/* * This file is part of RawTherapee. * * Copyright (c) 2004-2010 Gabor Horvath * * RawTherapee is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * RawTherapee 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with RawTherapee. If not, see . */ #pragma once #include #include #include "cursormanager.h" #include "curvelistener.h" #include "mycurve.h" #include "rtengine/diagonalcurvetypes.h" template class LUT; using LUTf = LUT; class DiagonalCurveDescr { public: DiagonalCurveType type; std::vector x, y; // in case of parametric curves the curve parameters are stored in vector x. In other cases these vectors store the coordinates of the bullets. }; class MyDiagonalCurve final : public MyCurve { private: IdleRegister idle_register; protected: DiagonalCurveDescr curve; int grab_point; // the point that the user is moving by mouse int closest_point; // the point that is the closest from the cursor int lit_point; // the point that is lit when the cursor is near it double clampedX; // clamped grabbed point X coordinates in the [0;1] range double clampedY; // clamped grabbed point Y coordinates in the [0;1] range double deltaX; // signed X distance of the cursor between two consecutive MOTION_NOTIFY double deltaY; // signed Y distance of the cursor between two consecutive MOTION_NOTIFY double distanceX; // X distance from the cursor to the closest point double distanceY; // Y distance from the cursor to the closest point double ugpX; // unclamped grabbed point X coordinate in the graph double ugpY; // unclamped grabbed point Y coordinate in the graph int activeParam; unsigned int* bghist; // histogram values bool bghistvalid; double locallabRef; // Locallab reference value to display in the background void updateDrawingArea (const int handle, const ::Cairo::RefPtr< Cairo::Context> &cr); void interpolate (); void findClosestPoint(); CursorShape motionNotify(CursorShape type, double minDistanceX, double minDistanceY, int num); std::vector get_vector (int veclen) override; void get_LUT (LUTf &lut); // Get the cursor position and unclamped position from the curve given an X value ; BEWARE: can be time consuming, use with care void getCursorPositionFromCurve(float x); void getCursorPositionFromCurve(int x); // Get the cursor position and unclamped value depending on cursor's position in the graph void getCursorPosition(Gdk::EventType evType, bool isHint, int evX, int evY, Gdk::ModifierType modifierKey); public: MyDiagonalCurve (); ~MyDiagonalCurve () override; std::vector getPoints () override; void setPoints (const std::vector& p) override; void setType (DiagonalCurveType t); bool on_draw(const ::Cairo::RefPtr< Cairo::Context> &cr) override; bool handleEvents (GdkEvent* event) override; void setActiveParam (int ac); void reset (const std::vector &resetCurve, double identityValue = 0.5) override; void updateBackgroundHistogram (const LUTu & hist); void pipetteMouseOver (CurveEditor *ce, EditDataProvider *provider, int modifierKey) override; bool pipetteButton1Pressed(EditDataProvider *provider, int modifierKey) override; void pipetteButton1Released(EditDataProvider *provider) override; void pipetteDrag(EditDataProvider *provider, int modifierKey) override; void updateLocallabBackground(double ref); void setPos(double pos, int chanIdx) override; void stopNumericalAdjustment() override; };