m_map.insert(m_categories[4], KoID(COMPOSITE_BEHIND , i18n("Behind"))); m_map.insert(m_categories[4], KoID(COMPOSITE_OVERLAY , i18n("Overlay"))); m_map.insert(m_categories[4], KoID(COMPOSITE_ERASE , i18n("Erase"))); m_map.insert(m_categories[4], KoID(COMPOSITE_ALPHA_DARKEN , i18n("Alpha Darken"))); m_map.insert(m_categories[4], KoID(COMPOSITE_HARD_MIX , i18n("Hard Mix"))); m_map.insert(m_categories[4], KoID(COMPOSITE_GRAIN_MERGE , i18n("Grain Merge"))); m_map.insert(m_categories[4], KoID(COMPOSITE_GRAIN_EXTRACT , i18n("Grain Extract"))); m_map.insert(m_categories[4], KoID(COMPOSITE_PARALLEL , i18n("Parallel"))); m_map.insert(m_categories[4], KoID(COMPOSITE_ALLANON , i18n("Allanon"))); m_map.insert(m_categories[4], KoID(COMPOSITE_GEOMETRIC_MEAN, i18n("Geometric Mean"))); m_map.insert(m_categories[5], KoID(COMPOSITE_BUMPMAP , i18n("Bumpmap"))); + m_map.insert(m_categories[5], KoID(COMPOSITE_COMBINE_NORMAL, i18n("Combine Normal Map"))); m_map.insert(m_categories[5], KoID(COMPOSITE_DISSOLVE , i18n("Dissolve"))); m_map.insert(m_categories[5], KoID(COMPOSITE_COPY_RED , i18n("Copy Red"))); m_map.insert(m_categories[5], KoID(COMPOSITE_COPY_GREEN, i18n("Copy Green"))); m_map.insert(m_categories[5], KoID(COMPOSITE_COPY_BLUE , i18n("Copy Blue"))); m_map.insert(m_categories[5], KoID(COMPOSITE_COPY , i18n("Copy"))); m_map.insert(m_categories[6], KoID(COMPOSITE_COLOR , i18n("Color"))); m_map.insert(m_categories[6], KoID(COMPOSITE_HUE , i18n("Hue"))); m_map.insert(m_categories[6], KoID(COMPOSITE_SATURATION , i18n("Saturation"))); m_map.insert(m_categories[6], KoID(COMPOSITE_LUMINIZE , i18n("Luminosity"))); m_map.insert(m_categories[6], KoID(COMPOSITE_DEC_SATURATION, i18n("Decrease Saturation"))); m_map.insert(m_categories[6], KoID(COMPOSITE_INC_SATURATION, i18n("Increase Saturation"))); m_map.insert(m_categories[6], KoID(COMPOSITE_DEC_LUMINOSITY, i18n("Decrease Luminosity"))); m_map.insert(m_categories[6], KoID(COMPOSITE_INC_LUMINOSITY, i18n("Increase Luminosity"))); m_map.insert(m_categories[7], KoID(COMPOSITE_COLOR_HSI , i18n("Color HSI"))); m_map.insert(m_categories[7], KoID(COMPOSITE_HUE_HSI , i18n("Hue HSI"))); m_map.insert(m_categories[7], KoID(COMPOSITE_SATURATION_HSI , i18n("Saturation HSI"))); m_map.insert(m_categories[7], KoID(COMPOSITE_INTENSITY , i18n("Intensity"))); m_map.insert(m_categories[7], KoID(COMPOSITE_DEC_SATURATION_HSI, i18n("Decrease Saturation HSI"))); m_map.insert(m_categories[7], KoID(COMPOSITE_INC_SATURATION_HSI, i18n("Increase Saturation HSI"))); m_map.insert(m_categories[7], KoID(COMPOSITE_DEC_INTENSITY , i18n("Decrease Intensity"))); m_map.insert(m_categories[7], KoID(COMPOSITE_INC_INTENSITY , i18n("Increase Intensity"))); m_map.insert(m_categories[8], KoID(COMPOSITE_COLOR_HSL , i18n("Color HSL"))); m_map.insert(m_categories[8], KoID(COMPOSITE_HUE_HSL , i18n("Hue HSL"))); m_map.insert(m_categories[8], KoID(COMPOSITE_SATURATION_HSL , i18n("Saturation HSL"))); m_map.insert(m_categories[8], KoID(COMPOSITE_LIGHTNESS , i18n("Lightness"))); m_map.insert(m_categories[8], KoID(COMPOSITE_DEC_SATURATION_HSL, i18n("Decrease Saturation HSL"))); m_map.insert(m_categories[8], KoID(COMPOSITE_INC_SATURATION_HSL, i18n("Increase Saturation HSL"))); m_map.insert(m_categories[8], KoID(COMPOSITE_DEC_LIGHTNESS , i18n("Decrease Lightness"))); m_map.insert(m_categories[8], KoID(COMPOSITE_INC_LIGHTNESS , i18n("Increase Lightness"))); m_map.insert(m_categories[9], KoID(COMPOSITE_COLOR_HSV , i18n("Color HSV"))); m_map.insert(m_categories[9], KoID(COMPOSITE_HUE_HSV , i18n("Hue HSV"))); m_map.insert(m_categories[9], KoID(COMPOSITE_SATURATION_HSV , i18n("Saturation HSV"))); m_map.insert(m_categories[9], KoID(COMPOSITE_VALUE , i18n("Value"))); m_map.insert(m_categories[9], KoID(COMPOSITE_DEC_SATURATION_HSV, i18n("Decrease Saturation HSV"))); m_map.insert(m_categories[9], KoID(COMPOSITE_INC_SATURATION_HSV, i18n("Increase Saturation HSV"))); m_map.insert(m_categories[9], KoID(COMPOSITE_DEC_VALUE , i18n("Decrease Value"))); m_map.insert(m_categories[9], KoID(COMPOSITE_INC_VALUE , i18n("Increase Value"))); } const KoCompositeOpRegistry& KoCompositeOpRegistry::instance() { K_GLOBAL_STATIC(KoCompositeOpRegistry, registry); return *registry; } KoID KoCompositeOpRegistry::getDefaultCompositeOp() const { return KoID(COMPOSITE_OVER, i18n("Normal")); } KoID KoCompositeOpRegistry::getKoID(const QString& compositeOpID) const { KoIDMap::const_iterator itr = qFind(m_map.begin(), m_map.end(), KoID(compositeOpID)); return (itr != m_map.end()) ? *itr : KoID(); } KoCompositeOpRegistry::KoIDMap KoCompositeOpRegistry::getCompositeOps() const { return m_map; } KoCompositeOpRegistry::KoIDList KoCompositeOpRegistry::getCategories() const { return m_categories; } KoCompositeOpRegistry::KoIDList KoCompositeOpRegistry::getCompositeOps(const KoID& category, const KoColorSpace* colorSpace) const { qint32 num = m_map.count(category); KoIDMap::const_iterator beg = m_map.find(category); KoIDMap::const_iterator end = beg + num; KoIDList list; #if QT_VERSION >= 0x040700 list.reserve(num); #endif if(colorSpace) { for(; beg!=end; ++beg){ if(colorSpace->hasCompositeOp(beg->id())) list.push_back(*beg); } } else { for(; beg!=end; ++beg) list.push_back(*beg); } return list; } KoCompositeOpRegistry::KoIDList KoCompositeOpRegistry::getCompositeOps(const KoColorSpace* colorSpace) const { KoIDMap::const_iterator beg = m_map.begin(); KoIDMap::const_iterator end = m_map.end(); KoIDList list; #if QT_VERSION >= 0x040700 list.reserve(m_map.size()); #endif if(colorSpace) { for(; beg!=end; ++beg){ if(colorSpace->hasCompositeOp(beg->id())) list.push_back(*beg); } } else { for(; beg!=end; ++beg) list.push_back(*beg); } return list; } bool KoCompositeOpRegistry::colorSpaceHasCompositeOp(const KoColorSpace* colorSpace, const KoID& compositeOp) const { return colorSpace ? colorSpace->hasCompositeOp(compositeOp.id()) : false; } diff --git a/libs/pigment/KoCompositeOpRegistry.h b/libs/pigment/KoCompositeOpRegistry.h index ce94586f931..ed27d517ff3 100644 --- a/libs/pigment/KoCompositeOpRegistry.h +++ b/libs/pigment/KoCompositeOpRegistry.h @@ -1,168 +1,169 @@ /* * Copyright (c) 2005 Adrian Page * Copyright (c) 2011 Silvio Heinrich * * 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 2.1 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; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #ifndef KOCOMPOSITEOPREGISTRY_H #define KOCOMPOSITEOPREGISTRY_H #include #include #include #include #include #include "pigment_export.h" class KoColorSpace; #include const QString COMPOSITE_OVER = "normal"; const QString COMPOSITE_ERASE = "erase"; const QString COMPOSITE_IN = "in"; const QString COMPOSITE_OUT = "out"; const QString COMPOSITE_ALPHA_DARKEN = "alphadarken"; const QString COMPOSITE_XOR = "xor"; const QString COMPOSITE_PLUS = "plus"; const QString COMPOSITE_MINUS = "minus"; const QString COMPOSITE_ADD = "add"; const QString COMPOSITE_SUBTRACT = "subtract"; const QString COMPOSITE_INVERSE_SUBTRACT = "inverse_subtract"; const QString COMPOSITE_DIFF = "diff"; const QString COMPOSITE_MULT = "multiply"; const QString COMPOSITE_DIVIDE = "divide"; const QString COMPOSITE_ARC_TANGENT = "arc_tangent"; const QString COMPOSITE_GEOMETRIC_MEAN = "geometric_mean"; const QString COMPOSITE_ADDITIVE_SUBTRACTIVE = "additive_subtractive"; const QString COMPOSITE_EQUIVALENCE = "equivalence"; const QString COMPOSITE_ALLANON = "allanon"; const QString COMPOSITE_PARALLEL = "parallel"; const QString COMPOSITE_GRAIN_MERGE = "grain_merge"; const QString COMPOSITE_GRAIN_EXTRACT = "grain_extract"; const QString COMPOSITE_EXCLUSION = "exclusion"; const QString COMPOSITE_HARD_MIX = "hard mix"; const QString COMPOSITE_OVERLAY = "overlay"; const QString COMPOSITE_BEHIND = "behind"; const QString COMPOSITE_DARKEN = "darken"; const QString COMPOSITE_BURN = "burn";//this is also known as 'color burn'. const QString COMPOSITE_LINEAR_BURN = "linear_burn"; const QString COMPOSITE_GAMMA_DARK = "gamma_dark"; const QString COMPOSITE_LIGHTEN = "lighten"; const QString COMPOSITE_DODGE = "dodge"; const QString COMPOSITE_LINEAR_DODGE = "linear_dodge"; const QString COMPOSITE_SCREEN = "screen"; const QString COMPOSITE_HARD_LIGHT = "hard_light"; const QString COMPOSITE_SOFT_LIGHT_PHOTOSHOP = "soft_light"; const QString COMPOSITE_SOFT_LIGHT_SVG = "soft_light_svg"; const QString COMPOSITE_GAMMA_LIGHT = "gamma_light"; const QString COMPOSITE_VIVID_LIGHT = "vivid_light"; const QString COMPOSITE_LINEAR_LIGHT = "linear light"; const QString COMPOSITE_PIN_LIGHT = "pin_light"; const QString COMPOSITE_HUE = "hue"; const QString COMPOSITE_COLOR = "color"; const QString COMPOSITE_SATURATION = "saturation"; const QString COMPOSITE_INC_SATURATION = "inc_saturation"; const QString COMPOSITE_DEC_SATURATION = "dec_saturation"; const QString COMPOSITE_LUMINIZE = "luminize"; const QString COMPOSITE_INC_LUMINOSITY = "inc_luminosity"; const QString COMPOSITE_DEC_LUMINOSITY = "dec_luminosity"; const QString COMPOSITE_HUE_HSV = "hue_hsv"; const QString COMPOSITE_COLOR_HSV = "color_hsv"; const QString COMPOSITE_SATURATION_HSV = "saturation_hsv"; const QString COMPOSITE_INC_SATURATION_HSV = "inc_saturation_hsv"; const QString COMPOSITE_DEC_SATURATION_HSV = "dec_saturation_hsv"; const QString COMPOSITE_VALUE = "value"; const QString COMPOSITE_INC_VALUE = "inc_value"; const QString COMPOSITE_DEC_VALUE = "dec_value"; const QString COMPOSITE_HUE_HSL = "hue_hsl"; const QString COMPOSITE_COLOR_HSL = "color_hsl"; const QString COMPOSITE_SATURATION_HSL = "saturation_hsl"; const QString COMPOSITE_INC_SATURATION_HSL = "inc_saturation_hsl"; const QString COMPOSITE_DEC_SATURATION_HSL = "dec_saturation_hsl"; const QString COMPOSITE_LIGHTNESS = "lightness"; const QString COMPOSITE_INC_LIGHTNESS = "inc_lightness"; const QString COMPOSITE_DEC_LIGHTNESS = "dec_lightness"; const QString COMPOSITE_HUE_HSI = "hue_hsi"; const QString COMPOSITE_COLOR_HSI = "color_hsi"; const QString COMPOSITE_SATURATION_HSI = "saturation_hsi"; const QString COMPOSITE_INC_SATURATION_HSI = "inc_saturation_hsi"; const QString COMPOSITE_DEC_SATURATION_HSI = "dec_saturation_hsi"; const QString COMPOSITE_INTENSITY = "intensity"; const QString COMPOSITE_INC_INTENSITY = "inc_intensity"; const QString COMPOSITE_DEC_INTENSITY = "dec_intensity"; const QString COMPOSITE_COPY = "copy"; const QString COMPOSITE_COPY_RED = "copy_red"; const QString COMPOSITE_COPY_GREEN = "copy_green"; const QString COMPOSITE_COPY_BLUE = "copy_blue"; const QString COMPOSITE_COLORIZE = "colorize"; const QString COMPOSITE_BUMPMAP = "bumpmap"; +const QString COMPOSITE_COMBINE_NORMAL = "combine_normal"; const QString COMPOSITE_CLEAR = "clear"; const QString COMPOSITE_DISSOLVE = "dissolve"; const QString COMPOSITE_DISPLACE = "displace"; const QString COMPOSITE_NO = "nocomposition"; const QString COMPOSITE_PASS_THROUGH = "pass through"; // XXX: not implemented anywhere yet const QString COMPOSITE_DARKER_COLOR = "darker color"; const QString COMPOSITE_LIGHTER_COLOR = "lighter color"; const QString COMPOSITE_UNDEF = "undefined"; class PIGMENTCMS_EXPORT KoCompositeOpRegistry { typedef QMultiMap KoIDMap; typedef QList KoIDList; KoCompositeOpRegistry(); public: static const KoCompositeOpRegistry& instance(); KoID getDefaultCompositeOp() const; KoID getKoID(const QString& compositeOpID) const; KoIDMap getCompositeOps() const; KoIDList getCategories() const; KoIDList getCompositeOps(const KoColorSpace* colorSpace) const; KoIDList getCompositeOps(const KoID& category, const KoColorSpace* colorSpace=0) const; bool colorSpaceHasCompositeOp(const KoColorSpace* colorSpace, const KoID& compositeOp) const; template KoIDList filterCompositeOps(TKoIdIterator begin, TKoIdIterator end, const KoColorSpace* colorSpace, bool removeInvaliOps=true) const { KoIDList list; for(; begin!=end; ++begin){ if( colorSpaceHasCompositeOp(colorSpace, *begin) == removeInvaliOps) list.push_back(*begin); } return list; } private: KoIDList m_categories; KoIDMap m_map; }; #endif // KOCOMPOSITEOPREGISTRY_H diff --git a/libs/pigment/compositeops/KoCompositeOpFunctions.h b/libs/pigment/compositeops/KoCompositeOpFunctions.h index 86f1c08e88f..b695e3d9ec5 100644 --- a/libs/pigment/compositeops/KoCompositeOpFunctions.h +++ b/libs/pigment/compositeops/KoCompositeOpFunctions.h @@ -1,399 +1,422 @@ /* * Copyright (c) 2011 Silvio Heinrich * * 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 2.1 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; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #ifndef KOCOMPOSITEOP_FUNCTIONS_H_ #define KOCOMPOSITEOP_FUNCTIONS_H_ #include +template +inline void cfReorientedNormalMapCombine(TReal srcR, TReal srcG, TReal srcB, TReal& dstR, TReal& dstG, TReal& dstB) +{ + // see http://blog.selfshadow.com/publications/blending-in-detail/ by Barre-Brisebois and Hill + TReal tx = 2*srcR-1; + TReal ty = 2*srcG-1; + TReal tz = 2*srcB; + TReal ux = -2*dstR+1; + TReal uy = -2*dstG+1; + TReal uz = 2*dstB-1; + TReal k = (tx*ux+ty*uy+tz*uz)/tz; // dot(t,u)/t.z + TReal rx = tx*k-ux; + TReal ry = ty*k-uy; + TReal rz = tz*k-uz; + k = 1/sqrt(rx*rx+ry*ry+rz*rz); // normalize result + rx *= k; + ry *= k; + rz *= k; + dstR = rx*0.5+0.5; + dstG = ry*0.5+0.5; + dstB = rz*0.5+0.5; +} + template inline void cfColor(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { TReal lum = getLightness(dr, dg, db); dr = sr; dg = sg; db = sb; setLightness(dr, dg, db, lum); } template inline void cfLightness(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { setLightness(dr, dg, db, getLightness(sr, sg, sb)); } template inline void cfIncreaseLightness(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { addLightness(dr, dg, db, getLightness(sr, sg, sb)); } template inline void cfDecreaseLightness(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { addLightness(dr, dg, db, getLightness(sr, sg, sb) - TReal(1.0)); } template inline void cfSaturation(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { TReal sat = getSaturation(sr, sg, sb); TReal light = getLightness(dr, dg, db); setSaturation(dr, dg, db, sat); setLightness(dr, dg, db, light); } template inline void cfIncreaseSaturation(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { using namespace Arithmetic; TReal sat = lerp(getSaturation(dr,dg,db), unitValue(), getSaturation(sr,sg,sb)); TReal light = getLightness(dr, dg, db); setSaturation(dr, dg, db, sat); setLightness(dr, dg, db, light); } template inline void cfDecreaseSaturation(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { using namespace Arithmetic; TReal sat = lerp(zeroValue(), getSaturation(dr,dg,db), getSaturation(sr,sg,sb)); TReal light = getLightness(dr, dg, db); setSaturation(dr, dg, db, sat); setLightness(dr, dg, db, light); } template inline void cfHue(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { TReal sat = getSaturation(dr, dg, db); TReal lum = getLightness(dr, dg, db); dr = sr; dg = sg; db = sb; setSaturation(dr, dg, db, sat); setLightness(dr, dg, db, lum); } template inline void cfDarkerColor(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { TReal lum = getLightness(dr, dg, db); TReal lum2 = getLightness(sr, sg, sb); if (lum inline void cfLighterColor(TReal sr, TReal sg, TReal sb, TReal& dr, TReal& dg, TReal& db) { TReal lum = getLightness(dr, dg, db); TReal lum2 = getLightness(sr, sg, sb); if (lum>lum2) { sr = dr; sg = dg; sb = db; } else { dr = sr; dg = sg; db = sb; } } template inline T cfColorBurn(T src, T dst) { using namespace Arithmetic; if(dst == unitValue()) return unitValue(); T invDst = inv(dst); if(src < invDst) return zeroValue(); return inv(clamp(div(invDst, src))); } template inline T cfLinearBurn(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; return clamp(composite_type(src) + dst - unitValue()); } template inline T cfColorDodge(T src, T dst) { using namespace Arithmetic; if(dst == zeroValue()) return zeroValue(); T invSrc = inv(src); if(invSrc < dst) return unitValue(); return Arithmetic::clamp(div(dst, invSrc)); } template inline T cfAddition(T src, T dst) { typedef typename KoColorSpaceMathsTraits::compositetype composite_type; return Arithmetic::clamp(composite_type(src) + dst); } template inline T cfSubtract(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; return clamp(composite_type(dst) - src); } template inline T cfInverseSubtract(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; return clamp(composite_type(dst) - inv(src)); } template inline T cfExclusion(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; composite_type x = mul(src, dst); return clamp(composite_type(dst) + src - (x + x)); } template inline T cfDivide(T src, T dst) { using namespace Arithmetic; //typedef typename KoColorSpaceMathsTraits::compositetype composite_type; if(src == zeroValue()) return (dst == zeroValue()) ? zeroValue() : unitValue(); return clamp(div(dst, src)); } template inline T cfHardLight(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; composite_type src2 = composite_type(src) + src; if(src > halfValue()) { // screen(src*2.0 - 1.0, dst) src2 -= unitValue(); return T((src2+dst) - (src2*dst / unitValue())); } // multiply(src*2.0, dst) return clamp(src2*dst / unitValue()); } template inline T cfSoftLightSvg(T src, T dst) { using namespace Arithmetic; qreal fsrc = scale(src); qreal fdst = scale(dst); if(fsrc > 0.5f) { qreal D = (fdst > 0.25f) ? sqrt(fdst) : ((16.0f*fdst - 12.0)*fdst + 4.0f)*fdst; return scale(fdst + (2.0f*fsrc - 1.0f) * (D - fdst)); } return scale(fdst - (1.0f - 2.0f * fsrc) * fdst * (1.0f - fdst)); } template inline T cfSoftLight(T src, T dst) { using namespace Arithmetic; qreal fsrc = scale(src); qreal fdst = scale(dst); if(fsrc > 0.5f) { return scale(fdst + (2.0f * fsrc - 1.0f) * (sqrt(fdst) - fdst)); } return scale(fdst - (1.0f - 2.0f*fsrc) * fdst * (1.0f - fdst)); } template inline T cfVividLight(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; if(src < halfValue()) { if(src == zeroValue()) return (dst == unitValue()) ? unitValue() : zeroValue(); // min(1,max(0,1-(1-dst) / (2*src))) composite_type src2 = composite_type(src) + src; composite_type dsti = inv(dst); return clamp(unitValue() - (dsti * unitValue() / src2)); } if(src == unitValue()) return (dst == zeroValue()) ? zeroValue() : unitValue(); // min(1,max(0, dst / (2*(1-src))) composite_type srci2 = inv(src); srci2 += srci2; return clamp(composite_type(dst) * unitValue() / srci2); } template inline T cfPinLight(T src, T dst) { typedef typename KoColorSpaceMathsTraits::compositetype composite_type; // TODO: verify that the formula is correct (the first max would be useless here) // max(0, max(2*src-1, min(dst, 2*src))) composite_type src2 = composite_type(src) + src; composite_type a = qMin(dst, src2); composite_type b = qMax(src2-Arithmetic::unitValue(), a); return T(b); } template inline T cfArcTangent(T src, T dst) { using namespace Arithmetic; if(dst == zeroValue()) return (src == zeroValue()) ? zeroValue() : unitValue(); return scale(2.0 * atan(scale(src) / scale(dst)) / Arithmetic::pi); } template inline T cfAllanon(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; // (dst + src) / 2 [or (dst + src) * 0.5] return T((composite_type(src) + dst) * halfValue() / unitValue()); } template inline T cfLinearLight(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; // min(1,max(0,(dst + 2*src)-1)) return clamp((composite_type(src) + src + dst) - unitValue()); } template inline T cfParallel(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; // min(max(2 / (1/dst + 1/src), 0), 1) composite_type unit = unitValue(); composite_type s = (src != zeroValue()) ? div(unit, src) : unit; composite_type d = (dst != zeroValue()) ? div(unit, dst) : unit; return clamp((unit+unit) * unit / (d+s)); } template inline T cfEquivalence(T src, T dst) { typedef typename KoColorSpaceMathsTraits::compositetype composite_type; // 1 - abs(dst - src) composite_type x = composite_type(dst) - src; return (x < Arithmetic::zeroValue()) ? T(-x) : T(x); } template inline T cfGrainMerge(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; return clamp(composite_type(dst) + src - halfValue()); } template inline T cfGrainExtract(T src, T dst) { using namespace Arithmetic; typedef typename KoColorSpaceMathsTraits::compositetype composite_type; return clamp(composite_type(dst) - src + halfValue()); } template inline T cfHardMix(T src, T dst) { return (dst > Arithmetic::halfValue()) ? cfColorDodge(src,dst) : cfColorBurn(src,dst); } template inline T cfAdditiveSubtractive(T src, T dst) { using namespace Arithmetic; // min(1,max(0,abs(sqr(CB)-sqr(CT)))) qreal x = sqrt(scale(dst)) - sqrt(scale(src)); return scale((x < 0.0) ? -x : x); } template inline T cfGammaDark(T src, T dst) { using namespace Arithmetic; if(src == zeroValue()) return zeroValue(); // power(dst, 1/src) return scale(pow(scale(dst), 1.0/scale(src))); } template inline T cfGammaLight(T src, T dst) { using namespace Arithmetic; return scale(pow(scale(dst), scale(src))); } template inline T cfGeometricMean(T src, T dst) { using namespace Arithmetic; return scale(sqrt(scale(dst) * scale(src))); } template inline T cfOver(T src, T dst) { Q_UNUSED(dst); return src; } template inline T cfOverlay(T src, T dst) { return cfHardLight(dst, src); } template inline T cfMultiply(T src, T dst) { return Arithmetic::mul(src, dst); } template inline T cfDifference(T src, T dst) { return qMax(src,dst) - qMin(src,dst); } template inline T cfScreen(T src, T dst) { return Arithmetic::unionShapeOpacity(src, dst); } template inline T cfDarkenOnly(T src, T dst) { return qMin(src, dst); } template inline T cfLightenOnly(T src, T dst) { return qMax(src, dst); } #endif // KOCOMPOSITEOP_FUNCTIONS_H_ diff --git a/libs/pigment/compositeops/KoCompositeOps.h b/libs/pigment/compositeops/KoCompositeOps.h index 7240630eae6..8c1d11a6af9 100644 --- a/libs/pigment/compositeops/KoCompositeOps.h +++ b/libs/pigment/compositeops/KoCompositeOps.h @@ -1,228 +1,229 @@ /* * Copyright (c) 2007 Cyrille Berger * Copyright (c) 2011 Silvio Heinrich * * 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 2.1 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; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #ifndef _KOCOMPOSITEOPS_H_ #define _KOCOMPOSITEOPS_H_ #include #include #include #include #include "compositeops/KoCompositeOpGeneric.h" #include "compositeops/KoCompositeOpOver.h" #include "compositeops/KoCompositeOpCopyChannel.h" #include "compositeops/KoCompositeOpAlphaDarken.h" #include "compositeops/KoCompositeOpErase.h" #include "compositeops/KoCompositeOpCopy2.h" #include "compositeops/KoCompositeOpDissolve.h" #include "compositeops/KoCompositeOpBehind.h" #include "KoOptimizedCompositeOpFactory.h" namespace _Private { template struct AddGeneralOps { static void add(KoColorSpace* cs) { Q_UNUSED(cs); } }; template struct OptimizedOpsSelector { static KoCompositeOp* createAlphaDarkenOp(const KoColorSpace *cs) { return new KoCompositeOpAlphaDarken(cs); } static KoCompositeOp* createOverOp(const KoColorSpace *cs) { return new KoCompositeOpOver(cs); } }; template<> struct OptimizedOpsSelector { static KoCompositeOp* createAlphaDarkenOp(const KoColorSpace *cs) { return KoOptimizedCompositeOpFactory::createAlphaDarkenOp32(cs); } static KoCompositeOp* createOverOp(const KoColorSpace *cs) { return KoOptimizedCompositeOpFactory::createOverOp32(cs); } }; template<> struct OptimizedOpsSelector { static KoCompositeOp* createAlphaDarkenOp(const KoColorSpace *cs) { return KoOptimizedCompositeOpFactory::createAlphaDarkenOp32(cs); } static KoCompositeOp* createOverOp(const KoColorSpace *cs) { return KoOptimizedCompositeOpFactory::createOverOp32(cs); } }; template struct AddGeneralOps { typedef typename Traits::channels_type Arg; typedef Arg (*CompositeFunc)(Arg, Arg); static const qint32 alpha_pos = Traits::alpha_pos; template static void add(KoColorSpace* cs, const QString& id, const QString& description, const QString& category) { cs->addCompositeOp(new KoCompositeOpGenericSC(cs, id, description, category)); } static void add(KoColorSpace* cs) { cs->addCompositeOp(OptimizedOpsSelector::createOverOp(cs)); cs->addCompositeOp(OptimizedOpsSelector::createAlphaDarkenOp(cs)); cs->addCompositeOp(new KoCompositeOpCopy2(cs)); cs->addCompositeOp(new KoCompositeOpErase(cs)); cs->addCompositeOp(new KoCompositeOpBehind(cs)); add<&cfOverlay >(cs, COMPOSITE_OVERLAY , i18n("Overlay") , KoCompositeOp::categoryMix()); add<&cfGrainMerge >(cs, COMPOSITE_GRAIN_MERGE , i18n("Grain Merge") , KoCompositeOp::categoryMix()); add<&cfGrainExtract >(cs, COMPOSITE_GRAIN_EXTRACT , i18n("Grain Extract") , KoCompositeOp::categoryMix()); add<&cfHardMix >(cs, COMPOSITE_HARD_MIX , i18n("Hard Mix") , KoCompositeOp::categoryMix()); add<&cfGeometricMean >(cs, COMPOSITE_GEOMETRIC_MEAN, i18n("Geometric Mean"), KoCompositeOp::categoryMix()); add<&cfParallel >(cs, COMPOSITE_PARALLEL , i18n("Parallel") , KoCompositeOp::categoryMix()); add<&cfAllanon >(cs, COMPOSITE_ALLANON , i18n("Allanon") , KoCompositeOp::categoryMix()); add<&cfScreen >(cs, COMPOSITE_SCREEN , i18n("Screen") , KoCompositeOp::categoryLight()); add<&cfColorDodge >(cs, COMPOSITE_DODGE , i18n("Color Dodge") , KoCompositeOp::categoryLight()); add<&cfAddition >(cs, COMPOSITE_LINEAR_DODGE, i18n("Linear Dodge"), KoCompositeOp::categoryLight()); add<&cfLightenOnly >(cs, COMPOSITE_LIGHTEN , i18n("Lighten") , KoCompositeOp::categoryLight()); add<&cfHardLight >(cs, COMPOSITE_HARD_LIGHT , i18n("Hard Light") , KoCompositeOp::categoryLight()); add<&cfSoftLightSvg >(cs, COMPOSITE_SOFT_LIGHT_SVG, i18n("Soft Light (SVG)") , KoCompositeOp::categoryLight()); add<&cfSoftLight >(cs, COMPOSITE_SOFT_LIGHT_PHOTOSHOP, i18n("Soft Light (Photoshop)") , KoCompositeOp::categoryLight()); add<&cfGammaLight >(cs, COMPOSITE_GAMMA_LIGHT , i18n("Gamma Light") , KoCompositeOp::categoryLight()); add<&cfVividLight >(cs, COMPOSITE_VIVID_LIGHT , i18n("Vivid Light") , KoCompositeOp::categoryLight()); add<&cfPinLight >(cs, COMPOSITE_PIN_LIGHT , i18n("Pin Light") , KoCompositeOp::categoryLight()); add<&cfLinearLight >(cs, COMPOSITE_LINEAR_LIGHT, i18n("Linear Light"), KoCompositeOp::categoryLight()); add<&cfColorBurn >(cs, COMPOSITE_BURN , i18n("Color Burn") , KoCompositeOp::categoryDark()); add<&cfLinearBurn >(cs, COMPOSITE_LINEAR_BURN , i18n("Linear Burn"), KoCompositeOp::categoryDark()); add<&cfDarkenOnly >(cs, COMPOSITE_DARKEN , i18n("Darken") , KoCompositeOp::categoryDark()); add<&cfGammaDark >(cs, COMPOSITE_GAMMA_DARK , i18n("Gamma Dark") , KoCompositeOp::categoryDark()); add<&cfAddition >(cs, COMPOSITE_ADD , i18n("Addition") , KoCompositeOp::categoryArithmetic()); add<&cfSubtract >(cs, COMPOSITE_SUBTRACT , i18n("Subtract") , KoCompositeOp::categoryArithmetic()); add<&cfInverseSubtract >(cs, COMPOSITE_INVERSE_SUBTRACT, i18n("Inversed-Subtract"), KoCompositeOp::categoryArithmetic()); add<&cfMultiply >(cs, COMPOSITE_MULT , i18n("Multiply") , KoCompositeOp::categoryArithmetic()); add<&cfDivide >(cs, COMPOSITE_DIVIDE , i18n("Divide") , KoCompositeOp::categoryArithmetic()); add<&cfArcTangent >(cs, COMPOSITE_ARC_TANGENT , i18n("Arcus Tangent") , KoCompositeOp::categoryNegative()); add<&cfDifference >(cs, COMPOSITE_DIFF , i18n("Difference") , KoCompositeOp::categoryNegative()); add<&cfExclusion >(cs, COMPOSITE_EXCLUSION , i18n("Exclusion") , KoCompositeOp::categoryNegative()); add<&cfEquivalence >(cs, COMPOSITE_EQUIVALENCE , i18n("Equivalence") , KoCompositeOp::categoryNegative()); add<&cfAdditiveSubtractive >(cs, COMPOSITE_ADDITIVE_SUBTRACTIVE , i18n("Additive-Subtractive") , KoCompositeOp::categoryNegative()); cs->addCompositeOp(new KoCompositeOpDissolve(cs, KoCompositeOp::categoryMisc())); } }; template struct AddRGBOps { static void add(KoColorSpace* cs) { Q_UNUSED(cs); } }; template struct AddRGBOps { typedef float Arg; static const qint32 red_pos = Traits::red_pos; static const qint32 green_pos = Traits::green_pos; static const qint32 blue_pos = Traits::blue_pos; template static void add(KoColorSpace* cs, const QString& id, const QString& description, const QString& category) { cs->addCompositeOp(new KoCompositeOpGenericHSL(cs, id, description, category)); } static void add(KoColorSpace* cs) { cs->addCompositeOp(new KoCompositeOpCopyChannel(cs, COMPOSITE_COPY_RED , i18n("Copy Red") , KoCompositeOp::categoryMisc())); cs->addCompositeOp(new KoCompositeOpCopyChannel(cs, COMPOSITE_COPY_GREEN, i18n("Copy Green"), KoCompositeOp::categoryMisc())); cs->addCompositeOp(new KoCompositeOpCopyChannel(cs, COMPOSITE_COPY_BLUE , i18n("Copy Blue") , KoCompositeOp::categoryMisc())); + add<&cfReorientedNormalMapCombine >(cs, COMPOSITE_COMBINE_NORMAL, i18n("Combine Normal Maps"), KoCompositeOp::categoryMisc()); add<&cfColor >(cs, COMPOSITE_COLOR , i18n("Color") , KoCompositeOp::categoryHSY()); add<&cfHue >(cs, COMPOSITE_HUE , i18n("Hue") , KoCompositeOp::categoryHSY()); add<&cfSaturation >(cs, COMPOSITE_SATURATION , i18n("Saturation") , KoCompositeOp::categoryHSY()); add<&cfIncreaseSaturation >(cs, COMPOSITE_INC_SATURATION, i18n("Increase Saturation"), KoCompositeOp::categoryHSY()); add<&cfDecreaseSaturation >(cs, COMPOSITE_DEC_SATURATION, i18n("Decrease Saturation"), KoCompositeOp::categoryHSY()); add<&cfLightness >(cs, COMPOSITE_LUMINIZE , i18n("Luminosity") , KoCompositeOp::categoryHSY()); add<&cfIncreaseLightness >(cs, COMPOSITE_INC_LUMINOSITY, i18n("Increase Luminosity"), KoCompositeOp::categoryHSY()); add<&cfDecreaseLightness >(cs, COMPOSITE_DEC_LUMINOSITY, i18n("Decrease Luminosity"), KoCompositeOp::categoryHSY()); add<&cfDarkerColor >(cs, COMPOSITE_DARKER_COLOR, i18n("Darker Color"), KoCompositeOp::categoryDark());//darker color as PSD does it// add<&cfLighterColor >(cs, COMPOSITE_LIGHTER_COLOR, i18n("Lighter Color"), KoCompositeOp::categoryLight());//lighter color as PSD does it// add<&cfColor >(cs, COMPOSITE_COLOR_HSI , i18n("Color HSI") , KoCompositeOp::categoryHSI()); add<&cfHue >(cs, COMPOSITE_HUE_HSI , i18n("Hue HSI") , KoCompositeOp::categoryHSI()); add<&cfSaturation >(cs, COMPOSITE_SATURATION_HSI , i18n("Saturation HSI") , KoCompositeOp::categoryHSI()); add<&cfIncreaseSaturation >(cs, COMPOSITE_INC_SATURATION_HSI, i18n("Increase Saturation HSI"), KoCompositeOp::categoryHSI()); add<&cfDecreaseSaturation >(cs, COMPOSITE_DEC_SATURATION_HSI, i18n("Decrease Saturation HSI"), KoCompositeOp::categoryHSI()); add<&cfLightness >(cs, COMPOSITE_INTENSITY , i18n("Intensity") , KoCompositeOp::categoryHSI()); add<&cfIncreaseLightness >(cs, COMPOSITE_INC_INTENSITY , i18n("Increase Intensity") , KoCompositeOp::categoryHSI()); add<&cfDecreaseLightness >(cs, COMPOSITE_DEC_INTENSITY , i18n("Decrease Intensity") , KoCompositeOp::categoryHSI()); add<&cfColor >(cs, COMPOSITE_COLOR_HSL , i18n("Color HSL") , KoCompositeOp::categoryHSL()); add<&cfHue >(cs, COMPOSITE_HUE_HSL , i18n("Hue HSL") , KoCompositeOp::categoryHSL()); add<&cfSaturation >(cs, COMPOSITE_SATURATION_HSL , i18n("Saturation HSL") , KoCompositeOp::categoryHSL()); add<&cfIncreaseSaturation >(cs, COMPOSITE_INC_SATURATION_HSL, i18n("Increase Saturation HSL"), KoCompositeOp::categoryHSL()); add<&cfDecreaseSaturation >(cs, COMPOSITE_DEC_SATURATION_HSL, i18n("Decrease Saturation HSL"), KoCompositeOp::categoryHSL()); add<&cfLightness >(cs, COMPOSITE_LIGHTNESS , i18n("Lightness") , KoCompositeOp::categoryHSL()); add<&cfIncreaseLightness >(cs, COMPOSITE_INC_LIGHTNESS , i18n("Increase Lightness") , KoCompositeOp::categoryHSL()); add<&cfDecreaseLightness >(cs, COMPOSITE_DEC_LIGHTNESS , i18n("Decrease Lightness") , KoCompositeOp::categoryHSL()); add<&cfColor >(cs, COMPOSITE_COLOR_HSV , i18n("Color HSV") , KoCompositeOp::categoryHSV()); add<&cfHue >(cs, COMPOSITE_HUE_HSV , i18n("Hue HSV") , KoCompositeOp::categoryHSV()); add<&cfSaturation >(cs, COMPOSITE_SATURATION_HSV , i18n("Saturation HSV") , KoCompositeOp::categoryHSV()); add<&cfIncreaseSaturation >(cs, COMPOSITE_INC_SATURATION_HSV, i18n("Increase Saturation HSV"), KoCompositeOp::categoryHSV()); add<&cfDecreaseSaturation >(cs, COMPOSITE_DEC_SATURATION_HSV, i18n("Decrease Saturation HSV"), KoCompositeOp::categoryHSV()); add<&cfLightness >(cs, COMPOSITE_VALUE , i18n("Value") , KoCompositeOp::categoryHSV()); add<&cfIncreaseLightness >(cs, COMPOSITE_INC_VALUE , i18n("Increase Value") , KoCompositeOp::categoryHSV()); add<&cfDecreaseLightness >(cs, COMPOSITE_DEC_VALUE , i18n("Decrease Value") , KoCompositeOp::categoryHSV()); } }; } /** * This function add to the colorspace all the composite ops defined by * the pigment library. */ template void addStandardCompositeOps(KoColorSpace* cs) { typedef typename _Traits_::channels_type channels_type; static const bool useGeneralOps = true; static const bool useRGBOps = (boost::is_base_of, _Traits_>::value || boost::is_base_of, _Traits_>::value); _Private::AddGeneralOps<_Traits_, useGeneralOps>::add(cs); _Private::AddRGBOps <_Traits_, useRGBOps >::add(cs); } #endif