From a92a498ac0eea6bd669f2dc5b2884ea56ff82169 Mon Sep 17 00:00:00 2001 From: shun-iwasawa Date: Aug 29 2019 02:30:01 +0000 Subject: curve type for gradient fxs --- diff --git a/stuff/config/current.txt b/stuff/config/current.txt index 19e32cf..a6cd128 100644 --- a/stuff/config/current.txt +++ b/stuff/config/current.txt @@ -240,6 +240,7 @@ "STD_linearGradientFx.wave_phase" "Phase" "STD_linearGradientFx.color1" "Color 1" "STD_linearGradientFx.color2" "Color 2" + "STD_linearGradientFx.curveType" "Type" "STD_linearWaveFx" "Linear Wave" "STD_linearWaveFx.period" "Period" @@ -267,6 +268,7 @@ "STD_multiLinearGradientFx.wave_frequency" "Frequency" "STD_multiLinearGradientFx.wave_phase" "Phase" "STD_multiLinearGradientFx.colors" "Colors" + "STD_multiLinearGradientFx.curveType" "Type" "STD_localBlurFx" "Local Blur" "STD_localBlurFx.value" "Intensity" @@ -324,6 +326,7 @@ "STD_radialGradientFx.innerperiod" "Inner Size" "STD_radialGradientFx.color1" "Color 1" "STD_radialGradientFx.color2" "Color 2" + "STD_radialGradientFx.curveType" "Type" "STD_randomWaveFx" "Random Wave" @@ -358,6 +361,7 @@ "STD_multiRadialGradientFx.count" "Quantity" "STD_multiRadialGradientFx.cycle" "Cycle" "STD_multiRadialGradientFx.colors" "Colors" + "STD_multiRadialGradientFx.curveType" "Type" "STD_raylitFx" "Raylit" "STD_raylitFx.p" "Center X" diff --git a/stuff/profiles/layouts/fxs/STD_linearGradientFx.xml b/stuff/profiles/layouts/fxs/STD_linearGradientFx.xml index 7eeebcb..de531e5 100644 --- a/stuff/profiles/layouts/fxs/STD_linearGradientFx.xml +++ b/stuff/profiles/layouts/fxs/STD_linearGradientFx.xml @@ -4,6 +4,7 @@ color1 color2 color1 color2 + curveType wave_amplitude wave_frequency diff --git a/stuff/profiles/layouts/fxs/STD_multiLinearGradientFx.xml b/stuff/profiles/layouts/fxs/STD_multiLinearGradientFx.xml index 988baef..8084dfc 100644 --- a/stuff/profiles/layouts/fxs/STD_multiLinearGradientFx.xml +++ b/stuff/profiles/layouts/fxs/STD_multiLinearGradientFx.xml @@ -4,6 +4,7 @@ count cycle colors + curveType wave_amplitude wave_frequency diff --git a/stuff/profiles/layouts/fxs/STD_multiRadialGradientFx.xml b/stuff/profiles/layouts/fxs/STD_multiRadialGradientFx.xml index 738463a..8966e16 100644 --- a/stuff/profiles/layouts/fxs/STD_multiRadialGradientFx.xml +++ b/stuff/profiles/layouts/fxs/STD_multiRadialGradientFx.xml @@ -4,6 +4,7 @@ count cycle colors + curveType diff --git a/stuff/profiles/layouts/fxs/STD_radialGradientFx.xml b/stuff/profiles/layouts/fxs/STD_radialGradientFx.xml index 9a9a0d5..a5eb1d2 100644 --- a/stuff/profiles/layouts/fxs/STD_radialGradientFx.xml +++ b/stuff/profiles/layouts/fxs/STD_radialGradientFx.xml @@ -5,6 +5,7 @@ period color2 color1 color2 + curveType diff --git a/toonz/sources/stdfx/gradients.cpp b/toonz/sources/stdfx/gradients.cpp index 6fea2e4..89d516a 100644 --- a/toonz/sources/stdfx/gradients.cpp +++ b/toonz/sources/stdfx/gradients.cpp @@ -13,7 +13,8 @@ namespace { template void doComputeRadialT(TRasterPT ras, TPointD posTrasf, const TSpectrumT &spectrum, double period, - double count, double cycle, const TAffine &aff) { + double count, double cycle, const TAffine &aff, + double inner = 0.0, GradientCurveType type = Linear) { int j; double maxRadius = period * count; double freq = 1.0 / period; @@ -29,8 +30,30 @@ void doComputeRadialT(TRasterPT ras, TPointD posTrasf, t = (radius + cycle) * freq; t -= floor(t); } - // double polinomfactor=(-2*t+3)*(t*t); - *pix++ = spectrum.getPremultipliedValue(t); + + if (t <= inner) + t = 0; + else + t = (t - inner) / (1.0 - inner); + + double factor; + switch (type) { + case Linear: + factor = t; + break; + case EaseIn: + factor = t * t; + break; + case EaseOut: + factor = 1.0 - (1.0 - t) * (1.0 - t); + break; + case EaseInOut: + default: + factor = (-2 * t + 3) * (t * t); + break; + } + *pix++ = spectrum.getPremultipliedValue(factor); + posAux.x += aff.a11; posAux.y += aff.a21; } @@ -39,19 +62,20 @@ void doComputeRadialT(TRasterPT ras, TPointD posTrasf, } ras->unlock(); } -} +} // namespace //------------------------------------------------------------------ void multiRadial(const TRasterP &ras, TPointD posTrasf, const TSpectrumParamP colors, double period, double count, - double cycle, const TAffine &aff, double frame) { + double cycle, const TAffine &aff, double frame, double inner, + GradientCurveType type) { if ((TRaster32P)ras) doComputeRadialT(ras, posTrasf, colors->getValue(frame), period, - count, cycle, aff); + count, cycle, aff, inner, type); else if ((TRaster64P)ras) doComputeRadialT(ras, posTrasf, colors->getValue64(frame), period, - count, cycle, aff); + count, cycle, aff, inner, type); else throw TException("MultiRadialGradientFx: unsupported Pixel Type"); } @@ -63,7 +87,8 @@ template void doComputeLinearT(TRasterPT ras, TPointD posTrasf, const TSpectrumT &spectrum, double period, double count, double w_amplitude, double w_freq, - double w_phase, double cycle, const TAffine &aff) { + double w_phase, double cycle, const TAffine &aff, + GradientCurveType type = EaseInOut) { double shift = 0; double maxRadius = period * count / 2.; double freq = 1.0 / period; @@ -78,16 +103,32 @@ void doComputeLinearT(TRasterPT ras, TPointD posTrasf, T *endPix = pix + ras->getLx(); while (pix < endPix) { if (w_amplitude) shift = w_amplitude * sin(w_freq * posAux.y + w_phase); - double radius = posAux.x + shift; - double t = 1; + double radius = posAux.x + shift; + double t = 1; if (fabs(radius) < maxRadius) { t = (radius + maxRadius + cycle) * freq; t -= floor(t); } else if (radius < 0) - t = 0; - double polinomfactor = (-2 * t + 3) * (t * t); + t = 0; + + double factor; + switch (type) { + case Linear: + factor = t; + break; + case EaseIn: + factor = t * t; + break; + case EaseOut: + factor = 1.0 - (1.0 - t) * (1.0 - t); + break; + case EaseInOut: + default: + factor = (-2 * t + 3) * (t * t); + break; + } // pos.x += 1.0; - *pix++ = spectrum.getPremultipliedValue(polinomfactor); + *pix++ = spectrum.getPremultipliedValue(factor); posAux.x += aff.a11; posAux.y += aff.a21; } @@ -96,19 +137,19 @@ void doComputeLinearT(TRasterPT ras, TPointD posTrasf, } ras->unlock(); } -} +} // namespace //------------------------------------------------------------------ void multiLinear(const TRasterP &ras, TPointD posTrasf, const TSpectrumParamP colors, double period, double count, double amplitude, double freq, double phase, double cycle, - const TAffine &aff, double frame) { + const TAffine &aff, double frame, GradientCurveType type) { if ((TRaster32P)ras) doComputeLinearT(ras, posTrasf, colors->getValue(frame), period, - count, amplitude, freq, phase, cycle, aff); + count, amplitude, freq, phase, cycle, aff, type); else if ((TRaster64P)ras) doComputeLinearT(ras, posTrasf, colors->getValue64(frame), period, - count, amplitude, freq, phase, cycle, aff); + count, amplitude, freq, phase, cycle, aff, type); else throw TException("MultiLinearGradientFx: unsupported Pixel Type"); } diff --git a/toonz/sources/stdfx/gradients.h b/toonz/sources/stdfx/gradients.h index 411512d..2650374 100644 --- a/toonz/sources/stdfx/gradients.h +++ b/toonz/sources/stdfx/gradients.h @@ -15,17 +15,21 @@ struct MultiRAdialParams { double m_gridStep; }; +enum GradientCurveType { EaseInOut = 0, Linear, EaseIn, EaseOut }; + /*---------------------------------------------------------------------------*/ //! Deals with raster tiles and invokes multiradial functions void multiRadial(const TRasterP &ras, TPointD posTrasf, const TSpectrumParamP colors, double period, double count, - double cycle, const TAffine &aff, double frame); + double cycle, const TAffine &aff, double frame, + double inner = 0.0, GradientCurveType type = Linear); void multiLinear(const TRasterP &ras, TPointD posTrasf, const TSpectrumParamP colors, double period, double count, double amplitude, double freq, double phase, double cycle, - const TAffine &aff, double frame); + const TAffine &aff, double frame, + GradientCurveType type = EaseInOut); #endif diff --git a/toonz/sources/stdfx/stdfx.cpp b/toonz/sources/stdfx/stdfx.cpp index cd8499b..2f11f6c 100644 --- a/toonz/sources/stdfx/stdfx.cpp +++ b/toonz/sources/stdfx/stdfx.cpp @@ -174,6 +174,8 @@ class MultiLinearGradientFx final : public TStandardZeraryFx { TDoubleParamP m_wave_phase; TSpectrumParamP m_colors; + TIntEnumParamP m_curveType; + public: MultiLinearGradientFx() : m_period(100) // args, "Period") @@ -182,8 +184,12 @@ public: , m_wave_amplitude(0.0) // args, "Cycle") , m_wave_freq(0.0) // args, "Cycle") , m_wave_phase(0.0) // args, "Cycle") - // , m_colors (0) //args, "Colors") - { + // , m_colors (0) //args, "Colors") + , m_curveType(new TIntEnumParam(EaseInOut, "Ease In-Out")) { + m_curveType->addItem(Linear, "Linear"); + m_curveType->addItem(EaseIn, "Ease In"); + m_curveType->addItem(EaseOut, "Ease Out"); + std::vector colors = { TSpectrum::ColorKey(0, TPixel32::White), TSpectrum::ColorKey(0.33, TPixel32::Yellow), @@ -198,6 +204,8 @@ public: bindParam(this, "wave_frequency", m_wave_freq); bindParam(this, "wave_phase", m_wave_phase); bindParam(this, "colors", m_colors); + bindParam(this, "curveType", m_curveType); + m_period->setValueRange(0, (std::numeric_limits::max)()); m_cycle->setValueRange(0, (std::numeric_limits::max)()); m_wave_amplitude->setValueRange(0, (std::numeric_limits::max)()); @@ -238,6 +246,8 @@ class LinearGradientFx final : public TStandardZeraryFx { TPixelParamP m_color1; TPixelParamP m_color2; + TIntEnumParamP m_curveType; + public: LinearGradientFx() : m_period(100) // args, "Period") @@ -246,14 +256,20 @@ public: , m_wave_phase(0.0) // args, "Cycle") , m_color1(TPixel32::Black) , m_color2(TPixel32::White) - // , m_colors (0) //args, "Colors") - { + // , m_colors (0) //args, "Colors") + , m_curveType(new TIntEnumParam(EaseInOut, "Ease In-Out")) { + m_curveType->addItem(Linear, "Linear"); + m_curveType->addItem(EaseIn, "Ease In"); + m_curveType->addItem(EaseOut, "Ease Out"); + bindParam(this, "period", m_period); bindParam(this, "wave_amplitude", m_wave_amplitude); bindParam(this, "wave_frequency", m_wave_freq); bindParam(this, "wave_phase", m_wave_phase); bindParam(this, "color1", m_color1); bindParam(this, "color2", m_color2); + bindParam(this, "curveType", m_curveType); + m_period->setValueRange(0, std::numeric_limits::max()); m_wave_amplitude->setValueRange(0, std::numeric_limits::max()); m_period->setMeasureName("fxLength"); @@ -346,7 +362,8 @@ void LinearGradientFx::doCompute(TTile &tile, double frame, TAffine aff = ri.m_affine.inv(); TPointD posTrasf = aff * tile.m_pos; multiLinear(tile.getRaster(), posTrasf, m_colors, period, count, w_amplitude, - w_freq, w_phase, cycle, aff, frame); + w_freq, w_phase, cycle, aff, frame, + (GradientCurveType)m_curveType->getValue()); /* if (TRaster32P ras32 = tile.getRaster()) doComputeT( @@ -380,7 +397,8 @@ void MultiLinearGradientFx::doCompute(TTile &tile, double frame, TAffine aff = ri.m_affine.inv(); TPointD posTrasf = aff * tile.m_pos; multiLinear(tile.getRaster(), posTrasf, m_colors, period, count, w_amplitude, - w_freq, w_phase, cycle, aff, frame); + w_freq, w_phase, cycle, aff, frame, + (GradientCurveType)m_curveType->getValue()); /* if (TRaster32P ras32 = tile.getRaster()) doComputeT( @@ -406,20 +424,30 @@ class RadialGradientFx final : public TStandardZeraryFx { TPixelParamP m_color1; TPixelParamP m_color2; + TIntEnumParamP m_curveType; + public: RadialGradientFx() : m_period(100.0) , m_innerperiod(0.0) // args, "Period") , m_color1(TPixel32::White) , m_color2(TPixel32::Transparent) - // , m_colors (0) //args, "Colors") - { + // , m_colors (0) //args, "Colors") + , m_curveType(new TIntEnumParam()) { + m_curveType->addItem(EaseInOut, "Ease In-Out"); + m_curveType->addItem(Linear, "Linear"); + m_curveType->addItem(EaseIn, "Ease In"); + m_curveType->addItem(EaseOut, "Ease Out"); + m_curveType->setDefaultValue(Linear); + m_curveType->setValue(Linear); + m_period->setMeasureName("fxLength"); m_innerperiod->setMeasureName("fxLength"); bindParam(this, "period", m_period); bindParam(this, "innerperiod", m_innerperiod); bindParam(this, "color1", m_color1); bindParam(this, "color2", m_color2); + bindParam(this, "curveType", m_curveType); m_period->setValueRange(0.0, std::numeric_limits::max()); m_innerperiod->setValueRange(0.0, std::numeric_limits::max()); } @@ -458,13 +486,22 @@ class MultiRadialGradientFx final : public TStandardZeraryFx { TDoubleParamP m_cycle; TSpectrumParamP m_colors; + TIntEnumParamP m_curveType; + public: MultiRadialGradientFx() : m_period(100) // args, "Period") , m_count(2) // args, "Count") , m_cycle(0.0) // args, "Count") - // , m_colors (0) //args, "Colors") - { + // , m_colors (0) //args, "Colors") + , m_curveType(new TIntEnumParam()) { + m_curveType->addItem(EaseInOut, "Ease In-Out"); + m_curveType->addItem(Linear, "Linear"); + m_curveType->addItem(EaseIn, "Ease In"); + m_curveType->addItem(EaseOut, "Ease Out"); + m_curveType->setDefaultValue(Linear); + m_curveType->setValue(Linear); + m_period->setMeasureName("fxLength"); std::vector colors = { TSpectrum::ColorKey(0, TPixel32::White), @@ -477,6 +514,7 @@ public: bindParam(this, "count", m_count); bindParam(this, "cycle", m_cycle); bindParam(this, "colors", m_colors); + bindParam(this, "curveType", m_curveType); m_period->setValueRange(0, (std::numeric_limits::max)()); m_cycle->setValueRange(0, (std::numeric_limits::max)()); m_count->setValueRange(0, (std::numeric_limits::max)()); @@ -517,7 +555,7 @@ void MultiRadialGradientFx::doCompute(TTile &tile, double frame, TAffine aff = ri.m_affine.inv(); TPointD posTrasf = aff * tile.m_pos; multiRadial(tile.getRaster(), posTrasf, m_colors, period, count, cycle, aff, - frame); + frame, 0.0, (GradientCurveType)m_curveType->getValue()); } //================================================================== @@ -536,13 +574,12 @@ void RadialGradientFx::doCompute(TTile &tile, double frame, inner = 1 - TConsts::epsilon; std::vector colors = { TSpectrum::ColorKey(0, m_color1->getValue(frame)), - TSpectrum::ColorKey(inner, m_color1->getValue(frame)), TSpectrum::ColorKey(1, m_color2->getValue(frame))}; TSpectrumParamP m_colors = TSpectrumParamP(colors); TAffine aff = ri.m_affine.inv(); TPointD posTrasf = aff * tile.m_pos; multiRadial(tile.getRaster(), posTrasf, m_colors, period, count, cycle, aff, - frame); + frame, inner, (GradientCurveType)m_curveType->getValue()); } //------------------------------------------------------------------